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|
import socket as _orig_sock
from tests import LimitedTestCase, skip_with_pyevent, main, skipped, s2b, skip_if, skip_on_windows
from eventlet import event
from eventlet import greenio
from eventlet import debug
from eventlet.support import get_errno
from eventlet.green import socket
from eventlet.green import time
import errno
import eventlet
import os
import sys
import array
import tempfile, shutil
def bufsized(sock, size=1):
""" Resize both send and receive buffers on a socket.
Useful for testing trampoline. Returns the socket.
>>> import socket
>>> sock = bufsized(socket.socket(socket.AF_INET, socket.SOCK_STREAM))
"""
sock.setsockopt(socket.SOL_SOCKET, socket.SO_SNDBUF, size)
sock.setsockopt(socket.SOL_SOCKET, socket.SO_RCVBUF, size)
return sock
def min_buf_size():
"""Return the minimum buffer size that the platform supports."""
test_sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
test_sock.setsockopt(socket.SOL_SOCKET, socket.SO_SNDBUF, 1)
return test_sock.getsockopt(socket.SOL_SOCKET, socket.SO_SNDBUF)
def using_epoll_hub(_f):
from eventlet.hubs import get_hub
try:
return 'epolls' in type(get_hub()).__module__
except Exception:
return False
class TestGreenSocket(LimitedTestCase):
def assertWriteToClosedFileRaises(self, fd):
if sys.version_info[0]<3:
# 2.x socket._fileobjects are odd: writes don't check
# whether the socket is closed or not, and you get an
# AttributeError during flush if it is closed
fd.write('a')
self.assertRaises(Exception, fd.flush)
else:
# 3.x io write to closed file-like pbject raises ValueError
self.assertRaises(ValueError, fd.write, 'a')
def test_connect_timeout(self):
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.settimeout(0.1)
gs = greenio.GreenSocket(s)
try:
gs.connect(('192.0.2.1', 80))
self.fail("socket.timeout not raised")
except socket.timeout, e:
self.assert_(hasattr(e, 'args'))
self.assertEqual(e.args[0], 'timed out')
except socket.error, e:
# unreachable is also a valid outcome
if not get_errno(e) in (errno.EHOSTUNREACH, errno.ENETUNREACH):
raise
def test_accept_timeout(self):
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.bind(('', 0))
s.listen(50)
s.settimeout(0.1)
gs = greenio.GreenSocket(s)
try:
gs.accept()
self.fail("socket.timeout not raised")
except socket.timeout, e:
self.assert_(hasattr(e, 'args'))
self.assertEqual(e.args[0], 'timed out')
def test_connect_ex_timeout(self):
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.settimeout(0.1)
gs = greenio.GreenSocket(s)
e = gs.connect_ex(('192.0.2.1', 80))
if not e in (errno.EHOSTUNREACH, errno.ENETUNREACH):
self.assertEquals(e, errno.EAGAIN)
def test_recv_timeout(self):
listener = greenio.GreenSocket(socket.socket())
listener.bind(('', 0))
listener.listen(50)
evt = event.Event()
def server():
# accept the connection in another greenlet
sock, addr = listener.accept()
evt.wait()
gt = eventlet.spawn(server)
addr = listener.getsockname()
client = greenio.GreenSocket(socket.socket())
client.settimeout(0.1)
client.connect(addr)
try:
client.recv(8192)
self.fail("socket.timeout not raised")
except socket.timeout, e:
self.assert_(hasattr(e, 'args'))
self.assertEqual(e.args[0], 'timed out')
evt.send()
gt.wait()
def test_recvfrom_timeout(self):
gs = greenio.GreenSocket(
socket.socket(socket.AF_INET, socket.SOCK_DGRAM))
gs.settimeout(.1)
gs.bind(('', 0))
try:
gs.recvfrom(8192)
self.fail("socket.timeout not raised")
except socket.timeout, e:
self.assert_(hasattr(e, 'args'))
self.assertEqual(e.args[0], 'timed out')
def test_recvfrom_into_timeout(self):
buf = array.array('B')
buf.fromstring('\0')
gs = greenio.GreenSocket(
socket.socket(socket.AF_INET, socket.SOCK_DGRAM))
gs.settimeout(.1)
gs.bind(('', 0))
try:
gs.recvfrom_into(buf)
self.fail("socket.timeout not raised")
except socket.timeout, e:
self.assert_(hasattr(e, 'args'))
self.assertEqual(e.args[0], 'timed out')
def test_recv_into_timeout(self):
buf = array.array('B')
buf.fromstring('\0')
listener = greenio.GreenSocket(socket.socket())
listener.bind(('', 0))
listener.listen(50)
evt = event.Event()
def server():
# accept the connection in another greenlet
sock, addr = listener.accept()
evt.wait()
gt = eventlet.spawn(server)
addr = listener.getsockname()
client = greenio.GreenSocket(socket.socket())
client.settimeout(0.1)
client.connect(addr)
try:
client.recv_into(buf)
self.fail("socket.timeout not raised")
except socket.timeout, e:
self.assert_(hasattr(e, 'args'))
self.assertEqual(e.args[0], 'timed out')
evt.send()
gt.wait()
def test_send_timeout(self):
listener = bufsized(eventlet.listen(('', 0)))
evt = event.Event()
def server():
# accept the connection in another greenlet
sock, addr = listener.accept()
sock = bufsized(sock)
evt.wait()
gt = eventlet.spawn(server)
addr = listener.getsockname()
client = bufsized(greenio.GreenSocket(socket.socket()))
client.connect(addr)
try:
client.settimeout(0.00001)
msg = s2b("A")*(100000) # large enough number to overwhelm most buffers
total_sent = 0
# want to exceed the size of the OS buffer so it'll block in a
# single send
for x in range(10):
total_sent += client.send(msg)
self.fail("socket.timeout not raised")
except socket.timeout, e:
self.assert_(hasattr(e, 'args'))
self.assertEqual(e.args[0], 'timed out')
evt.send()
gt.wait()
def test_sendall_timeout(self):
listener = greenio.GreenSocket(socket.socket())
listener.bind(('', 0))
listener.listen(50)
evt = event.Event()
def server():
# accept the connection in another greenlet
sock, addr = listener.accept()
evt.wait()
gt = eventlet.spawn(server)
addr = listener.getsockname()
client = greenio.GreenSocket(socket.socket())
client.settimeout(0.1)
client.connect(addr)
try:
msg = s2b("A")*(8*1024*1024)
# want to exceed the size of the OS buffer so it'll block
client.sendall(msg)
self.fail("socket.timeout not raised")
except socket.timeout, e:
self.assert_(hasattr(e, 'args'))
self.assertEqual(e.args[0], 'timed out')
evt.send()
gt.wait()
def test_close_with_makefile(self):
def accept_close_early(listener):
# verify that the makefile and the socket are truly independent
# by closing the socket prior to using the made file
try:
conn, addr = listener.accept()
fd = conn.makefile('w')
conn.close()
fd.write('hello\n')
fd.close()
self.assertWriteToClosedFileRaises(fd)
self.assertRaises(socket.error, conn.send, s2b('b'))
finally:
listener.close()
def accept_close_late(listener):
# verify that the makefile and the socket are truly independent
# by closing the made file and then sending a character
try:
conn, addr = listener.accept()
fd = conn.makefile('w')
fd.write('hello')
fd.close()
conn.send(s2b('\n'))
conn.close()
self.assertWriteToClosedFileRaises(fd)
self.assertRaises(socket.error, conn.send, s2b('b'))
finally:
listener.close()
def did_it_work(server):
client = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
client.connect(('127.0.0.1', server.getsockname()[1]))
fd = client.makefile()
client.close()
assert fd.readline() == 'hello\n'
assert fd.read() == ''
fd.close()
server = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
server.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR, 1)
server.bind(('0.0.0.0', 0))
server.listen(50)
killer = eventlet.spawn(accept_close_early, server)
did_it_work(server)
killer.wait()
server = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
server.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR, 1)
server.bind(('0.0.0.0', 0))
server.listen(50)
killer = eventlet.spawn(accept_close_late, server)
did_it_work(server)
killer.wait()
def test_del_closes_socket(self):
def accept_once(listener):
# delete/overwrite the original conn
# object, only keeping the file object around
# closing the file object should close everything
try:
conn, addr = listener.accept()
conn = conn.makefile('w')
conn.write('hello\n')
conn.close()
self.assertWriteToClosedFileRaises(conn)
finally:
listener.close()
server = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
server.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR, 1)
server.bind(('127.0.0.1', 0))
server.listen(50)
killer = eventlet.spawn(accept_once, server)
client = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
client.connect(('127.0.0.1', server.getsockname()[1]))
fd = client.makefile()
client.close()
assert fd.read() == 'hello\n'
assert fd.read() == ''
killer.wait()
def test_full_duplex(self):
large_data = s2b('*') * 10 * min_buf_size()
listener = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
listener.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR, 1)
listener.bind(('127.0.0.1', 0))
listener.listen(50)
bufsized(listener)
def send_large(sock):
sock.sendall(large_data)
def read_large(sock):
result = sock.recv(len(large_data))
while len(result) < len(large_data):
result += sock.recv(len(large_data))
self.assertEquals(result, large_data)
def server():
(sock, addr) = listener.accept()
sock = bufsized(sock)
send_large_coro = eventlet.spawn(send_large, sock)
eventlet.sleep(0)
result = sock.recv(10)
expected = s2b('hello world')
while len(result) < len(expected):
result += sock.recv(10)
self.assertEquals(result, expected)
send_large_coro.wait()
server_evt = eventlet.spawn(server)
client = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
client.connect(('127.0.0.1', listener.getsockname()[1]))
bufsized(client)
large_evt = eventlet.spawn(read_large, client)
eventlet.sleep(0)
client.sendall(s2b('hello world'))
server_evt.wait()
large_evt.wait()
client.close()
def test_sendall(self):
# test adapted from Marcus Cavanaugh's email
# it may legitimately take a while, but will eventually complete
self.timer.cancel()
second_bytes = 10
def test_sendall_impl(many_bytes):
bufsize = max(many_bytes//15, 2)
def sender(listener):
(sock, addr) = listener.accept()
sock = bufsized(sock, size=bufsize)
sock.sendall(s2b('x')*many_bytes)
sock.sendall(s2b('y')*second_bytes)
listener = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
listener.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR, 1)
listener.bind(("", 0))
listener.listen(50)
sender_coro = eventlet.spawn(sender, listener)
client = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
client.connect(('127.0.0.1', listener.getsockname()[1]))
bufsized(client, size=bufsize)
total = 0
while total < many_bytes:
data = client.recv(min(many_bytes - total, many_bytes//10))
if not data:
break
total += len(data)
total2 = 0
while total < second_bytes:
data = client.recv(second_bytes)
if not data:
break
total2 += len(data)
sender_coro.wait()
client.close()
for how_many in (1000, 10000, 100000, 1000000):
test_sendall_impl(how_many)
def test_wrap_socket(self):
try:
import ssl
except ImportError:
pass # pre-2.6
else:
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
sock.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR, 1)
sock.bind(('127.0.0.1', 0))
sock.listen(50)
ssl_sock = ssl.wrap_socket(sock)
def test_timeout_and_final_write(self):
# This test verifies that a write on a socket that we've
# stopped listening for doesn't result in an incorrect switch
server = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
server.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR, 1)
server.bind(('127.0.0.1', 0))
server.listen(50)
bound_port = server.getsockname()[1]
def sender(evt):
s2, addr = server.accept()
wrap_wfile = s2.makefile('w')
eventlet.sleep(0.02)
wrap_wfile.write('hi')
s2.close()
evt.send('sent via event')
from eventlet import event
evt = event.Event()
eventlet.spawn(sender, evt)
eventlet.sleep(0) # lets the socket enter accept mode, which
# is necessary for connect to succeed on windows
try:
# try and get some data off of this pipe
# but bail before any is sent
eventlet.Timeout(0.01)
client = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
client.connect(('127.0.0.1', bound_port))
wrap_rfile = client.makefile()
_c = wrap_rfile.read(1)
self.fail()
except eventlet.TimeoutError:
pass
result = evt.wait()
self.assertEquals(result, 'sent via event')
server.close()
client.close()
@skip_with_pyevent
def test_raised_multiple_readers(self):
debug.hub_prevent_multiple_readers(True)
def handle(sock, addr):
sock.recv(1)
sock.sendall("a")
raise eventlet.StopServe()
listener = eventlet.listen(('127.0.0.1', 0))
server = eventlet.spawn(eventlet.serve,
listener,
handle)
def reader(s):
s.recv(1)
s = eventlet.connect(('127.0.0.1', listener.getsockname()[1]))
a = eventlet.spawn(reader, s)
eventlet.sleep(0)
self.assertRaises(RuntimeError, s.recv, 1)
s.sendall('b')
a.wait()
@skip_with_pyevent
@skip_if(using_epoll_hub)
def test_closure(self):
def spam_to_me(address):
sock = eventlet.connect(address)
while True:
try:
sock.sendall('hello world')
except socket.error, e:
if get_errno(e)== errno.EPIPE:
return
raise
server = eventlet.listen(('127.0.0.1', 0))
sender = eventlet.spawn(spam_to_me, server.getsockname())
client, address = server.accept()
server.close()
def reader():
try:
while True:
data = client.recv(1024)
self.assert_(data)
except socket.error, e:
# we get an EBADF because client is closed in the same process
# (but a different greenthread)
if get_errno(e) != errno.EBADF:
raise
def closer():
client.close()
reader = eventlet.spawn(reader)
eventlet.spawn_n(closer)
reader.wait()
sender.wait()
def test_invalid_connection(self):
# find an unused port by creating a socket then closing it
port = eventlet.listen(('127.0.0.1', 0)).getsockname()[1]
self.assertRaises(socket.error, eventlet.connect, ('127.0.0.1', port))
class TestGreenPipe(LimitedTestCase):
@skip_on_windows
def setUp(self):
super(self.__class__, self).setUp()
self.tempdir = tempfile.mkdtemp('_green_pipe_test')
def tearDown(self):
shutil.rmtree(self.tempdir)
super(self.__class__, self).tearDown()
def test_pipe(self):
r,w = os.pipe()
rf = greenio.GreenPipe(r, 'r');
wf = greenio.GreenPipe(w, 'w', 0);
def sender(f, content):
for ch in content:
eventlet.sleep(0.0001)
f.write(ch)
f.close()
one_line = "12345\n";
eventlet.spawn(sender, wf, one_line*5)
for i in xrange(5):
line = rf.readline()
eventlet.sleep(0.01)
self.assertEquals(line, one_line)
self.assertEquals(rf.readline(), '')
def test_pipe_read(self):
# ensure that 'readline' works properly on GreenPipes when data is not
# immediately available (fd is nonblocking, was raising EAGAIN)
# also ensures that readline() terminates on '\n' and '\r\n'
r, w = os.pipe()
r = greenio.GreenPipe(r)
w = greenio.GreenPipe(w, 'w')
def writer():
eventlet.sleep(.1)
w.write('line\n')
w.flush()
w.write('line\r\n')
w.flush()
gt = eventlet.spawn(writer)
eventlet.sleep(0)
line = r.readline()
self.assertEquals(line, 'line\n')
line = r.readline()
self.assertEquals(line, 'line\r\n')
gt.wait()
def test_pipe_writes_large_messages(self):
r, w = os.pipe()
r = greenio.GreenPipe(r)
w = greenio.GreenPipe(w, 'w')
large_message = "".join([1024*chr(i) for i in xrange(65)])
def writer():
w.write(large_message)
w.close()
gt = eventlet.spawn(writer)
for i in xrange(65):
buf = r.read(1024)
expected = 1024*chr(i)
self.assertEquals(buf, expected,
"expected=%r..%r, found=%r..%r iter=%d"
% (expected[:4], expected[-4:], buf[:4], buf[-4:], i))
gt.wait()
def test_seek_on_buffered_pipe(self):
f = greenio.GreenPipe(self.tempdir+"/TestFile", 'w+', 1024)
self.assertEquals(f.tell(),0)
f.seek(0,2)
self.assertEquals(f.tell(),0)
f.write('1234567890')
f.seek(0,2)
self.assertEquals(f.tell(),10)
f.seek(0)
value = f.read(1)
self.assertEqual(value, '1')
self.assertEquals(f.tell(),1)
value = f.read(1)
self.assertEqual(value, '2')
self.assertEquals(f.tell(),2)
f.seek(0, 1)
self.assertEqual(f.readline(), '34567890')
f.seek(0)
self.assertEqual(f.readline(), '1234567890')
f.seek(0, 2)
self.assertEqual(f.readline(), '')
def test_truncate(self):
f = greenio.GreenPipe(self.tempdir+"/TestFile", 'w+', 1024)
f.write('1234567890')
f.truncate(9)
self.assertEquals(f.tell(), 9)
class TestGreenIoLong(LimitedTestCase):
TEST_TIMEOUT=10 # the test here might take a while depending on the OS
@skip_with_pyevent
def test_multiple_readers(self, clibufsize=False):
debug.hub_prevent_multiple_readers(False)
recvsize = 2 * min_buf_size()
sendsize = 10 * recvsize
# test that we can have multiple coroutines reading
# from the same fd. We make no guarantees about which one gets which
# bytes, but they should both get at least some
def reader(sock, results):
while True:
data = sock.recv(recvsize)
if not data:
break
results.append(data)
results1 = []
results2 = []
listener = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
listener.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR, 1)
listener.bind(('127.0.0.1', 0))
listener.listen(50)
def server():
(sock, addr) = listener.accept()
sock = bufsized(sock)
try:
c1 = eventlet.spawn(reader, sock, results1)
c2 = eventlet.spawn(reader, sock, results2)
try:
c1.wait()
c2.wait()
finally:
c1.kill()
c2.kill()
finally:
sock.close()
server_coro = eventlet.spawn(server)
client = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
client.connect(('127.0.0.1', listener.getsockname()[1]))
if clibufsize:
bufsized(client, size=sendsize)
else:
bufsized(client)
client.sendall(s2b('*') * sendsize)
client.close()
server_coro.wait()
listener.close()
self.assert_(len(results1) > 0)
self.assert_(len(results2) > 0)
debug.hub_prevent_multiple_readers()
@skipped # by rdw because it fails but it's not clear how to make it pass
@skip_with_pyevent
def test_multiple_readers2(self):
self.test_multiple_readers(clibufsize=True)
class TestGreenIoStarvation(LimitedTestCase):
# fixme: this doesn't succeed, because of eventlet's predetermined
# ordering. two processes, one with server, one with client eventlets
# might be more reliable?
TEST_TIMEOUT=300 # the test here might take a while depending on the OS
@skipped # by rdw, because it fails but it's not clear how to make it pass
@skip_with_pyevent
def test_server_starvation(self, sendloops=15):
recvsize = 2 * min_buf_size()
sendsize = 10000 * recvsize
results = [[] for i in xrange(5)]
listener = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
listener.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR, 1)
listener.bind(('127.0.0.1', 0))
port = listener.getsockname()[1]
listener.listen(50)
base_time = time.time()
def server(my_results):
(sock, addr) = listener.accept()
datasize = 0
t1 = None
t2 = None
try:
while True:
data = sock.recv(recvsize)
if not t1:
t1 = time.time() - base_time
if not data:
t2 = time.time() - base_time
my_results.append(datasize)
my_results.append((t1,t2))
break
datasize += len(data)
finally:
sock.close()
def client():
pid = os.fork()
if pid:
return pid
client = _orig_sock.socket(socket.AF_INET, socket.SOCK_STREAM)
client.connect(('127.0.0.1', port))
bufsized(client, size=sendsize)
for i in range(sendloops):
client.sendall(s2b('*') * sendsize)
client.close()
os._exit(0)
clients = []
servers = []
for r in results:
servers.append(eventlet.spawn(server, r))
for r in results:
clients.append(client())
for s in servers:
s.wait()
for c in clients:
os.waitpid(c, 0)
listener.close()
# now test that all of the server receive intervals overlap, and
# that there were no errors.
for r in results:
assert len(r) == 2, "length is %d not 2!: %s\n%s" % (len(r), r, results)
assert r[0] == sendsize * sendloops
assert len(r[1]) == 2
assert r[1][0] is not None
assert r[1][1] is not None
starttimes = sorted(r[1][0] for r in results)
endtimes = sorted(r[1][1] for r in results)
runlengths = sorted(r[1][1] - r[1][0] for r in results)
# assert that the last task started before the first task ended
# (our no-starvation condition)
assert starttimes[-1] < endtimes[0], "Not overlapping: starts %s ends %s" % (starttimes, endtimes)
maxstartdiff = starttimes[-1] - starttimes[0]
assert maxstartdiff * 2 < runlengths[0], "Largest difference in starting times more than twice the shortest running time!"
assert runlengths[0] * 2 > runlengths[-1], "Longest runtime more than twice as long as shortest!"
if __name__ == '__main__':
main()
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