// Copyright 2017 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library 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 Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package hmy import ( "bufio" "context" "encoding/hex" "errors" "fmt" "io/ioutil" "math/big" "os" "runtime" "sync" "time" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/common/math" "github.com/ethereum/go-ethereum/trie" "github.com/harmony-one/harmony/core" "github.com/harmony-one/harmony/core/state" "github.com/harmony-one/harmony/core/types" "github.com/harmony-one/harmony/core/vm" "github.com/harmony-one/harmony/eth/rpc" "github.com/harmony-one/harmony/hmy/tracers" "github.com/harmony-one/harmony/internal/utils" ) const ( // defaultTraceTimeout is the amount of time a single transaction can execute // by default before being forcefully aborted. defaultTraceTimeout = 5 * time.Second // defaultTraceReExec is the number of blocks the tracer is willing to go back // and re-execute to produce missing historical state necessary to run a specific // trace. defaultTraceReexec = uint64(128) err ) // TraceConfig holds extra parameters to trace functions. type TraceConfig struct { *vm.LogConfig Tracer *string Timeout *string Reexec *uint64 } // StdTraceConfig holds extra parameters to standard-json trace functions. type StdTraceConfig struct { *vm.LogConfig Reexec *uint64 TxHash common.Hash } // TxTraceResult is the result of a single transaction trace. type TxTraceResult struct { Result interface{} `json:"result,omitempty"` // Trace results produced by the tracer Error string `json:"error,omitempty"` // Trace failure produced by the tracer } // blockTraceTask represents a single block trace task when an entire chain is // being traced. type blockTraceTask struct { statedb *state.DB // Intermediate state prepped for tracing block *types.Block // Block to trace the transactions from rootRef common.Hash // Trie root reference held for this task results []*TxTraceResult // Trace results produced by the task } // blockTraceResult represets the results of tracing a single block when an entire // chain is being traced. type blockTraceResult struct { Block hexutil.Uint64 `json:"block"` // Block number corresponding to this trace Hash common.Hash `json:"hash"` // Block hash corresponding to this trace Traces []*TxTraceResult `json:"traces"` // Trace results produced by the task } // txTraceTask represents a single transaction trace task when an entire block // is being traced. type txTraceTask struct { statedb *state.DB // Intermediate state prepped for tracing index int // Transaction offset in the block } // TraceChain configures a new tracer according to the provided configuration, and // executes all the transactions contained within. The return value will be one item // per transaction, dependent on the requested tracer. func (hmy *Harmony) TraceChain(ctx context.Context, start, end *types.Block, config *TraceConfig) (*rpc.Subscription, error) { // Tracing a chain is a **long** operation, only do with subscriptions notifier, supported := rpc.NotifierFromContext(ctx) if !supported { return nil, rpc.ErrNotificationsUnsupported } sub := notifier.CreateSubscription() // Ensure we have a valid starting state before doing any work origin := start.NumberU64() database := state.NewDatabaseWithCache(hmy.ChainDb(), 16) if origin > 0 { start = hmy.BlockChain.GetBlock(start.ParentHash(), origin-1) if start == nil { return nil, fmt.Errorf("parent block #%d not found", origin-1) } } statedb, err := state.New(start.Root(), database) if err != nil { // If the starting state is missing, allow some number of blocks to be executed reexec := defaultTraceReexec if config != nil && config.Reexec != nil { reexec = *config.Reexec } // Find the most recent block that has state available for i := uint64(0); i < reexec; i++ { start = hmy.BlockChain.GetBlock(start.ParentHash(), start.NumberU64()-1) if start == nil { break } if statedb, err = state.New(start.Root(), database); err == nil { break } } // If we still don't have the state available, bail if err != nil { return nil, err } } // Execute all the transactions contained within the chain concurrently for each block blocks := int(end.NumberU64() - origin) threads := runtime.NumCPU() if threads > blocks { threads = blocks } var ( pending = new(sync.WaitGroup) tasks = make(chan *blockTraceTask, threads) results = make(chan *blockTraceTask, threads) ) for th := 0; th < threads; th++ { pending.Add(1) go func() { defer pending.Done() // Fetch and execute the next block trace tasks for task := range tasks { hmySigner := types.MakeSigner(hmy.BlockChain.Config(), task.block.Number()) ethSigner := types.NewEIP155Signer(hmy.BlockChain.Config().EthCompatibleChainID) // Trace all the transactions contained within for i, tx := range task.block.Transactions() { signer := hmySigner if tx.IsEthCompatible() { signer = ethSigner } msg, _ := tx.AsMessage(signer) vmCtx := core.NewEVMContext(msg, task.block.Header(), hmy.BlockChain, nil) res, err := hmy.TraceTx(ctx, msg, vmCtx, task.statedb, config) if err != nil { task.results[i] = &TxTraceResult{Error: err.Error()} utils.Logger().Warn().Msg("Tracing failed") break } // EIP 158/161 (Spurious Dragon) does not apply to Harmony task.statedb.Finalise(true) task.results[i] = &TxTraceResult{Result: res} } // Stream the result back to the user or abort on teardown select { case results <- task: case <-notifier.Closed(): return } } }() } // Start a goroutine that feeds all the blocks into the tracers begin := time.Now() go func() { var ( logged time.Time number uint64 traced uint64 failed error proot common.Hash ) // Ensure everything is properly cleaned up on any exit path defer func() { close(tasks) pending.Wait() switch { case failed != nil: utils.Logger().Warn(). Uint64("start", start.NumberU64()). Uint64("end", end.NumberU64()). Uint64("transactions", traced). Float64("elapsed", time.Since(begin).Seconds()). Err(failed). Msg("Chain tracing failed") case number < end.NumberU64(): utils.Logger().Warn(). Uint64("start", start.NumberU64()). Uint64("end", end.NumberU64()). Uint64("abort", number). Uint64("transactions", traced). Float64("elapsed", time.Since(begin).Seconds()). Msg("Chain tracing aborted") default: utils.Logger().Info(). Uint64("start", start.NumberU64()). Uint64("end", end.NumberU64()). Uint64("transactions", traced). Float64("elapsed", time.Since(begin).Seconds()). Msg("Chain tracing finished") } close(results) }() // Feed all the blocks both into the tracer, as well as fast process concurrently for number = start.NumberU64() + 1; number <= end.NumberU64(); number++ { // Stop tracing if interrupt was requested select { case <-notifier.Closed(): return default: } // Print progress logs if long enough time elapsed if time.Since(logged) > 8*time.Second { if number > origin { nodes, imgs := database.TrieDB().Size() utils.Logger().Info(). Uint64("start", origin). Uint64("end", end.NumberU64()). Uint64("current", number). Uint64("transactions", traced). Float64("elapsed", time.Since(begin).Seconds()). Float64("memory", float64(nodes)+float64(imgs)). Msg("Tracing chain segment") } else { utils.Logger().Info().Msg("Preparing state for chain trace") } logged = time.Now() } // Retrieve the next block to trace block := hmy.BlockChain.GetBlockByNumber(number) if block == nil { failed = fmt.Errorf("block #%d not found", number) break } // Send the block over to the concurrent tracers (if not in the fast-forward phase) if number > origin { txs := block.Transactions() select { case tasks <- &blockTraceTask{statedb: statedb.Copy(), block: block, rootRef: proot, results: make([]*TxTraceResult, len(txs))}: case <-notifier.Closed(): return } traced += uint64(len(txs)) } // Generate the next state snapshot fast without tracing _, _, _, _, _, _, _, err := hmy.BlockChain.Processor().Process(block, statedb, vm.Config{}, false) if err != nil { failed = err break } // Finalize the state so any modifications are written to the trie root, err := statedb.Commit(true) if err != nil { failed = err break } if err := statedb.Reset(root); err != nil { failed = err break } // Reference the trie twice, once for us, once for the tracer database.TrieDB().Reference(root, common.Hash{}) if number >= origin { database.TrieDB().Reference(root, common.Hash{}) } // Deference all past tries we ourselves are done working with if proot != (common.Hash{}) { database.TrieDB().Dereference(proot) } proot = root // TODO(karalabe): Do we need the preimages? Won't they accumulate too much? } }() // Keep reading the trace results and stream them to the user go func() { var ( done = make(map[uint64]*blockTraceResult) next = origin + 1 ) for res := range results { // Queue up next received result result := &blockTraceResult{ Block: hexutil.Uint64(res.block.NumberU64()), Hash: res.block.Hash(), Traces: res.results, } done[uint64(result.Block)] = result // Dereference any parent tries held in memory by this task database.TrieDB().Dereference(res.rootRef) // Stream completed traces to the user, aborting on the first error for result, ok := done[next]; ok; result, ok = done[next] { if len(result.Traces) > 0 || next == end.NumberU64() { notifier.Notify(sub.ID, result) } delete(done, next) next++ } } }() return sub, nil } // same as TraceBlock, but only use 1 thread func (hmy *Harmony) traceBlockNoThread(ctx context.Context, block *types.Block, config *TraceConfig) ([]*TxTraceResult, error) { // Create the parent state database if err := hmy.BlockChain.Engine().VerifyHeader(hmy.BlockChain, block.Header(), true); err != nil { return nil, err } parent := hmy.BlockChain.GetBlock(block.ParentHash(), block.NumberU64()-1) if parent == nil { return nil, fmt.Errorf("parent %#x not found", block.ParentHash()) } reexec := defaultTraceReexec if config != nil && config.Reexec != nil { reexec = *config.Reexec } statedb, err := hmy.ComputeStateDB(parent, reexec) if err != nil { return nil, err } // Execute all the transaction contained within the block concurrently var ( hmySigner = types.MakeSigner(hmy.BlockChain.Config(), block.Number()) ethSigner = types.NewEIP155Signer(hmy.BlockChain.Config().EthCompatibleChainID) txs = block.Transactions() results = make([]*TxTraceResult, len(txs)) ) blockHash := block.Hash() // Feed the transactions into the tracers and return var failed error traceLoop: for i, tx := range txs { signer := hmySigner if tx.IsEthCompatible() { signer = ethSigner } // Generate the next state snapshot fast without tracing msg, _ := tx.AsMessage(signer) statedb.Prepare(tx.Hash(), blockHash, i) statedb.SetTxHashETH(tx.ConvertToEth().Hash()) vmctx := core.NewEVMContext(msg, block.Header(), hmy.BlockChain, nil) res, err := hmy.TraceTx(ctx, msg, vmctx, statedb, config) if err != nil { results[i] = &TxTraceResult{Error: err.Error()} failed = err break } results[i] = &TxTraceResult{Result: res} // Finalize the state so any modifications are written to the trie statedb.Finalise(true) select { case <-ctx.Done(): failed = errors.New("trace task was canceled!") break traceLoop default: } } // If execution failed in between, abort if failed != nil { return nil, failed } return results, nil } // TraceBlock configures a new tracer according to the provided configuration, and // executes all the transactions contained within. The return value will be one item // per transaction, dependent on the requested tracer. func (hmy *Harmony) TraceBlock(ctx context.Context, block *types.Block, config *TraceConfig) ([]*TxTraceResult, error) { select { case <-ctx.Done(): return nil, errors.New("canceled!") default: } if config != nil && config.Tracer != nil && *config.Tracer == "ParityBlockTracer" { return hmy.traceBlockNoThread(ctx, block, config) } // Create the parent state database if err := hmy.BlockChain.Engine().VerifyHeader(hmy.BlockChain, block.Header(), true); err != nil { return nil, err } parent := hmy.BlockChain.GetBlock(block.ParentHash(), block.NumberU64()-1) if parent == nil { return nil, fmt.Errorf("parent %#x not found", block.ParentHash()) } reexec := defaultTraceReexec if config != nil && config.Reexec != nil { reexec = *config.Reexec } statedb, err := hmy.ComputeStateDB(parent, reexec) if err != nil { return nil, err } // Execute all the transaction contained within the block concurrently var ( hmySigner = types.MakeSigner(hmy.BlockChain.Config(), block.Number()) ethSigner = types.NewEIP155Signer(hmy.BlockChain.Config().EthCompatibleChainID) txs = block.Transactions() results = make([]*TxTraceResult, len(txs)) pend = new(sync.WaitGroup) jobs = make(chan *txTraceTask, len(txs)) ) threads := runtime.NumCPU() if threads > len(txs) { threads = len(txs) } blockHash := block.Hash() for th := 0; th < threads; th++ { pend.Add(1) go func() { defer pend.Done() // Fetch and execute the next transaction trace tasks for task := range jobs { signer := hmySigner if txs[task.index].IsEthCompatible() { signer = ethSigner } msg, _ := txs[task.index].AsMessage(signer) vmctx := core.NewEVMContext(msg, block.Header(), hmy.BlockChain, nil) tx := txs[task.index] task.statedb.Prepare(tx.Hash(), blockHash, task.index) task.statedb.SetTxHashETH(tx.ConvertToEth().Hash()) res, err := hmy.TraceTx(ctx, msg, vmctx, task.statedb, config) if err != nil { results[task.index] = &TxTraceResult{Error: err.Error()} continue } results[task.index] = &TxTraceResult{Result: res} } }() } // Feed the transactions into the tracers and return var failed error for i, tx := range txs { // Send the trace task over for execution jobs <- &txTraceTask{statedb: statedb.Copy(), index: i} signer := hmySigner if tx.IsEthCompatible() { signer = ethSigner } // Generate the next state snapshot fast without tracing msg, _ := tx.AsMessage(signer) statedb.Prepare(tx.Hash(), block.Hash(), i) statedb.SetTxHashETH(tx.ConvertToEth().Hash()) vmctx := core.NewEVMContext(msg, block.Header(), hmy.BlockChain, nil) vmenv := vm.NewEVM(vmctx, statedb, hmy.BlockChain.Config(), vm.Config{}) if _, err := core.ApplyMessage(vmenv, msg, new(core.GasPool).AddGas(msg.Gas())); err != nil { failed = err break } // Finalize the state so any modifications are written to the trie statedb.Finalise(true) } close(jobs) pend.Wait() // If execution failed in between, abort if failed != nil { return nil, failed } return results, nil } // standardTraceBlockToFile configures a new tracer which uses standard JSON output, // and traces either a full block or an individual transaction. The return value will // be one filename per transaction traced. func (hmy *Harmony) standardTraceBlockToFile(ctx context.Context, block *types.Block, config *StdTraceConfig) ([]string, error) { // If we're tracing a single transaction, make sure it's present if config != nil && config.TxHash != (common.Hash{}) { if !containsTx(block, config.TxHash) { return nil, fmt.Errorf("transaction %#x not found in block", config.TxHash) } } // Create the parent state database if err := hmy.BlockChain.Engine().VerifyHeader(hmy.BlockChain, block.Header(), true); err != nil { return nil, err } parent := hmy.BlockChain.GetBlock(block.ParentHash(), block.NumberU64()-1) if parent == nil { return nil, fmt.Errorf("parent %#x not found", block.ParentHash()) } reexec := defaultTraceReexec if config != nil && config.Reexec != nil { reexec = *config.Reexec } statedb, err := hmy.ComputeStateDB(parent, reexec) if err != nil { return nil, err } // Retrieve the tracing configurations, or use default values var ( logConfig vm.LogConfig txHash common.Hash ) if config != nil { if config.LogConfig != nil { logConfig = *config.LogConfig } txHash = config.TxHash } logConfig.Debug = true // Execute transaction, either tracing all or just the requested one var ( hmySigner = types.MakeSigner(hmy.BlockChain.Config(), block.Number()) ethSigner = types.NewEIP155Signer(hmy.BlockChain.Config().EthCompatibleChainID) dumps []string ) for i, tx := range block.Transactions() { signer := hmySigner if tx.IsEthCompatible() { signer = ethSigner } // Prepare the transaction for un-traced execution var ( msg, _ = tx.AsMessage(signer) vmctx = core.NewEVMContext(msg, block.Header(), hmy.BlockChain, nil) vmConf vm.Config dump *os.File writer *bufio.Writer err error ) // If the transaction needs tracing, swap out the configs if tx.Hash() == txHash || txHash == (common.Hash{}) { // Generate a unique temporary file to dump it into prefix := fmt.Sprintf("block_%#x-%d-%#x-", block.Hash().Bytes()[:4], i, tx.Hash().Bytes()[:4]) dump, err = ioutil.TempFile(os.TempDir(), prefix) if err != nil { return nil, err } dumps = append(dumps, dump.Name()) // Swap out the noop logger to the standard tracer writer = bufio.NewWriter(dump) vmConf = vm.Config{ Debug: true, Tracer: vm.NewJSONLogger(&logConfig, writer), EnablePreimageRecording: true, } } // Execute the transaction and flush any traces to disk vmenv := vm.NewEVM(vmctx, statedb, hmy.BlockChain.Config(), vmConf) _, err = core.ApplyMessage(vmenv, msg, new(core.GasPool).AddGas(msg.Gas())) if writer != nil { writer.Flush() } if dump != nil { dump.Close() utils.Logger().Info().Msg(fmt.Sprintf("Wrote standard trace file %s", dump.Name())) } if err != nil { return dumps, err } // Finalize the state so any modifications are written to the trie statedb.Finalise(true) // If we've traced the transaction we were looking for, abort if tx.Hash() == txHash { break } } return dumps, nil } // containsTx reports whether the transaction with a certain hash // is contained within the specified block. func containsTx(block *types.Block, hash common.Hash) bool { for _, tx := range block.Transactions() { if tx.Hash() == hash { return true } } return false } // ComputeStateDB retrieves the state database associated with a certain block. // If no state is locally available for the given block, a number of blocks are // attempted to be reexecuted to generate the desired state. func (hmy *Harmony) ComputeStateDB(block *types.Block, reexec uint64) (*state.DB, error) { // If we have the state fully available, use that statedb, err := hmy.BlockChain.StateAt(block.Root()) if err == nil { return statedb, nil } // Otherwise try to reexec blocks until we find a state or reach our limit origin := block.NumberU64() database := state.NewDatabaseWithCache(hmy.BlockChain.ChainDb(), 16) for i := uint64(0); i < reexec; i++ { block = hmy.BlockChain.GetBlock(block.ParentHash(), block.NumberU64()-1) if block == nil { break } if statedb, err = state.New(block.Root(), database); err == nil { break } } if err != nil { switch err.(type) { case *trie.MissingNodeError: return nil, fmt.Errorf("required historical state unavailable (reexec=%d)", reexec) default: return nil, err } } // State was available at historical point, regenerate var ( start = time.Now() logged time.Time proot common.Hash ) for block.NumberU64() < origin { // Print progress logs if long enough time elapsed if time.Since(logged) > 8*time.Second { utils.Logger().Info(). Uint64("block", block.NumberU64()). Uint64("target", origin). Uint64("remaining", origin-block.NumberU64()). Float64("elasped", time.Since(start).Seconds()). Msg(fmt.Sprintf("Regenerating historical state")) logged = time.Now() } // Retrieve the next block to regenerate and process it if block = hmy.BlockChain.GetBlockByNumber(block.NumberU64() + 1); block == nil { return nil, fmt.Errorf("block #%d not found", block.NumberU64()+1) } _, _, _, _, _, _, _, err := hmy.BlockChain.Processor().Process(block, statedb, vm.Config{}, false) if err != nil { return nil, fmt.Errorf("processing block %d failed: %v", block.NumberU64(), err) } // Finalize the state so any modifications are written to the trie root, err := statedb.Commit(true) if err != nil { return nil, err } if err := statedb.Reset(root); err != nil { return nil, fmt.Errorf("state reset after block %d failed: %v", block.NumberU64(), err) } database.TrieDB().Reference(root, common.Hash{}) if proot != (common.Hash{}) { database.TrieDB().Dereference(proot) } proot = root } nodes, imgs := database.TrieDB().Size() utils.Logger().Info(). Uint64("block", block.NumberU64()). Float64("elasped", time.Since(start).Seconds()). Float64("nodes", float64(nodes)). Float64("preimages", float64(imgs)). Msg("Historical state regenerated") return statedb, nil } // TraceTx configures a new tracer according to the provided configuration, and // executes the given message in the provided environment. The return value will // be tracer dependent. // NOTE: Only support default StructLogger tracer func (hmy *Harmony) TraceTx(ctx context.Context, message core.Message, vmctx vm.Context, statedb *state.DB, config *TraceConfig) (interface{}, error) { // Assemble the structured logger or the JavaScript tracer var ( tracer vm.Tracer err error ) switch { case config != nil && config.Tracer != nil: if *config.Tracer == "ParityBlockTracer" { tracer = &tracers.ParityBlockTracer{} break } else if *config.Tracer == "RosettaBlockTracer" { tracer = &tracers.RosettaBlockTracer{ParityBlockTracer: &tracers.ParityBlockTracer{}} break } // Define a meaningful timeout of a single transaction trace timeout := defaultTraceTimeout if config.Timeout != nil { if timeout, err = time.ParseDuration(*config.Timeout); err != nil { return nil, err } } // Constuct the JavaScript tracer to execute with if tracer, err = tracers.New(*config.Tracer); err != nil { return nil, err } // Handle timeouts and RPC cancellations deadlineCtx, cancel := context.WithTimeout(ctx, timeout) go func() { <-deadlineCtx.Done() tracer.(*tracers.Tracer).Stop(errors.New("execution timeout")) }() defer cancel() case config == nil: tracer = vm.NewStructLogger(nil) default: tracer = vm.NewStructLogger(config.LogConfig) } // Run the transaction with tracing enabled. vmenv := vm.NewEVM(vmctx, statedb, hmy.BlockChain.Config(), vm.Config{Debug: true, Tracer: tracer}) result, err := core.ApplyMessage(vmenv, message, new(core.GasPool).AddGas(message.Gas())) if err != nil { return nil, fmt.Errorf("tracing failed: %v", err) } // Depending on the tracer type, format and return the output switch tracer := tracer.(type) { case *vm.StructLogger: return &ExecutionResult{ Gas: result.UsedGas, Failed: result.VMErr != nil, ReturnValue: fmt.Sprintf("%x", result.ReturnData), StructLogs: FormatLogs(tracer.StructLogs(), config), }, nil case *tracers.Tracer: return tracer.GetResult() case *tracers.ParityBlockTracer: return tracer.GetResult() case *tracers.RosettaBlockTracer: return tracer.GetResult() default: panic(fmt.Sprintf("bad tracer type %T", tracer)) } } // ComputeTxEnv returns the execution environment of a certain transaction. func (hmy *Harmony) ComputeTxEnv(block *types.Block, txIndex int, reexec uint64) (core.Message, vm.Context, *state.DB, error) { // Create the parent state database parent := hmy.BlockChain.GetBlock(block.ParentHash(), block.NumberU64()-1) if parent == nil { return nil, vm.Context{}, nil, fmt.Errorf("parent %#x not found", block.ParentHash()) } statedb, err := hmy.ComputeStateDB(parent, reexec) if err != nil { return nil, vm.Context{}, nil, err } if txIndex == 0 && len(block.Transactions()) == 0 { return nil, vm.Context{}, statedb, nil } // Recompute transactions up to the target index. hmySigner := types.MakeSigner(hmy.BlockChain.Config(), block.Number()) ethSigner := types.NewEIP155Signer(hmy.BlockChain.Config().EthCompatibleChainID) for idx, tx := range block.Transactions() { signer := hmySigner if tx.IsEthCompatible() { signer = ethSigner } // Assemble the transaction call message and return if the requested offset msg, _ := tx.AsMessage(signer) context := core.NewEVMContext(msg, block.Header(), hmy.BlockChain, nil) if idx == txIndex { return msg, context, statedb, nil } // Not yet the searched for transaction, execute on top of the current state vmenv := vm.NewEVM(context, statedb, hmy.BlockChain.Config(), vm.Config{}) if _, err := core.ApplyMessage(vmenv, msg, new(core.GasPool).AddGas(tx.GasLimit())); err != nil { return nil, vm.Context{}, nil, fmt.Errorf("transaction %#x failed: %v", tx.Hash(), err) } // Ensure any modifications are committed to the state statedb.Finalise(true) } return nil, vm.Context{}, nil, fmt.Errorf("transaction index %d out of range for block %#x", txIndex, block.Hash()) } // ComputeTxEnvEachBlockWithoutApply returns the execution environment of a certain transaction. func (hmy *Harmony) ComputeTxEnvEachBlockWithoutApply(block *types.Block, reexec uint64, cb func(int, *types.Transaction, core.Message, vm.Context, *state.DB) bool) error { // Create the parent state database parent := hmy.BlockChain.GetBlock(block.ParentHash(), block.NumberU64()-1) if parent == nil { return fmt.Errorf("parent %#x not found", block.ParentHash()) } statedb, err := hmy.ComputeStateDB(parent, reexec) if err != nil { return err } // Recompute transactions up to the target index. hmySigner := types.MakeSigner(hmy.BlockChain.Config(), block.Number()) ethSigner := types.NewEIP155Signer(hmy.BlockChain.Config().EthCompatibleChainID) for idx, tx := range block.Transactions() { signer := hmySigner if tx.IsEthCompatible() { signer = ethSigner } // Assemble the transaction call message and return if the requested offset msg, _ := tx.AsMessage(signer) context := core.NewEVMContext(msg, block.Header(), hmy.BlockChain, nil) if !cb(idx, tx, msg, context, statedb) { return nil } // Ensure any modifications are committed to the state statedb.Finalise(true) } return nil } // ExecutionResult groups all structured logs emitted by the EVM // while replaying a transaction in debug mode as well as transaction // execution status, the amount of gas used and the return value // Taken from go-ethereum/internal/ethapi/api.go type ExecutionResult struct { Gas uint64 `json:"gas"` Failed bool `json:"failed"` ReturnValue string `json:"returnValue"` StructLogs []StructLogRes `json:"structLogs"` } // StructLogRes stores a structured log emitted by the EVM while replaying a // transaction in debug mode type StructLogRes struct { Pc uint64 `json:"pc"` Op string `json:"op"` CallerAddress common.Address `json:"callerAddress"` ContractAddress common.Address `json:"contractAddress"` Gas uint64 `json:"gas"` GasCost uint64 `json:"gasCost"` Depth int `json:"depth"` Error error `json:"error,omitempty"` Stack []string `json:"stack,omitempty"` AfterStack []string `json:"afterStack,omitempty"` Memory []string `json:"memory,omitempty"` Storage map[string]string `json:"storage,omitempty"` rawStack []*big.Int rawAfterStack []*big.Int rawMemory []byte rawStorage map[common.Hash]common.Hash rawOperatorEvent map[string]string } func (r *StructLogRes) FormatStack() []string { if r.Stack != nil { return r.Stack } if r.rawStack != nil { stack := make([]string, len(r.rawStack)) for i, stackValue := range r.rawStack { stack[i] = hex.EncodeToString(math.PaddedBigBytes(stackValue, 32)) } r.Stack = stack } return r.Stack } func (r *StructLogRes) FormatAfterStack() []string { if r.AfterStack != nil { return r.AfterStack } if r.rawAfterStack != nil { stack := make([]string, len(r.rawAfterStack)) for i, stackValue := range r.rawAfterStack { stack[i] = hex.EncodeToString(math.PaddedBigBytes(stackValue, 32)) } r.AfterStack = stack } return r.AfterStack } func (r *StructLogRes) FormatMemory() []string { if r.Memory != nil { return r.Memory } if r.rawMemory != nil { memory := make([]string, 0, (len(r.rawMemory)+31)/32) for i := 0; i+32 <= len(r.rawMemory); i += 32 { memory = append(memory, fmt.Sprintf("%x", r.rawMemory[i:i+32])) } r.Memory = memory } return r.Memory } func (r *StructLogRes) FormatStorage() map[string]string { if r.Storage != nil { return r.Storage } if r.rawStorage != nil { storage := make(map[string]string) for i, storageValue := range r.rawStorage { storage[hex.EncodeToString(i.Bytes())] = hex.EncodeToString(storageValue.Bytes()) } r.Storage = storage } return r.Storage } func (r *StructLogRes) GetOperatorEvent(key string) string { if r.rawOperatorEvent == nil { return "" } else if val, ok := r.rawOperatorEvent[key]; ok { return val } else { return "" } } // FormatLogs formats EVM returned structured logs for json output func FormatLogs(logs []*vm.StructLog, conf *TraceConfig) []StructLogRes { formatted := make([]StructLogRes, len(logs)) for index, trace := range logs { formatted[index] = StructLogRes{ Pc: trace.Pc, Op: trace.Op.String(), CallerAddress: trace.CallerAddress, ContractAddress: trace.ContractAddress, Gas: trace.Gas, GasCost: trace.GasCost, Depth: trace.Depth, Error: trace.Err, rawStack: trace.Stack, rawAfterStack: trace.AfterStack, rawMemory: trace.Memory, rawStorage: trace.Storage, rawOperatorEvent: trace.OperatorEvent, } } return formatted }