package channeldb import ( "bytes" "io" "sync" "time" "github.com/boltdb/bolt" "github.com/lightningnetwork/lnd/elkrem" "github.com/roasbeef/btcd/btcec" "github.com/roasbeef/btcd/wire" "github.com/roasbeef/btcutil" ) var ( // openChanBucket stores all the currently open channels. This bucket // has a second, nested bucket which is keyed by a node's ID. Additionally, // at the base level of this bucket several prefixed keys are stored which // house channel meta-data such as total satoshis sent, number of updates // etc. These fields are stored at this top level rather than within a // node's channel bucket in orer to facilitate sequential prefix scans // to gather stats such as total satoshis received. openChannelBucket = []byte("ocb") // chanIDBucket is a thrid-level bucket stored within a node's ID bucket // in the open channel bucket. The resolution path looks something like: // ocb -> nodeID -> cib. This bucket contains a series of keys with no // values, these keys are the channel ID's of all the active channels // we currently have with a specified nodeID. This bucket acts as an // additional indexing allowing random access and sequential scans over // active channels. chanIDBucket = []byte("cib") // closedChannelBucket stores summarization information concerning // previously open, but now closed channels. closedChannelBucket = []byte("ccb") // channelLogBucket is dedicated for storing the necessary delta state // between channel updates required to re-construct a past state in // order to punish a counter party attempting a non-cooperative channel // closure. channelLogBucket = []byte("clb") // identityKey is the key for storing this node's current LD identity key. identityKey = []byte("idk") // The following prefixes are stored at the base level within the // openChannelBucket. In order to retrieve a particular field for an // active, or historic channel, append the channels ID to the prefix: // key = prefix || chanID. Storing certain fields at the top level // using a prefix scheme serves two purposes: first to facilitate // sequential prefix scans, and second to eliminate write amplification // caused by serializing/deserializing the *entire* struct with each // update. chanCapacityPrefix = []byte("ccp") selfBalancePrefix = []byte("sbp") theirBalancePrefix = []byte("tbp") minFeePerKbPrefix = []byte("mfp") updatePrefix = []byte("uup") satSentPrefix = []byte("ssp") satRecievedPrefix = []byte("srp") netFeesPrefix = []byte("ntp") // chanIDKey stores the node, and channelID for an active channel. chanIDKey = []byte("cik") // commitKeys stores both commitment keys (ours, and theirs) for an // active channel. Our private key is stored in an encrypted format // using channeldb's currently registered cryptoSystem. commitKeys = []byte("ckk") // commitTxnsKey stores the full version of both current, non-revoked // commitment transactions in addition to the csvDelay for both. commitTxnsKey = []byte("ctk") // fundingTxnKey stroes the funding tx, our encrypted multi-sig key, // and finally 2-of-2 multisig redeem script. fundingTxnKey = []byte("fsk") // elkremStateKey stores their current revocation hash, and our elkrem // sender, and their elkrem reciever. elkremStateKey = []byte("esk") // deliveryScriptsKey stores the scripts for the final delivery in the // case of a cooperative closure. deliveryScriptsKey = []byte("dsk") ) // OpenChannel... // TODO(roasbeef): Copy/Clone method, so CoW on writes? // * CoW method would allow for intelligent partial writes for updates // TODO(roasbeef): UpdateState(func (newChan *OpenChannel) error) // * need mutex, invarient that all reads/writes grab the mutex // * needs to also return two slices of added then removed HTLC's type OpenChannel struct { // Hash? or Their current pubKey? TheirLNID [wire.HashSize]byte // The ID of a channel is the txid of the funding transaction. ChanID *wire.OutPoint MinFeePerKb btcutil.Amount // Our reserve. Assume symmetric reserve amounts. Only needed if the // funding type is CLTV. //ReserveAmount btcutil.Amount // Keys for both sides to be used for the commitment transactions. OurCommitKey *btcec.PrivateKey TheirCommitKey *btcec.PublicKey // Tracking total channel capacity, and the amount of funds allocated // to each side. Capacity btcutil.Amount OurBalance btcutil.Amount TheirBalance btcutil.Amount // Commitment transactions for both sides (they're asymmetric). Our // commitment transaction includes a valid sigScript, and is ready for // broadcast. TheirCommitTx *wire.MsgTx OurCommitTx *wire.MsgTx // The outpoint of the final funding transaction. FundingOutpoint *wire.OutPoint OurMultiSigKey *btcec.PrivateKey TheirMultiSigKey *btcec.PublicKey FundingRedeemScript []byte // In blocks LocalCsvDelay uint32 RemoteCsvDelay uint32 // Current revocation for their commitment transaction. However, since // this is the hash, and not the pre-image, we can't yet verify that // it's actually in the chain. TheirCurrentRevocation [20]byte LocalElkrem *elkrem.ElkremSender RemoteElkrem *elkrem.ElkremReceiver // The pkScript for both sides to be used for final delivery in the case // of a cooperative close. OurDeliveryScript []byte TheirDeliveryScript []byte NumUpdates uint64 TotalSatoshisSent uint64 TotalSatoshisReceived uint64 TotalNetFees uint64 // TODO(roasbeef): total fees paid too? CreationTime time.Time // TODO(roasbeef): last update time? // isPrevState denotes if this instane of an OpenChannel is a previous, // revoked channel state. If so, then the FullSynv, and UpdateState // methods are disabled in order to prevent overiding the latest channel // state. // TODO(roasbeef): scrap? already have snapshots now? isPrevState bool // TODO(roasbeef): eww Db *DB sync.RWMutex } // FullSync serializes, and writes to disk the *full* channel state, using // both the active channel bucket to store the prefixed column fields, and the // remote node's ID to store the remainder of the channel state. // // NOTE: This method requires an active EncryptorDecryptor to be registered in // order to encrypt sensitive information. func (c *OpenChannel) FullSync() error { return c.Db.store.Update(func(tx *bolt.Tx) error { // First fetch the top level bucket which stores all data related to // current, active channels. chanBucket, err := tx.CreateBucketIfNotExists(openChannelBucket) if err != nil { return err } // Within this top level bucket, fetch the bucket dedicated to storing // open channel data specific to the remote node. nodeChanBucket, err := chanBucket.CreateBucketIfNotExists(c.TheirLNID[:]) if err != nil { return err } // Add this channel ID to the node's active channel index if // it doesn't already exist. chanIDBucket, err := nodeChanBucket.CreateBucketIfNotExists(chanIDBucket) if err != nil { return err } var b bytes.Buffer if err := writeOutpoint(&b, c.ChanID); err != nil { return err } if chanIDBucket.Get(b.Bytes()) == nil { chanIDBucket.Put(b.Bytes(), nil) } return putOpenChannel(chanBucket, nodeChanBucket, c, c.Db.cryptoSystem) }) } // CloseChannel closes a previously active lightning channel. Closing a channel // entails deleting all saved state within the database concerning this // channel, as well as created a small channel summary for record keeping // purposes. func (c *OpenChannel) CloseChannel() error { return c.Db.store.Update(func(tx *bolt.Tx) error { // First fetch the top level bucket which stores all data related to // current, active channels. chanBucket := tx.Bucket(openChannelBucket) if chanBucket == nil { return ErrNoChanDBExists } // Within this top level bucket, fetch the bucket dedicated to storing // open channel data specific to the remote node. nodeChanBucket := chanBucket.Bucket(c.TheirLNID[:]) if nodeChanBucket == nil { return ErrNoActiveChannels } // Delete this channel ID from the node's active channel index. chanIndexBucket := nodeChanBucket.Bucket(chanIDBucket) if chanIndexBucket == nil { return ErrNoActiveChannels } var b bytes.Buffer if err := writeOutpoint(&b, c.ChanID); err != nil { return err } outPointBytes := b.Bytes() if err := chanIndexBucket.Delete(b.Bytes()); err != nil { return err } // Now that the index to this channel has been deleted, purge // the remaining channel meta-data from the databse. if err := deleteOpenChannel(chanBucket, nodeChanBucket, outPointBytes); err != nil { return err } // Finally, create a summary of this channel in the closed // channel bucket for this node. return putClosedChannelSummary(tx, outPointBytes) }) } // ChannelSnapshot is a frozen snapshot of the current channel state. A // snapshot is detached from the original channel that generated it, providing // read-only access to the current or prior state of an active channel. // TODO(roasbeef): methods to roll forwards/backwards in state etc // * use botldb cursor? type ChannelSnapshot struct { RemoteID [wire.HashSize]byte ChannelPoint *wire.OutPoint Capacity btcutil.Amount LocalBalance btcutil.Amount RemoteBalance btcutil.Amount NumUpdates uint64 TotalSatoshisSent uint64 TotalSatoshisReceived uint64 // TODO(roasbeef): fee stuff // TODO(roasbeef): active HTLC's + their direction updateNum uint64 channel *OpenChannel } // Snapshot returns a read-only snapshot of the current channel state. This // snapshot includes information concerning the current settled balance within // the channel, meta-data detailing total flows, and any outstanding HTLCs. func (c *OpenChannel) Snapshot() *ChannelSnapshot { snapshot := &ChannelSnapshot{ ChannelPoint: c.ChanID, Capacity: c.Capacity, LocalBalance: c.OurBalance, RemoteBalance: c.TheirBalance, NumUpdates: c.NumUpdates, TotalSatoshisSent: c.TotalSatoshisSent, TotalSatoshisReceived: c.TotalSatoshisReceived, } copy(snapshot.RemoteID[:], c.TheirLNID[:]) return snapshot } // FindPreviousState... // TODO(roasbeef): method to retrieve both old commitment txns given update # func (c *OpenChannel) FindPreviousState(updateNum uint64) (*ChannelSnapshot, error) { return nil, nil } // ChannelDelta... // TODO(roasbeef): binlog like entry? type ChannelDelta struct { // change in allocations // added + removed htlcs // index } // RecordChannelDelta // TODO(roasbeef): only need their commit? // * or as internal helper func to UpdateState func? func (c OpenChannel) RecordChannelDelta(theirRevokedCommit *wire.MsgTx, updateNum uint64) error { // TODO(roasbeef): record all HTLCs, pass those instead? // * return nil } func putClosedChannelSummary(tx *bolt.Tx, chanID []byte) error { // For now, a summary of a closed channel simply involves recording the // outpoint of the funding transaction. closedChanBucket, err := tx.CreateBucketIfNotExists(closedChannelBucket) if err != nil { return err } // TODO(roasbeef): add other info // * should likely have each in own bucket per node return closedChanBucket.Put(chanID, nil) } // putChannel serializes, and stores the current state of the channel in its // entirety. func putOpenChannel(openChanBucket *bolt.Bucket, nodeChanBucket *bolt.Bucket, channel *OpenChannel, encryptor EncryptorDecryptor) error { // First write out all the "common" fields using the field's prefix // appened with the channel's ID. These fields go into a top-level bucket // to allow for ease of metric aggregation via efficient prefix scans. if err := putChanCapacity(openChanBucket, channel); err != nil { return err } if err := putChanMinFeePerKb(openChanBucket, channel); err != nil { return err } if err := putChanNumUpdates(openChanBucket, channel); err != nil { return err } if err := putChanTotalFlow(openChanBucket, channel); err != nil { return err } if err := putChanNetFee(openChanBucket, channel); err != nil { return err } // Next, write out the fields of the channel update less frequently. if err := putChannelIDs(nodeChanBucket, channel); err != nil { return err } if err := putChanCommitKeys(nodeChanBucket, channel, encryptor); err != nil { return err } if err := putChanCommitTxns(nodeChanBucket, channel); err != nil { return err } if err := putChanFundingInfo(nodeChanBucket, channel, encryptor); err != nil { return err } if err := putChanEklremState(nodeChanBucket, channel); err != nil { return err } if err := putChanDeliveryScripts(nodeChanBucket, channel); err != nil { return err } return nil } // fetchOpenChannel retrieves, and deserializes (including decrypting // sensitive) the complete channel currently active with the passed nodeID. // An EncryptorDecryptor is required to decrypt sensitive information stored // within the database. func fetchOpenChannel(openChanBucket *bolt.Bucket, nodeChanBucket *bolt.Bucket, chanID *wire.OutPoint, decryptor EncryptorDecryptor) (*OpenChannel, error) { channel := &OpenChannel{ ChanID: chanID, } // First, read out the fields of the channel update less frequently. if err := fetchChannelIDs(nodeChanBucket, channel); err != nil { return nil, err } if err := fetchChanCommitKeys(nodeChanBucket, channel, decryptor); err != nil { return nil, err } if err := fetchChanCommitTxns(nodeChanBucket, channel); err != nil { return nil, err } if err := fetchChanFundingInfo(nodeChanBucket, channel, decryptor); err != nil { return nil, err } if err := fetchChanEklremState(nodeChanBucket, channel); err != nil { return nil, err } if err := fetchChanDeliveryScripts(nodeChanBucket, channel); err != nil { return nil, err } // With the existence of an open channel bucket with this node verified, // perform a full read of the entire struct. Starting with the prefixed // fields residing in the parent bucket. if err := fetchChanCapacity(openChanBucket, channel); err != nil { return nil, err } if err := fetchChanMinFeePerKb(openChanBucket, channel); err != nil { return nil, err } if err := fetchChanNumUpdates(openChanBucket, channel); err != nil { return nil, err } if err := fetchChanTotalFlow(openChanBucket, channel); err != nil { return nil, err } if err := fetchChanNetFee(openChanBucket, channel); err != nil { return nil, err } return channel, nil } func deleteOpenChannel(openChanBucket *bolt.Bucket, nodeChanBucket *bolt.Bucket, channelID []byte) error { // First we'll delete all the "common" top level items stored outside // the node's channel bucket. if err := deleteChanCapacity(openChanBucket, channelID); err != nil { return err } if err := deleteChanMinFeePerKb(openChanBucket, channelID); err != nil { return err } if err := deleteChanNumUpdates(openChanBucket, channelID); err != nil { return err } if err := deleteChanTotalFlow(openChanBucket, channelID); err != nil { return err } if err := deleteChanNetFee(openChanBucket, channelID); err != nil { return err } // Finally, delete all the fields directly within the node's channel // bucket. if err := deleteChannelIDs(nodeChanBucket, channelID); err != nil { return err } if err := deleteChanCommitKeys(nodeChanBucket, channelID); err != nil { return err } if err := deleteChanCommitTxns(nodeChanBucket, channelID); err != nil { return err } if err := deleteChanFundingInfo(nodeChanBucket, channelID); err != nil { return err } if err := deleteChanEklremState(nodeChanBucket, channelID); err != nil { return err } if err := deleteChanDeliveryScripts(nodeChanBucket, channelID); err != nil { return err } return nil } func putChanCapacity(openChanBucket *bolt.Bucket, channel *OpenChannel) error { // Some scratch bytes re-used for serializing each of the uint64's. scratch1 := make([]byte, 8) scratch2 := make([]byte, 8) scratch3 := make([]byte, 8) var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } keyPrefix := make([]byte, 3+b.Len()) copy(keyPrefix[3:], b.Bytes()) copy(keyPrefix[:3], chanCapacityPrefix) byteOrder.PutUint64(scratch1, uint64(channel.Capacity)) if err := openChanBucket.Put(keyPrefix, scratch1); err != nil { return err } copy(keyPrefix[:3], selfBalancePrefix) byteOrder.PutUint64(scratch2, uint64(channel.OurBalance)) if err := openChanBucket.Put(keyPrefix, scratch2); err != nil { return err } copy(keyPrefix[:3], theirBalancePrefix) byteOrder.PutUint64(scratch3, uint64(channel.TheirBalance)) return openChanBucket.Put(keyPrefix, scratch3) } func deleteChanCapacity(openChanBucket *bolt.Bucket, chanID []byte) error { keyPrefix := make([]byte, 3+len(chanID)) copy(keyPrefix[3:], chanID) copy(keyPrefix[:3], chanCapacityPrefix) if err := openChanBucket.Delete(keyPrefix); err != nil { return err } copy(keyPrefix[:3], selfBalancePrefix) if err := openChanBucket.Delete(keyPrefix); err != nil { return err } copy(keyPrefix[:3], theirBalancePrefix) return openChanBucket.Delete(keyPrefix) } func fetchChanCapacity(openChanBucket *bolt.Bucket, channel *OpenChannel) error { // A byte slice re-used to compute each key prefix below. var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } keyPrefix := make([]byte, 3+b.Len()) copy(keyPrefix[3:], b.Bytes()) copy(keyPrefix[:3], chanCapacityPrefix) capacityBytes := openChanBucket.Get(keyPrefix) channel.Capacity = btcutil.Amount(byteOrder.Uint64(capacityBytes)) copy(keyPrefix[:3], selfBalancePrefix) selfBalanceBytes := openChanBucket.Get(keyPrefix) channel.OurBalance = btcutil.Amount(byteOrder.Uint64(selfBalanceBytes)) copy(keyPrefix[:3], theirBalancePrefix) theirBalanceBytes := openChanBucket.Get(keyPrefix) channel.TheirBalance = btcutil.Amount(byteOrder.Uint64(theirBalanceBytes)) return nil } func putChanMinFeePerKb(openChanBucket *bolt.Bucket, channel *OpenChannel) error { scratch := make([]byte, 8) byteOrder.PutUint64(scratch, uint64(channel.MinFeePerKb)) var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } keyPrefix := make([]byte, 3+b.Len()) copy(keyPrefix, minFeePerKbPrefix) copy(keyPrefix[3:], b.Bytes()) return openChanBucket.Put(keyPrefix, scratch) } func deleteChanMinFeePerKb(openChanBucket *bolt.Bucket, chanID []byte) error { keyPrefix := make([]byte, 3+len(chanID)) copy(keyPrefix, minFeePerKbPrefix) copy(keyPrefix[3:], chanID) return openChanBucket.Delete(keyPrefix) } func fetchChanMinFeePerKb(openChanBucket *bolt.Bucket, channel *OpenChannel) error { var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } keyPrefix := make([]byte, 3+b.Len()) copy(keyPrefix, minFeePerKbPrefix) copy(keyPrefix[3:], b.Bytes()) feeBytes := openChanBucket.Get(keyPrefix) channel.MinFeePerKb = btcutil.Amount(byteOrder.Uint64(feeBytes)) return nil } func putChanNumUpdates(openChanBucket *bolt.Bucket, channel *OpenChannel) error { scratch := make([]byte, 8) byteOrder.PutUint64(scratch, channel.NumUpdates) var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } keyPrefix := make([]byte, 3+b.Len()) copy(keyPrefix, updatePrefix) copy(keyPrefix[3:], b.Bytes()) return openChanBucket.Put(keyPrefix, scratch) } func deleteChanNumUpdates(openChanBucket *bolt.Bucket, chanID []byte) error { keyPrefix := make([]byte, 3+len(chanID)) copy(keyPrefix, updatePrefix) copy(keyPrefix[3:], chanID) return openChanBucket.Delete(keyPrefix) } func fetchChanNumUpdates(openChanBucket *bolt.Bucket, channel *OpenChannel) error { var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } keyPrefix := make([]byte, 3+b.Len()) copy(keyPrefix, updatePrefix) copy(keyPrefix[3:], b.Bytes()) updateBytes := openChanBucket.Get(keyPrefix) channel.NumUpdates = byteOrder.Uint64(updateBytes) return nil } func putChanTotalFlow(openChanBucket *bolt.Bucket, channel *OpenChannel) error { scratch1 := make([]byte, 8) scratch2 := make([]byte, 8) var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } keyPrefix := make([]byte, 3+b.Len()) copy(keyPrefix[3:], b.Bytes()) copy(keyPrefix[:3], satSentPrefix) byteOrder.PutUint64(scratch1, uint64(channel.TotalSatoshisSent)) if err := openChanBucket.Put(keyPrefix, scratch1); err != nil { return err } copy(keyPrefix[:3], satRecievedPrefix) byteOrder.PutUint64(scratch2, uint64(channel.TotalSatoshisReceived)) return openChanBucket.Put(keyPrefix, scratch2) } func deleteChanTotalFlow(openChanBucket *bolt.Bucket, chanID []byte) error { keyPrefix := make([]byte, 3+len(chanID)) copy(keyPrefix[3:], chanID) copy(keyPrefix[:3], satSentPrefix) if err := openChanBucket.Delete(keyPrefix); err != nil { return err } copy(keyPrefix[:3], satRecievedPrefix) return openChanBucket.Delete(keyPrefix) } func fetchChanTotalFlow(openChanBucket *bolt.Bucket, channel *OpenChannel) error { var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } keyPrefix := make([]byte, 3+b.Len()) copy(keyPrefix[3:], b.Bytes()) copy(keyPrefix[:3], satSentPrefix) totalSentBytes := openChanBucket.Get(keyPrefix) channel.TotalSatoshisSent = byteOrder.Uint64(totalSentBytes) copy(keyPrefix[:3], satRecievedPrefix) totalReceivedBytes := openChanBucket.Get(keyPrefix) channel.TotalSatoshisReceived = byteOrder.Uint64(totalReceivedBytes) return nil } func putChanNetFee(openChanBucket *bolt.Bucket, channel *OpenChannel) error { scratch := make([]byte, 8) var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } keyPrefix := make([]byte, 3+b.Len()) copy(keyPrefix, netFeesPrefix) copy(keyPrefix[3:], b.Bytes()) byteOrder.PutUint64(scratch, uint64(channel.TotalNetFees)) return openChanBucket.Put(keyPrefix, scratch) } func deleteChanNetFee(openChanBucket *bolt.Bucket, chanID []byte) error { keyPrefix := make([]byte, 3+len(chanID)) copy(keyPrefix, netFeesPrefix) copy(keyPrefix[3:], chanID) return openChanBucket.Delete(keyPrefix) } func fetchChanNetFee(openChanBucket *bolt.Bucket, channel *OpenChannel) error { var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } keyPrefix := make([]byte, 3+b.Len()) copy(keyPrefix, netFeesPrefix) copy(keyPrefix[3:], b.Bytes()) feeBytes := openChanBucket.Get(keyPrefix) channel.TotalNetFees = byteOrder.Uint64(feeBytes) return nil } func putChannelIDs(nodeChanBucket *bolt.Bucket, channel *OpenChannel) error { // TODO(roabeef): just pass in chanID everywhere for puts var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } // Construct the id key: cid || channelID. // TODO(roasbeef): abstract out to func idKey := make([]byte, len(chanIDKey)+b.Len()) copy(idKey[:3], chanIDKey) copy(idKey[3:], b.Bytes()) return nodeChanBucket.Put(idKey, channel.TheirLNID[:]) } func deleteChannelIDs(nodeChanBucket *bolt.Bucket, chanID []byte) error { idKey := make([]byte, len(chanIDKey)+len(chanID)) copy(idKey[:3], chanIDKey) copy(idKey[3:], chanID) return nodeChanBucket.Delete(idKey) } func fetchChannelIDs(nodeChanBucket *bolt.Bucket, channel *OpenChannel) error { var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } // Construct the id key: cid || channelID. idKey := make([]byte, len(chanIDKey)+b.Len()) copy(idKey[:3], chanIDKey) copy(idKey[3:], b.Bytes()) idBytes := nodeChanBucket.Get(idKey) copy(channel.TheirLNID[:], idBytes) return nil } func putChanCommitKeys(nodeChanBucket *bolt.Bucket, channel *OpenChannel, ed EncryptorDecryptor) error { // Construct the key which stores the commitment keys: ckk || channelID. // TODO(roasbeef): factor into func var bc bytes.Buffer if err := writeOutpoint(&bc, channel.ChanID); err != nil { return err } commitKey := make([]byte, len(commitKeys)+bc.Len()) copy(commitKey[:3], commitKeys) copy(commitKeys[3:], bc.Bytes()) var b bytes.Buffer if _, err := b.Write(channel.TheirCommitKey.SerializeCompressed()); err != nil { return err } encryptedPriv, err := ed.Encrypt(channel.OurCommitKey.Serialize()) if err != nil { return err } if _, err := b.Write(encryptedPriv); err != nil { return err } return nodeChanBucket.Put(commitKey, b.Bytes()) } func deleteChanCommitKeys(nodeChanBucket *bolt.Bucket, chanID []byte) error { commitKey := make([]byte, len(commitKeys)+len(chanID)) copy(commitKey[:3], commitKeys) copy(commitKeys[3:], chanID) return nodeChanBucket.Delete(commitKey) } func fetchChanCommitKeys(nodeChanBucket *bolt.Bucket, channel *OpenChannel, ed EncryptorDecryptor) error { // Construct the key which stores the commitment keys: ckk || channelID. // TODO(roasbeef): factor into func var bc bytes.Buffer if err := writeOutpoint(&bc, channel.ChanID); err != nil { return err } commitKey := make([]byte, len(commitKeys)+bc.Len()) copy(commitKey[:3], commitKeys) copy(commitKeys[3:], bc.Bytes()) var err error keyBytes := nodeChanBucket.Get(commitKey) channel.TheirCommitKey, err = btcec.ParsePubKey(keyBytes[:33], btcec.S256()) if err != nil { return err } decryptedPriv, err := ed.Decrypt(keyBytes[33:]) if err != nil { return err } channel.OurCommitKey, _ = btcec.PrivKeyFromBytes(btcec.S256(), decryptedPriv) if err != nil { return err } return nil } func putChanCommitTxns(nodeChanBucket *bolt.Bucket, channel *OpenChannel) error { var bc bytes.Buffer if err := writeOutpoint(&bc, channel.ChanID); err != nil { return err } txnsKey := make([]byte, len(commitTxnsKey)+bc.Len()) copy(txnsKey[:3], commitTxnsKey) copy(txnsKey[3:], bc.Bytes()) var b bytes.Buffer if err := channel.TheirCommitTx.Serialize(&b); err != nil { return err } if err := channel.OurCommitTx.Serialize(&b); err != nil { return err } scratch := make([]byte, 4) byteOrder.PutUint32(scratch, channel.LocalCsvDelay) if _, err := b.Write(scratch); err != nil { return err } byteOrder.PutUint32(scratch, channel.RemoteCsvDelay) if _, err := b.Write(scratch); err != nil { return err } return nodeChanBucket.Put(txnsKey, b.Bytes()) } func deleteChanCommitTxns(nodeChanBucket *bolt.Bucket, chanID []byte) error { txnsKey := make([]byte, len(commitTxnsKey)+len(chanID)) copy(txnsKey[:3], commitTxnsKey) copy(txnsKey[3:], chanID) return nodeChanBucket.Delete(txnsKey) } func fetchChanCommitTxns(nodeChanBucket *bolt.Bucket, channel *OpenChannel) error { var bc bytes.Buffer if err := writeOutpoint(&bc, channel.ChanID); err != nil { return err } txnsKey := make([]byte, len(commitTxnsKey)+bc.Len()) copy(txnsKey[:3], commitTxnsKey) copy(txnsKey[3:], bc.Bytes()) txnBytes := bytes.NewReader(nodeChanBucket.Get(txnsKey)) channel.TheirCommitTx = wire.NewMsgTx() if err := channel.TheirCommitTx.Deserialize(txnBytes); err != nil { return err } channel.OurCommitTx = wire.NewMsgTx() if err := channel.OurCommitTx.Deserialize(txnBytes); err != nil { return err } scratch := make([]byte, 4) if _, err := txnBytes.Read(scratch); err != nil { return err } channel.LocalCsvDelay = byteOrder.Uint32(scratch) if _, err := txnBytes.Read(scratch); err != nil { return err } channel.RemoteCsvDelay = byteOrder.Uint32(scratch) return nil } func putChanFundingInfo(nodeChanBucket *bolt.Bucket, channel *OpenChannel, ed EncryptorDecryptor) error { var bc bytes.Buffer if err := writeOutpoint(&bc, channel.ChanID); err != nil { return err } fundTxnKey := make([]byte, len(fundingTxnKey)+bc.Len()) copy(fundTxnKey[:3], fundingTxnKey) copy(fundTxnKey[3:], bc.Bytes()) var b bytes.Buffer if err := writeOutpoint(&b, channel.FundingOutpoint); err != nil { return err } encryptedPriv, err := ed.Encrypt(channel.OurMultiSigKey.Serialize()) if err != nil { return err } if err := wire.WriteVarBytes(&b, 0, encryptedPriv); err != nil { return err } theirSerKey := channel.TheirMultiSigKey.SerializeCompressed() if err := wire.WriteVarBytes(&b, 0, theirSerKey); err != nil { return err } if err := wire.WriteVarBytes(&b, 0, channel.FundingRedeemScript[:]); err != nil { return err } scratch := make([]byte, 8) byteOrder.PutUint64(scratch, uint64(channel.CreationTime.Unix())) if _, err := b.Write(scratch); err != nil { return err } return nodeChanBucket.Put(fundTxnKey, b.Bytes()) } func deleteChanFundingInfo(nodeChanBucket *bolt.Bucket, chanID []byte) error { fundTxnKey := make([]byte, len(fundingTxnKey)+len(chanID)) copy(fundTxnKey[:3], fundingTxnKey) copy(fundTxnKey[3:], chanID) return nodeChanBucket.Delete(fundTxnKey) } func fetchChanFundingInfo(nodeChanBucket *bolt.Bucket, channel *OpenChannel, ed EncryptorDecryptor) error { var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } fundTxnKey := make([]byte, len(fundingTxnKey)+b.Len()) copy(fundTxnKey[:3], fundingTxnKey) copy(fundTxnKey[3:], b.Bytes()) infoBytes := bytes.NewReader(nodeChanBucket.Get(fundTxnKey)) // TODO(roasbeef): can remove as channel ID *is* the funding point now. channel.FundingOutpoint = &wire.OutPoint{} if err := readOutpoint(infoBytes, channel.FundingOutpoint); err != nil { return err } encryptedPrivBytes, err := wire.ReadVarBytes(infoBytes, 0, 100, "") if err != nil { return err } decryptedPriv, err := ed.Decrypt(encryptedPrivBytes) if err != nil { return err } channel.OurMultiSigKey, _ = btcec.PrivKeyFromBytes(btcec.S256(), decryptedPriv) theirKeyBytes, err := wire.ReadVarBytes(infoBytes, 0, 33, "") if err != nil { return err } channel.TheirMultiSigKey, err = btcec.ParsePubKey(theirKeyBytes, btcec.S256()) if err != nil { return err } channel.FundingRedeemScript, err = wire.ReadVarBytes(infoBytes, 0, 520, "") if err != nil { return err } scratch := make([]byte, 8) if _, err := infoBytes.Read(scratch); err != nil { return err } unixSecs := byteOrder.Uint64(scratch) channel.CreationTime = time.Unix(int64(unixSecs), 0) return nil } func putChanEklremState(nodeChanBucket *bolt.Bucket, channel *OpenChannel) error { var bc bytes.Buffer if err := writeOutpoint(&bc, channel.ChanID); err != nil { return err } elkremKey := make([]byte, len(elkremStateKey)+bc.Len()) copy(elkremKey[:3], elkremStateKey) copy(elkremKey[3:], bc.Bytes()) var b bytes.Buffer if _, err := b.Write(channel.TheirCurrentRevocation[:]); err != nil { return err } // TODO(roasbeef): no longer need to store any sender data senderBytes, err := channel.LocalElkrem.ToBytes() if err != nil { return err } if err := wire.WriteVarBytes(&b, 0, senderBytes); err != nil { return err } reciverBytes, err := channel.RemoteElkrem.ToBytes() if err != nil { return err } if err := wire.WriteVarBytes(&b, 0, reciverBytes); err != nil { return err } return nodeChanBucket.Put(elkremKey, b.Bytes()) } func deleteChanEklremState(nodeChanBucket *bolt.Bucket, chanID []byte) error { elkremKey := make([]byte, len(elkremStateKey)+len(chanID)) copy(elkremKey[:3], elkremStateKey) copy(elkremKey[3:], chanID) return nodeChanBucket.Delete(elkremKey) } func fetchChanEklremState(nodeChanBucket *bolt.Bucket, channel *OpenChannel) error { var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } elkremKey := make([]byte, len(elkremStateKey)+b.Len()) copy(elkremKey[:3], elkremStateKey) copy(elkremKey[3:], b.Bytes()) elkremStateBytes := bytes.NewReader(nodeChanBucket.Get(elkremKey)) if _, err := elkremStateBytes.Read(channel.TheirCurrentRevocation[:]); err != nil { return err } senderBytes, err := wire.ReadVarBytes(elkremStateBytes, 0, 1000, "") if err != nil { return err } localE, err := elkrem.ElkremSenderFromBytes(senderBytes) if err != nil { return err } channel.LocalElkrem = &localE reciverBytes, err := wire.ReadVarBytes(elkremStateBytes, 0, 1000, "") if err != nil { return err } remoteE, err := elkrem.ElkremReceiverFromBytes(reciverBytes) if err != nil { return err } channel.RemoteElkrem = &remoteE return nil } func putChanDeliveryScripts(nodeChanBucket *bolt.Bucket, channel *OpenChannel) error { var bc bytes.Buffer if err := writeOutpoint(&bc, channel.ChanID); err != nil { return err } deliveryKey := make([]byte, len(deliveryScriptsKey)+bc.Len()) copy(deliveryKey[:3], deliveryScriptsKey) copy(deliveryKey[3:], bc.Bytes()) var b bytes.Buffer if err := wire.WriteVarBytes(&b, 0, channel.OurDeliveryScript); err != nil { return err } if err := wire.WriteVarBytes(&b, 0, channel.TheirDeliveryScript); err != nil { return err } return nodeChanBucket.Put(deliveryScriptsKey, b.Bytes()) } func deleteChanDeliveryScripts(nodeChanBucket *bolt.Bucket, chanID []byte) error { deliveryKey := make([]byte, len(deliveryScriptsKey)+len(chanID)) copy(deliveryKey[:3], deliveryScriptsKey) copy(deliveryKey[3:], chanID) return nodeChanBucket.Delete(deliveryScriptsKey) } func fetchChanDeliveryScripts(nodeChanBucket *bolt.Bucket, channel *OpenChannel) error { var b bytes.Buffer if err := writeOutpoint(&b, channel.ChanID); err != nil { return err } deliveryKey := make([]byte, len(deliveryScriptsKey)+b.Len()) copy(deliveryKey[:3], deliveryScriptsKey) copy(deliveryKey[3:], b.Bytes()) var err error deliveryBytes := bytes.NewReader(nodeChanBucket.Get(deliveryScriptsKey)) channel.OurDeliveryScript, err = wire.ReadVarBytes(deliveryBytes, 0, 520, "") if err != nil { return err } channel.TheirDeliveryScript, err = wire.ReadVarBytes(deliveryBytes, 0, 520, "") if err != nil { return err } return nil } func writeOutpoint(w io.Writer, o *wire.OutPoint) error { scratch := make([]byte, 4) if err := wire.WriteVarBytes(w, 0, o.Hash[:]); err != nil { return err } byteOrder.PutUint32(scratch, o.Index) if _, err := w.Write(scratch); err != nil { return err } return nil } func readOutpoint(r io.Reader, o *wire.OutPoint) error { scratch := make([]byte, 4) txid, err := wire.ReadVarBytes(r, 0, 32, "prevout") if err != nil { return err } copy(o.Hash[:], txid) if _, err := r.Read(scratch); err != nil { return err } o.Index = byteOrder.Uint32(scratch) return nil }