from __future__ import absolute_import, division, with_statement from tornado import netutil from tornado.ioloop import IOLoop from tornado.iostream import IOStream from tornado.testing import AsyncHTTPTestCase, LogTrapTestCase, get_unused_port from tornado.util import b from tornado.web import RequestHandler, Application import errno import socket import sys import time class HelloHandler(RequestHandler): def get(self): self.write("Hello") class TestIOStream(AsyncHTTPTestCase, LogTrapTestCase): def get_app(self): return Application([('/', HelloHandler)]) def make_iostream_pair(self, **kwargs): 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, **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 = IOStream(socket.socket(), io_loop=self.io_loop, **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 def test_read_zero_bytes(self): s = socket.socket(socket.AF_INET, socket.SOCK_STREAM, 0) s.connect(("localhost", self.get_http_port())) self.stream = IOStream(s, io_loop=self.io_loop) self.stream.write(b("GET / HTTP/1.0\r\n\r\n")) # normal read self.stream.read_bytes(9, self.stop) data = self.wait() self.assertEqual(data, b("HTTP/1.0 ")) # zero bytes self.stream.read_bytes(0, self.stop) data = self.wait() self.assertEqual(data, b("")) # another normal read self.stream.read_bytes(3, self.stop) data = self.wait() self.assertEqual(data, b("200")) s.close() def test_write_zero_bytes(self): # Attempting to write zero bytes should run the callback without # going into an infinite loop. server, client = self.make_iostream_pair() server.write(b(''), callback=self.stop) self.wait() # As a side effect, the stream is now listening for connection # close (if it wasn't already), but is not listening for writes self.assertEqual(server._state, IOLoop.READ | IOLoop.ERROR) server.close() client.close() def test_connection_refused(self): # When a connection is refused, the connect callback should not # be run. (The kqueue IOLoop used to behave differently from the # epoll IOLoop in this respect) port = get_unused_port() stream = IOStream(socket.socket(), self.io_loop) self.connect_called = False def connect_callback(): self.connect_called = True stream.set_close_callback(self.stop) stream.connect(("localhost", port), connect_callback) self.wait() self.assertFalse(self.connect_called) self.assertTrue(isinstance(stream.error, socket.error), stream.error) if sys.platform != 'cygwin': # cygwin's errnos don't match those used on native windows python self.assertEqual(stream.error.args[0], errno.ECONNREFUSED) def test_gaierror(self): # Test that IOStream sets its exc_info on getaddrinfo error s = socket.socket(socket.AF_INET, socket.SOCK_STREAM, 0) stream = IOStream(s, io_loop=self.io_loop) stream.set_close_callback(self.stop) stream.connect(('adomainthatdoesntexist.asdf', 54321)) self.assertTrue(isinstance(stream.error, socket.gaierror), stream.error) def test_connection_closed(self): # When a server sends a response and then closes the connection, # the client must be allowed to read the data before the IOStream # closes itself. Epoll reports closed connections with a separate # EPOLLRDHUP event delivered at the same time as the read event, # while kqueue reports them as a second read/write event with an EOF # flag. response = self.fetch("/", headers={"Connection": "close"}) response.rethrow() def test_read_until_close(self): s = socket.socket(socket.AF_INET, socket.SOCK_STREAM, 0) s.connect(("localhost", self.get_http_port())) stream = IOStream(s, io_loop=self.io_loop) stream.write(b("GET / HTTP/1.0\r\n\r\n")) stream.read_until_close(self.stop) data = self.wait() self.assertTrue(data.startswith(b("HTTP/1.0 200"))) self.assertTrue(data.endswith(b("Hello"))) def test_streaming_callback(self): server, client = self.make_iostream_pair() try: chunks = [] final_called = [] def streaming_callback(data): chunks.append(data) self.stop() def final_callback(data): assert not data final_called.append(True) self.stop() server.read_bytes(6, callback=final_callback, streaming_callback=streaming_callback) client.write(b("1234")) self.wait(condition=lambda: chunks) client.write(b("5678")) self.wait(condition=lambda: final_called) self.assertEqual(chunks, [b("1234"), b("56")]) # the rest of the last chunk is still in the buffer server.read_bytes(2, callback=self.stop) data = self.wait() self.assertEqual(data, b("78")) finally: server.close() client.close() def test_streaming_until_close(self): server, client = self.make_iostream_pair() try: chunks = [] def callback(data): chunks.append(data) self.stop() client.read_until_close(callback=callback, streaming_callback=callback) server.write(b("1234")) self.wait() server.write(b("5678")) self.wait() server.close() self.wait() self.assertEqual(chunks, [b("1234"), b("5678"), b("")]) finally: server.close() client.close() def test_delayed_close_callback(self): # The scenario: Server closes the connection while there is a pending # read that can be served out of buffered data. The client does not # run the close_callback as soon as it detects the close, but rather # defers it until after the buffered read has finished. server, client = self.make_iostream_pair() try: client.set_close_callback(self.stop) server.write(b("12")) chunks = [] def callback1(data): chunks.append(data) client.read_bytes(1, callback2) server.close() def callback2(data): chunks.append(data) client.read_bytes(1, callback1) self.wait() # stopped by close_callback self.assertEqual(chunks, [b("1"), b("2")]) finally: server.close() client.close() def test_close_buffered_data(self): # Similar to the previous test, but with data stored in the OS's # socket buffers instead of the IOStream's read buffer. Out-of-band # close notifications must be delayed until all data has been # drained into the IOStream buffer. (epoll used to use out-of-band # close events with EPOLLRDHUP, but no longer) # # This depends on the read_chunk_size being smaller than the # OS socket buffer, so make it small. server, client = self.make_iostream_pair(read_chunk_size=256) try: server.write(b("A") * 512) client.read_bytes(256, self.stop) data = self.wait() self.assertEqual(b("A") * 256, data) server.close() # Allow the close to propagate to the client side of the # connection. Using add_callback instead of add_timeout # doesn't seem to work, even with multiple iterations self.io_loop.add_timeout(time.time() + 0.01, self.stop) self.wait() client.read_bytes(256, self.stop) data = self.wait() self.assertEqual(b("A") * 256, data) finally: server.close() client.close() def test_large_read_until(self): # Performance test: read_until used to have a quadratic component # so a read_until of 4MB would take 8 seconds; now it takes 0.25 # seconds. server, client = self.make_iostream_pair() try: NUM_KB = 4096 for i in xrange(NUM_KB): client.write(b("A") * 1024) client.write(b("\r\n")) server.read_until(b("\r\n"), self.stop) data = self.wait() self.assertEqual(len(data), NUM_KB * 1024 + 2) finally: server.close() client.close()