cpython/Lib/test/test_asyncio/test_sendfile.py

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"""Tests for sendfile functionality."""
import asyncio
import os
import socket
import sys
import tempfile
import unittest
from asyncio import base_events
from asyncio import constants
from unittest import mock
from test import support
from test.support import socket_helper
from test.test_asyncio import utils as test_utils
try:
import ssl
except ImportError:
ssl = None
def tearDownModule():
asyncio.set_event_loop_policy(None)
class MySendfileProto(asyncio.Protocol):
def __init__(self, loop=None, close_after=0):
self.transport = None
self.state = 'INITIAL'
self.nbytes = 0
if loop is not None:
self.connected = loop.create_future()
self.done = loop.create_future()
self.data = bytearray()
self.close_after = close_after
def connection_made(self, transport):
self.transport = transport
assert self.state == 'INITIAL', self.state
self.state = 'CONNECTED'
if self.connected:
self.connected.set_result(None)
def eof_received(self):
assert self.state == 'CONNECTED', self.state
self.state = 'EOF'
def connection_lost(self, exc):
assert self.state in ('CONNECTED', 'EOF'), self.state
self.state = 'CLOSED'
if self.done:
self.done.set_result(None)
def data_received(self, data):
assert self.state == 'CONNECTED', self.state
self.nbytes += len(data)
self.data.extend(data)
super().data_received(data)
if self.close_after and self.nbytes >= self.close_after:
self.transport.close()
class MyProto(asyncio.Protocol):
def __init__(self, loop):
self.started = False
self.closed = False
self.data = bytearray()
self.fut = loop.create_future()
self.transport = None
def connection_made(self, transport):
self.started = True
self.transport = transport
def data_received(self, data):
self.data.extend(data)
def connection_lost(self, exc):
self.closed = True
self.fut.set_result(None)
async def wait_closed(self):
await self.fut
class SendfileBase:
# 128 KiB plus small unaligned to buffer chunk
DATA = b"SendfileBaseData" * (1024 * 8 + 1)
# Reduce socket buffer size to test on relative small data sets.
BUF_SIZE = 4 * 1024 # 4 KiB
def create_event_loop(self):
raise NotImplementedError
@classmethod
def setUpClass(cls):
with open(support.TESTFN, 'wb') as fp:
fp.write(cls.DATA)
super().setUpClass()
@classmethod
def tearDownClass(cls):
support.unlink(support.TESTFN)
super().tearDownClass()
def setUp(self):
self.file = open(support.TESTFN, 'rb')
self.addCleanup(self.file.close)
self.loop = self.create_event_loop()
self.set_event_loop(self.loop)
super().setUp()
def tearDown(self):
# just in case if we have transport close callbacks
if not self.loop.is_closed():
test_utils.run_briefly(self.loop)
self.doCleanups()
support.gc_collect()
super().tearDown()
def run_loop(self, coro):
return self.loop.run_until_complete(coro)
class SockSendfileMixin(SendfileBase):
@classmethod
def setUpClass(cls):
cls.__old_bufsize = constants.SENDFILE_FALLBACK_READBUFFER_SIZE
constants.SENDFILE_FALLBACK_READBUFFER_SIZE = 1024 * 16
super().setUpClass()
@classmethod
def tearDownClass(cls):
constants.SENDFILE_FALLBACK_READBUFFER_SIZE = cls.__old_bufsize
super().tearDownClass()
def make_socket(self, cleanup=True):
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
sock.setblocking(False)
if cleanup:
self.addCleanup(sock.close)
return sock
def reduce_receive_buffer_size(self, sock):
# Reduce receive socket buffer size to test on relative
# small data sets.
sock.setsockopt(socket.SOL_SOCKET, socket.SO_RCVBUF, self.BUF_SIZE)
def reduce_send_buffer_size(self, sock, transport=None):
# Reduce send socket buffer size to test on relative small data sets.
# On macOS, SO_SNDBUF is reset by connect(). So this method
# should be called after the socket is connected.
sock.setsockopt(socket.SOL_SOCKET, socket.SO_SNDBUF, self.BUF_SIZE)
if transport is not None:
transport.set_write_buffer_limits(high=self.BUF_SIZE)
def prepare_socksendfile(self):
proto = MyProto(self.loop)
port = socket_helper.find_unused_port()
srv_sock = self.make_socket(cleanup=False)
srv_sock.bind((socket_helper.HOST, port))
server = self.run_loop(self.loop.create_server(
lambda: proto, sock=srv_sock))
self.reduce_receive_buffer_size(srv_sock)
sock = self.make_socket()
self.run_loop(self.loop.sock_connect(sock, ('127.0.0.1', port)))
self.reduce_send_buffer_size(sock)
def cleanup():
if proto.transport is not None:
# can be None if the task was cancelled before
# connection_made callback
proto.transport.close()
self.run_loop(proto.wait_closed())
server.close()
self.run_loop(server.wait_closed())
self.addCleanup(cleanup)
return sock, proto
def test_sock_sendfile_success(self):
sock, proto = self.prepare_socksendfile()
ret = self.run_loop(self.loop.sock_sendfile(sock, self.file))
sock.close()
self.run_loop(proto.wait_closed())
self.assertEqual(ret, len(self.DATA))
self.assertEqual(proto.data, self.DATA)
self.assertEqual(self.file.tell(), len(self.DATA))
def test_sock_sendfile_with_offset_and_count(self):
sock, proto = self.prepare_socksendfile()
ret = self.run_loop(self.loop.sock_sendfile(sock, self.file,
1000, 2000))
sock.close()
self.run_loop(proto.wait_closed())
self.assertEqual(proto.data, self.DATA[1000:3000])
self.assertEqual(self.file.tell(), 3000)
self.assertEqual(ret, 2000)
def test_sock_sendfile_zero_size(self):
sock, proto = self.prepare_socksendfile()
with tempfile.TemporaryFile() as f:
ret = self.run_loop(self.loop.sock_sendfile(sock, f,
0, None))
sock.close()
self.run_loop(proto.wait_closed())
self.assertEqual(ret, 0)
self.assertEqual(self.file.tell(), 0)
def test_sock_sendfile_mix_with_regular_send(self):
buf = b"mix_regular_send" * (4 * 1024) # 64 KiB
sock, proto = self.prepare_socksendfile()
self.run_loop(self.loop.sock_sendall(sock, buf))
ret = self.run_loop(self.loop.sock_sendfile(sock, self.file))
self.run_loop(self.loop.sock_sendall(sock, buf))
sock.close()
self.run_loop(proto.wait_closed())
self.assertEqual(ret, len(self.DATA))
expected = buf + self.DATA + buf
self.assertEqual(proto.data, expected)
self.assertEqual(self.file.tell(), len(self.DATA))
class SendfileMixin(SendfileBase):
# Note: sendfile via SSL transport is equal to sendfile fallback
def prepare_sendfile(self, *, is_ssl=False, close_after=0):
port = socket_helper.find_unused_port()
srv_proto = MySendfileProto(loop=self.loop,
close_after=close_after)
if is_ssl:
if not ssl:
self.skipTest("No ssl module")
srv_ctx = test_utils.simple_server_sslcontext()
cli_ctx = test_utils.simple_client_sslcontext()
else:
srv_ctx = None
cli_ctx = None
srv_sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
srv_sock.bind((socket_helper.HOST, port))
server = self.run_loop(self.loop.create_server(
lambda: srv_proto, sock=srv_sock, ssl=srv_ctx))
self.reduce_receive_buffer_size(srv_sock)
if is_ssl:
server_hostname = socket_helper.HOST
else:
server_hostname = None
cli_sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
cli_sock.connect((socket_helper.HOST, port))
cli_proto = MySendfileProto(loop=self.loop)
tr, pr = self.run_loop(self.loop.create_connection(
lambda: cli_proto, sock=cli_sock,
ssl=cli_ctx, server_hostname=server_hostname))
self.reduce_send_buffer_size(cli_sock, transport=tr)
def cleanup():
srv_proto.transport.close()
cli_proto.transport.close()
self.run_loop(srv_proto.done)
self.run_loop(cli_proto.done)
server.close()
self.run_loop(server.wait_closed())
self.addCleanup(cleanup)
return srv_proto, cli_proto
@unittest.skipIf(sys.platform == 'win32', "UDP sockets are not supported")
def test_sendfile_not_supported(self):
tr, pr = self.run_loop(
self.loop.create_datagram_endpoint(
asyncio.DatagramProtocol,
family=socket.AF_INET))
try:
with self.assertRaisesRegex(RuntimeError, "not supported"):
self.run_loop(
self.loop.sendfile(tr, self.file))
self.assertEqual(0, self.file.tell())
finally:
# don't use self.addCleanup because it produces resource warning
tr.close()
def test_sendfile(self):
srv_proto, cli_proto = self.prepare_sendfile()
ret = self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file))
cli_proto.transport.close()
self.run_loop(srv_proto.done)
self.assertEqual(ret, len(self.DATA))
self.assertEqual(srv_proto.nbytes, len(self.DATA))
self.assertEqual(srv_proto.data, self.DATA)
self.assertEqual(self.file.tell(), len(self.DATA))
def test_sendfile_force_fallback(self):
srv_proto, cli_proto = self.prepare_sendfile()
def sendfile_native(transp, file, offset, count):
# to raise SendfileNotAvailableError
return base_events.BaseEventLoop._sendfile_native(
self.loop, transp, file, offset, count)
self.loop._sendfile_native = sendfile_native
ret = self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file))
cli_proto.transport.close()
self.run_loop(srv_proto.done)
self.assertEqual(ret, len(self.DATA))
self.assertEqual(srv_proto.nbytes, len(self.DATA))
self.assertEqual(srv_proto.data, self.DATA)
self.assertEqual(self.file.tell(), len(self.DATA))
def test_sendfile_force_unsupported_native(self):
if sys.platform == 'win32':
if isinstance(self.loop, asyncio.ProactorEventLoop):
self.skipTest("Fails on proactor event loop")
srv_proto, cli_proto = self.prepare_sendfile()
def sendfile_native(transp, file, offset, count):
# to raise SendfileNotAvailableError
return base_events.BaseEventLoop._sendfile_native(
self.loop, transp, file, offset, count)
self.loop._sendfile_native = sendfile_native
with self.assertRaisesRegex(asyncio.SendfileNotAvailableError,
"not supported"):
self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file,
fallback=False))
cli_proto.transport.close()
self.run_loop(srv_proto.done)
self.assertEqual(srv_proto.nbytes, 0)
self.assertEqual(self.file.tell(), 0)
def test_sendfile_ssl(self):
srv_proto, cli_proto = self.prepare_sendfile(is_ssl=True)
ret = self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file))
cli_proto.transport.close()
self.run_loop(srv_proto.done)
self.assertEqual(ret, len(self.DATA))
self.assertEqual(srv_proto.nbytes, len(self.DATA))
self.assertEqual(srv_proto.data, self.DATA)
self.assertEqual(self.file.tell(), len(self.DATA))
def test_sendfile_for_closing_transp(self):
srv_proto, cli_proto = self.prepare_sendfile()
cli_proto.transport.close()
with self.assertRaisesRegex(RuntimeError, "is closing"):
self.run_loop(self.loop.sendfile(cli_proto.transport, self.file))
self.run_loop(srv_proto.done)
self.assertEqual(srv_proto.nbytes, 0)
self.assertEqual(self.file.tell(), 0)
def test_sendfile_pre_and_post_data(self):
srv_proto, cli_proto = self.prepare_sendfile()
PREFIX = b'PREFIX__' * 1024 # 8 KiB
SUFFIX = b'--SUFFIX' * 1024 # 8 KiB
cli_proto.transport.write(PREFIX)
ret = self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file))
cli_proto.transport.write(SUFFIX)
cli_proto.transport.close()
self.run_loop(srv_proto.done)
self.assertEqual(ret, len(self.DATA))
self.assertEqual(srv_proto.data, PREFIX + self.DATA + SUFFIX)
self.assertEqual(self.file.tell(), len(self.DATA))
def test_sendfile_ssl_pre_and_post_data(self):
srv_proto, cli_proto = self.prepare_sendfile(is_ssl=True)
PREFIX = b'zxcvbnm' * 1024
SUFFIX = b'0987654321' * 1024
cli_proto.transport.write(PREFIX)
ret = self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file))
cli_proto.transport.write(SUFFIX)
cli_proto.transport.close()
self.run_loop(srv_proto.done)
self.assertEqual(ret, len(self.DATA))
self.assertEqual(srv_proto.data, PREFIX + self.DATA + SUFFIX)
self.assertEqual(self.file.tell(), len(self.DATA))
def test_sendfile_partial(self):
srv_proto, cli_proto = self.prepare_sendfile()
ret = self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file, 1000, 100))
cli_proto.transport.close()
self.run_loop(srv_proto.done)
self.assertEqual(ret, 100)
self.assertEqual(srv_proto.nbytes, 100)
self.assertEqual(srv_proto.data, self.DATA[1000:1100])
self.assertEqual(self.file.tell(), 1100)
def test_sendfile_ssl_partial(self):
srv_proto, cli_proto = self.prepare_sendfile(is_ssl=True)
ret = self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file, 1000, 100))
cli_proto.transport.close()
self.run_loop(srv_proto.done)
self.assertEqual(ret, 100)
self.assertEqual(srv_proto.nbytes, 100)
self.assertEqual(srv_proto.data, self.DATA[1000:1100])
self.assertEqual(self.file.tell(), 1100)
def test_sendfile_close_peer_after_receiving(self):
srv_proto, cli_proto = self.prepare_sendfile(
close_after=len(self.DATA))
ret = self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file))
cli_proto.transport.close()
self.run_loop(srv_proto.done)
self.assertEqual(ret, len(self.DATA))
self.assertEqual(srv_proto.nbytes, len(self.DATA))
self.assertEqual(srv_proto.data, self.DATA)
self.assertEqual(self.file.tell(), len(self.DATA))
def test_sendfile_ssl_close_peer_after_receiving(self):
srv_proto, cli_proto = self.prepare_sendfile(
is_ssl=True, close_after=len(self.DATA))
ret = self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file))
self.run_loop(srv_proto.done)
self.assertEqual(ret, len(self.DATA))
self.assertEqual(srv_proto.nbytes, len(self.DATA))
self.assertEqual(srv_proto.data, self.DATA)
self.assertEqual(self.file.tell(), len(self.DATA))
def test_sendfile_close_peer_in_the_middle_of_receiving(self):
srv_proto, cli_proto = self.prepare_sendfile(close_after=1024)
with self.assertRaises(ConnectionError):
self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file))
self.run_loop(srv_proto.done)
self.assertTrue(1024 <= srv_proto.nbytes < len(self.DATA),
srv_proto.nbytes)
self.assertTrue(1024 <= self.file.tell() < len(self.DATA),
self.file.tell())
self.assertTrue(cli_proto.transport.is_closing())
def test_sendfile_fallback_close_peer_in_the_middle_of_receiving(self):
def sendfile_native(transp, file, offset, count):
# to raise SendfileNotAvailableError
return base_events.BaseEventLoop._sendfile_native(
self.loop, transp, file, offset, count)
self.loop._sendfile_native = sendfile_native
srv_proto, cli_proto = self.prepare_sendfile(close_after=1024)
with self.assertRaises(ConnectionError):
self.run_loop(
self.loop.sendfile(cli_proto.transport, self.file))
self.run_loop(srv_proto.done)
self.assertTrue(1024 <= srv_proto.nbytes < len(self.DATA),
srv_proto.nbytes)
self.assertTrue(1024 <= self.file.tell() < len(self.DATA),
self.file.tell())
@unittest.skipIf(not hasattr(os, 'sendfile'),
"Don't have native sendfile support")
def test_sendfile_prevents_bare_write(self):
srv_proto, cli_proto = self.prepare_sendfile()
fut = self.loop.create_future()
async def coro():
fut.set_result(None)
return await self.loop.sendfile(cli_proto.transport, self.file)
t = self.loop.create_task(coro())
self.run_loop(fut)
with self.assertRaisesRegex(RuntimeError,
"sendfile is in progress"):
cli_proto.transport.write(b'data')
ret = self.run_loop(t)
self.assertEqual(ret, len(self.DATA))
def test_sendfile_no_fallback_for_fallback_transport(self):
transport = mock.Mock()
transport.is_closing.side_effect = lambda: False
transport._sendfile_compatible = constants._SendfileMode.FALLBACK
with self.assertRaisesRegex(RuntimeError, 'fallback is disabled'):
self.loop.run_until_complete(
self.loop.sendfile(transport, None, fallback=False))
class SendfileTestsBase(SendfileMixin, SockSendfileMixin):
pass
if sys.platform == 'win32':
class SelectEventLoopTests(SendfileTestsBase,
test_utils.TestCase):
def create_event_loop(self):
return asyncio.SelectorEventLoop()
class ProactorEventLoopTests(SendfileTestsBase,
test_utils.TestCase):
def create_event_loop(self):
return asyncio.ProactorEventLoop()
else:
import selectors
if hasattr(selectors, 'KqueueSelector'):
class KqueueEventLoopTests(SendfileTestsBase,
test_utils.TestCase):
def create_event_loop(self):
return asyncio.SelectorEventLoop(
selectors.KqueueSelector())
if hasattr(selectors, 'EpollSelector'):
class EPollEventLoopTests(SendfileTestsBase,
test_utils.TestCase):
def create_event_loop(self):
return asyncio.SelectorEventLoop(selectors.EpollSelector())
if hasattr(selectors, 'PollSelector'):
class PollEventLoopTests(SendfileTestsBase,
test_utils.TestCase):
def create_event_loop(self):
return asyncio.SelectorEventLoop(selectors.PollSelector())
# Should always exist.
class SelectEventLoopTests(SendfileTestsBase,
test_utils.TestCase):
def create_event_loop(self):
return asyncio.SelectorEventLoop(selectors.SelectSelector())