// Copyright (c) 2013-2014 Conformal Systems LLC. // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. package ldb import ( "bytes" "encoding/binary" "github.com/conformal/btcdb" "github.com/conformal/btcwire" "github.com/conformal/goleveldb/leveldb" ) type txUpdateObj struct { txSha *btcwire.ShaHash blkHeight int64 txoff int txlen int ntxout int spentData []byte delete bool } type spentTx struct { blkHeight int64 txoff int txlen int numTxO int delete bool } type spentTxUpdate struct { txl []*spentTx delete bool } // InsertTx inserts a tx hash and its associated data into the database. func (db *LevelDb) InsertTx(txsha *btcwire.ShaHash, height int64, txoff int, txlen int, spentbuf []byte) (err error) { db.dbLock.Lock() defer db.dbLock.Unlock() return db.insertTx(txsha, height, txoff, txlen, spentbuf) } // insertTx inserts a tx hash and its associated data into the database. // Must be called with db lock held. func (db *LevelDb) insertTx(txSha *btcwire.ShaHash, height int64, txoff int, txlen int, spentbuf []byte) (err error) { var txU txUpdateObj txU.txSha = txSha txU.blkHeight = height txU.txoff = txoff txU.txlen = txlen txU.spentData = spentbuf db.txUpdateMap[*txSha] = &txU return nil } // formatTx generates the value buffer for the Tx db. func (db *LevelDb) formatTx(txu *txUpdateObj) []byte { blkHeight := uint64(txu.blkHeight) txOff := uint32(txu.txoff) txLen := uint32(txu.txlen) spentbuf := txu.spentData txW := make([]byte, 16+len(spentbuf)) binary.LittleEndian.PutUint64(txW[0:8], blkHeight) binary.LittleEndian.PutUint32(txW[8:12], txOff) binary.LittleEndian.PutUint32(txW[12:16], txLen) copy(txW[16:], spentbuf) return txW[:] } func (db *LevelDb) getTxData(txsha *btcwire.ShaHash) (int64, int, int, []byte, error) { key := shaTxToKey(txsha) buf, err := db.lDb.Get(key, db.ro) if err != nil { return 0, 0, 0, nil, err } blkHeight := binary.LittleEndian.Uint64(buf[0:8]) txOff := binary.LittleEndian.Uint32(buf[8:12]) txLen := binary.LittleEndian.Uint32(buf[12:16]) spentBuf := make([]byte, len(buf)-16) copy(spentBuf, buf[16:]) return int64(blkHeight), int(txOff), int(txLen), spentBuf, nil } func (db *LevelDb) getTxFullySpent(txsha *btcwire.ShaHash) ([]*spentTx, error) { var badTxList, spentTxList []*spentTx key := shaSpentTxToKey(txsha) buf, err := db.lDb.Get(key, db.ro) if err == leveldb.ErrNotFound { return badTxList, btcdb.TxShaMissing } else if err != nil { return badTxList, err } txListLen := len(buf) / 20 spentTxList = make([]*spentTx, txListLen, txListLen) for i := range spentTxList { offset := i * 20 blkHeight := binary.LittleEndian.Uint64(buf[offset : offset+8]) txOff := binary.LittleEndian.Uint32(buf[offset+8 : offset+12]) txLen := binary.LittleEndian.Uint32(buf[offset+12 : offset+16]) numTxO := binary.LittleEndian.Uint32(buf[offset+16 : offset+20]) sTx := spentTx{ blkHeight: int64(blkHeight), txoff: int(txOff), txlen: int(txLen), numTxO: int(numTxO), } spentTxList[i] = &sTx } return spentTxList, nil } func (db *LevelDb) formatTxFullySpent(sTxList []*spentTx) []byte { txW := make([]byte, 20*len(sTxList)) for i, sTx := range sTxList { blkHeight := uint64(sTx.blkHeight) txOff := uint32(sTx.txoff) txLen := uint32(sTx.txlen) numTxO := uint32(sTx.numTxO) offset := i * 20 binary.LittleEndian.PutUint64(txW[offset:offset+8], blkHeight) binary.LittleEndian.PutUint32(txW[offset+8:offset+12], txOff) binary.LittleEndian.PutUint32(txW[offset+12:offset+16], txLen) binary.LittleEndian.PutUint32(txW[offset+16:offset+20], numTxO) } return txW } // ExistsTxSha returns if the given tx sha exists in the database func (db *LevelDb) ExistsTxSha(txsha *btcwire.ShaHash) (bool, error) { db.dbLock.Lock() defer db.dbLock.Unlock() return db.existsTxSha(txsha) } // existsTxSha returns if the given tx sha exists in the database.o // Must be called with the db lock held. func (db *LevelDb) existsTxSha(txSha *btcwire.ShaHash) (bool, error) { _, _, _, _, err := db.getTxData(txSha) switch err { case nil: return true, nil case leveldb.ErrNotFound: return false, nil } return false, err } // FetchTxByShaList returns the most recent tx of the name fully spent or not func (db *LevelDb) FetchTxByShaList(txShaList []*btcwire.ShaHash) []*btcdb.TxListReply { db.dbLock.Lock() defer db.dbLock.Unlock() // until the fully spent separation of tx is complete this is identical // to FetchUnSpentTxByShaList replies := make([]*btcdb.TxListReply, len(txShaList)) for i, txsha := range txShaList { tx, blockSha, height, txspent, err := db.fetchTxDataBySha(txsha) btxspent := []bool{} if err == nil { btxspent = make([]bool, len(tx.TxOut), len(tx.TxOut)) for idx := range tx.TxOut { byteidx := idx / 8 byteoff := uint(idx % 8) btxspent[idx] = (txspent[byteidx] & (byte(1) << byteoff)) != 0 } } if err == btcdb.TxShaMissing { // if the unspent pool did not have the tx, // look in the fully spent pool (only last instance sTxList, fSerr := db.getTxFullySpent(txsha) if fSerr == nil && len(sTxList) != 0 { idx := len(sTxList) - 1 stx := sTxList[idx] tx, blockSha, _, _, err = db.fetchTxDataByLoc( stx.blkHeight, stx.txoff, stx.txlen, []byte{}) if err == nil { btxspent = make([]bool, len(tx.TxOut)) for i := range btxspent { btxspent[i] = true } } } } txlre := btcdb.TxListReply{Sha: txsha, Tx: tx, BlkSha: blockSha, Height: height, TxSpent: btxspent, Err: err} replies[i] = &txlre } return replies } // FetchUnSpentTxByShaList given a array of ShaHash, look up the transactions // and return them in a TxListReply array. func (db *LevelDb) FetchUnSpentTxByShaList(txShaList []*btcwire.ShaHash) []*btcdb.TxListReply { db.dbLock.Lock() defer db.dbLock.Unlock() replies := make([]*btcdb.TxListReply, len(txShaList)) for i, txsha := range txShaList { tx, blockSha, height, txspent, err := db.fetchTxDataBySha(txsha) btxspent := []bool{} if err == nil { btxspent = make([]bool, len(tx.TxOut), len(tx.TxOut)) for idx := range tx.TxOut { byteidx := idx / 8 byteoff := uint(idx % 8) btxspent[idx] = (txspent[byteidx] & (byte(1) << byteoff)) != 0 } } txlre := btcdb.TxListReply{Sha: txsha, Tx: tx, BlkSha: blockSha, Height: height, TxSpent: btxspent, Err: err} replies[i] = &txlre } return replies } // fetchTxDataBySha returns several pieces of data regarding the given sha. func (db *LevelDb) fetchTxDataBySha(txsha *btcwire.ShaHash) (rtx *btcwire.MsgTx, rblksha *btcwire.ShaHash, rheight int64, rtxspent []byte, err error) { var blkHeight int64 var txspent []byte var txOff, txLen int blkHeight, txOff, txLen, txspent, err = db.getTxData(txsha) if err != nil { if err == leveldb.ErrNotFound { err = btcdb.TxShaMissing } return } return db.fetchTxDataByLoc(blkHeight, txOff, txLen, txspent) } // fetchTxDataByLoc returns several pieces of data regarding the given tx // located by the block/offset/size location func (db *LevelDb) fetchTxDataByLoc(blkHeight int64, txOff int, txLen int, txspent []byte) (rtx *btcwire.MsgTx, rblksha *btcwire.ShaHash, rheight int64, rtxspent []byte, err error) { var blksha *btcwire.ShaHash var blkbuf []byte blksha, blkbuf, err = db.getBlkByHeight(blkHeight) if err != nil { if err == leveldb.ErrNotFound { err = btcdb.TxShaMissing } return } //log.Trace("transaction %v is at block %v %v txoff %v, txlen %v\n", // txsha, blksha, blkHeight, txOff, txLen) if len(blkbuf) < txOff+txLen { err = btcdb.TxShaMissing return } rbuf := bytes.NewReader(blkbuf[txOff : txOff+txLen]) var tx btcwire.MsgTx err = tx.Deserialize(rbuf) if err != nil { log.Warnf("unable to decode tx block %v %v txoff %v txlen %v", blkHeight, blksha, txOff, txLen) return } return &tx, blksha, blkHeight, txspent, nil } // FetchTxBySha returns some data for the given Tx Sha. func (db *LevelDb) FetchTxBySha(txsha *btcwire.ShaHash) ([]*btcdb.TxListReply, error) { db.dbLock.Lock() defer db.dbLock.Unlock() replylen := 0 replycnt := 0 tx, blksha, height, txspent, txerr := db.fetchTxDataBySha(txsha) if txerr == nil { replylen++ } else { if txerr != btcdb.TxShaMissing { return []*btcdb.TxListReply{}, txerr } } sTxList, fSerr := db.getTxFullySpent(txsha) if fSerr != nil { if fSerr != btcdb.TxShaMissing { return []*btcdb.TxListReply{}, fSerr } } else { replylen += len(sTxList) } replies := make([]*btcdb.TxListReply, replylen) if fSerr == nil { for _, stx := range sTxList { tx, blksha, _, _, err := db.fetchTxDataByLoc( stx.blkHeight, stx.txoff, stx.txlen, []byte{}) if err != nil { if err != leveldb.ErrNotFound { return []*btcdb.TxListReply{}, err } continue } btxspent := make([]bool, len(tx.TxOut), len(tx.TxOut)) for i := range btxspent { btxspent[i] = true } txlre := btcdb.TxListReply{Sha: txsha, Tx: tx, BlkSha: blksha, Height: stx.blkHeight, TxSpent: btxspent, Err: nil} replies[replycnt] = &txlre replycnt++ } } if txerr == nil { btxspent := make([]bool, len(tx.TxOut), len(tx.TxOut)) for idx := range tx.TxOut { byteidx := idx / 8 byteoff := uint(idx % 8) btxspent[idx] = (txspent[byteidx] & (byte(1) << byteoff)) != 0 } txlre := btcdb.TxListReply{Sha: txsha, Tx: tx, BlkSha: blksha, Height: height, TxSpent: btxspent, Err: nil} replies[replycnt] = &txlre replycnt++ } return replies, nil }