package main import ( "bytes" "errors" "fmt" "github.com/coreos/bbolt" "github.com/lightningnetwork/lnd/channeldb" "github.com/roasbeef/btcd/chaincfg/chainhash" "github.com/roasbeef/btcd/wire" ) // Overview of Nursery Store Storage Hierarchy // // CHAIN SEGMENTATION // // The root directory of a nursery store is bucketed by the chain hash and // the 'utxn' prefix. This allows multiple utxo nurseries for distinct chains // to simultaneously use the same channel.DB instance. This is critical for // providing replay protection and more to isolate chain-specific data in the // multichain setting. // // utxn/ // | // | LAST PURGED + FINALIZED HEIGHTS // | // | Each nursery store tracks a "last graduated height", which records the // | most recent block height for which the nursery store has successfully // | graduated all outputs. It also tracks a "last finalized height", which // | records the last block height that the nursery attempted to graduate // | If a finalized height has kindergarten outputs, the sweep txn for these // | outputs will be stored in the height bucket. This ensure that the same // | txid will be used after restarts. Otherwise, the nursery will be unable // | to recover the txid of kindergarten sweep transaction it has already // | broadcast. // | // ├── last-finalized-height-key: // ├── last-graduated-height-key: // | // | CHANNEL INDEX // | // | The channel index contains a directory for each channel that has a // | non-zero number of outputs being tracked by the nursery store. // | Inside each channel directory are files containing serialized spendable // | outputs that are awaiting some state transition. The name of each file // | contains the outpoint of the spendable output in the file, and is // | prefixed with 4-byte state prefix, indicating whether the spendable // | output is a crib, preschool, or kindergarten, or graduated output. The // | nursery store supports the ability to enumerate all outputs for a // | particular channel, which is useful in constructing nursery reports. // | // ├── channel-index-key/ // │   ├── / <- CHANNEL BUCKET // | |   ├── : // | |   └── : // │   ├── / // | |   └── : // │   └── / // |    ├── : // |    └── : // | // | HEIGHT INDEX // | // | The height index contains a directory for each height at which the // | nursery still has scheduled actions. If an output is a crib or // | kindergarten output, it will have an associated entry in the height // | index. Inside a particular height directory, the structure is similar // | to that of the channel index, containing multiple channel directories, // | each of which contains subdirectories named with a prefixed outpoint // | belonging to the channel. Enumerating these combinations yields a // | relative file path: // | e.g. // // | that can be queried in the channel index to retrieve the serialized // | output. If a height bucket is less than or equal to the current last // | finalized height and has a non-zero number of kindergarten outputs, a // | height bucket will also contain the finalized kindergarten sweep txn // | under the "finalized-kndr-txn" key. // | // └── height-index-key/ //    ├── / <- HEIGHT BUCKET // |   ├── / <- HEIGHT-CHANNEL BUCKET // | |    ├── : "" <- PREFIXED OUTPOINT // | |    └── : "" // |   ├── / // | |    └── : "" //    | └── finalized-kndr-txn: "" | //    └── / //    └── / //    └── : "" //    └── : "" // NurseryStore abstracts the persistent storage layer for the utxo nursery. // Concretely, it stores commitment and htlc outputs until any time-bounded // constraints have fully matured. The store exposes methods for enumerating its // contents, and persisting state transitions detected by the utxo nursery. type NurseryStore interface { // Incubate registers a set of CSV delayed outputs (incoming HTLC's on // our commitment transaction, or a commitment output), and a slice of // outgoing htlc outputs to be swept back into the user's wallet. The // event is persisted to disk, such that the nursery can resume the // incubation process after a potential crash. Incubate([]kidOutput, []babyOutput) error // CribToKinder atomically moves a babyOutput in the crib bucket to the // kindergarten bucket. Baby outputs are outgoing HTLC's which require // us to go to the second-layer to claim. The now mature kidOutput // contained in the babyOutput will be stored as it waits out the // kidOutput's CSV delay. CribToKinder(*babyOutput) error // PreschoolToKinder atomically moves a kidOutput from the preschool // bucket to the kindergarten bucket. This transition should be // executed after receiving confirmation of the preschool output. // Incoming HTLC's we need to go to the second-layer to claim, and also // our commitment outputs fall into this class. PreschoolToKinder(*kidOutput) error // GraduateKinder atomically moves the kindergarten class at the // provided height into the graduated status. This involves removing the // kindergarten entries from both the height and channel indexes, and // cleaning up the finalized kindergarten sweep txn. The height bucket // will be opportunistically pruned from the height index as outputs are // removed. GraduateKinder(height uint32) error // FetchPreschools returns a list of all outputs currently stored in // the preschool bucket. FetchPreschools() ([]kidOutput, error) // FetchClass returns a list of kindergarten and crib outputs whose // timelocks expire at the given height. If the kindergarten class at // this height hash been finalized previously, via FinalizeKinder, it // will also returns the finalized kindergarten sweep txn. FetchClass(height uint32) (*wire.MsgTx, []kidOutput, []babyOutput, error) // FinalizeKinder accepts a block height and the kindergarten sweep txn // computed for this height. Upon startup, we will rebroadcast any // finalized kindergarten txns instead of signing a new txn, as this // result in a different txid from a preceding broadcast. FinalizeKinder(height uint32, tx *wire.MsgTx) error // LastFinalizedHeight returns the last block height for which the // nursery store finalized a kindergarten class. LastFinalizedHeight() (uint32, error) // GraduateHeight records the provided height as the last height for // which the nursery store successfully graduated all outputs. GraduateHeight(height uint32) error // LastGraduatedHeight returns the last block height for which the // nursery store successfully graduated all outputs. LastGraduatedHeight() (uint32, error) // HeightsBelowOrEqual returns the lowest non-empty heights in the // height index, that exist at or below the provided upper bound. HeightsBelowOrEqual(height uint32) ([]uint32, error) // ForChanOutputs iterates over all outputs being incubated for a // particular channel point. This method accepts a callback that allows // the caller to process each key-value pair. The key will be a prefixed // outpoint, and the value will be the serialized bytes for an output, // whose type should be inferred from the key's prefix. ForChanOutputs(*wire.OutPoint, func([]byte, []byte) error) error // ListChannels returns all channels the nursery is currently tracking. ListChannels() ([]wire.OutPoint, error) // IsMatureChannel determines the whether or not all of the outputs in a // particular channel bucket have been marked as graduated. IsMatureChannel(*wire.OutPoint) (bool, error) // RemoveChannel channel erases all entries from the channel bucket for // the provided channel point, this method should only be called if // IsMatureChannel indicates the channel is ready for removal. RemoveChannel(*wire.OutPoint) error } var ( // utxnChainPrefix is used to prefix a particular chain hash and create // the root-level, chain-segmented bucket for each nursery store. utxnChainPrefix = []byte("utxn") // lastFinalizedHeightKey is a static key used to locate nursery store's // last finalized height. lastFinalizedHeightKey = []byte("last-finalized-height") // lastGraduatedHeightKey is a static key used to retrieve the height of // the last bucket that successfully graduated all outputs. lastGraduatedHeightKey = []byte("last-graduated-height") // channelIndexKey is a static key used to lookup the bucket containing // all of the nursery's active channels. channelIndexKey = []byte("channel-index") // channelIndexKey is a static key used to retrieve a directory // containing all heights for which the nursery will need to take // action. heightIndexKey = []byte("height-index") // finalizedKndrTxnKey is a static key that can be used to locate a // finalized kindergarten sweep txn. finalizedKndrTxnKey = []byte("finalized-kndr-txn") ) // Defines the state prefixes that will be used to persistently track an // output's progress through the nursery. // NOTE: Each state prefix MUST be exactly 4 bytes in length, the nursery logic // depends on the ability to create keys for a different state by overwriting // an existing state prefix. var ( // cribPrefix is the state prefix given to htlc outputs waiting for // their first-stage, absolute locktime to elapse. cribPrefix = []byte("crib") // psclPrefix is the state prefix given to commitment outputs awaiting // the confirmation of the commitment transaction, as this solidifies // the absolute height at which they can be spent. psclPrefix = []byte("pscl") // kndrPrefix is the state prefix given to all CSV delayed outputs, // either from the commitment transaction, or a stage-one htlc // transaction, whose maturity height has solidified. Outputs marked in // this state are in their final stage of incubation within the nursery, // and will be swept into the wallet after waiting out the relative // timelock. kndrPrefix = []byte("kndr") // gradPrefix is the state prefix given to all outputs that have been // completely incubated. Once all outputs have been marked as graduated, // this serves as a persistent marker that the nursery should mark the // channel fully closed in the channeldb. gradPrefix = []byte("grad") ) // prefixChainKey creates the root level keys for the nursery store. The keys // are comprised of a nursery-specific prefix and the intended chain hash that // this nursery store will be used for. This allows multiple nursery stores to // isolate their state when operating on multiple chains or forks. func prefixChainKey(sysPrefix []byte, hash *chainhash.Hash) ([]byte, error) { // Create a buffer to which we will write the system prefix, e.g. // "utxn", followed by the provided chain hash. var pfxChainBuffer bytes.Buffer if _, err := pfxChainBuffer.Write(sysPrefix); err != nil { return nil, err } if _, err := pfxChainBuffer.Write(hash[:]); err != nil { return nil, err } return pfxChainBuffer.Bytes(), nil } // prefixOutputKey creates a serialized key that prefixes the serialized // outpoint with the provided state prefix. The returned bytes will be of the // form . func prefixOutputKey(statePrefix []byte, outpoint *wire.OutPoint) ([]byte, error) { // Create a buffer to which we will first write the state prefix, // followed by the outpoint. var pfxOutputBuffer bytes.Buffer if _, err := pfxOutputBuffer.Write(statePrefix); err != nil { return nil, err } err := writeOutpoint(&pfxOutputBuffer, outpoint) if err != nil { return nil, err } return pfxOutputBuffer.Bytes(), nil } // nurseryStore is a concrete instantiation of a NurseryStore that is backed by // a channeldb.DB instance. type nurseryStore struct { chainHash chainhash.Hash db *channeldb.DB pfxChainKey []byte } // newNurseryStore accepts a chain hash and a channeldb.DB instance, returning // an instance of nurseryStore who's database is properly segmented for the // given chain. func newNurseryStore(chainHash *chainhash.Hash, db *channeldb.DB) (*nurseryStore, error) { // Prefix the provided chain hash with "utxn" to create the key for the // nursery store's root bucket, ensuring each one has proper chain // segmentation. pfxChainKey, err := prefixChainKey(utxnChainPrefix, chainHash) if err != nil { return nil, err } return &nurseryStore{ chainHash: *chainHash, db: db, pfxChainKey: pfxChainKey, }, nil } // Incubate persists the beginning of the incubation process for the // CSV-delayed outputs (commitment and incoming HTLC's), commitment output and // a list of outgoing two-stage htlc outputs. func (ns *nurseryStore) Incubate(kids []kidOutput, babies []babyOutput) error { return ns.db.Update(func(tx *bolt.Tx) error { // If we have any kid outputs to incubate, then we'll attempt // to add each of them to the nursery store. Any duplicate // outputs will be ignored. for _, kid := range kids { if err := ns.enterPreschool(tx, &kid); err != nil { return err } } // Next, we'll Add all htlc outputs to the crib bucket. // Similarly, we'll ignore any outputs that have already been // inserted. for _, baby := range babies { if err := ns.enterCrib(tx, &baby); err != nil { return err } } return nil }) } // CribToKinder atomically moves a babyOutput in the crib bucket to the // kindergarten bucket. The now mature kidOutput contained in the babyOutput // will be stored as it waits out the kidOutput's CSV delay. func (ns *nurseryStore) CribToKinder(bby *babyOutput) error { return ns.db.Update(func(tx *bolt.Tx) error { // First, retrieve or create the channel bucket corresponding to // the baby output's origin channel point. chanPoint := bby.OriginChanPoint() chanBucket, err := ns.createChannelBucket(tx, chanPoint) if err != nil { return err } // The babyOutput should currently be stored in the crib bucket. // So, we create a key that prefixes the babyOutput's outpoint // with the crib prefix, allowing us to reference it in the // store. pfxOutputKey, err := prefixOutputKey(cribPrefix, bby.OutPoint()) if err != nil { return err } // Since the babyOutput is being moved to the kindergarten // bucket, we remove the entry from the channel bucket under the // crib-prefixed outpoint key. if err := chanBucket.Delete(pfxOutputKey); err != nil { return err } // Remove the crib output's entry in the height index. err = ns.removeOutputFromHeight(tx, bby.expiry, chanPoint, pfxOutputKey) if err != nil { return err } // Since we are moving this output from the crib bucket to the // kindergarten bucket, we overwrite the existing prefix of this // key with the kindergarten prefix. copy(pfxOutputKey, kndrPrefix) // Now, serialize babyOutput's encapsulated kidOutput such that // it can be written to the channel bucket under the new // kindergarten-prefixed key. var kidBuffer bytes.Buffer if err := bby.kidOutput.Encode(&kidBuffer); err != nil { return err } kidBytes := kidBuffer.Bytes() // Persist the serialized kidOutput under the // kindergarten-prefixed outpoint key. if err := chanBucket.Put(pfxOutputKey, kidBytes); err != nil { return err } // Now, compute the height at which this kidOutput's CSV delay // will expire. This is done by adding the required delay to // the block height at which the output was confirmed. maturityHeight := bby.ConfHeight() + bby.BlocksToMaturity() // Retrieve or create a height-channel bucket corresponding to // the kidOutput's maturity height. hghtChanBucketCsv, err := ns.createHeightChanBucket(tx, maturityHeight, chanPoint) if err != nil { return err } utxnLog.Tracef("Transitioning (crib -> baby) output for "+ "chan_point=%v at height_index=%v", chanPoint, maturityHeight) // Register the kindergarten output's prefixed output key in the // height-channel bucket corresponding to its maturity height. // This informs the utxo nursery that it should attempt to spend // this output when the blockchain reaches the maturity height. return hghtChanBucketCsv.Put(pfxOutputKey, []byte{}) }) } // PreschoolToKinder atomically moves a kidOutput from the preschool bucket to // the kindergarten bucket. This transition should be executed after receiving // confirmation of the preschool output's commitment transaction. func (ns *nurseryStore) PreschoolToKinder(kid *kidOutput) error { return ns.db.Update(func(tx *bolt.Tx) error { // Create or retrieve the channel bucket corresponding to the // kid output's origin channel point. chanPoint := kid.OriginChanPoint() chanBucket, err := ns.createChannelBucket(tx, chanPoint) if err != nil { return err } // First, we will attempt to remove the existing serialized // output from the channel bucket, where the kid's outpoint will // be prefixed by a preschool prefix. // Generate the key of existing serialized kid output by // prefixing its outpoint with the preschool prefix... pfxOutputKey, err := prefixOutputKey(psclPrefix, kid.OutPoint()) if err != nil { return err } // And remove the old serialized output from the database. if err := chanBucket.Delete(pfxOutputKey); err != nil { return err } // Next, we will write the provided kid outpoint to the channel // bucket, using a key prefixed by the kindergarten prefix. // Convert the preschool prefix key into a kindergarten key for // the same outpoint. copy(pfxOutputKey, kndrPrefix) // Reserialize the kid here to capture any differences in the // new and old kid output, such as the confirmation height. var kidBuffer bytes.Buffer if err := kid.Encode(&kidBuffer); err != nil { return err } kidBytes := kidBuffer.Bytes() // And store the kid output in its channel bucket using the // kindergarten prefixed key. if err := chanBucket.Put(pfxOutputKey, kidBytes); err != nil { return err } // If this output has an absolute time lock, then we'll set the // maturity height directly. var maturityHeight uint32 if kid.BlocksToMaturity() == 0 { maturityHeight = kid.absoluteMaturity } else { // Otherwise, since the CSV delay on the kid output has // now begun ticking, we must insert a record of in the // height index to remind us to revisit this output // once it has fully matured. // // Compute the maturity height, by adding the output's // CSV delay to its confirmation height. maturityHeight = kid.ConfHeight() + kid.BlocksToMaturity() } // In the case of a Late Registration, we've already graduated // the class that this kid is destined for. So we'll bump its // height by one to ensure we don't forget to graduate it. lastGradHeight, err := ns.getLastGraduatedHeight(tx) if err != nil { return err } if maturityHeight <= lastGradHeight { utxnLog.Debugf("Late Registration for kid output=%v "+ "detected: class_height=%v, "+ "last_graduated_height=%v", kid.OutPoint(), maturityHeight, lastGradHeight) maturityHeight = lastGradHeight + 1 } utxnLog.Infof("Transitioning (crib -> kid) output for "+ "chan_point=%v at height_index=%v", chanPoint, maturityHeight) // Create or retrieve the height-channel bucket for this // channel. This method will first create a height bucket for // the given maturity height if none exists. hghtChanBucket, err := ns.createHeightChanBucket(tx, maturityHeight, chanPoint) if err != nil { return err } // Finally, we touch a key in the height-channel created above. // The key is named using a kindergarten prefixed key, signaling // that this CSV delayed output will be ready to broadcast at // the maturity height, after a brief period of incubation. return hghtChanBucket.Put(pfxOutputKey, []byte{}) }) } // GraduateKinder atomically moves the kindergarten class at the provided height // into the graduated status. This involves removing the kindergarten entries // from both the height and channel indexes, and cleaning up the finalized // kindergarten sweep txn. The height bucket will be opportunistically pruned // from the height index as outputs are removed. func (ns *nurseryStore) GraduateKinder(height uint32) error { return ns.db.Update(func(tx *bolt.Tx) error { // Since all kindergarten outputs at a particular height are // swept in a single txn, we can now safely delete the finalized // txn, since it has already been broadcast and confirmed. hghtBucket := ns.getHeightBucket(tx, height) if hghtBucket == nil { // Nothing to delete, bucket has already been removed. return nil } // Remove the finalized kindergarten txn, we do this before // removing the outputs so that the extra entry doesn't prevent // the height bucket from being opportunistically pruned below. if err := hghtBucket.Delete(finalizedKndrTxnKey); err != nil { return err } // For each kindergarten found output, delete its entry from the // height and channel index, and create a new grad output in the // channel index. return ns.forEachHeightPrefix(tx, kndrPrefix, height, func(v []byte) error { var kid kidOutput err := kid.Decode(bytes.NewReader(v)) if err != nil { return err } outpoint := kid.OutPoint() chanPoint := kid.OriginChanPoint() // Construct the key under which the output is // currently stored height and channel indexes. pfxOutputKey, err := prefixOutputKey(kndrPrefix, outpoint) if err != nil { return err } // Remove the grad output's entry in the height // index. err = ns.removeOutputFromHeight(tx, height, chanPoint, pfxOutputKey) if err != nil { return err } chanBucket := ns.getChannelBucket(tx, chanPoint) if chanBucket == nil { return ErrContractNotFound } // Remove previous output with kindergarten // prefix. err = chanBucket.Delete(pfxOutputKey) if err != nil { return err } // Convert kindergarten key to graduate key. copy(pfxOutputKey, gradPrefix) var gradBuffer bytes.Buffer if err := kid.Encode(&gradBuffer); err != nil { return err } // Insert serialized output into channel bucket // using graduate-prefixed key. return chanBucket.Put(pfxOutputKey, gradBuffer.Bytes()) }, ) }) } // FinalizeKinder accepts a block height and a finalized kindergarten sweep // transaction, persisting the transaction at the appropriate height bucket. The // nursery store's last finalized height is also updated with the provided // height. func (ns *nurseryStore) FinalizeKinder(height uint32, finalTx *wire.MsgTx) error { return ns.db.Update(func(tx *bolt.Tx) error { return ns.finalizeKinder(tx, height, finalTx) }) } // GraduateHeight persists the provided height as the nursery store's last // graduated height. func (ns *nurseryStore) GraduateHeight(height uint32) error { return ns.db.Update(func(tx *bolt.Tx) error { return ns.putLastGraduatedHeight(tx, height) }) } // FetchClass returns a list of babyOutputs in the crib bucket whose CLTV // delay expires at the provided block height. // FetchClass returns a list of the kindergarten and crib outputs whose timeouts // are expiring func (ns *nurseryStore) FetchClass( height uint32) (*wire.MsgTx, []kidOutput, []babyOutput, error) { // Construct list of all crib and kindergarten outputs that need to be // processed at the provided block height. var finalTx *wire.MsgTx var kids []kidOutput var babies []babyOutput if err := ns.db.View(func(tx *bolt.Tx) error { var err error finalTx, err = ns.getFinalizedTxn(tx, height) if err != nil { return err } // Append each crib output to our list of babyOutputs. if err = ns.forEachHeightPrefix(tx, cribPrefix, height, func(buf []byte) error { // We will attempt to deserialize all outputs // stored with the crib prefix into babyOutputs, // since this is the expected type that would // have been serialized previously. var baby babyOutput babyReader := bytes.NewReader(buf) if err := baby.Decode(babyReader); err != nil { return err } babies = append(babies, baby) return nil }, ); err != nil { return err } // Append each kindergarten output to our list of kidOutputs. return ns.forEachHeightPrefix(tx, kndrPrefix, height, func(buf []byte) error { // We will attempt to deserialize all outputs // stored with the kindergarten prefix into // kidOutputs, since this is the expected type // that would have been serialized previously. var kid kidOutput kidReader := bytes.NewReader(buf) if err := kid.Decode(kidReader); err != nil { return err } kids = append(kids, kid) return nil }) }); err != nil { return nil, nil, nil, err } return finalTx, kids, babies, nil } // FetchPreschools returns a list of all outputs currently stored in the // preschool bucket. func (ns *nurseryStore) FetchPreschools() ([]kidOutput, error) { var kids []kidOutput if err := ns.db.View(func(tx *bolt.Tx) error { // Retrieve the existing chain bucket for this nursery store. chainBucket := tx.Bucket(ns.pfxChainKey) if chainBucket == nil { return nil } // Load the existing channel index from the chain bucket. chanIndex := chainBucket.Bucket(channelIndexKey) if chanIndex == nil { return nil } // Construct a list of all channels in the channel index that // are currently being tracked by the nursery store. var activeChannels [][]byte if err := chanIndex.ForEach(func(chanBytes, _ []byte) error { activeChannels = append(activeChannels, chanBytes) return nil }); err != nil { return err } // Iterate over all of the accumulated channels, and do a prefix // scan inside of each channel bucket. Each output found that // has a preschool prefix will be deserialized into a kidOutput, // and added to our list of preschool outputs to return to the // caller. for _, chanBytes := range activeChannels { // Retrieve the channel bucket associated with this // channel. chanBucket := chanIndex.Bucket(chanBytes) if chanBucket == nil { continue } // All of the outputs of interest will start with the // "pscl" prefix. So, we will perform a prefix scan of // the channel bucket to efficiently enumerate all the // desired outputs. c := chanBucket.Cursor() for k, v := c.Seek(psclPrefix); bytes.HasPrefix( k, psclPrefix); k, v = c.Next() { // Deserialize each output as a kidOutput, since // this should have been the type that was // serialized when it was written to disk. var psclOutput kidOutput psclReader := bytes.NewReader(v) err := psclOutput.Decode(psclReader) if err != nil { return err } // Add the deserialized output to our list of // preschool outputs. kids = append(kids, psclOutput) } } return nil }); err != nil { return nil, err } return kids, nil } // HeightsBelowOrEqual returns a slice of all non-empty heights in the height // index at or below the provided upper bound. func (ns *nurseryStore) HeightsBelowOrEqual(height uint32) ([]uint32, error) { var activeHeights []uint32 err := ns.db.View(func(tx *bolt.Tx) error { // Ensure that the chain bucket for this nursery store exists. chainBucket := tx.Bucket(ns.pfxChainKey) if chainBucket == nil { return nil } // Ensure that the height index has been properly initialized for this // chain. hghtIndex := chainBucket.Bucket(heightIndexKey) if hghtIndex == nil { return nil } // Serialize the provided height, as this will form the name of the // bucket. var lower, upper [4]byte byteOrder.PutUint32(upper[:], height) c := hghtIndex.Cursor() for k, _ := c.Seek(lower[:]); bytes.Compare(k, upper[:]) <= 0 && len(k) == 4; k, _ = c.Next() { activeHeights = append(activeHeights, byteOrder.Uint32(k)) } return nil }) if err != nil { return nil, err } return activeHeights, nil } // ForChanOutputs iterates over all outputs being incubated for a particular // channel point. This method accepts a callback that allows the caller to // process each key-value pair. The key will be a prefixed outpoint, and the // value will be the serialized bytes for an output, whose type should be // inferred from the key's prefix. // NOTE: The callback should not modify the provided byte slices and is // preferably non-blocking. func (ns *nurseryStore) ForChanOutputs(chanPoint *wire.OutPoint, callback func([]byte, []byte) error) error { return ns.db.View(func(tx *bolt.Tx) error { return ns.forChanOutputs(tx, chanPoint, callback) }) } // ListChannels returns all channels the nursery is currently tracking. func (ns *nurseryStore) ListChannels() ([]wire.OutPoint, error) { var activeChannels []wire.OutPoint if err := ns.db.View(func(tx *bolt.Tx) error { // Retrieve the existing chain bucket for this nursery store. chainBucket := tx.Bucket(ns.pfxChainKey) if chainBucket == nil { return nil } // Retrieve the existing channel index. chanIndex := chainBucket.Bucket(channelIndexKey) if chanIndex == nil { return nil } return chanIndex.ForEach(func(chanBytes, _ []byte) error { var chanPoint wire.OutPoint err := readOutpoint(bytes.NewReader(chanBytes), &chanPoint) if err != nil { return err } activeChannels = append(activeChannels, chanPoint) return nil }) }); err != nil { return nil, err } return activeChannels, nil } // IsMatureChannel determines the whether or not all of the outputs in a // particular channel bucket have been marked as graduated. func (ns *nurseryStore) IsMatureChannel(chanPoint *wire.OutPoint) (bool, error) { err := ns.db.View(func(tx *bolt.Tx) error { // Iterate over the contents of the channel bucket, computing // both total number of outputs, and those that have the grad // prefix. return ns.forChanOutputs(tx, chanPoint, func(pfxKey, _ []byte) error { if !bytes.HasPrefix(pfxKey, gradPrefix) { return ErrImmatureChannel } return nil }) }) if err != nil && err != ErrImmatureChannel { return false, err } return err == nil, nil } // ErrImmatureChannel signals a channel cannot be removed because not all of its // outputs have graduated. var ErrImmatureChannel = errors.New("cannot remove immature channel, " + "still has ungraduated outputs") // RemoveChannel channel erases all entries from the channel bucket for the // provided channel point. // NOTE: The channel's entries in the height index are assumed to be removed. func (ns *nurseryStore) RemoveChannel(chanPoint *wire.OutPoint) error { return ns.db.Update(func(tx *bolt.Tx) error { // Retrieve the existing chain bucket for this nursery store. chainBucket := tx.Bucket(ns.pfxChainKey) if chainBucket == nil { return nil } // Retrieve the channel index stored in the chain bucket. chanIndex := chainBucket.Bucket(channelIndexKey) if chanIndex == nil { return nil } // Serialize the provided channel point, such that we can delete // the mature channel bucket. var chanBuffer bytes.Buffer if err := writeOutpoint(&chanBuffer, chanPoint); err != nil { return err } chanBytes := chanBuffer.Bytes() err := ns.forChanOutputs(tx, chanPoint, func(k, v []byte) error { if !bytes.HasPrefix(k, gradPrefix) { return ErrImmatureChannel } // Construct a kindergarten prefixed key, since this // would have been the preceding state for a grad // output. kndrKey := make([]byte, len(k)) copy(kndrKey, k) copy(kndrKey[:4], kndrPrefix) // Decode each to retrieve the output's maturity height. var kid kidOutput if err := kid.Decode(bytes.NewReader(v)); err != nil { return err } maturityHeight := kid.ConfHeight() + kid.BlocksToMaturity() hghtBucket := ns.getHeightBucket(tx, maturityHeight) if hghtBucket == nil { return nil } return removeBucketIfExists(hghtBucket, chanBytes) }) if err != nil { return err } return removeBucketIfExists(chanIndex, chanBytes) }) } // LastFinalizedHeight returns the last block height for which the nursery // store has finalized a kindergarten class. func (ns *nurseryStore) LastFinalizedHeight() (uint32, error) { var lastFinalizedHeight uint32 err := ns.db.View(func(tx *bolt.Tx) error { var err error lastFinalizedHeight, err = ns.getLastFinalizedHeight(tx) return err }) return lastFinalizedHeight, err } // LastGraduatedHeight returns the last block height for which the nursery // store has successfully graduated all outputs. func (ns *nurseryStore) LastGraduatedHeight() (uint32, error) { var lastGraduatedHeight uint32 err := ns.db.View(func(tx *bolt.Tx) error { var err error lastGraduatedHeight, err = ns.getLastGraduatedHeight(tx) return err }) return lastGraduatedHeight, err } // Helper Methods // enterCrib accepts a new htlc output that the nursery will incubate through // its two-stage process of sweeping funds back to the user's wallet. These // outputs are persisted in the nursery store in the crib state, and will be // revisited after the first-stage output's CLTV has expired. func (ns *nurseryStore) enterCrib(tx *bolt.Tx, baby *babyOutput) error { // First, retrieve or create the channel bucket corresponding to the // baby output's origin channel point. chanPoint := baby.OriginChanPoint() chanBucket, err := ns.createChannelBucket(tx, chanPoint) if err != nil { return err } // Since we are inserting this output into the crib bucket, we create a // key that prefixes the baby output's outpoint with the crib prefix. pfxOutputKey, err := prefixOutputKey(cribPrefix, baby.OutPoint()) if err != nil { return err } // We'll first check that we don't already have an entry for this // output. If we do, then we can exit early. if rawBytes := chanBucket.Get(pfxOutputKey); rawBytes != nil { return nil } // Next, retrieve or create the height-channel bucket located in the // height bucket corresponding to the baby output's CLTV expiry height. hghtChanBucket, err := ns.createHeightChanBucket(tx, baby.expiry, chanPoint) if err != nil { return err } // Serialize the baby output so that it can be written to the // underlying key-value store. var babyBuffer bytes.Buffer if err := baby.Encode(&babyBuffer); err != nil { return err } babyBytes := babyBuffer.Bytes() // Now, insert the serialized output into its channel bucket under the // prefixed key created above. if err := chanBucket.Put(pfxOutputKey, babyBytes); err != nil { return err } // Finally, create a corresponding bucket in the height-channel bucket // for this crib output. The existence of this bucket indicates that // the serialized output can be retrieved from the channel bucket using // the same prefix key. return hghtChanBucket.Put(pfxOutputKey, []byte{}) } // enterPreschool accepts a new commitment output that the nursery will incubate // through a single stage before sweeping. Outputs are stored in the preschool // bucket until the commitment transaction has been confirmed, at which point // they will be moved to the kindergarten bucket. func (ns *nurseryStore) enterPreschool(tx *bolt.Tx, kid *kidOutput) error { // First, retrieve or create the channel bucket corresponding to the // baby output's origin channel point. chanPoint := kid.OriginChanPoint() chanBucket, err := ns.createChannelBucket(tx, chanPoint) if err != nil { return err } // Since the kidOutput is being inserted into the preschool bucket, we // create a key that prefixes its outpoint with the preschool prefix. pfxOutputKey, err := prefixOutputKey(psclPrefix, kid.OutPoint()) if err != nil { return err } // We'll first check if an entry for this key is already stored. If so, // then we'll ignore this request, and return a nil error. if rawBytes := chanBucket.Get(pfxOutputKey); rawBytes != nil { return nil } // Serialize the kidOutput and insert it into the channel bucket. var kidBuffer bytes.Buffer if err := kid.Encode(&kidBuffer); err != nil { return err } return chanBucket.Put(pfxOutputKey, kidBuffer.Bytes()) } // createChannelBucket creates or retrieves a channel bucket for the provided // channel point. func (ns *nurseryStore) createChannelBucket(tx *bolt.Tx, chanPoint *wire.OutPoint) (*bolt.Bucket, error) { // Ensure that the chain bucket for this nursery store exists. chainBucket, err := tx.CreateBucketIfNotExists(ns.pfxChainKey) if err != nil { return nil, err } // Ensure that the channel index has been properly initialized for this // chain. chanIndex, err := chainBucket.CreateBucketIfNotExists(channelIndexKey) if err != nil { return nil, err } // Serialize the provided channel point, as this provides the name of // the channel bucket of interest. var chanBuffer bytes.Buffer if err := writeOutpoint(&chanBuffer, chanPoint); err != nil { return nil, err } // Finally, create or retrieve the channel bucket using the serialized // key. return chanIndex.CreateBucketIfNotExists(chanBuffer.Bytes()) } // getChannelBucket retrieves an existing channel bucket from the nursery store, // using the given channel point. If the bucket does not exist, or any bucket // along its path does not exist, a nil value is returned. func (ns *nurseryStore) getChannelBucket(tx *bolt.Tx, chanPoint *wire.OutPoint) *bolt.Bucket { // Retrieve the existing chain bucket for this nursery store. chainBucket := tx.Bucket(ns.pfxChainKey) if chainBucket == nil { return nil } // Retrieve the existing channel index. chanIndex := chainBucket.Bucket(channelIndexKey) if chanIndex == nil { return nil } // Serialize the provided channel point and return the bucket matching // the serialized key. var chanBuffer bytes.Buffer if err := writeOutpoint(&chanBuffer, chanPoint); err != nil { return nil } return chanIndex.Bucket(chanBuffer.Bytes()) } // createHeightBucket creates or retrieves an existing bucket from the height // index, corresponding to the provided height. func (ns *nurseryStore) createHeightBucket(tx *bolt.Tx, height uint32) (*bolt.Bucket, error) { // Ensure that the chain bucket for this nursery store exists. chainBucket, err := tx.CreateBucketIfNotExists(ns.pfxChainKey) if err != nil { return nil, err } // Ensure that the height index has been properly initialized for this // chain. hghtIndex, err := chainBucket.CreateBucketIfNotExists(heightIndexKey) if err != nil { return nil, err } // Serialize the provided height, as this will form the name of the // bucket. var heightBytes [4]byte byteOrder.PutUint32(heightBytes[:], height) // Finally, create or retrieve the bucket in question. return hghtIndex.CreateBucketIfNotExists(heightBytes[:]) } // getHeightBucketPath retrieves an existing height bucket from the nursery // store, using the provided block height. If the bucket does not exist, or any // bucket along its path does not exist, a nil value is returned. func (ns *nurseryStore) getHeightBucketPath(tx *bolt.Tx, height uint32) (*bolt.Bucket, *bolt.Bucket, *bolt.Bucket) { // Retrieve the existing chain bucket for this nursery store. chainBucket := tx.Bucket(ns.pfxChainKey) if chainBucket == nil { return nil, nil, nil } // Retrieve the existing channel index. hghtIndex := chainBucket.Bucket(heightIndexKey) if hghtIndex == nil { return nil, nil, nil } // Serialize the provided block height and return the bucket matching // the serialized key. var heightBytes [4]byte byteOrder.PutUint32(heightBytes[:], height) return chainBucket, hghtIndex, hghtIndex.Bucket(heightBytes[:]) } // getHeightBucket retrieves an existing height bucket from the nursery store, // using the provided block height. If the bucket does not exist, or any bucket // along its path does not exist, a nil value is returned. func (ns *nurseryStore) getHeightBucket(tx *bolt.Tx, height uint32) *bolt.Bucket { _, _, hghtBucket := ns.getHeightBucketPath(tx, height) return hghtBucket } // createHeightChanBucket creates or retrieves an existing height-channel bucket // for the provided block height and channel point. This method will attempt to // instantiate all buckets along the path if required. func (ns *nurseryStore) createHeightChanBucket(tx *bolt.Tx, height uint32, chanPoint *wire.OutPoint) (*bolt.Bucket, error) { // Ensure that the height bucket for this nursery store exists. hghtBucket, err := ns.createHeightBucket(tx, height) if err != nil { return nil, err } // Serialize the provided channel point, as this generates the name of // the subdirectory corresponding to the channel of interest. var chanBuffer bytes.Buffer if err := writeOutpoint(&chanBuffer, chanPoint); err != nil { return nil, err } chanBytes := chanBuffer.Bytes() // Finally, create or retrieve an existing height-channel bucket for // this channel point. return hghtBucket.CreateBucketIfNotExists(chanBytes) } // getHeightChanBucket retrieves an existing height-channel bucket from the // nursery store, using the provided block height and channel point. if the // bucket does not exist, or any bucket along its path does not exist, a nil // value is returned. func (ns *nurseryStore) getHeightChanBucket(tx *bolt.Tx, height uint32, chanPoint *wire.OutPoint) *bolt.Bucket { // Retrieve the existing height bucket from this nursery store. hghtBucket := ns.getHeightBucket(tx, height) if hghtBucket == nil { return nil } // Serialize the provided channel point, which generates the key for // looking up the proper height-channel bucket inside the height bucket. var chanBuffer bytes.Buffer if err := writeOutpoint(&chanBuffer, chanPoint); err != nil { return nil } chanBytes := chanBuffer.Bytes() // Finally, return the height bucket specified by the serialized channel // point. return hghtBucket.Bucket(chanBytes) } // forEachHeightPrefix enumerates all outputs at the given height whose state // prefix matches that which is provided. This is used as a subroutine to help // enumerate crib and kindergarten outputs at a particular height. The callback // is invoked with serialized bytes retrieved for each output of interest, // allowing the caller to deserialize them into the appropriate type. func (ns *nurseryStore) forEachHeightPrefix(tx *bolt.Tx, prefix []byte, height uint32, callback func([]byte) error) error { // Start by retrieving the height bucket corresponding to the provided // block height. chainBucket, _, hghtBucket := ns.getHeightBucketPath(tx, height) if hghtBucket == nil { return nil } // Using the height bucket as a starting point, we will traverse its // entire two-tier directory structure, and filter for outputs that have // the provided prefix. The first layer of the height bucket contains // buckets identified by a channel point, thus we first create list of // channels contained in this height bucket. var channelsAtHeight [][]byte if err := hghtBucket.ForEach(func(chanBytes, v []byte) error { if v == nil { channelsAtHeight = append(channelsAtHeight, chanBytes) } return nil }); err != nil { return err } // Additionally, grab the chain index, which we will facilitate queries // for each of the channel buckets of each of the channels in the list // we assembled above. chanIndex := chainBucket.Bucket(channelIndexKey) if chanIndex == nil { return errors.New("unable to retrieve channel index") } // Now, we are ready to enumerate all outputs with the desired prefix at // this block height. We do so by iterating over our list of channels at // this height, filtering for outputs in each height-channel bucket that // begin with the given prefix, and then retrieving the serialized // outputs from the appropriate channel bucket. for _, chanBytes := range channelsAtHeight { // Retrieve the height-channel bucket for this channel, which // holds a sub-bucket for all outputs maturing at this height. hghtChanBucket := hghtBucket.Bucket(chanBytes) if hghtChanBucket == nil { return fmt.Errorf("unable to retrieve height-channel "+ "bucket at height %d for %x", height, chanBytes) } // Load the appropriate channel bucket from the channel index, // this will allow us to retrieve the individual serialized // outputs. chanBucket := chanIndex.Bucket(chanBytes) if chanBucket == nil { return fmt.Errorf("unable to retrieve channel "+ "bucket: '%x'", chanBytes) } // Since all of the outputs of interest will start with the same // prefix, we will perform a prefix scan of the buckets // contained in the height-channel bucket, efficiently // enumerating the desired outputs. c := hghtChanBucket.Cursor() for k, _ := c.Seek(prefix); bytes.HasPrefix( k, prefix); k, _ = c.Next() { // Use the prefix output key emitted from our scan to // load the serialized babyOutput from the appropriate // channel bucket. outputBytes := chanBucket.Get(k) if outputBytes == nil { return errors.New("unable to retrieve output") } // Present the serialized bytes to our call back // function, which is responsible for deserializing the // bytes into the appropriate type. if err := callback(outputBytes); err != nil { return err } } } return nil } // forChanOutputs enumerates the outputs contained in a channel bucket to the // provided callback. The callback accepts a key-value pair of byte slices // corresponding to the prefixed-output key and the serialized output, // respectively. func (ns *nurseryStore) forChanOutputs(tx *bolt.Tx, chanPoint *wire.OutPoint, callback func([]byte, []byte) error) error { chanBucket := ns.getChannelBucket(tx, chanPoint) if chanBucket == nil { return ErrContractNotFound } return chanBucket.ForEach(callback) } // getLastFinalizedHeight is a helper method that retrieves the last height for // which the database finalized its persistent state. func (ns *nurseryStore) getLastFinalizedHeight(tx *bolt.Tx) (uint32, error) { // Retrieve the chain bucket associated with the given nursery store. chainBucket := tx.Bucket(ns.pfxChainKey) if chainBucket == nil { return 0, nil } // Lookup the last finalized height in the top-level chain bucket. heightBytes := chainBucket.Get(lastFinalizedHeightKey) if heightBytes == nil { // We have never finalized, return height 0. return 0, nil } // If the resulting bytes are not sized like a uint32, then we have // never finalized, so we return 0. // Otherwise, parse the bytes and return the last finalized height. return byteOrder.Uint32(heightBytes), nil } // finalizeKinder records a finalized kindergarten sweep txn to the given height // bucket. It also updates the nursery store's last finalized height, so that we // do not finalize the same height twice. If the finalized txn is nil, i.e. if // the height has no kindergarten outputs, the height will be marked as // finalized, and we skip the process of writing the txn. When the class is // loaded, a nil value will be returned if no txn has been written to a // finalized height bucket. func (ns *nurseryStore) finalizeKinder(tx *bolt.Tx, height uint32, finalTx *wire.MsgTx) error { // TODO(conner) ensure height is greater that current finalized height. // 1. Write the last finalized height to the chain bucket. // Ensure that the chain bucket for this nursery store exists. chainBucket, err := tx.CreateBucketIfNotExists(ns.pfxChainKey) if err != nil { return err } // Serialize the provided last-finalized height, and store it in the // top-level chain bucket for this nursery store. var lastHeightBytes [4]byte byteOrder.PutUint32(lastHeightBytes[:], height) err = chainBucket.Put(lastFinalizedHeightKey, lastHeightBytes[:]) if err != nil { return err } // 2. Write the finalized txn in the appropriate height bucket. // If there is no finalized txn, we have nothing to do. if finalTx == nil { return nil } // Otherwise serialize the finalized txn and write it to the height // bucket. hghtBucket := ns.getHeightBucket(tx, height) if hghtBucket == nil { return nil } var finalTxnBuf bytes.Buffer if err := finalTx.Serialize(&finalTxnBuf); err != nil { return err } return hghtBucket.Put(finalizedKndrTxnKey, finalTxnBuf.Bytes()) } // getFinalizedTxn retrieves the finalized kindergarten sweep txn at the given // height, returning nil if one was not found. func (ns *nurseryStore) getFinalizedTxn(tx *bolt.Tx, height uint32) (*wire.MsgTx, error) { hghtBucket := ns.getHeightBucket(tx, height) if hghtBucket == nil { // No class to finalize. return nil, nil } finalTxBytes := hghtBucket.Get(finalizedKndrTxnKey) if finalTxBytes == nil { // No finalized txn for this height. return nil, nil } // Otherwise, deserialize and return the finalized transaction. txn := &wire.MsgTx{} if err := txn.Deserialize(bytes.NewReader(finalTxBytes)); err != nil { return nil, err } return txn, nil } // getLastGraduatedHeight is a helper method that retrieves the last height for // which the database graduated all outputs successfully. func (ns *nurseryStore) getLastGraduatedHeight(tx *bolt.Tx) (uint32, error) { // Retrieve the chain bucket associated with the given nursery store. chainBucket := tx.Bucket(ns.pfxChainKey) if chainBucket == nil { return 0, nil } // Lookup the last graduated height in the top-level chain bucket. heightBytes := chainBucket.Get(lastGraduatedHeightKey) if heightBytes == nil { // We have never graduated before, return height 0. return 0, nil } // Otherwise, parse the bytes and return the last graduated height. return byteOrder.Uint32(heightBytes), nil } // pubLastGraduatedHeight is a helper method that writes the provided height under // the last graduated height key. func (ns *nurseryStore) putLastGraduatedHeight(tx *bolt.Tx, height uint32) error { // Ensure that the chain bucket for this nursery store exists. chainBucket, err := tx.CreateBucketIfNotExists(ns.pfxChainKey) if err != nil { return err } // Serialize the provided last-graduated height, and store it in the // top-level chain bucket for this nursery store. var lastHeightBytes [4]byte byteOrder.PutUint32(lastHeightBytes[:], height) return chainBucket.Put(lastGraduatedHeightKey, lastHeightBytes[:]) } // errBucketNotEmpty signals that an attempt to prune a particular // bucket failed because it still has active outputs. var errBucketNotEmpty = errors.New("bucket is not empty, cannot be pruned") // removeOutputFromHeight will delete the given output from the specified // height-channel bucket, and attempt to prune the upstream directories if they // are empty. func (ns *nurseryStore) removeOutputFromHeight(tx *bolt.Tx, height uint32, chanPoint *wire.OutPoint, pfxKey []byte) error { // Retrieve the height-channel bucket and delete the prefixed output. hghtChanBucket := ns.getHeightChanBucket(tx, height, chanPoint) if hghtChanBucket == nil { // Height-channel bucket already removed. return nil } // Try to delete the prefixed output from the target height-channel // bucket. if err := hghtChanBucket.Delete(pfxKey); err != nil { return err } // Retrieve the height bucket that contains the height-channel bucket. hghtBucket := ns.getHeightBucket(tx, height) if hghtBucket == nil { return errors.New("height bucket not found") } var chanBuffer bytes.Buffer if err := writeOutpoint(&chanBuffer, chanPoint); err != nil { return err } // Try to remove the channel-height bucket if it this was the last // output in the bucket. err := removeBucketIfEmpty(hghtBucket, chanBuffer.Bytes()) if err != nil && err != errBucketNotEmpty { return err } else if err == errBucketNotEmpty { return nil } // Attempt to prune the height bucket matching the kid output's // confirmation height in case that was the last height-chan bucket. pruned, err := ns.pruneHeight(tx, height) if err != nil && err != errBucketNotEmpty { return err } else if err == nil && pruned { utxnLog.Infof("Height bucket %d pruned", height) } return nil } // pruneHeight removes the height bucket at the provided height if and only if // all active outputs at this height have been removed from their respective // height-channel buckets. The returned boolean value indicated whether or not // this invocation successfully pruned the height bucket. func (ns *nurseryStore) pruneHeight(tx *bolt.Tx, height uint32) (bool, error) { // Fetch the existing height index and height bucket. _, hghtIndex, hghtBucket := ns.getHeightBucketPath(tx, height) if hghtBucket == nil { return false, nil } // Iterate over all channels stored at this block height. We will // attempt to remove each one if they are empty, keeping track of the // number of height-channel buckets that still have active outputs. if err := hghtBucket.ForEach(func(chanBytes, v []byte) error { // Skip the finalized txn key. if v != nil { return nil } // Attempt to each height-channel bucket from the height bucket // located above. hghtChanBucket := hghtBucket.Bucket(chanBytes) if hghtChanBucket == nil { return errors.New("unable to find height-channel bucket") } return isBucketEmpty(hghtChanBucket) }); err != nil { return false, err } // Serialize the provided block height, such that it can be used as the // key to delete desired height bucket. var heightBytes [4]byte byteOrder.PutUint32(heightBytes[:], height) // All of the height-channel buckets are empty or have been previously // removed, proceed by removing the height bucket // altogether. if err := removeBucketIfExists(hghtIndex, heightBytes[:]); err != nil { return false, err } return true, nil } // removeBucketIfEmpty attempts to delete a bucket specified by name from the // provided parent bucket. func removeBucketIfEmpty(parent *bolt.Bucket, bktName []byte) error { // Attempt to fetch the named bucket from its parent. bkt := parent.Bucket(bktName) if bkt == nil { // No bucket was found, already removed? return nil } // The bucket exists, fail if it still has children. if err := isBucketEmpty(bkt); err != nil { return err } return parent.DeleteBucket(bktName) } // removeBucketIfExists safely deletes the named bucket by first checking // that it exists in the parent bucket. func removeBucketIfExists(parent *bolt.Bucket, bktName []byte) error { // Attempt to fetch the named bucket from its parent. bkt := parent.Bucket(bktName) if bkt == nil { // No bucket was found, already removed? return nil } return parent.DeleteBucket(bktName) } // isBucketEmpty returns errBucketNotEmpty if the bucket has a non-zero number // of children. func isBucketEmpty(parent *bolt.Bucket) error { return parent.ForEach(func(_, _ []byte) error { return errBucketNotEmpty }) } // Compile-time constraint to ensure nurseryStore implements NurseryStore. var _ NurseryStore = (*nurseryStore)(nil)