// Copyright 2022 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 native import ( "encoding/json" "errors" "fmt" "math/big" "strings" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/core/tracing" "github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/core/vm" "github.com/ethereum/go-ethereum/eth/tracers" ) //go:generate go run github.com/fjl/gencodec -type flatCallAction -field-override flatCallActionMarshaling -out gen_flatcallaction_json.go //go:generate go run github.com/fjl/gencodec -type flatCallResult -field-override flatCallResultMarshaling -out gen_flatcallresult_json.go func init() { tracers.DefaultDirectory.Register("flatCallTracer", newFlatCallTracer, false) } var parityErrorMapping = map[string]string{ "contract creation code storage out of gas": "Out of gas", "out of gas": "Out of gas", "gas uint64 overflow": "Out of gas", "max code size exceeded": "Out of gas", "invalid jump destination": "Bad jump destination", "execution reverted": "Reverted", "return data out of bounds": "Out of bounds", "stack limit reached 1024 (1023)": "Out of stack", "precompiled failed": "Built-in failed", "invalid input length": "Built-in failed", } var parityErrorMappingStartingWith = map[string]string{ "invalid opcode:": "Bad instruction", "stack underflow": "Stack underflow", } // flatCallFrame is a standalone callframe. type flatCallFrame struct { Action flatCallAction `json:"action"` BlockHash *common.Hash `json:"blockHash"` BlockNumber uint64 `json:"blockNumber"` Error string `json:"error,omitempty"` Result *flatCallResult `json:"result,omitempty"` Subtraces int `json:"subtraces"` TraceAddress []int `json:"traceAddress"` TransactionHash *common.Hash `json:"transactionHash"` TransactionPosition uint64 `json:"transactionPosition"` Type string `json:"type"` } type flatCallAction struct { Author *common.Address `json:"author,omitempty"` RewardType string `json:"rewardType,omitempty"` SelfDestructed *common.Address `json:"address,omitempty"` Balance *big.Int `json:"balance,omitempty"` CallType string `json:"callType,omitempty"` CreationMethod string `json:"creationMethod,omitempty"` From *common.Address `json:"from,omitempty"` Gas *uint64 `json:"gas,omitempty"` Init *[]byte `json:"init,omitempty"` Input *[]byte `json:"input,omitempty"` RefundAddress *common.Address `json:"refundAddress,omitempty"` To *common.Address `json:"to,omitempty"` Value *big.Int `json:"value,omitempty"` } type flatCallActionMarshaling struct { Balance *hexutil.Big Gas *hexutil.Uint64 Init *hexutil.Bytes Input *hexutil.Bytes Value *hexutil.Big } type flatCallResult struct { Address *common.Address `json:"address,omitempty"` Code *[]byte `json:"code,omitempty"` GasUsed *uint64 `json:"gasUsed,omitempty"` Output *[]byte `json:"output,omitempty"` } type flatCallResultMarshaling struct { Code *hexutil.Bytes GasUsed *hexutil.Uint64 Output *hexutil.Bytes } // flatCallTracer reports call frame information of a tx in a flat format, i.e. // as opposed to the nested format of `callTracer`. type flatCallTracer struct { tracer *callTracer config flatCallTracerConfig ctx *tracers.Context // Holds tracer context data reason error // Textual reason for the interruption activePrecompiles []common.Address // Updated on tx start based on given rules } type flatCallTracerConfig struct { ConvertParityErrors bool `json:"convertParityErrors"` // If true, call tracer converts errors to parity format IncludePrecompiles bool `json:"includePrecompiles"` // If true, call tracer includes calls to precompiled contracts } // newFlatCallTracer returns a new flatCallTracer. func newFlatCallTracer(ctx *tracers.Context, cfg json.RawMessage) (*tracers.Tracer, error) { var config flatCallTracerConfig if cfg != nil { if err := json.Unmarshal(cfg, &config); err != nil { return nil, err } } // Create inner call tracer with default configuration, don't forward // the OnlyTopCall or WithLog to inner for now t, err := newCallTracerObject(ctx, nil) if err != nil { return nil, err } ft := &flatCallTracer{tracer: t, ctx: ctx, config: config} return &tracers.Tracer{ Hooks: &tracing.Hooks{ OnTxStart: ft.OnTxStart, OnTxEnd: ft.OnTxEnd, OnEnter: ft.OnEnter, OnExit: ft.OnExit, }, Stop: ft.Stop, GetResult: ft.GetResult, }, nil } // OnEnter is called when EVM enters a new scope (via call, create or selfdestruct). func (t *flatCallTracer) OnEnter(depth int, typ byte, from common.Address, to common.Address, input []byte, gas uint64, value *big.Int) { t.tracer.OnEnter(depth, typ, from, to, input, gas, value) if depth == 0 { return } // Child calls must have a value, even if it's zero. // Practically speaking, only STATICCALL has nil value. Set it to zero. if t.tracer.callstack[len(t.tracer.callstack)-1].Value == nil && value == nil { t.tracer.callstack[len(t.tracer.callstack)-1].Value = big.NewInt(0) } } // OnExit is called when EVM exits a scope, even if the scope didn't // execute any code. func (t *flatCallTracer) OnExit(depth int, output []byte, gasUsed uint64, err error, reverted bool) { t.tracer.OnExit(depth, output, gasUsed, err, reverted) if depth == 0 { return } // Parity traces don't include CALL/STATICCALLs to precompiles. // By default we remove them from the callstack. if t.config.IncludePrecompiles { return } var ( // call has been nested in parent parent = t.tracer.callstack[len(t.tracer.callstack)-1] call = parent.Calls[len(parent.Calls)-1] typ = call.Type to = call.To ) if typ == vm.CALL || typ == vm.STATICCALL { if t.isPrecompiled(*to) { t.tracer.callstack[len(t.tracer.callstack)-1].Calls = parent.Calls[:len(parent.Calls)-1] } } } func (t *flatCallTracer) OnTxStart(env *tracing.VMContext, tx *types.Transaction, from common.Address) { t.tracer.OnTxStart(env, tx, from) // Update list of precompiles based on current block rules := env.ChainConfig.Rules(env.BlockNumber, env.Random != nil, env.Time) t.activePrecompiles = vm.ActivePrecompiles(rules) } func (t *flatCallTracer) OnTxEnd(receipt *types.Receipt, err error) { t.tracer.OnTxEnd(receipt, err) } // GetResult returns an empty json object. func (t *flatCallTracer) GetResult() (json.RawMessage, error) { if len(t.tracer.callstack) < 1 { return nil, errors.New("invalid number of calls") } flat, err := flatFromNested(&t.tracer.callstack[0], []int{}, t.config.ConvertParityErrors, t.ctx) if err != nil { return nil, err } res, err := json.Marshal(flat) if err != nil { return nil, err } return res, t.reason } // Stop terminates execution of the tracer at the first opportune moment. func (t *flatCallTracer) Stop(err error) { t.tracer.Stop(err) } // isPrecompiled returns whether the addr is a precompile. func (t *flatCallTracer) isPrecompiled(addr common.Address) bool { for _, p := range t.activePrecompiles { if p == addr { return true } } return false } func flatFromNested(input *callFrame, traceAddress []int, convertErrs bool, ctx *tracers.Context) (output []flatCallFrame, err error) { var frame *flatCallFrame switch input.Type { case vm.CREATE, vm.CREATE2: frame = newFlatCreate(input) case vm.SELFDESTRUCT: frame = newFlatSelfdestruct(input) case vm.CALL, vm.STATICCALL, vm.CALLCODE, vm.DELEGATECALL: frame = newFlatCall(input) default: return nil, fmt.Errorf("unrecognized call frame type: %s", input.Type) } frame.TraceAddress = traceAddress frame.Error = input.Error frame.Subtraces = len(input.Calls) fillCallFrameFromContext(frame, ctx) if convertErrs { convertErrorToParity(frame) } // Revert output contains useful information (revert reason). // Otherwise discard result. if input.Error != "" && input.Error != vm.ErrExecutionReverted.Error() { frame.Result = nil } output = append(output, *frame) if len(input.Calls) > 0 { for i, childCall := range input.Calls { childAddr := childTraceAddress(traceAddress, i) childCallCopy := childCall flat, err := flatFromNested(&childCallCopy, childAddr, convertErrs, ctx) if err != nil { return nil, err } output = append(output, flat...) } } return output, nil } func newFlatCreate(input *callFrame) *flatCallFrame { var ( actionInit = input.Input[:] resultCode = input.Output[:] ) return &flatCallFrame{ Type: strings.ToLower(vm.CREATE.String()), Action: flatCallAction{ From: &input.From, Gas: &input.Gas, Value: input.Value, Init: &actionInit, }, Result: &flatCallResult{ GasUsed: &input.GasUsed, Address: input.To, Code: &resultCode, }, } } func newFlatCall(input *callFrame) *flatCallFrame { var ( actionInput = input.Input[:] resultOutput = input.Output[:] ) return &flatCallFrame{ Type: strings.ToLower(vm.CALL.String()), Action: flatCallAction{ From: &input.From, To: input.To, Gas: &input.Gas, Value: input.Value, CallType: strings.ToLower(input.Type.String()), Input: &actionInput, }, Result: &flatCallResult{ GasUsed: &input.GasUsed, Output: &resultOutput, }, } } func newFlatSelfdestruct(input *callFrame) *flatCallFrame { return &flatCallFrame{ Type: "suicide", Action: flatCallAction{ SelfDestructed: &input.From, Balance: input.Value, RefundAddress: input.To, }, } } func fillCallFrameFromContext(callFrame *flatCallFrame, ctx *tracers.Context) { if ctx == nil { return } if ctx.BlockHash != (common.Hash{}) { callFrame.BlockHash = &ctx.BlockHash } if ctx.BlockNumber != nil { callFrame.BlockNumber = ctx.BlockNumber.Uint64() } if ctx.TxHash != (common.Hash{}) { callFrame.TransactionHash = &ctx.TxHash } callFrame.TransactionPosition = uint64(ctx.TxIndex) } func convertErrorToParity(call *flatCallFrame) { if call.Error == "" { return } if parityError, ok := parityErrorMapping[call.Error]; ok { call.Error = parityError } else { for gethError, parityError := range parityErrorMappingStartingWith { if strings.HasPrefix(call.Error, gethError) { call.Error = parityError } } } } func childTraceAddress(a []int, i int) []int { child := make([]int, 0, len(a)+1) child = append(child, a...) child = append(child, i) return child }