1
0
mirror of https://github.com/django/django.git synced 2024-12-29 12:36:08 +00:00
django/tests/regressiontests/requests/tests.py

245 lines
11 KiB
Python
Raw Normal View History

import time
from datetime import datetime, timedelta
from StringIO import StringIO
from django.core.handlers.modpython import ModPythonRequest
from django.core.handlers.wsgi import WSGIRequest, LimitedStream
from django.http import HttpRequest, HttpResponse, parse_cookie
from django.utils import unittest
from django.utils.http import cookie_date
class RequestsTests(unittest.TestCase):
def test_httprequest(self):
request = HttpRequest()
self.assertEqual(request.GET.keys(), [])
self.assertEqual(request.POST.keys(), [])
self.assertEqual(request.COOKIES.keys(), [])
self.assertEqual(request.META.keys(), [])
def test_wsgirequest(self):
request = WSGIRequest({'PATH_INFO': 'bogus', 'REQUEST_METHOD': 'bogus', 'wsgi.input': StringIO('')})
self.assertEqual(request.GET.keys(), [])
self.assertEqual(request.POST.keys(), [])
self.assertEqual(request.COOKIES.keys(), [])
self.assertEqual(set(request.META.keys()), set(['PATH_INFO', 'REQUEST_METHOD', 'SCRIPT_NAME', 'wsgi.input']))
self.assertEqual(request.META['PATH_INFO'], 'bogus')
self.assertEqual(request.META['REQUEST_METHOD'], 'bogus')
self.assertEqual(request.META['SCRIPT_NAME'], '')
def test_modpythonrequest(self):
class FakeModPythonRequest(ModPythonRequest):
def __init__(self, *args, **kwargs):
super(FakeModPythonRequest, self).__init__(*args, **kwargs)
self._get = self._post = self._meta = self._cookies = {}
class Dummy:
def get_options(self):
return {}
req = Dummy()
req.uri = 'bogus'
request = FakeModPythonRequest(req)
self.assertEqual(request.path, 'bogus')
self.assertEqual(request.GET.keys(), [])
self.assertEqual(request.POST.keys(), [])
self.assertEqual(request.COOKIES.keys(), [])
self.assertEqual(request.META.keys(), [])
def test_parse_cookie(self):
self.assertEqual(parse_cookie('invalid:key=true'), {})
def test_httprequest_location(self):
request = HttpRequest()
self.assertEqual(request.build_absolute_uri(location="https://www.example.com/asdf"),
'https://www.example.com/asdf')
request.get_host = lambda: 'www.example.com'
request.path = ''
self.assertEqual(request.build_absolute_uri(location="/path/with:colons"),
'http://www.example.com/path/with:colons')
def test_near_expiration(self):
"Cookie will expire when an near expiration time is provided"
response = HttpResponse()
# There is a timing weakness in this test; The
# expected result for max-age requires that there be
# a very slight difference between the evaluated expiration
# time, and the time evaluated in set_cookie(). If this
# difference doesn't exist, the cookie time will be
# 1 second larger. To avoid the problem, put in a quick sleep,
# which guarantees that there will be a time difference.
expires = datetime.utcnow() + timedelta(seconds=10)
time.sleep(0.001)
response.set_cookie('datetime', expires=expires)
datetime_cookie = response.cookies['datetime']
self.assertEqual(datetime_cookie['max-age'], 10)
def test_far_expiration(self):
"Cookie will expire when an distant expiration time is provided"
response = HttpResponse()
response.set_cookie('datetime', expires=datetime(2028, 1, 1, 4, 5, 6))
datetime_cookie = response.cookies['datetime']
self.assertEqual(datetime_cookie['expires'], 'Sat, 01-Jan-2028 04:05:06 GMT')
def test_max_age_expiration(self):
"Cookie will expire if max_age is provided"
response = HttpResponse()
response.set_cookie('max_age', max_age=10)
max_age_cookie = response.cookies['max_age']
self.assertEqual(max_age_cookie['max-age'], 10)
self.assertEqual(max_age_cookie['expires'], cookie_date(time.time()+10))
def test_httponly_cookie(self):
response = HttpResponse()
response.set_cookie('example', httponly=True)
example_cookie = response.cookies['example']
# A compat cookie may be in use -- check that it has worked
# both as an output string, and using the cookie attributes
self.assertTrue('; httponly' in str(example_cookie))
self.assertTrue(example_cookie['httponly'])
def test_limited_stream(self):
# Read all of a limited stream
stream = LimitedStream(StringIO('test'), 2)
self.assertEqual(stream.read(), 'te')
# Reading again returns nothing.
self.assertEqual(stream.read(), '')
# Read a number of characters greater than the stream has to offer
stream = LimitedStream(StringIO('test'), 2)
self.assertEqual(stream.read(5), 'te')
# Reading again returns nothing.
self.assertEqual(stream.readline(5), '')
# Read sequentially from a stream
stream = LimitedStream(StringIO('12345678'), 8)
self.assertEqual(stream.read(5), '12345')
self.assertEqual(stream.read(5), '678')
# Reading again returns nothing.
self.assertEqual(stream.readline(5), '')
# Read lines from a stream
stream = LimitedStream(StringIO('1234\n5678\nabcd\nefgh\nijkl'), 24)
# Read a full line, unconditionally
self.assertEqual(stream.readline(), '1234\n')
# Read a number of characters less than a line
self.assertEqual(stream.readline(2), '56')
# Read the rest of the partial line
self.assertEqual(stream.readline(), '78\n')
# Read a full line, with a character limit greater than the line length
self.assertEqual(stream.readline(6), 'abcd\n')
# Read the next line, deliberately terminated at the line end
self.assertEqual(stream.readline(4), 'efgh')
# Read the next line... just the line end
self.assertEqual(stream.readline(), '\n')
# Read everything else.
self.assertEqual(stream.readline(), 'ijkl')
# Regression for #15018
# If a stream contains a newline, but the provided length
# is less than the number of provided characters, the newline
# doesn't reset the available character count
stream = LimitedStream(StringIO('1234\nabcdef'), 9)
self.assertEqual(stream.readline(10), '1234\n')
self.assertEqual(stream.readline(3), 'abc')
# Now expire the available characters
self.assertEqual(stream.readline(3), 'd')
# Reading again returns nothing.
self.assertEqual(stream.readline(2), '')
# Same test, but with read, not readline.
stream = LimitedStream(StringIO('1234\nabcdef'), 9)
self.assertEqual(stream.read(6), '1234\na')
self.assertEqual(stream.read(2), 'bc')
self.assertEqual(stream.read(2), 'd')
self.assertEqual(stream.read(2), '')
self.assertEqual(stream.read(), '')
def test_stream(self):
request = WSGIRequest({'REQUEST_METHOD': 'POST', 'wsgi.input': StringIO('name=value')})
self.assertEqual(request.read(), 'name=value')
def test_read_after_value(self):
"""
Reading from request is allowed after accessing request contents as
POST or raw_post_data.
"""
request = WSGIRequest({'REQUEST_METHOD': 'POST', 'wsgi.input': StringIO('name=value')})
self.assertEqual(request.POST, {u'name': [u'value']})
self.assertEqual(request.raw_post_data, 'name=value')
self.assertEqual(request.read(), 'name=value')
def test_value_after_read(self):
"""
Construction of POST or raw_post_data is not allowed after reading
from request.
"""
request = WSGIRequest({'REQUEST_METHOD': 'POST', 'wsgi.input': StringIO('name=value')})
self.assertEqual(request.read(2), 'na')
self.assertRaises(Exception, lambda: request.raw_post_data)
self.assertEqual(request.POST, {})
def test_raw_post_data_after_POST_multipart(self):
"""
Reading raw_post_data after parsing multipart is not allowed
"""
# Because multipart is used for large amounts fo data i.e. file uploads,
# we don't want the data held in memory twice, and we don't want to
# silence the error by setting raw_post_data = '' either.
payload = "\r\n".join([
'--boundary',
'Content-Disposition: form-data; name="name"',
'',
'value',
'--boundary--'
''])
request = WSGIRequest({'REQUEST_METHOD': 'POST',
'CONTENT_TYPE': 'multipart/form-data; boundary=boundary',
'CONTENT_LENGTH': len(payload),
'wsgi.input': StringIO(payload)})
self.assertEqual(request.POST, {u'name': [u'value']})
self.assertRaises(Exception, lambda: request.raw_post_data)
def test_read_by_lines(self):
request = WSGIRequest({'REQUEST_METHOD': 'POST', 'wsgi.input': StringIO('name=value')})
self.assertEqual(list(request), ['name=value'])
def test_POST_after_raw_post_data_read(self):
"""
POST should be populated even if raw_post_data is read first
"""
request = WSGIRequest({'REQUEST_METHOD': 'POST', 'wsgi.input': StringIO('name=value')})
raw_data = request.raw_post_data
self.assertEqual(request.POST, {u'name': [u'value']})
def test_POST_after_raw_post_data_read_and_stream_read(self):
"""
POST should be populated even if raw_post_data is read first, and then
the stream is read second.
"""
request = WSGIRequest({'REQUEST_METHOD': 'POST', 'wsgi.input': StringIO('name=value')})
raw_data = request.raw_post_data
self.assertEqual(request.read(1), u'n')
self.assertEqual(request.POST, {u'name': [u'value']})
def test_POST_after_raw_post_data_read_and_stream_read_multipart(self):
"""
POST should be populated even if raw_post_data is read first, and then
the stream is read second. Using multipart/form-data instead of urlencoded.
"""
payload = "\r\n".join([
'--boundary',
'Content-Disposition: form-data; name="name"',
'',
'value',
'--boundary--'
''])
request = WSGIRequest({'REQUEST_METHOD': 'POST',
'CONTENT_TYPE': 'multipart/form-data; boundary=boundary',
'CONTENT_LENGTH': len(payload),
'wsgi.input': StringIO(payload)})
raw_data = request.raw_post_data
# Consume enough data to mess up the parsing:
self.assertEqual(request.read(13), u'--boundary\r\nC')
self.assertEqual(request.POST, {u'name': [u'value']})