// VulcanizeDB // Copyright © 2019 Vulcanize // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package sql import ( "fmt" "strconv" "github.com/ethereum/go-ethereum/common" "github.com/jackc/pgtype" shopspring "github.com/jackc/pgtype/ext/shopspring-numeric" "github.com/lib/pq" "github.com/shopspring/decimal" "github.com/cerc-io/plugeth-statediff/indexer/database/metrics" "github.com/cerc-io/plugeth-statediff/indexer/interfaces" "github.com/cerc-io/plugeth-statediff/indexer/models" ) // Writer handles processing and writing of indexed IPLD objects to Postgres type Writer struct { db Database } // NewWriter creates a new pointer to a Writer func NewWriter(db Database) *Writer { return &Writer{ db: db, } } // Close satisfies io.Closer func (w *Writer) Close() error { return w.db.Close() } // hasHeader returns true if a matching hash+number record exists in the database, else false. func (w *Writer) hasHeader(blockHash common.Hash, blockNumber uint64) (exists bool, err error) { // pgx misdetects the parameter OIDs and selects int8, which can overflow. // unfortunately there is no good place to override it, so it is safer to pass the uint64s as text // and let PG handle the cast err = w.db.QueryRow(w.db.Context(), w.db.ExistsHeaderStm(), strconv.FormatUint(blockNumber, 10), blockHash.String()).Scan(&exists) return exists, err } // detectGaps returns a list of BlockGaps detected within the specified block range // For example, if the database contains blocks the overall range 1000:2000, but is missing blocks 1110:1230 and 1380 // it would return [{FirstMissing: 1110, LastMissing: 1230}, {FirstMissing: 1380, LastMissing: 1380}] func (w *Writer) detectGaps(beginBlockNumber uint64, endBlockNumber uint64) ([]*interfaces.BlockGap, error) { var gaps []*interfaces.BlockGap // pgx misdetects the parameter OIDs and selects int8, which can overflow. // unfortunately there is no good place to override it, so it is safer to pass the uint64s as text // and let PG handle the cast err := w.db.Select(w.db.Context(), &gaps, w.db.DetectGapsStm(), strconv.FormatUint(beginBlockNumber, 10), strconv.FormatUint(endBlockNumber, 10)) return gaps, err } // maxHeader returns the header for the highest block number in the database. // SELECT block_number, block_hash, parent_hash, cid, td, node_ids, reward, state_root, tx_root, receipt_root, uncles_hash, bloom, timestamp, coinbase FROM %s ORDER BY block_number DESC LIMIT 1 func (w *Writer) maxHeader() (*models.HeaderModel, error) { var model models.HeaderModel var err error var number, td, reward uint64 err = w.db.QueryRow(w.db.Context(), w.db.MaxHeaderStm()).Scan( &number, &model.BlockHash, &model.ParentHash, &model.CID, &td, &model.NodeIDs, &reward, &model.StateRoot, &model.TxRoot, &model.RctRoot, &model.UnclesHash, &model.Bloom, &model.Timestamp, &model.Coinbase, ) model.BlockNumber = strconv.FormatUint(number, 10) model.TotalDifficulty = strconv.FormatUint(td, 10) model.Reward = strconv.FormatUint(reward, 10) return &model, err } /* INSERT INTO eth.header_cids (block_number, block_hash, parent_hash, cid, td, node_ids, reward, state_root, tx_root, receipt_root, uncles_hash, bloom, timestamp, coinbase) VALUES ($1, $2, $3, $4, $5, $6, $7, $8, $9, $10, $11, $12, $13, $14) ON CONFLICT (block_hash, block_number) DO NOTHING */ func (w *Writer) upsertHeaderCID(tx Tx, header models.HeaderModel) error { nodeIDs := pq.StringArray([]string{w.db.NodeID()}) _, err := tx.Exec(w.db.Context(), w.db.InsertHeaderStm(), header.BlockNumber, header.BlockHash, header.ParentHash, header.CID, header.TotalDifficulty, nodeIDs, header.Reward, header.StateRoot, header.TxRoot, header.RctRoot, header.UnclesHash, header.Bloom, header.Timestamp, header.Coinbase) if err != nil { return insertError{"eth.header_cids", err, w.db.InsertHeaderStm(), header} } metrics.IndexerMetrics.BlocksCounter.Inc(1) return nil } /* INSERT INTO eth.uncle_cids (block_number, block_hash, header_id, parent_hash, cid, reward, index) VALUES ($1, $2, $3, $4, $5, $6, $7) ON CONFLICT (block_hash, block_number) DO NOTHING */ func (w *Writer) upsertUncleCID(tx Tx, uncle models.UncleModel) error { _, err := tx.Exec(w.db.Context(), w.db.InsertUncleStm(), uncle.BlockNumber, uncle.BlockHash, uncle.HeaderID, uncle.ParentHash, uncle.CID, uncle.Reward, uncle.Index) if err != nil { return insertError{"eth.uncle_cids", err, w.db.InsertUncleStm(), uncle} } return nil } /* INSERT INTO eth.transaction_cids (block_number, header_id, tx_hash, cid, dst, src, index, tx_type, value) VALUES ($1, $2, $3, $4, $5, $6, $7, $8, $9) ON CONFLICT (tx_hash, header_id, block_number) DO NOTHING */ func (w *Writer) upsertTransactionCID(tx Tx, transaction models.TxModel) error { val := transaction.Value if val == "" { val = "0" } if w.useCopyForTx(tx) { blockNum, err := strconv.ParseInt(transaction.BlockNumber, 10, 64) if err != nil { return insertError{"eth.transaction_cids", err, "COPY", transaction} } value, err := toNumeric(val) if err != nil { return insertError{"eth.transaction_cids", err, "COPY", transaction} } _, err = tx.CopyFrom(w.db.Context(), w.db.TxTableName(), w.db.TxColumnNames(), toRows(toRow(blockNum, transaction.HeaderID, transaction.TxHash, transaction.CID, transaction.Dst, transaction.Src, transaction.Index, int(transaction.Type), value))) if err != nil { return insertError{"eth.transaction_cids", err, "COPY", transaction} } } else { _, err := tx.Exec(w.db.Context(), w.db.InsertTxStm(), transaction.BlockNumber, transaction.HeaderID, transaction.TxHash, transaction.CID, transaction.Dst, transaction.Src, transaction.Index, transaction.Type, transaction.Value) if err != nil { return insertError{"eth.transaction_cids", err, w.db.InsertTxStm(), transaction} } } metrics.IndexerMetrics.TransactionsCounter.Inc(1) return nil } /* INSERT INTO eth.receipt_cids (block_number, header_id, tx_id, cid, contract, post_state, post_status) VALUES ($1, $2, $3, $4, $5, $6, $7, $8) ON CONFLICT (tx_id, header_id, block_number) DO NOTHING */ func (w *Writer) upsertReceiptCID(tx Tx, rct *models.ReceiptModel) error { if w.useCopyForTx(tx) { blockNum, err := strconv.ParseUint(rct.BlockNumber, 10, 64) if err != nil { return insertError{"eth.receipt_cids", err, "COPY", rct} } _, err = tx.CopyFrom(w.db.Context(), w.db.RctTableName(), w.db.RctColumnNames(), toRows(toRow(blockNum, rct.HeaderID, rct.TxID, rct.CID, rct.Contract, rct.PostState, int(rct.PostStatus)))) if err != nil { return insertError{"eth.receipt_cids", err, "COPY", rct} } } else { _, err := tx.Exec(w.db.Context(), w.db.InsertRctStm(), rct.BlockNumber, rct.HeaderID, rct.TxID, rct.CID, rct.Contract, rct.PostState, rct.PostStatus) if err != nil { return insertError{"eth.receipt_cids", err, w.db.InsertRctStm(), *rct} } } metrics.IndexerMetrics.ReceiptsCounter.Inc(1) return nil } /* INSERT INTO eth.log_cids (block_number, header_id, cid, rct_id, address, index, topic0, topic1, topic2, topic3) VALUES ($1, $2, $3, $4, $5, $6, $7, $8, $9, $10) ON CONFLICT (rct_id, index, header_id, block_number) DO NOTHING */ func (w *Writer) upsertLogCID(tx Tx, logs []*models.LogsModel) error { if w.useCopyForTx(tx) { var rows [][]interface{} for _, log := range logs { blockNum, err := strconv.ParseUint(log.BlockNumber, 10, 64) if err != nil { return insertError{"eth.log_cids", err, "COPY", log} } rows = append(rows, toRow(blockNum, log.HeaderID, log.CID, log.ReceiptID, log.Address, log.Index, log.Topic0, log.Topic1, log.Topic2, log.Topic3)) } if nil != rows && len(rows) >= 0 { _, err := tx.CopyFrom(w.db.Context(), w.db.LogTableName(), w.db.LogColumnNames(), rows) if err != nil { return insertError{"eth.log_cids", err, "COPY", rows} } metrics.IndexerMetrics.LogsCounter.Inc(int64(len(rows))) } } else { for _, log := range logs { _, err := tx.Exec(w.db.Context(), w.db.InsertLogStm(), log.BlockNumber, log.HeaderID, log.CID, log.ReceiptID, log.Address, log.Index, log.Topic0, log.Topic1, log.Topic2, log.Topic3) if err != nil { return insertError{"eth.log_cids", err, w.db.InsertLogStm(), *log} } metrics.IndexerMetrics.LogsCounter.Inc(1) } } return nil } /* INSERT INTO eth.state_cids (block_number, header_id, state_leaf_key, cid, removed, diff, balance, nonce, code_hash, storage_root) VALUES ($1, $2, $3, $4, $5, $6, $7, $8, $9, $10) ON CONFLICT (header_id, state_leaf_key, block_number) DO NOTHING */ func (w *Writer) upsertStateCID(tx Tx, stateNode models.StateNodeModel) error { bal := stateNode.Balance if stateNode.Removed { bal = "0" } if w.useCopyForTx(tx) { blockNum, err := strconv.ParseUint(stateNode.BlockNumber, 10, 64) if err != nil { return insertError{"eth.state_cids", err, "COPY", stateNode} } balance, err := toNumeric(bal) if err != nil { return insertError{"eth.state_cids", err, "COPY", stateNode} } _, err = tx.CopyFrom(w.db.Context(), w.db.StateTableName(), w.db.StateColumnNames(), toRows(toRow(blockNum, stateNode.HeaderID, stateNode.StateKey, stateNode.CID, true, balance, stateNode.Nonce, stateNode.CodeHash, stateNode.StorageRoot, stateNode.Removed))) if err != nil { return insertError{"eth.state_cids", err, "COPY", stateNode} } } else { _, err := tx.Exec(w.db.Context(), w.db.InsertStateStm(), stateNode.BlockNumber, stateNode.HeaderID, stateNode.StateKey, stateNode.CID, true, bal, stateNode.Nonce, stateNode.CodeHash, stateNode.StorageRoot, stateNode.Removed, ) if err != nil { return insertError{"eth.state_cids", err, w.db.InsertStateStm(), stateNode} } } return nil } /* INSERT INTO eth.storage_cids (block_number, header_id, state_leaf_key, storage_leaf_key, cid, removed, diff, val) VALUES ($1, $2, $3, $4, $5, $6, $7, $8) ON CONFLICT (header_id, state_leaf_key, storage_leaf_key, block_number) DO NOTHING */ func (w *Writer) upsertStorageCID(tx Tx, storageCID models.StorageNodeModel) error { if w.useCopyForTx(tx) { blockNum, err := strconv.ParseUint(storageCID.BlockNumber, 10, 64) if err != nil { return insertError{"eth.storage_cids", err, "COPY", storageCID} } _, err = tx.CopyFrom(w.db.Context(), w.db.StorageTableName(), w.db.StorageColumnNames(), toRows(toRow(blockNum, storageCID.HeaderID, storageCID.StateKey, storageCID.StorageKey, storageCID.CID, true, storageCID.Value, storageCID.Removed))) if err != nil { return insertError{"eth.storage_cids", err, "COPY", storageCID} } } else { _, err := tx.Exec(w.db.Context(), w.db.InsertStorageStm(), storageCID.BlockNumber, storageCID.HeaderID, storageCID.StateKey, storageCID.StorageKey, storageCID.CID, true, storageCID.Value, storageCID.Removed, ) if err != nil { return insertError{"eth.storage_cids", err, w.db.InsertStorageStm(), storageCID} } } return nil } func (w *Writer) useCopyForTx(tx Tx) bool { // Using COPY instead of INSERT only makes much sense if also using a DelayedTx, so that operations // can be collected over time and then all submitted within in a single TX. if _, ok := tx.(*DelayedTx); ok { return w.db.UseCopyFrom() } return false } // combine args into a row func toRow(args ...interface{}) []interface{} { var row []interface{} row = append(row, args...) return row } func toNumeric(value string) (*shopspring.Numeric, error) { decimalValue, err := decimal.NewFromString(value) if nil != err { return nil, err } return &shopspring.Numeric{Decimal: decimalValue, Status: pgtype.Present}, nil } // combine row (or rows) into a slice of rows for CopyFrom func toRows(rows ...[]interface{}) [][]interface{} { return rows } type insertError struct { table string err error stmt string arguments interface{} } var _ error = insertError{} func (dbe insertError) Error() string { return fmt.Sprintf("error inserting %s entry: %v\r\nstatement: %s\r\narguments: %+v", dbe.table, dbe.err, dbe.stmt, dbe.arguments) }