// 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 provides an interface for pushing and indexing IPLD objects into a sql database // Metrics for reporting processing and connection stats are defined in ./metrics.go package sql import ( "context" "fmt" "math/big" "time" ipld2 "github.com/ethereum/go-ethereum/statediff/indexer/ipld" "github.com/ipfs/go-cid" node "github.com/ipfs/go-ipld-format" "github.com/multiformats/go-multihash" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/log" "github.com/ethereum/go-ethereum/metrics" "github.com/ethereum/go-ethereum/params" "github.com/ethereum/go-ethereum/rlp" "github.com/ethereum/go-ethereum/statediff/indexer/interfaces" "github.com/ethereum/go-ethereum/statediff/indexer/models" "github.com/ethereum/go-ethereum/statediff/indexer/shared" sdtypes "github.com/ethereum/go-ethereum/statediff/types" ) var _ interfaces.StateDiffIndexer = &StateDiffIndexer{} var ( indexerMetrics = RegisterIndexerMetrics(metrics.DefaultRegistry) dbMetrics = RegisterDBMetrics(metrics.DefaultRegistry) ) // StateDiffIndexer satisfies the indexer.StateDiffIndexer interface for ethereum statediff objects on top of an SQL sql type StateDiffIndexer struct { ctx context.Context chainConfig *params.ChainConfig dbWriter *Writer } // NewStateDiffIndexer creates a sql implementation of interfaces.StateDiffIndexer func NewStateDiffIndexer(ctx context.Context, chainConfig *params.ChainConfig, db Database) (*StateDiffIndexer, error) { // Write the removed node to the db on init if _, err := db.Exec(ctx, db.InsertIPLDStm(), shared.RemovedNodeMhKey, []byte{}); err != nil { return nil, err } return &StateDiffIndexer{ ctx: ctx, chainConfig: chainConfig, dbWriter: NewWriter(db), }, nil } // ReportDBMetrics is a reporting function to run as goroutine func (sdi *StateDiffIndexer) ReportDBMetrics(delay time.Duration, quit <-chan bool) { if !metrics.Enabled { return } ticker := time.NewTicker(delay) go func() { for { select { case <-ticker.C: dbMetrics.Update(sdi.dbWriter.db.Stats()) case <-quit: ticker.Stop() return } } }() } // PushBlock pushes and indexes block data in sql, except state & storage nodes (includes header, uncles, transactions & receipts) // Returns an initiated DB transaction which must be Closed via defer to commit or rollback func (sdi *StateDiffIndexer) PushBlock(block *types.Block, receipts types.Receipts, totalDifficulty *big.Int) (interfaces.Batch, error) { start, t := time.Now(), time.Now() blockHash := block.Hash() blockHashStr := blockHash.String() height := block.NumberU64() traceMsg := fmt.Sprintf("indexer stats for statediff at %d with hash %s:\r\n", height, blockHashStr) transactions := block.Transactions() // Derive any missing fields if err := receipts.DeriveFields(sdi.chainConfig, blockHash, height, transactions); err != nil { return nil, err } // Generate the block iplds headerNode, uncleNodes, txNodes, txTrieNodes, rctNodes, rctTrieNodes, logTrieNodes, logLeafNodeCIDs, rctLeafNodeCIDs, err := ipld2.FromBlockAndReceipts(block, receipts) if err != nil { return nil, fmt.Errorf("error creating IPLD nodes from block and receipts: %v", err) } if len(txNodes) != len(rctNodes) || len(rctNodes) != len(rctLeafNodeCIDs) { return nil, fmt.Errorf("expected number of transactions (%d), receipts (%d), and receipt trie leaf nodes (%d) to be equal", len(txNodes), len(rctNodes), len(rctLeafNodeCIDs)) } if len(txTrieNodes) != len(rctTrieNodes) { return nil, fmt.Errorf("expected number of tx trie (%d) and rct trie (%d) nodes to be equal", len(txTrieNodes), len(rctTrieNodes)) } // Calculate reward var reward *big.Int // in PoA networks block reward is 0 if sdi.chainConfig.Clique != nil { reward = big.NewInt(0) } else { reward = shared.CalcEthBlockReward(block.Header(), block.Uncles(), block.Transactions(), receipts) } t = time.Now() // Begin new db tx for everything tx, err := sdi.dbWriter.db.Begin(sdi.ctx) if err != nil { return nil, err } defer func() { if p := recover(); p != nil { rollback(sdi.ctx, tx) panic(p) } else if err != nil { rollback(sdi.ctx, tx) } }() blockTx := &BatchTx{ stm: sdi.dbWriter.db.InsertIPLDsStm(), iplds: make(chan models.IPLDModel), quit: make(chan struct{}), ipldCache: models.IPLDBatch{}, dbtx: tx, // handle transaction commit or rollback for any return case close: func(self *BatchTx, err error) error { close(self.quit) close(self.iplds) if p := recover(); p != nil { rollback(sdi.ctx, tx) panic(p) } else if err != nil { rollback(sdi.ctx, tx) } else { tDiff := time.Since(t) indexerMetrics.tStateStoreCodeProcessing.Update(tDiff) traceMsg += fmt.Sprintf("state, storage, and code storage processing time: %s\r\n", tDiff.String()) t = time.Now() if err := self.flush(); err != nil { rollback(sdi.ctx, tx) traceMsg += fmt.Sprintf(" TOTAL PROCESSING DURATION: %s\r\n", time.Since(start).String()) log.Debug(traceMsg) return err } err = tx.Commit(sdi.ctx) tDiff = time.Since(t) indexerMetrics.tPostgresCommit.Update(tDiff) traceMsg += fmt.Sprintf("postgres transaction commit duration: %s\r\n", tDiff.String()) } traceMsg += fmt.Sprintf(" TOTAL PROCESSING DURATION: %s\r\n", time.Since(start).String()) log.Debug(traceMsg) return err }, } go blockTx.cache() tDiff := time.Since(t) indexerMetrics.tFreePostgres.Update(tDiff) traceMsg += fmt.Sprintf("time spent waiting for free postgres tx: %s:\r\n", tDiff.String()) t = time.Now() // Publish and index header, collect headerID var headerID int64 headerID, err = sdi.processHeader(blockTx, block.Header(), headerNode, reward, totalDifficulty) if err != nil { return nil, err } tDiff = time.Since(t) indexerMetrics.tHeaderProcessing.Update(tDiff) traceMsg += fmt.Sprintf("header processing time: %s\r\n", tDiff.String()) t = time.Now() // Publish and index uncles err = sdi.processUncles(blockTx, headerID, height, uncleNodes) if err != nil { return nil, err } tDiff = time.Since(t) indexerMetrics.tUncleProcessing.Update(tDiff) traceMsg += fmt.Sprintf("uncle processing time: %s\r\n", tDiff.String()) t = time.Now() // Publish and index receipts and txs err = sdi.processReceiptsAndTxs(blockTx, processArgs{ headerID: headerID, blockNumber: block.Number(), receipts: receipts, txs: transactions, rctNodes: rctNodes, rctTrieNodes: rctTrieNodes, txNodes: txNodes, txTrieNodes: txTrieNodes, logTrieNodes: logTrieNodes, logLeafNodeCIDs: logLeafNodeCIDs, rctLeafNodeCIDs: rctLeafNodeCIDs, }) if err != nil { return nil, err } tDiff = time.Since(t) indexerMetrics.tTxAndRecProcessing.Update(tDiff) traceMsg += fmt.Sprintf("tx and receipt processing time: %s\r\n", tDiff.String()) t = time.Now() blockTx.headerID = headerID return blockTx, err } // processHeader publishes and indexes a header IPLD in Postgres // it returns the headerID func (sdi *StateDiffIndexer) processHeader(tx *BatchTx, header *types.Header, headerNode node.Node, reward, td *big.Int) (int64, error) { tx.cacheIPLD(headerNode) var baseFee *int64 if header.BaseFee != nil { baseFee = new(int64) *baseFee = header.BaseFee.Int64() } // index header return sdi.dbWriter.upsertHeaderCID(tx.dbtx, models.HeaderModel{ CID: headerNode.Cid().String(), MhKey: shared.MultihashKeyFromCID(headerNode.Cid()), ParentHash: header.ParentHash.String(), BlockNumber: header.Number.String(), BlockHash: header.Hash().String(), TotalDifficulty: td.String(), Reward: reward.String(), Bloom: header.Bloom.Bytes(), StateRoot: header.Root.String(), RctRoot: header.ReceiptHash.String(), TxRoot: header.TxHash.String(), UncleRoot: header.UncleHash.String(), Timestamp: header.Time, BaseFee: baseFee, }) } // processUncles publishes and indexes uncle IPLDs in Postgres func (sdi *StateDiffIndexer) processUncles(tx *BatchTx, headerID int64, blockNumber uint64, uncleNodes []*ipld2.EthHeader) error { // publish and index uncles for _, uncleNode := range uncleNodes { tx.cacheIPLD(uncleNode) var uncleReward *big.Int // in PoA networks uncle reward is 0 if sdi.chainConfig.Clique != nil { uncleReward = big.NewInt(0) } else { uncleReward = shared.CalcUncleMinerReward(blockNumber, uncleNode.Number.Uint64()) } uncle := models.UncleModel{ CID: uncleNode.Cid().String(), MhKey: shared.MultihashKeyFromCID(uncleNode.Cid()), ParentHash: uncleNode.ParentHash.String(), BlockHash: uncleNode.Hash().String(), Reward: uncleReward.String(), } if err := sdi.dbWriter.upsertUncleCID(tx.dbtx, uncle, headerID); err != nil { return err } } return nil } // processArgs bundles arguments to processReceiptsAndTxs type processArgs struct { headerID int64 blockNumber *big.Int receipts types.Receipts txs types.Transactions rctNodes []*ipld2.EthReceipt rctTrieNodes []*ipld2.EthRctTrie txNodes []*ipld2.EthTx txTrieNodes []*ipld2.EthTxTrie logTrieNodes [][]*ipld2.EthLogTrie logLeafNodeCIDs [][]cid.Cid rctLeafNodeCIDs []cid.Cid } // processReceiptsAndTxs publishes and indexes receipt and transaction IPLDs in Postgres func (sdi *StateDiffIndexer) processReceiptsAndTxs(tx *BatchTx, args processArgs) error { // Process receipts and txs signer := types.MakeSigner(sdi.chainConfig, args.blockNumber) for i, receipt := range args.receipts { for _, logTrieNode := range args.logTrieNodes[i] { tx.cacheIPLD(logTrieNode) } txNode := args.txNodes[i] tx.cacheIPLD(txNode) // Indexing // extract topic and contract data from the receipt for indexing mappedContracts := make(map[string]bool) // use map to avoid duplicate addresses logDataSet := make([]*models.LogsModel, len(receipt.Logs)) for idx, l := range receipt.Logs { topicSet := make([]string, 4) for ti, topic := range l.Topics { topicSet[ti] = topic.Hex() } if !args.logLeafNodeCIDs[i][idx].Defined() { return fmt.Errorf("invalid log cid") } mappedContracts[l.Address.String()] = true logDataSet[idx] = &models.LogsModel{ Address: l.Address.String(), Index: int64(l.Index), Data: l.Data, LeafCID: args.logLeafNodeCIDs[i][idx].String(), LeafMhKey: shared.MultihashKeyFromCID(args.logLeafNodeCIDs[i][idx]), Topic0: topicSet[0], Topic1: topicSet[1], Topic2: topicSet[2], Topic3: topicSet[3], } } // these are the contracts seen in the logs logContracts := make([]string, 0, len(mappedContracts)) for addr := range mappedContracts { logContracts = append(logContracts, addr) } // this is the contract address if this receipt is for a contract creation tx contract := shared.HandleZeroAddr(receipt.ContractAddress) var contractHash string if contract != "" { contractHash = crypto.Keccak256Hash(common.HexToAddress(contract).Bytes()).String() } // index tx first so that the receipt can reference it by FK trx := args.txs[i] // derive sender for the tx that corresponds with this receipt from, err := types.Sender(signer, trx) if err != nil { return fmt.Errorf("error deriving tx sender: %v", err) } txModel := models.TxModel{ Dst: shared.HandleZeroAddrPointer(trx.To()), Src: shared.HandleZeroAddr(from), TxHash: trx.Hash().String(), Index: int64(i), Data: trx.Data(), CID: txNode.Cid().String(), MhKey: shared.MultihashKeyFromCID(txNode.Cid()), } txType := trx.Type() if txType != types.LegacyTxType { txModel.Type = &txType } txID, err := sdi.dbWriter.upsertTransactionCID(tx.dbtx, txModel, args.headerID) if err != nil { return err } // index access list if this is one for j, accessListElement := range trx.AccessList() { storageKeys := make([]string, len(accessListElement.StorageKeys)) for k, storageKey := range accessListElement.StorageKeys { storageKeys[k] = storageKey.Hex() } accessListElementModel := models.AccessListElementModel{ Index: int64(j), Address: accessListElement.Address.Hex(), StorageKeys: storageKeys, } if err := sdi.dbWriter.upsertAccessListElement(tx.dbtx, accessListElementModel, txID); err != nil { return err } } // index the receipt if !args.rctLeafNodeCIDs[i].Defined() { return fmt.Errorf("invalid receipt leaf node cid") } rctModel := &models.ReceiptModel{ Contract: contract, ContractHash: contractHash, LeafCID: args.rctLeafNodeCIDs[i].String(), LeafMhKey: shared.MultihashKeyFromCID(args.rctLeafNodeCIDs[i]), LogRoot: args.rctNodes[i].LogRoot.String(), } if len(receipt.PostState) == 0 { rctModel.PostStatus = receipt.Status } else { rctModel.PostState = common.Bytes2Hex(receipt.PostState) } receiptID, err := sdi.dbWriter.upsertReceiptCID(tx.dbtx, rctModel, txID) if err != nil { return err } if err = sdi.dbWriter.upsertLogCID(tx.dbtx, logDataSet, receiptID); err != nil { return err } } // publish trie nodes, these aren't indexed directly for i, n := range args.txTrieNodes { tx.cacheIPLD(n) tx.cacheIPLD(args.rctTrieNodes[i]) } return nil } // PushStateNode publishes and indexes a state diff node object (including any child storage nodes) in the IPLD sql func (sdi *StateDiffIndexer) PushStateNode(batch interfaces.Batch, stateNode sdtypes.StateNode) error { tx, ok := batch.(*BatchTx) if !ok { return fmt.Errorf("sql batch is expected to be of type %T, got %T", &BatchTx{}, batch) } // publish the state node if stateNode.NodeType == sdtypes.Removed { // short circuit if it is a Removed node // this assumes the db has been initialized and a public.blocks entry for the Removed node is present stateModel := models.StateNodeModel{ Path: stateNode.Path, StateKey: common.BytesToHash(stateNode.LeafKey).String(), CID: shared.RemovedNodeStateCID, MhKey: shared.RemovedNodeMhKey, NodeType: stateNode.NodeType.Int(), } _, err := sdi.dbWriter.upsertStateCID(tx.dbtx, stateModel, tx.headerID) return err } stateCIDStr, stateMhKey, err := tx.cacheRaw(ipld2.MEthStateTrie, multihash.KECCAK_256, stateNode.NodeValue) if err != nil { return fmt.Errorf("error generating and cacheing state node IPLD: %v", err) } stateModel := models.StateNodeModel{ Path: stateNode.Path, StateKey: common.BytesToHash(stateNode.LeafKey).String(), CID: stateCIDStr, MhKey: stateMhKey, NodeType: stateNode.NodeType.Int(), } // index the state node, collect the stateID to reference by FK stateID, err := sdi.dbWriter.upsertStateCID(tx.dbtx, stateModel, tx.headerID) if err != nil { return err } // if we have a leaf, decode and index the account data if stateNode.NodeType == sdtypes.Leaf { var i []interface{} if err := rlp.DecodeBytes(stateNode.NodeValue, &i); err != nil { return fmt.Errorf("error decoding state leaf node rlp: %s", err.Error()) } if len(i) != 2 { return fmt.Errorf("eth IPLDPublisher expected state leaf node rlp to decode into two elements") } var account types.StateAccount if err := rlp.DecodeBytes(i[1].([]byte), &account); err != nil { return fmt.Errorf("error decoding state account rlp: %s", err.Error()) } accountModel := models.StateAccountModel{ Balance: account.Balance.String(), Nonce: account.Nonce, CodeHash: account.CodeHash, StorageRoot: account.Root.String(), } if err := sdi.dbWriter.upsertStateAccount(tx.dbtx, accountModel, stateID); err != nil { return err } } // if there are any storage nodes associated with this node, publish and index them for _, storageNode := range stateNode.StorageNodes { if storageNode.NodeType == sdtypes.Removed { // short circuit if it is a Removed node // this assumes the db has been initialized and a public.blocks entry for the Removed node is present storageModel := models.StorageNodeModel{ Path: storageNode.Path, StorageKey: common.BytesToHash(storageNode.LeafKey).String(), CID: shared.RemovedNodeStorageCID, MhKey: shared.RemovedNodeMhKey, NodeType: storageNode.NodeType.Int(), } if err := sdi.dbWriter.upsertStorageCID(tx.dbtx, storageModel, stateID); err != nil { return err } continue } storageCIDStr, storageMhKey, err := tx.cacheRaw(ipld2.MEthStorageTrie, multihash.KECCAK_256, storageNode.NodeValue) if err != nil { return fmt.Errorf("error generating and cacheing storage node IPLD: %v", err) } storageModel := models.StorageNodeModel{ Path: storageNode.Path, StorageKey: common.BytesToHash(storageNode.LeafKey).String(), CID: storageCIDStr, MhKey: storageMhKey, NodeType: storageNode.NodeType.Int(), } if err := sdi.dbWriter.upsertStorageCID(tx.dbtx, storageModel, stateID); err != nil { return err } } return nil } // PushCodeAndCodeHash publishes code and codehash pairs to the ipld sql func (sdi *StateDiffIndexer) PushCodeAndCodeHash(batch interfaces.Batch, codeAndCodeHash sdtypes.CodeAndCodeHash) error { tx, ok := batch.(*BatchTx) if !ok { return fmt.Errorf("sql batch is expected to be of type %T, got %T", &BatchTx{}, batch) } // codec doesn't matter since db key is multihash-based mhKey, err := shared.MultihashKeyFromKeccak256(codeAndCodeHash.Hash) if err != nil { return fmt.Errorf("error deriving multihash key from codehash: %v", err) } tx.cacheDirect(mhKey, codeAndCodeHash.Code) return nil } // Close satisfied io.Closer func (sdi *StateDiffIndexer) Close() error { return sdi.dbWriter.db.Close() }