Current File : //opt/alt/python35/lib64/python3.5/site-packages/aiohttp/web_request.py
import asyncio
import collections
import datetime
import io
import json
import re
import socket
import string
import tempfile
import types
import warnings
from email.utils import parsedate
from http.cookies import SimpleCookie
from types import MappingProxyType
from urllib.parse import parse_qsl
import attr
from multidict import CIMultiDict, CIMultiDictProxy, MultiDict, MultiDictProxy
from yarl import URL
from . import hdrs, multipart
from .helpers import HeadersMixin, reify, sentinel
from .streams import EmptyStreamReader
from .web_exceptions import HTTPRequestEntityTooLarge
__all__ = ('BaseRequest', 'FileField', 'Request')
@attr.s(frozen=True, slots=True)
class FileField:
name = attr.ib(type=str)
filename = attr.ib(type=str)
file = attr.ib(type=io.BufferedReader)
content_type = attr.ib(type=str)
headers = attr.ib(type=CIMultiDictProxy)
_TCHAR = string.digits + string.ascii_letters + r"!#$%&'*+.^_`|~-"
# '-' at the end to prevent interpretation as range in a char class
_TOKEN = r'[{tchar}]+'.format(tchar=_TCHAR)
_QDTEXT = r'[{}]'.format(
r''.join(chr(c) for c in (0x09, 0x20, 0x21) + tuple(range(0x23, 0x7F))))
# qdtext includes 0x5C to escape 0x5D ('\]')
# qdtext excludes obs-text (because obsoleted, and encoding not specified)
_QUOTED_PAIR = r'\\[\t !-~]'
_QUOTED_STRING = r'"(?:{quoted_pair}|{qdtext})*"'.format(
qdtext=_QDTEXT, quoted_pair=_QUOTED_PAIR)
_FORWARDED_PAIR = (
r'({token})=({token}|{quoted_string})'.format(
token=_TOKEN,
quoted_string=_QUOTED_STRING))
_QUOTED_PAIR_REPLACE_RE = re.compile(r'\\([\t !-~])')
# same pattern as _QUOTED_PAIR but contains a capture group
_FORWARDED_PAIR_RE = re.compile(_FORWARDED_PAIR)
############################################################
# HTTP Request
############################################################
class BaseRequest(collections.MutableMapping, HeadersMixin):
POST_METHODS = {hdrs.METH_PATCH, hdrs.METH_POST, hdrs.METH_PUT,
hdrs.METH_TRACE, hdrs.METH_DELETE}
ATTRS = HeadersMixin.ATTRS | frozenset([
'_message', '_protocol', '_payload_writer', '_payload', '_headers',
'_method', '_version', '_rel_url', '_post', '_read_bytes',
'_state', '_cache', '_task', '_client_max_size', '_loop'])
def __init__(self, message, payload, protocol, payload_writer, task,
loop,
*, client_max_size=1024**2,
state=None,
scheme=None, host=None, remote=None):
if state is None:
state = {}
self._message = message
self._protocol = protocol
self._payload_writer = payload_writer
self._payload = payload
self._headers = message.headers
self._method = message.method
self._version = message.version
self._rel_url = message.url
self._post = None
self._read_bytes = None
self._state = state
self._cache = {}
self._task = task
self._client_max_size = client_max_size
self._loop = loop
if scheme is not None:
self._cache['scheme'] = scheme
if host is not None:
self._cache['host'] = host
if remote is not None:
self._cache['remote'] = remote
def clone(self, *, method=sentinel, rel_url=sentinel,
headers=sentinel, scheme=sentinel, host=sentinel,
remote=sentinel):
"""Clone itself with replacement some attributes.
Creates and returns a new instance of Request object. If no parameters
are given, an exact copy is returned. If a parameter is not passed, it
will reuse the one from the current request object.
"""
if self._read_bytes:
raise RuntimeError("Cannot clone request "
"after reading it's content")
dct = {}
if method is not sentinel:
dct['method'] = method
if rel_url is not sentinel:
rel_url = URL(rel_url)
dct['url'] = rel_url
dct['path'] = str(rel_url)
if headers is not sentinel:
dct['headers'] = CIMultiDict(headers)
dct['raw_headers'] = tuple((k.encode('utf-8'), v.encode('utf-8'))
for k, v in headers.items())
message = self._message._replace(**dct)
kwargs = {}
if scheme is not sentinel:
kwargs['scheme'] = scheme
if host is not sentinel:
kwargs['host'] = host
if remote is not sentinel:
kwargs['remote'] = remote
return self.__class__(
message,
self._payload,
self._protocol,
self._payload_writer,
self._task,
self._loop,
client_max_size=self._client_max_size,
state=self._state.copy(),
**kwargs)
@property
def task(self):
return self._task
@property
def protocol(self):
return self._protocol
@property
def transport(self):
if self._protocol is None:
return None
return self._protocol.transport
@property
def writer(self):
return self._payload_writer
@property
def message(self):
return self._message
@property
def rel_url(self):
return self._rel_url
@property
def loop(self):
return self._loop
# MutableMapping API
def __getitem__(self, key):
return self._state[key]
def __setitem__(self, key, value):
self._state[key] = value
def __delitem__(self, key):
del self._state[key]
def __len__(self):
return len(self._state)
def __iter__(self):
return iter(self._state)
########
@property
def secure(self):
"""A bool indicating if the request is handled with SSL."""
return self.scheme == 'https'
@reify
def forwarded(self):
"""A tuple containing all parsed Forwarded header(s).
Makes an effort to parse Forwarded headers as specified by RFC 7239:
- It adds one (immutable) dictionary per Forwarded 'field-value', ie
per proxy. The element corresponds to the data in the Forwarded
field-value added by the first proxy encountered by the client. Each
subsequent item corresponds to those added by later proxies.
- It checks that every value has valid syntax in general as specified
in section 4: either a 'token' or a 'quoted-string'.
- It un-escapes found escape sequences.
- It does NOT validate 'by' and 'for' contents as specified in section
6.
- It does NOT validate 'host' contents (Host ABNF).
- It does NOT validate 'proto' contents for valid URI scheme names.
Returns a tuple containing one or more immutable dicts
"""
elems = []
for field_value in self._message.headers.getall(hdrs.FORWARDED, ()):
length = len(field_value)
pos = 0
need_separator = False
elem = {}
elems.append(types.MappingProxyType(elem))
while 0 <= pos < length:
match = _FORWARDED_PAIR_RE.match(field_value, pos)
if match is not None: # got a valid forwarded-pair
if need_separator:
# bad syntax here, skip to next comma
pos = field_value.find(',', pos)
else:
(name, value) = match.groups()
if value[0] == '"':
# quoted string: remove quotes and unescape
value = _QUOTED_PAIR_REPLACE_RE.sub(r'\1',
value[1:-1])
elem[name.lower()] = value
pos += len(match.group(0))
need_separator = True
elif field_value[pos] == ',': # next forwarded-element
need_separator = False
elem = {}
elems.append(types.MappingProxyType(elem))
pos += 1
elif field_value[pos] == ';': # next forwarded-pair
need_separator = False
pos += 1
elif field_value[pos] in ' \t':
# Allow whitespace even between forwarded-pairs, though
# RFC 7239 doesn't. This simplifies code and is in line
# with Postel's law.
pos += 1
else:
# bad syntax here, skip to next comma
pos = field_value.find(',', pos)
return tuple(elems)
@reify
def scheme(self):
"""A string representing the scheme of the request.
Hostname is resolved in this order:
- overridden value by .clone(scheme=new_scheme) call.
- type of connection to peer: HTTPS if socket is SSL, HTTP otherwise.
'http' or 'https'.
"""
if self.transport.get_extra_info('sslcontext'):
return 'https'
else:
return 'http'
@property
def method(self):
"""Read only property for getting HTTP method.
The value is upper-cased str like 'GET', 'POST', 'PUT' etc.
"""
return self._method
@property
def version(self):
"""Read only property for getting HTTP version of request.
Returns aiohttp.protocol.HttpVersion instance.
"""
return self._version
@reify
def host(self):
"""Hostname of the request.
Hostname is resolved in this order:
- overridden value by .clone(host=new_host) call.
- HOST HTTP header
- socket.getfqdn() value
"""
host = self._message.headers.get(hdrs.HOST)
if host is not None:
return host
else:
return socket.getfqdn()
@reify
def remote(self):
"""Remote IP of client initiated HTTP request.
The IP is resolved in this order:
- overridden value by .clone(remote=new_remote) call.
- peername of opened socket
"""
if self.transport is None:
return None
peername = self.transport.get_extra_info('peername')
if isinstance(peername, (list, tuple)):
return peername[0]
else:
return peername
@reify
def url(self):
url = URL.build(scheme=self.scheme, host=self.host)
return url.join(self._rel_url)
@property
def path(self):
"""The URL including *PATH INFO* without the host or scheme.
E.g., ``/app/blog``
"""
return self._rel_url.path
@reify
def path_qs(self):
"""The URL including PATH_INFO and the query string.
E.g, /app/blog?id=10
"""
return str(self._rel_url)
@property
def raw_path(self):
""" The URL including raw *PATH INFO* without the host or scheme.
Warning, the path is unquoted and may contains non valid URL characters
E.g., ``/my%2Fpath%7Cwith%21some%25strange%24characters``
"""
return self._message.path
@property
def query(self):
"""A multidict with all the variables in the query string."""
return self._rel_url.query
@property
def query_string(self):
"""The query string in the URL.
E.g., id=10
"""
return self._rel_url.query_string
@property
def headers(self):
"""A case-insensitive multidict proxy with all headers."""
return self._headers
@property
def raw_headers(self):
"""A sequence of pars for all headers."""
return self._message.raw_headers
@reify
def if_modified_since(self, _IF_MODIFIED_SINCE=hdrs.IF_MODIFIED_SINCE):
"""The value of If-Modified-Since HTTP header, or None.
This header is represented as a `datetime` object.
"""
httpdate = self.headers.get(_IF_MODIFIED_SINCE)
if httpdate is not None:
timetuple = parsedate(httpdate)
if timetuple is not None:
return datetime.datetime(*timetuple[:6],
tzinfo=datetime.timezone.utc)
return None
@property
def keep_alive(self):
"""Is keepalive enabled by client?"""
return not self._message.should_close
@reify
def cookies(self):
"""Return request cookies.
A read-only dictionary-like object.
"""
raw = self.headers.get(hdrs.COOKIE, '')
parsed = SimpleCookie(raw)
return MappingProxyType(
{key: val.value for key, val in parsed.items()})
@property
def http_range(self, *, _RANGE=hdrs.RANGE):
"""The content of Range HTTP header.
Return a slice instance.
"""
rng = self._headers.get(_RANGE)
start, end = None, None
if rng is not None:
try:
pattern = r'^bytes=(\d*)-(\d*)$'
start, end = re.findall(pattern, rng)[0]
except IndexError: # pattern was not found in header
raise ValueError("range not in acceptible format")
end = int(end) if end else None
start = int(start) if start else None
if start is None and end is not None:
# end with no start is to return tail of content
end = -end
if start is not None and end is not None:
# end is inclusive in range header, exclusive for slice
end += 1
if start >= end:
raise ValueError('start cannot be after end')
if start is end is None: # No valid range supplied
raise ValueError('No start or end of range specified')
return slice(start, end, 1)
@property
def content(self):
"""Return raw payload stream."""
return self._payload
@property
def has_body(self):
"""Return True if request's HTTP BODY can be read, False otherwise."""
warnings.warn(
"Deprecated, use .can_read_body #2005",
DeprecationWarning, stacklevel=2)
return not self._payload.at_eof()
@property
def can_read_body(self):
"""Return True if request's HTTP BODY can be read, False otherwise."""
return not self._payload.at_eof()
@property
def body_exists(self):
"""Return True if request has HTTP BODY, False otherwise."""
return type(self._payload) is not EmptyStreamReader
async def release(self):
"""Release request.
Eat unread part of HTTP BODY if present.
"""
while not self._payload.at_eof():
await self._payload.readany()
async def read(self):
"""Read request body if present.
Returns bytes object with full request content.
"""
if self._read_bytes is None:
body = bytearray()
while True:
chunk = await self._payload.readany()
body.extend(chunk)
if self._client_max_size \
and len(body) >= self._client_max_size:
raise HTTPRequestEntityTooLarge
if not chunk:
break
self._read_bytes = bytes(body)
return self._read_bytes
async def text(self):
"""Return BODY as text using encoding from .charset."""
bytes_body = await self.read()
encoding = self.charset or 'utf-8'
return bytes_body.decode(encoding)
async def json(self, *, loads=json.loads):
"""Return BODY as JSON."""
body = await self.text()
return loads(body)
async def multipart(self, *, reader=multipart.MultipartReader):
"""Return async iterator to process BODY as multipart."""
return reader(self._headers, self._payload)
async def post(self):
"""Return POST parameters."""
if self._post is not None:
return self._post
if self._method not in self.POST_METHODS:
self._post = MultiDictProxy(MultiDict())
return self._post
content_type = self.content_type
if (content_type not in ('',
'application/x-www-form-urlencoded',
'multipart/form-data')):
self._post = MultiDictProxy(MultiDict())
return self._post
out = MultiDict()
if content_type == 'multipart/form-data':
multipart = await self.multipart()
field = await multipart.next()
while field is not None:
size = 0
max_size = self._client_max_size
content_type = field.headers.get(hdrs.CONTENT_TYPE)
if field.filename:
# store file in temp file
tmp = tempfile.TemporaryFile()
chunk = await field.read_chunk(size=2**16)
while chunk:
chunk = field.decode(chunk)
tmp.write(chunk)
size += len(chunk)
if 0 < max_size < size:
raise ValueError(
'Maximum request body size exceeded')
chunk = await field.read_chunk(size=2**16)
tmp.seek(0)
ff = FileField(field.name, field.filename,
tmp, content_type, field.headers)
out.add(field.name, ff)
else:
value = await field.read(decode=True)
if content_type is None or \
content_type.startswith('text/'):
charset = field.get_charset(default='utf-8')
value = value.decode(charset)
out.add(field.name, value)
size += len(value)
if 0 < max_size < size:
raise ValueError(
'Maximum request body size exceeded')
field = await multipart.next()
else:
data = await self.read()
if data:
charset = self.charset or 'utf-8'
out.extend(
parse_qsl(
data.rstrip().decode(charset),
keep_blank_values=True,
encoding=charset))
self._post = MultiDictProxy(out)
return self._post
def __repr__(self):
ascii_encodable_path = self.path.encode('ascii', 'backslashreplace') \
.decode('ascii')
return "<{} {} {} >".format(self.__class__.__name__,
self._method, ascii_encodable_path)
@asyncio.coroutine
def _prepare_hook(self, response):
return
yield # pragma: no cover
class Request(BaseRequest):
ATTRS = BaseRequest.ATTRS | frozenset(['_match_info'])
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
# matchdict, route_name, handler
# or information about traversal lookup
self._match_info = None # initialized after route resolving
def __setattr__(self, name, val):
if name not in self.ATTRS:
warnings.warn("Setting custom {}.{} attribute "
"is discouraged".format(self.__class__.__name__,
name),
DeprecationWarning,
stacklevel=2)
super().__setattr__(name, val)
def clone(self, *, method=sentinel, rel_url=sentinel,
headers=sentinel, scheme=sentinel, host=sentinel,
remote=sentinel):
ret = super().clone(method=method,
rel_url=rel_url,
headers=headers,
scheme=scheme,
host=host,
remote=remote)
ret._match_info = self._match_info
return ret
@property
def match_info(self):
"""Result of route resolving."""
return self._match_info
@property
def app(self):
"""Application instance."""
return self._match_info.current_app
async def _prepare_hook(self, response):
match_info = self._match_info
if match_info is None:
return
for app in match_info.apps:
await app.on_response_prepare.send(self, response)
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