cpython/Lib/test/test_urllib2_localnet.py

710 lines
25 KiB
Python

import os
import base64
import urlparse
import urllib2
import BaseHTTPServer
import unittest
import hashlib
from test import test_support
mimetools = test_support.import_module('mimetools', deprecated=True)
threading = test_support.import_module('threading')
try:
import ssl
except ImportError:
ssl = None
here = os.path.dirname(__file__)
# Self-signed cert file for 'localhost'
CERT_localhost = os.path.join(here, 'keycert.pem')
# Self-signed cert file for 'fakehostname'
CERT_fakehostname = os.path.join(here, 'keycert2.pem')
# Loopback http server infrastructure
class LoopbackHttpServer(BaseHTTPServer.HTTPServer):
"""HTTP server w/ a few modifications that make it useful for
loopback testing purposes.
"""
def __init__(self, server_address, RequestHandlerClass):
BaseHTTPServer.HTTPServer.__init__(self,
server_address,
RequestHandlerClass)
# Set the timeout of our listening socket really low so
# that we can stop the server easily.
self.socket.settimeout(0.1)
def get_request(self):
"""BaseHTTPServer method, overridden."""
request, client_address = self.socket.accept()
# It's a loopback connection, so setting the timeout
# really low shouldn't affect anything, but should make
# deadlocks less likely to occur.
request.settimeout(10.0)
return (request, client_address)
class LoopbackHttpServerThread(threading.Thread):
"""Stoppable thread that runs a loopback http server."""
def __init__(self, request_handler):
threading.Thread.__init__(self)
self._stop = False
self.ready = threading.Event()
request_handler.protocol_version = "HTTP/1.0"
self.httpd = LoopbackHttpServer(('127.0.0.1', 0),
request_handler)
#print "Serving HTTP on %s port %s" % (self.httpd.server_name,
# self.httpd.server_port)
self.port = self.httpd.server_port
def stop(self):
"""Stops the webserver if it's currently running."""
# Set the stop flag.
self._stop = True
self.join()
def run(self):
self.ready.set()
while not self._stop:
self.httpd.handle_request()
# Authentication infrastructure
class BasicAuthHandler(BaseHTTPServer.BaseHTTPRequestHandler):
"""Handler for performing Basic Authentication."""
# Server side values
USER = "testUser"
PASSWD = "testPass"
REALM = "Test"
USER_PASSWD = "%s:%s" % (USER, PASSWD)
ENCODED_AUTH = base64.b64encode(USER_PASSWD)
def __init__(self, *args, **kwargs):
BaseHTTPServer.BaseHTTPRequestHandler.__init__(self, *args, **kwargs)
def log_message(self, format, *args):
# Supress the HTTP Console log output
pass
def do_HEAD(self):
self.send_response(200)
self.send_header("Content-type", "text/html")
self.end_headers()
def do_AUTHHEAD(self):
self.send_response(401)
self.send_header("WWW-Authenticate", "Basic realm=\"%s\"" % self.REALM)
self.send_header("Content-type", "text/html")
self.end_headers()
def do_GET(self):
if self.headers.getheader("Authorization") == None:
self.do_AUTHHEAD()
self.wfile.write("No Auth Header Received")
elif self.headers.getheader(
"Authorization") == "Basic " + self.ENCODED_AUTH:
self.wfile.write("It works!")
else:
# Unauthorized Request
self.do_AUTHHEAD()
class DigestAuthHandler:
"""Handler for performing digest authentication."""
def __init__(self):
self._request_num = 0
self._nonces = []
self._users = {}
self._realm_name = "Test Realm"
self._qop = "auth"
def set_qop(self, qop):
self._qop = qop
def set_users(self, users):
assert isinstance(users, dict)
self._users = users
def set_realm(self, realm):
self._realm_name = realm
def _generate_nonce(self):
self._request_num += 1
nonce = hashlib.md5(str(self._request_num)).hexdigest()
self._nonces.append(nonce)
return nonce
def _create_auth_dict(self, auth_str):
first_space_index = auth_str.find(" ")
auth_str = auth_str[first_space_index+1:]
parts = auth_str.split(",")
auth_dict = {}
for part in parts:
name, value = part.split("=")
name = name.strip()
if value[0] == '"' and value[-1] == '"':
value = value[1:-1]
else:
value = value.strip()
auth_dict[name] = value
return auth_dict
def _validate_auth(self, auth_dict, password, method, uri):
final_dict = {}
final_dict.update(auth_dict)
final_dict["password"] = password
final_dict["method"] = method
final_dict["uri"] = uri
HA1_str = "%(username)s:%(realm)s:%(password)s" % final_dict
HA1 = hashlib.md5(HA1_str).hexdigest()
HA2_str = "%(method)s:%(uri)s" % final_dict
HA2 = hashlib.md5(HA2_str).hexdigest()
final_dict["HA1"] = HA1
final_dict["HA2"] = HA2
response_str = "%(HA1)s:%(nonce)s:%(nc)s:" \
"%(cnonce)s:%(qop)s:%(HA2)s" % final_dict
response = hashlib.md5(response_str).hexdigest()
return response == auth_dict["response"]
def _return_auth_challenge(self, request_handler):
request_handler.send_response(407, "Proxy Authentication Required")
request_handler.send_header("Content-Type", "text/html")
request_handler.send_header(
'Proxy-Authenticate', 'Digest realm="%s", '
'qop="%s",'
'nonce="%s", ' % \
(self._realm_name, self._qop, self._generate_nonce()))
# XXX: Not sure if we're supposed to add this next header or
# not.
#request_handler.send_header('Connection', 'close')
request_handler.end_headers()
request_handler.wfile.write("Proxy Authentication Required.")
return False
def handle_request(self, request_handler):
"""Performs digest authentication on the given HTTP request
handler. Returns True if authentication was successful, False
otherwise.
If no users have been set, then digest auth is effectively
disabled and this method will always return True.
"""
if len(self._users) == 0:
return True
if 'Proxy-Authorization' not in request_handler.headers:
return self._return_auth_challenge(request_handler)
else:
auth_dict = self._create_auth_dict(
request_handler.headers['Proxy-Authorization']
)
if auth_dict["username"] in self._users:
password = self._users[ auth_dict["username"] ]
else:
return self._return_auth_challenge(request_handler)
if not auth_dict.get("nonce") in self._nonces:
return self._return_auth_challenge(request_handler)
else:
self._nonces.remove(auth_dict["nonce"])
auth_validated = False
# MSIE uses short_path in its validation, but Python's
# urllib2 uses the full path, so we're going to see if
# either of them works here.
for path in [request_handler.path, request_handler.short_path]:
if self._validate_auth(auth_dict,
password,
request_handler.command,
path):
auth_validated = True
if not auth_validated:
return self._return_auth_challenge(request_handler)
return True
# Proxy test infrastructure
class FakeProxyHandler(BaseHTTPServer.BaseHTTPRequestHandler):
"""This is a 'fake proxy' that makes it look like the entire
internet has gone down due to a sudden zombie invasion. It main
utility is in providing us with authentication support for
testing.
"""
def __init__(self, digest_auth_handler, *args, **kwargs):
# This has to be set before calling our parent's __init__(), which will
# try to call do_GET().
self.digest_auth_handler = digest_auth_handler
BaseHTTPServer.BaseHTTPRequestHandler.__init__(self, *args, **kwargs)
def log_message(self, format, *args):
# Uncomment the next line for debugging.
#sys.stderr.write(format % args)
pass
def do_GET(self):
(scm, netloc, path, params, query, fragment) = urlparse.urlparse(
self.path, 'http')
self.short_path = path
if self.digest_auth_handler.handle_request(self):
self.send_response(200, "OK")
self.send_header("Content-Type", "text/html")
self.end_headers()
self.wfile.write("You've reached %s!<BR>" % self.path)
self.wfile.write("Our apologies, but our server is down due to "
"a sudden zombie invasion.")
# Test cases
class BaseTestCase(unittest.TestCase):
def setUp(self):
self._threads = test_support.threading_setup()
def tearDown(self):
test_support.threading_cleanup(*self._threads)
class BasicAuthTests(BaseTestCase):
USER = "testUser"
PASSWD = "testPass"
INCORRECT_PASSWD = "Incorrect"
REALM = "Test"
def setUp(self):
super(BasicAuthTests, self).setUp()
# With Basic Authentication
def http_server_with_basic_auth_handler(*args, **kwargs):
return BasicAuthHandler(*args, **kwargs)
self.server = LoopbackHttpServerThread(http_server_with_basic_auth_handler)
self.server_url = 'http://127.0.0.1:%s' % self.server.port
self.server.start()
self.server.ready.wait()
def tearDown(self):
self.server.stop()
super(BasicAuthTests, self).tearDown()
def test_basic_auth_success(self):
ah = urllib2.HTTPBasicAuthHandler()
ah.add_password(self.REALM, self.server_url, self.USER, self.PASSWD)
urllib2.install_opener(urllib2.build_opener(ah))
try:
self.assertTrue(urllib2.urlopen(self.server_url))
except urllib2.HTTPError:
self.fail("Basic Auth Failed for url: %s" % self.server_url)
except Exception as e:
raise e
def test_basic_auth_httperror(self):
ah = urllib2.HTTPBasicAuthHandler()
ah.add_password(self.REALM, self.server_url, self.USER,
self.INCORRECT_PASSWD)
urllib2.install_opener(urllib2.build_opener(ah))
self.assertRaises(urllib2.HTTPError, urllib2.urlopen, self.server_url)
class ProxyAuthTests(BaseTestCase):
URL = "http://localhost"
USER = "tester"
PASSWD = "test123"
REALM = "TestRealm"
def setUp(self):
super(ProxyAuthTests, self).setUp()
self.digest_auth_handler = DigestAuthHandler()
self.digest_auth_handler.set_users({self.USER: self.PASSWD})
self.digest_auth_handler.set_realm(self.REALM)
# With Digest Authentication
def create_fake_proxy_handler(*args, **kwargs):
return FakeProxyHandler(self.digest_auth_handler, *args, **kwargs)
self.server = LoopbackHttpServerThread(create_fake_proxy_handler)
self.server.start()
self.server.ready.wait()
proxy_url = "http://127.0.0.1:%d" % self.server.port
handler = urllib2.ProxyHandler({"http" : proxy_url})
self.proxy_digest_handler = urllib2.ProxyDigestAuthHandler()
self.opener = urllib2.build_opener(handler, self.proxy_digest_handler)
def tearDown(self):
self.server.stop()
super(ProxyAuthTests, self).tearDown()
def test_proxy_with_bad_password_raises_httperror(self):
self.proxy_digest_handler.add_password(self.REALM, self.URL,
self.USER, self.PASSWD+"bad")
self.digest_auth_handler.set_qop("auth")
self.assertRaises(urllib2.HTTPError,
self.opener.open,
self.URL)
def test_proxy_with_no_password_raises_httperror(self):
self.digest_auth_handler.set_qop("auth")
self.assertRaises(urllib2.HTTPError,
self.opener.open,
self.URL)
def test_proxy_qop_auth_works(self):
self.proxy_digest_handler.add_password(self.REALM, self.URL,
self.USER, self.PASSWD)
self.digest_auth_handler.set_qop("auth")
result = self.opener.open(self.URL)
while result.read():
pass
result.close()
def test_proxy_qop_auth_int_works_or_throws_urlerror(self):
self.proxy_digest_handler.add_password(self.REALM, self.URL,
self.USER, self.PASSWD)
self.digest_auth_handler.set_qop("auth-int")
try:
result = self.opener.open(self.URL)
except urllib2.URLError:
# It's okay if we don't support auth-int, but we certainly
# shouldn't receive any kind of exception here other than
# a URLError.
result = None
if result:
while result.read():
pass
result.close()
def GetRequestHandler(responses):
class FakeHTTPRequestHandler(BaseHTTPServer.BaseHTTPRequestHandler):
server_version = "TestHTTP/"
requests = []
headers_received = []
port = 80
def do_GET(self):
body = self.send_head()
if body:
self.wfile.write(body)
def do_POST(self):
content_length = self.headers['Content-Length']
post_data = self.rfile.read(int(content_length))
self.do_GET()
self.requests.append(post_data)
def send_head(self):
FakeHTTPRequestHandler.headers_received = self.headers
self.requests.append(self.path)
response_code, headers, body = responses.pop(0)
self.send_response(response_code)
for (header, value) in headers:
self.send_header(header, value % self.port)
if body:
self.send_header('Content-type', 'text/plain')
self.end_headers()
return body
self.end_headers()
def log_message(self, *args):
pass
return FakeHTTPRequestHandler
class TestUrlopen(BaseTestCase):
"""Tests urllib2.urlopen using the network.
These tests are not exhaustive. Assuming that testing using files does a
good job overall of some of the basic interface features. There are no
tests exercising the optional 'data' and 'proxies' arguments. No tests
for transparent redirection have been written.
"""
def setUp(self):
proxy_handler = urllib2.ProxyHandler({})
opener = urllib2.build_opener(proxy_handler)
urllib2.install_opener(opener)
super(TestUrlopen, self).setUp()
def urlopen(self, url, data=None, **kwargs):
l = []
f = urllib2.urlopen(url, data, **kwargs)
try:
# Exercise various methods
l.extend(f.readlines(200))
l.append(f.readline())
l.append(f.read(1024))
l.append(f.read())
finally:
f.close()
return b"".join(l)
def start_server(self, responses):
handler = GetRequestHandler(responses)
self.server = LoopbackHttpServerThread(handler)
self.server.start()
self.server.ready.wait()
port = self.server.port
handler.port = port
return handler
def start_https_server(self, responses=None, **kwargs):
if not hasattr(urllib2, 'HTTPSHandler'):
self.skipTest('ssl support required')
from test.ssl_servers import make_https_server
if responses is None:
responses = [(200, [], b"we care a bit")]
handler = GetRequestHandler(responses)
server = make_https_server(self, handler_class=handler, **kwargs)
handler.port = server.port
return handler
def test_redirection(self):
expected_response = 'We got here...'
responses = [
(302, [('Location', 'http://localhost:%s/somewhere_else')], ''),
(200, [], expected_response)
]
handler = self.start_server(responses)
try:
f = urllib2.urlopen('http://localhost:%s/' % handler.port)
data = f.read()
f.close()
self.assertEqual(data, expected_response)
self.assertEqual(handler.requests, ['/', '/somewhere_else'])
finally:
self.server.stop()
def test_404(self):
expected_response = 'Bad bad bad...'
handler = self.start_server([(404, [], expected_response)])
try:
try:
urllib2.urlopen('http://localhost:%s/weeble' % handler.port)
except urllib2.URLError, f:
pass
else:
self.fail('404 should raise URLError')
data = f.read()
f.close()
self.assertEqual(data, expected_response)
self.assertEqual(handler.requests, ['/weeble'])
finally:
self.server.stop()
def test_200(self):
expected_response = 'pycon 2008...'
handler = self.start_server([(200, [], expected_response)])
try:
f = urllib2.urlopen('http://localhost:%s/bizarre' % handler.port)
data = f.read()
f.close()
self.assertEqual(data, expected_response)
self.assertEqual(handler.requests, ['/bizarre'])
finally:
self.server.stop()
def test_200_with_parameters(self):
expected_response = 'pycon 2008...'
handler = self.start_server([(200, [], expected_response)])
try:
f = urllib2.urlopen('http://localhost:%s/bizarre' % handler.port, 'get=with_feeling')
data = f.read()
f.close()
self.assertEqual(data, expected_response)
self.assertEqual(handler.requests, ['/bizarre', 'get=with_feeling'])
finally:
self.server.stop()
def test_https(self):
handler = self.start_https_server()
context = ssl.create_default_context(cafile=CERT_localhost)
data = self.urlopen("https://localhost:%s/bizarre" % handler.port, context=context)
self.assertEqual(data, b"we care a bit")
def test_https_with_cafile(self):
handler = self.start_https_server(certfile=CERT_localhost)
# Good cert
data = self.urlopen("https://localhost:%s/bizarre" % handler.port,
cafile=CERT_localhost)
self.assertEqual(data, b"we care a bit")
# Bad cert
with self.assertRaises(urllib2.URLError):
self.urlopen("https://localhost:%s/bizarre" % handler.port,
cafile=CERT_fakehostname)
# Good cert, but mismatching hostname
handler = self.start_https_server(certfile=CERT_fakehostname)
with self.assertRaises(ssl.CertificateError):
self.urlopen("https://localhost:%s/bizarre" % handler.port,
cafile=CERT_fakehostname)
def test_https_with_cadefault(self):
handler = self.start_https_server(certfile=CERT_localhost)
# Self-signed cert should fail verification with system certificate store
with self.assertRaises(urllib2.URLError):
self.urlopen("https://localhost:%s/bizarre" % handler.port,
cadefault=True)
def test_https_sni(self):
if ssl is None:
self.skipTest("ssl module required")
if not ssl.HAS_SNI:
self.skipTest("SNI support required in OpenSSL")
sni_name = [None]
def cb_sni(ssl_sock, server_name, initial_context):
sni_name[0] = server_name
context = ssl.SSLContext(ssl.PROTOCOL_TLSv1)
context.set_servername_callback(cb_sni)
handler = self.start_https_server(context=context, certfile=CERT_localhost)
context = ssl.create_default_context(cafile=CERT_localhost)
self.urlopen("https://localhost:%s" % handler.port, context=context)
self.assertEqual(sni_name[0], "localhost")
def test_sending_headers(self):
handler = self.start_server([(200, [], "we don't care")])
try:
req = urllib2.Request("http://localhost:%s/" % handler.port,
headers={'Range': 'bytes=20-39'})
urllib2.urlopen(req)
self.assertEqual(handler.headers_received['Range'], 'bytes=20-39')
finally:
self.server.stop()
def test_basic(self):
handler = self.start_server([(200, [], "we don't care")])
try:
open_url = urllib2.urlopen("http://localhost:%s" % handler.port)
for attr in ("read", "close", "info", "geturl"):
self.assertTrue(hasattr(open_url, attr), "object returned from "
"urlopen lacks the %s attribute" % attr)
try:
self.assertTrue(open_url.read(), "calling 'read' failed")
finally:
open_url.close()
finally:
self.server.stop()
def test_info(self):
handler = self.start_server([(200, [], "we don't care")])
try:
open_url = urllib2.urlopen("http://localhost:%s" % handler.port)
info_obj = open_url.info()
self.assertIsInstance(info_obj, mimetools.Message,
"object returned by 'info' is not an "
"instance of mimetools.Message")
self.assertEqual(info_obj.getsubtype(), "plain")
finally:
self.server.stop()
def test_geturl(self):
# Make sure same URL as opened is returned by geturl.
handler = self.start_server([(200, [], "we don't care")])
try:
open_url = urllib2.urlopen("http://localhost:%s" % handler.port)
url = open_url.geturl()
self.assertEqual(url, "http://localhost:%s" % handler.port)
finally:
self.server.stop()
def test_bad_address(self):
# Make sure proper exception is raised when connecting to a bogus
# address.
# as indicated by the comment below, this might fail with some ISP,
# so we run the test only when -unetwork/-uall is specified to
# mitigate the problem a bit (see #17564)
test_support.requires('network')
self.assertRaises(IOError,
# Given that both VeriSign and various ISPs have in
# the past or are presently hijacking various invalid
# domain name requests in an attempt to boost traffic
# to their own sites, finding a domain name to use
# for this test is difficult. RFC2606 leads one to
# believe that '.invalid' should work, but experience
# seemed to indicate otherwise. Single character
# TLDs are likely to remain invalid, so this seems to
# be the best choice. The trailing '.' prevents a
# related problem: The normal DNS resolver appends
# the domain names from the search path if there is
# no '.' the end and, and if one of those domains
# implements a '*' rule a result is returned.
# However, none of this will prevent the test from
# failing if the ISP hijacks all invalid domain
# requests. The real solution would be to be able to
# parameterize the framework with a mock resolver.
urllib2.urlopen, "http://sadflkjsasf.i.nvali.d./")
def test_iteration(self):
expected_response = "pycon 2008..."
handler = self.start_server([(200, [], expected_response)])
try:
data = urllib2.urlopen("http://localhost:%s" % handler.port)
for line in data:
self.assertEqual(line, expected_response)
finally:
self.server.stop()
def ztest_line_iteration(self):
lines = ["We\n", "got\n", "here\n", "verylong " * 8192 + "\n"]
expected_response = "".join(lines)
handler = self.start_server([(200, [], expected_response)])
try:
data = urllib2.urlopen("http://localhost:%s" % handler.port)
for index, line in enumerate(data):
self.assertEqual(line, lines[index],
"Fetched line number %s doesn't match expected:\n"
" Expected length was %s, got %s" %
(index, len(lines[index]), len(line)))
finally:
self.server.stop()
self.assertEqual(index + 1, len(lines))
def test_main():
# We will NOT depend on the network resource flag
# (Lib/test/regrtest.py -u network) since all tests here are only
# localhost. However, if this is a bad rationale, then uncomment
# the next line.
#test_support.requires("network")
test_support.run_unittest(BasicAuthTests, ProxyAuthTests, TestUrlopen)
if __name__ == "__main__":
test_main()