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|
# coding: utf-8
#cython: embedsignature=True
from cpython cimport *
cdef extern from "Python.h":
ctypedef char* const_char_ptr "const char*"
ctypedef char* const_void_ptr "const void*"
ctypedef struct PyObject
cdef int PyObject_AsReadBuffer(object o, const_void_ptr* buff, Py_ssize_t* buf_len) except -1
from libc.stdlib cimport *
from libc.string cimport *
from libc.limits cimport *
import warnings
cdef extern from "pack.h":
struct msgpack_packer:
char* buf
size_t length
size_t buf_size
int msgpack_pack_int(msgpack_packer* pk, int d)
int msgpack_pack_nil(msgpack_packer* pk)
int msgpack_pack_true(msgpack_packer* pk)
int msgpack_pack_false(msgpack_packer* pk)
int msgpack_pack_long(msgpack_packer* pk, long d)
int msgpack_pack_long_long(msgpack_packer* pk, long long d)
int msgpack_pack_unsigned_long_long(msgpack_packer* pk, unsigned long long d)
int msgpack_pack_float(msgpack_packer* pk, float d)
int msgpack_pack_double(msgpack_packer* pk, double d)
int msgpack_pack_array(msgpack_packer* pk, size_t l)
int msgpack_pack_map(msgpack_packer* pk, size_t l)
int msgpack_pack_raw(msgpack_packer* pk, size_t l)
int msgpack_pack_raw_body(msgpack_packer* pk, char* body, size_t l)
cdef int DEFAULT_RECURSE_LIMIT=511
class BufferFull(Exception):
pass
cdef class Packer(object):
"""MessagePack Packer
usage:
packer = Packer()
astream.write(packer.pack(a))
astream.write(packer.pack(b))
"""
cdef msgpack_packer pk
cdef object _default
cdef object _bencoding
cdef object _berrors
cdef char *encoding
cdef char *unicode_errors
cdef bool use_float
def __cinit__(self):
cdef int buf_size = 1024*1024
self.pk.buf = <char*> malloc(buf_size);
if self.pk.buf == NULL:
raise MemoryError("Unable to allocate internal buffer.")
self.pk.buf_size = buf_size
self.pk.length = 0
def __init__(self, default=None, encoding='utf-8', unicode_errors='strict', use_single_float=False):
self.use_float = use_single_float
if default is not None:
if not PyCallable_Check(default):
raise TypeError("default must be a callable.")
self._default = default
if encoding is None:
self.encoding = NULL
self.unicode_errors = NULL
else:
if isinstance(encoding, unicode):
self._bencoding = encoding.encode('ascii')
else:
self._bencoding = encoding
self.encoding = PyBytes_AsString(self._bencoding)
if isinstance(unicode_errors, unicode):
self._berrors = unicode_errors.encode('ascii')
else:
self._berrors = unicode_errors
self.unicode_errors = PyBytes_AsString(self._berrors)
def __dealloc__(self):
free(self.pk.buf);
cdef int _pack(self, object o, int nest_limit=DEFAULT_RECURSE_LIMIT) except -1:
cdef long long llval
cdef unsigned long long ullval
cdef long longval
cdef float fval
cdef double dval
cdef char* rawval
cdef int ret
cdef dict d
if nest_limit < 0:
raise ValueError("Too deep.")
if o is None:
ret = msgpack_pack_nil(&self.pk)
elif isinstance(o, bool):
if o:
ret = msgpack_pack_true(&self.pk)
else:
ret = msgpack_pack_false(&self.pk)
elif PyLong_Check(o):
if o > 0:
ullval = o
ret = msgpack_pack_unsigned_long_long(&self.pk, ullval)
else:
llval = o
ret = msgpack_pack_long_long(&self.pk, llval)
elif PyInt_Check(o):
longval = o
ret = msgpack_pack_long(&self.pk, longval)
elif PyFloat_Check(o):
if self.use_float:
fval = o
ret = msgpack_pack_float(&self.pk, fval)
else:
dval = o
ret = msgpack_pack_double(&self.pk, dval)
elif PyBytes_Check(o):
rawval = o
ret = msgpack_pack_raw(&self.pk, len(o))
if ret == 0:
ret = msgpack_pack_raw_body(&self.pk, rawval, len(o))
elif PyUnicode_Check(o):
if not self.encoding:
raise TypeError("Can't encode unicode string: no encoding is specified")
o = PyUnicode_AsEncodedString(o, self.encoding, self.unicode_errors)
rawval = o
ret = msgpack_pack_raw(&self.pk, len(o))
if ret == 0:
ret = msgpack_pack_raw_body(&self.pk, rawval, len(o))
elif PyDict_CheckExact(o):
d = <dict>o
ret = msgpack_pack_map(&self.pk, len(d))
if ret == 0:
for k, v in d.iteritems():
ret = self._pack(k, nest_limit-1)
if ret != 0: break
ret = self._pack(v, nest_limit-1)
if ret != 0: break
elif PyDict_Check(o):
ret = msgpack_pack_map(&self.pk, len(o))
if ret == 0:
for k, v in o.items():
ret = self._pack(k, nest_limit-1)
if ret != 0: break
ret = self._pack(v, nest_limit-1)
if ret != 0: break
elif PyTuple_Check(o) or PyList_Check(o):
ret = msgpack_pack_array(&self.pk, len(o))
if ret == 0:
for v in o:
ret = self._pack(v, nest_limit-1)
if ret != 0: break
elif self._default:
o = self._default(o)
ret = self._pack(o, nest_limit-1)
else:
raise TypeError("can't serialize %r" % (o,))
return ret
cpdef pack(self, object obj):
cdef int ret
ret = self._pack(obj, DEFAULT_RECURSE_LIMIT)
if ret:
raise TypeError
buf = PyBytes_FromStringAndSize(self.pk.buf, self.pk.length)
self.pk.length = 0
return buf
def pack(object o, object stream, default=None, encoding='utf-8', unicode_errors='strict'):
"""
pack an object `o` and write it to stream)."""
packer = Packer(default=default, encoding=encoding, unicode_errors=unicode_errors)
stream.write(packer.pack(o))
def packb(object o, default=None, encoding='utf-8', unicode_errors='strict', use_single_float=False):
"""
pack o and return packed bytes."""
packer = Packer(default=default, encoding=encoding, unicode_errors=unicode_errors,
use_single_float=use_single_float)
return packer.pack(o)
cdef extern from "unpack.h":
ctypedef struct msgpack_user:
bint use_list
PyObject* object_hook
bint has_pairs_hook # call object_hook with k-v pairs
PyObject* list_hook
char *encoding
char *unicode_errors
ctypedef struct template_context:
msgpack_user user
PyObject* obj
size_t count
unsigned int ct
PyObject* key
int template_execute(template_context* ctx, const_char_ptr data,
size_t len, size_t* off, bint construct) except? -1
void template_init(template_context* ctx)
object template_data(template_context* ctx)
cdef inline init_ctx(template_context *ctx,
object object_hook, object object_pairs_hook, object list_hook,
bint use_list, char* encoding, char* unicode_errors):
template_init(ctx)
ctx.user.use_list = use_list
ctx.user.object_hook = ctx.user.list_hook = <PyObject*>NULL
if object_hook is not None and object_pairs_hook is not None:
raise ValueError("object_pairs_hook and object_hook are mutually exclusive.")
if object_hook is not None:
if not PyCallable_Check(object_hook):
raise TypeError("object_hook must be a callable.")
ctx.user.object_hook = <PyObject*>object_hook
if object_pairs_hook is None:
ctx.user.has_pairs_hook = False
else:
if not PyCallable_Check(object_pairs_hook):
raise TypeError("object_pairs_hook must be a callable.")
ctx.user.object_hook = <PyObject*>object_pairs_hook
ctx.user.has_pairs_hook = True
if list_hook is not None:
if not PyCallable_Check(list_hook):
raise TypeError("list_hook must be a callable.")
ctx.user.list_hook = <PyObject*>list_hook
ctx.user.encoding = encoding
ctx.user.unicode_errors = unicode_errors
def unpackb(object packed, object object_hook=None, object list_hook=None,
use_list=None, encoding=None, unicode_errors="strict",
object_pairs_hook=None,
):
"""Unpack packed_bytes to object. Returns an unpacked object.
Raises `ValueError` when `packed` contains extra bytes.
"""
cdef template_context ctx
cdef size_t off = 0
cdef int ret
cdef char* buf
cdef Py_ssize_t buf_len
cdef char* cenc = NULL
cdef char* cerr = NULL
PyObject_AsReadBuffer(packed, <const_void_ptr*>&buf, &buf_len)
if use_list is None:
warnings.warn("Set use_list explicitly.", category=DeprecationWarning, stacklevel=1)
use_list = 0
if encoding is not None:
if isinstance(encoding, unicode):
encoding = encoding.encode('ascii')
cenc = PyBytes_AsString(encoding)
if unicode_errors is not None:
if isinstance(unicode_errors, unicode):
unicode_errors = unicode_errors.encode('ascii')
cerr = PyBytes_AsString(unicode_errors)
init_ctx(&ctx, object_hook, object_pairs_hook, list_hook, use_list, cenc, cerr)
ret = template_execute(&ctx, buf, buf_len, &off, 1)
if ret == 1:
obj = template_data(&ctx)
if off < buf_len:
raise ValueError("Extra data.")
return obj
elif ret < 0:
raise ValueError("Unpack failed: error = %d" % (ret,))
else:
return None
def unpack(object stream, object object_hook=None, object list_hook=None,
use_list=None, encoding=None, unicode_errors="strict",
object_pairs_hook=None,
):
"""Unpack an object from `stream`.
Raises `ValueError` when `stream` has extra bytes.
"""
if use_list is None:
warnings.warn("Set use_list explicitly.", category=DeprecationWarning, stacklevel=1)
use_list = 0
return unpackb(stream.read(), use_list=use_list,
object_hook=object_hook, object_pairs_hook=object_pairs_hook, list_hook=list_hook,
encoding=encoding, unicode_errors=unicode_errors,
)
cdef class Unpacker(object):
"""
Streaming unpacker.
`file_like` is a file-like object having `.read(n)` method.
When `Unpacker` initialized with `file_like`, unpacker reads serialized data
from it and `.feed()` method is not usable.
`read_size` is used as `file_like.read(read_size)`.
(default: min(1024**2, max_buffer_size))
If `use_list` is true, msgpack list is deserialized to Python list.
Otherwise, it is deserialized to Python tuple.
`object_hook` is same to simplejson. If it is not None, it should be callable
and Unpacker calls it with a dict argument after deserializing a map.
`object_pairs_hook` is same to simplejson. If it is not None, it should be callable
and Unpacker calls it with a list of key-value pairs after deserializing a map.
`encoding` is encoding used for decoding msgpack bytes. If it is None (default),
msgpack bytes is deserialized to Python bytes.
`unicode_errors` is used for decoding bytes.
`max_buffer_size` limits size of data waiting unpacked.
0 means system's INT_MAX (default).
Raises `BufferFull` exception when it is insufficient.
You shoud set this parameter when unpacking data from untrasted source.
example of streaming deserialize from file-like object::
unpacker = Unpacker(file_like)
for o in unpacker:
do_something(o)
example of streaming deserialize from socket::
unpacker = Unpacker()
while 1:
buf = sock.recv(1024**2)
if not buf:
break
unpacker.feed(buf)
for o in unpacker:
do_something(o)
"""
cdef template_context ctx
cdef char* buf
cdef size_t buf_size, buf_head, buf_tail
cdef object file_like
cdef object file_like_read
cdef Py_ssize_t read_size
cdef object object_hook
cdef object encoding, unicode_errors
cdef size_t max_buffer_size
def __cinit__(self):
self.buf = NULL
def __dealloc__(self):
free(self.buf)
self.buf = NULL
def __init__(self, file_like=None, Py_ssize_t read_size=0, use_list=None,
object object_hook=None, object object_pairs_hook=None, object list_hook=None,
encoding=None, unicode_errors='strict', int max_buffer_size=0,
):
cdef char *cenc=NULL, *cerr=NULL
if use_list is None:
warnings.warn("Set use_list explicitly.", category=DeprecationWarning, stacklevel=1)
use_list = 0
self.file_like = file_like
if file_like:
self.file_like_read = file_like.read
if not PyCallable_Check(self.file_like_read):
raise ValueError("`file_like.read` must be a callable.")
if not max_buffer_size:
max_buffer_size = INT_MAX
if read_size > max_buffer_size:
raise ValueError("read_size should be less or equal to max_buffer_size")
if not read_size:
read_size = min(max_buffer_size, 1024**2)
self.max_buffer_size = max_buffer_size
self.read_size = read_size
self.buf = <char*>malloc(read_size)
if self.buf == NULL:
raise MemoryError("Unable to allocate internal buffer.")
self.buf_size = read_size
self.buf_head = 0
self.buf_tail = 0
if encoding is not None:
if isinstance(encoding, unicode):
encoding = encoding.encode('ascii')
self.encoding = encoding
cenc = PyBytes_AsString(encoding)
if unicode_errors is not None:
if isinstance(unicode_errors, unicode):
unicode_errors = unicode_errors.encode('ascii')
self.unicode_errors = unicode_errors
cerr = PyBytes_AsString(unicode_errors)
init_ctx(&self.ctx, object_hook, object_pairs_hook, list_hook, use_list, cenc, cerr)
def feed(self, object next_bytes):
cdef char* buf
cdef Py_ssize_t buf_len
if self.file_like is not None:
raise AssertionError(
"unpacker.feed() is not be able to use with`file_like`.")
PyObject_AsReadBuffer(next_bytes, <const_void_ptr*>&buf, &buf_len)
self.append_buffer(buf, buf_len)
cdef append_buffer(self, void* _buf, Py_ssize_t _buf_len):
cdef:
char* buf = self.buf
char* new_buf
size_t head = self.buf_head
size_t tail = self.buf_tail
size_t buf_size = self.buf_size
size_t new_size
if tail + _buf_len > buf_size:
if ((tail - head) + _buf_len) <= buf_size:
# move to front.
memmove(buf, buf + head, tail - head)
tail -= head
head = 0
else:
# expand buffer.
new_size = (tail-head) + _buf_len
if new_size > self.max_buffer_size:
raise BufferFull
new_size = min(new_size*2, self.max_buffer_size)
new_buf = <char*>malloc(new_size)
if new_buf == NULL:
# self.buf still holds old buffer and will be freed during
# obj destruction
raise MemoryError("Unable to enlarge internal buffer.")
memcpy(new_buf, buf + head, tail - head)
free(buf)
buf = new_buf
buf_size = new_size
tail -= head
head = 0
memcpy(buf + tail, <char*>(_buf), _buf_len)
self.buf = buf
self.buf_head = head
self.buf_size = buf_size
self.buf_tail = tail + _buf_len
cdef read_from_file(self):
next_bytes = self.file_like_read(
min(self.read_size,
self.max_buffer_size - (self.buf_tail - self.buf_head)
))
if next_bytes:
self.append_buffer(PyBytes_AsString(next_bytes), PyBytes_Size(next_bytes))
else:
self.file_like = None
cdef object _unpack(self, bint construct):
cdef int ret
cdef object obj
while 1:
ret = template_execute(&self.ctx, self.buf, self.buf_tail, &self.buf_head, construct)
if ret == 1:
if construct:
obj = template_data(&self.ctx)
else:
obj = None
template_init(&self.ctx)
return obj
elif ret == 0:
if self.file_like is not None:
self.read_from_file()
continue
raise StopIteration("No more data to unpack.")
else:
raise ValueError("Unpack failed: error = %d" % (ret,))
def unpack(self):
"""unpack one object"""
return self._unpack(1)
def skip(self):
"""read and ignore one object, returning None"""
return self._unpack(0)
def __iter__(self):
return self
def __next__(self):
return self._unpack(1)
# for debug.
#def _buf(self):
# return PyString_FromStringAndSize(self.buf, self.buf_tail)
#def _off(self):
# return self.buf_head
|
