The core protocol of WoopChain
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woop/hmy/tracers/block_tracer.go

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14 KiB

// 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 <http://www.gnu.org/licenses/>.
package tracers
import (
"encoding/json"
"errors"
"fmt"
"math/big"
"strings"
"time"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/rlp"
"github.com/harmony-one/harmony/core/vm"
)
type action struct {
op vm.OpCode
from common.Address
to common.Address
input []byte
output []byte
gasIn uint64
gasCost uint64
gas uint64
gasUsed uint64
outOff int64
outLen int64
value *big.Int
err error
revert []byte
subCalls []*action
}
func (c *action) push(ac *action) {
c.subCalls = append(c.subCalls, ac)
}
func (c *action) fromStorage(blockStorage *TraceBlockStorage, acStorage *ActionStorage) {
c.op = vm.OpCode(acStorage.readByte())
errByte := acStorage.readByte()
if errByte != 0 {
revertIndex := int(acStorage.readNumber().Int64())
c.revert = blockStorage.getData(revertIndex)
c.err = errors.New("Reverted")
}
if c.op == vm.CREATE || c.op == vm.CREATE2 {
fromIndex := int(acStorage.readNumber().Int64())
toIndex := int(acStorage.readNumber().Int64())
c.value = acStorage.readNumber()
inputIndex := int(acStorage.readNumber().Int64())
outputIndex := int(acStorage.readNumber().Int64())
c.gas = acStorage.readNumber().Uint64()
c.gasUsed = acStorage.readNumber().Uint64()
c.from = blockStorage.getAddress(fromIndex)
c.to = blockStorage.getAddress(toIndex)
c.input = blockStorage.getData(inputIndex)
c.output = blockStorage.getData(outputIndex)
}
if c.op == vm.CALL || c.op == vm.CALLCODE || c.op == vm.DELEGATECALL || c.op == vm.STATICCALL {
fromIndex := int(acStorage.readNumber().Int64())
toIndex := int(acStorage.readNumber().Int64())
c.value = acStorage.readNumber()
inputIndex := int(acStorage.readNumber().Int64())
outputIndex := int(acStorage.readNumber().Int64())
c.gas = acStorage.readNumber().Uint64()
c.gasUsed = acStorage.readNumber().Uint64()
c.from = blockStorage.getAddress(fromIndex)
c.to = blockStorage.getAddress(toIndex)
c.input = blockStorage.getData(inputIndex)
c.output = blockStorage.getData(outputIndex)
}
if c.op == vm.SELFDESTRUCT {
fromIndex := int(acStorage.readNumber().Int64())
toIndex := int(acStorage.readNumber().Int64())
c.from = blockStorage.getAddress(fromIndex)
c.to = blockStorage.getAddress(toIndex)
c.value = acStorage.readNumber()
}
}
func (c action) toStorage(blockStorage *TraceBlockStorage) *ActionStorage {
acStorage := &ActionStorage{
TraceData: make([]byte, 0, 1024),
}
acStorage.appendByte(byte(c.op))
var errByte byte
if c.err != nil {
errByte = 1
}
acStorage.appendByte(errByte)
if errByte != 0 {
revertIndex := blockStorage.indexData(c.revert)
acStorage.appendNumber(big.NewInt(int64(revertIndex)))
}
if c.op == vm.CREATE || c.op == vm.CREATE2 {
fromIndex := blockStorage.indexAddress(c.from)
toIndex := blockStorage.indexAddress(c.to)
inputIndex := blockStorage.indexData(c.input)
outputIndex := blockStorage.indexData(c.output)
acStorage.appendNumber(big.NewInt(int64(fromIndex)))
acStorage.appendNumber(big.NewInt(int64(toIndex)))
acStorage.appendNumber(c.value)
acStorage.appendNumber(big.NewInt(int64(inputIndex)))
acStorage.appendNumber(big.NewInt(int64(outputIndex)))
acStorage.appendNumber((&big.Int{}).SetUint64(c.gas))
acStorage.appendNumber((&big.Int{}).SetUint64(c.gasUsed))
return acStorage
}
if c.op == vm.CALL || c.op == vm.CALLCODE || c.op == vm.DELEGATECALL || c.op == vm.STATICCALL {
if c.value == nil {
c.value = big.NewInt(0)
}
fromIndex := blockStorage.indexAddress(c.from)
toIndex := blockStorage.indexAddress(c.to)
inputIndex := blockStorage.indexData(c.input)
outputIndex := blockStorage.indexData(c.output)
acStorage.appendNumber(big.NewInt(int64(fromIndex)))
acStorage.appendNumber(big.NewInt(int64(toIndex)))
acStorage.appendNumber(c.value)
acStorage.appendNumber(big.NewInt(int64(inputIndex)))
acStorage.appendNumber(big.NewInt(int64(outputIndex)))
acStorage.appendNumber((&big.Int{}).SetUint64(c.gas))
acStorage.appendNumber((&big.Int{}).SetUint64(c.gasUsed))
return acStorage
}
if c.op == vm.SELFDESTRUCT {
fromIndex := blockStorage.indexAddress(c.from)
toIndex := blockStorage.indexAddress(c.to)
acStorage.appendNumber(big.NewInt(int64(fromIndex)))
acStorage.appendNumber(big.NewInt(int64(toIndex)))
acStorage.appendNumber(c.value)
return acStorage
}
return nil
}
func (c action) toJsonStr() (string, *string, *string) {
callType := strings.ToLower(c.op.String())
if c.op == vm.CREATE || c.op == vm.CREATE2 {
action := fmt.Sprintf(
`{"from":"0x%x","gas":"0x%x","init":"0x%x","value":"0x%s"}`,
c.from, c.gas, c.input, c.value.Text(16),
)
output := fmt.Sprintf(
`{"address":"0x%x","code":"0x%x","gasUsed":"0x%x"}`,
c.to, c.output, c.gasUsed,
)
return "create", &action, &output
}
if c.op == vm.CALL || c.op == vm.CALLCODE || c.op == vm.DELEGATECALL || c.op == vm.STATICCALL {
if c.value == nil {
c.value = big.NewInt(0)
}
var valueStr string
if c.op != vm.STATICCALL && c.op != vm.DELEGATECALL {
valueStr = fmt.Sprintf(`,"value":"0x%s"`, c.value.Text(16))
}
action := fmt.Sprintf(
`{"callType":"%s"%s,"to":"0x%x","gas":"0x%x","from":"0x%x","input":"0x%x"}`,
callType, valueStr, c.to, c.gas, c.from, c.input,
)
output := fmt.Sprintf(
`{"output":"0x%x","gasUsed":"0x%x"}`,
c.output, c.gasUsed,
)
return "call", &action, &output
}
if c.op == vm.SELFDESTRUCT {
action := fmt.Sprintf(
`{"refundAddress":"0x%x","balance":"0x%s","address":"0x%x"}`,
c.to, c.value.Text(16), c.from,
)
return "suicide", &action, nil
}
return "unkonw", nil, nil
}
type ParityTxTracer struct {
blockNumber uint64
blockHash common.Hash
transactionPosition uint64
transactionHash common.Hash
descended bool
calls []*action
action
}
type ParityBlockTracer struct {
Hash common.Hash
Number uint64
cur *ParityTxTracer
tracers []*ParityTxTracer
}
func (ptt *ParityTxTracer) push(ac *action) {
ptt.calls = append(ptt.calls, ac)
}
func (ptt *ParityTxTracer) pop() *action {
popIndex := len(ptt.calls) - 1
ac := ptt.calls[popIndex]
ptt.calls = ptt.calls[:popIndex]
return ac
}
func (ptt *ParityTxTracer) last() *action {
return ptt.calls[len(ptt.calls)-1]
}
func (ptt *ParityTxTracer) len() int {
return len(ptt.calls)
}
// CaptureStart implements the ParityBlockTracer interface to initialize the tracing operation.
func (jst *ParityBlockTracer) CaptureStart(env *vm.EVM, from common.Address, to common.Address, create bool, input []byte, gas uint64, value *big.Int) error {
jst.cur = &ParityTxTracer{}
jst.cur.op = vm.CALL // vritual call
if create {
jst.cur.op = vm.CREATE // virtual create
}
jst.cur.from = from
jst.cur.to = to
jst.cur.input = input
jst.cur.gas = gas
jst.cur.value = (&big.Int{}).Set(value)
jst.cur.blockHash = env.StateDB.BlockHash()
jst.cur.transactionPosition = uint64(env.StateDB.TxIndex())
jst.cur.transactionHash = env.StateDB.TxHashETH()
jst.cur.blockNumber = env.BlockNumber.Uint64()
jst.cur.descended = false
jst.cur.push(&jst.cur.action)
return nil
}
// CaptureState implements the ParityBlockTracer interface to trace a single step of VM execution.
func (jst *ParityBlockTracer) CaptureState(env *vm.EVM, pc uint64, op vm.OpCode, gas, cost uint64, memory *vm.Memory, stack *vm.Stack, contract *vm.Contract, depth int, err error) (vm.HookAfter, error) {
if err != nil {
return nil, jst.CaptureFault(env, pc, op, gas, cost, memory, stack, contract, depth, err)
}
var retErr error
stackPeek := func(n int) *big.Int {
if n >= len(stack.Data()) {
retErr = errors.New("tracer bug:stack overflow")
return big.NewInt(0)
}
return stack.Back(n)
}
memoryCopy := func(off, size int64) []byte {
if off+size > int64(memory.Len()) {
retErr = errors.New("tracer bug:memory leak")
return nil
}
return memory.GetCopy(off, size)
}
switch op {
case vm.CREATE, vm.CREATE2:
inOff := stackPeek(1).Int64()
inSize := stackPeek(2).Int64()
jst.cur.push(&action{
op: op,
from: contract.Address(),
input: memoryCopy(inOff, inSize),
gasIn: gas,
gasCost: cost,
value: (&big.Int{}).Set(stackPeek(0)),
})
jst.cur.descended = true
return nil, retErr
case vm.SELFDESTRUCT:
ac := jst.cur.last()
ac.push(&action{
op: op,
from: contract.Address(),
to: common.BigToAddress(stackPeek(0)),
gasIn: gas,
gasCost: cost,
value: env.StateDB.GetBalance(contract.Address()),
})
return nil, retErr
case vm.CALL, vm.CALLCODE, vm.DELEGATECALL, vm.STATICCALL:
to := common.BigToAddress(stackPeek(1))
precompiles := vm.PrecompiledContractsVRF
if _, exist := precompiles[to]; exist {
return nil, nil
}
off := 1
if op == vm.DELEGATECALL || op == vm.STATICCALL {
off = 0
}
inOff := stackPeek(2 + off).Int64()
inSize := stackPeek(3 + off).Int64()
callObj := &action{
op: op,
from: contract.Address(),
to: to,
input: memoryCopy(inOff, inSize),
gasIn: gas,
gasCost: cost,
outOff: stackPeek(4 + off).Int64(),
outLen: stackPeek(5 + off).Int64(),
}
if op != vm.DELEGATECALL && op != vm.STATICCALL {
callObj.value = (&big.Int{}).Set(stackPeek(2))
}
jst.cur.push(callObj)
jst.cur.descended = true
return nil, retErr
}
if jst.cur.descended {
jst.cur.descended = false
if depth >= jst.cur.len() { // >= to >
jst.cur.last().gas = gas
}
}
if op == vm.REVERT {
last := jst.cur.last()
last.err = errors.New("execution reverted")
revertOff := stackPeek(0).Int64()
revertLen := stackPeek(1).Int64()
last.revert = memoryCopy(revertOff, revertLen)
return nil, retErr
}
if depth == jst.cur.len()-1 { // depth == len - 1
call := jst.cur.pop()
if call.op == vm.CREATE || call.op == vm.CREATE2 {
call.gasUsed = call.gasIn - call.gasCost - gas
ret := stackPeek(0)
if ret.Sign() != 0 {
call.to = common.BigToAddress(ret)
call.output = env.StateDB.GetCode(call.to, false)
} else if call.err == nil {
call.err = errors.New("internal failure")
}
} else {
if call.gas != 0 {
call.gasUsed = call.gasIn - call.gasCost + call.gas - gas
}
ret := stackPeek(0)
if ret.Sign() != 0 {
call.output = memoryCopy(call.outOff, call.outLen)
} else if call.err == nil {
call.err = errors.New("internal failure")
}
}
jst.cur.last().push(call)
}
return nil, retErr
}
// CaptureFault implements the ParityBlockTracer interface to trace an execution fault
// while running an opcode.
func (jst *ParityBlockTracer) CaptureFault(env *vm.EVM, pc uint64, op vm.OpCode, gas, cost uint64, memory *vm.Memory, stack *vm.Stack, contract *vm.Contract, depth int, err error) error {
if jst.cur.last().err != nil {
return nil
}
call := jst.cur.pop()
call.err = err
// Consume all available gas and clean any leftovers
if call.gas != 0 {
call.gas = gas
call.gasUsed = call.gas
}
// Flatten the failed call into its parent
if jst.cur.len() > 0 {
jst.cur.last().push(call)
return nil
}
jst.cur.push(call)
return nil
}
// CaptureEnd is called after the call finishes to finalize the tracing.
func (jst *ParityBlockTracer) CaptureEnd(output []byte, gasUsed uint64, t time.Duration, err error) error {
jst.cur.output = output
jst.cur.gasUsed = gasUsed
if err != nil {
jst.cur.err = err
}
jst.tracers = append(jst.tracers, jst.cur)
return nil
}
// get TraceBlockStorage from tracer, then store it to db
func (jst *ParityBlockTracer) GetStorage() *TraceBlockStorage {
blockStorage := &TraceBlockStorage{
Hash: jst.Hash,
Number: jst.Number,
addressIndex: make(map[common.Address]int),
dataIndex: make(map[common.Hash]int),
}
txStorage := &TxStorage{
Storages: make([]*ActionStorage, 0, 1024),
}
var finalize func(ac *action, traceAddress []uint)
finalize = func(ac *action, traceAddress []uint) {
acStorage := ac.toStorage(blockStorage)
acStorage.Subtraces = uint(len(ac.subCalls))
acStorage.TraceAddress = make([]uint, len(traceAddress))
copy(acStorage.TraceAddress, traceAddress)
txStorage.Storages = append(txStorage.Storages, acStorage)
for i, subAc := range ac.subCalls {
finalize(subAc, append(traceAddress[:], uint(i)))
}
}
for _, curTx := range jst.tracers {
root := &curTx.action
txStorage.Hash = curTx.transactionHash
txStorage.Storages = txStorage.Storages[:0]
finalize(root, make([]uint, 0))
b, _ := rlp.EncodeToBytes(txStorage)
blockStorage.TraceStorages = append(blockStorage.TraceStorages, b)
}
return blockStorage
}
// GetResult calls the Javascript 'result' function and returns its value, or any accumulated error
func (jst *ParityBlockTracer) GetResult() ([]json.RawMessage, error) {
var results []json.RawMessage
var err error
var headPiece string
var finalize func(ac *action, traceAddress []int)
finalize = func(ac *action, traceAddress []int) {
typStr, acStr, outStr := ac.toJsonStr()
if acStr == nil {
err = errors.New("tracer internal failure")
return
}
traceStr, _ := json.Marshal(traceAddress)
bodyPiece := fmt.Sprintf(
`,"subtraces":%d,"traceAddress":%s,"type":"%s","action":%s`,
len(ac.subCalls), string(traceStr), typStr, *acStr,
)
var resultPiece string
if ac.err != nil {
resultPiece = fmt.Sprintf(`,"error":"Reverted","revert":"0x%x"`, ac.revert)
} else if outStr != nil {
resultPiece = fmt.Sprintf(`,"result":%s`, *outStr)
} else {
resultPiece = `,"result":null`
}
jstr := "{" + headPiece + bodyPiece + resultPiece + "}"
results = append(results, json.RawMessage(jstr))
for i, subAc := range ac.subCalls {
finalize(subAc, append(traceAddress[:], i))
}
}
for _, curTx := range jst.tracers {
root := &curTx.action
headPiece = fmt.Sprintf(
`"blockNumber":%d,"blockHash":"%s","transactionHash":"%s","transactionPosition":%d`,
curTx.blockNumber, curTx.blockHash.Hex(), curTx.transactionHash.Hex(), curTx.transactionPosition,
)
finalize(root, make([]int, 0))
}
return results, err
}