# This file is part of the Trezor project. # # Copyright (C) 2012-2019 SatoshiLabs and contributors # # This library is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License version 3 # as published by the Free Software Foundation. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Lesser General Public License for more details. # # You should have received a copy of the License along with this library. # If not, see . """ Extremely minimal streaming codec for a subset of protobuf. Supports uint32, bytes, string, embedded message and repeated fields. For de-serializing (loading) protobuf types, object with `Reader` interface is required. For serializing (dumping) protobuf types, object with `Writer` interface is required. """ import logging from io import BytesIO from typing import ( Any, Callable, Dict, Iterable, Iterator, List, Optional, Tuple, Type, TypeVar, Union, ) from typing_extensions import Protocol FieldType = Union[ "EnumType", Type["MessageType"], Type["UVarintType"], Type["SVarintType"], Type["BoolType"], Type["UnicodeType"], Type["BytesType"], ] FieldInfo = Tuple[str, FieldType, int] MT = TypeVar("MT", bound="MessageType") class Reader(Protocol): def readinto(self, buffer: bytearray) -> int: """ Reads exactly `len(buffer)` bytes into `buffer`. Returns number of bytes read, or 0 if it cannot read that much. """ class Writer(Protocol): def write(self, buffer: bytes) -> int: """ Writes all bytes from `buffer`, or raises `EOFError` """ _UVARINT_BUFFER = bytearray(1) LOG = logging.getLogger(__name__) def load_uvarint(reader: Reader) -> int: buffer = _UVARINT_BUFFER result = 0 shift = 0 byte = 0x80 bytes_read = 0 while byte & 0x80: if reader.readinto(buffer) == 0: if bytes_read > 0: raise IOError("Interrupted UVarint") else: raise EOFError bytes_read += 1 byte = buffer[0] result += (byte & 0x7F) << shift shift += 7 return result def dump_uvarint(writer: Writer, n: int) -> None: if n < 0: raise ValueError("Cannot dump signed value, convert it to unsigned first.") buffer = _UVARINT_BUFFER shifted = 1 while shifted: shifted = n >> 7 buffer[0] = (n & 0x7F) | (0x80 if shifted else 0x00) writer.write(buffer) n = shifted # protobuf interleaved signed encoding: # https://developers.google.com/protocol-buffers/docs/encoding#structure # the idea is to save the sign in LSbit instead of twos-complement. # so counting up, you go: 0, -1, 1, -2, 2, ... (as the first bit changes, sign flips) # # To achieve this with a twos-complement number: # 1. shift left by 1, leaving LSbit free # 2. if the number is negative, do bitwise negation. # This keeps positive number the same, and converts negative from twos-complement # to the appropriate value, while setting the sign bit. # # The original algorithm makes use of the fact that arithmetic (signed) shift # keeps the sign bits, so for a n-bit number, (x >> n) gets us "all sign bits". # Then you can take "number XOR all-sign-bits", which is XOR 0 (identity) for positive # and XOR 1 (bitwise negation) for negative. Cute and efficient. # # But this is harder in Python because we don't natively know the bit size of the number. # So we have to branch on whether the number is negative. def sint_to_uint(sint: int) -> int: res = sint << 1 if sint < 0: res = ~res return res def uint_to_sint(uint: int) -> int: sign = uint & 1 res = uint >> 1 if sign: res = ~res return res class UVarintType: WIRE_TYPE = 0 class SVarintType: WIRE_TYPE = 0 class BoolType: WIRE_TYPE = 0 class EnumType: WIRE_TYPE = 0 def __init__(self, enum_name: str, enum_values: Iterable[int]) -> None: self.enum_name = enum_name self.enum_values = enum_values def validate(self, fvalue: int) -> int: if fvalue not in self.enum_values: # raise TypeError("Invalid enum value") LOG.info("Value {} unknown for type {}".format(fvalue, self.enum_name)) return fvalue def to_str(self, fvalue: int) -> str: from . import messages module = getattr(messages, self.enum_name) for name in dir(module): if name.startswith("__"): continue if getattr(module, name) == fvalue: return name else: raise TypeError("Invalid enum value") def from_str(self, fstr: str) -> int: try: from . import messages module = getattr(messages, self.enum_name) ivalue = getattr(module, fstr) if isinstance(ivalue, int): return ivalue else: raise TypeError("Invalid enum value") except AttributeError: raise TypeError("Invalid enum value") from None class BytesType: WIRE_TYPE = 2 class UnicodeType: WIRE_TYPE = 2 class MessageType: WIRE_TYPE = 2 @classmethod def get_fields(cls) -> Dict[int, FieldInfo]: return {} @classmethod def get_field_type(cls, name: str) -> Optional[FieldType]: for fname, ftype, flags in cls.get_fields().values(): if fname == name: return ftype return None def __init__(self, **kwargs: Any) -> None: for kw in kwargs: setattr(self, kw, kwargs[kw]) self._fill_missing() def __eq__(self, rhs: Any) -> bool: return self.__class__ is rhs.__class__ and self.__dict__ == rhs.__dict__ def __repr__(self) -> str: d = {} for key, value in self.__dict__.items(): if value is None or value == []: continue d[key] = value return "<%s: %s>" % (self.__class__.__name__, d) def __iter__(self) -> Iterator[str]: return iter(self.keys()) def keys(self) -> Iterator[str]: return (name for name, _, _ in self.get_fields().values()) def __getitem__(self, key: str) -> Any: return getattr(self, key) def _fill_missing(self) -> None: # fill missing fields for fname, ftype, fflags in self.get_fields().values(): if not hasattr(self, fname): if fflags & FLAG_REPEATED: setattr(self, fname, []) else: setattr(self, fname, None) def ByteSize(self) -> int: data = BytesIO() dump_message(data, self) return len(data.getvalue()) class LimitedReader: def __init__(self, reader: Reader, limit: int) -> None: self.reader = reader self.limit = limit def readinto(self, buf: bytearray) -> int: if self.limit < len(buf): return 0 else: nread = self.reader.readinto(buf) self.limit -= nread return nread class CountingWriter: def __init__(self) -> None: self.size = 0 def write(self, buf: bytes) -> int: nwritten = len(buf) self.size += nwritten return nwritten FLAG_REPEATED = 1 def decode_packed_array_field(ftype: FieldType, reader: Reader) -> List[Any]: length = load_uvarint(reader) packed_reader = LimitedReader(reader, length) values = [] try: while True: values.append(decode_varint_field(ftype, packed_reader)) except EOFError: pass return values def decode_varint_field(ftype: FieldType, reader: Reader) -> Union[int, bool]: value = load_uvarint(reader) if ftype is UVarintType: return value elif ftype is SVarintType: return uint_to_sint(value) elif ftype is BoolType: return bool(value) elif isinstance(ftype, EnumType): return ftype.validate(value) else: raise TypeError # not a varint field or unknown type def decode_length_delimited_field( ftype: FieldType, reader: Reader ) -> Union[bytes, str, MessageType]: value = load_uvarint(reader) if ftype is BytesType: buf = bytearray(value) reader.readinto(buf) return bytes(buf) elif ftype is UnicodeType: buf = bytearray(value) reader.readinto(buf) return buf.decode() elif isinstance(ftype, type) and issubclass(ftype, MessageType): return load_message(LimitedReader(reader, value), ftype) else: raise TypeError # field type is unknown def load_message(reader: Reader, msg_type: Type[MT]) -> MT: fields = msg_type.get_fields() msg = msg_type() while True: try: fkey = load_uvarint(reader) except EOFError: break # no more fields to load ftag = fkey >> 3 wtype = fkey & 7 field = fields.get(ftag, None) if field is None: # unknown field, skip it if wtype == 0: load_uvarint(reader) elif wtype == 2: ivalue = load_uvarint(reader) reader.readinto(bytearray(ivalue)) else: raise ValueError continue fname, ftype, fflags = field if wtype == 2 and ftype.WIRE_TYPE == 0 and fflags & FLAG_REPEATED: # packed array fvalues = decode_packed_array_field(ftype, reader) elif wtype != ftype.WIRE_TYPE: raise TypeError # parsed wire type differs from the schema elif wtype == 2: fvalues = [decode_length_delimited_field(ftype, reader)] elif wtype == 0: fvalues = [decode_varint_field(ftype, reader)] else: raise TypeError # unknown wire type if fflags & FLAG_REPEATED: pvalue = getattr(msg, fname) pvalue.extend(fvalues) fvalue = pvalue elif len(fvalues) != 1: raise ValueError("Unexpected multiple values in non-repeating field") else: fvalue = fvalues[0] setattr(msg, fname, fvalue) return msg def dump_message(writer: Writer, msg: MessageType) -> None: repvalue = [0] mtype = msg.__class__ fields = mtype.get_fields() for ftag in fields: fname, ftype, fflags = fields[ftag] fvalue = getattr(msg, fname, None) if fvalue is None: continue fkey = (ftag << 3) | ftype.WIRE_TYPE if not fflags & FLAG_REPEATED: repvalue[0] = fvalue fvalue = repvalue for svalue in fvalue: dump_uvarint(writer, fkey) if ftype is UVarintType: dump_uvarint(writer, svalue) elif ftype is SVarintType: dump_uvarint(writer, sint_to_uint(svalue)) elif ftype is BoolType: dump_uvarint(writer, int(svalue)) elif isinstance(ftype, EnumType): dump_uvarint(writer, ftype.validate(svalue)) elif ftype is BytesType: dump_uvarint(writer, len(svalue)) writer.write(svalue) elif ftype is UnicodeType: svalue_bytes = svalue.encode() dump_uvarint(writer, len(svalue_bytes)) writer.write(svalue_bytes) elif issubclass(ftype, MessageType): counter = CountingWriter() dump_message(counter, svalue) dump_uvarint(writer, counter.size) dump_message(writer, svalue) else: raise TypeError def format_message( pb: MessageType, indent: int = 0, sep: str = " " * 4, truncate_after: Optional[int] = 256, truncate_to: Optional[int] = 64, ) -> str: def mostly_printable(bytes: bytes) -> bool: if not bytes: return True printable = sum(1 for byte in bytes if 0x20 <= byte <= 0x7E) return printable / len(bytes) > 0.8 def pformat(name: str, value: Any, indent: int) -> str: level = sep * indent leadin = sep * (indent + 1) ftype = pb.get_field_type(name) if isinstance(value, MessageType): return format_message(value, indent, sep) if isinstance(value, list): # short list of simple values if not value or isinstance(value, (UVarintType, SVarintType, BoolType)): return repr(value) # long list, one line per entry lines = ["[", level + "]"] lines[1:1] = [leadin + pformat(name, x, indent + 1) + "," for x in value] return "\n".join(lines) if isinstance(value, dict): lines = ["{"] for key, val in sorted(value.items()): if val is None or val == []: continue lines.append(leadin + key + ": " + pformat(key, val, indent + 1) + ",") lines.append(level + "}") return "\n".join(lines) if isinstance(value, (bytes, bytearray)): length = len(value) suffix = "" if truncate_after and length > truncate_after: suffix = "..." value = value[: truncate_to or 0] if mostly_printable(value): output = repr(value) else: output = "0x" + value.hex() return "{} bytes {}{}".format(length, output, suffix) if isinstance(value, int) and isinstance(ftype, EnumType): try: return "{} ({})".format(ftype.to_str(value), value) except TypeError: return str(value) return repr(value) return "{name} ({size} bytes) {content}".format( name=pb.__class__.__name__, size=pb.ByteSize(), content=pformat("", pb.__dict__, indent), ) def value_to_proto(ftype: FieldType, value: Any) -> Any: if isinstance(ftype, type) and issubclass(ftype, MessageType): raise TypeError("value_to_proto only converts simple values") if isinstance(ftype, EnumType): if isinstance(value, str): return ftype.from_str(value) else: return int(value) if ftype in (UVarintType, SVarintType): return int(value) if ftype is BoolType: return bool(value) if ftype is UnicodeType: return str(value) if ftype is BytesType: if isinstance(value, str): return bytes.fromhex(value) elif isinstance(value, bytes): return value else: raise TypeError("can't convert {} value to bytes".format(type(value))) def dict_to_proto(message_type: Type[MT], d: Dict[str, Any]) -> MT: params = {} for fname, ftype, fflags in message_type.get_fields().values(): repeated = fflags & FLAG_REPEATED value = d.get(fname) if value is None: continue if not repeated: value = [value] if isinstance(ftype, type) and issubclass(ftype, MessageType): function = dict_to_proto # type: Callable[[Any, Any], Any] else: function = value_to_proto newvalue = [function(ftype, v) for v in value] if not repeated: newvalue = newvalue[0] params[fname] = newvalue return message_type(**params) def to_dict(msg: MessageType, hexlify_bytes: bool = True) -> Dict[str, Any]: def convert_value(ftype: FieldType, value: Any) -> Any: if hexlify_bytes and isinstance(value, bytes): return value.hex() elif isinstance(value, MessageType): return to_dict(value, hexlify_bytes) elif isinstance(value, list): return [convert_value(ftype, v) for v in value] elif isinstance(value, int) and isinstance(ftype, EnumType): try: return ftype.to_str(value) except TypeError: return value else: return value res = {} for key, value in msg.__dict__.items(): if value is None or value == []: continue res[key] = convert_value(msg.get_field_type(key), value) return res