// Copyright (c) 2013-2014, Jeffrey Wilcke. All rights reserved. // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // This 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 // General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, // MA 02110-1301 USA package main import ( "fmt" "math/big" "strconv" "strings" "unicode" "github.com/ethereum/go-ethereum/chain" "github.com/ethereum/go-ethereum/cmd/utils" "github.com/ethereum/go-ethereum/ethutil" "github.com/ethereum/go-ethereum/state" "github.com/ethereum/go-ethereum/vm" "gopkg.in/qml.v1" ) type DebuggerWindow struct { win *qml.Window engine *qml.Engine lib *UiLib vm *vm.DebugVm Db *Debugger state *state.State } func NewDebuggerWindow(lib *UiLib) *DebuggerWindow { engine := qml.NewEngine() component, err := engine.LoadFile(lib.AssetPath("debugger/debugger.qml")) if err != nil { fmt.Println(err) return nil } win := component.CreateWindow(nil) w := &DebuggerWindow{engine: engine, win: win, lib: lib, vm: &vm.DebugVm{}} w.Db = NewDebugger(w) return w } func (self *DebuggerWindow) Show() { context := self.engine.Context() context.SetVar("dbg", self) go func() { self.win.Show() self.win.Wait() }() } func (self *DebuggerWindow) SetCode(code string) { self.win.Set("codeText", code) } func (self *DebuggerWindow) SetData(data string) { self.win.Set("dataText", data) } func (self *DebuggerWindow) SetAsm(data []byte) { self.win.Root().Call("clearAsm") dis := chain.Disassemble(data) for _, str := range dis { self.win.Root().Call("setAsm", str) } } func (self *DebuggerWindow) Compile(code string) { var err error script := ethutil.StringToByteFunc(code, func(s string) (ret []byte) { ret, err = ethutil.Compile(s, true) return }) if err == nil { self.SetAsm(script) } } // Used by QML func (self *DebuggerWindow) AutoComp(code string) { if self.Db.done { self.Compile(code) } } func (self *DebuggerWindow) ClearLog() { self.win.Root().Call("clearLog") } func (self *DebuggerWindow) Debug(valueStr, gasStr, gasPriceStr, scriptStr, dataStr string) { self.Stop() defer func() { if r := recover(); r != nil { self.Logf("compile FAULT: %v", r) } }() data := utils.FormatTransactionData(dataStr) var err error script := ethutil.StringToByteFunc(scriptStr, func(s string) (ret []byte) { ret, err = ethutil.Compile(s, false) return }) if err != nil { self.Logln(err) return } var ( gas = ethutil.Big(gasStr) gasPrice = ethutil.Big(gasPriceStr) value = ethutil.Big(valueStr) // Contract addr as test address keyPair = self.lib.eth.KeyManager().KeyPair() ) statedb := self.lib.eth.BlockManager().TransState() account := self.lib.eth.BlockManager().TransState().GetAccount(keyPair.Address()) contract := statedb.NewStateObject([]byte{0}) contract.SetCode(script) contract.SetBalance(value) self.SetAsm(script) block := self.lib.eth.ChainManager().CurrentBlock env := utils.NewEnv(statedb, block, account.Address(), value) self.Logf("callsize %d", len(script)) go func() { ret, err := env.Call(account, contract.Address(), data, gas, gasPrice, ethutil.Big0) //ret, g, err := callerClosure.Call(evm, data) tot := new(big.Int).Mul(env.Gas, gasPrice) self.Logf("gas usage %v total price = %v (%v)", env.Gas, tot, ethutil.CurrencyToString(tot)) if err != nil { self.Logln("exited with errors:", err) } else { if len(ret) > 0 { self.Logf("exited: % x", ret) } else { self.Logf("exited: nil") } } statedb.Reset() if !self.Db.interrupt { self.Db.done = true } else { self.Db.interrupt = false } }() } func (self *DebuggerWindow) Logf(format string, v ...interface{}) { self.win.Root().Call("setLog", fmt.Sprintf(format, v...)) } func (self *DebuggerWindow) Logln(v ...interface{}) { str := fmt.Sprintln(v...) self.Logf("%s", str[:len(str)-1]) } func (self *DebuggerWindow) Next() { self.Db.Next() } func (self *DebuggerWindow) Continue() { self.vm.Stepping = false self.Next() } func (self *DebuggerWindow) Stop() { if !self.Db.done { self.Db.Q <- true } } func (self *DebuggerWindow) ExecCommand(command string) { if len(command) > 0 { cmd := strings.Split(command, " ") switch cmd[0] { case "help": self.Logln("Debugger commands:") self.Logln("break, bp Set breakpoint on instruction") self.Logln("clear [log, break, bp] Clears previous set sub-command(s)") case "break", "bp": if len(cmd) > 1 { lineNo, err := strconv.Atoi(cmd[1]) if err != nil { self.Logln(err) break } self.Db.breakPoints = append(self.Db.breakPoints, int64(lineNo)) self.Logf("break point set on instruction %d", lineNo) } else { self.Logf("'%s' requires line number", cmd[0]) } case "clear": if len(cmd) > 1 { switch cmd[1] { case "break", "bp": self.Db.breakPoints = nil self.Logln("Breakpoints cleared") case "log": self.ClearLog() default: self.Logf("clear '%s' is not valid", cmd[1]) } } else { self.Logln("'clear' requires sub command") } default: self.Logf("Unknown command %s", cmd[0]) } } } type Debugger struct { N chan bool Q chan bool done, interrupt bool breakPoints []int64 main *DebuggerWindow win *qml.Window } func NewDebugger(main *DebuggerWindow) *Debugger { db := &Debugger{make(chan bool), make(chan bool), true, false, nil, main, main.win} return db } type storeVal struct { Key, Value string } func (self *Debugger) BreakHook(pc int, op vm.OpCode, mem *vm.Memory, stack *vm.Stack, stateObject *state.StateObject) bool { self.main.Logln("break on instr:", pc) return self.halting(pc, op, mem, stack, stateObject) } func (self *Debugger) StepHook(pc int, op vm.OpCode, mem *vm.Memory, stack *vm.Stack, stateObject *state.StateObject) bool { return self.halting(pc, op, mem, stack, stateObject) } func (self *Debugger) SetCode(byteCode []byte) { self.main.SetAsm(byteCode) } func (self *Debugger) BreakPoints() []int64 { return self.breakPoints } func (d *Debugger) halting(pc int, op vm.OpCode, mem *vm.Memory, stack *vm.Stack, stateObject *state.StateObject) bool { d.win.Root().Call("setInstruction", pc) d.win.Root().Call("clearMem") d.win.Root().Call("clearStack") d.win.Root().Call("clearStorage") addr := 0 for i := 0; i+16 <= mem.Len(); i += 16 { dat := mem.Data()[i : i+16] var str string for _, d := range dat { if unicode.IsGraphic(rune(d)) { str += string(d) } else { str += "?" } } d.win.Root().Call("setMem", memAddr{fmt.Sprintf("%03d", addr), fmt.Sprintf("%s % x", str, dat)}) addr += 16 } for _, val := range stack.Data() { d.win.Root().Call("setStack", val.String()) } stateObject.EachStorage(func(key string, node *ethutil.Value) { d.win.Root().Call("setStorage", storeVal{fmt.Sprintf("% x", key), fmt.Sprintf("% x", node.Str())}) }) stackFrameAt := new(big.Int).SetBytes(mem.Get(0, 32)) psize := mem.Len() - int(new(big.Int).SetBytes(mem.Get(0, 32)).Uint64()) d.win.Root().ObjectByName("stackFrame").Set("text", fmt.Sprintf(`stack ptr: %v`, stackFrameAt)) d.win.Root().ObjectByName("stackSize").Set("text", fmt.Sprintf(`stack size: %d`, psize)) d.win.Root().ObjectByName("memSize").Set("text", fmt.Sprintf(`mem size: %v`, mem.Len())) out: for { select { case <-d.N: break out case <-d.Q: d.interrupt = true d.clearBuffers() return false } } return true } func (d *Debugger) clearBuffers() { out: // drain for { select { case <-d.N: case <-d.Q: default: break out } } } func (d *Debugger) Next() { if !d.done { d.N <- true } }