django1/django/http/__init__.py

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import os
from Cookie import SimpleCookie
from pprint import pformat
from urllib import urlencode
from urlparse import urljoin
from django.utils.datastructures import MultiValueDict, FileDict
from django.utils.encoding import smart_str, iri_to_uri, force_unicode
from utils import *
RESERVED_CHARS="!*'();:@&=+$,/?%#[]"
try:
# The mod_python version is more efficient, so try importing it first.
from mod_python.util import parse_qsl
except ImportError:
from cgi import parse_qsl
class Http404(Exception):
pass
class HttpRequest(object):
"A basic HTTP request"
# The encoding used in GET/POST dicts. None means use default setting.
_encoding = None
def __init__(self):
self.GET, self.POST, self.COOKIES, self.META, self.FILES = {}, {}, {}, {}, {}
self.path = ''
self.method = None
def __repr__(self):
return '<HttpRequest\nGET:%s,\nPOST:%s,\nCOOKIES:%s,\nMETA:%s>' % \
(pformat(self.GET), pformat(self.POST), pformat(self.COOKIES),
pformat(self.META))
def __getitem__(self, key):
for d in (self.POST, self.GET):
if key in d:
return d[key]
raise KeyError, "%s not found in either POST or GET" % key
def has_key(self, key):
return key in self.GET or key in self.POST
__contains__ = has_key
def get_host(self):
"Returns the HTTP host using the environment or request headers."
# We try three options, in order of decreasing preference.
if '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 = 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):
return ''
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 ':' in location:
current_uri = '%s://%s%s' % (self.is_secure() and 'https' or 'http',
self.get_host(), self.path)
location = urljoin(current_uri, location)
return location
def is_secure(self):
return os.environ.get("HTTPS") == "on"
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 parse_file_upload(header_dict, post_data):
"Returns a tuple of (POST QueryDict, FILES MultiValueDict)"
import email, email.Message
from cgi import parse_header
raw_message = '\r\n'.join(['%s:%s' % pair for pair in header_dict.items()])
raw_message += '\r\n\r\n' + post_data
msg = email.message_from_string(raw_message)
POST = QueryDict('', mutable=True)
FILES = MultiValueDict()
for submessage in msg.get_payload():
if submessage and isinstance(submessage, email.Message.Message):
name_dict = parse_header(submessage['Content-Disposition'])[1]
# name_dict is something like {'name': 'file', 'filename': 'test.txt'} for file uploads
# or {'name': 'blah'} for POST fields
# We assume all uploaded files have a 'filename' set.
if 'filename' in name_dict:
assert type([]) != type(submessage.get_payload()), "Nested MIME messages are not supported"
if not name_dict['filename'].strip():
continue
# IE submits the full path, so trim everything but the basename.
# (We can't use os.path.basename because that uses the server's
# directory separator, which may not be the same as the
# client's one.)
filename = name_dict['filename'][name_dict['filename'].rfind("\\")+1:]
FILES.appendlist(name_dict['name'], FileDict({
'filename': filename,
'content-type': 'Content-Type' in submessage and submessage['Content-Type'] or None,
'content': submessage.get_payload(),
}))
else:
POST.appendlist(name_dict['name'], submessage.get_payload())
return POST, FILES
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.
"""
def __init__(self, query_string, mutable=False, encoding=None):
MultiValueDict.__init__(self)
if not encoding:
# *Important*: do not import settings any earlier because of note
# in core.handlers.modpython.
from django.conf import settings
encoding = settings.DEFAULT_CHARSET
self.encoding = encoding
self._mutable = True
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 _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)
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)
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)
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):
output = []
for k, list_ in self.lists():
k = smart_str(k, self.encoding)
output.extend([urlencode({k: smart_str(v, self.encoding)}) for v in list_])
return '&'.join(output)
def parse_cookie(cookie):
if cookie == '':
return {}
c = SimpleCookie()
c.load(cookie)
cookiedict = {}
for key in c.keys():
cookiedict[key] = c.get(key).value
return cookiedict
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):
from django.conf import settings
self._charset = settings.DEFAULT_CHARSET
if mimetype:
content_type = mimetype # For backwards compatibility
if not content_type:
content_type = "%s; charset=%s" % (settings.DEFAULT_CONTENT_TYPE,
settings.DEFAULT_CHARSET)
if not isinstance(content, basestring) and hasattr(content, '__iter__'):
self._container = content
self._is_string = False
else:
self._container = [content]
self._is_string = True
self.cookies = SimpleCookie()
if status:
self.status_code = status
# _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.
self._headers = {'content-type': ('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 __setitem__(self, 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 has_header(self, header):
"Case-insensitive check for a header"
return self._headers.has_key(header.lower())
__contains__ = has_header
def items(self):
return self._headers.values()
def get(self, header, alternate):
return self._headers.get(header.lower(), (None, alternate))[1]
def set_cookie(self, key, value='', max_age=None, expires=None, path='/', domain=None, secure=None):
self.cookies[key] = value
for var in ('max_age', 'path', 'domain', 'secure', 'expires'):
val = locals()[var]
if val is not None:
self.cookies[key][var.replace('_', '-')] = val
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 ''.join(self._container)
return smart_str(''.join(self._container), self._charset)
def _set_content(self, value):
self._container = [value]
self._is_string = True
content = property(_get_content, _set_content)
def __iter__(self):
self._iterator = iter(self._container)
return self
def next(self):
chunk = self._iterator.next()
if isinstance(chunk, unicode):
chunk = chunk.encode(self._charset)
return 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 not self._is_string:
raise Exception, "This %s instance is not writable" % self.__class__
self._container.append(content)
def flush(self):
pass
def tell(self):
if not self._is_string:
raise Exception, "This %s instance cannot tell its position" % self.__class__
return sum([len(chunk) for chunk in self._container])
class HttpResponseRedirect(HttpResponse):
status_code = 302
def __init__(self, redirect_to):
HttpResponse.__init__(self)
self['Location'] = iri_to_uri(redirect_to)
class HttpResponsePermanentRedirect(HttpResponse):
status_code = 301
def __init__(self, redirect_to):
HttpResponse.__init__(self)
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):
HttpResponse.__init__(self)
self['Allow'] = ', '.join(permitted_methods)
class HttpResponseGone(HttpResponse):
status_code = 410
def __init__(self, *args, **kwargs):
HttpResponse.__init__(self, *args, **kwargs)
class HttpResponseServerError(HttpResponse):
status_code = 500
def __init__(self, *args, **kwargs):
HttpResponse.__init__(self, *args, **kwargs)
# 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):
"""
Convert basestring objects to unicode, using the given encoding. Illegaly
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