package vm import ( "bytes" "crypto/elliptic" "encoding/base64" "encoding/hex" "encoding/json" "errors" "fmt" "io" "math/big" "os" "strconv" "strings" "text/tabwriter" "github.com/chzyer/readline" "github.com/kballard/go-shellquote" "github.com/nspcc-dev/neo-go/pkg/compiler" "github.com/nspcc-dev/neo-go/pkg/config" "github.com/nspcc-dev/neo-go/pkg/core" "github.com/nspcc-dev/neo-go/pkg/core/interop" "github.com/nspcc-dev/neo-go/pkg/core/storage" "github.com/nspcc-dev/neo-go/pkg/core/storage/dbconfig" "github.com/nspcc-dev/neo-go/pkg/crypto/keys" "github.com/nspcc-dev/neo-go/pkg/encoding/address" "github.com/nspcc-dev/neo-go/pkg/encoding/bigint" "github.com/nspcc-dev/neo-go/pkg/smartcontract/callflag" "github.com/nspcc-dev/neo-go/pkg/smartcontract/manifest" "github.com/nspcc-dev/neo-go/pkg/smartcontract/trigger" "github.com/nspcc-dev/neo-go/pkg/util" "github.com/nspcc-dev/neo-go/pkg/util/slice" "github.com/nspcc-dev/neo-go/pkg/vm" "github.com/nspcc-dev/neo-go/pkg/vm/stackitem" "github.com/urfave/cli" "go.uber.org/zap" ) const ( chainKey = "chain" chainCfgKey = "chainCfg" icKey = "ic" manifestKey = "manifest" exitFuncKey = "exitFunc" readlineInstanceKey = "readlineKey" printLogoKey = "printLogoKey" boolType = "bool" boolFalse = "false" boolTrue = "true" intType = "int" stringType = "string" ) // Various flag names. const ( verboseFlagFullName = "verbose" ) var commands = []cli.Command{ { Name: "exit", Usage: "Exit the VM prompt", Description: "Exit the VM prompt", Action: handleExit, }, { Name: "ip", Usage: "Show current instruction", Description: "Show current instruction", Action: handleIP, }, { Name: "break", Usage: "Place a breakpoint", UsageText: `break `, Description: `break is mandatory parameter, example: > break 12`, Action: handleBreak, }, { Name: "estack", Usage: "Show evaluation stack contents", Description: "Show evaluation stack contents", Action: handleXStack, }, { Name: "istack", Usage: "Show invocation stack contents", Description: "Show invocation stack contents", Action: handleXStack, }, { Name: "sslot", Usage: "Show static slot contents", Description: "Show static slot contents", Action: handleSlots, }, { Name: "lslot", Usage: "Show local slot contents", Description: "Show local slot contents", Action: handleSlots, }, { Name: "aslot", Usage: "Show arguments slot contents", Description: "Show arguments slot contents", Action: handleSlots, }, { Name: "loadnef", Usage: "Load a NEF-consistent script into the VM", UsageText: `loadnef `, Description: `loadnef both parameters are mandatory, example: > loadnef /path/to/script.nef /path/to/manifest.json`, Action: handleLoadNEF, }, { Name: "loadbase64", Usage: "Load a base64-encoded script string into the VM", UsageText: `loadbase64 `, Description: `loadbase64 is mandatory parameter, example: > loadbase64 AwAQpdToAAAADBQV9ehtQR1OrVZVhtHtoUHRfoE+agwUzmFvf3Rhfg/EuAVYOvJgKiON9j8TwAwIdHJhbnNmZXIMFDt9NxHG8Mz5sdypA9G/odiW8SOMQWJ9W1I4`, Action: handleLoadBase64, }, { Name: "loadhex", Usage: "Load a hex-encoded script string into the VM", UsageText: `loadhex `, Description: `loadhex is mandatory parameter, example: > loadhex 0c0c48656c6c6f20776f726c6421`, Action: handleLoadHex, }, { Name: "loadgo", Usage: "Compile and load a Go file with the manifest into the VM", UsageText: `loadgo `, Description: `loadgo is mandatory parameter, example: > loadgo /path/to/file.go`, Action: handleLoadGo, }, { Name: "reset", Usage: "Unload compiled script from the VM", Action: handleReset, }, { Name: "parse", Usage: "Parse provided argument and convert it into other possible formats", UsageText: `parse `, Description: `parse is an argument which is tried to be interpreted as an item of different types and converted to other formats. Strings are escaped and output in quotes.`, Action: handleParse, }, { Name: "run", Usage: "Execute the current loaded script", UsageText: `run [ [...]]`, Description: `run [ [...]] is a contract method, specified in manifest. It can be '_' which will push parameters onto the stack and execute from the current offset. is a parameter (can be repeated multiple times) that can be specified as :, where type can be: '` + boolType + `': supports '` + boolFalse + `' and '` + boolTrue + `' values '` + intType + `': supports integers as values '` + stringType + `': supports strings as values (that are pushed as a byte array values to the stack) or can be just , for which the type will be detected automatically following these rules: '` + boolTrue + `' and '` + boolFalse + `' are treated as respective boolean values, everything that can be converted to integer is treated as integer and everything else is treated like a string. Example: > run put ` + stringType + `:"Something to put"`, Action: handleRun, }, { Name: "cont", Usage: "Continue execution of the current loaded script", Description: "Continue execution of the current loaded script", Action: handleCont, }, { Name: "step", Usage: "Step (n) instruction in the program", UsageText: `step []`, Description: `step [] is optional parameter to specify number of instructions to run, example: > step 10`, Action: handleStep, }, { Name: "stepinto", Usage: "Stepinto instruction to take in the debugger", Description: `Usage: stepInto example: > stepinto`, Action: handleStepInto, }, { Name: "stepout", Usage: "Stepout instruction to take in the debugger", Description: `stepOut example: > stepout`, Action: handleStepOut, }, { Name: "stepover", Usage: "Stepover instruction to take in the debugger", Description: `stepOver example: > stepover`, Action: handleStepOver, }, { Name: "ops", Usage: "Dump opcodes of the current loaded program", Description: "Dump opcodes of the current loaded program", Action: handleOps, }, { Name: "events", Usage: "Dump events emitted by the current loaded program", Description: "Dump events emitted by the current loaded program", Action: handleEvents, }, { Name: "env", Usage: "Dump state of the chain that is used for VM CLI invocations (use -v for verbose node configuration)", UsageText: `env [-v]`, Flags: []cli.Flag{ cli.BoolFlag{ Name: verboseFlagFullName + ",v", Usage: "Print the whole blockchain node configuration.", }, }, Description: `env [-v] Dump state of the chain that is used for VM CLI invocations (use -v for verbose node configuration). Example: > env -v`, Action: handleEnv, }, } var completer *readline.PrefixCompleter func init() { var pcItems []readline.PrefixCompleterInterface for _, c := range commands { if !c.Hidden { var flagsItems []readline.PrefixCompleterInterface for _, f := range c.Flags { names := strings.SplitN(f.GetName(), ", ", 2) // only long name will be offered flagsItems = append(flagsItems, readline.PcItem("--"+names[0])) } pcItems = append(pcItems, readline.PcItem(c.Name, flagsItems...)) } } completer = readline.NewPrefixCompleter(pcItems...) } // Various errors. var ( ErrMissingParameter = errors.New("missing argument") ErrInvalidParameter = errors.New("can't parse argument") ) // VMCLI object for interacting with the VM. type VMCLI struct { chain *core.Blockchain shell *cli.App } // NewWithConfig returns new VMCLI instance using provided config and (optionally) // provided node config for state-backed VM. func NewWithConfig(printLogotype bool, onExit func(int), c *readline.Config, cfg config.Config) (*VMCLI, error) { if c.AutoComplete == nil { // Autocomplete commands/flags on TAB. c.AutoComplete = completer } l, err := readline.NewEx(c) if err != nil { return nil, fmt.Errorf("failed to create readline instance: %w", err) } ctl := cli.NewApp() ctl.Name = "VM CLI" // Note: need to set empty `ctl.HelpName` and `ctl.UsageText`, otherwise // `filepath.Base(os.Args[0])` will be used which is `neo-go`. ctl.HelpName = "" ctl.UsageText = "" ctl.Writer = l.Stdout() ctl.ErrWriter = l.Stderr() ctl.Version = config.Version ctl.Usage = "Official VM CLI for Neo-Go" // Override default error handler in order not to exit on error. ctl.ExitErrHandler = func(context *cli.Context, err error) {} ctl.Commands = commands store, err := storage.NewStore(cfg.ApplicationConfiguration.DBConfiguration) if err != nil { writeErr(ctl.ErrWriter, fmt.Errorf("failed to open DB, clean in-memory storage will be used: %w", err)) cfg.ApplicationConfiguration.DBConfiguration.Type = dbconfig.InMemoryDB store = storage.NewMemoryStore() } exitF := func(i int) { _ = store.Close() onExit(i) } log := zap.NewNop() chain, err := core.NewBlockchain(store, cfg.ProtocolConfiguration, log) if err != nil { return nil, cli.NewExitError(fmt.Errorf("could not initialize blockchain: %w", err), 1) } // Do not run chain, we need only state-related functionality from it. ic, err := chain.GetTestVM(trigger.Application, nil, nil) if err != nil { return nil, cli.NewExitError(fmt.Errorf("failed to create test VM: %w", err), 1) } vmcli := VMCLI{ chain: chain, shell: ctl, } vmcli.shell.Metadata = map[string]interface{}{ chainKey: chain, chainCfgKey: cfg, icKey: ic, manifestKey: new(manifest.Manifest), exitFuncKey: exitF, readlineInstanceKey: l, printLogoKey: printLogotype, } changePrompt(vmcli.shell) return &vmcli, nil } func getExitFuncFromContext(app *cli.App) func(int) { return app.Metadata[exitFuncKey].(func(int)) } func getReadlineInstanceFromContext(app *cli.App) *readline.Instance { return app.Metadata[readlineInstanceKey].(*readline.Instance) } func getVMFromContext(app *cli.App) *vm.VM { return getInteropContextFromContext(app).VM } func getChainFromContext(app *cli.App) *core.Blockchain { return app.Metadata[chainKey].(*core.Blockchain) } func getChainConfigFromContext(app *cli.App) config.Config { return app.Metadata[chainCfgKey].(config.Config) } func getInteropContextFromContext(app *cli.App) *interop.Context { return app.Metadata[icKey].(*interop.Context) } func getManifestFromContext(app *cli.App) *manifest.Manifest { return app.Metadata[manifestKey].(*manifest.Manifest) } func getPrintLogoFromContext(app *cli.App) bool { return app.Metadata[printLogoKey].(bool) } func setInteropContextInContext(app *cli.App, ic *interop.Context) { app.Metadata[icKey] = ic } func setManifestInContext(app *cli.App, m *manifest.Manifest) { app.Metadata[manifestKey] = m } func checkVMIsReady(app *cli.App) bool { v := getVMFromContext(app) if v == nil || !v.Ready() { writeErr(app.Writer, errors.New("VM is not ready: no program loaded")) return false } return true } func handleExit(c *cli.Context) error { finalizeInteropContext(c.App) l := getReadlineInstanceFromContext(c.App) _ = l.Close() exit := getExitFuncFromContext(c.App) fmt.Fprintln(c.App.Writer, "Bye!") exit(0) return nil } func handleIP(c *cli.Context) error { if !checkVMIsReady(c.App) { return nil } v := getVMFromContext(c.App) ctx := v.Context() if ctx.NextIP() < ctx.LenInstr() { ip, opcode := v.Context().NextInstr() fmt.Fprintf(c.App.Writer, "instruction pointer at %d (%s)\n", ip, opcode) } else { fmt.Fprintln(c.App.Writer, "execution has finished") } return nil } func handleBreak(c *cli.Context) error { if !checkVMIsReady(c.App) { return nil } v := getVMFromContext(c.App) args := c.Args() if len(args) != 1 { return fmt.Errorf("%w: ", ErrMissingParameter) } n, err := strconv.Atoi(args[0]) if err != nil { return fmt.Errorf("%w: %s", ErrInvalidParameter, err) } v.AddBreakPoint(n) fmt.Fprintf(c.App.Writer, "breakpoint added at instruction %d\n", n) return nil } func handleXStack(c *cli.Context) error { v := getVMFromContext(c.App) var stackDump string switch c.Command.Name { case "estack": stackDump = v.DumpEStack() case "istack": stackDump = v.DumpIStack() default: return errors.New("unknown stack") } fmt.Fprintln(c.App.Writer, stackDump) return nil } func handleSlots(c *cli.Context) error { v := getVMFromContext(c.App) vmCtx := v.Context() if vmCtx == nil { return errors.New("no program loaded") } var rawSlot string switch c.Command.Name { case "sslot": rawSlot = vmCtx.DumpStaticSlot() case "lslot": rawSlot = vmCtx.DumpLocalSlot() case "aslot": rawSlot = vmCtx.DumpArgumentsSlot() default: return errors.New("unknown slot") } fmt.Fprintln(c.App.Writer, rawSlot) return nil } func handleLoadNEF(c *cli.Context) error { err := resetState(c.App) if err != nil { return err } v := getVMFromContext(c.App) args := c.Args() if len(args) < 2 { return fmt.Errorf("%w: ", ErrMissingParameter) } if err := v.LoadFileWithFlags(args[0], callflag.All); err != nil { return fmt.Errorf("failed to read nef: %w", err) } m, err := getManifestFromFile(args[1]) if err != nil { return fmt.Errorf("failed to read manifest: %w", err) } fmt.Fprintf(c.App.Writer, "READY: loaded %d instructions\n", v.Context().LenInstr()) setManifestInContext(c.App, m) changePrompt(c.App) return nil } func handleLoadBase64(c *cli.Context) error { err := resetState(c.App) if err != nil { return err } v := getVMFromContext(c.App) args := c.Args() if len(args) < 1 { return fmt.Errorf("%w: ", ErrMissingParameter) } b, err := base64.StdEncoding.DecodeString(args[0]) if err != nil { return fmt.Errorf("%w: %s", ErrInvalidParameter, err) } v.LoadWithFlags(b, callflag.All) fmt.Fprintf(c.App.Writer, "READY: loaded %d instructions\n", v.Context().LenInstr()) changePrompt(c.App) return nil } func handleLoadHex(c *cli.Context) error { err := resetState(c.App) if err != nil { return err } v := getVMFromContext(c.App) args := c.Args() if len(args) < 1 { return fmt.Errorf("%w: ", ErrMissingParameter) } b, err := hex.DecodeString(args[0]) if err != nil { return fmt.Errorf("%w: %s", ErrInvalidParameter, err) } v.LoadWithFlags(b, callflag.All) fmt.Fprintf(c.App.Writer, "READY: loaded %d instructions\n", v.Context().LenInstr()) changePrompt(c.App) return nil } func handleLoadGo(c *cli.Context) error { err := resetState(c.App) if err != nil { return err } v := getVMFromContext(c.App) args := c.Args() if len(args) < 1 { return fmt.Errorf("%w: ", ErrMissingParameter) } name := strings.TrimSuffix(args[0], ".go") b, di, err := compiler.CompileWithOptions(args[0], nil, &compiler.Options{Name: name}) if err != nil { return fmt.Errorf("failed to compile: %w", err) } // Don't perform checks, just load. m, err := di.ConvertToManifest(&compiler.Options{}) if err != nil { return fmt.Errorf("can't create manifest: %w", err) } setManifestInContext(c.App, m) v.LoadWithFlags(b.Script, callflag.All) fmt.Fprintf(c.App.Writer, "READY: loaded %d instructions\n", v.Context().LenInstr()) changePrompt(c.App) return nil } func handleReset(c *cli.Context) error { err := resetState(c.App) if err != nil { return err } changePrompt(c.App) return nil } // finalizeInteropContext calls finalizer for the current interop context. func finalizeInteropContext(app *cli.App) { ic := getInteropContextFromContext(app) ic.Finalize() } // resetInteropContext calls finalizer for current interop context and replaces // it with the newly created one. func resetInteropContext(app *cli.App) error { finalizeInteropContext(app) bc := getChainFromContext(app) newIc, err := bc.GetTestVM(trigger.Application, nil, nil) if err != nil { return fmt.Errorf("failed to create test VM: %w", err) } setInteropContextInContext(app, newIc) return nil } // resetManifest removes manifest from app context. func resetManifest(app *cli.App) { setManifestInContext(app, nil) } // resetState resets state of the app (clear interop context and manifest) so that it's ready // to load new program. func resetState(app *cli.App) error { err := resetInteropContext(app) if err != nil { return fmt.Errorf("failed to reset interop context state: %w", err) } resetManifest(app) return nil } func getManifestFromFile(name string) (*manifest.Manifest, error) { bs, err := os.ReadFile(name) if err != nil { return nil, fmt.Errorf("%w: can't read manifest", ErrInvalidParameter) } var m manifest.Manifest if err := json.Unmarshal(bs, &m); err != nil { return nil, fmt.Errorf("%w: can't unmarshal manifest", ErrInvalidParameter) } return &m, nil } func handleRun(c *cli.Context) error { v := getVMFromContext(c.App) m := getManifestFromContext(c.App) args := c.Args() if len(args) != 0 { var ( params []stackitem.Item offset int err error runCurrent = args[0] != "_" ) params, err = parseArgs(args[1:]) if err != nil { return err } if runCurrent { if m == nil { return fmt.Errorf("manifest is not loaded; either use 'run' command to run loaded script from the start or use 'loadgo' and 'loadnef' commands to provide manifest") } md := m.ABI.GetMethod(args[0], len(params)) if md == nil { return fmt.Errorf("%w: method not found", ErrInvalidParameter) } offset = md.Offset } for i := len(params) - 1; i >= 0; i-- { v.Estack().PushVal(params[i]) } if runCurrent { if !v.Ready() { return errors.New("no program loaded") } v.Context().Jump(offset) if initMD := m.ABI.GetMethod(manifest.MethodInit, 0); initMD != nil { v.Call(initMD.Offset) } } } runVMWithHandling(c) changePrompt(c.App) return nil } // runVMWithHandling runs VM with handling errors and additional state messages. func runVMWithHandling(c *cli.Context) { v := getVMFromContext(c.App) err := v.Run() if err != nil { writeErr(c.App.ErrWriter, err) } var ( message string dumpNtf bool ) switch { case v.HasFailed(): message = "" // the error will be printed on return dumpNtf = true case v.HasHalted(): message = v.DumpEStack() dumpNtf = true case v.AtBreakpoint(): ctx := v.Context() if ctx.NextIP() < ctx.LenInstr() { i, op := ctx.NextInstr() message = fmt.Sprintf("at breakpoint %d (%s)", i, op) } else { message = "execution has finished" } } if dumpNtf { var e string e, err = dumpEvents(c.App) if err == nil && len(e) != 0 { if message != "" { message += "\n" } message += "Events:\n" + e } } if message != "" { fmt.Fprintln(c.App.Writer, message) } } func handleCont(c *cli.Context) error { if !checkVMIsReady(c.App) { return nil } runVMWithHandling(c) changePrompt(c.App) return nil } func handleStep(c *cli.Context) error { var ( n = 1 err error ) if !checkVMIsReady(c.App) { return nil } v := getVMFromContext(c.App) args := c.Args() if len(args) > 0 { n, err = strconv.Atoi(args[0]) if err != nil { return fmt.Errorf("%w: %s", ErrInvalidParameter, err) } } v.AddBreakPointRel(n) runVMWithHandling(c) changePrompt(c.App) return nil } func handleStepInto(c *cli.Context) error { return handleStepType(c, "into") } func handleStepOut(c *cli.Context) error { return handleStepType(c, "out") } func handleStepOver(c *cli.Context) error { return handleStepType(c, "over") } func handleStepType(c *cli.Context, stepType string) error { if !checkVMIsReady(c.App) { return nil } v := getVMFromContext(c.App) var err error switch stepType { case "into": err = v.StepInto() case "out": err = v.StepOut() case "over": err = v.StepOver() } if err != nil { return err } _ = handleIP(c) changePrompt(c.App) return nil } func handleOps(c *cli.Context) error { if !checkVMIsReady(c.App) { return nil } v := getVMFromContext(c.App) out := bytes.NewBuffer(nil) v.PrintOps(out) fmt.Fprintln(c.App.Writer, out.String()) return nil } func changePrompt(app *cli.App) { v := getVMFromContext(app) l := getReadlineInstanceFromContext(app) if v.Ready() && v.Context().NextIP() >= 0 && v.Context().NextIP() < v.Context().LenInstr() { l.SetPrompt(fmt.Sprintf("\033[32mNEO-GO-VM %d >\033[0m ", v.Context().NextIP())) } else { l.SetPrompt("\033[32mNEO-GO-VM >\033[0m ") } } func handleEvents(c *cli.Context) error { e, err := dumpEvents(c.App) if err != nil { writeErr(c.App.ErrWriter, err) return nil } fmt.Fprintln(c.App.Writer, e) return nil } func handleEnv(c *cli.Context) error { bc := getChainFromContext(c.App) cfg := getChainConfigFromContext(c.App) message := fmt.Sprintf("Chain height: %d\nNetwork magic: %d\nDB type: %s\n", bc.BlockHeight(), bc.GetConfig().Magic, cfg.ApplicationConfiguration.DBConfiguration.Type) if c.Bool(verboseFlagFullName) { cfgBytes, err := json.MarshalIndent(cfg, "", "\t") if err != nil { return fmt.Errorf("failed to marshal node configuration: %w", err) } message += "Node config:\n" + string(cfgBytes) + "\n" } fmt.Fprint(c.App.Writer, message) return nil } func dumpEvents(app *cli.App) (string, error) { ic := getInteropContextFromContext(app) if len(ic.Notifications) == 0 { return "", nil } b, err := json.MarshalIndent(ic.Notifications, "", "\t") if err != nil { return "", fmt.Errorf("failed to marshal notifications: %w", err) } return string(b), nil } // Run waits for user input from Stdin and executes the passed command. func (c *VMCLI) Run() error { if getPrintLogoFromContext(c.shell) { printLogo(c.shell.Writer) } l := getReadlineInstanceFromContext(c.shell) for { line, err := l.Readline() if errors.Is(err, io.EOF) || errors.Is(err, readline.ErrInterrupt) { return nil // OK, stop execution. } if err != nil { return fmt.Errorf("failed to read input: %w", err) // Critical error, stop execution. } args, err := shellquote.Split(line) if err != nil { writeErr(c.shell.ErrWriter, fmt.Errorf("failed to parse arguments: %w", err)) continue // Not a critical error, continue execution. } err = c.shell.Run(append([]string{"vm"}, args...)) if err != nil { writeErr(c.shell.ErrWriter, err) // Various command/flags parsing errors and execution errors. } } } func handleParse(c *cli.Context) error { res, err := Parse(c.Args()) if err != nil { return err } fmt.Fprintln(c.App.Writer, res) return nil } // Parse converts it's argument to other formats. func Parse(args []string) (string, error) { if len(args) < 1 { return "", ErrMissingParameter } arg := args[0] buf := bytes.NewBuffer(nil) if val, err := strconv.ParseInt(arg, 10, 64); err == nil { bs := bigint.ToBytes(big.NewInt(val)) buf.WriteString(fmt.Sprintf("Integer to Hex\t%s\n", hex.EncodeToString(bs))) buf.WriteString(fmt.Sprintf("Integer to Base64\t%s\n", base64.StdEncoding.EncodeToString(bs))) } noX := strings.TrimPrefix(arg, "0x") if rawStr, err := hex.DecodeString(noX); err == nil { if val, err := util.Uint160DecodeBytesBE(rawStr); err == nil { buf.WriteString(fmt.Sprintf("BE ScriptHash to Address\t%s\n", address.Uint160ToString(val))) buf.WriteString(fmt.Sprintf("LE ScriptHash to Address\t%s\n", address.Uint160ToString(val.Reverse()))) } if pub, err := keys.NewPublicKeyFromBytes(rawStr, elliptic.P256()); err == nil { sh := pub.GetScriptHash() buf.WriteString(fmt.Sprintf("Public key to BE ScriptHash\t%s\n", sh)) buf.WriteString(fmt.Sprintf("Public key to LE ScriptHash\t%s\n", sh.Reverse())) buf.WriteString(fmt.Sprintf("Public key to Address\t%s\n", address.Uint160ToString(sh))) } buf.WriteString(fmt.Sprintf("Hex to String\t%s\n", fmt.Sprintf("%q", string(rawStr)))) buf.WriteString(fmt.Sprintf("Hex to Integer\t%s\n", bigint.FromBytes(rawStr))) buf.WriteString(fmt.Sprintf("Swap Endianness\t%s\n", hex.EncodeToString(slice.CopyReverse(rawStr)))) } if addr, err := address.StringToUint160(arg); err == nil { buf.WriteString(fmt.Sprintf("Address to BE ScriptHash\t%s\n", addr)) buf.WriteString(fmt.Sprintf("Address to LE ScriptHash\t%s\n", addr.Reverse())) buf.WriteString(fmt.Sprintf("Address to Base64 (BE)\t%s\n", base64.StdEncoding.EncodeToString(addr.BytesBE()))) buf.WriteString(fmt.Sprintf("Address to Base64 (LE)\t%s\n", base64.StdEncoding.EncodeToString(addr.BytesLE()))) } if rawStr, err := base64.StdEncoding.DecodeString(arg); err == nil { buf.WriteString(fmt.Sprintf("Base64 to String\t%s\n", fmt.Sprintf("%q", string(rawStr)))) buf.WriteString(fmt.Sprintf("Base64 to BigInteger\t%s\n", bigint.FromBytes(rawStr))) if u, err := util.Uint160DecodeBytesBE(rawStr); err == nil { buf.WriteString(fmt.Sprintf("Base64 to BE ScriptHash\t%s\n", u.StringBE())) buf.WriteString(fmt.Sprintf("Base64 to LE ScriptHash\t%s\n", u.StringLE())) buf.WriteString(fmt.Sprintf("Base64 to Address (BE)\t%s\n", address.Uint160ToString(u))) buf.WriteString(fmt.Sprintf("Base64 to Address (LE)\t%s\n", address.Uint160ToString(u.Reverse()))) } } buf.WriteString(fmt.Sprintf("String to Hex\t%s\n", hex.EncodeToString([]byte(arg)))) buf.WriteString(fmt.Sprintf("String to Base64\t%s\n", base64.StdEncoding.EncodeToString([]byte(arg)))) out := buf.Bytes() buf = bytes.NewBuffer(nil) w := tabwriter.NewWriter(buf, 0, 4, 4, '\t', 0) if _, err := w.Write(out); err != nil { return "", err } if err := w.Flush(); err != nil { return "", err } return buf.String(), nil } func parseArgs(args []string) ([]stackitem.Item, error) { items := make([]stackitem.Item, len(args)) for i, arg := range args { var typ, value string typeAndVal := strings.Split(arg, ":") if len(typeAndVal) < 2 { if typeAndVal[0] == boolFalse || typeAndVal[0] == boolTrue { typ = boolType } else if _, err := strconv.Atoi(typeAndVal[0]); err == nil { typ = intType } else { typ = stringType } value = typeAndVal[0] } else { typ = typeAndVal[0] value = typeAndVal[1] } switch typ { case boolType: if value == boolFalse { items[i] = stackitem.NewBool(false) } else if value == boolTrue { items[i] = stackitem.NewBool(true) } else { return nil, fmt.Errorf("%w: invalid bool value", ErrInvalidParameter) } case intType: val, err := strconv.ParseInt(value, 10, 64) if err != nil { return nil, fmt.Errorf("%w: invalid integer value", ErrInvalidParameter) } items[i] = stackitem.NewBigInteger(big.NewInt(val)) case stringType: items[i] = stackitem.NewByteArray([]byte(value)) } } return items, nil } const logo = ` _ ____________ __________ _ ____ ___ / | / / ____/ __ \ / ____/ __ \ | | / / |/ / / |/ / __/ / / / /_____/ / __/ / / /____| | / / /|_/ / / /| / /___/ /_/ /_____/ /_/ / /_/ /_____/ |/ / / / / /_/ |_/_____/\____/ \____/\____/ |___/_/ /_/ ` func printLogo(w io.Writer) { fmt.Fprint(w, logo) fmt.Fprintln(w) fmt.Fprintln(w) fmt.Fprintln(w) } func writeErr(w io.Writer, err error) { fmt.Fprintf(w, "Error: %s\n", err) }