forked from TrueCloudLab/neoneo-go
33c512032f
Which matches the changes done in neo-storm and also make this codebase closer to the `dev` branch (that also uses Instruction).
723 lines
15 KiB
Go
723 lines
15 KiB
Go
package vm
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import (
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"crypto/sha1"
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"crypto/sha256"
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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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"github.com/CityOfZion/neo-go/pkg/util"
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"golang.org/x/crypto/ripemd160"
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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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panic("TODO EQUAL")
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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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|
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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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|
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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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|
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items := make([]StackItem, n)
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for i := 0; i < n; i++ {
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items[i] = v.estack.Pop().value
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}
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v.estack.PushVal(items)
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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()
|
|
sha := sha256.New()
|
|
sha.Write(b)
|
|
v.estack.PushVal(sha.Sum(nil))
|
|
|
|
case HASH160:
|
|
b := v.estack.Pop().Bytes()
|
|
sha := sha256.New()
|
|
sha.Write(b)
|
|
h := sha.Sum(nil)
|
|
ripemd := ripemd160.New()
|
|
ripemd.Write(h)
|
|
v.estack.PushVal(ripemd.Sum(nil))
|
|
|
|
case HASH256:
|
|
b := v.estack.Pop().Bytes()
|
|
sha := sha256.New()
|
|
sha.Write(b)
|
|
h := sha.Sum(nil)
|
|
sha.Reset()
|
|
sha.Write(h)
|
|
v.estack.PushVal(sha.Sum(nil))
|
|
|
|
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)
|
|
}
|