neo-go/pkg/vm/json_test.go

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package vm
import (
"bytes"
"encoding/base64"
"encoding/binary"
"encoding/hex"
"encoding/json"
"fmt"
"io/ioutil"
"math/big"
"os"
"path/filepath"
"strings"
"testing"
"github.com/nspcc-dev/neo-go/pkg/vm/emit"
"github.com/nspcc-dev/neo-go/pkg/vm/opcode"
"github.com/stretchr/testify/require"
)
type (
vmUT struct {
Category string `json:"category"`
Name string `json:"name"`
Tests []vmUTEntry `json:"tests"`
}
vmUTActionType string
vmUTEntry struct {
Name string
Script vmUTScript
Steps []vmUTStep
}
vmUTExecutionContextState struct {
Instruction string `json:"nextInstruction"`
InstructionPointer int `json:"instructionPointer"`
AStack []vmUTStackItem `json:"altStack"`
EStack []vmUTStackItem `json:"evaluationStack"`
}
vmUTExecutionEngineState struct {
State vmUTState `json:"state"`
ResultStack []vmUTStackItem `json:"resultStack"`
InvocationStack []vmUTExecutionContextState `json:"invocationStack"`
}
vmUTScript []byte
vmUTStackItem struct {
Type vmUTStackItemType
Value interface{}
}
vmUTStep struct {
Actions []vmUTActionType `json:"actions"`
Result vmUTExecutionEngineState `json:"result"`
}
vmUTState State
vmUTStackItemType string
)
// stackItemAUX is used as an intermediate structure
// to conditionally unmarshal vmUTStackItem based
// on the value of Type field.
type stackItemAUX struct {
Type vmUTStackItemType `json:"type"`
Value json.RawMessage `json:"value"`
}
const (
vmExecute vmUTActionType = "Execute"
vmStepInto vmUTActionType = "StepInto"
vmStepOut vmUTActionType = "StepOut"
vmStepOver vmUTActionType = "StepOver"
typeArray vmUTStackItemType = "Array"
typeBoolean vmUTStackItemType = "Boolean"
typeByteArray vmUTStackItemType = "ByteArray"
typeInteger vmUTStackItemType = "Integer"
typeInterop vmUTStackItemType = "Interop"
typeMap vmUTStackItemType = "Map"
typeString vmUTStackItemType = "String"
typeStruct vmUTStackItemType = "Struct"
testsDir = "testdata/neo-vm/tests/neo-vm.Tests/Tests/"
)
func TestUT(t *testing.T) {
t.Skip()
testsRan := false
err := filepath.Walk(testsDir, func(path string, info os.FileInfo, err error) error {
if !strings.HasSuffix(path, ".json") {
return nil
}
testFile(t, path)
testsRan = true
return nil
})
require.NoError(t, err)
require.Equal(t, true, testsRan, "neo-vm tests should be available (check submodules)")
}
func getTestingInterop(id uint32) *InteropFuncPrice {
if id == binary.LittleEndian.Uint32([]byte{0x77, 0x77, 0x77, 0x77}) {
return &InteropFuncPrice{InteropFunc(func(v *VM) error {
v.estack.Push(&Element{value: (*InteropItem)(nil)})
return nil
}), 0}
}
return nil
}
func testFile(t *testing.T, filename string) {
data, err := ioutil.ReadFile(filename)
require.NoError(t, err)
ut := new(vmUT)
require.NoError(t, json.Unmarshal(data, ut))
t.Run(ut.Category+":"+ut.Name, func(t *testing.T) {
for i := range ut.Tests {
test := ut.Tests[i]
t.Run(ut.Tests[i].Name, func(t *testing.T) {
prog := []byte(test.Script)
vm := load(prog)
vm.state = breakState
vm.RegisterInteropGetter(getTestingInterop)
for i := range test.Steps {
execStep(t, vm, test.Steps[i])
result := test.Steps[i].Result
require.Equal(t, State(result.State), vm.state)
if result.State == vmUTState(faultState) { // do not compare stacks on fault
continue
}
if len(result.InvocationStack) > 0 {
for i, s := range result.InvocationStack {
ctx := vm.istack.Peek(i).Value().(*Context)
if ctx.nextip < len(ctx.prog) {
require.Equal(t, s.InstructionPointer, ctx.nextip)
require.Equal(t, s.Instruction, opcode.Opcode(ctx.prog[ctx.nextip]).String())
}
compareStacks(t, s.EStack, vm.estack)
compareStacks(t, s.AStack, vm.astack)
}
}
if len(result.ResultStack) != 0 {
compareStacks(t, result.ResultStack, vm.estack)
}
}
})
}
})
}
func compareItems(t *testing.T, a, b StackItem) {
switch si := a.(type) {
case *BigIntegerItem:
val := si.value.Int64()
switch ac := b.(type) {
case *BigIntegerItem:
require.Equal(t, val, ac.value.Int64())
case *ByteArrayItem:
require.Equal(t, val, emit.BytesToInt(ac.value).Int64())
case *BoolItem:
if ac.value {
require.Equal(t, val, int64(1))
} else {
require.Equal(t, val, int64(0))
}
default:
require.Fail(t, "wrong type")
}
default:
require.Equal(t, a, b)
}
}
func compareStacks(t *testing.T, expected []vmUTStackItem, actual *Stack) {
if expected == nil {
return
}
require.Equal(t, len(expected), actual.Len())
for i, item := range expected {
e := actual.Peek(i)
require.NotNil(t, e)
if item.Type == typeInterop {
require.IsType(t, (*InteropItem)(nil), e.value)
continue
}
compareItems(t, item.toStackItem(), e.value)
}
}
func (v *vmUTStackItem) toStackItem() StackItem {
switch v.Type {
case typeArray:
items := v.Value.([]vmUTStackItem)
result := make([]StackItem, len(items))
for i := range items {
result[i] = items[i].toStackItem()
}
return &ArrayItem{
value: result,
}
case typeString:
panic("not implemented")
case typeMap:
items := v.Value.(map[string]vmUTStackItem)
result := NewMapItem()
for k, v := range items {
var item vmUTStackItem
_ = json.Unmarshal([]byte(`"`+k+`"`), &item)
result.Add(item.toStackItem(), v.toStackItem())
}
return result
case typeInterop:
panic("not implemented")
case typeByteArray:
return &ByteArrayItem{
v.Value.([]byte),
}
case typeBoolean:
return &BoolItem{
v.Value.(bool),
}
case typeInteger:
return &BigIntegerItem{
value: v.Value.(*big.Int),
}
case typeStruct:
items := v.Value.([]vmUTStackItem)
result := make([]StackItem, len(items))
for i := range items {
result[i] = items[i].toStackItem()
}
return &StructItem{
value: result,
}
default:
panic("invalid type")
}
}
func execStep(t *testing.T, v *VM, step vmUTStep) {
for i, a := range step.Actions {
var err error
switch a {
case vmExecute:
err = v.Run()
case vmStepInto:
err = v.StepInto()
case vmStepOut:
err = v.StepOut()
case vmStepOver:
err = v.StepOver()
default:
panic(fmt.Sprintf("invalid action: %s", a))
}
// only the last action is allowed to fail
if i+1 < len(step.Actions) {
require.NoError(t, err)
}
}
}
func (v *vmUTState) UnmarshalJSON(data []byte) error {
switch s := string(data); s {
case `"Break"`:
*v = vmUTState(breakState)
case `"Fault"`:
*v = vmUTState(faultState)
case `"Halt"`:
*v = vmUTState(haltState)
default:
panic(fmt.Sprintf("invalid state: %s", s))
}
return nil
}
func (v *vmUTScript) UnmarshalJSON(data []byte) error {
b, err := decodeBytes(data)
if err != nil {
return err
}
*v = vmUTScript(b)
return nil
}
func (v *vmUTActionType) UnmarshalJSON(data []byte) error {
return json.Unmarshal(data, (*string)(v))
}
func (v *vmUTStackItem) UnmarshalJSON(data []byte) error {
var si stackItemAUX
if err := json.Unmarshal(data, &si); err != nil {
return err
}
v.Type = si.Type
switch si.Type {
case typeArray, typeStruct:
var a []vmUTStackItem
if err := json.Unmarshal(si.Value, &a); err != nil {
return err
}
v.Value = a
case typeInteger:
num := new(big.Int)
var a int64
var s string
if err := json.Unmarshal(si.Value, &a); err == nil {
num.SetInt64(a)
} else if err := json.Unmarshal(si.Value, &s); err == nil {
num.SetString(s, 10)
} else {
panic(fmt.Sprintf("invalid integer: %v", si.Value))
}
v.Value = num
case typeBoolean:
var b bool
if err := json.Unmarshal(si.Value, &b); err != nil {
return err
}
v.Value = b
case typeByteArray:
b, err := decodeBytes(si.Value)
if err != nil {
return err
}
v.Value = b
case typeInterop:
v.Value = nil
case typeMap:
var m map[string]vmUTStackItem
if err := json.Unmarshal(si.Value, &m); err != nil {
return err
}
v.Value = m
case typeString:
panic("not implemented")
default:
panic(fmt.Sprintf("unknown type: %s", si.Type))
}
return nil
}
// decodeBytes tries to decode bytes from string.
// It tries hex and base64 encodings.
func decodeBytes(data []byte) ([]byte, error) {
if len(data) == 2 {
return []byte{}, nil
}
hdata := data[3 : len(data)-1]
if b, err := hex.DecodeString(string(hdata)); err == nil {
return b, nil
}
data = data[1 : len(data)-1]
r := base64.NewDecoder(base64.StdEncoding, bytes.NewReader(data))
return ioutil.ReadAll(r)
}