from __future__ import absolute_import, unicode_literals import datetime import os import re import sys import time import warnings from io import BytesIO from pprint import pformat from urllib import urlencode, quote from urlparse import urljoin, parse_qsl import Cookie # Some versions of Python 2.7 and later won't need this encoding bug fix: _cookie_encodes_correctly = Cookie.SimpleCookie().value_encode(';') == (';', '"\\073"') # See ticket #13007, http://bugs.python.org/issue2193 and http://trac.edgewall.org/ticket/2256 _tc = Cookie.SimpleCookie() try: _tc.load(b'foo:bar=1') _cookie_allows_colon_in_names = True except Cookie.CookieError: _cookie_allows_colon_in_names = False if _cookie_encodes_correctly and _cookie_allows_colon_in_names: SimpleCookie = Cookie.SimpleCookie else: Morsel = Cookie.Morsel class SimpleCookie(Cookie.SimpleCookie): if not _cookie_encodes_correctly: def value_encode(self, val): # Some browsers do not support quoted-string from RFC 2109, # including some versions of Safari and Internet Explorer. # These browsers split on ';', and some versions of Safari # are known to split on ', '. Therefore, we encode ';' and ',' # SimpleCookie already does the hard work of encoding and decoding. # It uses octal sequences like '\\012' for newline etc. # and non-ASCII chars. We just make use of this mechanism, to # avoid introducing two encoding schemes which would be confusing # and especially awkward for javascript. # NB, contrary to Python docs, value_encode returns a tuple containing # (real val, encoded_val) val, encoded = super(SimpleCookie, self).value_encode(val) encoded = encoded.replace(";", "\\073").replace(",","\\054") # If encoded now contains any quoted chars, we need double quotes # around the whole string. if "\\" in encoded and not encoded.startswith('"'): encoded = '"' + encoded + '"' return val, encoded if not _cookie_allows_colon_in_names: def load(self, rawdata): self.bad_cookies = set() super(SimpleCookie, self).load(smart_str(rawdata)) for key in self.bad_cookies: del self[key] # override private __set() method: # (needed for using our Morsel, and for laxness with CookieError def _BaseCookie__set(self, key, real_value, coded_value): key = smart_str(key) try: M = self.get(key, Morsel()) M.set(key, real_value, coded_value) dict.__setitem__(self, key, M) except Cookie.CookieError: self.bad_cookies.add(key) dict.__setitem__(self, key, Cookie.Morsel()) from django.conf import settings from django.core import signing from django.core.exceptions import ImproperlyConfigured from django.core.files import uploadhandler from django.http.multipartparser import MultiPartParser from django.http.utils import * from django.utils.datastructures import MultiValueDict, ImmutableList from django.utils.encoding import smart_str, iri_to_uri, force_unicode from django.utils.http import cookie_date from django.utils import timezone RESERVED_CHARS="!*'();:@&=+$,/?%#[]" absolute_http_url_re = re.compile(r"^https?://", re.I) class Http404(Exception): pass RAISE_ERROR = object() def build_request_repr(request, path_override=None, GET_override=None, POST_override=None, COOKIES_override=None, META_override=None): """ Builds and returns the request's representation string. The request's attributes may be overridden by pre-processed values. """ # Since this is called as part of error handling, we need to be very # robust against potentially malformed input. try: get = (pformat(GET_override) if GET_override is not None else pformat(request.GET)) except: get = '' if request._post_parse_error: post = '' else: try: post = (pformat(POST_override) if POST_override is not None else pformat(request.POST)) except: post = '' try: cookies = (pformat(COOKIES_override) if COOKIES_override is not None else pformat(request.COOKIES)) except: cookies = '' try: meta = (pformat(META_override) if META_override is not None else pformat(request.META)) except: meta = '' path = path_override if path_override is not None else request.path return smart_str('<%s\npath:%s,\nGET:%s,\nPOST:%s,\nCOOKIES:%s,\nMETA:%s>' % (request.__class__.__name__, path, unicode(get), unicode(post), unicode(cookies), unicode(meta))) class UnreadablePostError(IOError): pass class HttpRequest(object): """A basic HTTP request.""" # The encoding used in GET/POST dicts. None means use default setting. _encoding = None _upload_handlers = [] def __init__(self): self.GET, self.POST, self.COOKIES, self.META, self.FILES = {}, {}, {}, {}, {} self.path = '' self.path_info = '' self.method = None self._post_parse_error = False def __repr__(self): return build_request_repr(self) def get_host(self): """Returns the HTTP host using the environment or request headers.""" # We try three options, in order of decreasing preference. if settings.USE_X_FORWARDED_HOST and ( 'HTTP_X_FORWARDED_HOST' in self.META): host = self.META['HTTP_X_FORWARDED_HOST'] elif 'HTTP_HOST' in self.META: host = self.META['HTTP_HOST'] else: # Reconstruct the host using the algorithm from PEP 333. host = self.META['SERVER_NAME'] server_port = str(self.META['SERVER_PORT']) if server_port != (self.is_secure() and '443' or '80'): host = '%s:%s' % (host, server_port) return host def get_full_path(self): # RFC 3986 requires query string arguments to be in the ASCII range. # Rather than crash if this doesn't happen, we encode defensively. return '%s%s' % (self.path, self.META.get('QUERY_STRING', '') and ('?' + iri_to_uri(self.META.get('QUERY_STRING', ''))) or '') def get_signed_cookie(self, key, default=RAISE_ERROR, salt='', max_age=None): """ Attempts to return a signed cookie. If the signature fails or the cookie has expired, raises an exception... unless you provide the default argument in which case that value will be returned instead. """ try: cookie_value = self.COOKIES[key].encode('utf-8') except KeyError: if default is not RAISE_ERROR: return default else: raise try: value = signing.get_cookie_signer(salt=key + salt).unsign( cookie_value, max_age=max_age) except signing.BadSignature: if default is not RAISE_ERROR: return default else: raise return value def build_absolute_uri(self, location=None): """ Builds an absolute URI from the location and the variables available in this request. If no location is specified, the absolute URI is built on ``request.get_full_path()``. """ if not location: location = self.get_full_path() if not absolute_http_url_re.match(location): current_uri = '%s://%s%s' % (self.is_secure() and 'https' or 'http', self.get_host(), self.path) location = urljoin(current_uri, location) return iri_to_uri(location) def _is_secure(self): return os.environ.get("HTTPS") == "on" def is_secure(self): # First, check the SECURE_PROXY_SSL_HEADER setting. if settings.SECURE_PROXY_SSL_HEADER: try: header, value = settings.SECURE_PROXY_SSL_HEADER except ValueError: raise ImproperlyConfigured('The SECURE_PROXY_SSL_HEADER setting must be a tuple containing two values.') if self.META.get(header, None) == value: return True # Failing that, fall back to _is_secure(), which is a hook for # subclasses to implement. return self._is_secure() def is_ajax(self): return self.META.get('HTTP_X_REQUESTED_WITH') == 'XMLHttpRequest' def _set_encoding(self, val): """ Sets the encoding used for GET/POST accesses. If the GET or POST dictionary has already been created, it is removed and recreated on the next access (so that it is decoded correctly). """ self._encoding = val if hasattr(self, '_get'): del self._get if hasattr(self, '_post'): del self._post def _get_encoding(self): return self._encoding encoding = property(_get_encoding, _set_encoding) def _initialize_handlers(self): self._upload_handlers = [uploadhandler.load_handler(handler, self) for handler in settings.FILE_UPLOAD_HANDLERS] def _set_upload_handlers(self, upload_handlers): if hasattr(self, '_files'): raise AttributeError("You cannot set the upload handlers after the upload has been processed.") self._upload_handlers = upload_handlers def _get_upload_handlers(self): if not self._upload_handlers: # If there are no upload handlers defined, initialize them from settings. self._initialize_handlers() return self._upload_handlers upload_handlers = property(_get_upload_handlers, _set_upload_handlers) def parse_file_upload(self, META, post_data): """Returns a tuple of (POST QueryDict, FILES MultiValueDict).""" self.upload_handlers = ImmutableList( self.upload_handlers, warning = "You cannot alter upload handlers after the upload has been processed." ) parser = MultiPartParser(META, post_data, self.upload_handlers, self.encoding) return parser.parse() @property def body(self): if not hasattr(self, '_body'): if self._read_started: raise Exception("You cannot access body after reading from request's data stream") try: self._body = self.read() except IOError as e: raise UnreadablePostError, e, sys.exc_traceback self._stream = BytesIO(self._body) return self._body @property def raw_post_data(self): warnings.warn('HttpRequest.raw_post_data has been deprecated. Use HttpRequest.body instead.', DeprecationWarning) return self.body def _mark_post_parse_error(self): self._post = QueryDict('') self._files = MultiValueDict() self._post_parse_error = True def _load_post_and_files(self): # Populates self._post and self._files if self.method != 'POST': self._post, self._files = QueryDict('', encoding=self._encoding), MultiValueDict() return if self._read_started and not hasattr(self, '_body'): self._mark_post_parse_error() return if self.META.get('CONTENT_TYPE', '').startswith('multipart'): if hasattr(self, '_body'): # Use already read data data = BytesIO(self._body) else: data = self try: self._post, self._files = self.parse_file_upload(self.META, data) except: # An error occured while parsing POST data. Since when # formatting the error the request handler might access # self.POST, set self._post and self._file to prevent # attempts to parse POST data again. # Mark that an error occured. This allows self.__repr__ to # be explicit about it instead of simply representing an # empty POST self._mark_post_parse_error() raise else: self._post, self._files = QueryDict(self.body, encoding=self._encoding), MultiValueDict() ## File-like and iterator interface. ## ## Expects self._stream to be set to an appropriate source of bytes by ## a corresponding request subclass (e.g. WSGIRequest). ## Also when request data has already been read by request.POST or ## request.body, self._stream points to a BytesIO instance ## containing that data. def read(self, *args, **kwargs): self._read_started = True return self._stream.read(*args, **kwargs) def readline(self, *args, **kwargs): self._read_started = True return self._stream.readline(*args, **kwargs) def xreadlines(self): while True: buf = self.readline() if not buf: break yield buf __iter__ = xreadlines def readlines(self): return list(iter(self)) class QueryDict(MultiValueDict): """ A specialized MultiValueDict that takes a query string when initialized. This is immutable unless you create a copy of it. Values retrieved from this class are converted from the given encoding (DEFAULT_CHARSET by default) to unicode. """ # These are both reset in __init__, but is specified here at the class # level so that unpickling will have valid values _mutable = True _encoding = None def __init__(self, query_string, mutable=False, encoding=None): MultiValueDict.__init__(self) if not encoding: encoding = settings.DEFAULT_CHARSET self.encoding = encoding for key, value in parse_qsl((query_string or ''), True): # keep_blank_values=True self.appendlist(force_unicode(key, encoding, errors='replace'), force_unicode(value, encoding, errors='replace')) self._mutable = mutable def _get_encoding(self): if self._encoding is None: self._encoding = settings.DEFAULT_CHARSET return self._encoding def _set_encoding(self, value): self._encoding = value encoding = property(_get_encoding, _set_encoding) def _assert_mutable(self): if not self._mutable: raise AttributeError("This QueryDict instance is immutable") def __setitem__(self, key, value): self._assert_mutable() key = str_to_unicode(key, self.encoding) value = str_to_unicode(value, self.encoding) MultiValueDict.__setitem__(self, key, value) def __delitem__(self, key): self._assert_mutable() super(QueryDict, self).__delitem__(key) def __copy__(self): result = self.__class__('', mutable=True, encoding=self.encoding) for key, value in dict.items(self): dict.__setitem__(result, key, value) return result def __deepcopy__(self, memo): import copy result = self.__class__('', mutable=True, encoding=self.encoding) memo[id(self)] = result for key, value in dict.items(self): dict.__setitem__(result, copy.deepcopy(key, memo), copy.deepcopy(value, memo)) return result def setlist(self, key, list_): self._assert_mutable() key = str_to_unicode(key, self.encoding) list_ = [str_to_unicode(elt, self.encoding) for elt in list_] MultiValueDict.setlist(self, key, list_) def setlistdefault(self, key, default_list=()): self._assert_mutable() if key not in self: self.setlist(key, default_list) return MultiValueDict.getlist(self, key) def appendlist(self, key, value): self._assert_mutable() key = str_to_unicode(key, self.encoding) value = str_to_unicode(value, self.encoding) MultiValueDict.appendlist(self, key, value) def update(self, other_dict): self._assert_mutable() f = lambda s: str_to_unicode(s, self.encoding) if hasattr(other_dict, 'lists'): for key, valuelist in other_dict.lists(): for value in valuelist: MultiValueDict.update(self, {f(key): f(value)}) else: d = dict([(f(k), f(v)) for k, v in other_dict.items()]) MultiValueDict.update(self, d) def pop(self, key, *args): self._assert_mutable() return MultiValueDict.pop(self, key, *args) def popitem(self): self._assert_mutable() return MultiValueDict.popitem(self) def clear(self): self._assert_mutable() MultiValueDict.clear(self) def setdefault(self, key, default=None): self._assert_mutable() key = str_to_unicode(key, self.encoding) default = str_to_unicode(default, self.encoding) return MultiValueDict.setdefault(self, key, default) def copy(self): """Returns a mutable copy of this object.""" return self.__deepcopy__({}) def urlencode(self, safe=None): """ Returns an encoded string of all query string arguments. :arg safe: Used to specify characters which do not require quoting, for example:: >>> q = QueryDict('', mutable=True) >>> q['next'] = '/a&b/' >>> q.urlencode() 'next=%2Fa%26b%2F' >>> q.urlencode(safe='/') 'next=/a%26b/' """ output = [] if safe: safe = smart_str(safe, self.encoding) encode = lambda k, v: '%s=%s' % ((quote(k, safe), quote(v, safe))) else: encode = lambda k, v: urlencode({k: v}) for k, list_ in self.lists(): k = smart_str(k, self.encoding) output.extend([encode(k, smart_str(v, self.encoding)) for v in list_]) return '&'.join(output) def parse_cookie(cookie): if cookie == '': return {} if not isinstance(cookie, Cookie.BaseCookie): try: c = SimpleCookie() c.load(cookie) except Cookie.CookieError: # Invalid cookie return {} else: c = cookie cookiedict = {} for key in c.keys(): cookiedict[key] = c.get(key).value return cookiedict class BadHeaderError(ValueError): pass class HttpResponse(object): """A basic HTTP response, with content and dictionary-accessed headers.""" status_code = 200 def __init__(self, content='', mimetype=None, status=None, content_type=None): # _headers is a mapping of the lower-case name to the original case of # the header (required for working with legacy systems) and the header # value. Both the name of the header and its value are ASCII strings. self._headers = {} self._charset = settings.DEFAULT_CHARSET if mimetype: # For backwards compatibility. content_type = mimetype if not content_type: content_type = "%s; charset=%s" % (settings.DEFAULT_CONTENT_TYPE, self._charset) self.content = content self.cookies = SimpleCookie() if status: self.status_code = status self['Content-Type'] = content_type def __str__(self): """Full HTTP message, including headers.""" return '\n'.join(['%s: %s' % (key, value) for key, value in self._headers.values()]) \ + '\n\n' + self.content def _convert_to_ascii(self, *values): """Converts all values to ascii strings.""" for value in values: if isinstance(value, unicode): try: value = value.encode('us-ascii') except UnicodeError as e: e.reason += ', HTTP response headers must be in US-ASCII format' raise else: value = str(value) if '\n' in value or '\r' in value: raise BadHeaderError("Header values can't contain newlines (got %r)" % (value)) yield value def __setitem__(self, header, value): header, value = self._convert_to_ascii(header, value) self._headers[header.lower()] = (header, value) def __delitem__(self, header): try: del self._headers[header.lower()] except KeyError: pass def __getitem__(self, header): return self._headers[header.lower()][1] def __getstate__(self): # SimpleCookie is not pickeable with pickle.HIGHEST_PROTOCOL, so we # serialise to a string instead state = self.__dict__.copy() state['cookies'] = str(state['cookies']) return state def __setstate__(self, state): self.__dict__.update(state) self.cookies = SimpleCookie(self.cookies) def has_header(self, header): """Case-insensitive check for a header.""" return header.lower() in self._headers __contains__ = has_header def items(self): return self._headers.values() def get(self, header, alternate=None): return self._headers.get(header.lower(), (None, alternate))[1] def set_cookie(self, key, value='', max_age=None, expires=None, path='/', domain=None, secure=False, httponly=False): """ Sets a cookie. ``expires`` can be: - a string in the correct format, - a naive ``datetime.datetime`` object in UTC, - an aware ``datetime.datetime`` object in any time zone. If it is a ``datetime.datetime`` object then ``max_age`` will be calculated. """ self.cookies[key] = value if expires is not None: if isinstance(expires, datetime.datetime): if timezone.is_aware(expires): expires = timezone.make_naive(expires, timezone.utc) delta = expires - expires.utcnow() # Add one second so the date matches exactly (a fraction of # time gets lost between converting to a timedelta and # then the date string). delta = delta + datetime.timedelta(seconds=1) # Just set max_age - the max_age logic will set expires. expires = None max_age = max(0, delta.days * 86400 + delta.seconds) else: self.cookies[key]['expires'] = expires if max_age is not None: self.cookies[key]['max-age'] = max_age # IE requires expires, so set it if hasn't been already. if not expires: self.cookies[key]['expires'] = cookie_date(time.time() + max_age) if path is not None: self.cookies[key]['path'] = path if domain is not None: self.cookies[key]['domain'] = domain if secure: self.cookies[key]['secure'] = True if httponly: self.cookies[key]['httponly'] = True def set_signed_cookie(self, key, value, salt='', **kwargs): value = signing.get_cookie_signer(salt=key + salt).sign(value) return self.set_cookie(key, value, **kwargs) def delete_cookie(self, key, path='/', domain=None): self.set_cookie(key, max_age=0, path=path, domain=domain, expires='Thu, 01-Jan-1970 00:00:00 GMT') def _get_content(self): if self.has_header('Content-Encoding'): return b''.join([str(e) for e in self._container]) return b''.join([smart_str(e, self._charset) for e in self._container]) def _set_content(self, value): if hasattr(value, '__iter__'): self._container = value self._base_content_is_iter = True else: self._container = [value] self._base_content_is_iter = False content = property(_get_content, _set_content) def __iter__(self): self._iterator = iter(self._container) return self def next(self): chunk = next(self._iterator) if isinstance(chunk, unicode): chunk = chunk.encode(self._charset) return str(chunk) def close(self): if hasattr(self._container, 'close'): self._container.close() # The remaining methods partially implement the file-like object interface. # See http://docs.python.org/lib/bltin-file-objects.html def write(self, content): if self._base_content_is_iter: raise Exception("This %s instance is not writable" % self.__class__) self._container.append(content) def flush(self): pass def tell(self): if self._base_content_is_iter: raise Exception("This %s instance cannot tell its position" % self.__class__) return sum([len(str(chunk)) for chunk in self._container]) class HttpResponseRedirect(HttpResponse): status_code = 302 def __init__(self, redirect_to): super(HttpResponseRedirect, self).__init__() self['Location'] = iri_to_uri(redirect_to) class HttpResponsePermanentRedirect(HttpResponse): status_code = 301 def __init__(self, redirect_to): super(HttpResponsePermanentRedirect, self).__init__() self['Location'] = iri_to_uri(redirect_to) class HttpResponseNotModified(HttpResponse): status_code = 304 class HttpResponseBadRequest(HttpResponse): status_code = 400 class HttpResponseNotFound(HttpResponse): status_code = 404 class HttpResponseForbidden(HttpResponse): status_code = 403 class HttpResponseNotAllowed(HttpResponse): status_code = 405 def __init__(self, permitted_methods): super(HttpResponseNotAllowed, self).__init__() self['Allow'] = ', '.join(permitted_methods) class HttpResponseGone(HttpResponse): status_code = 410 class HttpResponseServerError(HttpResponse): status_code = 500 # A backwards compatible alias for HttpRequest.get_host. def get_host(request): return request.get_host() # It's neither necessary nor appropriate to use # django.utils.encoding.smart_unicode for parsing URLs and form inputs. Thus, # this slightly more restricted function. def str_to_unicode(s, encoding): """ Converts basestring objects to unicode, using the given encoding. Illegally encoded input characters are replaced with Unicode "unknown" codepoint (\ufffd). Returns any non-basestring objects without change. """ if isinstance(s, str): return unicode(s, encoding, 'replace') else: return s