# -*- encoding: utf-8 -*- from __future__ import unicode_literals import time import warnings from datetime import datetime, timedelta from io import BytesIO from django.db import connection, connections, DEFAULT_DB_ALIAS from django.core import signals from django.core.exceptions import SuspiciousOperation from django.core.handlers.wsgi import WSGIRequest, LimitedStream from django.http import HttpRequest, HttpResponse, parse_cookie, build_request_repr, UnreadablePostError from django.test import TransactionTestCase from django.test.client import FakePayload from django.test.utils import override_settings, str_prefix from django.utils import six from django.utils import unittest from django.utils.http import cookie_date, urlencode from django.utils.timezone import utc class RequestsTests(unittest.TestCase): def test_httprequest(self): request = HttpRequest() self.assertEqual(list(request.GET.keys()), []) self.assertEqual(list(request.POST.keys()), []) self.assertEqual(list(request.COOKIES.keys()), []) self.assertEqual(list(request.META.keys()), []) def test_httprequest_repr(self): request = HttpRequest() request.path = '/somepath/' request.GET = {'get-key': 'get-value'} request.POST = {'post-key': 'post-value'} request.COOKIES = {'post-key': 'post-value'} request.META = {'post-key': 'post-value'} self.assertEqual(repr(request), str_prefix("")) self.assertEqual(build_request_repr(request), repr(request)) self.assertEqual(build_request_repr(request, path_override='/otherpath/', GET_override={'a': 'b'}, POST_override={'c': 'd'}, COOKIES_override={'e': 'f'}, META_override={'g': 'h'}), str_prefix("")) def test_wsgirequest(self): request = WSGIRequest({'PATH_INFO': 'bogus', 'REQUEST_METHOD': 'bogus', 'wsgi.input': BytesIO(b'')}) self.assertEqual(list(request.GET.keys()), []) self.assertEqual(list(request.POST.keys()), []) self.assertEqual(list(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_wsgirequest_repr(self): request = WSGIRequest({'PATH_INFO': '/somepath/', 'REQUEST_METHOD': 'get', 'wsgi.input': BytesIO(b'')}) request.GET = {'get-key': 'get-value'} request.POST = {'post-key': 'post-value'} request.COOKIES = {'post-key': 'post-value'} request.META = {'post-key': 'post-value'} self.assertEqual(repr(request), str_prefix("")) self.assertEqual(build_request_repr(request), repr(request)) self.assertEqual(build_request_repr(request, path_override='/otherpath/', GET_override={'a': 'b'}, POST_override={'c': 'd'}, COOKIES_override={'e': 'f'}, META_override={'g': 'h'}), str_prefix("")) def test_wsgirequest_path_info(self): def wsgi_str(path_info): path_info = path_info.encode('utf-8') # Actual URL sent by the browser (bytestring) if six.PY3: path_info = path_info.decode('iso-8859-1') # Value in the WSGI environ dict (native string) return path_info # Regression for #19468 request = WSGIRequest({'PATH_INFO': wsgi_str("/سلام/"), 'REQUEST_METHOD': 'get', 'wsgi.input': BytesIO(b'')}) self.assertEqual(request.path, "/سلام/") 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') @override_settings( USE_X_FORWARDED_HOST=False, ALLOWED_HOSTS=[ 'forward.com', 'example.com', 'internal.com', '12.34.56.78', '[2001:19f0:feee::dead:beef:cafe]', 'xn--4ca9at.com', '.multitenant.com', 'INSENSITIVE.com', ]) def test_http_get_host(self): # Check if X_FORWARDED_HOST is provided. request = HttpRequest() request.META = { 'HTTP_X_FORWARDED_HOST': 'forward.com', 'HTTP_HOST': 'example.com', 'SERVER_NAME': 'internal.com', 'SERVER_PORT': 80, } # X_FORWARDED_HOST is ignored. self.assertEqual(request.get_host(), 'example.com') # Check if X_FORWARDED_HOST isn't provided. request = HttpRequest() request.META = { 'HTTP_HOST': 'example.com', 'SERVER_NAME': 'internal.com', 'SERVER_PORT': 80, } self.assertEqual(request.get_host(), 'example.com') # Check if HTTP_HOST isn't provided. request = HttpRequest() request.META = { 'SERVER_NAME': 'internal.com', 'SERVER_PORT': 80, } self.assertEqual(request.get_host(), 'internal.com') # Check if HTTP_HOST isn't provided, and we're on a nonstandard port request = HttpRequest() request.META = { 'SERVER_NAME': 'internal.com', 'SERVER_PORT': 8042, } self.assertEqual(request.get_host(), 'internal.com:8042') # Poisoned host headers are rejected as suspicious legit_hosts = [ 'example.com', 'example.com:80', '12.34.56.78', '12.34.56.78:443', '[2001:19f0:feee::dead:beef:cafe]', '[2001:19f0:feee::dead:beef:cafe]:8080', 'xn--4ca9at.com', # Punnycode for öäü.com 'anything.multitenant.com', 'multitenant.com', 'insensitive.com', ] poisoned_hosts = [ 'example.com@evil.tld', 'example.com:dr.frankenstein@evil.tld', 'example.com:dr.frankenstein@evil.tld:80', 'example.com:80/badpath', 'example.com: recovermypassword.com', 'other.com', # not in ALLOWED_HOSTS ] for host in legit_hosts: request = HttpRequest() request.META = { 'HTTP_HOST': host, } request.get_host() for host in poisoned_hosts: with self.assertRaises(SuspiciousOperation): request = HttpRequest() request.META = { 'HTTP_HOST': host, } request.get_host() @override_settings(USE_X_FORWARDED_HOST=True, ALLOWED_HOSTS=['*']) def test_http_get_host_with_x_forwarded_host(self): # Check if X_FORWARDED_HOST is provided. request = HttpRequest() request.META = { 'HTTP_X_FORWARDED_HOST': 'forward.com', 'HTTP_HOST': 'example.com', 'SERVER_NAME': 'internal.com', 'SERVER_PORT': 80, } # X_FORWARDED_HOST is obeyed. self.assertEqual(request.get_host(), 'forward.com') # Check if X_FORWARDED_HOST isn't provided. request = HttpRequest() request.META = { 'HTTP_HOST': 'example.com', 'SERVER_NAME': 'internal.com', 'SERVER_PORT': 80, } self.assertEqual(request.get_host(), 'example.com') # Check if HTTP_HOST isn't provided. request = HttpRequest() request.META = { 'SERVER_NAME': 'internal.com', 'SERVER_PORT': 80, } self.assertEqual(request.get_host(), 'internal.com') # Check if HTTP_HOST isn't provided, and we're on a nonstandard port request = HttpRequest() request.META = { 'SERVER_NAME': 'internal.com', 'SERVER_PORT': 8042, } self.assertEqual(request.get_host(), 'internal.com:8042') # Poisoned host headers are rejected as suspicious legit_hosts = [ 'example.com', 'example.com:80', '12.34.56.78', '12.34.56.78:443', '[2001:19f0:feee::dead:beef:cafe]', '[2001:19f0:feee::dead:beef:cafe]:8080', 'xn--4ca9at.com', # Punnycode for öäü.com ] poisoned_hosts = [ 'example.com@evil.tld', 'example.com:dr.frankenstein@evil.tld', 'example.com:dr.frankenstein@evil.tld:80', 'example.com:80/badpath', 'example.com: recovermypassword.com', ] for host in legit_hosts: request = HttpRequest() request.META = { 'HTTP_HOST': host, } request.get_host() for host in poisoned_hosts: with self.assertRaises(SuspiciousOperation): request = HttpRequest() request.META = { 'HTTP_HOST': host, } request.get_host() @override_settings(DEBUG=True, ALLOWED_HOSTS=[]) def test_host_validation_disabled_in_debug_mode(self): """If ALLOWED_HOSTS is empty and DEBUG is True, all hosts pass.""" request = HttpRequest() request.META = { 'HTTP_HOST': 'example.com', } self.assertEqual(request.get_host(), 'example.com') 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_aware_expiration(self): "Cookie accepts an aware datetime as expiration time" response = HttpResponse() expires = (datetime.utcnow() + timedelta(seconds=10)).replace(tzinfo=utc) 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(BytesIO(b'test'), 2) self.assertEqual(stream.read(), b'te') # Reading again returns nothing. self.assertEqual(stream.read(), b'') # Read a number of characters greater than the stream has to offer stream = LimitedStream(BytesIO(b'test'), 2) self.assertEqual(stream.read(5), b'te') # Reading again returns nothing. self.assertEqual(stream.readline(5), b'') # Read sequentially from a stream stream = LimitedStream(BytesIO(b'12345678'), 8) self.assertEqual(stream.read(5), b'12345') self.assertEqual(stream.read(5), b'678') # Reading again returns nothing. self.assertEqual(stream.readline(5), b'') # Read lines from a stream stream = LimitedStream(BytesIO(b'1234\n5678\nabcd\nefgh\nijkl'), 24) # Read a full line, unconditionally self.assertEqual(stream.readline(), b'1234\n') # Read a number of characters less than a line self.assertEqual(stream.readline(2), b'56') # Read the rest of the partial line self.assertEqual(stream.readline(), b'78\n') # Read a full line, with a character limit greater than the line length self.assertEqual(stream.readline(6), b'abcd\n') # Read the next line, deliberately terminated at the line end self.assertEqual(stream.readline(4), b'efgh') # Read the next line... just the line end self.assertEqual(stream.readline(), b'\n') # Read everything else. self.assertEqual(stream.readline(), b'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(BytesIO(b'1234\nabcdef'), 9) self.assertEqual(stream.readline(10), b'1234\n') self.assertEqual(stream.readline(3), b'abc') # Now expire the available characters self.assertEqual(stream.readline(3), b'd') # Reading again returns nothing. self.assertEqual(stream.readline(2), b'') # Same test, but with read, not readline. stream = LimitedStream(BytesIO(b'1234\nabcdef'), 9) self.assertEqual(stream.read(6), b'1234\na') self.assertEqual(stream.read(2), b'bc') self.assertEqual(stream.read(2), b'd') self.assertEqual(stream.read(2), b'') self.assertEqual(stream.read(), b'') def test_stream(self): payload = FakePayload('name=value') request = WSGIRequest({'REQUEST_METHOD': 'POST', 'CONTENT_TYPE': 'application/x-www-form-urlencoded', 'CONTENT_LENGTH': len(payload), 'wsgi.input': payload}) self.assertEqual(request.read(), b'name=value') def test_read_after_value(self): """ Reading from request is allowed after accessing request contents as POST or body. """ payload = FakePayload('name=value') request = WSGIRequest({'REQUEST_METHOD': 'POST', 'CONTENT_TYPE': 'application/x-www-form-urlencoded', 'CONTENT_LENGTH': len(payload), 'wsgi.input': payload}) self.assertEqual(request.POST, {'name': ['value']}) self.assertEqual(request.body, b'name=value') self.assertEqual(request.read(), b'name=value') def test_value_after_read(self): """ Construction of POST or body is not allowed after reading from request. """ payload = FakePayload('name=value') request = WSGIRequest({'REQUEST_METHOD': 'POST', 'CONTENT_TYPE': 'application/x-www-form-urlencoded', 'CONTENT_LENGTH': len(payload), 'wsgi.input': payload}) self.assertEqual(request.read(2), b'na') self.assertRaises(Exception, lambda: request.body) self.assertEqual(request.POST, {}) def test_non_ascii_POST(self): payload = FakePayload(urlencode({'key': 'España'})) request = WSGIRequest({ 'REQUEST_METHOD': 'POST', 'CONTENT_LENGTH': len(payload), 'CONTENT_TYPE': 'application/x-www-form-urlencoded', 'wsgi.input': payload, }) self.assertEqual(request.POST, {'key': ['España']}) def test_alternate_charset_POST(self): """ Test a POST with non-utf-8 payload encoding. """ from django.utils.http import urllib_parse payload = FakePayload(urllib_parse.urlencode({'key': 'España'.encode('latin-1')})) request = WSGIRequest({ 'REQUEST_METHOD': 'POST', 'CONTENT_LENGTH': len(payload), 'CONTENT_TYPE': 'application/x-www-form-urlencoded; charset=iso-8859-1', 'wsgi.input': payload, }) self.assertEqual(request.POST, {'key': ['España']}) def test_body_after_POST_multipart(self): """ Reading body 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 body = '' either. payload = FakePayload("\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': payload}) self.assertEqual(request.POST, {'name': ['value']}) self.assertRaises(Exception, lambda: request.body) def test_POST_multipart_with_content_length_zero(self): """ Multipart POST requests with Content-Length >= 0 are valid and need to be handled. """ # According to: # http://www.w3.org/Protocols/rfc2616/rfc2616-sec14.html#sec14.13 # Every request.POST with Content-Length >= 0 is a valid request, # this test ensures that we handle Content-Length == 0. payload = FakePayload("\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': 0, 'wsgi.input': payload}) self.assertEqual(request.POST, {}) def test_POST_binary_only(self): payload = b'\r\n\x01\x00\x00\x00ab\x00\x00\xcd\xcc,@' environ = {'REQUEST_METHOD': 'POST', 'CONTENT_TYPE': 'application/octet-stream', 'CONTENT_LENGTH': len(payload), 'wsgi.input': BytesIO(payload)} request = WSGIRequest(environ) self.assertEqual(request.POST, {}) self.assertEqual(request.FILES, {}) self.assertEqual(request.body, payload) # Same test without specifying content-type environ.update({'CONTENT_TYPE': '', 'wsgi.input': BytesIO(payload)}) request = WSGIRequest(environ) self.assertEqual(request.POST, {}) self.assertEqual(request.FILES, {}) self.assertEqual(request.body, payload) def test_read_by_lines(self): payload = FakePayload('name=value') request = WSGIRequest({'REQUEST_METHOD': 'POST', 'CONTENT_TYPE': 'application/x-www-form-urlencoded', 'CONTENT_LENGTH': len(payload), 'wsgi.input': payload}) self.assertEqual(list(request), [b'name=value']) def test_POST_after_body_read(self): """ POST should be populated even if body is read first """ payload = FakePayload('name=value') request = WSGIRequest({'REQUEST_METHOD': 'POST', 'CONTENT_TYPE': 'application/x-www-form-urlencoded', 'CONTENT_LENGTH': len(payload), 'wsgi.input': payload}) raw_data = request.body self.assertEqual(request.POST, {'name': ['value']}) def test_POST_after_body_read_and_stream_read(self): """ POST should be populated even if body is read first, and then the stream is read second. """ payload = FakePayload('name=value') request = WSGIRequest({'REQUEST_METHOD': 'POST', 'CONTENT_TYPE': 'application/x-www-form-urlencoded', 'CONTENT_LENGTH': len(payload), 'wsgi.input': payload}) raw_data = request.body self.assertEqual(request.read(1), b'n') self.assertEqual(request.POST, {'name': ['value']}) def test_POST_after_body_read_and_stream_read_multipart(self): """ POST should be populated even if body is read first, and then the stream is read second. Using multipart/form-data instead of urlencoded. """ payload = FakePayload("\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': payload}) raw_data = request.body # Consume enough data to mess up the parsing: self.assertEqual(request.read(13), b'--boundary\r\nC') self.assertEqual(request.POST, {'name': ['value']}) def test_POST_connection_error(self): """ If wsgi.input.read() raises an exception while trying to read() the POST, the exception should be identifiable (not a generic IOError). """ class ExplodingBytesIO(BytesIO): def read(self, len=0): raise IOError("kaboom!") payload = b'name=value' request = WSGIRequest({'REQUEST_METHOD': 'POST', 'CONTENT_TYPE': 'application/x-www-form-urlencoded', 'CONTENT_LENGTH': len(payload), 'wsgi.input': ExplodingBytesIO(payload)}) with self.assertRaises(UnreadablePostError): request.body @unittest.skipIf(connection.vendor == 'sqlite' and connection.settings_dict['NAME'] in ('', ':memory:'), "Cannot establish two connections to an in-memory SQLite database.") class DatabaseConnectionHandlingTests(TransactionTestCase): def setUp(self): # Use a temporary connection to avoid messing with the main one. self._old_default_connection = connections['default'] del connections['default'] def tearDown(self): try: connections['default'].close() finally: connections['default'] = self._old_default_connection def test_request_finished_db_state(self): # Force closing connection on request end connection.settings_dict['CONN_MAX_AGE'] = 0 # The GET below will not succeed, but it will give a response with # defined ._handler_class. That is needed for sending the # request_finished signal. response = self.client.get('/') # Make sure there is an open connection connection.cursor() connection.enter_transaction_management() signals.request_finished.send(sender=response._handler_class) self.assertEqual(len(connection.transaction_state), 0) def test_request_finished_failed_connection(self): # Force closing connection on request end connection.settings_dict['CONN_MAX_AGE'] = 0 connection.enter_transaction_management() connection.set_dirty() # Test that the rollback doesn't succeed (for example network failure # could cause this). def fail_horribly(): raise Exception("Horrible failure!") connection._rollback = fail_horribly try: with self.assertRaises(Exception): signals.request_finished.send(sender=self.__class__) # The connection's state wasn't cleaned up self.assertEqual(len(connection.transaction_state), 1) finally: del connection._rollback # The connection will be cleaned on next request where the conn # works again. signals.request_finished.send(sender=self.__class__) self.assertEqual(len(connection.transaction_state), 0)