def test_100_continue(self):
        # testing if httpclient is able to skip 100 continue responses.
        # to test without httpserver implementation, using
        # raw response as same as httpclient_test.test_chunked_close.
        port = get_unused_port()
        (sock,) = netutil.bind_sockets(port, address="127.0.0.1")
        with closing(sock):
            def write_response(stream, request_data):
                stream.write(b("""\
HTTP/1.1 100 Continue

HTTP/1.1 200 OK
Content-Length: 6

hjkl
""").replace(b("\n"), b("\r\n")), callback=stream.close)
            def accept_callback(conn, address):
                # fake an HTTP server using chunked encoding where the final chunks
                # and connection close all happen at once
                stream = IOStream(conn, io_loop=self.io_loop)
                stream.read_until(b("\r\n\r\n"),
                                  functools.partial(write_response, stream))
            netutil.add_accept_handler(sock, accept_callback, self.io_loop)
            self.http_client.fetch("http://127.0.0.1:%d/" % port, self.stop,
                                   headers={"Expect": "100-continue"})
            resp = self.wait()
            resp.rethrow()
            self.assertEqual(resp.body, b("hjkl\r\n"))
Exemple #2
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    def test_chunked_close(self):
        # test case in which chunks spread read-callback processing
        # over several ioloop iterations, but the connection is already closed.
        sock, port = bind_unused_port()
        with closing(sock):
            def write_response(stream, request_data):
                stream.write(b("""\
HTTP/1.1 200 OK
Transfer-Encoding: chunked

1
1
1
2
0

""").replace(b("\n"), b("\r\n")), callback=stream.close)

            def accept_callback(conn, address):
                # fake an HTTP server using chunked encoding where the final chunks
                # and connection close all happen at once
                stream = IOStream(conn, io_loop=self.io_loop)
                stream.read_until(b("\r\n\r\n"),
                                  functools.partial(write_response, stream))
            netutil.add_accept_handler(sock, accept_callback, self.io_loop)
            self.http_client.fetch("http://127.0.0.1:%d/" % port, self.stop)
            resp = self.wait()
            resp.rethrow()
            self.assertEqual(resp.body, b("12"))
            self.io_loop.remove_handler(sock.fileno())
Exemple #3
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    def make_iostream_pair(self, **kwargs):
        listener, port = bind_unused_port()
        streams = [None, None]

        def accept_callback(connection, address):
            streams[0] = self._make_server_iostream(connection, **kwargs)
            if isinstance(streams[0], SSLIOStream):
                # HACK: The SSL handshake won't complete (and
                # therefore the client connect callback won't be
                # run)until the server side has tried to do something
                # with the connection.  For these tests we want both
                # sides to connect before we do anything else with the
                # connection, so we must cause some dummy activity on the
                # server.  If this turns out to be useful for real apps
                # it should have a cleaner interface.
                streams[0]._add_io_state(IOLoop.READ)
            self.stop()

        def connect_callback():
            streams[1] = client_stream
            self.stop()
        netutil.add_accept_handler(listener, accept_callback,
                                   io_loop=self.io_loop)
        client_stream = self._make_client_iostream(socket.socket(), **kwargs)
        client_stream.connect(('127.0.0.1', port),
                              callback=connect_callback)
        self.wait(condition=lambda: all(streams))
        self.io_loop.remove_handler(listener.fileno())
        listener.close()
        return streams
Exemple #4
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    def test_chunked_close(self):
        # test case in which chunks spread read-callback processing
        # over several ioloop iterations, but the connection is already closed.
        port = get_unused_port()
        (sock,) = netutil.bind_sockets(port, address="127.0.0.1")
        def accept_callback(conn, address):
            # fake an HTTP server using chunked encoding where the final chunks
            # and connection close all happen at once
            stream = IOStream(conn, io_loop=self.io_loop)
            stream.write(b("""\
HTTP/1.1 200 OK
Transfer-Encoding: chunked

1
1
1
2
0

""").replace(b("\n"), b("\r\n")), callback=stream.close)
        netutil.add_accept_handler(sock, accept_callback, self.io_loop)
        self.http_client.fetch("http://127.0.0.1:%d/" % port, self.stop)
        resp = self.wait()
        resp.rethrow()
        self.assertEqual(resp.body, b("12"))
Exemple #5
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    def test_multi_line_headers(self):
        # Multi-line http headers are rare but rfc-allowed
        # http://www.w3.org/Protocols/rfc2616/rfc2616-sec4.html#sec4.2
        sock, port = bind_unused_port()
        with closing(sock):
            def write_response(stream, request_data):
                if b"HTTP/1." not in request_data:
                    self.skipTest("requires HTTP/1.x")
                stream.write(b"""\
HTTP/1.1 200 OK
X-XSS-Protection: 1;
\tmode=block

""".replace(b"\n", b"\r\n"), callback=stream.close)

            def accept_callback(conn, address):
                stream = IOStream(conn, io_loop=self.io_loop)
                stream.read_until(b"\r\n\r\n",
                                  functools.partial(write_response, stream))
            netutil.add_accept_handler(sock, accept_callback, self.io_loop)
            self.http_client.fetch("http://127.0.0.1:%d/" % port, self.stop)
            resp = self.wait()
            resp.rethrow()
            self.assertEqual(resp.headers['X-XSS-Protection'], "1; mode=block")
            self.io_loop.remove_handler(sock.fileno())
Exemple #6
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    def test_chunked_close(self):
        # test case in which chunks spread read-callback processing
        # over several ioloop iterations, but the connection is already closed.
        sock, port = bind_unused_port()
        with closing(sock):
            @gen.coroutine
            def accept_callback(conn, address):
                # fake an HTTP server using chunked encoding where the final chunks
                # and connection close all happen at once
                stream = IOStream(conn)
                request_data = yield stream.read_until(b"\r\n\r\n")
                if b"HTTP/1." not in request_data:
                    self.skipTest("requires HTTP/1.x")
                yield stream.write(b"""\
HTTP/1.1 200 OK
Transfer-Encoding: chunked

1
1
1
2
0

""".replace(b"\n", b"\r\n"))
                stream.close()
            netutil.add_accept_handler(sock, accept_callback)
            resp = self.fetch("http://127.0.0.1:%d/" % port)
            resp.rethrow()
            self.assertEqual(resp.body, b"12")
            self.io_loop.remove_handler(sock.fileno())
Exemple #7
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    def test_multi_line_headers(self):
        # Multi-line http headers are rare but rfc-allowed
        # http://www.w3.org/Protocols/rfc2616/rfc2616-sec4.html#sec4.2
        sock, port = bind_unused_port()
        with closing(sock):

            @gen.coroutine
            def accept_callback(conn, address):
                stream = IOStream(conn)
                request_data = yield stream.read_until(b"\r\n\r\n")
                if b"HTTP/1." not in request_data:
                    self.skipTest("requires HTTP/1.x")
                yield stream.write(
                    b"""\
HTTP/1.1 200 OK
X-XSS-Protection: 1;
\tmode=block

""".replace(
                        b"\n", b"\r\n"
                    )
                )
                stream.close()

            netutil.add_accept_handler(sock, accept_callback)  # type: ignore
            resp = self.fetch("http://127.0.0.1:%d/" % port)
            resp.rethrow()
            self.assertEqual(resp.headers["X-XSS-Protection"], "1; mode=block")
            self.io_loop.remove_handler(sock.fileno())
Exemple #8
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    def add_sockets(self, sockets, callback=None):
        r"""Makes this server start accepting connections on the given
        sockets.

        The `sockets` parameter is a list of socket objects such as
        those returned by `tornado.netutil.bind_sockets`"""

        if self.io_loop is None:
            self.io_loop = ioloop.IOLoop.current()
        for sock in sockets:
            self._sockets[sock.fileno()] = sock
            netutil.add_accept_handler(sock, callback, io_loop=self.io_loop)
Exemple #9
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    def add_sockets(self, sockets):
        """Makes this server start accepting connections on the given sockets.

        The ``sockets`` parameter is a list of socket objects such as
        those returned by `~tornado.netutil.bind_sockets`.
        `add_sockets` is typically used in combination with that
        method and `tornado.process.fork_processes` to provide greater
        control over the initialization of a multi-process server.
        """
        for sock in sockets:
            self._sockets[sock.fileno()] = sock
            add_accept_handler(sock, self._handle_connection)
Exemple #10
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    def __init__(self, usocket, starting_point, allow_design):
        """Used to run the plugins that are installed based on the starting point
        @param socket Unix socket you are watching
        @param starting_point The starting point of the plugins

        """
        self.queue = sundaytasks.utils.get_plugins()
        self.extensions = sundaytasks.utils.get_extensions()
        self.starting_point = starting_point
        self.instance = IOLoop.instance()
        self._allow_design = allow_design
        unix_socket = netutil.bind_unix_socket(usocket)
        netutil.add_accept_handler(unix_socket, self.accept)
Exemple #11
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    def make_iostream_pair(self, **kwargs):
        listener, port = bind_unused_port()
        server_stream_fut = Future()

        def accept_callback(connection, address):
            server_stream_fut.set_result(self._make_server_iostream(connection, **kwargs))

        netutil.add_accept_handler(listener, accept_callback)
        client_stream = self._make_client_iostream(socket.socket(), **kwargs)
        connect_fut = client_stream.connect(('127.0.0.1', port))
        server_stream, client_stream = yield [server_stream_fut, connect_fut]
        self.io_loop.remove_handler(listener.fileno())
        listener.close()
        raise gen.Return((server_stream, client_stream))
Exemple #12
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    def asyncSetUp(self):
        self.client_stream, self.src_stream = yield self.create_iostream_pair()

        self.context = LayerContext(
            mode="socks", src_stream=self.src_stream)
        self.layer = SocksLayer(self.context)

        self.listener, self.port = bind_unused_port()

        def dest_accept_callback(conn, addr):
            self.dest_server_stream = MicroProxyIOStream(conn)
            self.addCleanup(self.dest_server_stream.close)

        add_accept_handler(self.listener, dest_accept_callback)
        self.addCleanup(self.listener.close)
Exemple #13
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 def setUp(self):
     try:
         super(TestIOStreamStartTLS, self).setUp()
         self.listener, self.port = bind_unused_port()
         self.server_stream = None
         self.server_accepted = Future()
         netutil.add_accept_handler(self.listener, self.accept)
         self.client_stream = IOStream(socket.socket())
         self.io_loop.add_future(self.client_stream.connect(("127.0.0.1", self.port)), self.stop)
         self.wait()
         self.io_loop.add_future(self.server_accepted, self.stop)
         self.wait()
     except Exception as e:
         print(e)
         raise
    def make_iostream_pair(self: typing.Any, **kwargs):
        listener, port = bind_unused_port()
        server_stream_fut = Future()  # type: Future[IOStream]

        def accept_callback(connection, address):
            server_stream_fut.set_result(
                self._make_server_iostream(connection, **kwargs)
            )

        netutil.add_accept_handler(listener, accept_callback)
        client_stream = self._make_client_iostream(socket.socket(), **kwargs)
        connect_fut = client_stream.connect(("127.0.0.1", port))
        server_stream, client_stream = yield [server_stream_fut, connect_fut]
        self.io_loop.remove_handler(listener.fileno())
        listener.close()
        raise gen.Return((server_stream, client_stream))
Exemple #15
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 def setUp(self):
     try:
         super(TestIOStreamStartTLS, self).setUp()
         self.listener, self.port = bind_unused_port()
         self.server_stream = None
         self.server_accepted = Future()
         netutil.add_accept_handler(self.listener, self.accept)
         self.client_stream = IOStream(socket.socket())
         self.io_loop.add_future(self.client_stream.connect(
             ('127.0.0.1', self.port)), self.stop)
         self.wait()
         self.io_loop.add_future(self.server_accepted, self.stop)
         self.wait()
     except Exception as e:
         print(e)
         raise
    def asyncSetUp(self):
        listener, port = bind_unused_port()
        event = Event()

        def accept_callback(conn, addr):
            self.server_stream = IOStream(conn)
            self.addCleanup(self.server_stream.close)
            event.set()

        add_accept_handler(listener, accept_callback)
        self.client_stream = IOStream(socket.socket())
        self.addCleanup(self.client_stream.close)
        yield [self.client_stream.connect(('127.0.0.1', port)),
               event.wait()]
        self.io_loop.remove_handler(listener)
        listener.close()
Exemple #17
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    def add_sockets(self, sockets):
        u"""使服务开始接收给定端口的连接.

        ``sockets`` 参数是一个 socket 对象的列表, 例如那些被
        `~tornado.netutil.bind_sockets` 所返回的对象.
        `add_sockets` 通常和 `tornado.process.fork_processes` 相结合使用,
        以便于在一个多进程服务初始化时提供更多控制.
        """
        if self.io_loop is None:
            self.io_loop = IOLoop.current()

        for sock in sockets:
            self._sockets[sock.fileno()] = sock
            add_accept_handler(sock,
                               self._handle_connection,
                               io_loop=self.io_loop)
Exemple #18
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    def add_sockets(self, sockets):
        """Makes this server start accepting connections on the given sockets.

        The ``sockets`` parameter is a list of socket objects such as
        those returned by `~tornado.netutil.bind_sockets`.
        `add_sockets` is typically used in combination with that
        method and `tornado.process.fork_processes` to provide greater
        control over the initialization of a multi-process server.
        """
        if self.io_loop is None:
            self.io_loop = IOLoop.current()

        for sock in sockets:
            self._sockets[sock.fileno()] = sock
            add_accept_handler(sock, self._handle_connection,
                               io_loop=self.io_loop)
Exemple #19
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 def add_sockets(self, sockets):
     """
     重写sockets添加函数
     不使用tornado的默认的ioloop,
     而使用asyncio的ioloop实例
     :param sockets:
     :return:
     """
     AsyncIOMainLoop().install()
     if self.io_loop is None:
         self.io_loop = IOLoop.current()
         assert self.io_loop is not None, 'the io_loop shoud not be none'
         for sock in sockets:
             self._sockets[sock.fileno()] = sock
             add_accept_handler(sock,
                                self._handle_connection,
                                io_loop=self.io_loop)
Exemple #20
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 def _start(self):
     self.io_loop.spawn_callback(self.fire_master_started_event)
     port = int(self.opts['runtests_conn_check_port'])
     log.info('Starting Pytest Engine(role=%s) on port %s',
              self.opts['__role'], port)
     self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
     self.sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
     self.sock.setblocking(0)
     # bind the socket to localhost on the config provided port
     self.sock.bind(('localhost', port))
     # become a server socket
     self.sock.listen(5)
     with salt.utils.asynchronous.current_ioloop(self.io_loop):
         netutil.add_accept_handler(
             self.sock,
             self.handle_connection,
         )
Exemple #21
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    def start(self):
        if self.opts['__role'] == 'minion':
            yield self.listen_to_minion_connected_event()

        port = int(self.opts['runtests_conn_check_port'])
        log.info('Starting Pytest Engine(role=%s) on port %s', self.opts['__role'], port)
        self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        self.sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
        self.sock.setblocking(0)
        # bind the socket to localhost on the config provided port
        self.sock.bind(('localhost', port))
        # become a server socket
        self.sock.listen(5)
        netutil.add_accept_handler(
            self.sock,
            self.handle_connection,
            io_loop=self.io_loop,
        )
 def setUp(self):
     try:
         super().setUp()
         self.listener, self.port = bind_unused_port()
         self.server_stream = None
         self.server_accepted = Future()  # type: Future[None]
         netutil.add_accept_handler(self.listener, self.accept)
         self.client_stream = IOStream(
             socket.socket())  # type: typing.Optional[IOStream]
         self.io_loop.add_future(
             self.client_stream.connect(("127.0.0.1", self.port)),
             self.stop)
         self.wait()
         self.io_loop.add_future(self.server_accepted, self.stop)
         self.wait()
     except Exception as e:
         print(e)
         raise
Exemple #23
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    def create_iostream_pair(self):
        _lock = Event()
        server_streams = []

        def accept_callback(conn, addr):
            server_stream = MicroProxyIOStream(conn)
            server_streams.append(server_stream)
            # self.addCleanup(server_stream.close)
            _lock.set()

        listener, port = bind_unused_port()
        add_accept_handler(listener, accept_callback)
        client_stream = MicroProxyIOStream(socket.socket())
        yield [client_stream.connect(('127.0.0.1', port)), _lock.wait()]
        self.io_loop.remove_handler(listener)
        listener.close()

        raise Return((client_stream, server_streams[0]))
Exemple #24
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 def make_iostream_pair(self):
     port = get_unused_port()
     [listener] = netutil.bind_sockets(port, '127.0.0.1',
                                       family=socket.AF_INET)
     streams = [None, None]
     def accept_callback(connection, address):
         streams[0] = IOStream(connection, io_loop=self.io_loop)
         self.stop()
     def connect_callback():
         streams[1] = client_stream
         self.stop()
     netutil.add_accept_handler(listener, accept_callback,
                                io_loop=self.io_loop)
     client_stream = IOStream(socket.socket(), io_loop=self.io_loop)
     client_stream.connect(('127.0.0.1', port),
                           callback=connect_callback)
     self.wait(condition=lambda: all(streams))
     return streams
Exemple #25
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    def _start(self):
        log.info('Starting Pytest Engine(role=%s, id=%s) on port %s', self.role, self.id, self.port)

        self.tcp_server_sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        self.tcp_server_sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
        self.tcp_server_sock.setblocking(0)
        # bind the socket to localhost on the config provided port
        self.tcp_server_sock.bind(('localhost', self.port))
        # become a server socket
        self.tcp_server_sock.listen(5)
        if HAS_SALT_ASYNC:
            with salt.utils.asynchronous.current_ioloop(self.io_loop):
                netutil.add_accept_handler(self.tcp_server_sock, self.handle_connection)
        else:
            netutil.add_accept_handler(self.tcp_server_sock, self.handle_connection)

        if self.role == 'master':
            yield self.fire_master_started_event()
Exemple #26
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    def start(self):
        if self.opts['__role'] == 'minion':
            yield self.listen_to_minion_connected_event()

        port = int(self.opts['runtests_conn_check_port'])
        log.info('Starting Pytest Engine(role=%s) on port %s', self.opts['__role'], port)
        self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        self.sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
        self.sock.setblocking(0)
        # bind the socket to localhost on the config provided port
        self.sock.bind(('localhost', port))
        # become a server socket
        self.sock.listen(5)
        netutil.add_accept_handler(
            self.sock,
            self.handle_connection,
            io_loop=self.io_loop,
        )
Exemple #27
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    def make_iostream_pair(self, **kwargs):
        listener, port = bind_unused_port()
        streams = [None, None]

        def accept_callback(connection, address):
            streams[0] = self._make_server_iostream(connection, **kwargs)
            self.stop()

        def connect_callback():
            streams[1] = client_stream
            self.stop()

        netutil.add_accept_handler(listener, accept_callback)
        client_stream = self._make_client_iostream(socket.socket(), **kwargs)
        client_stream.connect(('127.0.0.1', port), callback=connect_callback)
        self.wait(condition=lambda: all(streams))
        self.io_loop.remove_handler(listener.fileno())
        listener.close()
        return streams
Exemple #28
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    def create_iostream_pair(self):
        _lock = Event()
        server_streams = []

        def accept_callback(conn, addr):
            server_stream = MicroProxyIOStream(conn)
            server_streams.append(server_stream)
            # self.addCleanup(server_stream.close)
            _lock.set()

        listener, port = bind_unused_port()
        add_accept_handler(listener, accept_callback)
        client_stream = MicroProxyIOStream(socket.socket())
        yield [client_stream.connect(('127.0.0.1', port)),
               _lock.wait()]
        self.io_loop.remove_handler(listener)
        listener.close()

        raise Return((client_stream, server_streams[0]))
Exemple #29
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    def make_iostream_pair(self, **kwargs):
        listener, port = bind_unused_port()
        streams = [None, None]

        def accept_callback(connection, address):
            streams[0] = self._make_server_iostream(connection, **kwargs)
            self.stop()

        def connect_callback():
            streams[1] = client_stream
            self.stop()

        netutil.add_accept_handler(listener, accept_callback, io_loop=self.io_loop)
        client_stream = self._make_client_iostream(socket.socket(), **kwargs)
        client_stream.connect(("127.0.0.1", port), callback=connect_callback)
        self.wait(condition=lambda: all(streams))
        self.io_loop.remove_handler(listener.fileno())
        listener.close()
        return streams
Exemple #30
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    def add_sockets(self, sockets):
        """Makes this server start accepting connections on the given sockets.

        The ``sockets`` parameter is a list of socket objects such as
        those returned by `~tornado.netutil.bind_sockets`.
        `add_sockets` is typically used in combination with that
        method and `tornado.process.fork_processes` to provide greater
        control over the initialization of a multi-process server.
        """
        if self.io_loop is None:
            self.io_loop = IOLoop.current()  # 创建一个IOLoop

        for sock in sockets:  # sock.fileno() 返回文件标记,一个整数
            self._sockets[sock.fileno()] = sock  # 添加到需要监听的列表

            # 需要监听的列表有不同类型的socket,这个是用于accept新连接的socket,
            # 所以使用 add_accept_handler
            # IOLoop是如何区分两个类型的socket,又是如何监听的,需要以后好好的看看
            add_accept_handler(sock, self._handle_connection,
                               io_loop=self.io_loop)
Exemple #31
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    def add_sockets(self, sockets):
        """Makes this server start accepting connections on the given sockets.

        The ``sockets`` parameter is a list of socket objects such as
        those returned by `~tornado.netutil.bind_sockets`.
        `add_sockets` is typically used in combination with that
        method and `tornado.process.fork_processes` to provide greater
        control over the initialization of a multi-process server.
        """
        if self.io_loop is None:
            self.io_loop = IOLoop.current()  # 创建一个IOLoop

        for sock in sockets:  # sock.fileno() 返回文件标记,一个整数
            self._sockets[sock.fileno()] = sock  # 添加到需要监听的列表

            # 需要监听的列表有不同类型的socket,这个是用于accept新连接的socket,
            # 所以使用 add_accept_handler
            # IOLoop是如何区分两个类型的socket,又是如何监听的,需要以后好好的看看
            add_accept_handler(sock,
                               self._handle_connection,
                               io_loop=self.io_loop)
Exemple #32
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    def add_sockets(self, sockets: Iterable[socket.socket]) -> None:
        """Makes this server start accepting connections on the given sockets.

        The ``sockets`` parameter is a list of socket objects such as
        those returned by `~tornado.netutil.bind_sockets`.
        `add_sockets` is typically used in combination with that
        method and `tornado.process.fork_processes` to provide greater
        control over the env_init of a multi-process server.
        """
        for sock in sockets:
            self._sockets[sock.fileno()] = sock
            self._handlers[sock.fileno()] = add_accept_handler(
                sock, self._handle_connection)
Exemple #33
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    def test_multi_line_headers(self):
        # Multi-line http headers are rare but rfc-allowed
        # http://www.w3.org/Protocols/rfc2616/rfc2616-sec4.html#sec4.2
        sock, port = bind_unused_port()
        with closing(sock):
            @gen.coroutine
            def accept_callback(conn, address):
                stream = IOStream(conn)
                request_data = yield stream.read_until(b"\r\n\r\n")
                if b"HTTP/1." not in request_data:
                    self.skipTest("requires HTTP/1.x")
                yield stream.write(b"""\
HTTP/1.1 200 OK
X-XSS-Protection: 1;
\tmode=block

""".replace(b"\n", b"\r\n"))
                stream.close()

            netutil.add_accept_handler(sock, accept_callback)
            resp = self.fetch("http://127.0.0.1:%d/" % port)
            resp.rethrow()
            self.assertEqual(resp.headers['X-XSS-Protection'], "1; mode=block")
            self.io_loop.remove_handler(sock.fileno())
    def test_chunked_close(self):
        # test case in which chunks spread read-callback processing
        # over several ioloop iterations, but the connection is already closed.
        sock, port = bind_unused_port()
        with closing(sock):

            @gen.coroutine
            def accept_callback(conn, address):
                # fake an HTTP server using chunked encoding where the final chunks
                # and connection close all happen at once
                stream = IOStream(conn)
                request_data = yield stream.read_until(b"\r\n\r\n")
                if b"HTTP/1." not in request_data:
                    self.skipTest("requires HTTP/1.x")
                yield stream.write(
                    b"""\
HTTP/1.1 200 OK
Transfer-Encoding: chunked

1
1
1
2
0

""".replace(
                        b"\n", b"\r\n"
                    )
                )
                stream.close()

            netutil.add_accept_handler(sock, accept_callback)  # type: ignore
            resp = self.fetch("http://127.0.0.1:%d/" % port)
            resp.rethrow()
            self.assertEqual(resp.body, b"12")
            self.io_loop.remove_handler(sock.fileno())
Exemple #35
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    def add_sockets(self, sockets: Iterable[socket.socket]) -> None:
        """Makes this server start accepting connections on the given sockets.

        The ``sockets`` parameter is a list of socket objects such as
        those returned by `~tornado.netutil.bind_sockets`.
        `add_sockets` is typically used in combination with that
        method and `tornado.process.fork_processes` to provide greater
        control over the initialization of a multi-process server.
        """
        for sock in sockets:
            """
            self._sockets: 里面装的是套接字的fileno及其套接字对象
            self._handlers: 套接字的fileno及其handler处理函数
            """
            self._sockets[sock.fileno()] = sock
            self._handlers[sock.fileno()] = add_accept_handler(
                sock, self._handle_connection
            )  # 该函数返回的是remove_handler, 所以我拿到的是一个终结处理逻辑嘛
Exemple #36
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def init(sockets):
    print('Starting the server...')
    for socket in sockets:
        add_accept_handler(socket, callback)
    IOLoop.instance().start()
    print('Server has shut down.')
Exemple #37
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    log.setLevel(INFO)
    if options.more:
        log.setLevel(DEBUG)
else:
    log.setLevel(WARNING)

if os.getenv('LISTEN_PID'):
    log.info('Getting socket from systemd')
    sck = socket.fromfd(
        SYSTEMD_SOCKET_FD + 1,  # Second socket in .socket file
        socket.AF_INET6 if socket.has_ipv6 else socket.AF_INET,
        socket.SOCK_STREAM
    )
    sck.setblocking(0)
    sck.listen(128)
    sockets = [sck]
else:
    log.info('Binding sockets')
    sockets = bind_sockets(options.socket_port)

log.info('Accepting')
for sck in sockets:
    add_accept_handler(sck, handle_connection)

log.info('Listening')
http_server = SystemdHTTPServer(server)
http_server.listen(options.server_port)

log.info('Starting loop')
IOLoop.current().start()
Exemple #38
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    log.setLevel(INFO)
    if options.more:
        log.setLevel(DEBUG)
else:
    log.setLevel(WARNING)

if os.getenv('LISTEN_PID'):
    log.info('Getting socket from systemd')
    sck = socket.fromfd(
        SYSTEMD_SOCKET_FD + 1,  # Second socket in .socket file
        socket.AF_INET6 if socket.has_ipv6 else socket.AF_INET,
        socket.SOCK_STREAM,
    )
    sck.setblocking(0)
    sck.listen(128)
    sockets = [sck]
else:
    log.info('Binding sockets')
    sockets = bind_sockets(options.socket_port)

log.info('Accepting')
for sck in sockets:
    add_accept_handler(sck, handle_connection)

log.info('Listening')
http_server = SystemdHTTPServer(server)
http_server.listen(options.server_port)

log.info('Starting loop')
IOLoop.current().start()
Exemple #39
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#!/usr/bin/env python
from wdb_server import server
from tornado.ioloop import IOLoop
from tornado.options import options
from wdb_server.sockets import handle_connection
from tornado.netutil import bind_sockets, add_accept_handler
from logging import getLogger


log = getLogger('wdb_server')
log.setLevel(10 if options.debug else 30)


ioloop = IOLoop.instance()

log.debug('Binding sockets')
sockets = bind_sockets(options.socket_port)

log.debug('Accepting')
for socket in sockets:
    add_accept_handler(socket, handle_connection, ioloop)


log.debug('Listening')
server.listen(options.server_port)

log.debug('Starting loop')
ioloop.start()
Exemple #40
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else:
    log.setLevel(WARNING)


ioloop = IOLoop.instance()

if os.getenv('LISTEN_PID'):
    log.info('Getting socket from systemd')
    sck = socket.fromfd(
        SYSTEMD_SOCKET_FD + 1,  # Second socket in .socket file
        socket.AF_INET6 if socket.has_ipv6 else socket.AF_INET,
        socket.SOCK_STREAM)
    sck.setblocking(0)
    sck.listen(128)
    sockets = [sck]
else:
    log.info('Binding sockets')
    sockets = bind_sockets(options.socket_port)

log.info('Accepting')
for sck in sockets:
    add_accept_handler(sck, handle_connection, ioloop)


log.info('Listening')
http_server = SystemdHTTPServer(server)
http_server.listen(options.server_port)

log.info('Starting loop')
ioloop.start()
Exemple #41
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    if options.more:
        log.setLevel(DEBUG)
else:
    log.setLevel(WARNING)

ioloop = IOLoop.instance()

if os.getenv('LISTEN_PID'):
    log.info('Getting socket from systemd')
    sck = socket.fromfd(
        SYSTEMD_SOCKET_FD + 1,  # Second socket in .socket file
        socket.AF_INET6 if socket.has_ipv6 else socket.AF_INET,
        socket.SOCK_STREAM)
    sck.setblocking(0)
    sck.listen(128)
    sockets = [sck]
else:
    log.info('Binding sockets')
    sockets = bind_sockets(options.socket_port)

log.info('Accepting')
for sck in sockets:
    add_accept_handler(sck, handle_connection, ioloop)

log.info('Listening')
http_server = SystemdHTTPServer(server)
http_server.listen(options.server_port)

log.info('Starting loop')
ioloop.start()