cpython/Lib/test/test_email.py

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# Copyright (C) 2001 Python Software Foundation
# email package unit tests
import os
import time
import unittest
import base64
from cStringIO import StringIO
from types import StringType
import email
from email.Parser import Parser, HeaderParser
from email.Generator import Generator, DecodedGenerator
from email.Message import Message
from email.MIMEAudio import MIMEAudio
from email.MIMEText import MIMEText
from email.MIMEImage import MIMEImage
from email.MIMEBase import MIMEBase
from email.MIMEMessage import MIMEMessage
from email import Utils
from email import Errors
from email import Encoders
from email import Iterators
import test_email
from test_support import findfile
NL = '\n'
EMPTYSTRING = ''
SPACE = ' '
def openfile(filename):
path = os.path.join(os.path.dirname(test_email.__file__), 'data', filename)
return open(path)
# Base test class
class TestEmailBase(unittest.TestCase):
def _msgobj(self, filename):
fp = openfile(filename)
try:
msg = email.message_from_file(fp)
finally:
fp.close()
return msg
# Test various aspects of the Message class's API
class TestMessageAPI(TestEmailBase):
def test_get_all(self):
eq = self.assertEqual
msg = self._msgobj('msg_20.txt')
eq(msg.get_all('cc'), ['ccc@zzz.org', 'ddd@zzz.org', 'eee@zzz.org'])
eq(msg.get_all('xx', 'n/a'), 'n/a')
def test_get_charsets(self):
eq = self.assertEqual
msg = self._msgobj('msg_08.txt')
charsets = msg.get_charsets()
eq(charsets, [None, 'us-ascii', 'iso-8859-1', 'iso-8859-2', 'koi8-r'])
msg = self._msgobj('msg_09.txt')
charsets = msg.get_charsets('dingbat')
eq(charsets, ['dingbat', 'us-ascii', 'iso-8859-1', 'dingbat',
'koi8-r'])
msg = self._msgobj('msg_12.txt')
charsets = msg.get_charsets()
eq(charsets, [None, 'us-ascii', 'iso-8859-1', None, 'iso-8859-2',
'iso-8859-3', 'us-ascii', 'koi8-r'])
def test_get_filename(self):
eq = self.assertEqual
msg = self._msgobj('msg_04.txt')
filenames = [p.get_filename() for p in msg.get_payload()]
eq(filenames, ['msg.txt', 'msg.txt'])
msg = self._msgobj('msg_07.txt')
subpart = msg.get_payload(1)
eq(subpart.get_filename(), 'dingusfish.gif')
def test_get_boundary(self):
eq = self.assertEqual
msg = self._msgobj('msg_07.txt')
# No quotes!
eq(msg.get_boundary(), 'BOUNDARY')
def test_set_boundary(self):
eq = self.assertEqual
# This one has no existing boundary parameter, but the Content-Type:
# header appears fifth.
msg = self._msgobj('msg_01.txt')
msg.set_boundary('BOUNDARY')
header, value = msg.items()[4]
eq(header.lower(), 'content-type')
eq(value, 'text/plain; charset=us-ascii; boundary="BOUNDARY"')
# This one has a Content-Type: header, with a boundary, stuck in the
# middle of its headers. Make sure the order is preserved; it should
# be fifth.
msg = self._msgobj('msg_04.txt')
msg.set_boundary('BOUNDARY')
header, value = msg.items()[4]
eq(header.lower(), 'content-type')
eq(value, 'multipart/mixed; boundary="BOUNDARY"')
# And this one has no Content-Type: header at all.
msg = self._msgobj('msg_03.txt')
self.assertRaises(Errors.HeaderParseError,
msg.set_boundary, 'BOUNDARY')
def test_get_decoded_payload(self):
eq = self.assertEqual
msg = self._msgobj('msg_10.txt')
# The outer message is a multipart
eq(msg.get_payload(decode=1), None)
# Subpart 1 is 7bit encoded
eq(msg.get_payload(0).get_payload(decode=1),
'This is a 7bit encoded message.\n')
# Subpart 2 is quopri
eq(msg.get_payload(1).get_payload(decode=1),
'\xa1This is a Quoted Printable encoded message!\n')
# Subpart 3 is base64
eq(msg.get_payload(2).get_payload(decode=1),
'This is a Base64 encoded message.')
# Subpart 4 has no Content-Transfer-Encoding: header.
eq(msg.get_payload(3).get_payload(decode=1),
'This has no Content-Transfer-Encoding: header.\n')
def test_decoded_generator(self):
eq = self.assertEqual
msg = self._msgobj('msg_07.txt')
fp = openfile('msg_17.txt')
try:
text = fp.read()
finally:
fp.close()
s = StringIO()
g = DecodedGenerator(s)
g(msg)
eq(s.getvalue(), text)
def test__contains__(self):
msg = Message()
msg['From'] = 'Me'
msg['to'] = 'You'
# Check for case insensitivity
self.failUnless('from' in msg)
self.failUnless('From' in msg)
self.failUnless('FROM' in msg)
self.failUnless('to' in msg)
self.failUnless('To' in msg)
self.failUnless('TO' in msg)
def test_as_string(self):
eq = self.assertEqual
msg = self._msgobj('msg_01.txt')
fp = openfile('msg_01.txt')
try:
text = fp.read()
finally:
fp.close()
eq(text, msg.as_string())
fullrepr = str(msg)
lines = fullrepr.split('\n')
self.failUnless(lines[0].startswith('From '))
eq(text, NL.join(lines[1:]))
def test_bad_param(self):
msg = email.message_from_string("Content-Type: blarg; baz; boo\n")
self.assertEqual(msg.get_param('baz'), '')
def test_missing_filename(self):
msg = email.message_from_string("From: foo\n")
self.assertEqual(msg.get_filename(), None)
def test_bogus_filename(self):
msg = email.message_from_string(
"Content-Disposition: blarg; filename\n")
self.assertEqual(msg.get_filename(), '')
def test_missing_boundary(self):
msg = email.message_from_string("From: foo\n")
self.assertEqual(msg.get_boundary(), None)
def test_get_params(self):
eq = self.assertEqual
msg = email.message_from_string(
'X-Header: foo=one; bar=two; baz=three\n')
eq(msg.get_params(header='x-header'),
[('foo', 'one'), ('bar', 'two'), ('baz', 'three')])
msg = email.message_from_string(
'X-Header: foo; bar=one; baz=two\n')
eq(msg.get_params(header='x-header'),
[('foo', ''), ('bar', 'one'), ('baz', 'two')])
eq(msg.get_params(), None)
msg = email.message_from_string(
'X-Header: foo; bar="one"; baz=two\n')
eq(msg.get_params(header='x-header'),
[('foo', ''), ('bar', 'one'), ('baz', 'two')])
def test_get_param(self):
eq = self.assertEqual
msg = email.message_from_string(
"X-Header: foo=one; bar=two; baz=three\n")
eq(msg.get_param('bar', header='x-header'), 'two')
eq(msg.get_param('quuz', header='x-header'), None)
eq(msg.get_param('quuz'), None)
msg = email.message_from_string(
'X-Header: foo; bar="one"; baz=two\n')
eq(msg.get_param('foo', header='x-header'), '')
eq(msg.get_param('bar', header='x-header'), 'one')
eq(msg.get_param('baz', header='x-header'), 'two')
def test_get_param_funky_continuation_lines(self):
msg = self._msgobj('msg_22.txt')
self.assertEqual(msg.get_payload(1).get_param('name'), 'wibble.JPG')
def test_has_key(self):
msg = email.message_from_string('Header: exists')
self.failUnless(msg.has_key('header'))
self.failUnless(msg.has_key('Header'))
self.failUnless(msg.has_key('HEADER'))
self.failIf(msg.has_key('headeri'))
# Test the email.Encoders module
class TestEncoders(unittest.TestCase):
def test_encode_noop(self):
eq = self.assertEqual
msg = MIMEText('hello world', _encoder=Encoders.encode_noop)
eq(msg.get_payload(), 'hello world\n')
eq(msg['content-transfer-encoding'], None)
def test_encode_7bit(self):
eq = self.assertEqual
msg = MIMEText('hello world', _encoder=Encoders.encode_7or8bit)
eq(msg.get_payload(), 'hello world\n')
eq(msg['content-transfer-encoding'], '7bit')
msg = MIMEText('hello \x7f world', _encoder=Encoders.encode_7or8bit)
eq(msg.get_payload(), 'hello \x7f world\n')
eq(msg['content-transfer-encoding'], '7bit')
def test_encode_8bit(self):
eq = self.assertEqual
msg = MIMEText('hello \x80 world', _encoder=Encoders.encode_7or8bit)
eq(msg.get_payload(), 'hello \x80 world\n')
eq(msg['content-transfer-encoding'], '8bit')
def test_encode_base64(self):
eq = self.assertEqual
msg = MIMEText('hello world', _encoder=Encoders.encode_base64)
eq(msg.get_payload(), 'aGVsbG8gd29ybGQK\n')
eq(msg['content-transfer-encoding'], 'base64')
def test_encode_quoted_printable(self):
eq = self.assertEqual
msg = MIMEText('hello world', _encoder=Encoders.encode_quopri)
eq(msg.get_payload(), 'hello=20world\n')
eq(msg['content-transfer-encoding'], 'quoted-printable')
# Test long header wrapping
class TestLongHeaders(unittest.TestCase):
def test_header_splitter(self):
msg = MIMEText('')
# It'd be great if we could use add_header() here, but that doesn't
# guarantee an order of the parameters.
msg['X-Foobar-Spoink-Defrobnit'] = (
'wasnipoop; giraffes="very-long-necked-animals"; '
'spooge="yummy"; hippos="gargantuan"; marshmallows="gooey"')
sfp = StringIO()
g = Generator(sfp)
g(msg)
self.assertEqual(sfp.getvalue(), openfile('msg_18.txt').read())
def test_no_semis_header_splitter(self):
msg = Message()
msg['From'] = 'test@dom.ain'
refparts = []
for i in range(10):
refparts.append('<%d@dom.ain>' % i)
msg['References'] = SPACE.join(refparts)
msg.set_payload('Test')
sfp = StringIO()
g = Generator(sfp)
g(msg)
self.assertEqual(sfp.getvalue(), """\
From: test@dom.ain
References: <0@dom.ain> <1@dom.ain> <2@dom.ain> <3@dom.ain> <4@dom.ain>
\t<5@dom.ain> <6@dom.ain> <7@dom.ain> <8@dom.ain> <9@dom.ain>
Test""")
def test_no_split_long_header(self):
msg = Message()
msg['From'] = 'test@dom.ain'
refparts = []
msg['References'] = 'x' * 80
msg.set_payload('Test')
sfp = StringIO()
g = Generator(sfp)
g(msg)
self.assertEqual(sfp.getvalue(), """\
From: test@dom.ain
References: xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
Test""")
# Test mangling of "From " lines in the body of a message
class TestFromMangling(unittest.TestCase):
def setUp(self):
self.msg = Message()
self.msg['From'] = 'aaa@bbb.org'
self.msg.add_payload("""\
From the desk of A.A.A.:
Blah blah blah
""")
def test_mangled_from(self):
s = StringIO()
g = Generator(s, mangle_from_=1)
g(self.msg)
self.assertEqual(s.getvalue(), """\
From: aaa@bbb.org
>From the desk of A.A.A.:
Blah blah blah
""")
def test_dont_mangle_from(self):
s = StringIO()
g = Generator(s, mangle_from_=0)
g(self.msg)
self.assertEqual(s.getvalue(), """\
From: aaa@bbb.org
From the desk of A.A.A.:
Blah blah blah
""")
# Test the basic MIMEAudio class
class TestMIMEAudio(unittest.TestCase):
def setUp(self):
# In Python, audiotest.au lives in Lib/test not Lib/test/data
fp = open(findfile('audiotest.au'))
try:
self._audiodata = fp.read()
finally:
fp.close()
self._au = MIMEAudio(self._audiodata)
def test_guess_minor_type(self):
self.assertEqual(self._au.get_type(), 'audio/basic')
def test_encoding(self):
payload = self._au.get_payload()
self.assertEqual(base64.decodestring(payload), self._audiodata)
def checkSetMinor(self):
au = MIMEAudio(self._audiodata, 'fish')
self.assertEqual(im.get_type(), 'audio/fish')
def test_custom_encoder(self):
eq = self.assertEqual
def encoder(msg):
orig = msg.get_payload()
msg.set_payload(0)
msg['Content-Transfer-Encoding'] = 'broken64'
au = MIMEAudio(self._audiodata, _encoder=encoder)
eq(au.get_payload(), 0)
eq(au['content-transfer-encoding'], 'broken64')
def test_add_header(self):
eq = self.assertEqual
unless = self.failUnless
self._au.add_header('Content-Disposition', 'attachment',
filename='audiotest.au')
eq(self._au['content-disposition'],
'attachment; filename="audiotest.au"')
eq(self._au.get_params(header='content-disposition'),
[('attachment', ''), ('filename', 'audiotest.au')])
eq(self._au.get_param('filename', header='content-disposition'),
'audiotest.au')
missing = []
eq(self._au.get_param('attachment', header='content-disposition'), '')
unless(self._au.get_param('foo', failobj=missing,
header='content-disposition') is missing)
# Try some missing stuff
unless(self._au.get_param('foobar', missing) is missing)
unless(self._au.get_param('attachment', missing,
header='foobar') is missing)
# Test the basic MIMEImage class
class TestMIMEImage(unittest.TestCase):
def setUp(self):
fp = openfile('PyBanner048.gif')
try:
self._imgdata = fp.read()
finally:
fp.close()
self._im = MIMEImage(self._imgdata)
def test_guess_minor_type(self):
self.assertEqual(self._im.get_type(), 'image/gif')
def test_encoding(self):
payload = self._im.get_payload()
self.assertEqual(base64.decodestring(payload), self._imgdata)
def checkSetMinor(self):
im = MIMEImage(self._imgdata, 'fish')
self.assertEqual(im.get_type(), 'image/fish')
def test_custom_encoder(self):
eq = self.assertEqual
def encoder(msg):
orig = msg.get_payload()
msg.set_payload(0)
msg['Content-Transfer-Encoding'] = 'broken64'
im = MIMEImage(self._imgdata, _encoder=encoder)
eq(im.get_payload(), 0)
eq(im['content-transfer-encoding'], 'broken64')
def test_add_header(self):
eq = self.assertEqual
unless = self.failUnless
self._im.add_header('Content-Disposition', 'attachment',
filename='dingusfish.gif')
eq(self._im['content-disposition'],
'attachment; filename="dingusfish.gif"')
eq(self._im.get_params(header='content-disposition'),
[('attachment', ''), ('filename', 'dingusfish.gif')])
eq(self._im.get_param('filename', header='content-disposition'),
'dingusfish.gif')
missing = []
eq(self._im.get_param('attachment', header='content-disposition'), '')
unless(self._im.get_param('foo', failobj=missing,
header='content-disposition') is missing)
# Try some missing stuff
unless(self._im.get_param('foobar', missing) is missing)
unless(self._im.get_param('attachment', missing,
header='foobar') is missing)
# Test the basic MIMEText class
class TestMIMEText(unittest.TestCase):
def setUp(self):
self._msg = MIMEText('hello there')
def test_types(self):
eq = self.assertEqual
unless = self.failUnless
eq(self._msg.get_type(), 'text/plain')
eq(self._msg.get_param('charset'), 'us-ascii')
missing = []
unless(self._msg.get_param('foobar', missing) is missing)
unless(self._msg.get_param('charset', missing, header='foobar')
is missing)
def test_payload(self):
self.assertEqual(self._msg.get_payload(), 'hello there\n')
self.failUnless(not self._msg.is_multipart())
# Test a more complicated multipart/mixed type message
class TestMultipartMixed(unittest.TestCase):
def setUp(self):
fp = openfile('PyBanner048.gif')
try:
data = fp.read()
finally:
fp.close()
container = MIMEBase('multipart', 'mixed', boundary='BOUNDARY')
image = MIMEImage(data, name='dingusfish.gif')
image.add_header('content-disposition', 'attachment',
filename='dingusfish.gif')
intro = MIMEText('''\
Hi there,
This is the dingus fish.
''')
container.add_payload(intro)
container.add_payload(image)
container['From'] = 'Barry <barry@digicool.com>'
container['To'] = 'Dingus Lovers <cravindogs@cravindogs.com>'
container['Subject'] = 'Here is your dingus fish'
now = 987809702.54848599
timetuple = time.localtime(now)
if timetuple[-1] == 0:
tzsecs = time.timezone
else:
tzsecs = time.altzone
if tzsecs > 0:
sign = '-'
else:
sign = '+'
tzoffset = ' %s%04d' % (sign, tzsecs / 36)
container['Date'] = time.strftime(
'%a, %d %b %Y %H:%M:%S',
time.localtime(now)) + tzoffset
self._msg = container
self._im = image
self._txt = intro
def test_hierarchy(self):
# convenience
eq = self.assertEqual
unless = self.failUnless
raises = self.assertRaises
# tests
m = self._msg
unless(m.is_multipart())
eq(m.get_type(), 'multipart/mixed')
eq(len(m.get_payload()), 2)
raises(IndexError, m.get_payload, 2)
m0 = m.get_payload(0)
m1 = m.get_payload(1)
unless(m0 is self._txt)
unless(m1 is self._im)
eq(m.get_payload(), [m0, m1])
unless(not m0.is_multipart())
unless(not m1.is_multipart())
# Test some badly formatted messages
class TestNonConformant(TestEmailBase):
def test_parse_missing_minor_type(self):
eq = self.assertEqual
msg = self._msgobj('msg_14.txt')
eq(msg.get_type(), 'text')
eq(msg.get_main_type(), 'text')
self.failUnless(msg.get_subtype() is None)
def test_bogus_boundary(self):
fp = openfile('msg_15.txt')
try:
data = fp.read()
finally:
fp.close()
p = Parser()
# Note, under a future non-strict parsing mode, this would parse the
# message into the intended message tree.
self.assertRaises(Errors.BoundaryError, p.parsestr, data)
# Test RFC 2047 header encoding and decoding
class TestRFC2047(unittest.TestCase):
def test_iso_8859_1(self):
eq = self.assertEqual
s = '=?iso-8859-1?q?this=20is=20some=20text?='
eq(Utils.decode(s), 'this is some text')
s = '=?ISO-8859-1?Q?Keld_J=F8rn_Simonsen?='
eq(Utils.decode(s), u'Keld_J\xf8rn_Simonsen')
s = '=?ISO-8859-1?B?SWYgeW91IGNhbiByZWFkIHRoaXMgeW8=?=' \
'=?ISO-8859-2?B?dSB1bmRlcnN0YW5kIHRoZSBleGFtcGxlLg==?='
eq(Utils.decode(s), 'If you can read this you understand the example.')
s = '=?iso-8859-8?b?7eXs+SDv4SDp7Oj08A==?='
eq(Utils.decode(s),
u'\u05dd\u05d5\u05dc\u05e9 \u05df\u05d1 \u05d9\u05dc\u05d8\u05e4\u05e0')
s = '=?iso-8859-1?q?this=20is?= =?iso-8859-1?q?some=20text?='
eq(Utils.decode(s), u'this is some text')
def test_encode_header(self):
eq = self.assertEqual
s = 'this is some text'
eq(Utils.encode(s), '=?iso-8859-1?q?this=20is=20some=20text?=')
s = 'Keld_J\xf8rn_Simonsen'
eq(Utils.encode(s), '=?iso-8859-1?q?Keld_J=F8rn_Simonsen?=')
s1 = 'If you can read this yo'
s2 = 'u understand the example.'
eq(Utils.encode(s1, encoding='b'),
'=?iso-8859-1?b?SWYgeW91IGNhbiByZWFkIHRoaXMgeW8=?=')
eq(Utils.encode(s2, charset='iso-8859-2', encoding='b'),
'=?iso-8859-2?b?dSB1bmRlcnN0YW5kIHRoZSBleGFtcGxlLg==?=')
# Test the MIMEMessage class
class TestMIMEMessage(TestEmailBase):
def setUp(self):
fp = openfile('msg_11.txt')
self._text = fp.read()
fp.close()
def test_type_error(self):
self.assertRaises(TypeError, MIMEMessage, 'a plain string')
def test_valid_argument(self):
eq = self.assertEqual
subject = 'A sub-message'
m = Message()
m['Subject'] = subject
r = MIMEMessage(m)
eq(r.get_type(), 'message/rfc822')
self.failUnless(r.get_payload() is m)
eq(r.get_payload()['subject'], subject)
def test_generate(self):
# First craft the message to be encapsulated
m = Message()
m['Subject'] = 'An enclosed message'
m.add_payload('Here is the body of the message.\n')
r = MIMEMessage(m)
r['Subject'] = 'The enclosing message'
s = StringIO()
g = Generator(s)
g(r)
self.assertEqual(s.getvalue(), """\
Content-Type: message/rfc822
MIME-Version: 1.0
Subject: The enclosing message
Subject: An enclosed message
Here is the body of the message.
""")
def test_parse_message_rfc822(self):
eq = self.assertEqual
msg = self._msgobj('msg_11.txt')
eq(msg.get_type(), 'message/rfc822')
eq(len(msg.get_payload()), 1)
submsg = msg.get_payload()
self.failUnless(isinstance(submsg, Message))
eq(submsg['subject'], 'An enclosed message')
eq(submsg.get_payload(), 'Here is the body of the message.\n')
def test_dsn(self):
eq = self.assertEqual
unless = self.failUnless
# msg 16 is a Delivery Status Notification, see RFC XXXX
msg = self._msgobj('msg_16.txt')
eq(msg.get_type(), 'multipart/report')
unless(msg.is_multipart())
eq(len(msg.get_payload()), 3)
# Subpart 1 is a text/plain, human readable section
subpart = msg.get_payload(0)
eq(subpart.get_type(), 'text/plain')
eq(subpart.get_payload(), """\
This report relates to a message you sent with the following header fields:
Message-id: <002001c144a6$8752e060$56104586@oxy.edu>
Date: Sun, 23 Sep 2001 20:10:55 -0700
From: "Ian T. Henry" <henryi@oxy.edu>
To: SoCal Raves <scr@socal-raves.org>
Subject: [scr] yeah for Ians!!
Your message cannot be delivered to the following recipients:
Recipient address: jangel1@cougar.noc.ucla.edu
Reason: recipient reached disk quota
""")
# Subpart 2 contains the machine parsable DSN information. It
# consists of two blocks of headers, represented by two nested Message
# objects.
subpart = msg.get_payload(1)
eq(subpart.get_type(), 'message/delivery-status')
eq(len(subpart.get_payload()), 2)
# message/delivery-status should treat each block as a bunch of
# headers, i.e. a bunch of Message objects.
dsn1 = subpart.get_payload(0)
unless(isinstance(dsn1, Message))
eq(dsn1['original-envelope-id'], '0GK500B4HD0888@cougar.noc.ucla.edu')
eq(dsn1.get_param('dns', header='reporting-mta'), '')
# Try a missing one <wink>
eq(dsn1.get_param('nsd', header='reporting-mta'), None)
dsn2 = subpart.get_payload(1)
unless(isinstance(dsn2, Message))
eq(dsn2['action'], 'failed')
eq(dsn2.get_params(header='original-recipient'),
[('rfc822', ''), ('jangel1@cougar.noc.ucla.edu', '')])
eq(dsn2.get_param('rfc822', header='final-recipient'), '')
# Subpart 3 is the original message
subpart = msg.get_payload(2)
eq(subpart.get_type(), 'message/rfc822')
subsubpart = subpart.get_payload()
unless(isinstance(subsubpart, Message))
eq(subsubpart.get_type(), 'text/plain')
eq(subsubpart['message-id'],
'<002001c144a6$8752e060$56104586@oxy.edu>')
def test_epilogue(self):
fp = openfile('msg_21.txt')
try:
text = fp.read()
finally:
fp.close()
msg = Message()
msg['From'] = 'aperson@dom.ain'
msg['To'] = 'bperson@dom.ain'
msg['Subject'] = 'Test'
msg.preamble = 'MIME message\n'
msg.epilogue = 'End of MIME message\n'
msg1 = MIMEText('One')
msg2 = MIMEText('Two')
msg.add_header('Content-Type', 'multipart/mixed', boundary='BOUNDARY')
msg.add_payload(msg1)
msg.add_payload(msg2)
sfp = StringIO()
g = Generator(sfp)
g(msg)
self.assertEqual(sfp.getvalue(), text)
# A general test of parser->model->generator idempotency. IOW, read a message
# in, parse it into a message object tree, then without touching the tree,
# regenerate the plain text. The original text and the transformed text
# should be identical. Note: that we ignore the Unix-From since that may
# contain a changed date.
class TestIdempotent(unittest.TestCase):
def _msgobj(self, filename):
fp = openfile(filename)
try:
data = fp.read()
finally:
fp.close()
msg = email.message_from_string(data)
return msg, data
def _idempotent(self, msg, text):
eq = self.assertEquals
s = StringIO()
g = Generator(s, maxheaderlen=0)
g(msg)
eq(text, s.getvalue())
def test_parse_text_message(self):
eq = self.assertEquals
msg, text = self._msgobj('msg_01.txt')
eq(msg.get_type(), 'text/plain')
eq(msg.get_main_type(), 'text')
eq(msg.get_subtype(), 'plain')
eq(msg.get_params()[1], ('charset', 'us-ascii'))
eq(msg.get_param('charset'), 'us-ascii')
eq(msg.preamble, None)
eq(msg.epilogue, None)
self._idempotent(msg, text)
def test_parse_untyped_message(self):
eq = self.assertEquals
msg, text = self._msgobj('msg_03.txt')
eq(msg.get_type(), None)
eq(msg.get_params(), None)
eq(msg.get_param('charset'), None)
self._idempotent(msg, text)
def test_simple_multipart(self):
msg, text = self._msgobj('msg_04.txt')
self._idempotent(msg, text)
def test_MIME_digest(self):
msg, text = self._msgobj('msg_02.txt')
self._idempotent(msg, text)
def test_mixed_with_image(self):
msg, text = self._msgobj('msg_06.txt')
self._idempotent(msg, text)
def test_multipart_report(self):
msg, text = self._msgobj('msg_05.txt')
self._idempotent(msg, text)
def test_dsn(self):
msg, text = self._msgobj('msg_16.txt')
self._idempotent(msg, text)
def test_preamble_epilogue(self):
msg, text = self._msgobj('msg_21.txt')
self._idempotent(msg, text)
def test_content_type(self):
eq = self.assertEquals
# Get a message object and reset the seek pointer for other tests
msg, text = self._msgobj('msg_05.txt')
eq(msg.get_type(), 'multipart/report')
# Test the Content-Type: parameters
params = {}
for pk, pv in msg.get_params():
params[pk] = pv
eq(params['report-type'], 'delivery-status')
eq(params['boundary'], 'D1690A7AC1.996856090/mail.example.com')
eq(msg.preamble, 'This is a MIME-encapsulated message.\n\n')
eq(msg.epilogue, '\n\n')
eq(len(msg.get_payload()), 3)
# Make sure the subparts are what we expect
msg1 = msg.get_payload(0)
eq(msg1.get_type(), 'text/plain')
eq(msg1.get_payload(), 'Yadda yadda yadda\n')
msg2 = msg.get_payload(1)
eq(msg2.get_type(), None)
eq(msg2.get_payload(), 'Yadda yadda yadda\n')
msg3 = msg.get_payload(2)
eq(msg3.get_type(), 'message/rfc822')
self.failUnless(isinstance(msg3, Message))
msg4 = msg3.get_payload()
self.failUnless(isinstance(msg4, Message))
eq(msg4.get_payload(), 'Yadda yadda yadda\n')
def test_parser(self):
eq = self.assertEquals
msg, text = self._msgobj('msg_06.txt')
# Check some of the outer headers
eq(msg.get_type(), 'message/rfc822')
# Make sure there's exactly one thing in the payload and that's a
# sub-Message object of type text/plain
msg1 = msg.get_payload()
self.failUnless(isinstance(msg1, Message))
eq(msg1.get_type(), 'text/plain')
self.failUnless(isinstance(msg1.get_payload(), StringType))
eq(msg1.get_payload(), '\n')
# Test various other bits of the package's functionality
class TestMiscellaneous(unittest.TestCase):
def test_message_from_string(self):
fp = openfile('msg_01.txt')
try:
text = fp.read()
finally:
fp.close()
msg = email.message_from_string(text)
s = StringIO()
# Don't wrap/continue long headers since we're trying to test
# idempotency.
g = Generator(s, maxheaderlen=0)
g(msg)
self.assertEqual(text, s.getvalue())
def test_message_from_file(self):
fp = openfile('msg_01.txt')
try:
text = fp.read()
fp.seek(0)
msg = email.message_from_file(fp)
s = StringIO()
# Don't wrap/continue long headers since we're trying to test
# idempotency.
g = Generator(s, maxheaderlen=0)
g(msg)
self.assertEqual(text, s.getvalue())
finally:
fp.close()
def test_message_from_string_with_class(self):
unless = self.failUnless
fp = openfile('msg_01.txt')
try:
text = fp.read()
finally:
fp.close()
# Create a subclass
class MyMessage(Message):
pass
msg = email.message_from_string(text, MyMessage)
unless(isinstance(msg, MyMessage))
# Try something more complicated
fp = openfile('msg_02.txt')
try:
text = fp.read()
finally:
fp.close()
msg = email.message_from_string(text, MyMessage)
for subpart in msg.walk():
unless(isinstance(subpart, MyMessage))
def test_message_from_file_with_class(self):
unless = self.failUnless
# Create a subclass
class MyMessage(Message):
pass
fp = openfile('msg_01.txt')
try:
msg = email.message_from_file(fp, MyMessage)
finally:
fp.close()
unless(isinstance(msg, MyMessage))
# Try something more complicated
fp = openfile('msg_02.txt')
try:
msg = email.message_from_file(fp, MyMessage)
finally:
fp.close()
for subpart in msg.walk():
unless(isinstance(subpart, MyMessage))
def test__all__(self):
module = __import__('email')
all = module.__all__
all.sort()
self.assertEqual(all, ['Encoders', 'Errors', 'Generator', 'Iterators',
'MIMEAudio', 'MIMEBase', 'MIMEImage',
'MIMEMessage', 'MIMEText', 'Message', 'Parser',
'Utils',
'message_from_file', 'message_from_string'])
def test_formatdate(self):
now = 1005327232.109884
gdate = Utils.formatdate(now)
ldate = Utils.formatdate(now, localtime=1)
self.assertEqual(gdate, 'Fri, 09 Nov 2001 17:33:52 -0000')
# It's a little tougher to test for localtime, but we'll try. Skip if
# we don't have strptime().
if hasattr(time, 'strptime'):
gtime = time.strptime(gdate.split()[4], '%H:%M:%S')
ltime = time.strptime(ldate.split()[4], '%H:%M:%S')
zone = ldate.split()[5]
offset = int(zone[:3]) * -3600 + int(zone[-2:])
if time.daylight and time.localtime(now)[-1]:
toff = time.altzone
else:
toff = time.timezone
self.assertEqual(offset, toff)
def test_parsedate(self):
self.assertEqual(Utils.parsedate(''), None)
# Test the iterator/generators
class TestIterators(TestEmailBase):
def test_body_line_iterator(self):
eq = self.assertEqual
# First a simple non-multipart message
msg = self._msgobj('msg_01.txt')
it = Iterators.body_line_iterator(msg)
lines = list(it)
eq(len(lines), 6)
eq(EMPTYSTRING.join(lines), msg.get_payload())
# Now a more complicated multipart
msg = self._msgobj('msg_02.txt')
it = Iterators.body_line_iterator(msg)
lines = list(it)
eq(len(lines), 43)
eq(EMPTYSTRING.join(lines), openfile('msg_19.txt').read())
def test_typed_subpart_iterator(self):
eq = self.assertEqual
msg = self._msgobj('msg_04.txt')
it = Iterators.typed_subpart_iterator(msg, 'text')
lines = [subpart.get_payload() for subpart in it]
eq(len(lines), 2)
eq(EMPTYSTRING.join(lines), """\
a simple kind of mirror
to reflect upon our own
a simple kind of mirror
to reflect upon our own
""")
def test_typed_subpart_iterator_default_type(self):
eq = self.assertEqual
msg = self._msgobj('msg_03.txt')
it = Iterators.typed_subpart_iterator(msg, 'text', 'plain')
lines = []
subparts = 0
for subpart in it:
subparts += 1
lines.append(subpart.get_payload())
eq(subparts, 1)
eq(EMPTYSTRING.join(lines), """\
Hi,
Do you like this message?
-Me
""")
class TestParsers(unittest.TestCase):
def test_header_parser(self):
eq = self.assertEqual
# Parse only the headers of a complex multipart MIME document
p = HeaderParser()
fp = openfile('msg_02.txt')
msg = p.parse(fp)
eq(msg['from'], 'ppp-request@zzz.org')
eq(msg['to'], 'ppp@zzz.org')
eq(msg.get_type(), 'multipart/mixed')
eq(msg.is_multipart(), 0)
self.failUnless(isinstance(msg.get_payload(), StringType))
def suite():
suite = unittest.TestSuite()
suite.addTest(unittest.makeSuite(TestMessageAPI))
suite.addTest(unittest.makeSuite(TestEncoders))
suite.addTest(unittest.makeSuite(TestLongHeaders))
suite.addTest(unittest.makeSuite(TestFromMangling))
suite.addTest(unittest.makeSuite(TestMIMEAudio))
suite.addTest(unittest.makeSuite(TestMIMEImage))
suite.addTest(unittest.makeSuite(TestMIMEText))
suite.addTest(unittest.makeSuite(TestMultipartMixed))
suite.addTest(unittest.makeSuite(TestNonConformant))
suite.addTest(unittest.makeSuite(TestRFC2047))
suite.addTest(unittest.makeSuite(TestMIMEMessage))
suite.addTest(unittest.makeSuite(TestIdempotent))
suite.addTest(unittest.makeSuite(TestMiscellaneous))
suite.addTest(unittest.makeSuite(TestIterators))
suite.addTest(unittest.makeSuite(TestParsers))
return suite
if __name__ == '__main__':
unittest.main(defaultTest='suite')
else:
from test_support import run_suite
run_suite(suite())