Mini Shell
from tornado.concurrent import Future
from tornado import gen
from tornado.escape import (
json_decode,
utf8,
to_unicode,
recursive_unicode,
native_str,
to_basestring,
)
from tornado.httpclient import HTTPClientError
from tornado.httputil import format_timestamp
from tornado.iostream import IOStream
from tornado import locale
from tornado.locks import Event
from tornado.log import app_log, gen_log
from tornado.simple_httpclient import SimpleAsyncHTTPClient
from tornado.template import DictLoader
from tornado.testing import AsyncHTTPTestCase, AsyncTestCase, ExpectLog, gen_test
from tornado.util import ObjectDict, unicode_type
from tornado.web import (
Application,
RequestHandler,
StaticFileHandler,
RedirectHandler as WebRedirectHandler,
HTTPError,
MissingArgumentError,
ErrorHandler,
authenticated,
url,
_create_signature_v1,
create_signed_value,
decode_signed_value,
get_signature_key_version,
UIModule,
Finish,
stream_request_body,
removeslash,
addslash,
GZipContentEncoding,
)
import binascii
import contextlib
import copy
import datetime
import email.utils
import gzip
from io import BytesIO
import itertools
import logging
import os
import re
import socket
import typing # noqa: F401
import unittest
import urllib.parse
def relpath(*a):
return os.path.join(os.path.dirname(__file__), *a)
class WebTestCase(AsyncHTTPTestCase):
"""Base class for web tests that also supports WSGI mode.
Override get_handlers and get_app_kwargs instead of get_app.
This class is deprecated since WSGI mode is no longer supported.
"""
def get_app(self):
self.app = Application(self.get_handlers(), **self.get_app_kwargs())
return self.app
def get_handlers(self):
raise NotImplementedError()
def get_app_kwargs(self):
return {}
class SimpleHandlerTestCase(WebTestCase):
"""Simplified base class for tests that work with a single handler class.
To use, define a nested class named ``Handler``.
"""
def get_handlers(self):
return [("/", self.Handler)]
class HelloHandler(RequestHandler):
def get(self):
self.write("hello")
class CookieTestRequestHandler(RequestHandler):
# stub out enough methods to make the secure_cookie functions work
def __init__(self, cookie_secret="0123456789", key_version=None):
# don't call super.__init__
self._cookies = {} # type: typing.Dict[str, bytes]
if key_version is None:
self.application = ObjectDict(settings=dict(cookie_secret=cookie_secret))
else:
self.application = ObjectDict(
settings=dict(cookie_secret=cookie_secret, key_version=key_version)
)
def get_cookie(self, name):
return self._cookies.get(name)
def set_cookie(self, name, value, expires_days=None):
self._cookies[name] = value
# See SignedValueTest below for more.
class SecureCookieV1Test(unittest.TestCase):
def test_round_trip(self):
handler = CookieTestRequestHandler()
handler.set_secure_cookie("foo", b"bar", version=1)
self.assertEqual(handler.get_secure_cookie("foo", min_version=1), b"bar")
def test_cookie_tampering_future_timestamp(self):
handler = CookieTestRequestHandler()
# this string base64-encodes to '12345678'
handler.set_secure_cookie("foo", binascii.a2b_hex(b"d76df8e7aefc"), version=1)
cookie = handler._cookies["foo"]
match = re.match(br"12345678\|([0-9]+)\|([0-9a-f]+)", cookie)
assert match is not None
timestamp = match.group(1)
sig = match.group(2)
self.assertEqual(
_create_signature_v1(
handler.application.settings["cookie_secret"],
"foo",
"12345678",
timestamp,
),
sig,
)
# shifting digits from payload to timestamp doesn't alter signature
# (this is not desirable behavior, just confirming that that's how it
# works)
self.assertEqual(
_create_signature_v1(
handler.application.settings["cookie_secret"],
"foo",
"1234",
b"5678" + timestamp,
),
sig,
)
# tamper with the cookie
handler._cookies["foo"] = utf8(
"1234|5678%s|%s" % (to_basestring(timestamp), to_basestring(sig))
)
# it gets rejected
with ExpectLog(gen_log, "Cookie timestamp in future"):
self.assertTrue(handler.get_secure_cookie("foo", min_version=1) is None)
def test_arbitrary_bytes(self):
# Secure cookies accept arbitrary data (which is base64 encoded).
# Note that normal cookies accept only a subset of ascii.
handler = CookieTestRequestHandler()
handler.set_secure_cookie("foo", b"\xe9", version=1)
self.assertEqual(handler.get_secure_cookie("foo", min_version=1), b"\xe9")
# See SignedValueTest below for more.
class SecureCookieV2Test(unittest.TestCase):
KEY_VERSIONS = {0: "ajklasdf0ojaisdf", 1: "aslkjasaolwkjsdf"}
def test_round_trip(self):
handler = CookieTestRequestHandler()
handler.set_secure_cookie("foo", b"bar", version=2)
self.assertEqual(handler.get_secure_cookie("foo", min_version=2), b"bar")
def test_key_version_roundtrip(self):
handler = CookieTestRequestHandler(
cookie_secret=self.KEY_VERSIONS, key_version=0
)
handler.set_secure_cookie("foo", b"bar")
self.assertEqual(handler.get_secure_cookie("foo"), b"bar")
def test_key_version_roundtrip_differing_version(self):
handler = CookieTestRequestHandler(
cookie_secret=self.KEY_VERSIONS, key_version=1
)
handler.set_secure_cookie("foo", b"bar")
self.assertEqual(handler.get_secure_cookie("foo"), b"bar")
def test_key_version_increment_version(self):
handler = CookieTestRequestHandler(
cookie_secret=self.KEY_VERSIONS, key_version=0
)
handler.set_secure_cookie("foo", b"bar")
new_handler = CookieTestRequestHandler(
cookie_secret=self.KEY_VERSIONS, key_version=1
)
new_handler._cookies = handler._cookies
self.assertEqual(new_handler.get_secure_cookie("foo"), b"bar")
def test_key_version_invalidate_version(self):
handler = CookieTestRequestHandler(
cookie_secret=self.KEY_VERSIONS, key_version=0
)
handler.set_secure_cookie("foo", b"bar")
new_key_versions = self.KEY_VERSIONS.copy()
new_key_versions.pop(0)
new_handler = CookieTestRequestHandler(
cookie_secret=new_key_versions, key_version=1
)
new_handler._cookies = handler._cookies
self.assertEqual(new_handler.get_secure_cookie("foo"), None)
class FinalReturnTest(WebTestCase):
def get_handlers(self):
test = self
class FinishHandler(RequestHandler):
@gen.coroutine
def get(self):
test.final_return = self.finish()
yield test.final_return
@gen.coroutine
def post(self):
self.write("hello,")
yield self.flush()
test.final_return = self.finish("world")
yield test.final_return
class RenderHandler(RequestHandler):
def create_template_loader(self, path):
return DictLoader({"foo.html": "hi"})
@gen.coroutine
def get(self):
test.final_return = self.render("foo.html")
return [("/finish", FinishHandler), ("/render", RenderHandler)]
def get_app_kwargs(self):
return dict(template_path="FinalReturnTest")
def test_finish_method_return_future(self):
response = self.fetch(self.get_url("/finish"))
self.assertEqual(response.code, 200)
self.assertIsInstance(self.final_return, Future)
self.assertTrue(self.final_return.done())
response = self.fetch(self.get_url("/finish"), method="POST", body=b"")
self.assertEqual(response.code, 200)
self.assertIsInstance(self.final_return, Future)
self.assertTrue(self.final_return.done())
def test_render_method_return_future(self):
response = self.fetch(self.get_url("/render"))
self.assertEqual(response.code, 200)
self.assertIsInstance(self.final_return, Future)
class CookieTest(WebTestCase):
def get_handlers(self):
class SetCookieHandler(RequestHandler):
def get(self):
# Try setting cookies with different argument types
# to ensure that everything gets encoded correctly
self.set_cookie("str", "asdf")
self.set_cookie("unicode", u"qwer")
self.set_cookie("bytes", b"zxcv")
class GetCookieHandler(RequestHandler):
def get(self):
self.write(self.get_cookie("foo", "default"))
class SetCookieDomainHandler(RequestHandler):
def get(self):
# unicode domain and path arguments shouldn't break things
# either (see bug #285)
self.set_cookie("unicode_args", "blah", domain=u"foo.com", path=u"/foo")
class SetCookieSpecialCharHandler(RequestHandler):
def get(self):
self.set_cookie("equals", "a=b")
self.set_cookie("semicolon", "a;b")
self.set_cookie("quote", 'a"b')
class SetCookieOverwriteHandler(RequestHandler):
def get(self):
self.set_cookie("a", "b", domain="example.com")
self.set_cookie("c", "d", domain="example.com")
# A second call with the same name clobbers the first.
# Attributes from the first call are not carried over.
self.set_cookie("a", "e")
class SetCookieMaxAgeHandler(RequestHandler):
def get(self):
self.set_cookie("foo", "bar", max_age=10)
class SetCookieExpiresDaysHandler(RequestHandler):
def get(self):
self.set_cookie("foo", "bar", expires_days=10)
class SetCookieFalsyFlags(RequestHandler):
def get(self):
self.set_cookie("a", "1", secure=True)
self.set_cookie("b", "1", secure=False)
self.set_cookie("c", "1", httponly=True)
self.set_cookie("d", "1", httponly=False)
return [
("/set", SetCookieHandler),
("/get", GetCookieHandler),
("/set_domain", SetCookieDomainHandler),
("/special_char", SetCookieSpecialCharHandler),
("/set_overwrite", SetCookieOverwriteHandler),
("/set_max_age", SetCookieMaxAgeHandler),
("/set_expires_days", SetCookieExpiresDaysHandler),
("/set_falsy_flags", SetCookieFalsyFlags),
]
def test_set_cookie(self):
response = self.fetch("/set")
self.assertEqual(
sorted(response.headers.get_list("Set-Cookie")),
["bytes=zxcv; Path=/", "str=asdf; Path=/", "unicode=qwer; Path=/"],
)
def test_get_cookie(self):
response = self.fetch("/get", headers={"Cookie": "foo=bar"})
self.assertEqual(response.body, b"bar")
response = self.fetch("/get", headers={"Cookie": 'foo="bar"'})
self.assertEqual(response.body, b"bar")
response = self.fetch("/get", headers={"Cookie": "/=exception;"})
self.assertEqual(response.body, b"default")
def test_set_cookie_domain(self):
response = self.fetch("/set_domain")
self.assertEqual(
response.headers.get_list("Set-Cookie"),
["unicode_args=blah; Domain=foo.com; Path=/foo"],
)
def test_cookie_special_char(self):
response = self.fetch("/special_char")
headers = sorted(response.headers.get_list("Set-Cookie"))
self.assertEqual(len(headers), 3)
self.assertEqual(headers[0], 'equals="a=b"; Path=/')
self.assertEqual(headers[1], 'quote="a\\"b"; Path=/')
# python 2.7 octal-escapes the semicolon; older versions leave it alone
self.assertTrue(
headers[2] in ('semicolon="a;b"; Path=/', 'semicolon="a\\073b"; Path=/'),
headers[2],
)
data = [
("foo=a=b", "a=b"),
('foo="a=b"', "a=b"),
('foo="a;b"', '"a'), # even quoted, ";" is a delimiter
("foo=a\\073b", "a\\073b"), # escapes only decoded in quotes
('foo="a\\073b"', "a;b"),
('foo="a\\"b"', 'a"b'),
]
for header, expected in data:
logging.debug("trying %r", header)
response = self.fetch("/get", headers={"Cookie": header})
self.assertEqual(response.body, utf8(expected))
def test_set_cookie_overwrite(self):
response = self.fetch("/set_overwrite")
headers = response.headers.get_list("Set-Cookie")
self.assertEqual(
sorted(headers), ["a=e; Path=/", "c=d; Domain=example.com; Path=/"]
)
def test_set_cookie_max_age(self):
response = self.fetch("/set_max_age")
headers = response.headers.get_list("Set-Cookie")
self.assertEqual(sorted(headers), ["foo=bar; Max-Age=10; Path=/"])
def test_set_cookie_expires_days(self):
response = self.fetch("/set_expires_days")
header = response.headers.get("Set-Cookie")
match = re.match("foo=bar; expires=(?P<expires>.+); Path=/", header)
assert match is not None
expires = datetime.datetime.utcnow() + datetime.timedelta(days=10)
parsed = email.utils.parsedate(match.groupdict()["expires"])
assert parsed is not None
header_expires = datetime.datetime(*parsed[:6])
self.assertTrue(abs((expires - header_expires).total_seconds()) < 10)
def test_set_cookie_false_flags(self):
response = self.fetch("/set_falsy_flags")
headers = sorted(response.headers.get_list("Set-Cookie"))
# The secure and httponly headers are capitalized in py35 and
# lowercase in older versions.
self.assertEqual(headers[0].lower(), "a=1; path=/; secure")
self.assertEqual(headers[1].lower(), "b=1; path=/")
self.assertEqual(headers[2].lower(), "c=1; httponly; path=/")
self.assertEqual(headers[3].lower(), "d=1; path=/")
class AuthRedirectRequestHandler(RequestHandler):
def initialize(self, login_url):
self.login_url = login_url
def get_login_url(self):
return self.login_url
@authenticated
def get(self):
# we'll never actually get here because the test doesn't follow redirects
self.send_error(500)
class AuthRedirectTest(WebTestCase):
def get_handlers(self):
return [
("/relative", AuthRedirectRequestHandler, dict(login_url="/login")),
(
"/absolute",
AuthRedirectRequestHandler,
dict(login_url="http://example.com/login"),
),
]
def test_relative_auth_redirect(self):
response = self.fetch(self.get_url("/relative"), follow_redirects=False)
self.assertEqual(response.code, 302)
self.assertEqual(response.headers["Location"], "/login?next=%2Frelative")
def test_absolute_auth_redirect(self):
response = self.fetch(self.get_url("/absolute"), follow_redirects=False)
self.assertEqual(response.code, 302)
self.assertTrue(
re.match(
r"http://example.com/login\?next=http%3A%2F%2F127.0.0.1%3A[0-9]+%2Fabsolute",
response.headers["Location"],
),
response.headers["Location"],
)
class ConnectionCloseHandler(RequestHandler):
def initialize(self, test):
self.test = test
@gen.coroutine
def get(self):
self.test.on_handler_waiting()
yield self.test.cleanup_event.wait()
def on_connection_close(self):
self.test.on_connection_close()
class ConnectionCloseTest(WebTestCase):
def get_handlers(self):
self.cleanup_event = Event()
return [("/", ConnectionCloseHandler, dict(test=self))]
def test_connection_close(self):
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM, 0)
s.connect(("127.0.0.1", self.get_http_port()))
self.stream = IOStream(s)
self.stream.write(b"GET / HTTP/1.0\r\n\r\n")
self.wait()
# Let the hanging coroutine clean up after itself
self.cleanup_event.set()
self.io_loop.run_sync(lambda: gen.sleep(0))
def on_handler_waiting(self):
logging.debug("handler waiting")
self.stream.close()
def on_connection_close(self):
logging.debug("connection closed")
self.stop()
class EchoHandler(RequestHandler):
def get(self, *path_args):
# Type checks: web.py interfaces convert argument values to
# unicode strings (by default, but see also decode_argument).
# In httpserver.py (i.e. self.request.arguments), they're left
# as bytes. Keys are always native strings.
for key in self.request.arguments:
if type(key) != str:
raise Exception("incorrect type for key: %r" % type(key))
for value in self.request.arguments[key]:
if type(value) != bytes:
raise Exception("incorrect type for value: %r" % type(value))
for value in self.get_arguments(key):
if type(value) != unicode_type:
raise Exception("incorrect type for value: %r" % type(value))
for arg in path_args:
if type(arg) != unicode_type:
raise Exception("incorrect type for path arg: %r" % type(arg))
self.write(
dict(
path=self.request.path,
path_args=path_args,
args=recursive_unicode(self.request.arguments),
)
)
class RequestEncodingTest(WebTestCase):
def get_handlers(self):
return [("/group/(.*)", EchoHandler), ("/slashes/([^/]*)/([^/]*)", EchoHandler)]
def fetch_json(self, path):
return json_decode(self.fetch(path).body)
def test_group_question_mark(self):
# Ensure that url-encoded question marks are handled properly
self.assertEqual(
self.fetch_json("/group/%3F"),
dict(path="/group/%3F", path_args=["?"], args={}),
)
self.assertEqual(
self.fetch_json("/group/%3F?%3F=%3F"),
dict(path="/group/%3F", path_args=["?"], args={"?": ["?"]}),
)
def test_group_encoding(self):
# Path components and query arguments should be decoded the same way
self.assertEqual(
self.fetch_json("/group/%C3%A9?arg=%C3%A9"),
{
u"path": u"/group/%C3%A9",
u"path_args": [u"\u00e9"],
u"args": {u"arg": [u"\u00e9"]},
},
)
def test_slashes(self):
# Slashes may be escaped to appear as a single "directory" in the path,
# but they are then unescaped when passed to the get() method.
self.assertEqual(
self.fetch_json("/slashes/foo/bar"),
dict(path="/slashes/foo/bar", path_args=["foo", "bar"], args={}),
)
self.assertEqual(
self.fetch_json("/slashes/a%2Fb/c%2Fd"),
dict(path="/slashes/a%2Fb/c%2Fd", path_args=["a/b", "c/d"], args={}),
)
def test_error(self):
# Percent signs (encoded as %25) should not mess up printf-style
# messages in logs
with ExpectLog(gen_log, ".*Invalid unicode"):
self.fetch("/group/?arg=%25%e9")
class TypeCheckHandler(RequestHandler):
def prepare(self):
self.errors = {} # type: typing.Dict[str, str]
self.check_type("status", self.get_status(), int)
# get_argument is an exception from the general rule of using
# type str for non-body data mainly for historical reasons.
self.check_type("argument", self.get_argument("foo"), unicode_type)
self.check_type("cookie_key", list(self.cookies.keys())[0], str)
self.check_type("cookie_value", list(self.cookies.values())[0].value, str)
# Secure cookies return bytes because they can contain arbitrary
# data, but regular cookies are native strings.
if list(self.cookies.keys()) != ["asdf"]:
raise Exception(
"unexpected values for cookie keys: %r" % self.cookies.keys()
)
self.check_type("get_secure_cookie", self.get_secure_cookie("asdf"), bytes)
self.check_type("get_cookie", self.get_cookie("asdf"), str)
self.check_type("xsrf_token", self.xsrf_token, bytes)
self.check_type("xsrf_form_html", self.xsrf_form_html(), str)
self.check_type("reverse_url", self.reverse_url("typecheck", "foo"), str)
self.check_type("request_summary", self._request_summary(), str)
def get(self, path_component):
# path_component uses type unicode instead of str for consistency
# with get_argument()
self.check_type("path_component", path_component, unicode_type)
self.write(self.errors)
def post(self, path_component):
self.check_type("path_component", path_component, unicode_type)
self.write(self.errors)
def check_type(self, name, obj, expected_type):
actual_type = type(obj)
if expected_type != actual_type:
self.errors[name] = "expected %s, got %s" % (expected_type, actual_type)
class DecodeArgHandler(RequestHandler):
def decode_argument(self, value, name=None):
if type(value) != bytes:
raise Exception("unexpected type for value: %r" % type(value))
# use self.request.arguments directly to avoid recursion
if "encoding" in self.request.arguments:
return value.decode(to_unicode(self.request.arguments["encoding"][0]))
else:
return value
def get(self, arg):
def describe(s):
if type(s) == bytes:
return ["bytes", native_str(binascii.b2a_hex(s))]
elif type(s) == unicode_type:
return ["unicode", s]
raise Exception("unknown type")
self.write({"path": describe(arg), "query": describe(self.get_argument("foo"))})
class LinkifyHandler(RequestHandler):
def get(self):
self.render("linkify.html", message="http://example.com")
class UIModuleResourceHandler(RequestHandler):
def get(self):
self.render("page.html", entries=[1, 2])
class OptionalPathHandler(RequestHandler):
def get(self, path):
self.write({"path": path})
class MultiHeaderHandler(RequestHandler):
def get(self):
self.set_header("x-overwrite", "1")
self.set_header("X-Overwrite", 2)
self.add_header("x-multi", 3)
self.add_header("X-Multi", "4")
class RedirectHandler(RequestHandler):
def get(self):
if self.get_argument("permanent", None) is not None:
self.redirect("/", permanent=int(self.get_argument("permanent")))
elif self.get_argument("status", None) is not None:
self.redirect("/", status=int(self.get_argument("status")))
else:
raise Exception("didn't get permanent or status arguments")
class EmptyFlushCallbackHandler(RequestHandler):
@gen.coroutine
def get(self):
# Ensure that the flush callback is run whether or not there
# was any output. The gen.Task and direct yield forms are
# equivalent.
yield self.flush() # "empty" flush, but writes headers
yield self.flush() # empty flush
self.write("o")
yield self.flush() # flushes the "o"
yield self.flush() # empty flush
self.finish("k")
class HeaderInjectionHandler(RequestHandler):
def get(self):
try:
self.set_header("X-Foo", "foo\r\nX-Bar: baz")
raise Exception("Didn't get expected exception")
except ValueError as e:
if "Unsafe header value" in str(e):
self.finish(b"ok")
else:
raise
class GetArgumentHandler(RequestHandler):
def prepare(self):
if self.get_argument("source", None) == "query":
method = self.get_query_argument
elif self.get_argument("source", None) == "body":
method = self.get_body_argument
else:
method = self.get_argument
self.finish(method("foo", "default"))
class GetArgumentsHandler(RequestHandler):
def prepare(self):
self.finish(
dict(
default=self.get_arguments("foo"),
query=self.get_query_arguments("foo"),
body=self.get_body_arguments("foo"),
)
)
# This test was shared with wsgi_test.py; now the name is meaningless.
class WSGISafeWebTest(WebTestCase):
COOKIE_SECRET = "WebTest.COOKIE_SECRET"
def get_app_kwargs(self):
loader = DictLoader(
{
"linkify.html": "{% module linkify(message) %}",
"page.html": """\
<html><head></head><body>
{% for e in entries %}
{% module Template("entry.html", entry=e) %}
{% end %}
</body></html>""",
"entry.html": """\
{{ set_resources(embedded_css=".entry { margin-bottom: 1em; }",
embedded_javascript="js_embed()",
css_files=["/base.css", "/foo.css"],
javascript_files="/common.js",
html_head="<meta>",
html_body='<script src="/analytics.js"/>') }}
<div class="entry">...</div>""",
}
)
return dict(
template_loader=loader,
autoescape="xhtml_escape",
cookie_secret=self.COOKIE_SECRET,
)
def tearDown(self):
super(WSGISafeWebTest, self).tearDown()
RequestHandler._template_loaders.clear()
def get_handlers(self):
urls = [
url("/typecheck/(.*)", TypeCheckHandler, name="typecheck"),
url("/decode_arg/(.*)", DecodeArgHandler, name="decode_arg"),
url("/decode_arg_kw/(?P<arg>.*)", DecodeArgHandler),
url("/linkify", LinkifyHandler),
url("/uimodule_resources", UIModuleResourceHandler),
url("/optional_path/(.+)?", OptionalPathHandler),
url("/multi_header", MultiHeaderHandler),
url("/redirect", RedirectHandler),
url(
"/web_redirect_permanent",
WebRedirectHandler,
{"url": "/web_redirect_newpath"},
),
url(
"/web_redirect",
WebRedirectHandler,
{"url": "/web_redirect_newpath", "permanent": False},
),
url(
"//web_redirect_double_slash",
WebRedirectHandler,
{"url": "/web_redirect_newpath"},
),
url("/header_injection", HeaderInjectionHandler),
url("/get_argument", GetArgumentHandler),
url("/get_arguments", GetArgumentsHandler),
]
return urls
def fetch_json(self, *args, **kwargs):
response = self.fetch(*args, **kwargs)
response.rethrow()
return json_decode(response.body)
def test_types(self):
cookie_value = to_unicode(
create_signed_value(self.COOKIE_SECRET, "asdf", "qwer")
)
response = self.fetch(
"/typecheck/asdf?foo=bar", headers={"Cookie": "asdf=" + cookie_value}
)
data = json_decode(response.body)
self.assertEqual(data, {})
response = self.fetch(
"/typecheck/asdf?foo=bar",
method="POST",
headers={"Cookie": "asdf=" + cookie_value},
body="foo=bar",
)
def test_decode_argument(self):
# These urls all decode to the same thing
urls = [
"/decode_arg/%C3%A9?foo=%C3%A9&encoding=utf-8",
"/decode_arg/%E9?foo=%E9&encoding=latin1",
"/decode_arg_kw/%E9?foo=%E9&encoding=latin1",
]
for req_url in urls:
response = self.fetch(req_url)
response.rethrow()
data = json_decode(response.body)
self.assertEqual(
data,
{u"path": [u"unicode", u"\u00e9"], u"query": [u"unicode", u"\u00e9"]},
)
response = self.fetch("/decode_arg/%C3%A9?foo=%C3%A9")
response.rethrow()
data = json_decode(response.body)
self.assertEqual(
data, {u"path": [u"bytes", u"c3a9"], u"query": [u"bytes", u"c3a9"]}
)
def test_decode_argument_invalid_unicode(self):
# test that invalid unicode in URLs causes 400, not 500
with ExpectLog(gen_log, ".*Invalid unicode.*"):
response = self.fetch("/typecheck/invalid%FF")
self.assertEqual(response.code, 400)
response = self.fetch("/typecheck/invalid?foo=%FF")
self.assertEqual(response.code, 400)
def test_decode_argument_plus(self):
# These urls are all equivalent.
urls = [
"/decode_arg/1%20%2B%201?foo=1%20%2B%201&encoding=utf-8",
"/decode_arg/1%20+%201?foo=1+%2B+1&encoding=utf-8",
]
for req_url in urls:
response = self.fetch(req_url)
response.rethrow()
data = json_decode(response.body)
self.assertEqual(
data,
{u"path": [u"unicode", u"1 + 1"], u"query": [u"unicode", u"1 + 1"]},
)
def test_reverse_url(self):
self.assertEqual(self.app.reverse_url("decode_arg", "foo"), "/decode_arg/foo")
self.assertEqual(self.app.reverse_url("decode_arg", 42), "/decode_arg/42")
self.assertEqual(self.app.reverse_url("decode_arg", b"\xe9"), "/decode_arg/%E9")
self.assertEqual(
self.app.reverse_url("decode_arg", u"\u00e9"), "/decode_arg/%C3%A9"
)
self.assertEqual(
self.app.reverse_url("decode_arg", "1 + 1"), "/decode_arg/1%20%2B%201"
)
def test_uimodule_unescaped(self):
response = self.fetch("/linkify")
self.assertEqual(
response.body, b'<a href="http://example.com">http://example.com</a>'
)
def test_uimodule_resources(self):
response = self.fetch("/uimodule_resources")
self.assertEqual(
response.body,
b"""\
<html><head><link href="/base.css" type="text/css" rel="stylesheet"/><link href="/foo.css" type="text/css" rel="stylesheet"/>
<style type="text/css">
.entry { margin-bottom: 1em; }
</style>
<meta>
</head><body>
<div class="entry">...</div>
<div class="entry">...</div>
<script src="/common.js" type="text/javascript"></script>
<script type="text/javascript">
//<![CDATA[
js_embed()
//]]>
</script>
<script src="/analytics.js"/>
</body></html>""", # noqa: E501
)
def test_optional_path(self):
self.assertEqual(self.fetch_json("/optional_path/foo"), {u"path": u"foo"})
self.assertEqual(self.fetch_json("/optional_path/"), {u"path": None})
def test_multi_header(self):
response = self.fetch("/multi_header")
self.assertEqual(response.headers["x-overwrite"], "2")
self.assertEqual(response.headers.get_list("x-multi"), ["3", "4"])
def test_redirect(self):
response = self.fetch("/redirect?permanent=1", follow_redirects=False)
self.assertEqual(response.code, 301)
response = self.fetch("/redirect?permanent=0", follow_redirects=False)
self.assertEqual(response.code, 302)
response = self.fetch("/redirect?status=307", follow_redirects=False)
self.assertEqual(response.code, 307)
def test_web_redirect(self):
response = self.fetch("/web_redirect_permanent", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertEqual(response.headers["Location"], "/web_redirect_newpath")
response = self.fetch("/web_redirect", follow_redirects=False)
self.assertEqual(response.code, 302)
self.assertEqual(response.headers["Location"], "/web_redirect_newpath")
def test_web_redirect_double_slash(self):
response = self.fetch("//web_redirect_double_slash", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertEqual(response.headers["Location"], "/web_redirect_newpath")
def test_header_injection(self):
response = self.fetch("/header_injection")
self.assertEqual(response.body, b"ok")
def test_get_argument(self):
response = self.fetch("/get_argument?foo=bar")
self.assertEqual(response.body, b"bar")
response = self.fetch("/get_argument?foo=")
self.assertEqual(response.body, b"")
response = self.fetch("/get_argument")
self.assertEqual(response.body, b"default")
# Test merging of query and body arguments.
# In singular form, body arguments take precedence over query arguments.
body = urllib.parse.urlencode(dict(foo="hello"))
response = self.fetch("/get_argument?foo=bar", method="POST", body=body)
self.assertEqual(response.body, b"hello")
# In plural methods they are merged.
response = self.fetch("/get_arguments?foo=bar", method="POST", body=body)
self.assertEqual(
json_decode(response.body),
dict(default=["bar", "hello"], query=["bar"], body=["hello"]),
)
def test_get_query_arguments(self):
# send as a post so we can ensure the separation between query
# string and body arguments.
body = urllib.parse.urlencode(dict(foo="hello"))
response = self.fetch(
"/get_argument?source=query&foo=bar", method="POST", body=body
)
self.assertEqual(response.body, b"bar")
response = self.fetch(
"/get_argument?source=query&foo=", method="POST", body=body
)
self.assertEqual(response.body, b"")
response = self.fetch("/get_argument?source=query", method="POST", body=body)
self.assertEqual(response.body, b"default")
def test_get_body_arguments(self):
body = urllib.parse.urlencode(dict(foo="bar"))
response = self.fetch(
"/get_argument?source=body&foo=hello", method="POST", body=body
)
self.assertEqual(response.body, b"bar")
body = urllib.parse.urlencode(dict(foo=""))
response = self.fetch(
"/get_argument?source=body&foo=hello", method="POST", body=body
)
self.assertEqual(response.body, b"")
body = urllib.parse.urlencode(dict())
response = self.fetch(
"/get_argument?source=body&foo=hello", method="POST", body=body
)
self.assertEqual(response.body, b"default")
def test_no_gzip(self):
response = self.fetch("/get_argument")
self.assertNotIn("Accept-Encoding", response.headers.get("Vary", ""))
self.assertNotIn("gzip", response.headers.get("Content-Encoding", ""))
class NonWSGIWebTests(WebTestCase):
def get_handlers(self):
return [("/empty_flush", EmptyFlushCallbackHandler)]
def test_empty_flush(self):
response = self.fetch("/empty_flush")
self.assertEqual(response.body, b"ok")
class ErrorResponseTest(WebTestCase):
def get_handlers(self):
class DefaultHandler(RequestHandler):
def get(self):
if self.get_argument("status", None):
raise HTTPError(int(self.get_argument("status")))
1 / 0
class WriteErrorHandler(RequestHandler):
def get(self):
if self.get_argument("status", None):
self.send_error(int(self.get_argument("status")))
else:
1 / 0
def write_error(self, status_code, **kwargs):
self.set_header("Content-Type", "text/plain")
if "exc_info" in kwargs:
self.write("Exception: %s" % kwargs["exc_info"][0].__name__)
else:
self.write("Status: %d" % status_code)
class FailedWriteErrorHandler(RequestHandler):
def get(self):
1 / 0
def write_error(self, status_code, **kwargs):
raise Exception("exception in write_error")
return [
url("/default", DefaultHandler),
url("/write_error", WriteErrorHandler),
url("/failed_write_error", FailedWriteErrorHandler),
]
def test_default(self):
with ExpectLog(app_log, "Uncaught exception"):
response = self.fetch("/default")
self.assertEqual(response.code, 500)
self.assertTrue(b"500: Internal Server Error" in response.body)
response = self.fetch("/default?status=503")
self.assertEqual(response.code, 503)
self.assertTrue(b"503: Service Unavailable" in response.body)
response = self.fetch("/default?status=435")
self.assertEqual(response.code, 435)
self.assertTrue(b"435: Unknown" in response.body)
def test_write_error(self):
with ExpectLog(app_log, "Uncaught exception"):
response = self.fetch("/write_error")
self.assertEqual(response.code, 500)
self.assertEqual(b"Exception: ZeroDivisionError", response.body)
response = self.fetch("/write_error?status=503")
self.assertEqual(response.code, 503)
self.assertEqual(b"Status: 503", response.body)
def test_failed_write_error(self):
with ExpectLog(app_log, "Uncaught exception"):
response = self.fetch("/failed_write_error")
self.assertEqual(response.code, 500)
self.assertEqual(b"", response.body)
class StaticFileTest(WebTestCase):
# The expected MD5 hash of robots.txt, used in tests that call
# StaticFileHandler.get_version
robots_txt_hash = b"f71d20196d4caf35b6a670db8c70b03d"
static_dir = os.path.join(os.path.dirname(__file__), "static")
def get_handlers(self):
class StaticUrlHandler(RequestHandler):
def get(self, path):
with_v = int(self.get_argument("include_version", 1))
self.write(self.static_url(path, include_version=with_v))
class AbsoluteStaticUrlHandler(StaticUrlHandler):
include_host = True
class OverrideStaticUrlHandler(RequestHandler):
def get(self, path):
do_include = bool(self.get_argument("include_host"))
self.include_host = not do_include
regular_url = self.static_url(path)
override_url = self.static_url(path, include_host=do_include)
if override_url == regular_url:
return self.write(str(False))
protocol = self.request.protocol + "://"
protocol_length = len(protocol)
check_regular = regular_url.find(protocol, 0, protocol_length)
check_override = override_url.find(protocol, 0, protocol_length)
if do_include:
result = check_override == 0 and check_regular == -1
else:
result = check_override == -1 and check_regular == 0
self.write(str(result))
return [
("/static_url/(.*)", StaticUrlHandler),
("/abs_static_url/(.*)", AbsoluteStaticUrlHandler),
("/override_static_url/(.*)", OverrideStaticUrlHandler),
("/root_static/(.*)", StaticFileHandler, dict(path="/")),
]
def get_app_kwargs(self):
return dict(static_path=relpath("static"))
def test_static_files(self):
response = self.fetch("/robots.txt")
self.assertTrue(b"Disallow: /" in response.body)
response = self.fetch("/static/robots.txt")
self.assertTrue(b"Disallow: /" in response.body)
self.assertEqual(response.headers.get("Content-Type"), "text/plain")
def test_static_compressed_files(self):
response = self.fetch("/static/sample.xml.gz")
self.assertEqual(response.headers.get("Content-Type"), "application/gzip")
response = self.fetch("/static/sample.xml.bz2")
self.assertEqual(
response.headers.get("Content-Type"), "application/octet-stream"
)
# make sure the uncompressed file still has the correct type
response = self.fetch("/static/sample.xml")
self.assertTrue(
response.headers.get("Content-Type") in set(("text/xml", "application/xml"))
)
def test_static_url(self):
response = self.fetch("/static_url/robots.txt")
self.assertEqual(response.body, b"/static/robots.txt?v=" + self.robots_txt_hash)
def test_absolute_static_url(self):
response = self.fetch("/abs_static_url/robots.txt")
self.assertEqual(
response.body,
(utf8(self.get_url("/")) + b"static/robots.txt?v=" + self.robots_txt_hash),
)
def test_relative_version_exclusion(self):
response = self.fetch("/static_url/robots.txt?include_version=0")
self.assertEqual(response.body, b"/static/robots.txt")
def test_absolute_version_exclusion(self):
response = self.fetch("/abs_static_url/robots.txt?include_version=0")
self.assertEqual(response.body, utf8(self.get_url("/") + "static/robots.txt"))
def test_include_host_override(self):
self._trigger_include_host_check(False)
self._trigger_include_host_check(True)
def _trigger_include_host_check(self, include_host):
path = "/override_static_url/robots.txt?include_host=%s"
response = self.fetch(path % int(include_host))
self.assertEqual(response.body, utf8(str(True)))
def get_and_head(self, *args, **kwargs):
"""Performs a GET and HEAD request and returns the GET response.
Fails if any ``Content-*`` headers returned by the two requests
differ.
"""
head_response = self.fetch(*args, method="HEAD", **kwargs)
get_response = self.fetch(*args, method="GET", **kwargs)
content_headers = set()
for h in itertools.chain(head_response.headers, get_response.headers):
if h.startswith("Content-"):
content_headers.add(h)
for h in content_headers:
self.assertEqual(
head_response.headers.get(h),
get_response.headers.get(h),
"%s differs between GET (%s) and HEAD (%s)"
% (h, head_response.headers.get(h), get_response.headers.get(h)),
)
return get_response
def test_static_304_if_modified_since(self):
response1 = self.get_and_head("/static/robots.txt")
response2 = self.get_and_head(
"/static/robots.txt",
headers={"If-Modified-Since": response1.headers["Last-Modified"]},
)
self.assertEqual(response2.code, 304)
self.assertTrue("Content-Length" not in response2.headers)
self.assertTrue("Last-Modified" not in response2.headers)
def test_static_304_if_none_match(self):
response1 = self.get_and_head("/static/robots.txt")
response2 = self.get_and_head(
"/static/robots.txt", headers={"If-None-Match": response1.headers["Etag"]}
)
self.assertEqual(response2.code, 304)
def test_static_304_etag_modified_bug(self):
response1 = self.get_and_head("/static/robots.txt")
response2 = self.get_and_head(
"/static/robots.txt",
headers={
"If-None-Match": '"MISMATCH"',
"If-Modified-Since": response1.headers["Last-Modified"],
},
)
self.assertEqual(response2.code, 200)
def test_static_if_modified_since_pre_epoch(self):
# On windows, the functions that work with time_t do not accept
# negative values, and at least one client (processing.js) seems
# to use if-modified-since 1/1/1960 as a cache-busting technique.
response = self.get_and_head(
"/static/robots.txt",
headers={"If-Modified-Since": "Fri, 01 Jan 1960 00:00:00 GMT"},
)
self.assertEqual(response.code, 200)
def test_static_if_modified_since_time_zone(self):
# Instead of the value from Last-Modified, make requests with times
# chosen just before and after the known modification time
# of the file to ensure that the right time zone is being used
# when parsing If-Modified-Since.
stat = os.stat(relpath("static/robots.txt"))
response = self.get_and_head(
"/static/robots.txt",
headers={"If-Modified-Since": format_timestamp(stat.st_mtime - 1)},
)
self.assertEqual(response.code, 200)
response = self.get_and_head(
"/static/robots.txt",
headers={"If-Modified-Since": format_timestamp(stat.st_mtime + 1)},
)
self.assertEqual(response.code, 304)
def test_static_etag(self):
response = self.get_and_head("/static/robots.txt")
self.assertEqual(
utf8(response.headers.get("Etag")), b'"' + self.robots_txt_hash + b'"'
)
def test_static_with_range(self):
response = self.get_and_head(
"/static/robots.txt", headers={"Range": "bytes=0-9"}
)
self.assertEqual(response.code, 206)
self.assertEqual(response.body, b"User-agent")
self.assertEqual(
utf8(response.headers.get("Etag")), b'"' + self.robots_txt_hash + b'"'
)
self.assertEqual(response.headers.get("Content-Length"), "10")
self.assertEqual(response.headers.get("Content-Range"), "bytes 0-9/26")
def test_static_with_range_full_file(self):
response = self.get_and_head(
"/static/robots.txt", headers={"Range": "bytes=0-"}
)
# Note: Chrome refuses to play audio if it gets an HTTP 206 in response
# to ``Range: bytes=0-`` :(
self.assertEqual(response.code, 200)
robots_file_path = os.path.join(self.static_dir, "robots.txt")
with open(robots_file_path) as f:
self.assertEqual(response.body, utf8(f.read()))
self.assertEqual(response.headers.get("Content-Length"), "26")
self.assertEqual(response.headers.get("Content-Range"), None)
def test_static_with_range_full_past_end(self):
response = self.get_and_head(
"/static/robots.txt", headers={"Range": "bytes=0-10000000"}
)
self.assertEqual(response.code, 200)
robots_file_path = os.path.join(self.static_dir, "robots.txt")
with open(robots_file_path) as f:
self.assertEqual(response.body, utf8(f.read()))
self.assertEqual(response.headers.get("Content-Length"), "26")
self.assertEqual(response.headers.get("Content-Range"), None)
def test_static_with_range_partial_past_end(self):
response = self.get_and_head(
"/static/robots.txt", headers={"Range": "bytes=1-10000000"}
)
self.assertEqual(response.code, 206)
robots_file_path = os.path.join(self.static_dir, "robots.txt")
with open(robots_file_path) as f:
self.assertEqual(response.body, utf8(f.read()[1:]))
self.assertEqual(response.headers.get("Content-Length"), "25")
self.assertEqual(response.headers.get("Content-Range"), "bytes 1-25/26")
def test_static_with_range_end_edge(self):
response = self.get_and_head(
"/static/robots.txt", headers={"Range": "bytes=22-"}
)
self.assertEqual(response.body, b": /\n")
self.assertEqual(response.headers.get("Content-Length"), "4")
self.assertEqual(response.headers.get("Content-Range"), "bytes 22-25/26")
def test_static_with_range_neg_end(self):
response = self.get_and_head(
"/static/robots.txt", headers={"Range": "bytes=-4"}
)
self.assertEqual(response.body, b": /\n")
self.assertEqual(response.headers.get("Content-Length"), "4")
self.assertEqual(response.headers.get("Content-Range"), "bytes 22-25/26")
def test_static_with_range_neg_past_start(self):
response = self.get_and_head(
"/static/robots.txt", headers={"Range": "bytes=-1000000"}
)
self.assertEqual(response.code, 200)
robots_file_path = os.path.join(self.static_dir, "robots.txt")
with open(robots_file_path) as f:
self.assertEqual(response.body, utf8(f.read()))
self.assertEqual(response.headers.get("Content-Length"), "26")
self.assertEqual(response.headers.get("Content-Range"), None)
def test_static_invalid_range(self):
response = self.get_and_head("/static/robots.txt", headers={"Range": "asdf"})
self.assertEqual(response.code, 200)
def test_static_unsatisfiable_range_zero_suffix(self):
response = self.get_and_head(
"/static/robots.txt", headers={"Range": "bytes=-0"}
)
self.assertEqual(response.headers.get("Content-Range"), "bytes */26")
self.assertEqual(response.code, 416)
def test_static_unsatisfiable_range_invalid_start(self):
response = self.get_and_head(
"/static/robots.txt", headers={"Range": "bytes=26"}
)
self.assertEqual(response.code, 416)
self.assertEqual(response.headers.get("Content-Range"), "bytes */26")
def test_static_unsatisfiable_range_end_less_than_start(self):
response = self.get_and_head(
"/static/robots.txt", headers={"Range": "bytes=10-3"}
)
self.assertEqual(response.code, 416)
self.assertEqual(response.headers.get("Content-Range"), "bytes */26")
def test_static_head(self):
response = self.fetch("/static/robots.txt", method="HEAD")
self.assertEqual(response.code, 200)
# No body was returned, but we did get the right content length.
self.assertEqual(response.body, b"")
self.assertEqual(response.headers["Content-Length"], "26")
self.assertEqual(
utf8(response.headers["Etag"]), b'"' + self.robots_txt_hash + b'"'
)
def test_static_head_range(self):
response = self.fetch(
"/static/robots.txt", method="HEAD", headers={"Range": "bytes=1-4"}
)
self.assertEqual(response.code, 206)
self.assertEqual(response.body, b"")
self.assertEqual(response.headers["Content-Length"], "4")
self.assertEqual(
utf8(response.headers["Etag"]), b'"' + self.robots_txt_hash + b'"'
)
def test_static_range_if_none_match(self):
response = self.get_and_head(
"/static/robots.txt",
headers={
"Range": "bytes=1-4",
"If-None-Match": b'"' + self.robots_txt_hash + b'"',
},
)
self.assertEqual(response.code, 304)
self.assertEqual(response.body, b"")
self.assertTrue("Content-Length" not in response.headers)
self.assertEqual(
utf8(response.headers["Etag"]), b'"' + self.robots_txt_hash + b'"'
)
def test_static_404(self):
response = self.get_and_head("/static/blarg")
self.assertEqual(response.code, 404)
def test_path_traversal_protection(self):
# curl_httpclient processes ".." on the client side, so we
# must test this with simple_httpclient.
self.http_client.close()
self.http_client = SimpleAsyncHTTPClient()
with ExpectLog(gen_log, ".*not in root static directory"):
response = self.get_and_head("/static/../static_foo.txt")
# Attempted path traversal should result in 403, not 200
# (which means the check failed and the file was served)
# or 404 (which means that the file didn't exist and
# is probably a packaging error).
self.assertEqual(response.code, 403)
@unittest.skipIf(os.name != "posix", "non-posix OS")
def test_root_static_path(self):
# Sometimes people set the StaticFileHandler's path to '/'
# to disable Tornado's path validation (in conjunction with
# their own validation in get_absolute_path). Make sure
# that the stricter validation in 4.2.1 doesn't break them.
path = os.path.join(
os.path.dirname(os.path.abspath(__file__)), "static/robots.txt"
)
response = self.get_and_head("/root_static" + urllib.parse.quote(path))
self.assertEqual(response.code, 200)
class StaticDefaultFilenameTest(WebTestCase):
def get_app_kwargs(self):
return dict(
static_path=relpath("static"),
static_handler_args=dict(default_filename="index.html"),
)
def get_handlers(self):
return []
def test_static_default_filename(self):
response = self.fetch("/static/dir/", follow_redirects=False)
self.assertEqual(response.code, 200)
self.assertEqual(b"this is the index\n", response.body)
def test_static_default_redirect(self):
response = self.fetch("/static/dir", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertTrue(response.headers["Location"].endswith("/static/dir/"))
class StaticFileWithPathTest(WebTestCase):
def get_app_kwargs(self):
return dict(
static_path=relpath("static"),
static_handler_args=dict(default_filename="index.html"),
)
def get_handlers(self):
return [("/foo/(.*)", StaticFileHandler, {"path": relpath("templates/")})]
def test_serve(self):
response = self.fetch("/foo/utf8.html")
self.assertEqual(response.body, b"H\xc3\xa9llo\n")
class CustomStaticFileTest(WebTestCase):
def get_handlers(self):
class MyStaticFileHandler(StaticFileHandler):
@classmethod
def make_static_url(cls, settings, path):
version_hash = cls.get_version(settings, path)
extension_index = path.rindex(".")
before_version = path[:extension_index]
after_version = path[(extension_index + 1) :]
return "/static/%s.%s.%s" % (
before_version,
version_hash,
after_version,
)
def parse_url_path(self, url_path):
extension_index = url_path.rindex(".")
version_index = url_path.rindex(".", 0, extension_index)
return "%s%s" % (url_path[:version_index], url_path[extension_index:])
@classmethod
def get_absolute_path(cls, settings, path):
return "CustomStaticFileTest:" + path
def validate_absolute_path(self, root, absolute_path):
return absolute_path
@classmethod
def get_content(self, path, start=None, end=None):
assert start is None and end is None
if path == "CustomStaticFileTest:foo.txt":
return b"bar"
raise Exception("unexpected path %r" % path)
def get_content_size(self):
if self.absolute_path == "CustomStaticFileTest:foo.txt":
return 3
raise Exception("unexpected path %r" % self.absolute_path)
def get_modified_time(self):
return None
@classmethod
def get_version(cls, settings, path):
return "42"
class StaticUrlHandler(RequestHandler):
def get(self, path):
self.write(self.static_url(path))
self.static_handler_class = MyStaticFileHandler
return [("/static_url/(.*)", StaticUrlHandler)]
def get_app_kwargs(self):
return dict(static_path="dummy", static_handler_class=self.static_handler_class)
def test_serve(self):
response = self.fetch("/static/foo.42.txt")
self.assertEqual(response.body, b"bar")
def test_static_url(self):
with ExpectLog(gen_log, "Could not open static file", required=False):
response = self.fetch("/static_url/foo.txt")
self.assertEqual(response.body, b"/static/foo.42.txt")
class HostMatchingTest(WebTestCase):
class Handler(RequestHandler):
def initialize(self, reply):
self.reply = reply
def get(self):
self.write(self.reply)
def get_handlers(self):
return [("/foo", HostMatchingTest.Handler, {"reply": "wildcard"})]
def test_host_matching(self):
self.app.add_handlers(
"www.example.com", [("/foo", HostMatchingTest.Handler, {"reply": "[0]"})]
)
self.app.add_handlers(
r"www\.example\.com", [("/bar", HostMatchingTest.Handler, {"reply": "[1]"})]
)
self.app.add_handlers(
"www.example.com", [("/baz", HostMatchingTest.Handler, {"reply": "[2]"})]
)
self.app.add_handlers(
"www.e.*e.com", [("/baz", HostMatchingTest.Handler, {"reply": "[3]"})]
)
response = self.fetch("/foo")
self.assertEqual(response.body, b"wildcard")
response = self.fetch("/bar")
self.assertEqual(response.code, 404)
response = self.fetch("/baz")
self.assertEqual(response.code, 404)
response = self.fetch("/foo", headers={"Host": "www.example.com"})
self.assertEqual(response.body, b"[0]")
response = self.fetch("/bar", headers={"Host": "www.example.com"})
self.assertEqual(response.body, b"[1]")
response = self.fetch("/baz", headers={"Host": "www.example.com"})
self.assertEqual(response.body, b"[2]")
response = self.fetch("/baz", headers={"Host": "www.exe.com"})
self.assertEqual(response.body, b"[3]")
class DefaultHostMatchingTest(WebTestCase):
def get_handlers(self):
return []
def get_app_kwargs(self):
return {"default_host": "www.example.com"}
def test_default_host_matching(self):
self.app.add_handlers(
"www.example.com", [("/foo", HostMatchingTest.Handler, {"reply": "[0]"})]
)
self.app.add_handlers(
r"www\.example\.com", [("/bar", HostMatchingTest.Handler, {"reply": "[1]"})]
)
self.app.add_handlers(
"www.test.com", [("/baz", HostMatchingTest.Handler, {"reply": "[2]"})]
)
response = self.fetch("/foo")
self.assertEqual(response.body, b"[0]")
response = self.fetch("/bar")
self.assertEqual(response.body, b"[1]")
response = self.fetch("/baz")
self.assertEqual(response.code, 404)
response = self.fetch("/foo", headers={"X-Real-Ip": "127.0.0.1"})
self.assertEqual(response.code, 404)
self.app.default_host = "www.test.com"
response = self.fetch("/baz")
self.assertEqual(response.body, b"[2]")
class NamedURLSpecGroupsTest(WebTestCase):
def get_handlers(self):
class EchoHandler(RequestHandler):
def get(self, path):
self.write(path)
return [
("/str/(?P<path>.*)", EchoHandler),
(u"/unicode/(?P<path>.*)", EchoHandler),
]
def test_named_urlspec_groups(self):
response = self.fetch("/str/foo")
self.assertEqual(response.body, b"foo")
response = self.fetch("/unicode/bar")
self.assertEqual(response.body, b"bar")
class ClearHeaderTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
self.set_header("h1", "foo")
self.set_header("h2", "bar")
self.clear_header("h1")
self.clear_header("nonexistent")
def test_clear_header(self):
response = self.fetch("/")
self.assertTrue("h1" not in response.headers)
self.assertEqual(response.headers["h2"], "bar")
class Header204Test(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
self.set_status(204)
self.finish()
def test_204_headers(self):
response = self.fetch("/")
self.assertEqual(response.code, 204)
self.assertNotIn("Content-Length", response.headers)
self.assertNotIn("Transfer-Encoding", response.headers)
class Header304Test(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
self.set_header("Content-Language", "en_US")
self.write("hello")
def test_304_headers(self):
response1 = self.fetch("/")
self.assertEqual(response1.headers["Content-Length"], "5")
self.assertEqual(response1.headers["Content-Language"], "en_US")
response2 = self.fetch(
"/", headers={"If-None-Match": response1.headers["Etag"]}
)
self.assertEqual(response2.code, 304)
self.assertTrue("Content-Length" not in response2.headers)
self.assertTrue("Content-Language" not in response2.headers)
# Not an entity header, but should not be added to 304s by chunking
self.assertTrue("Transfer-Encoding" not in response2.headers)
class StatusReasonTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
reason = self.request.arguments.get("reason", [])
self.set_status(
int(self.get_argument("code")), reason=reason[0] if reason else None
)
def get_http_client(self):
# simple_httpclient only: curl doesn't expose the reason string
return SimpleAsyncHTTPClient()
def test_status(self):
response = self.fetch("/?code=304")
self.assertEqual(response.code, 304)
self.assertEqual(response.reason, "Not Modified")
response = self.fetch("/?code=304&reason=Foo")
self.assertEqual(response.code, 304)
self.assertEqual(response.reason, "Foo")
response = self.fetch("/?code=682&reason=Bar")
self.assertEqual(response.code, 682)
self.assertEqual(response.reason, "Bar")
response = self.fetch("/?code=682")
self.assertEqual(response.code, 682)
self.assertEqual(response.reason, "Unknown")
class DateHeaderTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
self.write("hello")
def test_date_header(self):
response = self.fetch("/")
parsed = email.utils.parsedate(response.headers["Date"])
assert parsed is not None
header_date = datetime.datetime(*parsed[:6])
self.assertTrue(
header_date - datetime.datetime.utcnow() < datetime.timedelta(seconds=2)
)
class RaiseWithReasonTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
raise HTTPError(682, reason="Foo")
def get_http_client(self):
# simple_httpclient only: curl doesn't expose the reason string
return SimpleAsyncHTTPClient()
def test_raise_with_reason(self):
response = self.fetch("/")
self.assertEqual(response.code, 682)
self.assertEqual(response.reason, "Foo")
self.assertIn(b"682: Foo", response.body)
def test_httperror_str(self):
self.assertEqual(str(HTTPError(682, reason="Foo")), "HTTP 682: Foo")
def test_httperror_str_from_httputil(self):
self.assertEqual(str(HTTPError(682)), "HTTP 682: Unknown")
class ErrorHandlerXSRFTest(WebTestCase):
def get_handlers(self):
# note that if the handlers list is empty we get the default_host
# redirect fallback instead of a 404, so test with both an
# explicitly defined error handler and an implicit 404.
return [("/error", ErrorHandler, dict(status_code=417))]
def get_app_kwargs(self):
return dict(xsrf_cookies=True)
def test_error_xsrf(self):
response = self.fetch("/error", method="POST", body="")
self.assertEqual(response.code, 417)
def test_404_xsrf(self):
response = self.fetch("/404", method="POST", body="")
self.assertEqual(response.code, 404)
class GzipTestCase(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
for v in self.get_arguments("vary"):
self.add_header("Vary", v)
# Must write at least MIN_LENGTH bytes to activate compression.
self.write("hello world" + ("!" * GZipContentEncoding.MIN_LENGTH))
def get_app_kwargs(self):
return dict(
gzip=True, static_path=os.path.join(os.path.dirname(__file__), "static")
)
def assert_compressed(self, response):
# simple_httpclient renames the content-encoding header;
# curl_httpclient doesn't.
self.assertEqual(
response.headers.get(
"Content-Encoding", response.headers.get("X-Consumed-Content-Encoding")
),
"gzip",
)
def test_gzip(self):
response = self.fetch("/")
self.assert_compressed(response)
self.assertEqual(response.headers["Vary"], "Accept-Encoding")
def test_gzip_static(self):
# The streaming responses in StaticFileHandler have subtle
# interactions with the gzip output so test this case separately.
response = self.fetch("/robots.txt")
self.assert_compressed(response)
self.assertEqual(response.headers["Vary"], "Accept-Encoding")
def test_gzip_not_requested(self):
response = self.fetch("/", use_gzip=False)
self.assertNotIn("Content-Encoding", response.headers)
self.assertEqual(response.headers["Vary"], "Accept-Encoding")
def test_vary_already_present(self):
response = self.fetch("/?vary=Accept-Language")
self.assert_compressed(response)
self.assertEqual(
[s.strip() for s in response.headers["Vary"].split(",")],
["Accept-Language", "Accept-Encoding"],
)
def test_vary_already_present_multiple(self):
# Regression test for https://github.com/tornadoweb/tornado/issues/1670
response = self.fetch("/?vary=Accept-Language&vary=Cookie")
self.assert_compressed(response)
self.assertEqual(
[s.strip() for s in response.headers["Vary"].split(",")],
["Accept-Language", "Cookie", "Accept-Encoding"],
)
class PathArgsInPrepareTest(WebTestCase):
class Handler(RequestHandler):
def prepare(self):
self.write(dict(args=self.path_args, kwargs=self.path_kwargs))
def get(self, path):
assert path == "foo"
self.finish()
def get_handlers(self):
return [("/pos/(.*)", self.Handler), ("/kw/(?P<path>.*)", self.Handler)]
def test_pos(self):
response = self.fetch("/pos/foo")
response.rethrow()
data = json_decode(response.body)
self.assertEqual(data, {"args": ["foo"], "kwargs": {}})
def test_kw(self):
response = self.fetch("/kw/foo")
response.rethrow()
data = json_decode(response.body)
self.assertEqual(data, {"args": [], "kwargs": {"path": "foo"}})
class ClearAllCookiesTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
self.clear_all_cookies()
self.write("ok")
def test_clear_all_cookies(self):
response = self.fetch("/", headers={"Cookie": "foo=bar; baz=xyzzy"})
set_cookies = sorted(response.headers.get_list("Set-Cookie"))
# Python 3.5 sends 'baz="";'; older versions use 'baz=;'
self.assertTrue(
set_cookies[0].startswith("baz=;") or set_cookies[0].startswith('baz="";')
)
self.assertTrue(
set_cookies[1].startswith("foo=;") or set_cookies[1].startswith('foo="";')
)
class PermissionError(Exception):
pass
class ExceptionHandlerTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
exc = self.get_argument("exc")
if exc == "http":
raise HTTPError(410, "no longer here")
elif exc == "zero":
1 / 0
elif exc == "permission":
raise PermissionError("not allowed")
def write_error(self, status_code, **kwargs):
if "exc_info" in kwargs:
typ, value, tb = kwargs["exc_info"]
if isinstance(value, PermissionError):
self.set_status(403)
self.write("PermissionError")
return
RequestHandler.write_error(self, status_code, **kwargs)
def log_exception(self, typ, value, tb):
if isinstance(value, PermissionError):
app_log.warning("custom logging for PermissionError: %s", value.args[0])
else:
RequestHandler.log_exception(self, typ, value, tb)
def test_http_error(self):
# HTTPErrors are logged as warnings with no stack trace.
# TODO: extend ExpectLog to test this more precisely
with ExpectLog(gen_log, ".*no longer here"):
response = self.fetch("/?exc=http")
self.assertEqual(response.code, 410)
def test_unknown_error(self):
# Unknown errors are logged as errors with a stack trace.
with ExpectLog(app_log, "Uncaught exception"):
response = self.fetch("/?exc=zero")
self.assertEqual(response.code, 500)
def test_known_error(self):
# log_exception can override logging behavior, and write_error
# can override the response.
with ExpectLog(app_log, "custom logging for PermissionError: not allowed"):
response = self.fetch("/?exc=permission")
self.assertEqual(response.code, 403)
class BuggyLoggingTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
1 / 0
def log_exception(self, typ, value, tb):
1 / 0
def test_buggy_log_exception(self):
# Something gets logged even though the application's
# logger is broken.
with ExpectLog(app_log, ".*"):
self.fetch("/")
class UIMethodUIModuleTest(SimpleHandlerTestCase):
"""Test that UI methods and modules are created correctly and
associated with the handler.
"""
class Handler(RequestHandler):
def get(self):
self.render("foo.html")
def value(self):
return self.get_argument("value")
def get_app_kwargs(self):
def my_ui_method(handler, x):
return "In my_ui_method(%s) with handler value %s." % (x, handler.value())
class MyModule(UIModule):
def render(self, x):
return "In MyModule(%s) with handler value %s." % (
x,
self.handler.value(),
)
loader = DictLoader(
{"foo.html": "{{ my_ui_method(42) }} {% module MyModule(123) %}"}
)
return dict(
template_loader=loader,
ui_methods={"my_ui_method": my_ui_method},
ui_modules={"MyModule": MyModule},
)
def tearDown(self):
super(UIMethodUIModuleTest, self).tearDown()
# TODO: fix template loader caching so this isn't necessary.
RequestHandler._template_loaders.clear()
def test_ui_method(self):
response = self.fetch("/?value=asdf")
self.assertEqual(
response.body,
b"In my_ui_method(42) with handler value asdf. "
b"In MyModule(123) with handler value asdf.",
)
class GetArgumentErrorTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
try:
self.get_argument("foo")
self.write({})
except MissingArgumentError as e:
self.write({"arg_name": e.arg_name, "log_message": e.log_message})
def test_catch_error(self):
response = self.fetch("/")
self.assertEqual(
json_decode(response.body),
{"arg_name": "foo", "log_message": "Missing argument foo"},
)
class SetLazyPropertiesTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def prepare(self):
self.current_user = "Ben"
self.locale = locale.get("en_US")
def get_user_locale(self):
raise NotImplementedError()
def get_current_user(self):
raise NotImplementedError()
def get(self):
self.write("Hello %s (%s)" % (self.current_user, self.locale.code))
def test_set_properties(self):
# Ensure that current_user can be assigned to normally for apps
# that want to forgo the lazy get_current_user property
response = self.fetch("/")
self.assertEqual(response.body, b"Hello Ben (en_US)")
class GetCurrentUserTest(WebTestCase):
def get_app_kwargs(self):
class WithoutUserModule(UIModule):
def render(self):
return ""
class WithUserModule(UIModule):
def render(self):
return str(self.current_user)
loader = DictLoader(
{
"without_user.html": "",
"with_user.html": "{{ current_user }}",
"without_user_module.html": "{% module WithoutUserModule() %}",
"with_user_module.html": "{% module WithUserModule() %}",
}
)
return dict(
template_loader=loader,
ui_modules={
"WithUserModule": WithUserModule,
"WithoutUserModule": WithoutUserModule,
},
)
def tearDown(self):
super(GetCurrentUserTest, self).tearDown()
RequestHandler._template_loaders.clear()
def get_handlers(self):
class CurrentUserHandler(RequestHandler):
def prepare(self):
self.has_loaded_current_user = False
def get_current_user(self):
self.has_loaded_current_user = True
return ""
class WithoutUserHandler(CurrentUserHandler):
def get(self):
self.render_string("without_user.html")
self.finish(str(self.has_loaded_current_user))
class WithUserHandler(CurrentUserHandler):
def get(self):
self.render_string("with_user.html")
self.finish(str(self.has_loaded_current_user))
class CurrentUserModuleHandler(CurrentUserHandler):
def get_template_namespace(self):
# If RequestHandler.get_template_namespace is called, then
# get_current_user is evaluated. Until #820 is fixed, this
# is a small hack to circumvent the issue.
return self.ui
class WithoutUserModuleHandler(CurrentUserModuleHandler):
def get(self):
self.render_string("without_user_module.html")
self.finish(str(self.has_loaded_current_user))
class WithUserModuleHandler(CurrentUserModuleHandler):
def get(self):
self.render_string("with_user_module.html")
self.finish(str(self.has_loaded_current_user))
return [
("/without_user", WithoutUserHandler),
("/with_user", WithUserHandler),
("/without_user_module", WithoutUserModuleHandler),
("/with_user_module", WithUserModuleHandler),
]
@unittest.skip("needs fix")
def test_get_current_user_is_lazy(self):
# TODO: Make this test pass. See #820.
response = self.fetch("/without_user")
self.assertEqual(response.body, b"False")
def test_get_current_user_works(self):
response = self.fetch("/with_user")
self.assertEqual(response.body, b"True")
def test_get_current_user_from_ui_module_is_lazy(self):
response = self.fetch("/without_user_module")
self.assertEqual(response.body, b"False")
def test_get_current_user_from_ui_module_works(self):
response = self.fetch("/with_user_module")
self.assertEqual(response.body, b"True")
class UnimplementedHTTPMethodsTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
pass
def test_unimplemented_standard_methods(self):
for method in ["HEAD", "GET", "DELETE", "OPTIONS"]:
response = self.fetch("/", method=method)
self.assertEqual(response.code, 405)
for method in ["POST", "PUT"]:
response = self.fetch("/", method=method, body=b"")
self.assertEqual(response.code, 405)
class UnimplementedNonStandardMethodsTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def other(self):
# Even though this method exists, it won't get called automatically
# because it is not in SUPPORTED_METHODS.
self.write("other")
def test_unimplemented_patch(self):
# PATCH is recently standardized; Tornado supports it by default
# but wsgiref.validate doesn't like it.
response = self.fetch("/", method="PATCH", body=b"")
self.assertEqual(response.code, 405)
def test_unimplemented_other(self):
response = self.fetch("/", method="OTHER", allow_nonstandard_methods=True)
self.assertEqual(response.code, 405)
class AllHTTPMethodsTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def method(self):
self.write(self.request.method)
get = delete = options = post = put = method # type: ignore
def test_standard_methods(self):
response = self.fetch("/", method="HEAD")
self.assertEqual(response.body, b"")
for method in ["GET", "DELETE", "OPTIONS"]:
response = self.fetch("/", method=method)
self.assertEqual(response.body, utf8(method))
for method in ["POST", "PUT"]:
response = self.fetch("/", method=method, body=b"")
self.assertEqual(response.body, utf8(method))
class PatchMethodTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
SUPPORTED_METHODS = RequestHandler.SUPPORTED_METHODS + ( # type: ignore
"OTHER",
)
def patch(self):
self.write("patch")
def other(self):
self.write("other")
def test_patch(self):
response = self.fetch("/", method="PATCH", body=b"")
self.assertEqual(response.body, b"patch")
def test_other(self):
response = self.fetch("/", method="OTHER", allow_nonstandard_methods=True)
self.assertEqual(response.body, b"other")
class FinishInPrepareTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def prepare(self):
self.finish("done")
def get(self):
# It's difficult to assert for certain that a method did not
# or will not be called in an asynchronous context, but this
# will be logged noisily if it is reached.
raise Exception("should not reach this method")
def test_finish_in_prepare(self):
response = self.fetch("/")
self.assertEqual(response.body, b"done")
class Default404Test(WebTestCase):
def get_handlers(self):
# If there are no handlers at all a default redirect handler gets added.
return [("/foo", RequestHandler)]
def test_404(self):
response = self.fetch("/")
self.assertEqual(response.code, 404)
self.assertEqual(
response.body,
b"<html><title>404: Not Found</title>"
b"<body>404: Not Found</body></html>",
)
class Custom404Test(WebTestCase):
def get_handlers(self):
return [("/foo", RequestHandler)]
def get_app_kwargs(self):
class Custom404Handler(RequestHandler):
def get(self):
self.set_status(404)
self.write("custom 404 response")
return dict(default_handler_class=Custom404Handler)
def test_404(self):
response = self.fetch("/")
self.assertEqual(response.code, 404)
self.assertEqual(response.body, b"custom 404 response")
class DefaultHandlerArgumentsTest(WebTestCase):
def get_handlers(self):
return [("/foo", RequestHandler)]
def get_app_kwargs(self):
return dict(
default_handler_class=ErrorHandler,
default_handler_args=dict(status_code=403),
)
def test_403(self):
response = self.fetch("/")
self.assertEqual(response.code, 403)
class HandlerByNameTest(WebTestCase):
def get_handlers(self):
# All three are equivalent.
return [
("/hello1", HelloHandler),
("/hello2", "tornado.test.web_test.HelloHandler"),
url("/hello3", "tornado.test.web_test.HelloHandler"),
]
def test_handler_by_name(self):
resp = self.fetch("/hello1")
self.assertEqual(resp.body, b"hello")
resp = self.fetch("/hello2")
self.assertEqual(resp.body, b"hello")
resp = self.fetch("/hello3")
self.assertEqual(resp.body, b"hello")
class StreamingRequestBodyTest(WebTestCase):
def get_handlers(self):
@stream_request_body
class StreamingBodyHandler(RequestHandler):
def initialize(self, test):
self.test = test
def prepare(self):
self.test.prepared.set_result(None)
def data_received(self, data):
self.test.data.set_result(data)
def get(self):
self.test.finished.set_result(None)
self.write({})
@stream_request_body
class EarlyReturnHandler(RequestHandler):
def prepare(self):
# If we finish the response in prepare, it won't continue to
# the (non-existent) data_received.
raise HTTPError(401)
@stream_request_body
class CloseDetectionHandler(RequestHandler):
def initialize(self, test):
self.test = test
def on_connection_close(self):
super(CloseDetectionHandler, self).on_connection_close()
self.test.close_future.set_result(None)
return [
("/stream_body", StreamingBodyHandler, dict(test=self)),
("/early_return", EarlyReturnHandler),
("/close_detection", CloseDetectionHandler, dict(test=self)),
]
def connect(self, url, connection_close):
# Use a raw connection so we can control the sending of data.
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM, 0)
s.connect(("127.0.0.1", self.get_http_port()))
stream = IOStream(s)
stream.write(b"GET " + url + b" HTTP/1.1\r\n")
if connection_close:
stream.write(b"Connection: close\r\n")
stream.write(b"Transfer-Encoding: chunked\r\n\r\n")
return stream
@gen_test
def test_streaming_body(self):
self.prepared = Future() # type: Future[None]
self.data = Future() # type: Future[bytes]
self.finished = Future() # type: Future[None]
stream = self.connect(b"/stream_body", connection_close=True)
yield self.prepared
stream.write(b"4\r\nasdf\r\n")
# Ensure the first chunk is received before we send the second.
data = yield self.data
self.assertEqual(data, b"asdf")
self.data = Future()
stream.write(b"4\r\nqwer\r\n")
data = yield self.data
self.assertEquals(data, b"qwer")
stream.write(b"0\r\n\r\n")
yield self.finished
data = yield stream.read_until_close()
# This would ideally use an HTTP1Connection to read the response.
self.assertTrue(data.endswith(b"{}"))
stream.close()
@gen_test
def test_early_return(self):
stream = self.connect(b"/early_return", connection_close=False)
data = yield stream.read_until_close()
self.assertTrue(data.startswith(b"HTTP/1.1 401"))
@gen_test
def test_early_return_with_data(self):
stream = self.connect(b"/early_return", connection_close=False)
stream.write(b"4\r\nasdf\r\n")
data = yield stream.read_until_close()
self.assertTrue(data.startswith(b"HTTP/1.1 401"))
@gen_test
def test_close_during_upload(self):
self.close_future = Future() # type: Future[None]
stream = self.connect(b"/close_detection", connection_close=False)
stream.close()
yield self.close_future
# Each method in this handler returns a yieldable object and yields to the
# IOLoop so the future is not immediately ready. Ensure that the
# yieldables are respected and no method is called before the previous
# one has completed.
@stream_request_body
class BaseFlowControlHandler(RequestHandler):
def initialize(self, test):
self.test = test
self.method = None
self.methods = [] # type: typing.List[str]
@contextlib.contextmanager
def in_method(self, method):
if self.method is not None:
self.test.fail("entered method %s while in %s" % (method, self.method))
self.method = method
self.methods.append(method)
try:
yield
finally:
self.method = None
@gen.coroutine
def prepare(self):
# Note that asynchronous prepare() does not block data_received,
# so we don't use in_method here.
self.methods.append("prepare")
yield gen.moment
@gen.coroutine
def post(self):
with self.in_method("post"):
yield gen.moment
self.write(dict(methods=self.methods))
class BaseStreamingRequestFlowControlTest(object):
def get_httpserver_options(self):
# Use a small chunk size so flow control is relevant even though
# all the data arrives at once.
return dict(chunk_size=10, decompress_request=True)
def get_http_client(self):
# simple_httpclient only: curl doesn't support body_producer.
return SimpleAsyncHTTPClient()
# Test all the slightly different code paths for fixed, chunked, etc bodies.
def test_flow_control_fixed_body(self):
response = self.fetch("/", body="abcdefghijklmnopqrstuvwxyz", method="POST")
response.rethrow()
self.assertEqual(
json_decode(response.body),
dict(
methods=[
"prepare",
"data_received",
"data_received",
"data_received",
"post",
]
),
)
def test_flow_control_chunked_body(self):
chunks = [b"abcd", b"efgh", b"ijkl"]
@gen.coroutine
def body_producer(write):
for i in chunks:
yield write(i)
response = self.fetch("/", body_producer=body_producer, method="POST")
response.rethrow()
self.assertEqual(
json_decode(response.body),
dict(
methods=[
"prepare",
"data_received",
"data_received",
"data_received",
"post",
]
),
)
def test_flow_control_compressed_body(self):
bytesio = BytesIO()
gzip_file = gzip.GzipFile(mode="w", fileobj=bytesio)
gzip_file.write(b"abcdefghijklmnopqrstuvwxyz")
gzip_file.close()
compressed_body = bytesio.getvalue()
response = self.fetch(
"/",
body=compressed_body,
method="POST",
headers={"Content-Encoding": "gzip"},
)
response.rethrow()
self.assertEqual(
json_decode(response.body),
dict(
methods=[
"prepare",
"data_received",
"data_received",
"data_received",
"post",
]
),
)
class DecoratedStreamingRequestFlowControlTest(
BaseStreamingRequestFlowControlTest, WebTestCase
):
def get_handlers(self):
class DecoratedFlowControlHandler(BaseFlowControlHandler):
@gen.coroutine
def data_received(self, data):
with self.in_method("data_received"):
yield gen.moment
return [("/", DecoratedFlowControlHandler, dict(test=self))]
class NativeStreamingRequestFlowControlTest(
BaseStreamingRequestFlowControlTest, WebTestCase
):
def get_handlers(self):
class NativeFlowControlHandler(BaseFlowControlHandler):
async def data_received(self, data):
with self.in_method("data_received"):
import asyncio
await asyncio.sleep(0)
return [("/", NativeFlowControlHandler, dict(test=self))]
class IncorrectContentLengthTest(SimpleHandlerTestCase):
def get_handlers(self):
test = self
self.server_error = None
# Manually set a content-length that doesn't match the actual content.
class TooHigh(RequestHandler):
def get(self):
self.set_header("Content-Length", "42")
try:
self.finish("ok")
except Exception as e:
test.server_error = e
raise
class TooLow(RequestHandler):
def get(self):
self.set_header("Content-Length", "2")
try:
self.finish("hello")
except Exception as e:
test.server_error = e
raise
return [("/high", TooHigh), ("/low", TooLow)]
def test_content_length_too_high(self):
# When the content-length is too high, the connection is simply
# closed without completing the response. An error is logged on
# the server.
with ExpectLog(app_log, "(Uncaught exception|Exception in callback)"):
with ExpectLog(
gen_log,
"(Cannot send error response after headers written"
"|Failed to flush partial response)",
):
with self.assertRaises(HTTPClientError):
self.fetch("/high", raise_error=True)
self.assertEqual(
str(self.server_error), "Tried to write 40 bytes less than Content-Length"
)
def test_content_length_too_low(self):
# When the content-length is too low, the connection is closed
# without writing the last chunk, so the client never sees the request
# complete (which would be a framing error).
with ExpectLog(app_log, "(Uncaught exception|Exception in callback)"):
with ExpectLog(
gen_log,
"(Cannot send error response after headers written"
"|Failed to flush partial response)",
):
with self.assertRaises(HTTPClientError):
self.fetch("/low", raise_error=True)
self.assertEqual(
str(self.server_error), "Tried to write more data than Content-Length"
)
class ClientCloseTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
if self.request.version.startswith("HTTP/1"):
# Simulate a connection closed by the client during
# request processing. The client will see an error, but the
# server should respond gracefully (without logging errors
# because we were unable to write out as many bytes as
# Content-Length said we would)
self.request.connection.stream.close()
self.write("hello")
else:
# TODO: add a HTTP2-compatible version of this test.
self.write("requires HTTP/1.x")
def test_client_close(self):
with self.assertRaises((HTTPClientError, unittest.SkipTest)):
response = self.fetch("/", raise_error=True)
if response.body == b"requires HTTP/1.x":
self.skipTest("requires HTTP/1.x")
self.assertEqual(response.code, 599)
class SignedValueTest(unittest.TestCase):
SECRET = "It's a secret to everybody"
SECRET_DICT = {0: "asdfbasdf", 1: "12312312", 2: "2342342"}
def past(self):
return self.present() - 86400 * 32
def present(self):
return 1300000000
def test_known_values(self):
signed_v1 = create_signed_value(
SignedValueTest.SECRET, "key", "value", version=1, clock=self.present
)
self.assertEqual(
signed_v1, b"dmFsdWU=|1300000000|31c934969f53e48164c50768b40cbd7e2daaaa4f"
)
signed_v2 = create_signed_value(
SignedValueTest.SECRET, "key", "value", version=2, clock=self.present
)
self.assertEqual(
signed_v2,
b"2|1:0|10:1300000000|3:key|8:dmFsdWU=|"
b"3d4e60b996ff9c5d5788e333a0cba6f238a22c6c0f94788870e1a9ecd482e152",
)
signed_default = create_signed_value(
SignedValueTest.SECRET, "key", "value", clock=self.present
)
self.assertEqual(signed_default, signed_v2)
decoded_v1 = decode_signed_value(
SignedValueTest.SECRET, "key", signed_v1, min_version=1, clock=self.present
)
self.assertEqual(decoded_v1, b"value")
decoded_v2 = decode_signed_value(
SignedValueTest.SECRET, "key", signed_v2, min_version=2, clock=self.present
)
self.assertEqual(decoded_v2, b"value")
def test_name_swap(self):
signed1 = create_signed_value(
SignedValueTest.SECRET, "key1", "value", clock=self.present
)
signed2 = create_signed_value(
SignedValueTest.SECRET, "key2", "value", clock=self.present
)
# Try decoding each string with the other's "name"
decoded1 = decode_signed_value(
SignedValueTest.SECRET, "key2", signed1, clock=self.present
)
self.assertIs(decoded1, None)
decoded2 = decode_signed_value(
SignedValueTest.SECRET, "key1", signed2, clock=self.present
)
self.assertIs(decoded2, None)
def test_expired(self):
signed = create_signed_value(
SignedValueTest.SECRET, "key1", "value", clock=self.past
)
decoded_past = decode_signed_value(
SignedValueTest.SECRET, "key1", signed, clock=self.past
)
self.assertEqual(decoded_past, b"value")
decoded_present = decode_signed_value(
SignedValueTest.SECRET, "key1", signed, clock=self.present
)
self.assertIs(decoded_present, None)
def test_payload_tampering(self):
# These cookies are variants of the one in test_known_values.
sig = "3d4e60b996ff9c5d5788e333a0cba6f238a22c6c0f94788870e1a9ecd482e152"
def validate(prefix):
return b"value" == decode_signed_value(
SignedValueTest.SECRET, "key", prefix + sig, clock=self.present
)
self.assertTrue(validate("2|1:0|10:1300000000|3:key|8:dmFsdWU=|"))
# Change key version
self.assertFalse(validate("2|1:1|10:1300000000|3:key|8:dmFsdWU=|"))
# length mismatch (field too short)
self.assertFalse(validate("2|1:0|10:130000000|3:key|8:dmFsdWU=|"))
# length mismatch (field too long)
self.assertFalse(validate("2|1:0|10:1300000000|3:keey|8:dmFsdWU=|"))
def test_signature_tampering(self):
prefix = "2|1:0|10:1300000000|3:key|8:dmFsdWU=|"
def validate(sig):
return b"value" == decode_signed_value(
SignedValueTest.SECRET, "key", prefix + sig, clock=self.present
)
self.assertTrue(
validate("3d4e60b996ff9c5d5788e333a0cba6f238a22c6c0f94788870e1a9ecd482e152")
)
# All zeros
self.assertFalse(validate("0" * 32))
# Change one character
self.assertFalse(
validate("4d4e60b996ff9c5d5788e333a0cba6f238a22c6c0f94788870e1a9ecd482e152")
)
# Change another character
self.assertFalse(
validate("3d4e60b996ff9c5d5788e333a0cba6f238a22c6c0f94788870e1a9ecd482e153")
)
# Truncate
self.assertFalse(
validate("3d4e60b996ff9c5d5788e333a0cba6f238a22c6c0f94788870e1a9ecd482e15")
)
# Lengthen
self.assertFalse(
validate(
"3d4e60b996ff9c5d5788e333a0cba6f238a22c6c0f94788870e1a9ecd482e1538"
)
)
def test_non_ascii(self):
value = b"\xe9"
signed = create_signed_value(
SignedValueTest.SECRET, "key", value, clock=self.present
)
decoded = decode_signed_value(
SignedValueTest.SECRET, "key", signed, clock=self.present
)
self.assertEqual(value, decoded)
def test_key_versioning_read_write_default_key(self):
value = b"\xe9"
signed = create_signed_value(
SignedValueTest.SECRET_DICT, "key", value, clock=self.present, key_version=0
)
decoded = decode_signed_value(
SignedValueTest.SECRET_DICT, "key", signed, clock=self.present
)
self.assertEqual(value, decoded)
def test_key_versioning_read_write_non_default_key(self):
value = b"\xe9"
signed = create_signed_value(
SignedValueTest.SECRET_DICT, "key", value, clock=self.present, key_version=1
)
decoded = decode_signed_value(
SignedValueTest.SECRET_DICT, "key", signed, clock=self.present
)
self.assertEqual(value, decoded)
def test_key_versioning_invalid_key(self):
value = b"\xe9"
signed = create_signed_value(
SignedValueTest.SECRET_DICT, "key", value, clock=self.present, key_version=0
)
newkeys = SignedValueTest.SECRET_DICT.copy()
newkeys.pop(0)
decoded = decode_signed_value(newkeys, "key", signed, clock=self.present)
self.assertEqual(None, decoded)
def test_key_version_retrieval(self):
value = b"\xe9"
signed = create_signed_value(
SignedValueTest.SECRET_DICT, "key", value, clock=self.present, key_version=1
)
key_version = get_signature_key_version(signed)
self.assertEqual(1, key_version)
class XSRFTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
version = int(self.get_argument("version", "2"))
# This would be a bad idea in a real app, but in this test
# it's fine.
self.settings["xsrf_cookie_version"] = version
self.write(self.xsrf_token)
def post(self):
self.write("ok")
def get_app_kwargs(self):
return dict(xsrf_cookies=True)
def setUp(self):
super(XSRFTest, self).setUp()
self.xsrf_token = self.get_token()
def get_token(self, old_token=None, version=None):
if old_token is not None:
headers = self.cookie_headers(old_token)
else:
headers = None
response = self.fetch(
"/" if version is None else ("/?version=%d" % version), headers=headers
)
response.rethrow()
return native_str(response.body)
def cookie_headers(self, token=None):
if token is None:
token = self.xsrf_token
return {"Cookie": "_xsrf=" + token}
def test_xsrf_fail_no_token(self):
with ExpectLog(gen_log, ".*'_xsrf' argument missing"):
response = self.fetch("/", method="POST", body=b"")
self.assertEqual(response.code, 403)
def test_xsrf_fail_body_no_cookie(self):
with ExpectLog(gen_log, ".*XSRF cookie does not match POST"):
response = self.fetch(
"/",
method="POST",
body=urllib.parse.urlencode(dict(_xsrf=self.xsrf_token)),
)
self.assertEqual(response.code, 403)
def test_xsrf_fail_argument_invalid_format(self):
with ExpectLog(gen_log, ".*'_xsrf' argument has invalid format"):
response = self.fetch(
"/",
method="POST",
headers=self.cookie_headers(),
body=urllib.parse.urlencode(dict(_xsrf="3|")),
)
self.assertEqual(response.code, 403)
def test_xsrf_fail_cookie_invalid_format(self):
with ExpectLog(gen_log, ".*XSRF cookie does not match POST"):
response = self.fetch(
"/",
method="POST",
headers=self.cookie_headers(token="3|"),
body=urllib.parse.urlencode(dict(_xsrf=self.xsrf_token)),
)
self.assertEqual(response.code, 403)
def test_xsrf_fail_cookie_no_body(self):
with ExpectLog(gen_log, ".*'_xsrf' argument missing"):
response = self.fetch(
"/", method="POST", body=b"", headers=self.cookie_headers()
)
self.assertEqual(response.code, 403)
def test_xsrf_success_short_token(self):
response = self.fetch(
"/",
method="POST",
body=urllib.parse.urlencode(dict(_xsrf="deadbeef")),
headers=self.cookie_headers(token="deadbeef"),
)
self.assertEqual(response.code, 200)
def test_xsrf_success_non_hex_token(self):
response = self.fetch(
"/",
method="POST",
body=urllib.parse.urlencode(dict(_xsrf="xoxo")),
headers=self.cookie_headers(token="xoxo"),
)
self.assertEqual(response.code, 200)
def test_xsrf_success_post_body(self):
response = self.fetch(
"/",
method="POST",
body=urllib.parse.urlencode(dict(_xsrf=self.xsrf_token)),
headers=self.cookie_headers(),
)
self.assertEqual(response.code, 200)
def test_xsrf_success_query_string(self):
response = self.fetch(
"/?" + urllib.parse.urlencode(dict(_xsrf=self.xsrf_token)),
method="POST",
body=b"",
headers=self.cookie_headers(),
)
self.assertEqual(response.code, 200)
def test_xsrf_success_header(self):
response = self.fetch(
"/",
method="POST",
body=b"",
headers=dict(
{"X-Xsrftoken": self.xsrf_token}, # type: ignore
**self.cookie_headers()
),
)
self.assertEqual(response.code, 200)
def test_distinct_tokens(self):
# Every request gets a distinct token.
NUM_TOKENS = 10
tokens = set()
for i in range(NUM_TOKENS):
tokens.add(self.get_token())
self.assertEqual(len(tokens), NUM_TOKENS)
def test_cross_user(self):
token2 = self.get_token()
# Each token can be used to authenticate its own request.
for token in (self.xsrf_token, token2):
response = self.fetch(
"/",
method="POST",
body=urllib.parse.urlencode(dict(_xsrf=token)),
headers=self.cookie_headers(token),
)
self.assertEqual(response.code, 200)
# Sending one in the cookie and the other in the body is not allowed.
for cookie_token, body_token in (
(self.xsrf_token, token2),
(token2, self.xsrf_token),
):
with ExpectLog(gen_log, ".*XSRF cookie does not match POST"):
response = self.fetch(
"/",
method="POST",
body=urllib.parse.urlencode(dict(_xsrf=body_token)),
headers=self.cookie_headers(cookie_token),
)
self.assertEqual(response.code, 403)
def test_refresh_token(self):
token = self.xsrf_token
tokens_seen = set([token])
# A user's token is stable over time. Refreshing the page in one tab
# might update the cookie while an older tab still has the old cookie
# in its DOM. Simulate this scenario by passing a constant token
# in the body and re-querying for the token.
for i in range(5):
token = self.get_token(token)
# Tokens are encoded uniquely each time
tokens_seen.add(token)
response = self.fetch(
"/",
method="POST",
body=urllib.parse.urlencode(dict(_xsrf=self.xsrf_token)),
headers=self.cookie_headers(token),
)
self.assertEqual(response.code, 200)
self.assertEqual(len(tokens_seen), 6)
def test_versioning(self):
# Version 1 still produces distinct tokens per request.
self.assertNotEqual(self.get_token(version=1), self.get_token(version=1))
# Refreshed v1 tokens are all identical.
v1_token = self.get_token(version=1)
for i in range(5):
self.assertEqual(self.get_token(v1_token, version=1), v1_token)
# Upgrade to a v2 version of the same token
v2_token = self.get_token(v1_token)
self.assertNotEqual(v1_token, v2_token)
# Each v1 token can map to many v2 tokens.
self.assertNotEqual(v2_token, self.get_token(v1_token))
# The tokens are cross-compatible.
for cookie_token, body_token in ((v1_token, v2_token), (v2_token, v1_token)):
response = self.fetch(
"/",
method="POST",
body=urllib.parse.urlencode(dict(_xsrf=body_token)),
headers=self.cookie_headers(cookie_token),
)
self.assertEqual(response.code, 200)
class XSRFCookieKwargsTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
self.write(self.xsrf_token)
def get_app_kwargs(self):
return dict(
xsrf_cookies=True, xsrf_cookie_kwargs=dict(httponly=True, expires_days=2)
)
def test_xsrf_httponly(self):
response = self.fetch("/")
self.assertIn("httponly;", response.headers["Set-Cookie"].lower())
self.assertIn("expires=", response.headers["Set-Cookie"].lower())
header = response.headers.get("Set-Cookie")
match = re.match(".*; expires=(?P<expires>.+);.*", header)
assert match is not None
expires = datetime.datetime.utcnow() + datetime.timedelta(days=2)
parsed = email.utils.parsedate(match.groupdict()["expires"])
assert parsed is not None
header_expires = datetime.datetime(*parsed[:6])
self.assertTrue(abs((expires - header_expires).total_seconds()) < 10)
class FinishExceptionTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
self.set_status(401)
self.set_header("WWW-Authenticate", 'Basic realm="something"')
if self.get_argument("finish_value", ""):
raise Finish("authentication required")
else:
self.write("authentication required")
raise Finish()
def test_finish_exception(self):
for u in ["/", "/?finish_value=1"]:
response = self.fetch(u)
self.assertEqual(response.code, 401)
self.assertEqual(
'Basic realm="something"', response.headers.get("WWW-Authenticate")
)
self.assertEqual(b"authentication required", response.body)
class DecoratorTest(WebTestCase):
def get_handlers(self):
class RemoveSlashHandler(RequestHandler):
@removeslash
def get(self):
pass
class AddSlashHandler(RequestHandler):
@addslash
def get(self):
pass
return [("/removeslash/", RemoveSlashHandler), ("/addslash", AddSlashHandler)]
def test_removeslash(self):
response = self.fetch("/removeslash/", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertEqual(response.headers["Location"], "/removeslash")
response = self.fetch("/removeslash/?foo=bar", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertEqual(response.headers["Location"], "/removeslash?foo=bar")
def test_addslash(self):
response = self.fetch("/addslash", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertEqual(response.headers["Location"], "/addslash/")
response = self.fetch("/addslash?foo=bar", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertEqual(response.headers["Location"], "/addslash/?foo=bar")
class CacheTest(WebTestCase):
def get_handlers(self):
class EtagHandler(RequestHandler):
def get(self, computed_etag):
self.write(computed_etag)
def compute_etag(self):
return self._write_buffer[0]
return [("/etag/(.*)", EtagHandler)]
def test_wildcard_etag(self):
computed_etag = '"xyzzy"'
etags = "*"
self._test_etag(computed_etag, etags, 304)
def test_strong_etag_match(self):
computed_etag = '"xyzzy"'
etags = '"xyzzy"'
self._test_etag(computed_etag, etags, 304)
def test_multiple_strong_etag_match(self):
computed_etag = '"xyzzy1"'
etags = '"xyzzy1", "xyzzy2"'
self._test_etag(computed_etag, etags, 304)
def test_strong_etag_not_match(self):
computed_etag = '"xyzzy"'
etags = '"xyzzy1"'
self._test_etag(computed_etag, etags, 200)
def test_multiple_strong_etag_not_match(self):
computed_etag = '"xyzzy"'
etags = '"xyzzy1", "xyzzy2"'
self._test_etag(computed_etag, etags, 200)
def test_weak_etag_match(self):
computed_etag = '"xyzzy1"'
etags = 'W/"xyzzy1"'
self._test_etag(computed_etag, etags, 304)
def test_multiple_weak_etag_match(self):
computed_etag = '"xyzzy2"'
etags = 'W/"xyzzy1", W/"xyzzy2"'
self._test_etag(computed_etag, etags, 304)
def test_weak_etag_not_match(self):
computed_etag = '"xyzzy2"'
etags = 'W/"xyzzy1"'
self._test_etag(computed_etag, etags, 200)
def test_multiple_weak_etag_not_match(self):
computed_etag = '"xyzzy3"'
etags = 'W/"xyzzy1", W/"xyzzy2"'
self._test_etag(computed_etag, etags, 200)
def _test_etag(self, computed_etag, etags, status_code):
response = self.fetch(
"/etag/" + computed_etag, headers={"If-None-Match": etags}
)
self.assertEqual(response.code, status_code)
class RequestSummaryTest(SimpleHandlerTestCase):
class Handler(RequestHandler):
def get(self):
# remote_ip is optional, although it's set by
# both HTTPServer and WSGIAdapter.
# Clobber it to make sure it doesn't break logging.
self.request.remote_ip = None
self.finish(self._request_summary())
def test_missing_remote_ip(self):
resp = self.fetch("/")
self.assertEqual(resp.body, b"GET / (None)")
class HTTPErrorTest(unittest.TestCase):
def test_copy(self):
e = HTTPError(403, reason="Go away")
e2 = copy.copy(e)
self.assertIsNot(e, e2)
self.assertEqual(e.status_code, e2.status_code)
self.assertEqual(e.reason, e2.reason)
class ApplicationTest(AsyncTestCase):
def test_listen(self):
app = Application([])
server = app.listen(0, address="127.0.0.1")
server.stop()
class URLSpecReverseTest(unittest.TestCase):
def test_reverse(self):
self.assertEqual("/favicon.ico", url(r"/favicon\.ico", None).reverse())
self.assertEqual("/favicon.ico", url(r"^/favicon\.ico$", None).reverse())
def test_non_reversible(self):
# URLSpecs are non-reversible if they include non-constant
# regex features outside capturing groups. Currently, this is
# only strictly enforced for backslash-escaped character
# classes.
paths = [r"^/api/v\d+/foo/(\w+)$"]
for path in paths:
# A URLSpec can still be created even if it cannot be reversed.
url_spec = url(path, None)
try:
result = url_spec.reverse()
self.fail(
"did not get expected exception when reversing %s. "
"result: %s" % (path, result)
)
except ValueError:
pass
def test_reverse_arguments(self):
self.assertEqual(
"/api/v1/foo/bar", url(r"^/api/v1/foo/(\w+)$", None).reverse("bar")
)
class RedirectHandlerTest(WebTestCase):
def get_handlers(self):
return [
("/src", WebRedirectHandler, {"url": "/dst"}),
("/src2", WebRedirectHandler, {"url": "/dst2?foo=bar"}),
(r"/(.*?)/(.*?)/(.*)", WebRedirectHandler, {"url": "/{1}/{0}/{2}"}),
]
def test_basic_redirect(self):
response = self.fetch("/src", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertEqual(response.headers["Location"], "/dst")
def test_redirect_with_argument(self):
response = self.fetch("/src?foo=bar", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertEqual(response.headers["Location"], "/dst?foo=bar")
def test_redirect_with_appending_argument(self):
response = self.fetch("/src2?foo2=bar2", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertEqual(response.headers["Location"], "/dst2?foo=bar&foo2=bar2")
def test_redirect_pattern(self):
response = self.fetch("/a/b/c", follow_redirects=False)
self.assertEqual(response.code, 301)
self.assertEqual(response.headers["Location"], "/b/a/c")
Zerion Mini Shell 1.0