forked from TrueCloudLab/neoneo-go
ec7e17ffa6
Simplifies a lot of code and removes some duplication. Unfortunately I had to move test_util random functions in same commit to avoid cycle dependencies. One of these random functions was also used in core/transaction testing, to simplify things I've just dropped it there and used a static string (which is nice to have for a test anyway). There is still sha256 left in wallet (but it needs to pass Hash structure into the signing function).
713 lines
15 KiB
Go
713 lines
15 KiB
Go
package vm
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import (
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"crypto/sha1"
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"fmt"
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"io/ioutil"
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"log"
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"math/big"
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"os"
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"text/tabwriter"
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"reflect"
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"github.com/CityOfZion/neo-go/pkg/crypto/hash"
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"github.com/CityOfZion/neo-go/pkg/util"
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)
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// Mode configures behaviour of the VM.
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type Mode uint
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// Available VM Modes.
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var (
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ModeMute Mode = 1 << 0
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)
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// VM represents the virtual machine.
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type VM struct {
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state State
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// registered interop hooks.
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interop map[string]InteropFunc
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// scripts loaded in memory.
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scripts map[util.Uint160][]byte
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istack *Stack // invocation stack.
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estack *Stack // execution stack.
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astack *Stack // alt stack.
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// Mute all output after execution.
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mute bool
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}
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// New returns a new VM object ready to load .avm bytecode scripts.
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func New(mode Mode) *VM {
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vm := &VM{
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interop: make(map[string]InteropFunc),
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scripts: make(map[util.Uint160][]byte),
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state: haltState,
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istack: NewStack("invocation"),
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estack: NewStack("evaluation"),
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astack: NewStack("alt"),
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}
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if mode == ModeMute {
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vm.mute = true
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}
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// Register native interop hooks.
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vm.RegisterInteropFunc("Neo.Runtime.Log", runtimeLog)
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vm.RegisterInteropFunc("Neo.Runtime.Notify", runtimeNotify)
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return vm
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}
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// RegisterInteropFunc will register the given InteropFunc to the VM.
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func (v *VM) RegisterInteropFunc(name string, f InteropFunc) {
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v.interop[name] = f
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}
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// Estack will return the evaluation stack so interop hooks can utilize this.
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func (v *VM) Estack() *Stack {
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return v.estack
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}
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// Astack will return the alt stack so interop hooks can utilize this.
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func (v *VM) Astack() *Stack {
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return v.astack
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}
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// Istack will return the invocation stack so interop hooks can utilize this.
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func (v *VM) Istack() *Stack {
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return v.istack
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}
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// LoadArgs will load in the arguments used in the Mian entry point.
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func (v *VM) LoadArgs(method []byte, args []StackItem) {
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if len(args) > 0 {
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v.estack.PushVal(args)
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}
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if method != nil {
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v.estack.PushVal(method)
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}
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}
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// PrintOps will print the opcodes of the current loaded program to stdout.
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func (v *VM) PrintOps() {
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prog := v.Context().Program()
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w := tabwriter.NewWriter(os.Stdout, 0, 0, 4, ' ', 0)
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fmt.Fprintln(w, "INDEX\tOPCODE\tDESC\t")
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cursor := ""
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ip, _ := v.Context().CurrInstr()
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for i := 0; i < len(prog); i++ {
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if i == ip {
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cursor = "<<"
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} else {
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cursor = ""
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}
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fmt.Fprintf(w, "%d\t0x%2x\t%s\t%s\n", i, prog[i], Instruction(prog[i]).String(), cursor)
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}
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w.Flush()
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}
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// AddBreakPoint adds a breakpoint to the current context.
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func (v *VM) AddBreakPoint(n int) {
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ctx := v.Context()
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ctx.breakPoints = append(ctx.breakPoints, n)
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}
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// AddBreakPointRel adds a breakpoint relative to the current
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// instruction pointer.
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func (v *VM) AddBreakPointRel(n int) {
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ctx := v.Context()
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v.AddBreakPoint(ctx.ip + n)
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}
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// LoadFile will load a program from the given path, ready to execute it.
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func (v *VM) LoadFile(path string) error {
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b, err := ioutil.ReadFile(path)
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if err != nil {
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return err
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}
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v.Load(b)
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return nil
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}
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func (v *VM) Load(prog []byte) {
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// clear all stacks, it could be a reload.
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v.istack.Clear()
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v.estack.Clear()
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v.astack.Clear()
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v.istack.PushVal(NewContext(prog))
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}
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// LoadScript will load a script from the internal script table. It
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// will immediately push a new context created from this script to
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// the invocation stack and starts executing it.
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func (v *VM) LoadScript(b []byte) {
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ctx := NewContext(b)
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v.istack.PushVal(ctx)
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}
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// Context returns the current executed context. Nil if there is no context,
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// which implies no program is loaded.
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func (v *VM) Context() *Context {
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if v.istack.Len() == 0 {
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return nil
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}
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return v.istack.Peek(0).value.Value().(*Context)
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}
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// PopResult is used to pop the first item of the evaluation stack. This allows
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// us to test compiler and vm in a bi-directional way.
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func (v *VM) PopResult() interface{} {
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return v.estack.Pop().value.Value()
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}
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// Stack returns json formatted representation of the given stack.
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func (v *VM) Stack(n string) string {
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var s *Stack
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if n == "astack" {
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s = v.astack
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}
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if n == "istack" {
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s = v.istack
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}
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if n == "estack" {
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s = v.estack
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}
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return buildStackOutput(s)
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}
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// Ready return true if the VM ready to execute the loaded program.
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// Will return false if no program is loaded.
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func (v *VM) Ready() bool {
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return v.istack.Len() > 0
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}
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// Run starts the execution of the loaded program.
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func (v *VM) Run() {
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if !v.Ready() {
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fmt.Println("no program loaded")
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return
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}
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v.state = noneState
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for {
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switch {
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case v.state.HasFlag(haltState):
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if !v.mute {
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fmt.Println(v.Stack("estack"))
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}
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return
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case v.state.HasFlag(breakState):
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ctx := v.Context()
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i, op := ctx.CurrInstr()
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fmt.Printf("at breakpoint %d (%s)\n", i, op.String())
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return
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case v.state.HasFlag(faultState):
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fmt.Println("FAULT")
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return
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case v.state == noneState:
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v.Step()
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}
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}
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}
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// Step 1 instruction in the program.
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func (v *VM) Step() {
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ctx := v.Context()
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op := ctx.Next()
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v.execute(ctx, op)
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// re-peek the context as it could been changed during execution.
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cctx := v.Context()
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if cctx != nil && cctx.atBreakPoint() {
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v.state = breakState
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}
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}
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// execute performs an instruction cycle in the VM. Acting on the instruction (opcode).
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func (v *VM) execute(ctx *Context, op Instruction) {
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// Instead of polluting the whole VM logic with error handling, we will recover
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// each panic at a central point, putting the VM in a fault state.
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defer func() {
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if err := recover(); err != nil {
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log.Printf("error encountered at instruction %d (%s)", ctx.ip, op)
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log.Println(err)
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v.state = faultState
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}
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}()
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if op >= PUSHBYTES1 && op <= PUSHBYTES75 {
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b := ctx.readBytes(int(op))
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v.estack.PushVal(b)
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return
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}
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switch op {
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case PUSHM1, PUSH1, PUSH2, PUSH3, PUSH4, PUSH5,
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PUSH6, PUSH7, PUSH8, PUSH9, PUSH10, PUSH11,
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PUSH12, PUSH13, PUSH14, PUSH15, PUSH16:
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val := int(op) - int(PUSH1) + 1
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v.estack.PushVal(val)
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case PUSH0:
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v.estack.PushVal(0)
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case PUSHDATA1:
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n := ctx.readByte()
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b := ctx.readBytes(int(n))
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v.estack.PushVal(b)
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case PUSHDATA2:
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n := ctx.readUint16()
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b := ctx.readBytes(int(n))
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v.estack.PushVal(b)
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case PUSHDATA4:
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n := ctx.readUint32()
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b := ctx.readBytes(int(n))
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v.estack.PushVal(b)
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// Stack operations.
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case TOALTSTACK:
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v.astack.Push(v.estack.Pop())
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case FROMALTSTACK:
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v.estack.Push(v.astack.Pop())
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case DUPFROMALTSTACK:
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v.estack.Push(v.astack.Dup(0))
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case DUP:
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v.estack.Push(v.estack.Dup(0))
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case SWAP:
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a := v.estack.Pop()
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b := v.estack.Pop()
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v.estack.Push(a)
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v.estack.Push(b)
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case XSWAP:
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n := int(v.estack.Pop().BigInt().Int64())
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if n < 0 {
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panic("XSWAP: invalid length")
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}
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// Swap values of elements instead of reordering stack elements.
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if n > 0 {
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a := v.estack.Peek(n)
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b := v.estack.Peek(0)
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aval := a.value
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bval := b.value
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a.value = bval
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b.value = aval
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}
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case TUCK:
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n := int(v.estack.Pop().BigInt().Int64())
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if n <= 0 {
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panic("OTUCK: invalid length")
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}
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v.estack.InsertAt(v.estack.Peek(0), n)
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case ROT:
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c := v.estack.Pop()
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b := v.estack.Pop()
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a := v.estack.Pop()
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v.estack.Push(b)
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v.estack.Push(c)
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v.estack.Push(a)
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case DEPTH:
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v.estack.PushVal(v.estack.Len())
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case NIP:
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elem := v.estack.Pop()
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_ = v.estack.Pop()
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v.estack.Push(elem)
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case OVER:
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b := v.estack.Pop()
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a := v.estack.Peek(0)
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v.estack.Push(b)
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v.estack.Push(a)
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case ROLL:
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n := int(v.estack.Pop().BigInt().Int64())
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if n < 0 {
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panic("negative stack item returned")
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}
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if n > 0 {
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v.estack.Push(v.estack.RemoveAt(n))
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}
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case DROP:
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v.estack.Pop()
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case EQUAL:
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b := v.estack.Pop()
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a := v.estack.Pop()
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v.estack.PushVal(reflect.DeepEqual(a,b))
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// Bit operations.
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case AND:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).And(b, a))
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case OR:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Or(b, a))
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case XOR:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Xor(b, a))
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// Numeric operations.
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case ADD:
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a := v.estack.Pop().BigInt()
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b := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Add(a, b))
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case SUB:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Sub(a, b))
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case DIV:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Div(a, b))
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case MUL:
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a := v.estack.Pop().BigInt()
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b := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Mul(a, b))
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case MOD:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Mod(a, b))
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case SHL:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Lsh(a, uint(b.Int64())))
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case SHR:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Rsh(a, uint(b.Int64())))
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case BOOLAND:
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b := v.estack.Pop().Bool()
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a := v.estack.Pop().Bool()
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v.estack.PushVal(a && b)
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case BOOLOR:
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b := v.estack.Pop().Bool()
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a := v.estack.Pop().Bool()
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v.estack.PushVal(a || b)
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case NUMEQUAL:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(a.Cmp(b) == 0)
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case NUMNOTEQUAL:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(a.Cmp(b) != 0)
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case LT:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(a.Cmp(b) == -1)
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case GT:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(a.Cmp(b) == 1)
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case LTE:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(a.Cmp(b) <= 0)
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case GTE:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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v.estack.PushVal(a.Cmp(b) >= 0)
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case MIN:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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val := a
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if a.Cmp(b) == 1 {
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val = b
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}
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v.estack.PushVal(val)
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case MAX:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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val := a
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if a.Cmp(b) == -1 {
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val = b
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}
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v.estack.PushVal(val)
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case WITHIN:
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b := v.estack.Pop().BigInt()
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a := v.estack.Pop().BigInt()
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x := v.estack.Pop().BigInt()
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v.estack.PushVal(a.Cmp(x) <= 0 && x.Cmp(b) == -1)
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case INC:
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x := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Add(x, big.NewInt(1)))
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case DEC:
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x := v.estack.Pop().BigInt()
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v.estack.PushVal(new(big.Int).Sub(x, big.NewInt(1)))
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case SIGN:
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x := v.estack.Pop().BigInt()
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v.estack.PushVal(x.Sign())
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case NEGATE:
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x := v.estack.Pop().BigInt()
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v.estack.PushVal(x.Neg(x))
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case ABS:
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x := v.estack.Pop().BigInt()
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v.estack.PushVal(x.Abs(x))
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case NOT:
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x := v.estack.Pop().Bool()
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v.estack.PushVal(!x)
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case NZ:
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panic("todo NZ")
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// x := v.estack.Pop().BigInt()
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// Object operations.
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case NEWARRAY:
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n := v.estack.Pop().BigInt().Int64()
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items := make([]StackItem, n)
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v.estack.PushVal(&ArrayItem{items})
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case NEWSTRUCT:
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n := v.estack.Pop().BigInt().Int64()
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items := make([]StackItem, n)
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v.estack.PushVal(&StructItem{items})
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case APPEND:
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itemElem := v.estack.Pop()
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arrElem := v.estack.Pop()
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switch t := arrElem.value.(type) {
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case *ArrayItem, *StructItem:
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arr := t.Value().([]StackItem)
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arr = append(arr, itemElem.value)
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v.estack.PushVal(arr)
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case *ByteArrayItem:
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newVal := append(t.value, itemElem.value.Value().([]byte)...)
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v.estack.PushVal(newVal)
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default:
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panic("APPEND: not of underlying type Array")
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}
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case REVERSE:
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case REMOVE:
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case PACK:
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n := int(v.estack.Pop().BigInt().Int64())
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if n < 0 || n > v.estack.Len() {
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panic("OPACK: invalid length")
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}
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items := make([]StackItem, n)
|
|
for i := 0; i < n; i++ {
|
|
items[i] = v.estack.Pop().value
|
|
}
|
|
|
|
v.estack.PushVal(items)
|
|
|
|
case UNPACK:
|
|
panic("TODO")
|
|
|
|
case PICKITEM:
|
|
var (
|
|
key = v.estack.Pop()
|
|
obj = v.estack.Pop()
|
|
index = int(key.BigInt().Int64())
|
|
)
|
|
|
|
switch t := obj.value.(type) {
|
|
// Struct and Array items have their underlying value as []StackItem.
|
|
case *ArrayItem, *StructItem:
|
|
arr := t.Value().([]StackItem)
|
|
if index < 0 || index >= len(arr) {
|
|
panic("PICKITEM: invalid index")
|
|
}
|
|
item := arr[index]
|
|
v.estack.PushVal(item)
|
|
default:
|
|
panic("PICKITEM: unknown type")
|
|
}
|
|
|
|
case SETITEM:
|
|
var (
|
|
item = v.estack.Pop().value
|
|
key = v.estack.Pop()
|
|
obj = v.estack.Pop()
|
|
index = int(key.BigInt().Int64())
|
|
)
|
|
|
|
switch t := obj.value.(type) {
|
|
// Struct and Array items have their underlying value as []StackItem.
|
|
case *ArrayItem, *StructItem:
|
|
arr := t.Value().([]StackItem)
|
|
if index < 0 || index >= len(arr) {
|
|
panic("SETITEM: invalid index")
|
|
}
|
|
arr[index] = item
|
|
default:
|
|
panic(fmt.Sprintf("SETITEM: invalid item type %s", t))
|
|
}
|
|
|
|
case ARRAYSIZE:
|
|
elem := v.estack.Pop()
|
|
// Cause there is no native (byte) item type here, hence we need to check
|
|
// the type of the item for array size operations.
|
|
switch t := elem.value.Value().(type) {
|
|
case []StackItem:
|
|
v.estack.PushVal(len(t))
|
|
case []uint8:
|
|
v.estack.PushVal(len(t))
|
|
default:
|
|
panic("ARRAYSIZE: item not of type []StackItem")
|
|
}
|
|
|
|
case SIZE:
|
|
elem := v.estack.Pop()
|
|
arr, ok := elem.value.Value().([]uint8)
|
|
if !ok {
|
|
panic("SIZE: item not of type []uint8")
|
|
}
|
|
v.estack.PushVal(len(arr))
|
|
|
|
case JMP, JMPIF, JMPIFNOT:
|
|
var (
|
|
rOffset = int16(ctx.readUint16())
|
|
offset = ctx.ip + int(rOffset) - 3 // sizeOf(int16 + uint8)
|
|
)
|
|
if offset < 0 || offset > len(ctx.prog) {
|
|
panic(fmt.Sprintf("JMP: invalid offset %d ip at %d", offset, ctx.ip))
|
|
}
|
|
cond := true
|
|
if op > JMP {
|
|
cond = v.estack.Pop().Bool()
|
|
if op == JMPIFNOT {
|
|
cond = !cond
|
|
}
|
|
}
|
|
if cond {
|
|
ctx.ip = offset
|
|
}
|
|
|
|
case CALL:
|
|
v.istack.PushVal(ctx.Copy())
|
|
ctx.ip += 2
|
|
v.execute(v.Context(), JMP)
|
|
|
|
case SYSCALL:
|
|
api := ctx.readVarBytes()
|
|
ifunc, ok := v.interop[string(api)]
|
|
if !ok {
|
|
panic(fmt.Sprintf("interop hook (%s) not registered", api))
|
|
}
|
|
if err := ifunc(v); err != nil {
|
|
panic(fmt.Sprintf("failed to invoke syscall: %s", err))
|
|
}
|
|
|
|
case APPCALL, TAILCALL:
|
|
if len(v.scripts) == 0 {
|
|
panic("script table is empty")
|
|
}
|
|
|
|
hash, err := util.Uint160DecodeBytes(ctx.readBytes(20))
|
|
if err != nil {
|
|
panic(err)
|
|
}
|
|
|
|
script, ok := v.scripts[hash]
|
|
if !ok {
|
|
panic("could not find script")
|
|
}
|
|
|
|
if op == TAILCALL {
|
|
_ = v.istack.Pop()
|
|
}
|
|
|
|
v.LoadScript(script)
|
|
|
|
case RET:
|
|
_ = v.istack.Pop()
|
|
if v.istack.Len() == 0 {
|
|
v.state = haltState
|
|
}
|
|
|
|
// Cryptographic operations.
|
|
case SHA1:
|
|
b := v.estack.Pop().Bytes()
|
|
sha := sha1.New()
|
|
sha.Write(b)
|
|
v.estack.PushVal(sha.Sum(nil))
|
|
|
|
case SHA256:
|
|
b := v.estack.Pop().Bytes()
|
|
v.estack.PushVal(hash.Sha256(b).Bytes())
|
|
|
|
case HASH160:
|
|
b := v.estack.Pop().Bytes()
|
|
v.estack.PushVal(hash.Hash160(b).Bytes())
|
|
|
|
case HASH256:
|
|
b := v.estack.Pop().Bytes()
|
|
v.estack.PushVal(hash.DoubleSha256(b).Bytes())
|
|
|
|
case CHECKSIG:
|
|
// pubkey := v.estack.Pop().Bytes()
|
|
// sig := v.estack.Pop().Bytes()
|
|
|
|
case CHECKMULTISIG:
|
|
|
|
case NOP:
|
|
// unlucky ^^
|
|
|
|
case THROW:
|
|
panic("THROW")
|
|
|
|
case THROWIFNOT:
|
|
if !v.estack.Pop().Bool() {
|
|
panic("THROWIFNOT")
|
|
}
|
|
|
|
default:
|
|
panic(fmt.Sprintf("unknown opcode %s", op.String()))
|
|
}
|
|
}
|
|
|
|
func init() {
|
|
log.SetPrefix("NEO-GO-VM > ")
|
|
log.SetFlags(0)
|
|
}
|