python3-tornado 4.2.1-1ubuntu3 / usr / lib / python3 / dist-packages / tornado / test / httpserver_test.py

#!/usr/bin/env python


from __future__ import absolute_import, division, print_function, with_statement
from tornado import netutil
from tornado.escape import json_decode, json_encode, utf8, _unicode, recursive_unicode, native_str
from tornado import gen
from tornado.http1connection import HTTP1Connection
from tornado.httpserver import HTTPServer
from tornado.httputil import HTTPHeaders, HTTPMessageDelegate, HTTPServerConnectionDelegate, ResponseStartLine
from tornado.iostream import IOStream
from tornado.log import gen_log
from tornado.netutil import ssl_options_to_context
from tornado.simple_httpclient import SimpleAsyncHTTPClient
from tornado.testing import AsyncHTTPTestCase, AsyncHTTPSTestCase, AsyncTestCase, ExpectLog, gen_test
from tornado.test.util import unittest, skipOnTravis
from tornado.util import u
from tornado.web import Application, RequestHandler, asynchronous, stream_request_body
from contextlib import closing
import datetime
import gzip
import os
import shutil
import socket
import ssl
import sys
import tempfile
from io import BytesIO


def read_stream_body(stream, callback):
    """Reads an HTTP response from `stream` and runs callback with its
    headers and body."""
    chunks = []

    class Delegate(HTTPMessageDelegate):
        def headers_received(self, start_line, headers):
            self.headers = headers

        def data_received(self, chunk):
            chunks.append(chunk)

        def finish(self):
            callback((self.headers, b''.join(chunks)))
    conn = HTTP1Connection(stream, True)
    conn.read_response(Delegate())


class HandlerBaseTestCase(AsyncHTTPTestCase):
    def get_app(self):
        return Application([('/', self.__class__.Handler)])

    def fetch_json(self, *args, **kwargs):
        response = self.fetch(*args, **kwargs)
        response.rethrow()
        return json_decode(response.body)


class HelloWorldRequestHandler(RequestHandler):
    def initialize(self, protocol="http"):
        self.expected_protocol = protocol

    def get(self):
        if self.request.protocol != self.expected_protocol:
            raise Exception("unexpected protocol")
        self.finish("Hello world")

    def post(self):
        self.finish("Got %d bytes in POST" % len(self.request.body))


# In pre-1.0 versions of openssl, SSLv23 clients always send SSLv2
# ClientHello messages, which are rejected by SSLv3 and TLSv1
# servers.  Note that while the OPENSSL_VERSION_INFO was formally
# introduced in python3.2, it was present but undocumented in
# python 2.7
skipIfOldSSL = unittest.skipIf(
    getattr(ssl, 'OPENSSL_VERSION_INFO', (0, 0)) < (1, 0),
    "old version of ssl module and/or openssl")


class BaseSSLTest(AsyncHTTPSTestCase):
    def get_app(self):
        return Application([('/', HelloWorldRequestHandler,
                             dict(protocol="https"))])


class SSLTestMixin(object):
    def get_ssl_options(self):
        return dict(ssl_version=self.get_ssl_version(),
                    **AsyncHTTPSTestCase.get_ssl_options())

    def get_ssl_version(self):
        raise NotImplementedError()

    def test_ssl(self):
        response = self.fetch('/')
        self.assertEqual(response.body, b"Hello world")

    def test_large_post(self):
        response = self.fetch('/',
                              method='POST',
                              body='A' * 5000)
        self.assertEqual(response.body, b"Got 5000 bytes in POST")

    def test_non_ssl_request(self):
        # Make sure the server closes the connection when it gets a non-ssl
        # connection, rather than waiting for a timeout or otherwise
        # misbehaving.
        with ExpectLog(gen_log, '(SSL Error|uncaught exception)'):
            with ExpectLog(gen_log, 'Uncaught exception', required=False):
                self.http_client.fetch(
                    self.get_url("/").replace('https:', 'http:'),
                    self.stop,
                    request_timeout=3600,
                    connect_timeout=3600)
                response = self.wait()
        self.assertEqual(response.code, 599)

# Python's SSL implementation differs significantly between versions.
# For example, SSLv3 and TLSv1 throw an exception if you try to read
# from the socket before the handshake is complete, but the default
# of SSLv23 allows it.


class SSLv23Test(BaseSSLTest, SSLTestMixin):
    def get_ssl_version(self):
        return ssl.PROTOCOL_SSLv23


@skipIfOldSSL
class SSLv3Test(BaseSSLTest, SSLTestMixin):
    def get_ssl_version(self):
        return ssl.PROTOCOL_SSLv3


@skipIfOldSSL
class TLSv1Test(BaseSSLTest, SSLTestMixin):
    def get_ssl_version(self):
        return ssl.PROTOCOL_TLSv1


@unittest.skipIf(not hasattr(ssl, 'SSLContext'), 'ssl.SSLContext not present')
class SSLContextTest(BaseSSLTest, SSLTestMixin):
    def get_ssl_options(self):
        context = ssl_options_to_context(
            AsyncHTTPSTestCase.get_ssl_options(self))
        assert isinstance(context, ssl.SSLContext)
        return context


class BadSSLOptionsTest(unittest.TestCase):
    def test_missing_arguments(self):
        application = Application()
        self.assertRaises(KeyError, HTTPServer, application, ssl_options={
            "keyfile": "/__missing__.crt",
        })

    def test_missing_key(self):
        """A missing SSL key should cause an immediate exception."""

        application = Application()
        module_dir = os.path.dirname(__file__)
        existing_certificate = os.path.join(module_dir, 'test.crt')
        existing_key = os.path.join(module_dir, 'test.key')

        self.assertRaises((ValueError, IOError),
                          HTTPServer, application, ssl_options={
                              "certfile": "/__mising__.crt",
                          })
        self.assertRaises((ValueError, IOError),
                          HTTPServer, application, ssl_options={
                              "certfile": existing_certificate,
                              "keyfile": "/__missing__.key"
                          })

        # This actually works because both files exist
        HTTPServer(application, ssl_options={
                   "certfile": existing_certificate,
                   "keyfile": existing_key,
                   })


class MultipartTestHandler(RequestHandler):
    def post(self):
        self.finish({"header": self.request.headers["X-Header-Encoding-Test"],
                     "argument": self.get_argument("argument"),
                     "filename": self.request.files["files"][0].filename,
                     "filebody": _unicode(self.request.files["files"][0]["body"]),
                     })


# This test is also called from wsgi_test
class HTTPConnectionTest(AsyncHTTPTestCase):
    def get_handlers(self):
        return [("/multipart", MultipartTestHandler),
                ("/hello", HelloWorldRequestHandler)]

    def get_app(self):
        return Application(self.get_handlers())

    def raw_fetch(self, headers, body, newline=b"\r\n"):
        with closing(IOStream(socket.socket())) as stream:
            stream.connect(('127.0.0.1', self.get_http_port()), self.stop)
            self.wait()
            stream.write(
                newline.join(headers +
                             [utf8("Content-Length: %d" % len(body))]) +
                newline + newline + body)
            read_stream_body(stream, self.stop)
            headers, body = self.wait()
            return body

    def test_multipart_form(self):
        # Encodings here are tricky:  Headers are latin1, bodies can be
        # anything (we use utf8 by default).
        response = self.raw_fetch([
            b"POST /multipart HTTP/1.0",
            b"Content-Type: multipart/form-data; boundary=1234567890",
            b"X-Header-encoding-test: \xe9",
        ],
            b"\r\n".join([
                b"Content-Disposition: form-data; name=argument",
                b"",
                u("\u00e1").encode("utf-8"),
                b"--1234567890",
                u('Content-Disposition: form-data; name="files"; filename="\u00f3"').encode("utf8"),
                b"",
                u("\u00fa").encode("utf-8"),
                b"--1234567890--",
                b"",
            ]))
        data = json_decode(response)
        self.assertEqual(u("\u00e9"), data["header"])
        self.assertEqual(u("\u00e1"), data["argument"])
        self.assertEqual(u("\u00f3"), data["filename"])
        self.assertEqual(u("\u00fa"), data["filebody"])

    def test_newlines(self):
        # We support both CRLF and bare LF as line separators.
        for newline in (b"\r\n", b"\n"):
            response = self.raw_fetch([b"GET /hello HTTP/1.0"], b"",
                                      newline=newline)
            self.assertEqual(response, b'Hello world')

    def test_100_continue(self):
        # Run through a 100-continue interaction by hand:
        # When given Expect: 100-continue, we get a 100 response after the
        # headers, and then the real response after the body.
        stream = IOStream(socket.socket(), io_loop=self.io_loop)
        stream.connect(("127.0.0.1", self.get_http_port()), callback=self.stop)
        self.wait()
        stream.write(b"\r\n".join([b"POST /hello HTTP/1.1",
                                   b"Content-Length: 1024",
                                   b"Expect: 100-continue",
                                   b"Connection: close",
                                   b"\r\n"]), callback=self.stop)
        self.wait()
        stream.read_until(b"\r\n\r\n", self.stop)
        data = self.wait()
        self.assertTrue(data.startswith(b"HTTP/1.1 100 "), data)
        stream.write(b"a" * 1024)
        stream.read_until(b"\r\n", self.stop)
        first_line = self.wait()
        self.assertTrue(first_line.startswith(b"HTTP/1.1 200"), first_line)
        stream.read_until(b"\r\n\r\n", self.stop)
        header_data = self.wait()
        headers = HTTPHeaders.parse(native_str(header_data.decode('latin1')))
        stream.read_bytes(int(headers["Content-Length"]), self.stop)
        body = self.wait()
        self.assertEqual(body, b"Got 1024 bytes in POST")
        stream.close()


class EchoHandler(RequestHandler):
    def get(self):
        self.write(recursive_unicode(self.request.arguments))

    def post(self):
        self.write(recursive_unicode(self.request.arguments))


class TypeCheckHandler(RequestHandler):
    def prepare(self):
        self.errors = {}
        fields = [
            ('method', str),
            ('uri', str),
            ('version', str),
            ('remote_ip', str),
            ('protocol', str),
            ('host', str),
            ('path', str),
            ('query', str),
        ]
        for field, expected_type in fields:
            self.check_type(field, getattr(self.request, field), expected_type)

        self.check_type('header_key', list(self.request.headers.keys())[0], str)
        self.check_type('header_value', list(self.request.headers.values())[0], str)

        self.check_type('cookie_key', list(self.request.cookies.keys())[0], str)
        self.check_type('cookie_value', list(self.request.cookies.values())[0].value, str)
        # secure cookies

        self.check_type('arg_key', list(self.request.arguments.keys())[0], str)
        self.check_type('arg_value', list(self.request.arguments.values())[0][0], bytes)

    def post(self):
        self.check_type('body', self.request.body, bytes)
        self.write(self.errors)

    def get(self):
        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 HTTPServerTest(AsyncHTTPTestCase):
    def get_app(self):
        return Application([("/echo", EchoHandler),
                            ("/typecheck", TypeCheckHandler),
                            ("//doubleslash", EchoHandler),
                            ])

    def test_query_string_encoding(self):
        response = self.fetch("/echo?foo=%C3%A9")
        data = json_decode(response.body)
        self.assertEqual(data, {u("foo"): [u("\u00e9")]})

    def test_empty_query_string(self):
        response = self.fetch("/echo?foo=&foo=")
        data = json_decode(response.body)
        self.assertEqual(data, {u("foo"): [u(""), u("")]})

    def test_empty_post_parameters(self):
        response = self.fetch("/echo", method="POST", body="foo=&bar=")
        data = json_decode(response.body)
        self.assertEqual(data, {u("foo"): [u("")], u("bar"): [u("")]})

    def test_types(self):
        headers = {"Cookie": "foo=bar"}
        response = self.fetch("/typecheck?foo=bar", headers=headers)
        data = json_decode(response.body)
        self.assertEqual(data, {})

        response = self.fetch("/typecheck", method="POST", body="foo=bar", headers=headers)
        data = json_decode(response.body)
        self.assertEqual(data, {})

    def test_double_slash(self):
        # urlparse.urlsplit (which tornado.httpserver used to use
        # incorrectly) would parse paths beginning with "//" as
        # protocol-relative urls.
        response = self.fetch("//doubleslash")
        self.assertEqual(200, response.code)
        self.assertEqual(json_decode(response.body), {})

    def test_malformed_body(self):
        # parse_qs is pretty forgiving, but it will fail on python 3
        # if the data is not utf8.  On python 2 parse_qs will work,
        # but then the recursive_unicode call in EchoHandler will
        # fail.
        if str is bytes:
            return
        with ExpectLog(gen_log, 'Invalid x-www-form-urlencoded body'):
            response = self.fetch(
                '/echo', method="POST",
                headers={'Content-Type': 'application/x-www-form-urlencoded'},
                body=b'\xe9')
        self.assertEqual(200, response.code)
        self.assertEqual(b'{}', response.body)


class HTTPServerRawTest(AsyncHTTPTestCase):
    def get_app(self):
        return Application([
            ('/echo', EchoHandler),
        ])

    def setUp(self):
        super(HTTPServerRawTest, self).setUp()
        self.stream = IOStream(socket.socket())
        self.stream.connect(('127.0.0.1', self.get_http_port()), self.stop)
        self.wait()

    def tearDown(self):
        self.stream.close()
        super(HTTPServerRawTest, self).tearDown()

    def test_empty_request(self):
        self.stream.close()
        self.io_loop.add_timeout(datetime.timedelta(seconds=0.001), self.stop)
        self.wait()

    def test_malformed_first_line(self):
        with ExpectLog(gen_log, '.*Malformed HTTP request line'):
            self.stream.write(b'asdf\r\n\r\n')
            # TODO: need an async version of ExpectLog so we don't need
            # hard-coded timeouts here.
            self.io_loop.add_timeout(datetime.timedelta(seconds=0.01),
                                     self.stop)
            self.wait()

    def test_malformed_headers(self):
        with ExpectLog(gen_log, '.*Malformed HTTP headers'):
            self.stream.write(b'GET / HTTP/1.0\r\nasdf\r\n\r\n')
            self.io_loop.add_timeout(datetime.timedelta(seconds=0.01),
                                     self.stop)
            self.wait()

    def test_chunked_request_body(self):
        # Chunked requests are not widely supported and we don't have a way
        # to generate them in AsyncHTTPClient, but HTTPServer will read them.
        self.stream.write(b"""\
POST /echo HTTP/1.1
Transfer-Encoding: chunked
Content-Type: application/x-www-form-urlencoded

4
foo=
3
bar
0

""".replace(b"\n", b"\r\n"))
        read_stream_body(self.stream, self.stop)
        headers, response = self.wait()
        self.assertEqual(json_decode(response), {u('foo'): [u('bar')]})


class XHeaderTest(HandlerBaseTestCase):
    class Handler(RequestHandler):
        def get(self):
            self.write(dict(remote_ip=self.request.remote_ip,
                            remote_protocol=self.request.protocol))

    def get_httpserver_options(self):
        return dict(xheaders=True)

    def test_ip_headers(self):
        self.assertEqual(self.fetch_json("/")["remote_ip"], "127.0.0.1")

        valid_ipv4 = {"X-Real-IP": "4.4.4.4"}
        self.assertEqual(
            self.fetch_json("/", headers=valid_ipv4)["remote_ip"],
            "4.4.4.4")

        valid_ipv4_list = {"X-Forwarded-For": "127.0.0.1, 4.4.4.4"}
        self.assertEqual(
            self.fetch_json("/", headers=valid_ipv4_list)["remote_ip"],
            "4.4.4.4")

        valid_ipv6 = {"X-Real-IP": "2620:0:1cfe:face:b00c::3"}
        self.assertEqual(
            self.fetch_json("/", headers=valid_ipv6)["remote_ip"],
            "2620:0:1cfe:face:b00c::3")

        valid_ipv6_list = {"X-Forwarded-For": "::1, 2620:0:1cfe:face:b00c::3"}
        self.assertEqual(
            self.fetch_json("/", headers=valid_ipv6_list)["remote_ip"],
            "2620:0:1cfe:face:b00c::3")

        invalid_chars = {"X-Real-IP": "4.4.4.4<script>"}
        self.assertEqual(
            self.fetch_json("/", headers=invalid_chars)["remote_ip"],
            "127.0.0.1")

        invalid_chars_list = {"X-Forwarded-For": "4.4.4.4, 5.5.5.5<script>"}
        self.assertEqual(
            self.fetch_json("/", headers=invalid_chars_list)["remote_ip"],
            "127.0.0.1")

        invalid_host = {"X-Real-IP": "www.google.com"}
        self.assertEqual(
            self.fetch_json("/", headers=invalid_host)["remote_ip"],
            "127.0.0.1")

    def test_scheme_headers(self):
        self.assertEqual(self.fetch_json("/")["remote_protocol"], "http")

        https_scheme = {"X-Scheme": "https"}
        self.assertEqual(
            self.fetch_json("/", headers=https_scheme)["remote_protocol"],
            "https")

        https_forwarded = {"X-Forwarded-Proto": "https"}
        self.assertEqual(
            self.fetch_json("/", headers=https_forwarded)["remote_protocol"],
            "https")

        bad_forwarded = {"X-Forwarded-Proto": "unknown"}
        self.assertEqual(
            self.fetch_json("/", headers=bad_forwarded)["remote_protocol"],
            "http")


class SSLXHeaderTest(AsyncHTTPSTestCase, HandlerBaseTestCase):
    def get_app(self):
        return Application([('/', XHeaderTest.Handler)])

    def get_httpserver_options(self):
        output = super(SSLXHeaderTest, self).get_httpserver_options()
        output['xheaders'] = True
        return output

    def test_request_without_xprotocol(self):
        self.assertEqual(self.fetch_json("/")["remote_protocol"], "https")

        http_scheme = {"X-Scheme": "http"}
        self.assertEqual(
            self.fetch_json("/", headers=http_scheme)["remote_protocol"], "http")

        bad_scheme = {"X-Scheme": "unknown"}
        self.assertEqual(
            self.fetch_json("/", headers=bad_scheme)["remote_protocol"], "https")


class ManualProtocolTest(HandlerBaseTestCase):
    class Handler(RequestHandler):
        def get(self):
            self.write(dict(protocol=self.request.protocol))

    def get_httpserver_options(self):
        return dict(protocol='https')

    def test_manual_protocol(self):
        self.assertEqual(self.fetch_json('/')['protocol'], 'https')


@unittest.skipIf(not hasattr(socket, 'AF_UNIX') or sys.platform == 'cygwin',
                 "unix sockets not supported on this platform")
class UnixSocketTest(AsyncTestCase):
    """HTTPServers can listen on Unix sockets too.

    Why would you want to do this?  Nginx can proxy to backends listening
    on unix sockets, for one thing (and managing a namespace for unix
    sockets can be easier than managing a bunch of TCP port numbers).

    Unfortunately, there's no way to specify a unix socket in a url for
    an HTTP client, so we have to test this by hand.
    """
    def setUp(self):
        super(UnixSocketTest, self).setUp()
        self.tmpdir = tempfile.mkdtemp()
        self.sockfile = os.path.join(self.tmpdir, "test.sock")
        sock = netutil.bind_unix_socket(self.sockfile)
        app = Application([("/hello", HelloWorldRequestHandler)])
        self.server = HTTPServer(app, io_loop=self.io_loop)
        self.server.add_socket(sock)
        self.stream = IOStream(socket.socket(socket.AF_UNIX), io_loop=self.io_loop)
        self.stream.connect(self.sockfile, self.stop)
        self.wait()

    def tearDown(self):
        self.stream.close()
        self.server.stop()
        shutil.rmtree(self.tmpdir)
        super(UnixSocketTest, self).tearDown()

    def test_unix_socket(self):
        self.stream.write(b"GET /hello HTTP/1.0\r\n\r\n")
        self.stream.read_until(b"\r\n", self.stop)
        response = self.wait()
        self.assertEqual(response, b"HTTP/1.1 200 OK\r\n")
        self.stream.read_until(b"\r\n\r\n", self.stop)
        headers = HTTPHeaders.parse(self.wait().decode('latin1'))
        self.stream.read_bytes(int(headers["Content-Length"]), self.stop)
        body = self.wait()
        self.assertEqual(body, b"Hello world")

    def test_unix_socket_bad_request(self):
        # Unix sockets don't have remote addresses so they just return an
        # empty string.
        with ExpectLog(gen_log, "Malformed HTTP message from"):
            self.stream.write(b"garbage\r\n\r\n")
            self.stream.read_until_close(self.stop)
            response = self.wait()
        self.assertEqual(response, b"")


class KeepAliveTest(AsyncHTTPTestCase):
    """Tests various scenarios for HTTP 1.1 keep-alive support.

    These tests don't use AsyncHTTPClient because we want to control
    connection reuse and closing.
    """
    def get_app(self):
        class HelloHandler(RequestHandler):
            def get(self):
                self.finish('Hello world')

            def post(self):
                self.finish('Hello world')

        class LargeHandler(RequestHandler):
            def get(self):
                # 512KB should be bigger than the socket buffers so it will
                # be written out in chunks.
                self.write(''.join(chr(i % 256) * 1024 for i in range(512)))

        class FinishOnCloseHandler(RequestHandler):
            @asynchronous
            def get(self):
                self.flush()

            def on_connection_close(self):
                # This is not very realistic, but finishing the request
                # from the close callback has the right timing to mimic
                # some errors seen in the wild.
                self.finish('closed')

        return Application([('/', HelloHandler),
                            ('/large', LargeHandler),
                            ('/finish_on_close', FinishOnCloseHandler)])

    def setUp(self):
        super(KeepAliveTest, self).setUp()
        self.http_version = b'HTTP/1.1'

    def tearDown(self):
        # We just closed the client side of the socket; let the IOLoop run
        # once to make sure the server side got the message.
        self.io_loop.add_timeout(datetime.timedelta(seconds=0.001), self.stop)
        self.wait()

        if hasattr(self, 'stream'):
            self.stream.close()
        super(KeepAliveTest, self).tearDown()

    # The next few methods are a crude manual http client
    def connect(self):
        self.stream = IOStream(socket.socket(), io_loop=self.io_loop)
        self.stream.connect(('127.0.0.1', self.get_http_port()), self.stop)
        self.wait()

    def read_headers(self):
        self.stream.read_until(b'\r\n', self.stop)
        first_line = self.wait()
        self.assertTrue(first_line.startswith(b'HTTP/1.1 200'), first_line)
        self.stream.read_until(b'\r\n\r\n', self.stop)
        header_bytes = self.wait()
        headers = HTTPHeaders.parse(header_bytes.decode('latin1'))
        return headers

    def read_response(self):
        self.headers = self.read_headers()
        self.stream.read_bytes(int(self.headers['Content-Length']), self.stop)
        body = self.wait()
        self.assertEqual(b'Hello world', body)

    def close(self):
        self.stream.close()
        del self.stream

    def test_two_requests(self):
        self.connect()
        self.stream.write(b'GET / HTTP/1.1\r\n\r\n')
        self.read_response()
        self.stream.write(b'GET / HTTP/1.1\r\n\r\n')
        self.read_response()
        self.close()

    def test_request_close(self):
        self.connect()
        self.stream.write(b'GET / HTTP/1.1\r\nConnection: close\r\n\r\n')
        self.read_response()
        self.stream.read_until_close(callback=self.stop)
        data = self.wait()
        self.assertTrue(not data)
        self.close()

    # keepalive is supported for http 1.0 too, but it's opt-in
    def test_http10(self):
        self.http_version = b'HTTP/1.0'
        self.connect()
        self.stream.write(b'GET / HTTP/1.0\r\n\r\n')
        self.read_response()
        self.stream.read_until_close(callback=self.stop)
        data = self.wait()
        self.assertTrue(not data)
        self.assertTrue('Connection' not in self.headers)
        self.close()

    def test_http10_keepalive(self):
        self.http_version = b'HTTP/1.0'
        self.connect()
        self.stream.write(b'GET / HTTP/1.0\r\nConnection: keep-alive\r\n\r\n')
        self.read_response()
        self.assertEqual(self.headers['Connection'], 'Keep-Alive')
        self.stream.write(b'GET / HTTP/1.0\r\nConnection: keep-alive\r\n\r\n')
        self.read_response()
        self.assertEqual(self.headers['Connection'], 'Keep-Alive')
        self.close()

    def test_http10_keepalive_extra_crlf(self):
        self.http_version = b'HTTP/1.0'
        self.connect()
        self.stream.write(b'GET / HTTP/1.0\r\nConnection: keep-alive\r\n\r\n\r\n')
        self.read_response()
        self.assertEqual(self.headers['Connection'], 'Keep-Alive')
        self.stream.write(b'GET / HTTP/1.0\r\nConnection: keep-alive\r\n\r\n')
        self.read_response()
        self.assertEqual(self.headers['Connection'], 'Keep-Alive')
        self.close()

    def test_pipelined_requests(self):
        self.connect()
        self.stream.write(b'GET / HTTP/1.1\r\n\r\nGET / HTTP/1.1\r\n\r\n')
        self.read_response()
        self.read_response()
        self.close()

    def test_pipelined_cancel(self):
        self.connect()
        self.stream.write(b'GET / HTTP/1.1\r\n\r\nGET / HTTP/1.1\r\n\r\n')
        # only read once
        self.read_response()
        self.close()

    def test_cancel_during_download(self):
        self.connect()
        self.stream.write(b'GET /large HTTP/1.1\r\n\r\n')
        self.read_headers()
        self.stream.read_bytes(1024, self.stop)
        self.wait()
        self.close()

    def test_finish_while_closed(self):
        self.connect()
        self.stream.write(b'GET /finish_on_close HTTP/1.1\r\n\r\n')
        self.read_headers()
        self.close()

    def test_keepalive_chunked(self):
        self.http_version = b'HTTP/1.0'
        self.connect()
        self.stream.write(b'POST / HTTP/1.0\r\nConnection: keep-alive\r\n'
                          b'Transfer-Encoding: chunked\r\n'
                          b'\r\n0\r\n')
        self.read_response()
        self.assertEqual(self.headers['Connection'], 'Keep-Alive')
        self.stream.write(b'GET / HTTP/1.0\r\nConnection: keep-alive\r\n\r\n')
        self.read_response()
        self.assertEqual(self.headers['Connection'], 'Keep-Alive')
        self.close()


class GzipBaseTest(object):
    def get_app(self):
        return Application([('/', EchoHandler)])

    def post_gzip(self, body):
        bytesio = BytesIO()
        gzip_file = gzip.GzipFile(mode='w', fileobj=bytesio)
        gzip_file.write(utf8(body))
        gzip_file.close()
        compressed_body = bytesio.getvalue()
        return self.fetch('/', method='POST', body=compressed_body,
                          headers={'Content-Encoding': 'gzip'})

    def test_uncompressed(self):
        response = self.fetch('/', method='POST', body='foo=bar')
        self.assertEquals(json_decode(response.body), {u('foo'): [u('bar')]})


class GzipTest(GzipBaseTest, AsyncHTTPTestCase):
    def get_httpserver_options(self):
        return dict(decompress_request=True)

    def test_gzip(self):
        response = self.post_gzip('foo=bar')
        self.assertEquals(json_decode(response.body), {u('foo'): [u('bar')]})


class GzipUnsupportedTest(GzipBaseTest, AsyncHTTPTestCase):
    def test_gzip_unsupported(self):
        # Gzip support is opt-in; without it the server fails to parse
        # the body (but parsing form bodies is currently just a log message,
        # not a fatal error).
        with ExpectLog(gen_log, "Unsupported Content-Encoding"):
            response = self.post_gzip('foo=bar')
        self.assertEquals(json_decode(response.body), {})


class StreamingChunkSizeTest(AsyncHTTPTestCase):
    # 50 characters long, and repetitive so it can be compressed.
    BODY = b'01234567890123456789012345678901234567890123456789'
    CHUNK_SIZE = 16

    def get_http_client(self):
        # body_producer doesn't work on curl_httpclient, so override the
        # configured AsyncHTTPClient implementation.
        return SimpleAsyncHTTPClient(io_loop=self.io_loop)

    def get_httpserver_options(self):
        return dict(chunk_size=self.CHUNK_SIZE, decompress_request=True)

    class MessageDelegate(HTTPMessageDelegate):
        def __init__(self, connection):
            self.connection = connection

        def headers_received(self, start_line, headers):
            self.chunk_lengths = []

        def data_received(self, chunk):
            self.chunk_lengths.append(len(chunk))

        def finish(self):
            response_body = utf8(json_encode(self.chunk_lengths))
            self.connection.write_headers(
                ResponseStartLine('HTTP/1.1', 200, 'OK'),
                HTTPHeaders({'Content-Length': str(len(response_body))}))
            self.connection.write(response_body)
            self.connection.finish()

    def get_app(self):
        class App(HTTPServerConnectionDelegate):
            def start_request(self, server_conn, request_conn):
                return StreamingChunkSizeTest.MessageDelegate(request_conn)
        return App()

    def fetch_chunk_sizes(self, **kwargs):
        response = self.fetch('/', method='POST', **kwargs)
        response.rethrow()
        chunks = json_decode(response.body)
        self.assertEqual(len(self.BODY), sum(chunks))
        for chunk_size in chunks:
            self.assertLessEqual(chunk_size, self.CHUNK_SIZE,
                                 'oversized chunk: ' + str(chunks))
            self.assertGreater(chunk_size, 0,
                               'empty chunk: ' + str(chunks))
        return chunks

    def compress(self, body):
        bytesio = BytesIO()
        gzfile = gzip.GzipFile(mode='w', fileobj=bytesio)
        gzfile.write(body)
        gzfile.close()
        compressed = bytesio.getvalue()
        if len(compressed) >= len(body):
            raise Exception("body did not shrink when compressed")
        return compressed

    def test_regular_body(self):
        chunks = self.fetch_chunk_sizes(body=self.BODY)
        # Without compression we know exactly what to expect.
        self.assertEqual([16, 16, 16, 2], chunks)

    def test_compressed_body(self):
        self.fetch_chunk_sizes(body=self.compress(self.BODY),
                               headers={'Content-Encoding': 'gzip'})
        # Compression creates irregular boundaries so the assertions
        # in fetch_chunk_sizes are as specific as we can get.

    def test_chunked_body(self):
        def body_producer(write):
            write(self.BODY[:20])
            write(self.BODY[20:])
        chunks = self.fetch_chunk_sizes(body_producer=body_producer)
        # HTTP chunk boundaries translate to application-visible breaks
        self.assertEqual([16, 4, 16, 14], chunks)

    def test_chunked_compressed(self):
        compressed = self.compress(self.BODY)
        self.assertGreater(len(compressed), 20)

        def body_producer(write):
            write(compressed[:20])
            write(compressed[20:])
        self.fetch_chunk_sizes(body_producer=body_producer,
                               headers={'Content-Encoding': 'gzip'})


class MaxHeaderSizeTest(AsyncHTTPTestCase):
    def get_app(self):
        return Application([('/', HelloWorldRequestHandler)])

    def get_httpserver_options(self):
        return dict(max_header_size=1024)

    def test_small_headers(self):
        response = self.fetch("/", headers={'X-Filler': 'a' * 100})
        response.rethrow()
        self.assertEqual(response.body, b"Hello world")

    def test_large_headers(self):
        with ExpectLog(gen_log, "Unsatisfiable read"):
            response = self.fetch("/", headers={'X-Filler': 'a' * 1000})
        self.assertEqual(response.code, 599)


@skipOnTravis
class IdleTimeoutTest(AsyncHTTPTestCase):
    def get_app(self):
        return Application([('/', HelloWorldRequestHandler)])

    def get_httpserver_options(self):
        return dict(idle_connection_timeout=0.1)

    def setUp(self):
        super(IdleTimeoutTest, self).setUp()
        self.streams = []

    def tearDown(self):
        super(IdleTimeoutTest, self).tearDown()
        for stream in self.streams:
            stream.close()

    def connect(self):
        stream = IOStream(socket.socket())
        stream.connect(('127.0.0.1', self.get_http_port()), self.stop)
        self.wait()
        self.streams.append(stream)
        return stream

    def test_unused_connection(self):
        stream = self.connect()
        stream.set_close_callback(self.stop)
        self.wait()

    def test_idle_after_use(self):
        stream = self.connect()
        stream.set_close_callback(lambda: self.stop("closed"))

        # Use the connection twice to make sure keep-alives are working
        for i in range(2):
            stream.write(b"GET / HTTP/1.1\r\n\r\n")
            stream.read_until(b"\r\n\r\n", self.stop)
            self.wait()
            stream.read_bytes(11, self.stop)
            data = self.wait()
            self.assertEqual(data, b"Hello world")

        # Now let the timeout trigger and close the connection.
        data = self.wait()
        self.assertEqual(data, "closed")


class BodyLimitsTest(AsyncHTTPTestCase):
    def get_app(self):
        class BufferedHandler(RequestHandler):
            def put(self):
                self.write(str(len(self.request.body)))

        @stream_request_body
        class StreamingHandler(RequestHandler):
            def initialize(self):
                self.bytes_read = 0

            def prepare(self):
                if 'expected_size' in self.request.arguments:
                    self.request.connection.set_max_body_size(
                        int(self.get_argument('expected_size')))
                if 'body_timeout' in self.request.arguments:
                    self.request.connection.set_body_timeout(
                        float(self.get_argument('body_timeout')))

            def data_received(self, data):
                self.bytes_read += len(data)

            def put(self):
                self.write(str(self.bytes_read))

        return Application([('/buffered', BufferedHandler),
                            ('/streaming', StreamingHandler)])

    def get_httpserver_options(self):
        return dict(body_timeout=3600, max_body_size=4096)

    def get_http_client(self):
        # body_producer doesn't work on curl_httpclient, so override the
        # configured AsyncHTTPClient implementation.
        return SimpleAsyncHTTPClient(io_loop=self.io_loop)

    def test_small_body(self):
        response = self.fetch('/buffered', method='PUT', body=b'a' * 4096)
        self.assertEqual(response.body, b'4096')
        response = self.fetch('/streaming', method='PUT', body=b'a' * 4096)
        self.assertEqual(response.body, b'4096')

    def test_large_body_buffered(self):
        with ExpectLog(gen_log, '.*Content-Length too long'):
            response = self.fetch('/buffered', method='PUT', body=b'a' * 10240)
        self.assertEqual(response.code, 599)

    def test_large_body_buffered_chunked(self):
        with ExpectLog(gen_log, '.*chunked body too large'):
            response = self.fetch('/buffered', method='PUT',
                                  body_producer=lambda write: write(b'a' * 10240))
        self.assertEqual(response.code, 599)

    def test_large_body_streaming(self):
        with ExpectLog(gen_log, '.*Content-Length too long'):
            response = self.fetch('/streaming', method='PUT', body=b'a' * 10240)
        self.assertEqual(response.code, 599)

    def test_large_body_streaming_chunked(self):
        with ExpectLog(gen_log, '.*chunked body too large'):
            response = self.fetch('/streaming', method='PUT',
                                  body_producer=lambda write: write(b'a' * 10240))
        self.assertEqual(response.code, 599)

    def test_large_body_streaming_override(self):
        response = self.fetch('/streaming?expected_size=10240', method='PUT',
                              body=b'a' * 10240)
        self.assertEqual(response.body, b'10240')

    def test_large_body_streaming_chunked_override(self):
        response = self.fetch('/streaming?expected_size=10240', method='PUT',
                              body_producer=lambda write: write(b'a' * 10240))
        self.assertEqual(response.body, b'10240')

    @gen_test
    def test_timeout(self):
        stream = IOStream(socket.socket())
        try:
            yield stream.connect(('127.0.0.1', self.get_http_port()))
            # Use a raw stream because AsyncHTTPClient won't let us read a
            # response without finishing a body.
            stream.write(b'PUT /streaming?body_timeout=0.1 HTTP/1.0\r\n'
                         b'Content-Length: 42\r\n\r\n')
            with ExpectLog(gen_log, 'Timeout reading body'):
                response = yield stream.read_until_close()
            self.assertEqual(response, b'')
        finally:
            stream.close()

    @gen_test
    def test_body_size_override_reset(self):
        # The max_body_size override is reset between requests.
        stream = IOStream(socket.socket())
        try:
            yield stream.connect(('127.0.0.1', self.get_http_port()))
            # Use a raw stream so we can make sure it's all on one connection.
            stream.write(b'PUT /streaming?expected_size=10240 HTTP/1.1\r\n'
                         b'Content-Length: 10240\r\n\r\n')
            stream.write(b'a' * 10240)
            headers, response = yield gen.Task(read_stream_body, stream)
            self.assertEqual(response, b'10240')
            # Without the ?expected_size parameter, we get the old default value
            stream.write(b'PUT /streaming HTTP/1.1\r\n'
                         b'Content-Length: 10240\r\n\r\n')
            with ExpectLog(gen_log, '.*Content-Length too long'):
                data = yield stream.read_until_close()
            self.assertEqual(data, b'')
        finally:
            stream.close()


class LegacyInterfaceTest(AsyncHTTPTestCase):
    def get_app(self):
        # The old request_callback interface does not implement the
        # delegate interface, and writes its response via request.write
        # instead of request.connection.write_headers.
        def handle_request(request):
            self.http1 = request.version.startswith("HTTP/1.")
            if not self.http1:
                # This test will be skipped if we're using HTTP/2,
                # so just close it out cleanly using the modern interface.
                request.connection.write_headers(
                    ResponseStartLine('', 200, 'OK'),
                    HTTPHeaders())
                request.connection.finish()
                return
            message = b"Hello world"
            request.write(utf8("HTTP/1.1 200 OK\r\n"
                               "Content-Length: %d\r\n\r\n" % len(message)))
            request.write(message)
            request.finish()
        return handle_request

    def test_legacy_interface(self):
        response = self.fetch('/')
        if not self.http1:
            self.skipTest("requires HTTP/1.x")
        self.assertEqual(response.body, b"Hello world")