"""Tests for ClientCookie._urllib2_support (and for urllib2)."""
# XXX
# Request (I'm too lazy)
# CacheFTPHandler (hard to write)
# parse_keqv_list, parse_http_list (I'm leaving this for Anthony Baxter
# and Greg Stein, since they're doing Digest Authentication)
# Authentication stuff (ditto)
# ProxyHandler, CustomProxy, CustomProxyHandler (I don't use a proxy)
# GopherHandler (haven't used gopher for a decade or so...)
import unittest, StringIO, os, sys, UserDict
import urllib2
from ClientCookie._urllib2_support import Request, AbstractHTTPHandler, \
build_opener, parse_head, urlopen
from ClientCookie._Util import startswith
from ClientCookie import HTTPRedirectHandler, HTTPRequestUpgradeProcessor, \
HTTPEquivProcessor, HTTPRefreshProcessor, SeekableProcessor, \
HTTPCookieProcessor, HTTPRefererProcessor, \
HTTPErrorProcessor, HTTPHandler
from ClientCookie import OpenerDirector
try: True
except NameError:
True = 1
False = 0
## from ClientCookie import getLogger, DEBUG
## l = getLogger("ClientCookie")
## l.setLevel(DEBUG)
class MockOpener:
addheaders = []
def open(self, req, data=None):
self.req, self.data = req, data
def error(self, proto, *args):
self.proto, self.args = proto, args
class MockFile:
def read(self, count=None): pass
def readline(self, count=None): pass
def close(self): pass
class MockHeaders(UserDict.UserDict):
def getallmatchingheaders(self, name):
r = []
for k, v in self.data.items():
if k.lower() == name:
r.append("%s: %s" % (k, v))
return r
class MockResponse(StringIO.StringIO):
def __init__(self, code, msg, headers, data, url=None):
StringIO.StringIO.__init__(self, data)
self.code, self.msg, self.headers, self.url = code, msg, headers, url
def info(self):
return self.headers
def geturl(self):
return self.url
class MockCookieJar:
def add_cookie_header(self, request, unverifiable=False):
self.ach_req, self.ach_u = request, unverifiable
def extract_cookies(self, response, request, unverifiable=False):
self.ec_req, self.ec_r, self.ec_u = request, response, unverifiable
class MockMethod:
def __init__(self, meth_name, action, handle):
self.meth_name = meth_name
self.handle = handle
self.action = action
def __call__(self, *args):
return apply(self.handle, (self.meth_name, self.action)+args)
class MockHandler:
processor_order = 500
def __init__(self, methods):
self._define_methods(methods)
def _define_methods(self, methods):
for spec in methods:
if len(spec) == 2: name, action = spec
else: name, action = spec, None
meth = MockMethod(name, action, self.handle)
setattr(self.__class__, name, meth)
def handle(self, fn_name, action, *args, **kwds):
self.parent.calls.append((self, fn_name, args, kwds))
if action is None:
return None
elif action == "return self":
return self
elif action == "return response":
res = MockResponse(200, "OK", {}, "")
return res
elif action == "return request":
return Request("http://blah/")
elif startswith(action, "error"):
code = int(action[-3:])
res = MockResponse(200, "OK", {}, "")
return self.parent.error("http", args[0], res, code, "", {})
elif action == "raise":
raise urllib2.URLError("blah")
assert False
def close(self): pass
def add_parent(self, parent):
self.parent = parent
self.parent.calls = []
def __cmp__(self, other):
if hasattr(other, "handler_order"):
return cmp(self.handler_order, other.handler_order)
# No handler_order, leave in original order. Yuck.
return -1
#return cmp(id(self), id(other))
def add_ordered_mock_handlers(opener, meth_spec):
handlers = []
count = 0
for meths in meth_spec:
class MockHandlerSubclass(MockHandler): pass
h = MockHandlerSubclass(meths)
h.handler_order = h.processor_order = count
h.add_parent(opener)
count = count + 1
handlers.append(h)
opener.add_handler(h)
return handlers
class OpenerDirectorTests(unittest.TestCase):
def test_handled(self):
# handler returning non-None means no more handlers will be called
o = OpenerDirector()
meth_spec = [
["http_open", "ftp_open", "http_error_302"],
["ftp_open"],
[("http_open", "return self")],
[("http_open", "return self")],
]
handlers = add_ordered_mock_handlers(o, meth_spec)
req = Request("http://example.com/")
r = o.open(req)
# Second http_open gets called, third doesn't, since second returned
# non-None. Handlers without http_open never get any methods called
# on them.
# In fact, second mock handler returns self (instead of response),
# which becomes the OpenerDirector's return value.
self.assert_(r == handlers[2])
calls = [(handlers[0], "http_open"), (handlers[2], "http_open")]
for i in range(len(o.calls)):
handler, name, args, kwds = o.calls[i]
self.assert_((handler, name) == calls[i])
self.assert_(args == (req,))
def test_handler_order(self):
o = OpenerDirector()
handlers = []
for meths, handler_order in [
([("http_open", "return self")], 500),
(["http_open"], 0),
]:
class MockHandlerSubclass(MockHandler): pass
h = MockHandlerSubclass(meths)
h.handler_order = handler_order
handlers.append(h)
o.add_handler(h)
r = o.open("http://example.com/")
# handlers called in reverse order, thanks to their sort order
self.assert_(o.calls[0][0] == handlers[1])
self.assert_(o.calls[1][0] == handlers[0])
def test_raise(self):
# raising URLError stops processing of request
o = OpenerDirector()
meth_spec = [
[("http_open", "raise")],
[("http_open", "return self")],
]
handlers = add_ordered_mock_handlers(o, meth_spec)
req = Request("http://example.com/")
self.assertRaises(urllib2.URLError, o.open, req)
self.assert_(o.calls == [(handlers[0], "http_open", (req,), {})])
## def test_error(self):
## # XXX this doesn't actually seem to be used in standard library,
## # but should really be tested anyway...
def test_http_error(self):
# XXX http_error_default
# http errors are a special case
o = OpenerDirector()
meth_spec = [
[("http_open", "error 302")],
[("http_error_400", "raise"), "http_open"],
[("http_error_302", "return response"), "http_error_303",
"http_error"],
[("http_error_302")],
]
handlers = add_ordered_mock_handlers(o, meth_spec)
class Unknown: pass
req = Request("http://example.com/")
r = o.open(req)
assert len(o.calls) == 2
calls = [(handlers[0], "http_open", (req,)),
(handlers[2], "http_error_302", (req, Unknown, 302, "", {}))]
for i in range(len(calls)):
handler, method_name, args, kwds = o.calls[i]
self.assert_((handler, method_name) == calls[i][:2])
# check handler methods were called with expected arguments
expected_args = calls[i][2]
for j in range(len(args)):
if expected_args[j] is not Unknown:
self.assert_(args[j] == expected_args[j])
def test_processors(self):
# *_request / *_response methods get called appropriately
o = OpenerDirector()
meth_spec = [
[("http_request", "return request"),
("http_response", "return response")],
[("http_request", "return request"),
("http_response", "return response")],
]
handlers = add_ordered_mock_handlers(o, meth_spec)
req = Request("http://example.com/")
r = o.open(req)
# processor methods are called on *all* handlers that define them,
# not just the first handler
calls = [(handlers[0], "http_request"), (handlers[1], "http_request"),
(handlers[0], "http_response"), (handlers[1], "http_response")]
for i in range(len(o.calls)):
handler, name, args, kwds = o.calls[i]
if i < 2:
# *_request
self.assert_((handler, name) == calls[i])
self.assert_(len(args) == 1)
self.assert_(isinstance(args[0], Request))
else:
# *_response
self.assert_((handler, name) == calls[i])
self.assert_(len(args) == 2)
self.assert_(isinstance(args[0], Request))
# response from opener.open is None, because there's no
# handler that defines http_open to handle it
self.assert_(args[1] is None or
isinstance(args[1], MockResponse))
class MockHTTPResponse:
def __init__(self, fp, msg, status, reason):
self.fp = fp
self.msg = msg
self.status = status
self.reason = reason
def read(self):
return ''
class MockHTTPClass:
def __init__(self):
self.req_headers = []
self.data = None
self.raise_on_endheaders = False
def __call__(self, host):
self.host = host
return self
def set_debuglevel(self, level):
self.level = level
def request(self, method, url, body=None, headers={}):
self.method = method
self.selector = url
self.req_headers.extend(headers.items())
if body:
self.data = body
if self.raise_on_endheaders:
import socket
raise socket.error()
def getresponse(self):
return MockHTTPResponse(MockFile(), {}, 200, "OK")
class MockFTPWrapper:
def __init__(self, data): self.data = data
def retrfile(self, filename, filetype):
self.filename, self.filetype = filename, filetype
return StringIO.StringIO(self.data), len(self.data)
class NullFTPHandler(urllib2.FTPHandler):
def __init__(self, data): self.data = data
def connect_ftp(self, user, passwd, host, port, dirs):
self.user, self.passwd = user, passwd
self.host, self.port = host, port
self.dirs = dirs
self.ftpwrapper = MockFTPWrapper(self.data)
return self.ftpwrapper
def sanepathname2url(path):
import urllib
urlpath = urllib.pathname2url(path)
if os.name == "nt" and urlpath.startswith("///"):
urlpath = urlpath[2:]
# XXX don't ask me about the mac...
return urlpath
class MockRobotFileParserClass:
def __init__(self):
self.calls = []
self._can_fetch = True
def clear(self):
self.calls = []
def __call__(self):
self.calls.append("__call__")
return self
def set_url(self, url):
self.calls.append(("set_url", url))
def read(self):
self.calls.append("read")
def can_fetch(self, ua, url):
self.calls.append(("can_fetch", ua, url))
return self._can_fetch
class HandlerTests(unittest.TestCase):
if hasattr(sys, "version_info") and sys.version_info > (2, 1, 3, "final", 0):
def test_ftp(self):
import ftplib, socket
data = "rheum rhaponicum"
h = NullFTPHandler(data)
o = h.parent = MockOpener()
for url, host, port, type_, dirs, filename, mimetype in [
("ftp://localhost/foo/bar/baz.html",
"localhost", ftplib.FTP_PORT, "I",
["foo", "bar"], "baz.html", "text/html"),
# XXXX Bug: FTPHandler tries to gethostbyname "localhost:80",
# with the port still there.
#("ftp://localhost:80/foo/bar/",
# "localhost", 80, "D",
# ["foo", "bar"], "", None),
# XXXX bug: second use of splitattr() in FTPHandler should be
# splitvalue()
#("ftp://localhost/baz.gif;type=a",
# "localhost", ftplib.FTP_PORT, "A",
# [], "baz.gif", "image/gif"),
]:
r = h.ftp_open(Request(url))
# ftp authentication not yet implemented by FTPHandler
self.assert_(h.user == h.passwd == "")
self.assert_(h.host == socket.gethostbyname(host))
self.assert_(h.port == port)
self.assert_(h.dirs == dirs)
self.assert_(h.ftpwrapper.filename == filename)
self.assert_(h.ftpwrapper.filetype == type_)
headers = r.info()
self.assert_(headers["Content-type"] == mimetype)
self.assert_(int(headers["Content-length"]) == len(data))
def test_file(self):
import time, rfc822, socket
h = urllib2.FileHandler()
o = h.parent = MockOpener()
#TESTFN = test_support.TESTFN
TESTFN = "test.txt"
urlpath = sanepathname2url(os.path.abspath(TESTFN))
towrite = "hello, world\n"
try:
fqdn = socket.gethostbyname(socket.gethostname())
except socket.gaierror:
fqdn = "localhost"
for url in [
"file://localhost%s" % urlpath,
"file://%s" % urlpath,
"file://%s%s" % (socket.gethostbyname('localhost'), urlpath),
"file://%s%s" % (fqdn, urlpath)
]:
f = open(TESTFN, "wb")
try:
try:
f.write(towrite)
finally:
f.close()
r = h.file_open(Request(url))
try:
data = r.read()
headers = r.info()
newurl = r.geturl()
finally:
r.close()
stats = os.stat(TESTFN)
modified = rfc822.formatdate(stats.st_mtime)
finally:
os.remove(TESTFN)
self.assertEqual(data, towrite)
self.assertEqual(headers["Content-type"], "text/plain")
self.assertEqual(headers["Content-length"], "13")
self.assertEqual(headers["Last-modified"], modified)
for url in [
"file://localhost:80%s" % urlpath,
# XXXX bug: these fail with socket.gaierror, should be URLError
## "file://%s:80%s/%s" % (socket.gethostbyname('localhost'),
## os.getcwd(), TESTFN),
## "file://somerandomhost.ontheinternet.com%s/%s" %
## (os.getcwd(), TESTFN),
]:
try:
f = open(TESTFN, "wb")
try:
f.write(towrite)
finally:
f.close()
self.assertRaises(urllib2.URLError,
h.file_open, Request(url))
finally:
os.remove(TESTFN)
h = urllib2.FileHandler()
o = h.parent = MockOpener()
# XXXX why does // mean ftp (and /// mean not ftp!), and where
# is file: scheme specified? I think this is really a bug, and
# what was intended was to distinguish between URLs like:
# file:/blah.txt (a file)
# file://localhost/blah.txt (a file)
# file:///blah.txt (a file)
# file://ftp.example.com/blah.txt (an ftp URL)
for url, ftp in [
("file://ftp.example.com//foo.txt", True),
("file://ftp.example.com///foo.txt", False),
# XXXX bug: fails with OSError, should be URLError
("file://ftp.example.com/foo.txt", False),
]:
req = Request(url)
try:
h.file_open(req)
# XXXX remove OSError when bug fixed
except (urllib2.URLError, OSError):
self.assert_(not ftp)
else:
self.assert_(o.req is req)
self.assertEqual(req.type, "ftp")
def test_http(self):
h = AbstractHTTPHandler()
o = h.parent = MockOpener()
url = "http://example.com/"
for method, data in [("GET", None), ("POST", "blah")]:
req = Request(url, data, {"Foo": "bar"})
req.add_unredirected_header("Spam", "eggs")
http = MockHTTPClass()
r = h.do_open(http, req)
# result attributes
r.read; r.readline # wrapped MockFile methods
r.info; r.geturl # addinfourl methods
r.code, r.msg == 200, "OK" # added from MockHTTPClass.getreply()
hdrs = r.info()
hdrs.get; hdrs.has_key # r.info() gives dict from .getreply()
self.assert_(r.geturl() == url)
self.assert_(http.host == "example.com")
self.assert_(http.level == 0)
self.assert_(http.method == method)
self.assert_(http.selector == "/")
http.req_headers.sort()
self.assert_(http.req_headers == [
("Connection", "close"),
("Foo", "bar"), ("Spam", "eggs")])
self.assert_(http.data == data)
# check socket.error converted to URLError
http.raise_on_endheaders = True
self.assertRaises(urllib2.URLError, h.do_open, http, req)
# check adding of standard headers
o.addheaders = [("Spam", "eggs")]
for data in "", None: # POST, GET
req = Request("http://example.com/", data)
r = MockResponse(200, "OK", {}, "")
newreq = h.do_request_(req)
if data is None: # GET
self.assert_(not req.unredirected_hdrs.has_key("Content-length"))
self.assert_(not req.unredirected_hdrs.has_key("Content-type"))
else: # POST
# No longer true, due to workarouhd for buggy httplib
# in Python versions < 2.4:
#self.assert_(req.unredirected_hdrs["Content-length"] == "0")
self.assert_(req.unredirected_hdrs["Content-type"] ==
"application/x-www-form-urlencoded")
# XXX the details of Host could be better tested
self.assert_(req.unredirected_hdrs["Host"] == "example.com")
self.assert_(req.unredirected_hdrs["Spam"] == "eggs")
# don't clobber existing headers
req.add_unredirected_header("Content-length", "foo")
req.add_unredirected_header("Content-type", "bar")
req.add_unredirected_header("Host", "baz")
req.add_unredirected_header("Spam", "foo")
newreq = h.do_request_(req)
self.assert_(req.unredirected_hdrs["Content-length"] == "foo")
self.assert_(req.unredirected_hdrs["Content-type"] == "bar")
self.assert_(req.unredirected_hdrs["Host"] == "baz")
self.assert_(req.unredirected_hdrs["Spam"] == "foo")
def test_request_upgrade(self):
new_req_class = hasattr(urllib2.Request, "has_header")
h = HTTPRequestUpgradeProcessor()
o = h.parent = MockOpener()
# urllib2.Request gets upgraded, unless it's the new Request
# class from 2.4
req = urllib2.Request("http://example.com/")
newreq = h.http_request(req)
if new_req_class:
self.assert_(newreq is req)
else:
self.assert_(newreq is not req)
if new_req_class:
self.assert_(newreq.__class__ is not Request)
else:
self.assert_(newreq.__class__ is Request)
# ClientCookie._urllib2_support.Request doesn't get upgraded
req = Request("http://example.com/")
newreq = h.http_request(req)
self.assert_(newreq is req)
self.assert_(newreq.__class__ is Request)
def test_referer(self):
h = HTTPRefererProcessor()
o = h.parent = MockOpener()
# normal case
url = "http://example.com/"
req = Request(url)
r = MockResponse(200, "OK", {}, "", url)
newr = h.http_response(req, r)
self.assert_(r is newr)
self.assert_(h.referer == url)
newreq = h.http_request(req)
self.assert_(req is newreq)
self.assert_(req.unredirected_hdrs["Referer"] == url)
# don't clobber existing Referer
ref = "http://set.by.user.com/"
req.add_unredirected_header("Referer", ref)
newreq = h.http_request(req)
self.assert_(req is newreq)
self.assert_(req.unredirected_hdrs["Referer"] == ref)
def test_errors(self):
h = HTTPErrorProcessor()
o = h.parent = MockOpener()
url = "http://example.com/"
req = Request(url)
# 200 OK is passed through
r = MockResponse(200, "OK", {}, "", url)
newr = h.http_response(req, r)
self.assert_(r is newr)
self.assert_(not hasattr(o, "proto")) # o.error not called
# anything else calls o.error (and MockOpener returns None, here)
r = MockResponse(201, "Created", {}, "", url)
self.assert_(h.http_response(req, r) is None)
self.assert_(o.proto == "http") # o.error called
self.assert_(o.args == (req, r, 201, "Created", {}))
def test_robots(self):
# XXX useragent
try:
import robotparser
except ImportError:
return # skip test
else:
from ClientCookie import HTTPRobotRulesProcessor
rfpc = MockRobotFileParserClass()
h = HTTPRobotRulesProcessor(rfpc)
url = "http://example.com:80/foo/bar.html"
req = Request(url)
# first time: initialise and set up robots.txt parser before checking
# whether OK to fetch URL
h.http_request(req)
self.assert_(rfpc.calls == [
"__call__",
("set_url", "http://example.com:80/robots.txt"),
"read",
("can_fetch", "", url),
])
# second time: just use existing parser
rfpc.clear()
req = Request(url)
h.http_request(req)
self.assert_(rfpc.calls == [
("can_fetch", "", url),
])
# different URL on same server: same again
rfpc.clear()
url = "http://example.com:80/blah.html"
req = Request(url)
h.http_request(req)
self.assert_(rfpc.calls == [
("can_fetch", "", url),
])
# disallowed URL
rfpc.clear()
rfpc._can_fetch = False
url = "http://example.com:80/rhubarb.html"
req = Request(url)
try:
h.http_request(req)
except urllib2.HTTPError, e:
self.assert_(e.request == req)
self.assert_(e.code == 403)
# new host: reload robots.txt (even though the host and port are
# unchanged, we treat this as a new host because
# "example.com" != "example.com:80")
rfpc.clear()
rfpc._can_fetch = True
url = "http://example.com/rhubarb.html"
req = Request(url)
h.http_request(req)
self.assert_(rfpc.calls == [
"__call__",
("set_url", "http://example.com/robots.txt"),
"read",
("can_fetch", "", url),
])
# https url -> should fetch robots.txt from https url too
rfpc.clear()
url = "https://example.org/rhubarb.html"
req = Request(url)
h.http_request(req)
self.assert_(rfpc.calls == [
"__call__",
("set_url", "https://example.org/robots.txt"),
"read",
("can_fetch", "", url),
])
def test_cookies(self):
cj = MockCookieJar()
h = HTTPCookieProcessor(cj)
o = h.parent = MockOpener()
req = Request("http://example.com/")
r = MockResponse(200, "OK", {}, "")
newreq = h.http_request(req)
self.assert_(cj.ach_req is req is newreq)
self.assert_(req.origin_req_host == "example.com")
self.assert_(cj.ach_u == False)
newr = h.http_response(req, r)
self.assert_(cj.ec_req is req)
self.assert_(cj.ec_r is r is newr)
self.assert_(cj.ec_u == False)
def test_seekable(self):
h = SeekableProcessor()
o = h.parent = MockOpener()
req = urllib2.Request("http://example.com/")
class MockUnseekableResponse:
code = 200
msg = "OK"
def info(self): pass
def geturl(self): return ""
r = MockUnseekableResponse()
newr = h.http_response(req, r)
self.assert_(not hasattr(r, "seek"))
self.assert_(hasattr(newr, "seek"))
def test_http_equiv(self):
h = HTTPEquivProcessor()
o = h.parent = MockOpener()
req = Request("http://example.com/")
r = MockResponse(
200, "OK",
MockHeaders({"Foo": "Bar", "Content-type": "text/html"}),
''
''
''
)
newr = h.http_response(req, r)
headers = newr.info()
self.assert_(headers["Refresh"] == "spam&eggs")
self.assert_(headers["Foo"] == "Bar")
def test_refresh(self):
# XXX test processor constructor optional args
h = HTTPRefreshProcessor(max_time=None, honor_time=False)
for val in ['0; url="http://example.com/foo/"', "2"]:
o = h.parent = MockOpener()
req = Request("http://example.com/")
headers = MockHeaders({"refresh": val})
r = MockResponse(200, "OK", headers, "")
newr = h.http_response(req, r)
self.assertEqual(o.proto, "http")
self.assertEqual(o.args, (req, r, "refresh", "OK", headers))
def test_redirect(self):
from_url = "http://example.com/a.html"
to_url = "http://example.com/b.html"
h = HTTPRedirectHandler()
o = h.parent = MockOpener()
# ordinary redirect behaviour
for code in 301, 302, 303, 307, "refresh":
for data in None, "blah\nblah\n":
method = getattr(h, "http_error_%s" % code)
req = Request(from_url, data)
req.add_header("Nonsense", "viking=withhold")
req.add_unredirected_header("Spam", "spam")
req.origin_req_host = "example.com" # XXX
try:
method(req, MockFile(), code, "Blah",
MockHeaders({"location": to_url}))
except urllib2.HTTPError:
# 307 in response to POST requires user OK
self.assert_(code == 307 and data is not None)
self.assert_(o.req.get_full_url() == to_url)
try:
self.assert_(o.req.get_method() == "GET")
except AttributeError:
self.assert_(not o.req.has_data())
self.assert_(o.req.headers["Nonsense"] == "viking=withhold")
self.assert_(not o.req.headers.has_key("Spam"))
self.assert_(not o.req.unredirected_hdrs.has_key("Spam"))
# loop detection
def redirect(h, req, url=to_url):
h.http_error_302(req, MockFile(), 302, "Blah",
MockHeaders({"location": url}))
# Note that the *original* request shares the same record of
# redirections with the sub-requests caused by the redirections.
# detect infinite loop redirect of a URL to itself
req = Request(from_url)
req.origin_req_host = "example.com"
count = 0
try:
while 1:
redirect(h, req, "http://example.com/")
count = count + 1
except urllib2.HTTPError:
# don't stop until max_repeats, because cookies may introduce state
self.assert_(count == HTTPRedirectHandler.max_repeats)
# detect endless non-repeating chain of redirects
req = Request(from_url)
req.origin_req_host = "example.com"
count = 0
try:
while 1:
redirect(h, req, "http://example.com/%d" % count)
count = count + 1
except urllib2.HTTPError:
self.assert_(count == HTTPRedirectHandler.max_redirections)
class UnescapeTests(unittest.TestCase):
def test_unescape_charref(self):
from ClientCookie._urllib2_support import \
unescape_charref, get_entitydefs
mdash_utf8 = u"\u2014".encode("utf-8")
for ref, codepoint, utf8, latin1 in [
("38", 38, u"&".encode("utf-8"), "&"),
("x2014", 0x2014, mdash_utf8, "—"),
("8212", 8212, mdash_utf8, "—"),
]:
self.assertEqual(unescape_charref(ref, None), unichr(codepoint))
self.assertEqual(unescape_charref(ref, 'latin-1'), latin1)
self.assertEqual(unescape_charref(ref, 'utf-8'), utf8)
def test_get_entitydefs(self):
from ClientCookie._urllib2_support import get_entitydefs
ed = get_entitydefs()
for name, codepoint in [
("amp", ord(u"&")),
("lt", ord(u"<")),
("gt", ord(u">")),
("mdash", 0x2014),
("spades", 0x2660),
]:
self.assertEqual(ed[name], codepoint)
def test_unescape(self):
import htmlentitydefs
from ClientCookie._urllib2_support import unescape, get_entitydefs
data = "& < — — —"
mdash_utf8 = u"\u2014".encode("utf-8")
ue = unescape(data, get_entitydefs(), "utf-8")
self.assertEqual("& < %s %s %s" % ((mdash_utf8,)*3), ue)
for text, expect in [
("&a&", "&a&"),
("a&", "a&"),
]:
got = unescape(text, get_entitydefs(), "latin-1")
self.assertEqual(got, expect)
class HeadParserTests(unittest.TestCase):
def test(self):
# XXX XHTML
from ClientCookie import HeadParser
htmls = [
("""
""",
[("refresh", "1; http://example.com/")]
),
("""
""",
[("refresh", "1; http://example.com/"), ("foo", "bar")])
]
for html, result in htmls:
self.assertEqual(parse_head(StringIO.StringIO(html), HeadParser()), result)
class MockHTTPHandler(HTTPHandler):
def __init__(self): self._count = 0
def http_open(self, req):
import mimetools
from StringIO import StringIO
if self._count == 0:
self._count = self._count + 1
msg = mimetools.Message(
StringIO("Location: http://www.cracker.com/\r\n\r\n"))
return self.parent.error(
"http", req, MockFile(), 302, "Found", msg)
else:
self.req = req
msg = mimetools.Message(StringIO("\r\n\r\n"))
return MockResponse(200, "OK", msg, "", req.get_full_url())
class MiscTests(unittest.TestCase):
def test_cookie_redirect(self):
# cookies shouldn't leak into redirected requests
from ClientCookie import CookieJar, build_opener, HTTPHandler, \
HTTPCookieProcessor
from urllib2 import HTTPError
from test_cookies import interact_netscape
cj = CookieJar()
interact_netscape(cj, "http://www.example.com/", "spam=eggs")
hh = MockHTTPHandler()
cp = HTTPCookieProcessor(cj)
o = build_opener(hh, cp)
o.open("http://www.example.com/")
self.assert_(not hh.req.has_header("Cookie"))
class MyHTTPHandler(HTTPHandler): pass
class FooHandler(urllib2.BaseHandler):
def foo_open(self): pass
class BarHandler(urllib2.BaseHandler):
def bar_open(self): pass
class A:
def a(self): pass
class B(A):
def a(self): pass
def b(self): pass
class C(A):
def c(self): pass
class D(C, B):
def a(self): pass
def d(self): pass
class FunctionTests(unittest.TestCase):
def test_build_opener(self):
o = build_opener(FooHandler, BarHandler)
self.opener_has_handler(o, FooHandler)
self.opener_has_handler(o, BarHandler)
# can take a mix of classes and instances
o = build_opener(FooHandler, BarHandler())
self.opener_has_handler(o, FooHandler)
self.opener_has_handler(o, BarHandler)
# subclasses of default handlers override default handlers
o = build_opener(MyHTTPHandler)
self.opener_has_handler(o, MyHTTPHandler)
# a particular case of overriding: default handlers can be passed
# in explicitly
o = build_opener()
self.opener_has_handler(o, HTTPHandler)
o = build_opener(HTTPHandler)
self.opener_has_handler(o, HTTPHandler)
o = build_opener(HTTPHandler())
self.opener_has_handler(o, HTTPHandler)
def opener_has_handler(self, opener, handler_class):
for h in opener.handlers:
if h.__class__ == handler_class:
break
else:
self.assert_(False)
def _methnames(self, *objs):
from ClientCookie._Opener import methnames
r = []
for i in range(len(objs)):
obj = objs[i]
names = methnames(obj)
names.sort()
# special methods vary over Python versions
names = filter(lambda mn: mn[0:2] != "__" , names)
r.append(names)
return r
def test_methnames(self):
a, b, c, d = A(), B(), C(), D()
a, b, c, d = self._methnames(a, b, c, d)
self.assert_(a == ["a"])
self.assert_(b == ["a", "b"])
self.assert_(c == ["a", "c"])
self.assert_(d == ["a", "b", "c", "d"])
a, b, c, d = A(), B(), C(), D()
a.x = lambda self: None
b.y = lambda self: None
d.z = lambda self: None
a, b, c, d = self._methnames(a, b, c, d)
self.assert_(a == ["a", "x"])
self.assert_(b == ["a", "b", "y"])
self.assert_(c == ["a", "c"])
self.assert_(d == ["a", "b", "c", "d", "z"])
if __name__ == "__main__":
unittest.main()