| """Fallback pure Python implementation of msgpack""" |
| |
| from datetime import datetime as _DateTime |
| import sys |
| import struct |
| |
| |
| PY2 = sys.version_info[0] == 2 |
| if PY2: |
| int_types = (int, long) |
| |
| def dict_iteritems(d): |
| return d.iteritems() |
| |
| |
| else: |
| int_types = int |
| unicode = str |
| xrange = range |
| |
| def dict_iteritems(d): |
| return d.items() |
| |
| |
| if sys.version_info < (3, 5): |
| # Ugly hack... |
| RecursionError = RuntimeError |
| |
| def _is_recursionerror(e): |
| return ( |
| len(e.args) == 1 |
| and isinstance(e.args[0], str) |
| and e.args[0].startswith("maximum recursion depth exceeded") |
| ) |
| |
| |
| else: |
| |
| def _is_recursionerror(e): |
| return True |
| |
| |
| if hasattr(sys, "pypy_version_info"): |
| # StringIO is slow on PyPy, StringIO is faster. However: PyPy's own |
| # StringBuilder is fastest. |
| from __pypy__ import newlist_hint |
| |
| try: |
| from __pypy__.builders import BytesBuilder as StringBuilder |
| except ImportError: |
| from __pypy__.builders import StringBuilder |
| USING_STRINGBUILDER = True |
| |
| class StringIO(object): |
| def __init__(self, s=b""): |
| if s: |
| self.builder = StringBuilder(len(s)) |
| self.builder.append(s) |
| else: |
| self.builder = StringBuilder() |
| |
| def write(self, s): |
| if isinstance(s, memoryview): |
| s = s.tobytes() |
| elif isinstance(s, bytearray): |
| s = bytes(s) |
| self.builder.append(s) |
| |
| def getvalue(self): |
| return self.builder.build() |
| |
| |
| else: |
| USING_STRINGBUILDER = False |
| from io import BytesIO as StringIO |
| |
| newlist_hint = lambda size: [] |
| |
| |
| from .exceptions import BufferFull, OutOfData, ExtraData, FormatError, StackError |
| |
| from .ext import ExtType, Timestamp |
| |
| |
| EX_SKIP = 0 |
| EX_CONSTRUCT = 1 |
| EX_READ_ARRAY_HEADER = 2 |
| EX_READ_MAP_HEADER = 3 |
| |
| TYPE_IMMEDIATE = 0 |
| TYPE_ARRAY = 1 |
| TYPE_MAP = 2 |
| TYPE_RAW = 3 |
| TYPE_BIN = 4 |
| TYPE_EXT = 5 |
| |
| DEFAULT_RECURSE_LIMIT = 511 |
| |
| |
| def _check_type_strict(obj, t, type=type, tuple=tuple): |
| if type(t) is tuple: |
| return type(obj) in t |
| else: |
| return type(obj) is t |
| |
| |
| def _get_data_from_buffer(obj): |
| view = memoryview(obj) |
| if view.itemsize != 1: |
| raise ValueError("cannot unpack from multi-byte object") |
| return view |
| |
| |
| def unpackb(packed, **kwargs): |
| """ |
| Unpack an object from `packed`. |
| |
| Raises ``ExtraData`` when *packed* contains extra bytes. |
| Raises ``ValueError`` when *packed* is incomplete. |
| Raises ``FormatError`` when *packed* is not valid msgpack. |
| Raises ``StackError`` when *packed* contains too nested. |
| Other exceptions can be raised during unpacking. |
| |
| See :class:`Unpacker` for options. |
| """ |
| unpacker = Unpacker(None, max_buffer_size=len(packed), **kwargs) |
| unpacker.feed(packed) |
| try: |
| ret = unpacker._unpack() |
| except OutOfData: |
| raise ValueError("Unpack failed: incomplete input") |
| except RecursionError as e: |
| if _is_recursionerror(e): |
| raise StackError |
| raise |
| if unpacker._got_extradata(): |
| raise ExtraData(ret, unpacker._get_extradata()) |
| return ret |
| |
| |
| if sys.version_info < (2, 7, 6): |
| |
| def _unpack_from(f, b, o=0): |
| """Explicit type cast for legacy struct.unpack_from""" |
| return struct.unpack_from(f, bytes(b), o) |
| |
| |
| else: |
| _unpack_from = struct.unpack_from |
| |
| |
| class Unpacker(object): |
| """Streaming unpacker. |
| |
| Arguments: |
| |
| :param file_like: |
| File-like object having `.read(n)` method. |
| If specified, unpacker reads serialized data from it and :meth:`feed()` is not usable. |
| |
| :param int read_size: |
| Used as `file_like.read(read_size)`. (default: `min(16*1024, max_buffer_size)`) |
| |
| :param bool use_list: |
| If true, unpack msgpack array to Python list. |
| Otherwise, unpack to Python tuple. (default: True) |
| |
| :param bool raw: |
| If true, unpack msgpack raw to Python bytes. |
| Otherwise, unpack to Python str by decoding with UTF-8 encoding (default). |
| |
| :param int timestamp: |
| Control how timestamp type is unpacked: |
| |
| 0 - Timestamp |
| 1 - float (Seconds from the EPOCH) |
| 2 - int (Nanoseconds from the EPOCH) |
| 3 - datetime.datetime (UTC). Python 2 is not supported. |
| |
| :param bool strict_map_key: |
| If true (default), only str or bytes are accepted for map (dict) keys. |
| |
| :param callable object_hook: |
| When specified, it should be callable. |
| Unpacker calls it with a dict argument after unpacking msgpack map. |
| (See also simplejson) |
| |
| :param callable object_pairs_hook: |
| When specified, it should be callable. |
| Unpacker calls it with a list of key-value pairs after unpacking msgpack map. |
| (See also simplejson) |
| |
| :param str unicode_errors: |
| The error handler for decoding unicode. (default: 'strict') |
| This option should be used only when you have msgpack data which |
| contains invalid UTF-8 string. |
| |
| :param int max_buffer_size: |
| Limits size of data waiting unpacked. 0 means 2**32-1. |
| The default value is 100*1024*1024 (100MiB). |
| Raises `BufferFull` exception when it is insufficient. |
| You should set this parameter when unpacking data from untrusted source. |
| |
| :param int max_str_len: |
| Deprecated, use *max_buffer_size* instead. |
| Limits max length of str. (default: max_buffer_size) |
| |
| :param int max_bin_len: |
| Deprecated, use *max_buffer_size* instead. |
| Limits max length of bin. (default: max_buffer_size) |
| |
| :param int max_array_len: |
| Limits max length of array. |
| (default: max_buffer_size) |
| |
| :param int max_map_len: |
| Limits max length of map. |
| (default: max_buffer_size//2) |
| |
| :param int max_ext_len: |
| Deprecated, use *max_buffer_size* instead. |
| Limits max size of ext type. (default: max_buffer_size) |
| |
| Example of streaming deserialize from file-like object:: |
| |
| unpacker = Unpacker(file_like) |
| for o in unpacker: |
| process(o) |
| |
| Example of streaming deserialize from socket:: |
| |
| unpacker = Unpacker(max_buffer_size) |
| while True: |
| buf = sock.recv(1024**2) |
| if not buf: |
| break |
| unpacker.feed(buf) |
| for o in unpacker: |
| process(o) |
| |
| Raises ``ExtraData`` when *packed* contains extra bytes. |
| Raises ``OutOfData`` when *packed* is incomplete. |
| Raises ``FormatError`` when *packed* is not valid msgpack. |
| Raises ``StackError`` when *packed* contains too nested. |
| Other exceptions can be raised during unpacking. |
| """ |
| |
| def __init__( |
| self, |
| file_like=None, |
| read_size=0, |
| use_list=True, |
| raw=False, |
| timestamp=0, |
| strict_map_key=True, |
| object_hook=None, |
| object_pairs_hook=None, |
| list_hook=None, |
| unicode_errors=None, |
| max_buffer_size=100 * 1024 * 1024, |
| ext_hook=ExtType, |
| max_str_len=-1, |
| max_bin_len=-1, |
| max_array_len=-1, |
| max_map_len=-1, |
| max_ext_len=-1, |
| ): |
| if unicode_errors is None: |
| unicode_errors = "strict" |
| |
| if file_like is None: |
| self._feeding = True |
| else: |
| if not callable(file_like.read): |
| raise TypeError("`file_like.read` must be callable") |
| self.file_like = file_like |
| self._feeding = False |
| |
| #: array of bytes fed. |
| self._buffer = bytearray() |
| #: Which position we currently reads |
| self._buff_i = 0 |
| |
| # When Unpacker is used as an iterable, between the calls to next(), |
| # the buffer is not "consumed" completely, for efficiency sake. |
| # Instead, it is done sloppily. To make sure we raise BufferFull at |
| # the correct moments, we have to keep track of how sloppy we were. |
| # Furthermore, when the buffer is incomplete (that is: in the case |
| # we raise an OutOfData) we need to rollback the buffer to the correct |
| # state, which _buf_checkpoint records. |
| self._buf_checkpoint = 0 |
| |
| if not max_buffer_size: |
| max_buffer_size = 2 ** 31 - 1 |
| if max_str_len == -1: |
| max_str_len = max_buffer_size |
| if max_bin_len == -1: |
| max_bin_len = max_buffer_size |
| if max_array_len == -1: |
| max_array_len = max_buffer_size |
| if max_map_len == -1: |
| max_map_len = max_buffer_size // 2 |
| if max_ext_len == -1: |
| max_ext_len = max_buffer_size |
| |
| self._max_buffer_size = max_buffer_size |
| if read_size > self._max_buffer_size: |
| raise ValueError("read_size must be smaller than max_buffer_size") |
| self._read_size = read_size or min(self._max_buffer_size, 16 * 1024) |
| self._raw = bool(raw) |
| self._strict_map_key = bool(strict_map_key) |
| self._unicode_errors = unicode_errors |
| self._use_list = use_list |
| if not (0 <= timestamp <= 3): |
| raise ValueError("timestamp must be 0..3") |
| self._timestamp = timestamp |
| self._list_hook = list_hook |
| self._object_hook = object_hook |
| self._object_pairs_hook = object_pairs_hook |
| self._ext_hook = ext_hook |
| self._max_str_len = max_str_len |
| self._max_bin_len = max_bin_len |
| self._max_array_len = max_array_len |
| self._max_map_len = max_map_len |
| self._max_ext_len = max_ext_len |
| self._stream_offset = 0 |
| |
| if list_hook is not None and not callable(list_hook): |
| raise TypeError("`list_hook` is not callable") |
| if object_hook is not None and not callable(object_hook): |
| raise TypeError("`object_hook` is not callable") |
| if object_pairs_hook is not None and not callable(object_pairs_hook): |
| raise TypeError("`object_pairs_hook` is not callable") |
| if object_hook is not None and object_pairs_hook is not None: |
| raise TypeError( |
| "object_pairs_hook and object_hook are mutually " "exclusive" |
| ) |
| if not callable(ext_hook): |
| raise TypeError("`ext_hook` is not callable") |
| |
| def feed(self, next_bytes): |
| assert self._feeding |
| view = _get_data_from_buffer(next_bytes) |
| if len(self._buffer) - self._buff_i + len(view) > self._max_buffer_size: |
| raise BufferFull |
| |
| # Strip buffer before checkpoint before reading file. |
| if self._buf_checkpoint > 0: |
| del self._buffer[: self._buf_checkpoint] |
| self._buff_i -= self._buf_checkpoint |
| self._buf_checkpoint = 0 |
| |
| # Use extend here: INPLACE_ADD += doesn't reliably typecast memoryview in jython |
| self._buffer.extend(view) |
| |
| def _consume(self): |
| """ Gets rid of the used parts of the buffer. """ |
| self._stream_offset += self._buff_i - self._buf_checkpoint |
| self._buf_checkpoint = self._buff_i |
| |
| def _got_extradata(self): |
| return self._buff_i < len(self._buffer) |
| |
| def _get_extradata(self): |
| return self._buffer[self._buff_i :] |
| |
| def read_bytes(self, n): |
| ret = self._read(n) |
| self._consume() |
| return ret |
| |
| def _read(self, n): |
| # (int) -> bytearray |
| self._reserve(n) |
| i = self._buff_i |
| self._buff_i = i + n |
| return self._buffer[i : i + n] |
| |
| def _reserve(self, n): |
| remain_bytes = len(self._buffer) - self._buff_i - n |
| |
| # Fast path: buffer has n bytes already |
| if remain_bytes >= 0: |
| return |
| |
| if self._feeding: |
| self._buff_i = self._buf_checkpoint |
| raise OutOfData |
| |
| # Strip buffer before checkpoint before reading file. |
| if self._buf_checkpoint > 0: |
| del self._buffer[: self._buf_checkpoint] |
| self._buff_i -= self._buf_checkpoint |
| self._buf_checkpoint = 0 |
| |
| # Read from file |
| remain_bytes = -remain_bytes |
| while remain_bytes > 0: |
| to_read_bytes = max(self._read_size, remain_bytes) |
| read_data = self.file_like.read(to_read_bytes) |
| if not read_data: |
| break |
| assert isinstance(read_data, bytes) |
| self._buffer += read_data |
| remain_bytes -= len(read_data) |
| |
| if len(self._buffer) < n + self._buff_i: |
| self._buff_i = 0 # rollback |
| raise OutOfData |
| |
| def _read_header(self, execute=EX_CONSTRUCT): |
| typ = TYPE_IMMEDIATE |
| n = 0 |
| obj = None |
| self._reserve(1) |
| b = self._buffer[self._buff_i] |
| self._buff_i += 1 |
| if b & 0b10000000 == 0: |
| obj = b |
| elif b & 0b11100000 == 0b11100000: |
| obj = -1 - (b ^ 0xFF) |
| elif b & 0b11100000 == 0b10100000: |
| n = b & 0b00011111 |
| typ = TYPE_RAW |
| if n > self._max_str_len: |
| raise ValueError("%s exceeds max_str_len(%s)", n, self._max_str_len) |
| obj = self._read(n) |
| elif b & 0b11110000 == 0b10010000: |
| n = b & 0b00001111 |
| typ = TYPE_ARRAY |
| if n > self._max_array_len: |
| raise ValueError("%s exceeds max_array_len(%s)", n, self._max_array_len) |
| elif b & 0b11110000 == 0b10000000: |
| n = b & 0b00001111 |
| typ = TYPE_MAP |
| if n > self._max_map_len: |
| raise ValueError("%s exceeds max_map_len(%s)", n, self._max_map_len) |
| elif b == 0xC0: |
| obj = None |
| elif b == 0xC2: |
| obj = False |
| elif b == 0xC3: |
| obj = True |
| elif b == 0xC4: |
| typ = TYPE_BIN |
| self._reserve(1) |
| n = self._buffer[self._buff_i] |
| self._buff_i += 1 |
| if n > self._max_bin_len: |
| raise ValueError("%s exceeds max_bin_len(%s)" % (n, self._max_bin_len)) |
| obj = self._read(n) |
| elif b == 0xC5: |
| typ = TYPE_BIN |
| self._reserve(2) |
| n = _unpack_from(">H", self._buffer, self._buff_i)[0] |
| self._buff_i += 2 |
| if n > self._max_bin_len: |
| raise ValueError("%s exceeds max_bin_len(%s)" % (n, self._max_bin_len)) |
| obj = self._read(n) |
| elif b == 0xC6: |
| typ = TYPE_BIN |
| self._reserve(4) |
| n = _unpack_from(">I", self._buffer, self._buff_i)[0] |
| self._buff_i += 4 |
| if n > self._max_bin_len: |
| raise ValueError("%s exceeds max_bin_len(%s)" % (n, self._max_bin_len)) |
| obj = self._read(n) |
| elif b == 0xC7: # ext 8 |
| typ = TYPE_EXT |
| self._reserve(2) |
| L, n = _unpack_from("Bb", self._buffer, self._buff_i) |
| self._buff_i += 2 |
| if L > self._max_ext_len: |
| raise ValueError("%s exceeds max_ext_len(%s)" % (L, self._max_ext_len)) |
| obj = self._read(L) |
| elif b == 0xC8: # ext 16 |
| typ = TYPE_EXT |
| self._reserve(3) |
| L, n = _unpack_from(">Hb", self._buffer, self._buff_i) |
| self._buff_i += 3 |
| if L > self._max_ext_len: |
| raise ValueError("%s exceeds max_ext_len(%s)" % (L, self._max_ext_len)) |
| obj = self._read(L) |
| elif b == 0xC9: # ext 32 |
| typ = TYPE_EXT |
| self._reserve(5) |
| L, n = _unpack_from(">Ib", self._buffer, self._buff_i) |
| self._buff_i += 5 |
| if L > self._max_ext_len: |
| raise ValueError("%s exceeds max_ext_len(%s)" % (L, self._max_ext_len)) |
| obj = self._read(L) |
| elif b == 0xCA: |
| self._reserve(4) |
| obj = _unpack_from(">f", self._buffer, self._buff_i)[0] |
| self._buff_i += 4 |
| elif b == 0xCB: |
| self._reserve(8) |
| obj = _unpack_from(">d", self._buffer, self._buff_i)[0] |
| self._buff_i += 8 |
| elif b == 0xCC: |
| self._reserve(1) |
| obj = self._buffer[self._buff_i] |
| self._buff_i += 1 |
| elif b == 0xCD: |
| self._reserve(2) |
| obj = _unpack_from(">H", self._buffer, self._buff_i)[0] |
| self._buff_i += 2 |
| elif b == 0xCE: |
| self._reserve(4) |
| obj = _unpack_from(">I", self._buffer, self._buff_i)[0] |
| self._buff_i += 4 |
| elif b == 0xCF: |
| self._reserve(8) |
| obj = _unpack_from(">Q", self._buffer, self._buff_i)[0] |
| self._buff_i += 8 |
| elif b == 0xD0: |
| self._reserve(1) |
| obj = _unpack_from("b", self._buffer, self._buff_i)[0] |
| self._buff_i += 1 |
| elif b == 0xD1: |
| self._reserve(2) |
| obj = _unpack_from(">h", self._buffer, self._buff_i)[0] |
| self._buff_i += 2 |
| elif b == 0xD2: |
| self._reserve(4) |
| obj = _unpack_from(">i", self._buffer, self._buff_i)[0] |
| self._buff_i += 4 |
| elif b == 0xD3: |
| self._reserve(8) |
| obj = _unpack_from(">q", self._buffer, self._buff_i)[0] |
| self._buff_i += 8 |
| elif b == 0xD4: # fixext 1 |
| typ = TYPE_EXT |
| if self._max_ext_len < 1: |
| raise ValueError("%s exceeds max_ext_len(%s)" % (1, self._max_ext_len)) |
| self._reserve(2) |
| n, obj = _unpack_from("b1s", self._buffer, self._buff_i) |
| self._buff_i += 2 |
| elif b == 0xD5: # fixext 2 |
| typ = TYPE_EXT |
| if self._max_ext_len < 2: |
| raise ValueError("%s exceeds max_ext_len(%s)" % (2, self._max_ext_len)) |
| self._reserve(3) |
| n, obj = _unpack_from("b2s", self._buffer, self._buff_i) |
| self._buff_i += 3 |
| elif b == 0xD6: # fixext 4 |
| typ = TYPE_EXT |
| if self._max_ext_len < 4: |
| raise ValueError("%s exceeds max_ext_len(%s)" % (4, self._max_ext_len)) |
| self._reserve(5) |
| n, obj = _unpack_from("b4s", self._buffer, self._buff_i) |
| self._buff_i += 5 |
| elif b == 0xD7: # fixext 8 |
| typ = TYPE_EXT |
| if self._max_ext_len < 8: |
| raise ValueError("%s exceeds max_ext_len(%s)" % (8, self._max_ext_len)) |
| self._reserve(9) |
| n, obj = _unpack_from("b8s", self._buffer, self._buff_i) |
| self._buff_i += 9 |
| elif b == 0xD8: # fixext 16 |
| typ = TYPE_EXT |
| if self._max_ext_len < 16: |
| raise ValueError("%s exceeds max_ext_len(%s)" % (16, self._max_ext_len)) |
| self._reserve(17) |
| n, obj = _unpack_from("b16s", self._buffer, self._buff_i) |
| self._buff_i += 17 |
| elif b == 0xD9: |
| typ = TYPE_RAW |
| self._reserve(1) |
| n = self._buffer[self._buff_i] |
| self._buff_i += 1 |
| if n > self._max_str_len: |
| raise ValueError("%s exceeds max_str_len(%s)", n, self._max_str_len) |
| obj = self._read(n) |
| elif b == 0xDA: |
| typ = TYPE_RAW |
| self._reserve(2) |
| (n,) = _unpack_from(">H", self._buffer, self._buff_i) |
| self._buff_i += 2 |
| if n > self._max_str_len: |
| raise ValueError("%s exceeds max_str_len(%s)", n, self._max_str_len) |
| obj = self._read(n) |
| elif b == 0xDB: |
| typ = TYPE_RAW |
| self._reserve(4) |
| (n,) = _unpack_from(">I", self._buffer, self._buff_i) |
| self._buff_i += 4 |
| if n > self._max_str_len: |
| raise ValueError("%s exceeds max_str_len(%s)", n, self._max_str_len) |
| obj = self._read(n) |
| elif b == 0xDC: |
| typ = TYPE_ARRAY |
| self._reserve(2) |
| (n,) = _unpack_from(">H", self._buffer, self._buff_i) |
| self._buff_i += 2 |
| if n > self._max_array_len: |
| raise ValueError("%s exceeds max_array_len(%s)", n, self._max_array_len) |
| elif b == 0xDD: |
| typ = TYPE_ARRAY |
| self._reserve(4) |
| (n,) = _unpack_from(">I", self._buffer, self._buff_i) |
| self._buff_i += 4 |
| if n > self._max_array_len: |
| raise ValueError("%s exceeds max_array_len(%s)", n, self._max_array_len) |
| elif b == 0xDE: |
| self._reserve(2) |
| (n,) = _unpack_from(">H", self._buffer, self._buff_i) |
| self._buff_i += 2 |
| if n > self._max_map_len: |
| raise ValueError("%s exceeds max_map_len(%s)", n, self._max_map_len) |
| typ = TYPE_MAP |
| elif b == 0xDF: |
| self._reserve(4) |
| (n,) = _unpack_from(">I", self._buffer, self._buff_i) |
| self._buff_i += 4 |
| if n > self._max_map_len: |
| raise ValueError("%s exceeds max_map_len(%s)", n, self._max_map_len) |
| typ = TYPE_MAP |
| else: |
| raise FormatError("Unknown header: 0x%x" % b) |
| return typ, n, obj |
| |
| def _unpack(self, execute=EX_CONSTRUCT): |
| typ, n, obj = self._read_header(execute) |
| |
| if execute == EX_READ_ARRAY_HEADER: |
| if typ != TYPE_ARRAY: |
| raise ValueError("Expected array") |
| return n |
| if execute == EX_READ_MAP_HEADER: |
| if typ != TYPE_MAP: |
| raise ValueError("Expected map") |
| return n |
| # TODO should we eliminate the recursion? |
| if typ == TYPE_ARRAY: |
| if execute == EX_SKIP: |
| for i in xrange(n): |
| # TODO check whether we need to call `list_hook` |
| self._unpack(EX_SKIP) |
| return |
| ret = newlist_hint(n) |
| for i in xrange(n): |
| ret.append(self._unpack(EX_CONSTRUCT)) |
| if self._list_hook is not None: |
| ret = self._list_hook(ret) |
| # TODO is the interaction between `list_hook` and `use_list` ok? |
| return ret if self._use_list else tuple(ret) |
| if typ == TYPE_MAP: |
| if execute == EX_SKIP: |
| for i in xrange(n): |
| # TODO check whether we need to call hooks |
| self._unpack(EX_SKIP) |
| self._unpack(EX_SKIP) |
| return |
| if self._object_pairs_hook is not None: |
| ret = self._object_pairs_hook( |
| (self._unpack(EX_CONSTRUCT), self._unpack(EX_CONSTRUCT)) |
| for _ in xrange(n) |
| ) |
| else: |
| ret = {} |
| for _ in xrange(n): |
| key = self._unpack(EX_CONSTRUCT) |
| if self._strict_map_key and type(key) not in (unicode, bytes): |
| raise ValueError( |
| "%s is not allowed for map key" % str(type(key)) |
| ) |
| if not PY2 and type(key) is str: |
| key = sys.intern(key) |
| ret[key] = self._unpack(EX_CONSTRUCT) |
| if self._object_hook is not None: |
| ret = self._object_hook(ret) |
| return ret |
| if execute == EX_SKIP: |
| return |
| if typ == TYPE_RAW: |
| if self._raw: |
| obj = bytes(obj) |
| else: |
| obj = obj.decode("utf_8", self._unicode_errors) |
| return obj |
| if typ == TYPE_BIN: |
| return bytes(obj) |
| if typ == TYPE_EXT: |
| if n == -1: # timestamp |
| ts = Timestamp.from_bytes(bytes(obj)) |
| if self._timestamp == 1: |
| return ts.to_unix() |
| elif self._timestamp == 2: |
| return ts.to_unix_nano() |
| elif self._timestamp == 3: |
| return ts.to_datetime() |
| else: |
| return ts |
| else: |
| return self._ext_hook(n, bytes(obj)) |
| assert typ == TYPE_IMMEDIATE |
| return obj |
| |
| def __iter__(self): |
| return self |
| |
| def __next__(self): |
| try: |
| ret = self._unpack(EX_CONSTRUCT) |
| self._consume() |
| return ret |
| except OutOfData: |
| self._consume() |
| raise StopIteration |
| except RecursionError: |
| raise StackError |
| |
| next = __next__ |
| |
| def skip(self): |
| self._unpack(EX_SKIP) |
| self._consume() |
| |
| def unpack(self): |
| try: |
| ret = self._unpack(EX_CONSTRUCT) |
| except RecursionError: |
| raise StackError |
| self._consume() |
| return ret |
| |
| def read_array_header(self): |
| ret = self._unpack(EX_READ_ARRAY_HEADER) |
| self._consume() |
| return ret |
| |
| def read_map_header(self): |
| ret = self._unpack(EX_READ_MAP_HEADER) |
| self._consume() |
| return ret |
| |
| def tell(self): |
| return self._stream_offset |
| |
| |
| class Packer(object): |
| """ |
| MessagePack Packer |
| |
| Usage: |
| |
| packer = Packer() |
| astream.write(packer.pack(a)) |
| astream.write(packer.pack(b)) |
| |
| Packer's constructor has some keyword arguments: |
| |
| :param callable default: |
| Convert user type to builtin type that Packer supports. |
| See also simplejson's document. |
| |
| :param bool use_single_float: |
| Use single precision float type for float. (default: False) |
| |
| :param bool autoreset: |
| Reset buffer after each pack and return its content as `bytes`. (default: True). |
| If set this to false, use `bytes()` to get content and `.reset()` to clear buffer. |
| |
| :param bool use_bin_type: |
| Use bin type introduced in msgpack spec 2.0 for bytes. |
| It also enables str8 type for unicode. (default: True) |
| |
| :param bool strict_types: |
| If set to true, types will be checked to be exact. Derived classes |
| from serializable types will not be serialized and will be |
| treated as unsupported type and forwarded to default. |
| Additionally tuples will not be serialized as lists. |
| This is useful when trying to implement accurate serialization |
| for python types. |
| |
| :param bool datetime: |
| If set to true, datetime with tzinfo is packed into Timestamp type. |
| Note that the tzinfo is stripped in the timestamp. |
| You can get UTC datetime with `timestamp=3` option of the Unpacker. |
| (Python 2 is not supported). |
| |
| :param str unicode_errors: |
| The error handler for encoding unicode. (default: 'strict') |
| DO NOT USE THIS!! This option is kept for very specific usage. |
| """ |
| |
| def __init__( |
| self, |
| default=None, |
| use_single_float=False, |
| autoreset=True, |
| use_bin_type=True, |
| strict_types=False, |
| datetime=False, |
| unicode_errors=None, |
| ): |
| self._strict_types = strict_types |
| self._use_float = use_single_float |
| self._autoreset = autoreset |
| self._use_bin_type = use_bin_type |
| self._buffer = StringIO() |
| if PY2 and datetime: |
| raise ValueError("datetime is not supported in Python 2") |
| self._datetime = bool(datetime) |
| self._unicode_errors = unicode_errors or "strict" |
| if default is not None: |
| if not callable(default): |
| raise TypeError("default must be callable") |
| self._default = default |
| |
| def _pack( |
| self, |
| obj, |
| nest_limit=DEFAULT_RECURSE_LIMIT, |
| check=isinstance, |
| check_type_strict=_check_type_strict, |
| ): |
| default_used = False |
| if self._strict_types: |
| check = check_type_strict |
| list_types = list |
| else: |
| list_types = (list, tuple) |
| while True: |
| if nest_limit < 0: |
| raise ValueError("recursion limit exceeded") |
| if obj is None: |
| return self._buffer.write(b"\xc0") |
| if check(obj, bool): |
| if obj: |
| return self._buffer.write(b"\xc3") |
| return self._buffer.write(b"\xc2") |
| if check(obj, int_types): |
| if 0 <= obj < 0x80: |
| return self._buffer.write(struct.pack("B", obj)) |
| if -0x20 <= obj < 0: |
| return self._buffer.write(struct.pack("b", obj)) |
| if 0x80 <= obj <= 0xFF: |
| return self._buffer.write(struct.pack("BB", 0xCC, obj)) |
| if -0x80 <= obj < 0: |
| return self._buffer.write(struct.pack(">Bb", 0xD0, obj)) |
| if 0xFF < obj <= 0xFFFF: |
| return self._buffer.write(struct.pack(">BH", 0xCD, obj)) |
| if -0x8000 <= obj < -0x80: |
| return self._buffer.write(struct.pack(">Bh", 0xD1, obj)) |
| if 0xFFFF < obj <= 0xFFFFFFFF: |
| return self._buffer.write(struct.pack(">BI", 0xCE, obj)) |
| if -0x80000000 <= obj < -0x8000: |
| return self._buffer.write(struct.pack(">Bi", 0xD2, obj)) |
| if 0xFFFFFFFF < obj <= 0xFFFFFFFFFFFFFFFF: |
| return self._buffer.write(struct.pack(">BQ", 0xCF, obj)) |
| if -0x8000000000000000 <= obj < -0x80000000: |
| return self._buffer.write(struct.pack(">Bq", 0xD3, obj)) |
| if not default_used and self._default is not None: |
| obj = self._default(obj) |
| default_used = True |
| continue |
| raise OverflowError("Integer value out of range") |
| if check(obj, (bytes, bytearray)): |
| n = len(obj) |
| if n >= 2 ** 32: |
| raise ValueError("%s is too large" % type(obj).__name__) |
| self._pack_bin_header(n) |
| return self._buffer.write(obj) |
| if check(obj, unicode): |
| obj = obj.encode("utf-8", self._unicode_errors) |
| n = len(obj) |
| if n >= 2 ** 32: |
| raise ValueError("String is too large") |
| self._pack_raw_header(n) |
| return self._buffer.write(obj) |
| if check(obj, memoryview): |
| n = len(obj) * obj.itemsize |
| if n >= 2 ** 32: |
| raise ValueError("Memoryview is too large") |
| self._pack_bin_header(n) |
| return self._buffer.write(obj) |
| if check(obj, float): |
| if self._use_float: |
| return self._buffer.write(struct.pack(">Bf", 0xCA, obj)) |
| return self._buffer.write(struct.pack(">Bd", 0xCB, obj)) |
| if check(obj, (ExtType, Timestamp)): |
| if check(obj, Timestamp): |
| code = -1 |
| data = obj.to_bytes() |
| else: |
| code = obj.code |
| data = obj.data |
| assert isinstance(code, int) |
| assert isinstance(data, bytes) |
| L = len(data) |
| if L == 1: |
| self._buffer.write(b"\xd4") |
| elif L == 2: |
| self._buffer.write(b"\xd5") |
| elif L == 4: |
| self._buffer.write(b"\xd6") |
| elif L == 8: |
| self._buffer.write(b"\xd7") |
| elif L == 16: |
| self._buffer.write(b"\xd8") |
| elif L <= 0xFF: |
| self._buffer.write(struct.pack(">BB", 0xC7, L)) |
| elif L <= 0xFFFF: |
| self._buffer.write(struct.pack(">BH", 0xC8, L)) |
| else: |
| self._buffer.write(struct.pack(">BI", 0xC9, L)) |
| self._buffer.write(struct.pack("b", code)) |
| self._buffer.write(data) |
| return |
| if check(obj, list_types): |
| n = len(obj) |
| self._pack_array_header(n) |
| for i in xrange(n): |
| self._pack(obj[i], nest_limit - 1) |
| return |
| if check(obj, dict): |
| return self._pack_map_pairs( |
| len(obj), dict_iteritems(obj), nest_limit - 1 |
| ) |
| |
| if self._datetime and check(obj, _DateTime): |
| obj = Timestamp.from_datetime(obj) |
| default_used = 1 |
| continue |
| |
| if not default_used and self._default is not None: |
| obj = self._default(obj) |
| default_used = 1 |
| continue |
| raise TypeError("Cannot serialize %r" % (obj,)) |
| |
| def pack(self, obj): |
| try: |
| self._pack(obj) |
| except: |
| self._buffer = StringIO() # force reset |
| raise |
| if self._autoreset: |
| ret = self._buffer.getvalue() |
| self._buffer = StringIO() |
| return ret |
| |
| def pack_map_pairs(self, pairs): |
| self._pack_map_pairs(len(pairs), pairs) |
| if self._autoreset: |
| ret = self._buffer.getvalue() |
| self._buffer = StringIO() |
| return ret |
| |
| def pack_array_header(self, n): |
| if n >= 2 ** 32: |
| raise ValueError |
| self._pack_array_header(n) |
| if self._autoreset: |
| ret = self._buffer.getvalue() |
| self._buffer = StringIO() |
| return ret |
| |
| def pack_map_header(self, n): |
| if n >= 2 ** 32: |
| raise ValueError |
| self._pack_map_header(n) |
| if self._autoreset: |
| ret = self._buffer.getvalue() |
| self._buffer = StringIO() |
| return ret |
| |
| def pack_ext_type(self, typecode, data): |
| if not isinstance(typecode, int): |
| raise TypeError("typecode must have int type.") |
| if not 0 <= typecode <= 127: |
| raise ValueError("typecode should be 0-127") |
| if not isinstance(data, bytes): |
| raise TypeError("data must have bytes type") |
| L = len(data) |
| if L > 0xFFFFFFFF: |
| raise ValueError("Too large data") |
| if L == 1: |
| self._buffer.write(b"\xd4") |
| elif L == 2: |
| self._buffer.write(b"\xd5") |
| elif L == 4: |
| self._buffer.write(b"\xd6") |
| elif L == 8: |
| self._buffer.write(b"\xd7") |
| elif L == 16: |
| self._buffer.write(b"\xd8") |
| elif L <= 0xFF: |
| self._buffer.write(b"\xc7" + struct.pack("B", L)) |
| elif L <= 0xFFFF: |
| self._buffer.write(b"\xc8" + struct.pack(">H", L)) |
| else: |
| self._buffer.write(b"\xc9" + struct.pack(">I", L)) |
| self._buffer.write(struct.pack("B", typecode)) |
| self._buffer.write(data) |
| |
| def _pack_array_header(self, n): |
| if n <= 0x0F: |
| return self._buffer.write(struct.pack("B", 0x90 + n)) |
| if n <= 0xFFFF: |
| return self._buffer.write(struct.pack(">BH", 0xDC, n)) |
| if n <= 0xFFFFFFFF: |
| return self._buffer.write(struct.pack(">BI", 0xDD, n)) |
| raise ValueError("Array is too large") |
| |
| def _pack_map_header(self, n): |
| if n <= 0x0F: |
| return self._buffer.write(struct.pack("B", 0x80 + n)) |
| if n <= 0xFFFF: |
| return self._buffer.write(struct.pack(">BH", 0xDE, n)) |
| if n <= 0xFFFFFFFF: |
| return self._buffer.write(struct.pack(">BI", 0xDF, n)) |
| raise ValueError("Dict is too large") |
| |
| def _pack_map_pairs(self, n, pairs, nest_limit=DEFAULT_RECURSE_LIMIT): |
| self._pack_map_header(n) |
| for (k, v) in pairs: |
| self._pack(k, nest_limit - 1) |
| self._pack(v, nest_limit - 1) |
| |
| def _pack_raw_header(self, n): |
| if n <= 0x1F: |
| self._buffer.write(struct.pack("B", 0xA0 + n)) |
| elif self._use_bin_type and n <= 0xFF: |
| self._buffer.write(struct.pack(">BB", 0xD9, n)) |
| elif n <= 0xFFFF: |
| self._buffer.write(struct.pack(">BH", 0xDA, n)) |
| elif n <= 0xFFFFFFFF: |
| self._buffer.write(struct.pack(">BI", 0xDB, n)) |
| else: |
| raise ValueError("Raw is too large") |
| |
| def _pack_bin_header(self, n): |
| if not self._use_bin_type: |
| return self._pack_raw_header(n) |
| elif n <= 0xFF: |
| return self._buffer.write(struct.pack(">BB", 0xC4, n)) |
| elif n <= 0xFFFF: |
| return self._buffer.write(struct.pack(">BH", 0xC5, n)) |
| elif n <= 0xFFFFFFFF: |
| return self._buffer.write(struct.pack(">BI", 0xC6, n)) |
| else: |
| raise ValueError("Bin is too large") |
| |
| def bytes(self): |
| """Return internal buffer contents as bytes object""" |
| return self._buffer.getvalue() |
| |
| def reset(self): |
| """Reset internal buffer. |
| |
| This method is useful only when autoreset=False. |
| """ |
| self._buffer = StringIO() |
| |
| def getbuffer(self): |
| """Return view of internal buffer.""" |
| if USING_STRINGBUILDER or PY2: |
| return memoryview(self.bytes()) |
| else: |
| return self._buffer.getbuffer() |