package wallet import ( "database/sql" "database/sql/driver" "encoding/json" "errors" "math/big" "reflect" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/log" ) // DBHeader fields from header that are stored in database. type DBHeader struct { Number *big.Int Hash common.Hash Timestamp uint64 Erc20Transfers []*Transfer Network uint64 Address common.Address // Head is true if the block was a head at the time it was pulled from chain. Head bool // Loaded is true if trasfers from this block has been already fetched Loaded bool } func toDBHeader(header *types.Header) *DBHeader { return &DBHeader{ Hash: header.Hash(), Number: header.Number, Timestamp: header.Time, Loaded: false, } } func toHead(header *types.Header) *DBHeader { dbheader := toDBHeader(header) dbheader.Head = true return dbheader } // SyncOption is used to specify that application processed transfers for that block. type SyncOption uint // JSONBlob type for marshaling/unmarshaling inner type to json. type JSONBlob struct { data interface{} } // Scan implements interface. func (blob *JSONBlob) Scan(value interface{}) error { if value == nil || reflect.ValueOf(blob.data).IsNil() { return nil } bytes, ok := value.([]byte) if !ok { return errors.New("not a byte slice") } if len(bytes) == 0 { return nil } err := json.Unmarshal(bytes, blob.data) return err } // Value implements interface. func (blob *JSONBlob) Value() (driver.Value, error) { if blob.data == nil || reflect.ValueOf(blob.data).IsNil() { return nil, nil } return json.Marshal(blob.data) } func NewDB(db *sql.DB, network uint64) *Database { return &Database{db: db, network: network} } // Database sql wrapper for operations with wallet objects. type Database struct { db *sql.DB network uint64 } // Close closes database. func (db Database) Close() error { return db.db.Close() } func (db Database) ProcessBlocks(account common.Address, from *big.Int, to *LastKnownBlock, headers []*DBHeader) (err error) { var ( tx *sql.Tx ) tx, err = db.db.Begin() if err != nil { return err } defer func() { if err == nil { err = tx.Commit() return } _ = tx.Rollback() }() err = insertBlocksWithTransactions(tx, account, db.network, headers) if err != nil { return } err = upsertRange(tx, account, db.network, from, to) if err != nil { return } return } func (db Database) SaveBlocks(account common.Address, headers []*DBHeader) (err error) { var ( tx *sql.Tx ) tx, err = db.db.Begin() if err != nil { return err } defer func() { if err == nil { err = tx.Commit() return } _ = tx.Rollback() }() err = insertBlocksWithTransactions(tx, account, db.network, headers) if err != nil { return } return } // ProcessTranfers atomically adds/removes blocks and adds new tranfers. func (db Database) ProcessTranfers(transfers []Transfer, removed []*DBHeader) (err error) { var ( tx *sql.Tx ) tx, err = db.db.Begin() if err != nil { return err } defer func() { if err == nil { err = tx.Commit() return } _ = tx.Rollback() }() err = deleteHeaders(tx, removed) if err != nil { return } err = updateOrInsertTransfers(tx, db.network, transfers) if err != nil { return } return } // SaveTranfers func (db Database) SaveTranfers(address common.Address, transfers []Transfer, blocks []*big.Int) (err error) { var ( tx *sql.Tx ) tx, err = db.db.Begin() if err != nil { return err } defer func() { if err == nil { err = tx.Commit() return } _ = tx.Rollback() }() err = updateOrInsertTransfers(tx, db.network, transfers) if err != nil { return } err = markBlocksAsLoaded(tx, address, db.network, blocks) if err != nil { return } return } // GetTransfersInRange loads transfers for a given address between two blocks. func (db *Database) GetTransfersInRange(address common.Address, start, end *big.Int) (rst []Transfer, err error) { query := newTransfersQuery().FilterNetwork(db.network).FilterAddress(address).FilterStart(start).FilterEnd(end).FilterLoaded(1) rows, err := db.db.Query(query.String(), query.Args()...) if err != nil { return } defer rows.Close() return query.Scan(rows) } // GetTransfersByAddress loads transfers for a given address between two blocks. func (db *Database) GetTransfersByAddress(address common.Address, toBlock *big.Int, limit int64) (rst []Transfer, err error) { query := newTransfersQuery(). FilterNetwork(db.network). FilterAddress(address). FilterEnd(toBlock). FilterLoaded(1). Limit(limit) rows, err := db.db.Query(query.String(), query.Args()...) if err != nil { return } defer rows.Close() return query.Scan(rows) } // GetTransfersByAddressAndBlock loads transfers for a given address and block. func (db *Database) GetTransfersByAddressAndBlock(address common.Address, block *big.Int, limit int64) (rst []Transfer, err error) { query := newTransfersQuery(). FilterNetwork(db.network). FilterAddress(address). FilterBlockNumber(block). FilterLoaded(1). Limit(limit) rows, err := db.db.Query(query.String(), query.Args()...) if err != nil { return } defer rows.Close() return query.Scan(rows) } // GetBlocksByAddress loads blocks for a given address. func (db *Database) GetBlocksByAddress(address common.Address, limit int) (rst []*big.Int, err error) { query := `SELECT blk_number FROM blocks WHERE address = ? AND network_id = ? AND loaded = 0 ORDER BY blk_number DESC LIMIT ?` rows, err := db.db.Query(query, address, db.network, limit) if err != nil { return } defer rows.Close() for rows.Next() { block := &big.Int{} err = rows.Scan((*SQLBigInt)(block)) if err != nil { return nil, err } rst = append(rst, block) } return rst, nil } func (db *Database) RemoveBlockWithTransfer(address common.Address, block *big.Int) error { query := `DELETE FROM blocks WHERE address = ? AND blk_number = ? AND network_id = ?` _, err := db.db.Exec(query, address, (*SQLBigInt)(block), db.network) if err != nil { return err } return nil } func (db *Database) GetLastBlockByAddress(address common.Address, limit int) (rst *big.Int, err error) { query := `SELECT * FROM (SELECT blk_number FROM blocks WHERE address = ? AND network_id = ? ORDER BY blk_number DESC LIMIT ?) ORDER BY blk_number LIMIT 1` rows, err := db.db.Query(query, address, db.network, limit) if err != nil { return } defer rows.Close() if rows.Next() { block := &big.Int{} err = rows.Scan((*SQLBigInt)(block)) if err != nil { return nil, err } return block, nil } return nil, nil } func (db *Database) GetLastSavedBlock() (rst *DBHeader, err error) { query := `SELECT blk_number, blk_hash FROM blocks WHERE network_id = ? ORDER BY blk_number DESC LIMIT 1` rows, err := db.db.Query(query, db.network) if err != nil { return } defer rows.Close() if rows.Next() { header := &DBHeader{Hash: common.Hash{}, Number: new(big.Int)} err = rows.Scan((*SQLBigInt)(header.Number), &header.Hash) if err != nil { return nil, err } return header, nil } return nil, nil } func (db *Database) GetBlocks() (rst []*DBHeader, err error) { query := `SELECT blk_number, blk_hash, address FROM blocks` rows, err := db.db.Query(query, db.network) if err != nil { return } defer rows.Close() rst = []*DBHeader{} for rows.Next() { header := &DBHeader{Hash: common.Hash{}, Number: new(big.Int)} err = rows.Scan((*SQLBigInt)(header.Number), &header.Hash, &header.Address) if err != nil { return nil, err } rst = append(rst, header) } return rst, nil } func (db *Database) GetLastSavedBlockBefore(block *big.Int) (rst *DBHeader, err error) { query := `SELECT blk_number, blk_hash FROM blocks WHERE network_id = ? AND blk_number < ? ORDER BY blk_number DESC LIMIT 1` rows, err := db.db.Query(query, db.network, (*SQLBigInt)(block)) if err != nil { return } defer rows.Close() if rows.Next() { header := &DBHeader{Hash: common.Hash{}, Number: new(big.Int)} err = rows.Scan((*SQLBigInt)(header.Number), &header.Hash) if err != nil { return nil, err } return header, nil } return nil, nil } func (db *Database) GetFirstKnownBlock(address common.Address) (rst *big.Int, err error) { query := `SELECT blk_from FROM blocks_ranges WHERE address = ? AND network_id = ? ORDER BY blk_from LIMIT 1` rows, err := db.db.Query(query, address, db.network) if err != nil { return } defer rows.Close() if rows.Next() { block := &big.Int{} err = rows.Scan((*SQLBigInt)(block)) if err != nil { return nil, err } return block, nil } return nil, nil } type LastKnownBlock struct { Number *big.Int Balance *big.Int Nonce *int64 } func (db *Database) GetLastKnownBlockByAddress(address common.Address) (block *LastKnownBlock, err error) { query := `SELECT blk_to, balance, nonce FROM blocks_ranges WHERE address = ? AND network_id = ? ORDER BY blk_to DESC LIMIT 1` rows, err := db.db.Query(query, address, db.network) if err != nil { return } defer rows.Close() if rows.Next() { var nonce sql.NullInt64 block = &LastKnownBlock{Number: &big.Int{}, Balance: &big.Int{}} err = rows.Scan((*SQLBigInt)(block.Number), (*SQLBigIntBytes)(block.Balance), &nonce) if err != nil { return nil, err } if nonce.Valid { block.Nonce = &nonce.Int64 } return block, nil } return nil, nil } func (db *Database) GetLastKnownBlockByAddresses(addresses []common.Address) (map[common.Address]*LastKnownBlock, []common.Address, error) { res := map[common.Address]*LastKnownBlock{} accountsWithoutHistory := []common.Address{} for _, address := range addresses { block, err := db.GetLastKnownBlockByAddress(address) if err != nil { log.Info("Can't get last block", "error", err) return nil, nil, err } if block != nil { res[address] = block } else { accountsWithoutHistory = append(accountsWithoutHistory, address) } } return res, accountsWithoutHistory, nil } // GetTransfers load transfers transfer betweeen two blocks. func (db *Database) GetTransfers(start, end *big.Int) (rst []Transfer, err error) { query := newTransfersQuery().FilterNetwork(db.network).FilterStart(start).FilterEnd(end).FilterLoaded(1) rows, err := db.db.Query(query.String(), query.Args()...) if err != nil { return } defer rows.Close() return query.Scan(rows) } func (db *Database) GetPreloadedTransactions(address common.Address, blockHash common.Hash) (rst []Transfer, err error) { query := newTransfersQuery(). FilterNetwork(db.network). FilterAddress(address). FilterBlockHash(blockHash). FilterLoaded(0) rows, err := db.db.Query(query.String(), query.Args()...) if err != nil { return } defer rows.Close() return query.Scan(rows) } func (db *Database) GetTransactionsLog(address common.Address, transactionHash common.Hash) (*types.Log, error) { l := &types.Log{} err := db.db.QueryRow("SELECT log FROM transfers WHERE network_id = ? AND address = ? AND hash = ?", db.network, address, transactionHash). Scan(&JSONBlob{l}) if err == nil { return l, nil } if err == sql.ErrNoRows { return nil, nil } return nil, err } // SaveHeaders stores a list of headers atomically. func (db *Database) SaveHeaders(headers []*types.Header, address common.Address) (err error) { var ( tx *sql.Tx insert *sql.Stmt ) tx, err = db.db.Begin() if err != nil { return } insert, err = tx.Prepare("INSERT INTO blocks(network_id, blk_number, blk_hash, address) VALUES (?, ?, ?, ?)") if err != nil { return } defer func() { if err == nil { err = tx.Commit() } else { _ = tx.Rollback() } }() for _, h := range headers { _, err = insert.Exec(db.network, (*SQLBigInt)(h.Number), h.Hash(), address) if err != nil { return } } return } // GetHeaderByNumber selects header using block number. func (db *Database) GetHeaderByNumber(number *big.Int) (header *DBHeader, err error) { header = &DBHeader{Hash: common.Hash{}, Number: new(big.Int)} err = db.db.QueryRow("SELECT blk_hash, blk_number FROM blocks WHERE blk_number = ? AND network_id = ?", (*SQLBigInt)(number), db.network).Scan(&header.Hash, (*SQLBigInt)(header.Number)) if err == nil { return header, nil } if err == sql.ErrNoRows { return nil, nil } return nil, err } type Token struct { Address common.Address `json:"address"` Name string `json:"name"` Symbol string `json:"symbol"` Color string `json:"color"` // Decimals defines how divisible the token is. For example, 0 would be // indivisible, whereas 18 would allow very small amounts of the token // to be traded. Decimals uint `json:"decimals"` } func (db *Database) GetCustomTokens() ([]*Token, error) { rows, err := db.db.Query(`SELECT address, name, symbol, decimals, color FROM tokens WHERE network_id = ?`, db.network) if err != nil { return nil, err } defer rows.Close() var rst []*Token for rows.Next() { token := &Token{} err := rows.Scan(&token.Address, &token.Name, &token.Symbol, &token.Decimals, &token.Color) if err != nil { return nil, err } rst = append(rst, token) } return rst, nil } func (db *Database) AddCustomToken(token Token) error { insert, err := db.db.Prepare("INSERT OR REPLACE INTO TOKENS (network_id, address, name, symbol, decimals, color) VALUES (?, ?, ?, ?, ?, ?)") if err != nil { return err } _, err = insert.Exec(db.network, token.Address, token.Name, token.Symbol, token.Decimals, token.Color) return err } func (db *Database) DeleteCustomToken(address common.Address) error { _, err := db.db.Exec(`DELETE FROM TOKENS WHERE address = ?`, address) return err } type PendingTrxType string const ( RegisterENS PendingTrxType = "RegisterENS" ReleaseENS PendingTrxType = "ReleaseENS" SetPubKey PendingTrxType = "SetPubKey" BuyStickerPack PendingTrxType = "BuyStickerPack" WalletTransfer PendingTrxType = "WalletTransfer" ) type PendingTransaction struct { TransactionHash common.Hash `json:"transactionHash"` BlockNumber *big.Int `json:"blockNumber"` From common.Address `json:"from_address"` To common.Address `json:"to_address"` Type PendingTrxType `json:"type"` Data string `json:"data"` } func (db *Database) GetPendingTransactions() ([]*PendingTransaction, error) { rows, err := db.db.Query(`SELECT transaction_hash, blk_number, from_address, to_address, type, data FROM pending_transactions WHERE network_id = ?`, db.network) if err != nil { return nil, err } defer rows.Close() var rst []*PendingTransaction for rows.Next() { trx := &PendingTransaction{BlockNumber: new(big.Int)} err := rows.Scan(&trx.TransactionHash, (*SQLBigInt)(trx.BlockNumber), &trx.From, &trx.To, &trx.Type, &trx.Data) if err != nil { return nil, err } rst = append(rst, trx) } return rst, nil } func (db *Database) GetPendingOutboundTransactionsByAddress(address common.Address) ([]*PendingTransaction, error) { rows, err := db.db.Query(`SELECT transaction_hash, blk_number, from_address, to_address, type, data FROM pending_transactions WHERE network_id = ? AND from_address = ?`, db.network, address) if err != nil { return nil, err } defer rows.Close() var rst []*PendingTransaction for rows.Next() { trx := &PendingTransaction{BlockNumber: new(big.Int)} err := rows.Scan(&trx.TransactionHash, (*SQLBigInt)(trx.BlockNumber), &trx.From, &trx.To, &trx.Type, &trx.Data) if err != nil { return nil, err } rst = append(rst, trx) } return rst, nil } func (db *Database) StorePendingTransaction(trx PendingTransaction) error { insert, err := db.db.Prepare("INSERT OR REPLACE INTO pending_transactions (network_id, transaction_hash, blk_number, from_address, to_address, type, data) VALUES (?, ?, ?, ?, ?, ?, ?)") if err != nil { return err } _, err = insert.Exec(db.network, trx.TransactionHash, (*SQLBigInt)(trx.BlockNumber), trx.From, trx.To, trx.Type, trx.Data) return err } func (db *Database) DeletePendingTransaction(transactionHash common.Hash) error { _, err := db.db.Exec(`DELETE FROM pending_transactions WHERE transaction_hash = ?`, transactionHash) return err } type Favourite struct { Address common.Address `json:"address"` Name string `json:"name"` } func (db *Database) GetFavourites() ([]*Favourite, error) { rows, err := db.db.Query(`SELECT address, name FROM favourites`) if err != nil { return nil, err } defer rows.Close() var rst []*Favourite for rows.Next() { favourite := &Favourite{} err := rows.Scan(&favourite.Address, &favourite.Name) if err != nil { return nil, err } rst = append(rst, favourite) } return rst, nil } func (db *Database) AddFavourite(favourite Favourite) error { insert, err := db.db.Prepare("INSERT OR REPLACE INTO favourites (address, name) VALUES (?, ?)") if err != nil { return err } _, err = insert.Exec(favourite.Address, favourite.Name) return err } // statementCreator allows to pass transaction or database to use in consumer. type statementCreator interface { Prepare(query string) (*sql.Stmt, error) } func deleteHeaders(creator statementCreator, headers []*DBHeader) error { delete, err := creator.Prepare("DELETE FROM blocks WHERE blk_hash = ?") if err != nil { return err } deleteTransfers, err := creator.Prepare("DELETE FROM transfers WHERE blk_hash = ?") if err != nil { return err } for _, h := range headers { _, err = delete.Exec(h.Hash) if err != nil { return err } _, err = deleteTransfers.Exec(h.Hash) if err != nil { return err } } return nil } func insertBlocksWithTransactions(creator statementCreator, account common.Address, network uint64, headers []*DBHeader) error { insert, err := creator.Prepare("INSERT OR IGNORE INTO blocks(network_id, address, blk_number, blk_hash, loaded) VALUES (?, ?, ?, ?, ?)") if err != nil { return err } updateTx, err := creator.Prepare(`UPDATE transfers SET log = ? WHERE network_id = ? AND address = ? AND hash = ?`) if err != nil { return err } insertTx, err := creator.Prepare(`INSERT OR IGNORE INTO transfers (network_id, address, sender, hash, blk_number, blk_hash, type, timestamp, log, loaded) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, 0)`) if err != nil { return err } for _, header := range headers { _, err = insert.Exec(network, account, (*SQLBigInt)(header.Number), header.Hash, header.Loaded) if err != nil { return err } if len(header.Erc20Transfers) > 0 { for _, transfer := range header.Erc20Transfers { res, err := updateTx.Exec(&JSONBlob{transfer.Log}, network, account, transfer.ID) if err != nil { return err } affected, err := res.RowsAffected() if err != nil { return err } if affected > 0 { continue } _, err = insertTx.Exec(network, account, account, transfer.ID, (*SQLBigInt)(header.Number), header.Hash, erc20Transfer, transfer.Timestamp, &JSONBlob{transfer.Log}) if err != nil { log.Error("error saving erc20transfer", "err", err) return err } } } } return nil } func (db *Database) UpsertRange(account common.Address, network uint64, from, to, balance *big.Int, nonce uint64) error { log.Debug("upsert blocks range", "account", account, "network id", network, "from", from, "to", to, "balance", balance, "nonce", nonce) insert, err := db.db.Prepare("INSERT INTO blocks_ranges (network_id, address, blk_from, blk_to, balance, nonce) VALUES (?, ?, ?, ?)") if err != nil { return err } _, err = insert.Exec(network, account, (*SQLBigInt)(from), (*SQLBigInt)(to), (*SQLBigIntBytes)(balance), &nonce) return err } func upsertRange(creator statementCreator, account common.Address, network uint64, from *big.Int, to *LastKnownBlock) (err error) { log.Debug("upsert blocks range", "account", account, "network id", network, "from", from, "to", to.Number, "balance", to.Balance) update, err := creator.Prepare(`UPDATE blocks_ranges SET blk_to = ?, balance = ?, nonce = ? WHERE address = ? AND network_id = ? AND blk_to = ?`) if err != nil { return err } res, err := update.Exec((*SQLBigInt)(to.Number), (*SQLBigIntBytes)(to.Balance), to.Nonce, account, network, (*SQLBigInt)(from)) if err != nil { return err } affected, err := res.RowsAffected() if err != nil { return err } if affected == 0 { insert, err := creator.Prepare("INSERT INTO blocks_ranges (network_id, address, blk_from, blk_to, balance, nonce) VALUES (?, ?, ?, ?, ?, ?)") if err != nil { return err } _, err = insert.Exec(network, account, (*SQLBigInt)(from), (*SQLBigInt)(to.Number), (*SQLBigIntBytes)(to.Balance), to.Nonce) if err != nil { return err } } return } type BlocksRange struct { from *big.Int to *big.Int } func (db *Database) getOldRanges(account common.Address, network uint64) ([]*BlocksRange, error) { query := `select blk_from, blk_to from blocks_ranges where address = ? and network_id = ? order by blk_from` rows, err := db.db.Query(query, account, db.network) if err != nil { return nil, err } defer rows.Close() ranges := []*BlocksRange{} for rows.Next() { from := &big.Int{} to := &big.Int{} err = rows.Scan((*SQLBigInt)(from), (*SQLBigInt)(to)) if err != nil { return nil, err } ranges = append(ranges, &BlocksRange{ from: from, to: to, }) } return ranges, nil } func getNewRanges(ranges []*BlocksRange) ([]*BlocksRange, []*BlocksRange) { initValue := big.NewInt(-1) prevFrom := big.NewInt(-1) prevTo := big.NewInt(-1) hasMergedRanges := false var newRanges []*BlocksRange var deletedRanges []*BlocksRange for idx, blocksRange := range ranges { if prevTo.Cmp(initValue) == 0 { prevTo = blocksRange.to prevFrom = blocksRange.from } else if prevTo.Cmp(blocksRange.from) >= 0 { hasMergedRanges = true deletedRanges = append(deletedRanges, ranges[idx-1]) if prevTo.Cmp(blocksRange.to) <= 0 { prevTo = blocksRange.to } } else { if hasMergedRanges { deletedRanges = append(deletedRanges, ranges[idx-1]) newRanges = append(newRanges, &BlocksRange{ from: prevFrom, to: prevTo, }) } log.Info("blocks ranges gap detected", "from", prevTo, "to", blocksRange.from) hasMergedRanges = false prevFrom = blocksRange.from prevTo = blocksRange.to } } if hasMergedRanges { deletedRanges = append(deletedRanges, ranges[len(ranges)-1]) newRanges = append(newRanges, &BlocksRange{ from: prevFrom, to: prevTo, }) } return newRanges, deletedRanges } func (db *Database) mergeRanges(account common.Address, network uint64) (err error) { var ( tx *sql.Tx ) ranges, err := db.getOldRanges(account, network) if err != nil { return err } log.Info("merge old ranges", "account", account, "network", network, "ranges", len(ranges)) if len(ranges) <= 1 { return nil } tx, err = db.db.Begin() if err != nil { return err } defer func() { if err == nil { err = tx.Commit() return } _ = tx.Rollback() }() newRanges, deletedRanges := getNewRanges(ranges) for _, rangeToDelete := range deletedRanges { err = deleteRange(tx, account, network, rangeToDelete.from, rangeToDelete.to) if err != nil { return err } } for _, newRange := range newRanges { err = insertRange(tx, account, network, newRange.from, newRange.to) if err != nil { return err } } return nil } func deleteRange(creator statementCreator, account common.Address, network uint64, from *big.Int, to *big.Int) error { log.Info("delete blocks range", "account", account, "network", network, "from", from, "to", to) delete, err := creator.Prepare(`DELETE FROM blocks_ranges WHERE address = ? AND network_id = ? AND blk_from = ? AND blk_to = ?`) if err != nil { log.Info("some error", "error", err) return err } _, err = delete.Exec(account, network, (*SQLBigInt)(from), (*SQLBigInt)(to)) return err } func insertRange(creator statementCreator, account common.Address, network uint64, from *big.Int, to *big.Int) error { log.Info("insert blocks range", "account", account, "network", network, "from", from, "to", to) insert, err := creator.Prepare("INSERT INTO blocks_ranges (network_id, address, blk_from, blk_to) VALUES (?, ?, ?, ?)") if err != nil { return err } _, err = insert.Exec(network, account, (*SQLBigInt)(from), (*SQLBigInt)(to)) return err } func updateOrInsertTransfers(creator statementCreator, network uint64, transfers []Transfer) error { update, err := creator.Prepare(`UPDATE transfers SET tx = ?, sender = ?, receipt = ?, timestamp = ?, loaded = 1 WHERE address =? AND hash = ?`) if err != nil { return err } insert, err := creator.Prepare(`INSERT OR IGNORE INTO transfers (network_id, hash, blk_hash, blk_number, timestamp, address, tx, sender, receipt, log, type, loaded) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, 1)`) if err != nil { return err } for _, t := range transfers { res, err := update.Exec(&JSONBlob{t.Transaction}, t.From, &JSONBlob{t.Receipt}, t.Timestamp, t.Address, t.ID) if err != nil { return err } affected, err := res.RowsAffected() if err != nil { return err } if affected > 0 { continue } _, err = insert.Exec(network, t.ID, t.BlockHash, (*SQLBigInt)(t.BlockNumber), t.Timestamp, t.Address, &JSONBlob{t.Transaction}, t.From, &JSONBlob{t.Receipt}, &JSONBlob{t.Log}, t.Type) if err != nil { log.Error("can't save transfer", "b-hash", t.BlockHash, "b-n", t.BlockNumber, "a", t.Address, "h", t.ID) return err } } return nil } //markBlocksAsLoaded(tx, address, db.network, blocks) func markBlocksAsLoaded(creator statementCreator, address common.Address, network uint64, blocks []*big.Int) error { update, err := creator.Prepare("UPDATE blocks SET loaded=? WHERE address=? AND blk_number=? AND network_id=?") if err != nil { return err } for _, block := range blocks { _, err := update.Exec(true, address, (*SQLBigInt)(block), network) if err != nil { return err } } return nil }