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gerrit-public.fairphone.software / platform / external / python / cpython3 / d54fa555cba8bb6d26469a5cc283c468a03f0db8 / . / Lib / test / test_smtplib.py
blob: 2cb0d1ab52b46fc2e3818353e26820036cb75a20 [file] [log] [blame]
import asyncore
import email.mime.text
import email.utils
import socket
import smtpd
import smtplib
import io
import re
import sys
import time
import select
import unittest
from test import support, mock_socket
try:
import threading
except ImportError:
threading = None
HOST = support.HOST
if sys.platform == 'darwin':
# select.poll returns a select.POLLHUP at the end of the tests
# on darwin, so just ignore it
def handle_expt(self):
pass
smtpd.SMTPChannel.handle_expt = handle_expt
def server(evt, buf, serv):
serv.listen(5)
evt.set()
try:
conn, addr = serv.accept()
except socket.timeout:
pass
else:
n = 500
while buf and n > 0:
r, w, e = select.select([], [conn], [])
if w:
sent = conn.send(buf)
buf = buf[sent:]
n -= 1
conn.close()
finally:
serv.close()
evt.set()
class GeneralTests(unittest.TestCase):
def setUp(self):
smtplib.socket = mock_socket
self.port = 25
def tearDown(self):
smtplib.socket = socket
# This method is no longer used but is retained for backward compatibility,
# so test to make sure it still works.
def testQuoteData(self):
teststr = "abc\n.jkl\rfoo\r\n..blue"
expected = "abc\r\n..jkl\r\nfoo\r\n...blue"
self.assertEqual(expected, smtplib.quotedata(teststr))
def testBasic1(self):
mock_socket.reply_with(b"220 Hola mundo")
# connects
smtp = smtplib.SMTP(HOST, self.port)
smtp.close()
def testBasic2(self):
mock_socket.reply_with(b"220 Hola mundo")
# connects, include port in host name
smtp = smtplib.SMTP("%s:%s" % (HOST, self.port))
smtp.close()
def testLocalHostName(self):
mock_socket.reply_with(b"220 Hola mundo")
# check that supplied local_hostname is used
smtp = smtplib.SMTP(HOST, self.port, local_hostname="testhost")
self.assertEqual(smtp.local_hostname, "testhost")
smtp.close()
def testTimeoutDefault(self):
mock_socket.reply_with(b"220 Hola mundo")
self.assertTrue(mock_socket.getdefaulttimeout() is None)
mock_socket.setdefaulttimeout(30)
self.assertEqual(mock_socket.getdefaulttimeout(), 30)
try:
smtp = smtplib.SMTP(HOST, self.port)
finally:
mock_socket.setdefaulttimeout(None)
self.assertEqual(smtp.sock.gettimeout(), 30)
smtp.close()
def testTimeoutNone(self):
mock_socket.reply_with(b"220 Hola mundo")
self.assertTrue(socket.getdefaulttimeout() is None)
socket.setdefaulttimeout(30)
try:
smtp = smtplib.SMTP(HOST, self.port, timeout=None)
finally:
socket.setdefaulttimeout(None)
self.assertTrue(smtp.sock.gettimeout() is None)
smtp.close()
def testTimeoutValue(self):
mock_socket.reply_with(b"220 Hola mundo")
smtp = smtplib.SMTP(HOST, self.port, timeout=30)
self.assertEqual(smtp.sock.gettimeout(), 30)
smtp.close()
# Test server thread using the specified SMTP server class
def debugging_server(serv, serv_evt, client_evt):
serv_evt.set()
try:
if hasattr(select, 'poll'):
poll_fun = asyncore.poll2
else:
poll_fun = asyncore.poll
n = 1000
while asyncore.socket_map and n > 0:
poll_fun(0.01, asyncore.socket_map)
# when the client conversation is finished, it will
# set client_evt, and it's then ok to kill the server
if client_evt.is_set():
serv.close()
break
n -= 1
except socket.timeout:
pass
finally:
if not client_evt.is_set():
# allow some time for the client to read the result
time.sleep(0.5)
serv.close()
asyncore.close_all()
serv_evt.set()
MSG_BEGIN = '---------- MESSAGE FOLLOWS ----------\n'
MSG_END = '------------ END MESSAGE ------------\n'
# NOTE: Some SMTP objects in the tests below are created with a non-default
# local_hostname argument to the constructor, since (on some systems) the FQDN
# lookup caused by the default local_hostname sometimes takes so long that the
# test server times out, causing the test to fail.
# Test behavior of smtpd.DebuggingServer
@unittest.skipUnless(threading, 'Threading required for this test.')
class DebuggingServerTests(unittest.TestCase):
maxDiff = None
def setUp(self):
self.real_getfqdn = socket.getfqdn
socket.getfqdn = mock_socket.getfqdn
# temporarily replace sys.stdout to capture DebuggingServer output
self.old_stdout = sys.stdout
self.output = io.StringIO()
sys.stdout = self.output
self.serv_evt = threading.Event()
self.client_evt = threading.Event()
# Capture SMTPChannel debug output
self.old_DEBUGSTREAM = smtpd.DEBUGSTREAM
smtpd.DEBUGSTREAM = io.StringIO()
# Pick a random unused port by passing 0 for the port number
self.serv = smtpd.DebuggingServer((HOST, 0), ('nowhere', -1))
# Keep a note of what port was assigned
self.port = self.serv.socket.getsockname()[1]
serv_args = (self.serv, self.serv_evt, self.client_evt)
self.thread = threading.Thread(target=debugging_server, args=serv_args)
self.thread.start()
# wait until server thread has assigned a port number
self.serv_evt.wait()
self.serv_evt.clear()
def tearDown(self):
socket.getfqdn = self.real_getfqdn
# indicate that the client is finished
self.client_evt.set()
# wait for the server thread to terminate
self.serv_evt.wait()
self.thread.join()
# restore sys.stdout
sys.stdout = self.old_stdout
# restore DEBUGSTREAM
smtpd.DEBUGSTREAM.close()
smtpd.DEBUGSTREAM = self.old_DEBUGSTREAM
def testBasic(self):
# connect
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.quit()
def testNOOP(self):
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
expected = (250, b'Ok')
self.assertEqual(smtp.noop(), expected)
smtp.quit()
def testRSET(self):
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
expected = (250, b'Ok')
self.assertEqual(smtp.rset(), expected)
smtp.quit()
def testNotImplemented(self):
# EHLO isn't implemented in DebuggingServer
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
expected = (502, b'Error: command "EHLO" not implemented')
self.assertEqual(smtp.ehlo(), expected)
smtp.quit()
def testVRFY(self):
# VRFY isn't implemented in DebuggingServer
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
expected = (502, b'Error: command "VRFY" not implemented')
self.assertEqual(smtp.vrfy('nobody@nowhere.com'), expected)
self.assertEqual(smtp.verify('nobody@nowhere.com'), expected)
smtp.quit()
def testSecondHELO(self):
# check that a second HELO returns a message that it's a duplicate
# (this behavior is specific to smtpd.SMTPChannel)
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.helo()
expected = (503, b'Duplicate HELO/EHLO')
self.assertEqual(smtp.helo(), expected)
smtp.quit()
def testHELP(self):
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
self.assertEqual(smtp.help(), b'Error: command "HELP" not implemented')
smtp.quit()
def testSend(self):
# connect and send mail
m = 'A test message'
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.sendmail('John', 'Sally', m)
# XXX(nnorwitz): this test is flaky and dies with a bad file descriptor
# in asyncore. This sleep might help, but should really be fixed
# properly by using an Event variable.
time.sleep(0.01)
smtp.quit()
self.client_evt.set()
self.serv_evt.wait()
self.output.flush()
mexpect = '%s%s\n%s' % (MSG_BEGIN, m, MSG_END)
self.assertEqual(self.output.getvalue(), mexpect)
def testSendBinary(self):
m = b'A test message'
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.sendmail('John', 'Sally', m)
# XXX (see comment in testSend)
time.sleep(0.01)
smtp.quit()
self.client_evt.set()
self.serv_evt.wait()
self.output.flush()
mexpect = '%s%s\n%s' % (MSG_BEGIN, m.decode('ascii'), MSG_END)
self.assertEqual(self.output.getvalue(), mexpect)
def testSendNeedingDotQuote(self):
# Issue 12283
m = '.A test\n.mes.sage.'
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.sendmail('John', 'Sally', m)
# XXX (see comment in testSend)
time.sleep(0.01)
smtp.quit()
self.client_evt.set()
self.serv_evt.wait()
self.output.flush()
mexpect = '%s%s\n%s' % (MSG_BEGIN, m, MSG_END)
self.assertEqual(self.output.getvalue(), mexpect)
def testSendNullSender(self):
m = 'A test message'
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.sendmail('<>', 'Sally', m)
# XXX (see comment in testSend)
time.sleep(0.01)
smtp.quit()
self.client_evt.set()
self.serv_evt.wait()
self.output.flush()
mexpect = '%s%s\n%s' % (MSG_BEGIN, m, MSG_END)
self.assertEqual(self.output.getvalue(), mexpect)
debugout = smtpd.DEBUGSTREAM.getvalue()
sender = re.compile("^sender: <>$", re.MULTILINE)
self.assertRegex(debugout, sender)
def testSendMessage(self):
m = email.mime.text.MIMEText('A test message')
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.send_message(m, from_addr='John', to_addrs='Sally')
# XXX (see comment in testSend)
time.sleep(0.01)
smtp.quit()
self.client_evt.set()
self.serv_evt.wait()
self.output.flush()
# Add the X-Peer header that DebuggingServer adds
m['X-Peer'] = socket.gethostbyname('localhost')
mexpect = '%s%s\n%s' % (MSG_BEGIN, m.as_string(), MSG_END)
self.assertEqual(self.output.getvalue(), mexpect)
def testSendMessageWithAddresses(self):
m = email.mime.text.MIMEText('A test message')
m['From'] = 'foo@bar.com'
m['To'] = 'John'
m['CC'] = 'Sally, Fred'
m['Bcc'] = 'John Root <root@localhost>, "Dinsdale" <warped@silly.walks.com>'
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.send_message(m)
# XXX (see comment in testSend)
time.sleep(0.01)
smtp.quit()
# make sure the Bcc header is still in the message.
self.assertEqual(m['Bcc'], 'John Root <root@localhost>, "Dinsdale" '
'<warped@silly.walks.com>')
self.client_evt.set()
self.serv_evt.wait()
self.output.flush()
# Add the X-Peer header that DebuggingServer adds
m['X-Peer'] = socket.gethostbyname('localhost')
# The Bcc header should not be transmitted.
del m['Bcc']
mexpect = '%s%s\n%s' % (MSG_BEGIN, m.as_string(), MSG_END)
self.assertEqual(self.output.getvalue(), mexpect)
debugout = smtpd.DEBUGSTREAM.getvalue()
sender = re.compile("^sender: foo@bar.com$", re.MULTILINE)
self.assertRegex(debugout, sender)
for addr in ('John', 'Sally', 'Fred', 'root@localhost',
'warped@silly.walks.com'):
to_addr = re.compile(r"^recips: .*'{}'.*$".format(addr),
re.MULTILINE)
self.assertRegex(debugout, to_addr)
def testSendMessageWithSomeAddresses(self):
# Make sure nothing breaks if not all of the three 'to' headers exist
m = email.mime.text.MIMEText('A test message')
m['From'] = 'foo@bar.com'
m['To'] = 'John, Dinsdale'
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.send_message(m)
# XXX (see comment in testSend)
time.sleep(0.01)
smtp.quit()
self.client_evt.set()
self.serv_evt.wait()
self.output.flush()
# Add the X-Peer header that DebuggingServer adds
m['X-Peer'] = socket.gethostbyname('localhost')
mexpect = '%s%s\n%s' % (MSG_BEGIN, m.as_string(), MSG_END)
self.assertEqual(self.output.getvalue(), mexpect)
debugout = smtpd.DEBUGSTREAM.getvalue()
sender = re.compile("^sender: foo@bar.com$", re.MULTILINE)
self.assertRegex(debugout, sender)
for addr in ('John', 'Dinsdale'):
to_addr = re.compile(r"^recips: .*'{}'.*$".format(addr),
re.MULTILINE)
self.assertRegex(debugout, to_addr)
def testSendMessageWithSpecifiedAddresses(self):
# Make sure addresses specified in call override those in message.
m = email.mime.text.MIMEText('A test message')
m['From'] = 'foo@bar.com'
m['To'] = 'John, Dinsdale'
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.send_message(m, from_addr='joe@example.com', to_addrs='foo@example.net')
# XXX (see comment in testSend)
time.sleep(0.01)
smtp.quit()
self.client_evt.set()
self.serv_evt.wait()
self.output.flush()
# Add the X-Peer header that DebuggingServer adds
m['X-Peer'] = socket.gethostbyname('localhost')
mexpect = '%s%s\n%s' % (MSG_BEGIN, m.as_string(), MSG_END)
self.assertEqual(self.output.getvalue(), mexpect)
debugout = smtpd.DEBUGSTREAM.getvalue()
sender = re.compile("^sender: joe@example.com$", re.MULTILINE)
self.assertRegex(debugout, sender)
for addr in ('John', 'Dinsdale'):
to_addr = re.compile(r"^recips: .*'{}'.*$".format(addr),
re.MULTILINE)
self.assertNotRegex(debugout, to_addr)
recip = re.compile(r"^recips: .*'foo@example.net'.*$", re.MULTILINE)
self.assertRegex(debugout, recip)
def testSendMessageWithMultipleFrom(self):
# Sender overrides To
m = email.mime.text.MIMEText('A test message')
m['From'] = 'Bernard, Bianca'
m['Sender'] = 'the_rescuers@Rescue-Aid-Society.com'
m['To'] = 'John, Dinsdale'
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.send_message(m)
# XXX (see comment in testSend)
time.sleep(0.01)
smtp.quit()
self.client_evt.set()
self.serv_evt.wait()
self.output.flush()
# Add the X-Peer header that DebuggingServer adds
m['X-Peer'] = socket.gethostbyname('localhost')
mexpect = '%s%s\n%s' % (MSG_BEGIN, m.as_string(), MSG_END)
self.assertEqual(self.output.getvalue(), mexpect)
debugout = smtpd.DEBUGSTREAM.getvalue()
sender = re.compile("^sender: the_rescuers@Rescue-Aid-Society.com$", re.MULTILINE)
self.assertRegex(debugout, sender)
for addr in ('John', 'Dinsdale'):
to_addr = re.compile(r"^recips: .*'{}'.*$".format(addr),
re.MULTILINE)
self.assertRegex(debugout, to_addr)
def testSendMessageResent(self):
m = email.mime.text.MIMEText('A test message')
m['From'] = 'foo@bar.com'
m['To'] = 'John'
m['CC'] = 'Sally, Fred'
m['Bcc'] = 'John Root <root@localhost>, "Dinsdale" <warped@silly.walks.com>'
m['Resent-Date'] = 'Thu, 1 Jan 1970 17:42:00 +0000'
m['Resent-From'] = 'holy@grail.net'
m['Resent-To'] = 'Martha <my_mom@great.cooker.com>, Jeff'
m['Resent-Bcc'] = 'doe@losthope.net'
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
smtp.send_message(m)
# XXX (see comment in testSend)
time.sleep(0.01)
smtp.quit()
self.client_evt.set()
self.serv_evt.wait()
self.output.flush()
# The Resent-Bcc headers are deleted before serialization.
del m['Bcc']
del m['Resent-Bcc']
# Add the X-Peer header that DebuggingServer adds
m['X-Peer'] = socket.gethostbyname('localhost')
mexpect = '%s%s\n%s' % (MSG_BEGIN, m.as_string(), MSG_END)
self.assertEqual(self.output.getvalue(), mexpect)
debugout = smtpd.DEBUGSTREAM.getvalue()
sender = re.compile("^sender: holy@grail.net$", re.MULTILINE)
self.assertRegex(debugout, sender)
for addr in ('my_mom@great.cooker.com', 'Jeff', 'doe@losthope.net'):
to_addr = re.compile(r"^recips: .*'{}'.*$".format(addr),
re.MULTILINE)
self.assertRegex(debugout, to_addr)
def testSendMessageMultipleResentRaises(self):
m = email.mime.text.MIMEText('A test message')
m['From'] = 'foo@bar.com'
m['To'] = 'John'
m['CC'] = 'Sally, Fred'
m['Bcc'] = 'John Root <root@localhost>, "Dinsdale" <warped@silly.walks.com>'
m['Resent-Date'] = 'Thu, 1 Jan 1970 17:42:00 +0000'
m['Resent-From'] = 'holy@grail.net'
m['Resent-To'] = 'Martha <my_mom@great.cooker.com>, Jeff'
m['Resent-Bcc'] = 'doe@losthope.net'
m['Resent-Date'] = 'Thu, 2 Jan 1970 17:42:00 +0000'
m['Resent-To'] = 'holy@grail.net'
m['Resent-From'] = 'Martha <my_mom@great.cooker.com>, Jeff'
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=3)
with self.assertRaises(ValueError):
smtp.send_message(m)
smtp.close()
class NonConnectingTests(unittest.TestCase):
def setUp(self):
smtplib.socket = mock_socket
def tearDown(self):
smtplib.socket = socket
def testNotConnected(self):
# Test various operations on an unconnected SMTP object that
# should raise exceptions (at present the attempt in SMTP.send
# to reference the nonexistent 'sock' attribute of the SMTP object
# causes an AttributeError)
smtp = smtplib.SMTP()
self.assertRaises(smtplib.SMTPServerDisconnected, smtp.ehlo)
self.assertRaises(smtplib.SMTPServerDisconnected,
smtp.send, 'test msg')
def testNonnumericPort(self):
# check that non-numeric port raises socket.error
self.assertRaises(mock_socket.error, smtplib.SMTP,
"localhost", "bogus")
self.assertRaises(mock_socket.error, smtplib.SMTP,
"localhost:bogus")
# test response of client to a non-successful HELO message
@unittest.skipUnless(threading, 'Threading required for this test.')
class BadHELOServerTests(unittest.TestCase):
def setUp(self):
smtplib.socket = mock_socket
mock_socket.reply_with(b"199 no hello for you!")
self.old_stdout = sys.stdout
self.output = io.StringIO()
sys.stdout = self.output
self.port = 25
def tearDown(self):
smtplib.socket = socket
sys.stdout = self.old_stdout
def testFailingHELO(self):
self.assertRaises(smtplib.SMTPConnectError, smtplib.SMTP,
HOST, self.port, 'localhost', 3)
sim_users = {'Mr.A@somewhere.com':'John A',
'Ms.B@xn--fo-fka.com':'Sally B',
'Mrs.C@somewhereesle.com':'Ruth C',
}
sim_auth = ('Mr.A@somewhere.com', 'somepassword')
sim_cram_md5_challenge = ('PENCeUxFREJoU0NnbmhNWitOMjNGNn'
'dAZWx3b29kLmlubm9zb2Z0LmNvbT4=')
sim_auth_credentials = {
'login': 'TXIuQUBzb21ld2hlcmUuY29t',
'plain': 'AE1yLkFAc29tZXdoZXJlLmNvbQBzb21lcGFzc3dvcmQ=',
'cram-md5': ('TXIUQUBZB21LD2HLCMUUY29TIDG4OWQ0MJ'
'KWZGQ4ODNMNDA4NTGXMDRLZWMYZJDMODG1'),
}
sim_auth_login_password = 'C29TZXBHC3N3B3JK'
sim_lists = {'list-1':['Mr.A@somewhere.com','Mrs.C@somewhereesle.com'],
'list-2':['Ms.B@xn--fo-fka.com',],
}
# Simulated SMTP channel & server
class SimSMTPChannel(smtpd.SMTPChannel):
def __init__(self, extra_features, *args, **kw):
self._extrafeatures = ''.join(
[ "250-{0}\r\n".format(x) for x in extra_features ])
super(SimSMTPChannel, self).__init__(*args, **kw)
def smtp_EHLO(self, arg):
resp = ('250-testhost\r\n'
'250-EXPN\r\n'
'250-SIZE 20000000\r\n'
'250-STARTTLS\r\n'
'250-DELIVERBY\r\n')
resp = resp + self._extrafeatures + '250 HELP'
self.push(resp)
def smtp_VRFY(self, arg):
# For max compatibility smtplib should be sending the raw address.
if arg in sim_users:
self.push('250 %s %s' % (sim_users[arg], smtplib.quoteaddr(arg)))
else:
self.push('550 No such user: %s' % arg)
def smtp_EXPN(self, arg):
list_name = arg.lower()
if list_name in sim_lists:
user_list = sim_lists[list_name]
for n, user_email in enumerate(user_list):
quoted_addr = smtplib.quoteaddr(user_email)
if n < len(user_list) - 1:
self.push('250-%s %s' % (sim_users[user_email], quoted_addr))
else:
self.push('250 %s %s' % (sim_users[user_email], quoted_addr))
else:
self.push('550 No access for you!')
def smtp_AUTH(self, arg):
if arg.strip().lower()=='cram-md5':
self.push('334 {}'.format(sim_cram_md5_challenge))
return
mech, auth = arg.split()
mech = mech.lower()
if mech not in sim_auth_credentials:
self.push('504 auth type unimplemented')
return
if mech == 'plain' and auth==sim_auth_credentials['plain']:
self.push('235 plain auth ok')
elif mech=='login' and auth==sim_auth_credentials['login']:
self.push('334 Password:')
else:
self.push('550 No access for you!')
def handle_error(self):
raise
class SimSMTPServer(smtpd.SMTPServer):
def __init__(self, *args, **kw):
self._extra_features = []
smtpd.SMTPServer.__init__(self, *args, **kw)
def handle_accepted(self, conn, addr):
self._SMTPchannel = SimSMTPChannel(self._extra_features,
self, conn, addr)
def process_message(self, peer, mailfrom, rcpttos, data):
pass
def add_feature(self, feature):
self._extra_features.append(feature)
def handle_error(self):
raise
# Test various SMTP & ESMTP commands/behaviors that require a simulated server
# (i.e., something with more features than DebuggingServer)
@unittest.skipUnless(threading, 'Threading required for this test.')
class SMTPSimTests(unittest.TestCase):
def setUp(self):
self.real_getfqdn = socket.getfqdn
socket.getfqdn = mock_socket.getfqdn
self.serv_evt = threading.Event()
self.client_evt = threading.Event()
# Pick a random unused port by passing 0 for the port number
self.serv = SimSMTPServer((HOST, 0), ('nowhere', -1))
# Keep a note of what port was assigned
self.port = self.serv.socket.getsockname()[1]
serv_args = (self.serv, self.serv_evt, self.client_evt)
self.thread = threading.Thread(target=debugging_server, args=serv_args)
self.thread.start()
# wait until server thread has assigned a port number
self.serv_evt.wait()
self.serv_evt.clear()
def tearDown(self):
socket.getfqdn = self.real_getfqdn
# indicate that the client is finished
self.client_evt.set()
# wait for the server thread to terminate
self.serv_evt.wait()
self.thread.join()
def testBasic(self):
# smoke test
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=15)
smtp.quit()
def testEHLO(self):
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=15)
# no features should be present before the EHLO
self.assertEqual(smtp.esmtp_features, {})
# features expected from the test server
expected_features = {'expn':'',
'size': '20000000',
'starttls': '',
'deliverby': '',
'help': '',
}
smtp.ehlo()
self.assertEqual(smtp.esmtp_features, expected_features)
for k in expected_features:
self.assertTrue(smtp.has_extn(k))
self.assertFalse(smtp.has_extn('unsupported-feature'))
smtp.quit()
def testVRFY(self):
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=15)
for email, name in sim_users.items():
expected_known = (250, bytes('%s %s' %
(name, smtplib.quoteaddr(email)),
"ascii"))
self.assertEqual(smtp.vrfy(email), expected_known)
u = 'nobody@nowhere.com'
expected_unknown = (550, ('No such user: %s' % u).encode('ascii'))
self.assertEqual(smtp.vrfy(u), expected_unknown)
smtp.quit()
def testEXPN(self):
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=15)
for listname, members in sim_lists.items():
users = []
for m in members:
users.append('%s %s' % (sim_users[m], smtplib.quoteaddr(m)))
expected_known = (250, bytes('\n'.join(users), "ascii"))
self.assertEqual(smtp.expn(listname), expected_known)
u = 'PSU-Members-List'
expected_unknown = (550, b'No access for you!')
self.assertEqual(smtp.expn(u), expected_unknown)
smtp.quit()
def testAUTH_PLAIN(self):
self.serv.add_feature("AUTH PLAIN")
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=15)
expected_auth_ok = (235, b'plain auth ok')
self.assertEqual(smtp.login(sim_auth[0], sim_auth[1]), expected_auth_ok)
smtp.close()
# SimSMTPChannel doesn't fully support LOGIN or CRAM-MD5 auth because they
# require a synchronous read to obtain the credentials...so instead smtpd
# sees the credential sent by smtplib's login method as an unknown command,
# which results in smtplib raising an auth error. Fortunately the error
# message contains the encoded credential, so we can partially check that it
# was generated correctly (partially, because the 'word' is uppercased in
# the error message).
def testAUTH_LOGIN(self):
self.serv.add_feature("AUTH LOGIN")
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=15)
try: smtp.login(sim_auth[0], sim_auth[1])
except smtplib.SMTPAuthenticationError as err:
self.assertIn(sim_auth_login_password, str(err))
smtp.close()
def testAUTH_CRAM_MD5(self):
self.serv.add_feature("AUTH CRAM-MD5")
smtp = smtplib.SMTP(HOST, self.port, local_hostname='localhost', timeout=15)
try: smtp.login(sim_auth[0], sim_auth[1])
except smtplib.SMTPAuthenticationError as err:
self.assertIn(sim_auth_credentials['cram-md5'], str(err))
smtp.close()
#TODO: add tests for correct AUTH method fallback now that the
#test infrastructure can support it.
@support.reap_threads
def test_main(verbose=None):
support.run_unittest(GeneralTests, DebuggingServerTests,
NonConnectingTests,
BadHELOServerTests, SMTPSimTests)
if __name__ == '__main__':
test_main()