package stackitem import ( "bytes" "encoding/base64" "encoding/json" "errors" "fmt" gio "io" "math/big" "strconv" "strings" ) // decoder is a wrapper around json.Decoder helping to mimic C# json decoder behavior. type decoder struct { json.Decoder count int depth int // bestIntPrecision denotes whether maximum allowed integer precision should // be used to parse big.Int items. If false, then default NeoC# value will be // used which doesn't allow to precisely parse big values. This behaviour is // managed by the config.HFBasilisk. bestIntPrecision bool } // MaxAllowedInteger is the maximum integer allowed to be encoded. const MaxAllowedInteger = 2<<53 - 1 // MaxJSONDepth is the maximum allowed nesting level of an encoded/decoded JSON. const MaxJSONDepth = 10 const ( // MaxIntegerPrec is the maximum precision allowed for big.Integer parsing. // It allows to properly parse integer numbers that our 256-bit VM is able to // handle. MaxIntegerPrec = 1<<8 + 1 // CompatIntegerPrec is the maximum precision allowed for big.Integer parsing // by the C# node before the Basilisk hardfork. It doesn't allow to precisely // parse big numbers, see the https://github.com/neo-project/neo/issues/2879. CompatIntegerPrec = 53 ) // ErrInvalidValue is returned when an item value doesn't fit some constraints // during serialization or deserialization. var ErrInvalidValue = errors.New("invalid value") // ErrTooDeep is returned when JSON encoder/decoder goes beyond MaxJSONDepth in // its processing. var ErrTooDeep = errors.New("too deep") // ToJSON encodes Item to JSON. // It behaves as following: // // ByteArray -> base64 string // BigInteger -> number // Bool -> bool // Null -> null // Array, Struct -> array // Map -> map with keys as UTF-8 bytes func ToJSON(item Item) ([]byte, error) { seen := make(map[Item]sliceNoPointer, typicalNumOfItems) return toJSON(nil, seen, item) } // sliceNoPointer represents a sub-slice of a known slice. // It doesn't contain any pointer and uses the same amount of memory as `[]byte`, // but at the same type has additional information about the number of items in // the stackitem (including the stackitem itself). type sliceNoPointer struct { start, end int itemsCount int } func toJSON(data []byte, seen map[Item]sliceNoPointer, item Item) ([]byte, error) { if len(data) > MaxSize { return nil, errTooBigSize } if old, ok := seen[item]; ok { if len(data)+old.end-old.start > MaxSize { return nil, errTooBigSize } return append(data, data[old.start:old.end]...), nil } start := len(data) var err error switch it := item.(type) { case *Array, *Struct: var items []Item if a, ok := it.(*Array); ok { items = a.value } else { items = it.(*Struct).value } data = append(data, '[') for i, v := range items { data, err = toJSON(data, seen, v) if err != nil { return nil, err } if i < len(items)-1 { data = append(data, ',') } } data = append(data, ']') seen[item] = sliceNoPointer{start: start, end: len(data)} case *Map: data = append(data, '{') for i := range it.value { // map key can always be converted to []byte // but are not always a valid UTF-8. raw, err := itemToJSONString(it.value[i].Key) if err != nil { return nil, err } data = append(data, raw...) data = append(data, ':') data, err = toJSON(data, seen, it.value[i].Value) if err != nil { return nil, err } if i < len(it.value)-1 { data = append(data, ',') } } data = append(data, '}') seen[item] = sliceNoPointer{start: start, end: len(data)} case *BigInteger: if it.Big().CmpAbs(big.NewInt(MaxAllowedInteger)) == 1 { return nil, fmt.Errorf("%w (MaxAllowedInteger)", ErrInvalidValue) } data = append(data, it.Big().String()...) case *ByteArray, *Buffer: raw, err := itemToJSONString(it) if err != nil { return nil, err } data = append(data, raw...) case Bool: if it { data = append(data, "true"...) } else { data = append(data, "false"...) } case Null: data = append(data, "null"...) default: return nil, fmt.Errorf("%w: %s", ErrUnserializable, it.String()) } if len(data) > MaxSize { return nil, errTooBigSize } return data, nil } // itemToJSONString converts it to a string // in quotation marks with control characters escaped. func itemToJSONString(it Item) ([]byte, error) { s, err := ToString(it) if err != nil { return nil, err } data, _ := json.Marshal(s) // error never occurs because `ToString` checks for validity // ref https://github.com/neo-project/neo-modules/issues/375 and https://github.com/dotnet/runtime/issues/35281 return bytes.Replace(data, []byte{'+'}, []byte("\\u002B"), -1), nil } // FromJSON decodes an Item from JSON. // It behaves as following: // // string -> ByteArray from base64 // number -> BigInteger // bool -> Bool // null -> Null // array -> Array // map -> Map, keys are UTF-8 func FromJSON(data []byte, maxCount int, bestIntPrecision bool) (Item, error) { d := decoder{ Decoder: *json.NewDecoder(bytes.NewReader(data)), count: maxCount, bestIntPrecision: bestIntPrecision, } d.UseNumber() item, err := d.decode() if err != nil { return nil, err } _, err = d.Token() if !errors.Is(err, gio.EOF) { return nil, fmt.Errorf("%w: unexpected items", ErrInvalidValue) } return item, nil } func (d *decoder) decode() (Item, error) { tok, err := d.Token() if err != nil { return nil, err } d.count-- if d.count < 0 && tok != json.Delim('}') && tok != json.Delim(']') { return nil, errTooBigElements } switch t := tok.(type) { case json.Delim: switch t { case json.Delim('{'), json.Delim('['): if d.depth == MaxJSONDepth { return nil, ErrTooDeep } d.depth++ var item Item if t == json.Delim('{') { item, err = d.decodeMap() } else { item, err = d.decodeArray() } d.depth-- return item, err default: d.count++ // no error above means corresponding closing token // was encountered for map or array respectively return nil, nil } case string: return NewByteArray([]byte(t)), nil case json.Number: ts := t.String() var ( num *big.Int ok bool ) isScientific := strings.Contains(ts, "e+") || strings.Contains(ts, "E+") if isScientific { // As a special case numbers like 2.8e+22 are allowed (SetString rejects them). // That's the way how C# code works. var prec uint = CompatIntegerPrec if d.bestIntPrecision { prec = MaxIntegerPrec } f, _, err := big.ParseFloat(ts, 10, prec, big.ToNearestEven) if err != nil { return nil, fmt.Errorf("%w (malformed exp value for int)", ErrInvalidValue) } num = new(big.Int) _, acc := f.Int(num) ok = acc == big.Exact } else { dot := strings.IndexByte(ts, '.') if dot != -1 { // As a special case numbers like 123.000 are allowed (SetString rejects them). // And yes, that's the way C# code works also. for _, r := range ts[dot+1:] { if r != '0' { return nil, fmt.Errorf("%w (real value for int)", ErrInvalidValue) } } ts = ts[:dot] } num, ok = new(big.Int).SetString(ts, 10) } if !ok { return nil, fmt.Errorf("%w (integer)", ErrInvalidValue) } return NewBigInteger(num), nil case bool: return NewBool(t), nil default: // it can be only `nil` return Null{}, nil } } func (d *decoder) decodeArray() (*Array, error) { items := []Item{} for { item, err := d.decode() if err != nil { return nil, err } if item == nil { return NewArray(items), nil } items = append(items, item) } } func (d *decoder) decodeMap() (*Map, error) { m := NewMap() for { key, err := d.Token() if err != nil { return nil, err } k, ok := key.(string) if !ok { return m, nil } d.count-- if d.count < 0 { return nil, errTooBigElements } val, err := d.decode() if err != nil { return nil, err } m.Add(NewByteArray([]byte(k)), val) } } // ToJSONWithTypes serializes any stackitem to JSON in a lossless way. func ToJSONWithTypes(item Item) ([]byte, error) { return toJSONWithTypes(nil, item, make(map[Item]sliceNoPointer, typicalNumOfItems)) } func toJSONWithTypes(data []byte, item Item, seen map[Item]sliceNoPointer) ([]byte, error) { if item == nil { return nil, fmt.Errorf("%w: nil", ErrUnserializable) } if old, ok := seen[item]; ok { if old.end == 0 { // Compound item marshaling which has not yet finished. return nil, ErrRecursive } if len(data)+old.end-old.start > MaxSize { return nil, errTooBigSize } return append(data, data[old.start:old.end]...), nil } var val string var hasValue bool switch item.(type) { case Null: val = `{"type":"Any"}` case *Interop: val = `{"type":"InteropInterface"}` default: val = `{"type":"` + item.Type().String() + `","value":` hasValue = true } if len(data)+len(val) > MaxSize { return nil, errTooBigSize } start := len(data) data = append(data, val...) if !hasValue { return data, nil } // Primitive stack items are appended after the switch // to reduce the amount of size checks. var primitive string var isBuffer bool var err error switch it := item.(type) { case *Array, *Struct: seen[item] = sliceNoPointer{} data = append(data, '[') for i, elem := range it.Value().([]Item) { if i != 0 { data = append(data, ',') } data, err = toJSONWithTypes(data, elem, seen) if err != nil { return nil, err } } case Bool: if it { primitive = "true" } else { primitive = "false" } case *ByteArray: primitive = `"` + base64.StdEncoding.EncodeToString(it.Value().([]byte)) + `"` case *Buffer: isBuffer = true primitive = `"` + base64.StdEncoding.EncodeToString(it.Value().([]byte)) + `"` case *BigInteger: primitive = `"` + it.Big().String() + `"` case *Map: seen[item] = sliceNoPointer{} data = append(data, '[') for i := range it.value { if i != 0 { data = append(data, ',') } data = append(data, `{"key":`...) data, err = toJSONWithTypes(data, it.value[i].Key, seen) if err != nil { return nil, err } data = append(data, `,"value":`...) data, err = toJSONWithTypes(data, it.value[i].Value, seen) if err != nil { return nil, err } data = append(data, '}') } case *Pointer: primitive = strconv.Itoa(it.pos) } if len(primitive) != 0 { if len(data)+len(primitive)+1 > MaxSize { return nil, errTooBigSize } data = append(data, primitive...) data = append(data, '}') if isBuffer { seen[item] = sliceNoPointer{start: start, end: len(data)} } } else { if len(data)+2 > MaxSize { // also take care of '}' return nil, errTooBigSize } data = append(data, ']', '}') seen[item] = sliceNoPointer{start: start, end: len(data)} } return data, nil } type ( rawItem struct { Type string `json:"type"` Value json.RawMessage `json:"value,omitempty"` } rawMapElement struct { Key json.RawMessage `json:"key"` Value json.RawMessage `json:"value"` } ) func mkErrValue(err error) error { return fmt.Errorf("%w: %w", ErrInvalidValue, err) } // FromJSONWithTypes deserializes an item from typed-json representation. func FromJSONWithTypes(data []byte) (Item, error) { raw := new(rawItem) if err := json.Unmarshal(data, raw); err != nil { return nil, err } typ, err := FromString(raw.Type) if err != nil { return nil, fmt.Errorf("%w: %v", ErrInvalidType, raw.Type) } switch typ { case AnyT: return Null{}, nil case PointerT: var pos int if err := json.Unmarshal(raw.Value, &pos); err != nil { return nil, mkErrValue(err) } return NewPointer(pos, nil), nil case BooleanT: var b bool if err := json.Unmarshal(raw.Value, &b); err != nil { return nil, mkErrValue(err) } return NewBool(b), nil case IntegerT: var s string if err := json.Unmarshal(raw.Value, &s); err != nil { return nil, mkErrValue(err) } val, ok := new(big.Int).SetString(s, 10) if !ok { return nil, mkErrValue(errors.New("not an integer")) } return NewBigInteger(val), nil case ByteArrayT, BufferT: var s string if err := json.Unmarshal(raw.Value, &s); err != nil { return nil, mkErrValue(err) } val, err := base64.StdEncoding.DecodeString(s) if err != nil { return nil, mkErrValue(err) } if typ == ByteArrayT { return NewByteArray(val), nil } return NewBuffer(val), nil case ArrayT, StructT: var arr []json.RawMessage if err := json.Unmarshal(raw.Value, &arr); err != nil { return nil, mkErrValue(err) } items := make([]Item, len(arr)) for i := range arr { it, err := FromJSONWithTypes(arr[i]) if err != nil { return nil, err } items[i] = it } if typ == ArrayT { return NewArray(items), nil } return NewStruct(items), nil case MapT: var arr []rawMapElement if err := json.Unmarshal(raw.Value, &arr); err != nil { return nil, mkErrValue(err) } m := NewMap() for i := range arr { key, err := FromJSONWithTypes(arr[i].Key) if err != nil { return nil, err } else if err = IsValidMapKey(key); err != nil { return nil, err } value, err := FromJSONWithTypes(arr[i].Value) if err != nil { return nil, err } m.Add(key, value) } return m, nil case InteropT: return NewInterop(nil), nil default: return nil, fmt.Errorf("%w: %v", ErrInvalidType, typ) } }