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django/tests/csrf_tests/tests.py
2024-10-16 11:52:22 +02:00

1492 lines
58 KiB
Python

import re
from django.conf import settings
from django.contrib.sessions.backends.cache import SessionStore
from django.core.exceptions import ImproperlyConfigured
from django.http import HttpRequest, HttpResponse, UnreadablePostError
from django.middleware.csrf import (
CSRF_ALLOWED_CHARS,
CSRF_SECRET_LENGTH,
CSRF_SESSION_KEY,
CSRF_TOKEN_LENGTH,
REASON_BAD_ORIGIN,
REASON_CSRF_TOKEN_MISSING,
REASON_NO_CSRF_COOKIE,
CsrfViewMiddleware,
InvalidTokenFormat,
RejectRequest,
_check_token_format,
_does_token_match,
_mask_cipher_secret,
_unmask_cipher_token,
get_token,
rotate_token,
)
from django.test import SimpleTestCase, override_settings
from django.views.decorators.csrf import csrf_exempt, requires_csrf_token
from .views import (
ensure_csrf_cookie_view,
ensured_and_protected_view,
non_token_view_using_request_processor,
post_form_view,
protected_view,
sandwiched_rotate_token_view,
token_view,
)
# This is a test (unmasked) CSRF cookie / secret.
TEST_SECRET = "lcccccccX2kcccccccY2jcccccccssIC"
# Two masked versions of TEST_SECRET for testing purposes.
MASKED_TEST_SECRET1 = "1bcdefghij2bcdefghij3bcdefghij4bcdefghij5bcdefghij6bcdefghijABCD"
MASKED_TEST_SECRET2 = "2JgchWvM1tpxT2lfz9aydoXW9yT1DN3NdLiejYxOOlzzV4nhBbYqmqZYbAV3V5Bf"
class CsrfFunctionTestMixin:
# This method depends on _unmask_cipher_token() being correct.
def assertMaskedSecretCorrect(self, masked_secret, secret):
"""Test that a string is a valid masked version of a secret."""
self.assertEqual(len(masked_secret), CSRF_TOKEN_LENGTH)
self.assertEqual(len(secret), CSRF_SECRET_LENGTH)
self.assertTrue(
set(masked_secret).issubset(set(CSRF_ALLOWED_CHARS)),
msg=f"invalid characters in {masked_secret!r}",
)
actual = _unmask_cipher_token(masked_secret)
self.assertEqual(actual, secret)
class CsrfFunctionTests(CsrfFunctionTestMixin, SimpleTestCase):
def test_unmask_cipher_token(self):
cases = [
(TEST_SECRET, MASKED_TEST_SECRET1),
(TEST_SECRET, MASKED_TEST_SECRET2),
(
32 * "a",
"vFioG3XOLyGyGsPRFyB9iYUs341ufzIEvFioG3XOLyGyGsPRFyB9iYUs341ufzIE",
),
(32 * "a", 64 * "a"),
(32 * "a", 64 * "b"),
(32 * "b", 32 * "a" + 32 * "b"),
(32 * "b", 32 * "b" + 32 * "c"),
(32 * "c", 32 * "a" + 32 * "c"),
]
for secret, masked_secret in cases:
with self.subTest(masked_secret=masked_secret):
actual = _unmask_cipher_token(masked_secret)
self.assertEqual(actual, secret)
def test_mask_cipher_secret(self):
cases = [
32 * "a",
TEST_SECRET,
"da4SrUiHJYoJ0HYQ0vcgisoIuFOxx4ER",
]
for secret in cases:
with self.subTest(secret=secret):
masked = _mask_cipher_secret(secret)
self.assertMaskedSecretCorrect(masked, secret)
def test_get_token_csrf_cookie_set(self):
request = HttpRequest()
request.META["CSRF_COOKIE"] = TEST_SECRET
self.assertNotIn("CSRF_COOKIE_NEEDS_UPDATE", request.META)
token = get_token(request)
self.assertMaskedSecretCorrect(token, TEST_SECRET)
# The existing cookie is preserved.
self.assertEqual(request.META["CSRF_COOKIE"], TEST_SECRET)
self.assertIs(request.META["CSRF_COOKIE_NEEDS_UPDATE"], True)
def test_get_token_csrf_cookie_not_set(self):
request = HttpRequest()
self.assertNotIn("CSRF_COOKIE", request.META)
self.assertNotIn("CSRF_COOKIE_NEEDS_UPDATE", request.META)
token = get_token(request)
cookie = request.META["CSRF_COOKIE"]
self.assertMaskedSecretCorrect(token, cookie)
self.assertIs(request.META["CSRF_COOKIE_NEEDS_UPDATE"], True)
def test_rotate_token(self):
request = HttpRequest()
request.META["CSRF_COOKIE"] = TEST_SECRET
self.assertNotIn("CSRF_COOKIE_NEEDS_UPDATE", request.META)
rotate_token(request)
# The underlying secret was changed.
cookie = request.META["CSRF_COOKIE"]
self.assertEqual(len(cookie), CSRF_SECRET_LENGTH)
self.assertNotEqual(cookie, TEST_SECRET)
self.assertIs(request.META["CSRF_COOKIE_NEEDS_UPDATE"], True)
def test_check_token_format_valid(self):
cases = [
# A token of length CSRF_SECRET_LENGTH.
TEST_SECRET,
# A token of length CSRF_TOKEN_LENGTH.
MASKED_TEST_SECRET1,
64 * "a",
]
for token in cases:
with self.subTest(token=token):
actual = _check_token_format(token)
self.assertIsNone(actual)
def test_check_token_format_invalid(self):
cases = [
(64 * "*", "has invalid characters"),
(16 * "a", "has incorrect length"),
]
for token, expected_message in cases:
with self.subTest(token=token):
with self.assertRaisesMessage(InvalidTokenFormat, expected_message):
_check_token_format(token)
def test_does_token_match(self):
cases = [
# Masked tokens match.
((MASKED_TEST_SECRET1, TEST_SECRET), True),
((MASKED_TEST_SECRET2, TEST_SECRET), True),
((64 * "a", _unmask_cipher_token(64 * "a")), True),
# Unmasked tokens match.
((TEST_SECRET, TEST_SECRET), True),
((32 * "a", 32 * "a"), True),
# Incorrect tokens don't match.
((32 * "a", TEST_SECRET), False),
((64 * "a", TEST_SECRET), False),
]
for (token, secret), expected in cases:
with self.subTest(token=token, secret=secret):
actual = _does_token_match(token, secret)
self.assertIs(actual, expected)
def test_does_token_match_wrong_token_length(self):
with self.assertRaises(AssertionError):
_does_token_match(16 * "a", TEST_SECRET)
class TestingSessionStore(SessionStore):
"""
A version of SessionStore that stores what cookie values are passed to
set_cookie() when CSRF_USE_SESSIONS=True.
"""
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
# This is a list of the cookie values passed to set_cookie() over
# the course of the request-response.
self._cookies_set = []
def __setitem__(self, key, value):
super().__setitem__(key, value)
self._cookies_set.append(value)
class TestingHttpRequest(HttpRequest):
"""
A version of HttpRequest that lets one track and change some things more
easily.
"""
def __init__(self):
super().__init__()
self.session = TestingSessionStore()
def is_secure(self):
return getattr(self, "_is_secure_override", False)
class PostErrorRequest(TestingHttpRequest):
"""
TestingHttpRequest that can raise errors when accessing POST data.
"""
post_error = None
def _get_post(self):
if self.post_error is not None:
raise self.post_error
return self._post
def _set_post(self, post):
self._post = post
POST = property(_get_post, _set_post)
class CsrfViewMiddlewareTestMixin(CsrfFunctionTestMixin):
"""
Shared methods and tests for session-based and cookie-based tokens.
"""
_csrf_id_cookie = MASKED_TEST_SECRET1
_csrf_id_token = MASKED_TEST_SECRET2
def _set_csrf_cookie(self, req, cookie):
raise NotImplementedError("This method must be implemented by a subclass.")
def _read_csrf_cookie(self, req, resp):
"""
Return the CSRF cookie as a string, or False if no cookie is present.
"""
raise NotImplementedError("This method must be implemented by a subclass.")
def _get_cookies_set(self, req, resp):
"""
Return a list of the cookie values passed to set_cookie() over the
course of the request-response.
"""
raise NotImplementedError("This method must be implemented by a subclass.")
def _get_request(self, method=None, cookie=None, request_class=None):
if method is None:
method = "GET"
if request_class is None:
request_class = TestingHttpRequest
req = request_class()
req.method = method
if cookie is not None:
self._set_csrf_cookie(req, cookie)
return req
def _get_csrf_cookie_request(
self,
method=None,
cookie=None,
post_token=None,
meta_token=None,
token_header=None,
request_class=None,
):
"""
The method argument defaults to "GET". The cookie argument defaults to
this class's default test cookie. The post_token and meta_token
arguments are included in the request's req.POST and req.META headers,
respectively, when that argument is provided and non-None. The
token_header argument is the header key to use for req.META, defaults
to "HTTP_X_CSRFTOKEN".
"""
if cookie is None:
cookie = self._csrf_id_cookie
if token_header is None:
token_header = "HTTP_X_CSRFTOKEN"
req = self._get_request(
method=method,
cookie=cookie,
request_class=request_class,
)
if post_token is not None:
req.POST["csrfmiddlewaretoken"] = post_token
if meta_token is not None:
req.META[token_header] = meta_token
return req
def _get_POST_csrf_cookie_request(
self,
cookie=None,
post_token=None,
meta_token=None,
token_header=None,
request_class=None,
):
return self._get_csrf_cookie_request(
method="POST",
cookie=cookie,
post_token=post_token,
meta_token=meta_token,
token_header=token_header,
request_class=request_class,
)
def _get_POST_request_with_token(self, cookie=None, request_class=None):
"""The cookie argument defaults to this class's default test cookie."""
return self._get_POST_csrf_cookie_request(
cookie=cookie,
post_token=self._csrf_id_token,
request_class=request_class,
)
# This method depends on _unmask_cipher_token() being correct.
def _check_token_present(self, response, csrf_secret=None):
if csrf_secret is None:
csrf_secret = TEST_SECRET
text = str(response.content, response.charset)
match = re.search('name="csrfmiddlewaretoken" value="(.*?)"', text)
self.assertTrue(
match,
f"Could not find a csrfmiddlewaretoken value in: {text}",
)
csrf_token = match[1]
self.assertMaskedSecretCorrect(csrf_token, csrf_secret)
def test_process_response_get_token_not_used(self):
"""
If get_token() is not called, the view middleware does not
add a cookie.
"""
# This is important to make pages cacheable. Pages which do call
# get_token(), assuming they use the token, are not cacheable because
# the token is specific to the user
req = self._get_request()
# non_token_view_using_request_processor does not call get_token(), but
# does use the csrf request processor. By using this, we are testing
# that the view processor is properly lazy and doesn't call get_token()
# until needed.
mw = CsrfViewMiddleware(non_token_view_using_request_processor)
mw.process_request(req)
mw.process_view(req, non_token_view_using_request_processor, (), {})
resp = mw(req)
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertIs(csrf_cookie, False)
def _check_bad_or_missing_cookie(self, cookie, expected):
"""Passing None for cookie includes no cookie."""
req = self._get_request(method="POST", cookie=cookie)
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
with self.assertLogs("django.security.csrf", "WARNING") as cm:
resp = mw.process_view(req, post_form_view, (), {})
self.assertEqual(403, resp.status_code)
self.assertEqual(cm.records[0].getMessage(), "Forbidden (%s): " % expected)
def test_no_csrf_cookie(self):
"""
If no CSRF cookies is present, the middleware rejects the incoming
request. This will stop login CSRF.
"""
self._check_bad_or_missing_cookie(None, REASON_NO_CSRF_COOKIE)
def _check_bad_or_missing_token(
self,
expected,
post_token=None,
meta_token=None,
token_header=None,
):
req = self._get_POST_csrf_cookie_request(
post_token=post_token,
meta_token=meta_token,
token_header=token_header,
)
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
with self.assertLogs("django.security.csrf", "WARNING") as cm:
resp = mw.process_view(req, post_form_view, (), {})
self.assertEqual(403, resp.status_code)
self.assertEqual(resp["Content-Type"], "text/html; charset=utf-8")
self.assertEqual(cm.records[0].getMessage(), "Forbidden (%s): " % expected)
def test_csrf_cookie_bad_or_missing_token(self):
"""
If a CSRF cookie is present but the token is missing or invalid, the
middleware rejects the incoming request.
"""
cases = [
(None, None, REASON_CSRF_TOKEN_MISSING),
(16 * "a", None, "CSRF token from POST has incorrect length."),
(64 * "*", None, "CSRF token from POST has invalid characters."),
(64 * "a", None, "CSRF token from POST incorrect."),
(
None,
16 * "a",
"CSRF token from the 'X-Csrftoken' HTTP header has incorrect length.",
),
(
None,
64 * "*",
"CSRF token from the 'X-Csrftoken' HTTP header has invalid characters.",
),
(
None,
64 * "a",
"CSRF token from the 'X-Csrftoken' HTTP header incorrect.",
),
]
for post_token, meta_token, expected in cases:
with self.subTest(post_token=post_token, meta_token=meta_token):
self._check_bad_or_missing_token(
expected,
post_token=post_token,
meta_token=meta_token,
)
@override_settings(CSRF_HEADER_NAME="HTTP_X_CSRFTOKEN_CUSTOMIZED")
def test_csrf_cookie_bad_token_custom_header(self):
"""
If a CSRF cookie is present and an invalid token is passed via a
custom CSRF_HEADER_NAME, the middleware rejects the incoming request.
"""
expected = (
"CSRF token from the 'X-Csrftoken-Customized' HTTP header has "
"incorrect length."
)
self._check_bad_or_missing_token(
expected,
meta_token=16 * "a",
token_header="HTTP_X_CSRFTOKEN_CUSTOMIZED",
)
def test_process_request_csrf_cookie_and_token(self):
"""
If both a cookie and a token is present, the middleware lets it through.
"""
req = self._get_POST_request_with_token()
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
def test_process_request_csrf_cookie_no_token_exempt_view(self):
"""
If a CSRF cookie is present and no token, but the csrf_exempt decorator
has been applied to the view, the middleware lets it through
"""
req = self._get_POST_csrf_cookie_request()
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, csrf_exempt(post_form_view), (), {})
self.assertIsNone(resp)
def test_csrf_token_in_header(self):
"""
The token may be passed in a header instead of in the form.
"""
req = self._get_POST_csrf_cookie_request(meta_token=self._csrf_id_token)
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
@override_settings(CSRF_HEADER_NAME="HTTP_X_CSRFTOKEN_CUSTOMIZED")
def test_csrf_token_in_header_with_customized_name(self):
"""
settings.CSRF_HEADER_NAME can be used to customize the CSRF header name
"""
req = self._get_POST_csrf_cookie_request(
meta_token=self._csrf_id_token,
token_header="HTTP_X_CSRFTOKEN_CUSTOMIZED",
)
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
def test_put_and_delete_rejected(self):
"""
HTTP PUT and DELETE methods have protection
"""
req = self._get_request(method="PUT")
mw = CsrfViewMiddleware(post_form_view)
with self.assertLogs("django.security.csrf", "WARNING") as cm:
resp = mw.process_view(req, post_form_view, (), {})
self.assertEqual(403, resp.status_code)
self.assertEqual(
cm.records[0].getMessage(), "Forbidden (%s): " % REASON_NO_CSRF_COOKIE
)
req = self._get_request(method="DELETE")
with self.assertLogs("django.security.csrf", "WARNING") as cm:
resp = mw.process_view(req, post_form_view, (), {})
self.assertEqual(403, resp.status_code)
self.assertEqual(
cm.records[0].getMessage(), "Forbidden (%s): " % REASON_NO_CSRF_COOKIE
)
def test_put_and_delete_allowed(self):
"""
HTTP PUT and DELETE can get through with X-CSRFToken and a cookie.
"""
req = self._get_csrf_cookie_request(
method="PUT", meta_token=self._csrf_id_token
)
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
req = self._get_csrf_cookie_request(
method="DELETE", meta_token=self._csrf_id_token
)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
def test_rotate_token_triggers_second_reset(self):
"""
If rotate_token() is called after the token is reset in
CsrfViewMiddleware's process_response() and before another call to
the same process_response(), the cookie is reset a second time.
"""
req = self._get_POST_request_with_token()
resp = sandwiched_rotate_token_view(req)
self.assertContains(resp, "OK")
actual_secret = self._read_csrf_cookie(req, resp)
# set_cookie() was called a second time with a different secret.
cookies_set = self._get_cookies_set(req, resp)
# Only compare the last two to exclude a spurious entry that's present
# when CsrfViewMiddlewareUseSessionsTests is running.
self.assertEqual(cookies_set[-2:], [TEST_SECRET, actual_secret])
self.assertNotEqual(actual_secret, TEST_SECRET)
# Tests for the template tag method
def test_token_node_no_csrf_cookie(self):
"""
CsrfTokenNode works when no CSRF cookie is set.
"""
req = self._get_request()
resp = token_view(req)
token = get_token(req)
self.assertIsNotNone(token)
csrf_secret = _unmask_cipher_token(token)
self._check_token_present(resp, csrf_secret)
def test_token_node_empty_csrf_cookie(self):
"""
A new token is sent if the csrf_cookie is the empty string.
"""
req = self._get_request(cookie="")
mw = CsrfViewMiddleware(token_view)
mw.process_view(req, token_view, (), {})
resp = token_view(req)
token = get_token(req)
self.assertIsNotNone(token)
csrf_secret = _unmask_cipher_token(token)
self._check_token_present(resp, csrf_secret)
def test_token_node_with_csrf_cookie(self):
"""
CsrfTokenNode works when a CSRF cookie is set.
"""
req = self._get_csrf_cookie_request()
mw = CsrfViewMiddleware(token_view)
mw.process_request(req)
mw.process_view(req, token_view, (), {})
resp = token_view(req)
self._check_token_present(resp)
def test_get_token_for_exempt_view(self):
"""
get_token still works for a view decorated with 'csrf_exempt'.
"""
req = self._get_csrf_cookie_request()
mw = CsrfViewMiddleware(token_view)
mw.process_request(req)
mw.process_view(req, csrf_exempt(token_view), (), {})
resp = token_view(req)
self._check_token_present(resp)
def test_get_token_for_requires_csrf_token_view(self):
"""
get_token() works for a view decorated solely with requires_csrf_token.
"""
req = self._get_csrf_cookie_request()
resp = requires_csrf_token(token_view)(req)
self._check_token_present(resp)
def test_token_node_with_new_csrf_cookie(self):
"""
CsrfTokenNode works when a CSRF cookie is created by
the middleware (when one was not already present)
"""
req = self._get_request()
mw = CsrfViewMiddleware(token_view)
mw.process_view(req, token_view, (), {})
resp = mw(req)
csrf_cookie = self._read_csrf_cookie(req, resp)
self._check_token_present(resp, csrf_cookie)
def test_cookie_not_reset_on_accepted_request(self):
"""
The csrf token used in posts is changed on every request (although
stays equivalent). The csrf cookie should not change on accepted
requests. If it appears in the response, it should keep its value.
"""
req = self._get_POST_request_with_token()
mw = CsrfViewMiddleware(token_view)
mw.process_request(req)
mw.process_view(req, token_view, (), {})
resp = mw(req)
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertEqual(
csrf_cookie,
TEST_SECRET,
"CSRF cookie was changed on an accepted request",
)
@override_settings(DEBUG=True, ALLOWED_HOSTS=["www.example.com"])
def test_https_bad_referer(self):
"""
A POST HTTPS request with a bad referer is rejected
"""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_REFERER"] = "https://www.evil.org/somepage"
req.META["SERVER_PORT"] = "443"
mw = CsrfViewMiddleware(post_form_view)
response = mw.process_view(req, post_form_view, (), {})
self.assertContains(
response,
"Referer checking failed - https://www.evil.org/somepage does not "
"match any trusted origins.",
status_code=403,
)
def _check_referer_rejects(self, mw, req):
with self.assertRaises(RejectRequest):
mw._check_referer(req)
@override_settings(DEBUG=True)
def test_https_no_referer(self):
"""A POST HTTPS request with a missing referer is rejected."""
req = self._get_POST_request_with_token()
req._is_secure_override = True
mw = CsrfViewMiddleware(post_form_view)
self._check_referer_rejects(mw, req)
response = mw.process_view(req, post_form_view, (), {})
self.assertContains(
response,
"Referer checking failed - no Referer.",
status_code=403,
)
def test_https_malformed_host(self):
"""
CsrfViewMiddleware generates a 403 response if it receives an HTTPS
request with a bad host.
"""
req = self._get_request(method="POST")
req._is_secure_override = True
req.META["HTTP_HOST"] = "@malformed"
req.META["HTTP_REFERER"] = "https://www.evil.org/somepage"
req.META["SERVER_PORT"] = "443"
mw = CsrfViewMiddleware(token_view)
expected = (
"Referer checking failed - https://www.evil.org/somepage does not "
"match any trusted origins."
)
with self.assertRaisesMessage(RejectRequest, expected):
mw._check_referer(req)
response = mw.process_view(req, token_view, (), {})
self.assertEqual(response.status_code, 403)
def test_origin_malformed_host(self):
req = self._get_request(method="POST")
req._is_secure_override = True
req.META["HTTP_HOST"] = "@malformed"
req.META["HTTP_ORIGIN"] = "https://www.evil.org"
mw = CsrfViewMiddleware(token_view)
self._check_referer_rejects(mw, req)
response = mw.process_view(req, token_view, (), {})
self.assertEqual(response.status_code, 403)
@override_settings(DEBUG=True)
def test_https_malformed_referer(self):
"""
A POST HTTPS request with a bad referer is rejected.
"""
malformed_referer_msg = "Referer checking failed - Referer is malformed."
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_REFERER"] = "http://http://www.example.com/"
mw = CsrfViewMiddleware(post_form_view)
self._check_referer_rejects(mw, req)
response = mw.process_view(req, post_form_view, (), {})
self.assertContains(
response,
"Referer checking failed - Referer is insecure while host is secure.",
status_code=403,
)
# Empty
req.META["HTTP_REFERER"] = ""
self._check_referer_rejects(mw, req)
response = mw.process_view(req, post_form_view, (), {})
self.assertContains(response, malformed_referer_msg, status_code=403)
# Non-ASCII
req.META["HTTP_REFERER"] = "ØBöIß"
self._check_referer_rejects(mw, req)
response = mw.process_view(req, post_form_view, (), {})
self.assertContains(response, malformed_referer_msg, status_code=403)
# missing scheme
# >>> urlsplit('//example.com/')
# SplitResult(scheme='', netloc='example.com', path='/', query='', fragment='')
req.META["HTTP_REFERER"] = "//example.com/"
self._check_referer_rejects(mw, req)
response = mw.process_view(req, post_form_view, (), {})
self.assertContains(response, malformed_referer_msg, status_code=403)
# missing netloc
# >>> urlsplit('https://')
# SplitResult(scheme='https', netloc='', path='', query='', fragment='')
req.META["HTTP_REFERER"] = "https://"
self._check_referer_rejects(mw, req)
response = mw.process_view(req, post_form_view, (), {})
self.assertContains(response, malformed_referer_msg, status_code=403)
# Invalid URL
# >>> urlsplit('https://[')
# ValueError: Invalid IPv6 URL
req.META["HTTP_REFERER"] = "https://["
self._check_referer_rejects(mw, req)
response = mw.process_view(req, post_form_view, (), {})
self.assertContains(response, malformed_referer_msg, status_code=403)
@override_settings(ALLOWED_HOSTS=["www.example.com"])
def test_https_good_referer(self):
"""
A POST HTTPS request with a good referer is accepted.
"""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_REFERER"] = "https://www.example.com/somepage"
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
@override_settings(ALLOWED_HOSTS=["www.example.com"])
def test_https_good_referer_2(self):
"""
A POST HTTPS request with a good referer is accepted where the referer
contains no trailing slash.
"""
# See ticket #15617
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_REFERER"] = "https://www.example.com"
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
def _test_https_good_referer_behind_proxy(self):
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META.update(
{
"HTTP_HOST": "10.0.0.2",
"HTTP_REFERER": "https://www.example.com/somepage",
"SERVER_PORT": "8080",
"HTTP_X_FORWARDED_HOST": "www.example.com",
"HTTP_X_FORWARDED_PORT": "443",
}
)
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
@override_settings(CSRF_TRUSTED_ORIGINS=["https://dashboard.example.com"])
def test_https_good_referer_malformed_host(self):
"""
A POST HTTPS request is accepted if it receives a good referer with
a bad host.
"""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "@malformed"
req.META["HTTP_REFERER"] = "https://dashboard.example.com/somepage"
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
@override_settings(
ALLOWED_HOSTS=["www.example.com"],
CSRF_TRUSTED_ORIGINS=["https://dashboard.example.com"],
)
def test_https_csrf_trusted_origin_allowed(self):
"""
A POST HTTPS request with a referer added to the CSRF_TRUSTED_ORIGINS
setting is accepted.
"""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_REFERER"] = "https://dashboard.example.com"
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
@override_settings(
ALLOWED_HOSTS=["www.example.com"],
CSRF_TRUSTED_ORIGINS=["https://*.example.com"],
)
def test_https_csrf_wildcard_trusted_origin_allowed(self):
"""
A POST HTTPS request with a referer that matches a CSRF_TRUSTED_ORIGINS
wildcard is accepted.
"""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_REFERER"] = "https://dashboard.example.com"
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
response = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(response)
def _test_https_good_referer_matches_cookie_domain(self):
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_REFERER"] = "https://foo.example.com/"
req.META["SERVER_PORT"] = "443"
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
response = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(response)
def _test_https_good_referer_matches_cookie_domain_with_different_port(self):
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_REFERER"] = "https://foo.example.com:4443/"
req.META["SERVER_PORT"] = "4443"
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
response = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(response)
def test_ensures_csrf_cookie_no_logging(self):
"""
ensure_csrf_cookie() doesn't log warnings (#19436).
"""
with self.assertNoLogs("django.security.csrf", "WARNING"):
req = self._get_request()
ensure_csrf_cookie_view(req)
def test_reading_post_data_raises_unreadable_post_error(self):
"""
An UnreadablePostError raised while reading the POST data should be
handled by the middleware.
"""
req = self._get_POST_request_with_token()
mw = CsrfViewMiddleware(post_form_view)
mw.process_request(req)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
req = self._get_POST_request_with_token(request_class=PostErrorRequest)
req.post_error = UnreadablePostError("Error reading input data.")
mw.process_request(req)
with self.assertLogs("django.security.csrf", "WARNING") as cm:
resp = mw.process_view(req, post_form_view, (), {})
self.assertEqual(resp.status_code, 403)
self.assertEqual(
cm.records[0].getMessage(),
"Forbidden (%s): " % REASON_CSRF_TOKEN_MISSING,
)
def test_reading_post_data_raises_os_error(self):
"""
An OSError raised while reading the POST data should not be handled by
the middleware.
"""
mw = CsrfViewMiddleware(post_form_view)
req = self._get_POST_request_with_token(request_class=PostErrorRequest)
req.post_error = OSError("Deleted directories/Missing permissions.")
mw.process_request(req)
with self.assertRaises(OSError):
mw.process_view(req, post_form_view, (), {})
@override_settings(ALLOWED_HOSTS=["www.example.com"])
def test_bad_origin_bad_domain(self):
"""A request with a bad origin is rejected."""
req = self._get_POST_request_with_token()
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_ORIGIN"] = "https://www.evil.org"
mw = CsrfViewMiddleware(post_form_view)
self._check_referer_rejects(mw, req)
self.assertIs(mw._origin_verified(req), False)
with self.assertLogs("django.security.csrf", "WARNING") as cm:
response = mw.process_view(req, post_form_view, (), {})
self.assertEqual(response.status_code, 403)
msg = REASON_BAD_ORIGIN % req.META["HTTP_ORIGIN"]
self.assertEqual(cm.records[0].getMessage(), "Forbidden (%s): " % msg)
@override_settings(ALLOWED_HOSTS=["www.example.com"])
def test_bad_origin_null_origin(self):
"""A request with a null origin is rejected."""
req = self._get_POST_request_with_token()
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_ORIGIN"] = "null"
mw = CsrfViewMiddleware(post_form_view)
self._check_referer_rejects(mw, req)
self.assertIs(mw._origin_verified(req), False)
with self.assertLogs("django.security.csrf", "WARNING") as cm:
response = mw.process_view(req, post_form_view, (), {})
self.assertEqual(response.status_code, 403)
msg = REASON_BAD_ORIGIN % req.META["HTTP_ORIGIN"]
self.assertEqual(cm.records[0].getMessage(), "Forbidden (%s): " % msg)
@override_settings(ALLOWED_HOSTS=["www.example.com"])
def test_bad_origin_bad_protocol(self):
"""A request with an origin with wrong protocol is rejected."""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_ORIGIN"] = "http://example.com"
mw = CsrfViewMiddleware(post_form_view)
self._check_referer_rejects(mw, req)
self.assertIs(mw._origin_verified(req), False)
with self.assertLogs("django.security.csrf", "WARNING") as cm:
response = mw.process_view(req, post_form_view, (), {})
self.assertEqual(response.status_code, 403)
msg = REASON_BAD_ORIGIN % req.META["HTTP_ORIGIN"]
self.assertEqual(cm.records[0].getMessage(), "Forbidden (%s): " % msg)
@override_settings(
ALLOWED_HOSTS=["www.example.com"],
CSRF_TRUSTED_ORIGINS=[
"http://no-match.com",
"https://*.example.com",
"http://*.no-match.com",
"http://*.no-match-2.com",
],
)
def test_bad_origin_csrf_trusted_origin_bad_protocol(self):
"""
A request with an origin with the wrong protocol compared to
CSRF_TRUSTED_ORIGINS is rejected.
"""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_ORIGIN"] = "http://foo.example.com"
mw = CsrfViewMiddleware(post_form_view)
self._check_referer_rejects(mw, req)
self.assertIs(mw._origin_verified(req), False)
with self.assertLogs("django.security.csrf", "WARNING") as cm:
response = mw.process_view(req, post_form_view, (), {})
self.assertEqual(response.status_code, 403)
msg = REASON_BAD_ORIGIN % req.META["HTTP_ORIGIN"]
self.assertEqual(cm.records[0].getMessage(), "Forbidden (%s): " % msg)
self.assertEqual(mw.allowed_origins_exact, {"http://no-match.com"})
self.assertEqual(
mw.allowed_origin_subdomains,
{
"https": [".example.com"],
"http": [".no-match.com", ".no-match-2.com"],
},
)
@override_settings(ALLOWED_HOSTS=["www.example.com"])
def test_bad_origin_cannot_be_parsed(self):
"""
A POST request with an origin that can't be parsed by urlsplit() is
rejected.
"""
req = self._get_POST_request_with_token()
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_ORIGIN"] = "https://["
mw = CsrfViewMiddleware(post_form_view)
self._check_referer_rejects(mw, req)
self.assertIs(mw._origin_verified(req), False)
with self.assertLogs("django.security.csrf", "WARNING") as cm:
response = mw.process_view(req, post_form_view, (), {})
self.assertEqual(response.status_code, 403)
msg = REASON_BAD_ORIGIN % req.META["HTTP_ORIGIN"]
self.assertEqual(cm.records[0].getMessage(), "Forbidden (%s): " % msg)
@override_settings(ALLOWED_HOSTS=["www.example.com"])
def test_good_origin_insecure(self):
"""A POST HTTP request with a good origin is accepted."""
req = self._get_POST_request_with_token()
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_ORIGIN"] = "http://www.example.com"
mw = CsrfViewMiddleware(post_form_view)
self.assertIs(mw._origin_verified(req), True)
response = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(response)
@override_settings(ALLOWED_HOSTS=["www.example.com"])
def test_good_origin_secure(self):
"""A POST HTTPS request with a good origin is accepted."""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_ORIGIN"] = "https://www.example.com"
mw = CsrfViewMiddleware(post_form_view)
self.assertIs(mw._origin_verified(req), True)
response = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(response)
@override_settings(
ALLOWED_HOSTS=["www.example.com"],
CSRF_TRUSTED_ORIGINS=["https://dashboard.example.com"],
)
def test_good_origin_csrf_trusted_origin_allowed(self):
"""
A POST request with an origin added to the CSRF_TRUSTED_ORIGINS
setting is accepted.
"""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_ORIGIN"] = "https://dashboard.example.com"
mw = CsrfViewMiddleware(post_form_view)
self.assertIs(mw._origin_verified(req), True)
resp = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(resp)
self.assertEqual(mw.allowed_origins_exact, {"https://dashboard.example.com"})
self.assertEqual(mw.allowed_origin_subdomains, {})
@override_settings(
ALLOWED_HOSTS=["www.example.com"],
CSRF_TRUSTED_ORIGINS=["https://*.example.com"],
)
def test_good_origin_wildcard_csrf_trusted_origin_allowed(self):
"""
A POST request with an origin that matches a CSRF_TRUSTED_ORIGINS
wildcard is accepted.
"""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_HOST"] = "www.example.com"
req.META["HTTP_ORIGIN"] = "https://foo.example.com"
mw = CsrfViewMiddleware(post_form_view)
self.assertIs(mw._origin_verified(req), True)
response = mw.process_view(req, post_form_view, (), {})
self.assertIsNone(response)
self.assertEqual(mw.allowed_origins_exact, set())
self.assertEqual(mw.allowed_origin_subdomains, {"https": [".example.com"]})
class CsrfViewMiddlewareTests(CsrfViewMiddlewareTestMixin, SimpleTestCase):
def _set_csrf_cookie(self, req, cookie):
req.COOKIES[settings.CSRF_COOKIE_NAME] = cookie
def _read_csrf_cookie(self, req, resp):
"""
Return the CSRF cookie as a string, or False if no cookie is present.
"""
if settings.CSRF_COOKIE_NAME not in resp.cookies:
return False
csrf_cookie = resp.cookies[settings.CSRF_COOKIE_NAME]
return csrf_cookie.value
def _get_cookies_set(self, req, resp):
return resp._cookies_set
def test_ensures_csrf_cookie_no_middleware(self):
"""
The ensure_csrf_cookie() decorator works without middleware.
"""
req = self._get_request()
resp = ensure_csrf_cookie_view(req)
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertTrue(csrf_cookie)
self.assertIn("Cookie", resp.get("Vary", ""))
def test_ensures_csrf_cookie_with_middleware(self):
"""
The ensure_csrf_cookie() decorator works with the CsrfViewMiddleware
enabled.
"""
req = self._get_request()
mw = CsrfViewMiddleware(ensure_csrf_cookie_view)
mw.process_view(req, ensure_csrf_cookie_view, (), {})
resp = mw(req)
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertTrue(csrf_cookie)
self.assertIn("Cookie", resp.get("Vary", ""))
def test_csrf_cookie_age(self):
"""
CSRF cookie age can be set using settings.CSRF_COOKIE_AGE.
"""
req = self._get_request()
MAX_AGE = 123
with self.settings(
CSRF_COOKIE_NAME="csrfcookie",
CSRF_COOKIE_DOMAIN=".example.com",
CSRF_COOKIE_AGE=MAX_AGE,
CSRF_COOKIE_PATH="/test/",
CSRF_COOKIE_SECURE=True,
CSRF_COOKIE_HTTPONLY=True,
):
# token_view calls get_token() indirectly
mw = CsrfViewMiddleware(token_view)
mw.process_view(req, token_view, (), {})
resp = mw(req)
max_age = resp.cookies.get("csrfcookie").get("max-age")
self.assertEqual(max_age, MAX_AGE)
def test_csrf_cookie_age_none(self):
"""
CSRF cookie age does not have max age set and therefore uses
session-based cookies.
"""
req = self._get_request()
MAX_AGE = None
with self.settings(
CSRF_COOKIE_NAME="csrfcookie",
CSRF_COOKIE_DOMAIN=".example.com",
CSRF_COOKIE_AGE=MAX_AGE,
CSRF_COOKIE_PATH="/test/",
CSRF_COOKIE_SECURE=True,
CSRF_COOKIE_HTTPONLY=True,
):
# token_view calls get_token() indirectly
mw = CsrfViewMiddleware(token_view)
mw.process_view(req, token_view, (), {})
resp = mw(req)
max_age = resp.cookies.get("csrfcookie").get("max-age")
self.assertEqual(max_age, "")
def test_csrf_cookie_samesite(self):
req = self._get_request()
with self.settings(
CSRF_COOKIE_NAME="csrfcookie", CSRF_COOKIE_SAMESITE="Strict"
):
mw = CsrfViewMiddleware(token_view)
mw.process_view(req, token_view, (), {})
resp = mw(req)
self.assertEqual(resp.cookies["csrfcookie"]["samesite"], "Strict")
def test_bad_csrf_cookie_characters(self):
"""
If the CSRF cookie has invalid characters in a POST request, the
middleware rejects the incoming request.
"""
self._check_bad_or_missing_cookie(
64 * "*", "CSRF cookie has invalid characters."
)
def test_bad_csrf_cookie_length(self):
"""
If the CSRF cookie has an incorrect length in a POST request, the
middleware rejects the incoming request.
"""
self._check_bad_or_missing_cookie(16 * "a", "CSRF cookie has incorrect length.")
def test_process_view_token_too_long(self):
"""
If the token is longer than expected, it is ignored and a new token is
created.
"""
req = self._get_request(cookie="x" * 100000)
mw = CsrfViewMiddleware(token_view)
mw.process_view(req, token_view, (), {})
resp = mw(req)
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertEqual(len(csrf_cookie), CSRF_SECRET_LENGTH)
def test_process_view_token_invalid_chars(self):
"""
If the token contains non-alphanumeric characters, it is ignored and a
new token is created.
"""
token = ("!@#" + self._csrf_id_token)[:CSRF_TOKEN_LENGTH]
req = self._get_request(cookie=token)
mw = CsrfViewMiddleware(token_view)
mw.process_view(req, token_view, (), {})
resp = mw(req)
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertEqual(len(csrf_cookie), CSRF_SECRET_LENGTH)
self.assertNotEqual(csrf_cookie, token)
def test_masked_unmasked_combinations(self):
"""
All combinations are allowed of (1) masked and unmasked cookies,
(2) masked and unmasked tokens, and (3) tokens provided via POST and
the X-CSRFToken header.
"""
cases = [
(TEST_SECRET, TEST_SECRET, None),
(TEST_SECRET, MASKED_TEST_SECRET2, None),
(TEST_SECRET, None, TEST_SECRET),
(TEST_SECRET, None, MASKED_TEST_SECRET2),
(MASKED_TEST_SECRET1, TEST_SECRET, None),
(MASKED_TEST_SECRET1, MASKED_TEST_SECRET2, None),
(MASKED_TEST_SECRET1, None, TEST_SECRET),
(MASKED_TEST_SECRET1, None, MASKED_TEST_SECRET2),
]
for args in cases:
with self.subTest(args=args):
cookie, post_token, meta_token = args
req = self._get_POST_csrf_cookie_request(
cookie=cookie,
post_token=post_token,
meta_token=meta_token,
)
mw = CsrfViewMiddleware(token_view)
mw.process_request(req)
resp = mw.process_view(req, token_view, (), {})
self.assertIsNone(resp)
def test_set_cookie_called_only_once(self):
"""
set_cookie() is called only once when the view is decorated with both
ensure_csrf_cookie and csrf_protect.
"""
req = self._get_POST_request_with_token()
resp = ensured_and_protected_view(req)
self.assertContains(resp, "OK")
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertEqual(csrf_cookie, TEST_SECRET)
# set_cookie() was called only once and with the expected secret.
cookies_set = self._get_cookies_set(req, resp)
self.assertEqual(cookies_set, [TEST_SECRET])
def test_invalid_cookie_replaced_on_GET(self):
"""
A CSRF cookie with the wrong format is replaced during a GET request.
"""
req = self._get_request(cookie="badvalue")
resp = protected_view(req)
self.assertContains(resp, "OK")
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertTrue(csrf_cookie, msg="No CSRF cookie was sent.")
self.assertEqual(len(csrf_cookie), CSRF_SECRET_LENGTH)
def test_valid_secret_not_replaced_on_GET(self):
"""
Masked and unmasked CSRF cookies are not replaced during a GET request.
"""
cases = [
TEST_SECRET,
MASKED_TEST_SECRET1,
]
for cookie in cases:
with self.subTest(cookie=cookie):
req = self._get_request(cookie=cookie)
resp = protected_view(req)
self.assertContains(resp, "OK")
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertFalse(csrf_cookie, msg="A CSRF cookie was sent.")
def test_masked_secret_accepted_and_replaced(self):
"""
For a view that uses the csrf_token, the csrf cookie is replaced with
the unmasked version if originally masked.
"""
req = self._get_POST_request_with_token(cookie=MASKED_TEST_SECRET1)
mw = CsrfViewMiddleware(token_view)
mw.process_request(req)
resp = mw.process_view(req, token_view, (), {})
self.assertIsNone(resp)
resp = mw(req)
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertEqual(csrf_cookie, TEST_SECRET)
self._check_token_present(resp, csrf_cookie)
def test_bare_secret_accepted_and_not_replaced(self):
"""
The csrf cookie is left unchanged if originally not masked.
"""
req = self._get_POST_request_with_token(cookie=TEST_SECRET)
mw = CsrfViewMiddleware(token_view)
mw.process_request(req)
resp = mw.process_view(req, token_view, (), {})
self.assertIsNone(resp)
resp = mw(req)
csrf_cookie = self._read_csrf_cookie(req, resp)
self.assertEqual(csrf_cookie, TEST_SECRET)
self._check_token_present(resp, csrf_cookie)
@override_settings(
ALLOWED_HOSTS=["www.example.com"],
CSRF_COOKIE_DOMAIN=".example.com",
USE_X_FORWARDED_PORT=True,
)
def test_https_good_referer_behind_proxy(self):
"""
A POST HTTPS request is accepted when USE_X_FORWARDED_PORT=True.
"""
self._test_https_good_referer_behind_proxy()
@override_settings(
ALLOWED_HOSTS=["www.example.com"], CSRF_COOKIE_DOMAIN=".example.com"
)
def test_https_good_referer_matches_cookie_domain(self):
"""
A POST HTTPS request with a good referer should be accepted from a
subdomain that's allowed by CSRF_COOKIE_DOMAIN.
"""
self._test_https_good_referer_matches_cookie_domain()
@override_settings(
ALLOWED_HOSTS=["www.example.com"], CSRF_COOKIE_DOMAIN=".example.com"
)
def test_https_good_referer_matches_cookie_domain_with_different_port(self):
"""
A POST HTTPS request with a good referer should be accepted from a
subdomain that's allowed by CSRF_COOKIE_DOMAIN and a non-443 port.
"""
self._test_https_good_referer_matches_cookie_domain_with_different_port()
@override_settings(CSRF_COOKIE_DOMAIN=".example.com", DEBUG=True)
def test_https_reject_insecure_referer(self):
"""
A POST HTTPS request from an insecure referer should be rejected.
"""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_REFERER"] = "http://example.com/"
req.META["SERVER_PORT"] = "443"
mw = CsrfViewMiddleware(post_form_view)
self._check_referer_rejects(mw, req)
response = mw.process_view(req, post_form_view, (), {})
self.assertContains(
response,
"Referer checking failed - Referer is insecure while host is secure.",
status_code=403,
)
@override_settings(CSRF_USE_SESSIONS=True, CSRF_COOKIE_DOMAIN=None)
class CsrfViewMiddlewareUseSessionsTests(CsrfViewMiddlewareTestMixin, SimpleTestCase):
"""
CSRF tests with CSRF_USE_SESSIONS=True.
"""
def _set_csrf_cookie(self, req, cookie):
req.session[CSRF_SESSION_KEY] = cookie
def _read_csrf_cookie(self, req, resp=None):
"""
Return the CSRF cookie as a string, or False if no cookie is present.
"""
if CSRF_SESSION_KEY not in req.session:
return False
return req.session[CSRF_SESSION_KEY]
def _get_cookies_set(self, req, resp):
return req.session._cookies_set
def test_no_session_on_request(self):
msg = (
"CSRF_USE_SESSIONS is enabled, but request.session is not set. "
"SessionMiddleware must appear before CsrfViewMiddleware in MIDDLEWARE."
)
with self.assertRaisesMessage(ImproperlyConfigured, msg):
mw = CsrfViewMiddleware(lambda req: HttpResponse())
mw.process_request(HttpRequest())
def test_masked_unmasked_combinations(self):
"""
Masked and unmasked tokens are allowed both as POST and as the
X-CSRFToken header.
"""
cases = [
# Bare secrets are not allowed when CSRF_USE_SESSIONS=True.
(MASKED_TEST_SECRET1, TEST_SECRET, None),
(MASKED_TEST_SECRET1, MASKED_TEST_SECRET2, None),
(MASKED_TEST_SECRET1, None, TEST_SECRET),
(MASKED_TEST_SECRET1, None, MASKED_TEST_SECRET2),
]
for args in cases:
with self.subTest(args=args):
cookie, post_token, meta_token = args
req = self._get_POST_csrf_cookie_request(
cookie=cookie,
post_token=post_token,
meta_token=meta_token,
)
mw = CsrfViewMiddleware(token_view)
mw.process_request(req)
resp = mw.process_view(req, token_view, (), {})
self.assertIsNone(resp)
def test_process_response_get_token_used(self):
"""The ensure_csrf_cookie() decorator works without middleware."""
req = self._get_request()
ensure_csrf_cookie_view(req)
csrf_cookie = self._read_csrf_cookie(req)
self.assertTrue(csrf_cookie)
def test_session_modify(self):
"""The session isn't saved if the CSRF cookie is unchanged."""
req = self._get_request()
mw = CsrfViewMiddleware(ensure_csrf_cookie_view)
mw.process_view(req, ensure_csrf_cookie_view, (), {})
mw(req)
csrf_cookie = self._read_csrf_cookie(req)
self.assertTrue(csrf_cookie)
req.session.modified = False
mw.process_view(req, ensure_csrf_cookie_view, (), {})
mw(req)
self.assertFalse(req.session.modified)
def test_ensures_csrf_cookie_with_middleware(self):
"""
The ensure_csrf_cookie() decorator works with the CsrfViewMiddleware
enabled.
"""
req = self._get_request()
mw = CsrfViewMiddleware(ensure_csrf_cookie_view)
mw.process_view(req, ensure_csrf_cookie_view, (), {})
mw(req)
csrf_cookie = self._read_csrf_cookie(req)
self.assertTrue(csrf_cookie)
@override_settings(
ALLOWED_HOSTS=["www.example.com"],
SESSION_COOKIE_DOMAIN=".example.com",
USE_X_FORWARDED_PORT=True,
DEBUG=True,
)
def test_https_good_referer_behind_proxy(self):
"""
A POST HTTPS request is accepted when USE_X_FORWARDED_PORT=True.
"""
self._test_https_good_referer_behind_proxy()
@override_settings(
ALLOWED_HOSTS=["www.example.com"], SESSION_COOKIE_DOMAIN=".example.com"
)
def test_https_good_referer_matches_cookie_domain(self):
"""
A POST HTTPS request with a good referer should be accepted from a
subdomain that's allowed by SESSION_COOKIE_DOMAIN.
"""
self._test_https_good_referer_matches_cookie_domain()
@override_settings(
ALLOWED_HOSTS=["www.example.com"], SESSION_COOKIE_DOMAIN=".example.com"
)
def test_https_good_referer_matches_cookie_domain_with_different_port(self):
"""
A POST HTTPS request with a good referer should be accepted from a
subdomain that's allowed by SESSION_COOKIE_DOMAIN and a non-443 port.
"""
self._test_https_good_referer_matches_cookie_domain_with_different_port()
@override_settings(SESSION_COOKIE_DOMAIN=".example.com", DEBUG=True)
def test_https_reject_insecure_referer(self):
"""
A POST HTTPS request from an insecure referer should be rejected.
"""
req = self._get_POST_request_with_token()
req._is_secure_override = True
req.META["HTTP_REFERER"] = "http://example.com/"
req.META["SERVER_PORT"] = "443"
mw = CsrfViewMiddleware(post_form_view)
response = mw.process_view(req, post_form_view, (), {})
self.assertContains(
response,
"Referer checking failed - Referer is insecure while host is secure.",
status_code=403,
)
@override_settings(ROOT_URLCONF="csrf_tests.csrf_token_error_handler_urls", DEBUG=False)
class CsrfInErrorHandlingViewsTests(CsrfFunctionTestMixin, SimpleTestCase):
def test_csrf_token_on_404_stays_constant(self):
response = self.client.get("/does not exist/")
# The error handler returns status code 599.
self.assertEqual(response.status_code, 599)
response.charset = "ascii"
token1 = response.text
response = self.client.get("/does not exist/")
self.assertEqual(response.status_code, 599)
response.charset = "ascii"
token2 = response.text
secret2 = _unmask_cipher_token(token2)
self.assertMaskedSecretCorrect(token1, secret2)