cpython/Lib/test/test_xmlrpc.py

673 lines
25 KiB
Python

import base64
import datetime
import sys
import time
import unittest
import xmlrpclib
import SimpleXMLRPCServer
import threading
import mimetools
import httplib
import socket
import os
from test import test_support
try:
unicode
except NameError:
have_unicode = False
else:
have_unicode = True
alist = [{'astring': 'foo@bar.baz.spam',
'afloat': 7283.43,
'anint': 2**20,
'ashortlong': 2L,
'anotherlist': ['.zyx.41'],
'abase64': xmlrpclib.Binary("my dog has fleas"),
'boolean': xmlrpclib.False,
'unicode': u'\u4000\u6000\u8000',
u'ukey\u4000': 'regular value',
'datetime1': xmlrpclib.DateTime('20050210T11:41:23'),
'datetime2': xmlrpclib.DateTime(
(2005, 02, 10, 11, 41, 23, 0, 1, -1)),
'datetime3': xmlrpclib.DateTime(
datetime.datetime(2005, 02, 10, 11, 41, 23)),
'datetime4': xmlrpclib.DateTime(
datetime.date(2005, 02, 10)),
'datetime5': xmlrpclib.DateTime(
datetime.time(11, 41, 23)),
}]
class XMLRPCTestCase(unittest.TestCase):
def test_dump_load(self):
self.assertEquals(alist,
xmlrpclib.loads(xmlrpclib.dumps((alist,)))[0][0])
def test_dump_bare_datetime(self):
# This checks that an unwrapped datetime.date object can be handled
# by the marshalling code. This can't be done via test_dump_load()
# since with use_datetime set to 1 the unmarshaller would create
# datetime objects for the 'datetime[123]' keys as well
dt = datetime.datetime(2005, 02, 10, 11, 41, 23)
s = xmlrpclib.dumps((dt,))
(newdt,), m = xmlrpclib.loads(s, use_datetime=1)
self.assertEquals(newdt, dt)
self.assertEquals(m, None)
(newdt,), m = xmlrpclib.loads(s, use_datetime=0)
self.assertEquals(newdt, xmlrpclib.DateTime('20050210T11:41:23'))
def test_dump_bare_date(self):
# This checks that an unwrapped datetime.date object can be handled
# by the marshalling code. This can't be done via test_dump_load()
# since the unmarshaller produces a datetime object
d = datetime.datetime(2005, 02, 10, 11, 41, 23).date()
s = xmlrpclib.dumps((d,))
(newd,), m = xmlrpclib.loads(s, use_datetime=1)
self.assertEquals(newd.date(), d)
self.assertEquals(newd.time(), datetime.time(0, 0, 0))
self.assertEquals(m, None)
(newdt,), m = xmlrpclib.loads(s, use_datetime=0)
self.assertEquals(newdt, xmlrpclib.DateTime('20050210T00:00:00'))
def test_dump_bare_time(self):
# This checks that an unwrapped datetime.time object can be handled
# by the marshalling code. This can't be done via test_dump_load()
# since the unmarshaller produces a datetime object
t = datetime.datetime(2005, 02, 10, 11, 41, 23).time()
s = xmlrpclib.dumps((t,))
(newt,), m = xmlrpclib.loads(s, use_datetime=1)
today = datetime.datetime.now().date().strftime("%Y%m%d")
self.assertEquals(newt.time(), t)
self.assertEquals(newt.date(), datetime.datetime.now().date())
self.assertEquals(m, None)
(newdt,), m = xmlrpclib.loads(s, use_datetime=0)
self.assertEquals(newdt, xmlrpclib.DateTime('%sT11:41:23'%today))
def test_bug_1164912 (self):
d = xmlrpclib.DateTime()
((new_d,), dummy) = xmlrpclib.loads(xmlrpclib.dumps((d,),
methodresponse=True))
self.assert_(isinstance(new_d.value, str))
# Check that the output of dumps() is still an 8-bit string
s = xmlrpclib.dumps((new_d,), methodresponse=True)
self.assert_(isinstance(s, str))
def test_newstyle_class(self):
class T(object):
pass
t = T()
t.x = 100
t.y = "Hello"
((t2,), dummy) = xmlrpclib.loads(xmlrpclib.dumps((t,)))
self.assertEquals(t2, t.__dict__)
def test_dump_big_long(self):
self.assertRaises(OverflowError, xmlrpclib.dumps, (2L**99,))
def test_dump_bad_dict(self):
self.assertRaises(TypeError, xmlrpclib.dumps, ({(1,2,3): 1},))
def test_dump_recursive_seq(self):
l = [1,2,3]
t = [3,4,5,l]
l.append(t)
self.assertRaises(TypeError, xmlrpclib.dumps, (l,))
def test_dump_recursive_dict(self):
d = {'1':1, '2':1}
t = {'3':3, 'd':d}
d['t'] = t
self.assertRaises(TypeError, xmlrpclib.dumps, (d,))
def test_dump_big_int(self):
if sys.maxint > 2L**31-1:
self.assertRaises(OverflowError, xmlrpclib.dumps,
(int(2L**34),))
xmlrpclib.dumps((xmlrpclib.MAXINT, xmlrpclib.MININT))
self.assertRaises(OverflowError, xmlrpclib.dumps, (xmlrpclib.MAXINT+1,))
self.assertRaises(OverflowError, xmlrpclib.dumps, (xmlrpclib.MININT-1,))
def dummy_write(s):
pass
m = xmlrpclib.Marshaller()
m.dump_int(xmlrpclib.MAXINT, dummy_write)
m.dump_int(xmlrpclib.MININT, dummy_write)
self.assertRaises(OverflowError, m.dump_int, xmlrpclib.MAXINT+1, dummy_write)
self.assertRaises(OverflowError, m.dump_int, xmlrpclib.MININT-1, dummy_write)
def test_dump_none(self):
value = alist + [None]
arg1 = (alist + [None],)
strg = xmlrpclib.dumps(arg1, allow_none=True)
self.assertEquals(value,
xmlrpclib.loads(strg)[0][0])
self.assertRaises(TypeError, xmlrpclib.dumps, (arg1,))
def test_default_encoding_issues(self):
# SF bug #1115989: wrong decoding in '_stringify'
utf8 = """<?xml version='1.0' encoding='iso-8859-1'?>
<params>
<param><value>
<string>abc \x95</string>
</value></param>
<param><value>
<struct>
<member>
<name>def \x96</name>
<value><string>ghi \x97</string></value>
</member>
</struct>
</value></param>
</params>
"""
# sys.setdefaultencoding() normally doesn't exist after site.py is
# loaded. reload(sys) is the way to get it back.
old_encoding = sys.getdefaultencoding()
setdefaultencoding_existed = hasattr(sys, "setdefaultencoding")
reload(sys) # ugh!
sys.setdefaultencoding("iso-8859-1")
try:
(s, d), m = xmlrpclib.loads(utf8)
finally:
sys.setdefaultencoding(old_encoding)
if not setdefaultencoding_existed:
del sys.setdefaultencoding
items = d.items()
if have_unicode:
self.assertEquals(s, u"abc \x95")
self.assert_(isinstance(s, unicode))
self.assertEquals(items, [(u"def \x96", u"ghi \x97")])
self.assert_(isinstance(items[0][0], unicode))
self.assert_(isinstance(items[0][1], unicode))
else:
self.assertEquals(s, "abc \xc2\x95")
self.assertEquals(items, [("def \xc2\x96", "ghi \xc2\x97")])
class HelperTestCase(unittest.TestCase):
def test_escape(self):
self.assertEqual(xmlrpclib.escape("a&b"), "a&amp;b")
self.assertEqual(xmlrpclib.escape("a<b"), "a&lt;b")
self.assertEqual(xmlrpclib.escape("a>b"), "a&gt;b")
class FaultTestCase(unittest.TestCase):
def test_repr(self):
f = xmlrpclib.Fault(42, 'Test Fault')
self.assertEqual(repr(f), "<Fault 42: 'Test Fault'>")
self.assertEqual(repr(f), str(f))
def test_dump_fault(self):
f = xmlrpclib.Fault(42, 'Test Fault')
s = xmlrpclib.dumps((f,))
(newf,), m = xmlrpclib.loads(s)
self.assertEquals(newf, {'faultCode': 42, 'faultString': 'Test Fault'})
self.assertEquals(m, None)
s = xmlrpclib.Marshaller().dumps(f)
self.assertRaises(xmlrpclib.Fault, xmlrpclib.loads, s)
class DateTimeTestCase(unittest.TestCase):
def test_default(self):
t = xmlrpclib.DateTime()
def test_time(self):
d = 1181399930.036952
t = xmlrpclib.DateTime(d)
self.assertEqual(str(t), time.strftime("%Y%m%dT%H:%M:%S", time.localtime(d)))
def test_time_tuple(self):
d = (2007,6,9,10,38,50,5,160,0)
t = xmlrpclib.DateTime(d)
self.assertEqual(str(t), '20070609T10:38:50')
def test_time_struct(self):
d = time.localtime(1181399930.036952)
t = xmlrpclib.DateTime(d)
self.assertEqual(str(t), time.strftime("%Y%m%dT%H:%M:%S", d))
def test_datetime_datetime(self):
d = datetime.datetime(2007,1,2,3,4,5)
t = xmlrpclib.DateTime(d)
self.assertEqual(str(t), '20070102T03:04:05')
def test_datetime_date(self):
d = datetime.date(2007,9,8)
t = xmlrpclib.DateTime(d)
self.assertEqual(str(t), '20070908T00:00:00')
def test_datetime_time(self):
d = datetime.time(13,17,19)
# allow for date rollover by checking today's or tomorrow's dates
dd1 = datetime.datetime.now().date()
dd2 = dd1 + datetime.timedelta(days=1)
vals = (dd1.strftime('%Y%m%dT13:17:19'),
dd2.strftime('%Y%m%dT13:17:19'))
t = xmlrpclib.DateTime(d)
self.assertEqual(str(t) in vals, True)
def test_repr(self):
d = datetime.datetime(2007,1,2,3,4,5)
t = xmlrpclib.DateTime(d)
val ="<DateTime '20070102T03:04:05' at %x>" % id(t)
self.assertEqual(repr(t), val)
def test_decode(self):
d = ' 20070908T07:11:13 '
t1 = xmlrpclib.DateTime()
t1.decode(d)
tref = xmlrpclib.DateTime(datetime.datetime(2007,9,8,7,11,13))
self.assertEqual(t1, tref)
t2 = xmlrpclib._datetime(d)
self.assertEqual(t1, tref)
class BinaryTestCase(unittest.TestCase):
def test_default(self):
t = xmlrpclib.Binary()
self.assertEqual(str(t), '')
def test_string(self):
d = '\x01\x02\x03abc123\xff\xfe'
t = xmlrpclib.Binary(d)
self.assertEqual(str(t), d)
def test_decode(self):
d = '\x01\x02\x03abc123\xff\xfe'
de = base64.encodestring(d)
t1 = xmlrpclib.Binary()
t1.decode(de)
self.assertEqual(str(t1), d)
t2 = xmlrpclib._binary(de)
self.assertEqual(str(t2), d)
PORT = None
def http_server(evt, numrequests):
class TestInstanceClass:
def div(self, x, y):
return x // y
def _methodHelp(self, name):
if name == 'div':
return 'This is the div function'
def my_function():
'''This is my function'''
return True
try:
serv = SimpleXMLRPCServer.SimpleXMLRPCServer(("localhost", 0),
logRequests=False, bind_and_activate=False)
serv.socket.settimeout(3)
serv.server_bind()
global PORT
PORT = serv.socket.getsockname()[1]
serv.server_activate()
serv.register_introspection_functions()
serv.register_multicall_functions()
serv.register_function(pow)
serv.register_function(lambda x,y: x+y, 'add')
serv.register_function(my_function)
serv.register_instance(TestInstanceClass())
# handle up to 'numrequests' requests
while numrequests > 0:
serv.handle_request()
numrequests -= 1
except socket.timeout:
pass
finally:
serv.socket.close()
PORT = None
evt.set()
def is_unavailable_exception(e):
'''Returns True if the given ProtocolError is the product of a server-side
exception caused by the 'temporarily unavailable' response sometimes
given by operations on non-blocking sockets.'''
# sometimes we get a -1 error code and/or empty headers
if e.errcode == -1 or e.headers is None:
return True
exc_mess = e.headers.get('X-exception')
if exc_mess and 'temporarily unavailable' in exc_mess.lower():
return True
return False
# NOTE: The tests in SimpleServerTestCase will ignore failures caused by
# "temporarily unavailable" exceptions raised in SimpleXMLRPCServer. This
# condition occurs infrequently on some platforms, frequently on others, and
# is apparently caused by using SimpleXMLRPCServer with a non-blocking socket.
# If the server class is updated at some point in the future to handle this
# situation more gracefully, these tests should be modified appropriately.
class SimpleServerTestCase(unittest.TestCase):
def setUp(self):
# enable traceback reporting
SimpleXMLRPCServer.SimpleXMLRPCServer._send_traceback_header = True
self.evt = threading.Event()
# start server thread to handle requests
serv_args = (self.evt, 1)
threading.Thread(target=http_server, args=serv_args).start()
# wait for port to be assigned to server
n = 1000
while n > 0 and PORT is None:
time.sleep(0.001)
n -= 1
time.sleep(0.5)
def tearDown(self):
# wait on the server thread to terminate
self.evt.wait()
# disable traceback reporting
SimpleXMLRPCServer.SimpleXMLRPCServer._send_traceback_header = False
def test_simple1(self):
try:
p = xmlrpclib.ServerProxy('http://localhost:%d' % PORT)
self.assertEqual(p.pow(6,8), 6**8)
except xmlrpclib.ProtocolError, e:
# ignore failures due to non-blocking socket 'unavailable' errors
if not is_unavailable_exception(e):
# protocol error; provide additional information in test output
self.fail("%s\n%s" % (e, e.headers))
def test_404(self):
# send POST with httplib, it should return 404 header and
# 'Not Found' message.
conn = httplib.HTTPConnection('localhost', PORT)
conn.request('POST', '/this-is-not-valid')
response = conn.getresponse()
conn.close()
self.assertEqual(response.status, 404)
self.assertEqual(response.reason, 'Not Found')
def test_introspection1(self):
try:
p = xmlrpclib.ServerProxy('http://localhost:%d' % PORT)
meth = p.system.listMethods()
expected_methods = set(['pow', 'div', 'my_function', 'add',
'system.listMethods', 'system.methodHelp',
'system.methodSignature', 'system.multicall'])
self.assertEqual(set(meth), expected_methods)
except xmlrpclib.ProtocolError, e:
# ignore failures due to non-blocking socket 'unavailable' errors
if not is_unavailable_exception(e):
# protocol error; provide additional information in test output
self.fail("%s\n%s" % (e, e.headers))
def test_introspection2(self):
try:
# test _methodHelp()
p = xmlrpclib.ServerProxy('http://localhost:%d' % PORT)
divhelp = p.system.methodHelp('div')
self.assertEqual(divhelp, 'This is the div function')
except xmlrpclib.ProtocolError, e:
# ignore failures due to non-blocking socket 'unavailable' errors
if not is_unavailable_exception(e):
# protocol error; provide additional information in test output
self.fail("%s\n%s" % (e, e.headers))
def test_introspection3(self):
try:
# test native doc
p = xmlrpclib.ServerProxy('http://localhost:%d' % PORT)
myfunction = p.system.methodHelp('my_function')
self.assertEqual(myfunction, 'This is my function')
except xmlrpclib.ProtocolError, e:
# ignore failures due to non-blocking socket 'unavailable' errors
if not is_unavailable_exception(e):
# protocol error; provide additional information in test output
self.fail("%s\n%s" % (e, e.headers))
def test_introspection4(self):
# the SimpleXMLRPCServer doesn't support signatures, but
# at least check that we can try making the call
try:
p = xmlrpclib.ServerProxy('http://localhost:%d' % PORT)
divsig = p.system.methodSignature('div')
self.assertEqual(divsig, 'signatures not supported')
except xmlrpclib.ProtocolError, e:
# ignore failures due to non-blocking socket 'unavailable' errors
if not is_unavailable_exception(e):
# protocol error; provide additional information in test output
self.fail("%s\n%s" % (e, e.headers))
def test_multicall(self):
try:
p = xmlrpclib.ServerProxy('http://localhost:%d' % PORT)
multicall = xmlrpclib.MultiCall(p)
multicall.add(2,3)
multicall.pow(6,8)
multicall.div(127,42)
add_result, pow_result, div_result = multicall()
self.assertEqual(add_result, 2+3)
self.assertEqual(pow_result, 6**8)
self.assertEqual(div_result, 127//42)
except xmlrpclib.ProtocolError, e:
# ignore failures due to non-blocking socket 'unavailable' errors
if not is_unavailable_exception(e):
# protocol error; provide additional information in test output
self.fail("%s\n%s" % (e, e.headers))
def test_non_existing_multicall(self):
try:
p = xmlrpclib.ServerProxy('http://localhost:%d' % PORT)
multicall = xmlrpclib.MultiCall(p)
multicall.this_is_not_exists()
result = multicall()
# result.results contains;
# [{'faultCode': 1, 'faultString': '<type \'exceptions.Exception\'>:'
# 'method "this_is_not_exists" is not supported'>}]
self.assertEqual(result.results[0]['faultCode'], 1)
self.assertEqual(result.results[0]['faultString'],
'<type \'exceptions.Exception\'>:method "this_is_not_exists" '
'is not supported')
except xmlrpclib.ProtocolError, e:
# ignore failures due to non-blocking socket 'unavailable' errors
if not is_unavailable_exception(e):
# protocol error; provide additional information in test output
self.fail("%s\n%s" % (e, e.headers))
def test_dotted_attribute(self):
# this will raise AttirebuteError because code don't want us to use
# private methods
self.assertRaises(AttributeError,
SimpleXMLRPCServer.resolve_dotted_attribute, str, '__add')
self.assert_(SimpleXMLRPCServer.resolve_dotted_attribute(str, 'title'))
# This is a contrived way to make a failure occur on the server side
# in order to test the _send_traceback_header flag on the server
class FailingMessageClass(mimetools.Message):
def __getitem__(self, key):
key = key.lower()
if key == 'content-length':
return 'I am broken'
return mimetools.Message.__getitem__(self, key)
class FailingServerTestCase(unittest.TestCase):
def setUp(self):
self.evt = threading.Event()
# start server thread to handle requests
serv_args = (self.evt, 2)
threading.Thread(target=http_server, args=serv_args).start()
# wait for port to be assigned to server
n = 1000
while n > 0 and PORT is None:
time.sleep(0.001)
n -= 1
time.sleep(0.5)
def tearDown(self):
# wait on the server thread to terminate
self.evt.wait()
# reset flag
SimpleXMLRPCServer.SimpleXMLRPCServer._send_traceback_header = False
# reset message class
SimpleXMLRPCServer.SimpleXMLRPCRequestHandler.MessageClass = mimetools.Message
def test_basic(self):
# check that flag is false by default
flagval = SimpleXMLRPCServer.SimpleXMLRPCServer._send_traceback_header
self.assertEqual(flagval, False)
# enable traceback reporting
SimpleXMLRPCServer.SimpleXMLRPCServer._send_traceback_header = True
# test a call that shouldn't fail just as a smoke test
try:
p = xmlrpclib.ServerProxy('http://localhost:%d' % PORT)
self.assertEqual(p.pow(6,8), 6**8)
except xmlrpclib.ProtocolError, e:
# ignore failures due to non-blocking socket 'unavailable' errors
if not is_unavailable_exception(e):
# protocol error; provide additional information in test output
self.fail("%s\n%s" % (e, e.headers))
def test_fail_no_info(self):
# use the broken message class
SimpleXMLRPCServer.SimpleXMLRPCRequestHandler.MessageClass = FailingMessageClass
try:
p = xmlrpclib.ServerProxy('http://localhost:%d' % PORT)
p.pow(6,8)
except xmlrpclib.ProtocolError, e:
# ignore failures due to non-blocking socket 'unavailable' errors
if not is_unavailable_exception(e):
# The two server-side error headers shouldn't be sent back in this case
self.assertTrue(e.headers.get("X-exception") is None)
self.assertTrue(e.headers.get("X-traceback") is None)
else:
self.fail('ProtocolError not raised')
def test_fail_with_info(self):
# use the broken message class
SimpleXMLRPCServer.SimpleXMLRPCRequestHandler.MessageClass = FailingMessageClass
# Check that errors in the server send back exception/traceback
# info when flag is set
SimpleXMLRPCServer.SimpleXMLRPCServer._send_traceback_header = True
try:
p = xmlrpclib.ServerProxy('http://localhost:%d' % PORT)
p.pow(6,8)
except xmlrpclib.ProtocolError, e:
# ignore failures due to non-blocking socket 'unavailable' errors
if not is_unavailable_exception(e):
# We should get error info in the response
expected_err = "invalid literal for int() with base 10: 'I am broken'"
self.assertEqual(e.headers.get("x-exception"), expected_err)
self.assertTrue(e.headers.get("x-traceback") is not None)
else:
self.fail('ProtocolError not raised')
class CGIHandlerTestCase(unittest.TestCase):
def setUp(self):
self.cgi = SimpleXMLRPCServer.CGIXMLRPCRequestHandler()
def tearDown(self):
self.cgi = None
def test_cgi_get(self):
os.environ['REQUEST_METHOD'] = 'GET'
# if the method is GET and no request_text is given, it runs handle_get
# get sysout output
tmp = sys.stdout
sys.stdout = open(test_support.TESTFN, "w")
self.cgi.handle_request()
sys.stdout.close()
sys.stdout = tmp
# parse Status header
handle = open(test_support.TESTFN, "r").read()
status = handle.split()[1]
message = ' '.join(handle.split()[2:4])
self.assertEqual(status, '400')
self.assertEqual(message, 'Bad Request')
os.remove(test_support.TESTFN)
os.environ['REQUEST_METHOD'] = ''
def test_cgi_xmlrpc_response(self):
data = """<?xml version='1.0'?>
<methodCall>
<methodName>test_method</methodName>
<params>
<param>
<value><string>foo</string></value>
</param>
<param>
<value><string>bar</string></value>
</param>
</params>
</methodCall>
"""
open("xmldata.txt", "w").write(data)
tmp1 = sys.stdin
tmp2 = sys.stdout
sys.stdin = open("xmldata.txt", "r")
sys.stdout = open(test_support.TESTFN, "w")
self.cgi.handle_request()
sys.stdin.close()
sys.stdout.close()
sys.stdin = tmp1
sys.stdout = tmp2
# will respond exception, if so, our goal is achieved ;)
handle = open(test_support.TESTFN, "r").read()
# start with 44th char so as not to get http header, we just need only xml
self.assertRaises(xmlrpclib.Fault, xmlrpclib.loads, handle[44:])
os.remove("xmldata.txt")
os.remove(test_support.TESTFN)
def test_main():
xmlrpc_tests = [XMLRPCTestCase, HelperTestCase, DateTimeTestCase,
BinaryTestCase, FaultTestCase]
# The test cases against a SimpleXMLRPCServer raise a socket error
# 10035 (WSAEWOULDBLOCK) in the server thread handle_request call when
# run on Windows. This only happens on the first test to run, but it
# fails every time and so these tests are skipped on win32 platforms.
if sys.platform != 'win32':
xmlrpc_tests.append(SimpleServerTestCase)
xmlrpc_tests.append(FailingServerTestCase)
xmlrpc_tests.append(CGIHandlerTestCase)
test_support.run_unittest(*xmlrpc_tests)
if __name__ == "__main__":
test_main()