#!/usr/bin/python
#
# Copyright (C) 2009-2011 Gianluca Montecchi <gian@grys.it>
# W. Trevor King <wking@drexel.edu>
#
# This file is part of Bugs Everywhere.
#
# Bugs Everywhere is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License as published by the
# Free Software Foundation, either version 2 of the License, or (at your
# option) any later version.
#
# Bugs Everywhere is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Bugs Everywhere. If not, see <http://www.gnu.org/licenses/>.
"""
Python module and command line tool for sending pgp/mime email.
Mostly uses subprocess to call gpg and a sendmail-compatible mailer.
If you lack gpg, either don't use the encryption functions or adjust
the pgp_* commands. You may need to adjust the sendmail command to
point to whichever sendmail-compatible mailer you have on your system.
"""
from cStringIO import StringIO
import os
import re
#import GnuPGInterface # Maybe should use this instead of subprocess
import smtplib
import subprocess
import sys
import tempfile
import types
try:
from email import Message
from email.mime.text import MIMEText
from email.mime.multipart import MIMEMultipart
from email.mime.application import MIMEApplication
from email.encoders import encode_7or8bit
from email.generator import Generator
from email.parser import Parser
from email.utils import getaddress
except ImportError:
# adjust to old python 2.4
from email import Message
from email.MIMEText import MIMEText
from email.MIMEMultipart import MIMEMultipart
from email.MIMENonMultipart import MIMENonMultipart
from email.Encoders import encode_7or8bit
from email.Generator import Generator
from email.Parser import Parser
from email.Utils import getaddresses
getaddress = getaddresses
class MIMEApplication (MIMENonMultipart):
def __init__(self, _data, _subtype, _encoder, **params):
MIMENonMultipart.__init__(self, 'application', _subtype, **params)
self.set_payload(_data)
_encoder(self)
usage="""usage: %prog [options]
Scriptable PGP MIME email using gpg.
You can use gpg-agent for passphrase caching if your key requires a
passphrase (it better!). Example usage would be to install gpg-agent,
and then run
export GPG_TTY=`tty`
eval $(gpg-agent --daemon)
in your shell before invoking this script. See gpg-agent(1) for more
details. Alternatively, you can send your passphrase in on stdin
echo 'passphrase' | %prog [options]
or use the --passphrase-file option
%prog [options] --passphrase-file FILE [more options]
Both of these alternatives are much less secure than gpg-agent. You
have been warned.
"""
verboseInvoke = False
PGP_SIGN_AS = None
PASSPHRASE = None
# The following commands are adapted from my .mutt/pgp configuration
#
# Printf-like sequences:
# %a The value of PGP_SIGN_AS.
# %f Expands to the name of a file with text to be signed/encrypted.
# %p Expands to the passphrase argument.
# %R A string with some number (0 on up) of pgp_reciepient_arg
# strings.
# %r One key ID (e.g. recipient email address) to build a
# pgp_reciepient_arg string.
#
# The above sequences can be used to optionally print a string if
# their length is nonzero. For example, you may only want to pass the
# -u/--local-user argument to gpg if PGP_SIGN_AS is defined. To
# optionally print a string based upon one of the above sequences, the
# following construct is used
# %?<sequence_char>?<optional_string>?
# where sequence_char is a character from the table above, and
# optional_string is the string you would like printed if status_char
# is nonzero. optional_string may contain other sequence as well as
# normal text, but it may not contain any question marks.
#
# see http://codesorcery.net/old/mutt/mutt-gnupg-howto
# http://www.mutt.org/doc/manual/manual-6.html#pgp_autosign
# http://tldp.org/HOWTO/Mutt-GnuPG-PGP-HOWTO-8.html
# for more details
pgp_recipient_arg='-r "%r"'
pgp_stdin_passphrase_arg='--passphrase-fd 0'
pgp_sign_command='/usr/bin/gpg --no-verbose --quiet --batch %p --output - --detach-sign --armor --textmode %?a?-u "%a"? %f'
pgp_encrypt_only_command='/usr/bin/gpg --no-verbose --quiet --batch --output - --encrypt --armor --textmode --always-trust --encrypt-to "%a" %R -- %f'
pgp_encrypt_sign_command='/usr/bin/gpg --no-verbose --quiet --batch %p --output - --encrypt --sign %?a?-u "%a"? --armor --textmode --always-trust --encrypt-to "%a" %R -- %f'
sendmail='/usr/sbin/sendmail -t'
def mail(msg, sendmail=None):
"""
Send an email Message instance on its merry way.
We can shell out to the user specified sendmail in case
the local host doesn't have an SMTP server set up
for easy smtplib usage.
"""
if sendmail != None:
execute(sendmail, stdin=flatten(msg))
return None
s = smtplib.SMTP()
s.connect()
s.sendmail(from_addr=source_email(msg),
to_addrs=target_emails(msg),
msg=flatten(msg))
s.close()
def header_from_text(text, encoding="us-ascii"):
"""
Simple wrapper for instantiating an email.Message from text.
>>> header = header_from_text('\\n'.join(['From: me@big.edu','To: you@big.edu','Subject: testing']))
>>> print flatten(header)
From: me@big.edu
To: you@big.edu
Subject: testing
<BLANKLINE>
<BLANKLINE>
"""
text = text.strip()
if type(text) == types.UnicodeType:
text = text.encode(encoding)
# assume StringType arguments are already encoded
p = Parser()
return p.parsestr(text, headersonly=True)
def guess_encoding(text):
if type(text) == types.StringType:
encoding = "us-ascii"
elif type(text) == types.UnicodeType:
for encoding in ["us-ascii", "iso-8859-1", "utf-8"]:
try:
text.encode(encoding)
except UnicodeError:
pass
else:
break
assert encoding != None
return encoding
def encodedMIMEText(body, encoding=None):
if encoding == None:
encoding = guess_encoding(body)
if encoding == "us-ascii":
return MIMEText(body)
else:
# Create the message ('plain' stands for Content-Type: text/plain)
return MIMEText(body.encode(encoding), 'plain', encoding)
def append_text(text_part, new_text):
original_payload = text_part.get_payload(decode=True)
new_payload = u"%s%s" % (original_payload, new_text)
new_encoding = guess_encoding(new_payload)
text_part.set_payload(new_payload.encode(new_encoding), new_encoding)
def attach_root(header, root_part):
"""
Attach the email.Message root_part to the email.Message header
without generating a multi-part message.
"""
for k,v in header.items():
root_part[k] = v
return root_part
def execute(args, stdin=None, expect=(0,)):
"""
Execute a command (allows us to drive gpg).
"""
if verboseInvoke == True:
print >> sys.stderr, '$ '+args
try:
p = subprocess.Popen(args, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=True, close_fds=True)
except OSError, e:
strerror = '%s\nwhile executing %s' % (e.args[1], args)
raise Exception, strerror
output, error = p.communicate(input=stdin)
status = p.wait()
if verboseInvoke == True:
print >> sys.stderr, '(status: %d)\n%s%s' % (status, output, error)
if status not in expect:
strerror = '%s\nwhile executing %s\n%s\n%d' % (args[1], args, error, status)
raise Exception, strerror
return status, output, error
def replace(template, format_char, replacement_text):
"""
>>> replace('--textmode %?a?-u %a? %f', 'f', 'file.in')
'--textmode %?a?-u %a? file.in'
>>> replace('--textmode %?a?-u %a? %f', 'a', '0xHEXKEY')
'--textmode -u 0xHEXKEY %f'
>>> replace('--textmode %?a?-u %a? %f', 'a', '')
'--textmode %f'
"""
if replacement_text == None:
replacement_text = ""
regexp = re.compile('%[?]'+format_char+'[?]([^?]*)[?]')
if len(replacement_text) > 0:
str = regexp.sub('\g<1>', template)
else:
str = regexp.sub('', template)
regexp = re.compile('%'+format_char)
str = regexp.sub(replacement_text, str)
return str
def flatten(msg, to_unicode=False):
"""
Produce flat text output from an email Message instance.
"""
assert msg != None
fp = StringIO()
g = Generator(fp, mangle_from_=False)
g.flatten(msg)
text = fp.getvalue()
if to_unicode == True:
encoding = msg.get_content_charset() or "utf-8"
text = unicode(text, encoding=encoding)
return text
def source_email(msg, return_realname=False):
"""
Search the header of an email Message instance to find the
sender's email address.
"""
froms = msg.get_all('from', [])
from_tuples = getaddresses(froms) # [(realname, email_address), ...]
assert len(from_tuples) == 1
if return_realname == True:
return from_tuples[0] # (realname, email_address)
return from_tuples[0][1] # email_address
def target_emails(msg):
"""
Search the header of an email Message instance to find a
list of recipient's email addresses.
"""
tos = msg.get_all('to', [])
ccs = msg.get_all('cc', [])
bccs = msg.get_all('bcc', [])
resent_tos = msg.get_all('resent-to', [])
resent_ccs = msg.get_all('resent-cc', [])
resent_bccs = msg.get_all('resent-bcc', [])
all_recipients = getaddresses(tos + ccs + bccs + resent_tos
+ resent_ccs + resent_bccs)
return [addr[1] for addr in all_recipients]
class PGPMimeMessageFactory (object):
"""
See http://www.ietf.org/rfc/rfc3156.txt for specification details.
>>> from_addr = "me@big.edu"
>>> to_addr = "you@you.edu"
>>> header = header_from_text('\\n'.join(['From: %s'%from_addr,'To: %s'%to_addr,'Subject: testing']))
>>> source_email(header) == from_addr
True
>>> target_emails(header) == [to_addr]
True
>>> m = PGPMimeMessageFactory('check 1 2\\ncheck 1 2\\n')
>>> print flatten(m.clearBodyPart())
Content-Type: text/plain; charset="us-ascii"
MIME-Version: 1.0
Content-Transfer-Encoding: 7bit
Content-Disposition: inline
<BLANKLINE>
check 1 2
check 1 2
<BLANKLINE>
>>> print flatten(m.plain())
Content-Type: text/plain; charset="us-ascii"
MIME-Version: 1.0
Content-Transfer-Encoding: 7bit
<BLANKLINE>
check 1 2
check 1 2
<BLANKLINE>
>>> signed = m.sign(header)
>>> signed.set_boundary('boundsep')
>>> print flatten(signed).replace('\\t', ' '*4) # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE
Content-Type: multipart/signed; protocol="application/pgp-signature";
micalg="pgp-sha1"; boundary="boundsep"
MIME-Version: 1.0
Content-Disposition: inline
<BLANKLINE>
--boundsep
Content-Type: text/plain; charset="us-ascii"
MIME-Version: 1.0
Content-Transfer-Encoding: 7bit
Content-Disposition: inline
<BLANKLINE>
check 1 2
check 1 2
<BLANKLINE>
--boundsep
MIME-Version: 1.0
Content-Transfer-Encoding: 7bit
Content-Description: signature
Content-Type: application/pgp-signature; name="signature.asc";
charset="us-ascii"
<BLANKLINE>
-----BEGIN PGP SIGNATURE-----
...
-----END PGP SIGNATURE-----
<BLANKLINE>
--boundsep--
>>> encrypted = m.encrypt(header)
>>> encrypted.set_boundary('boundsep')
>>> print flatten(encrypted).replace('\\t', ' '*4) # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE
Content-Type: multipart/encrypted;
protocol="application/pgp-encrypted";
micalg="pgp-sha1"; boundary="boundsep"
MIME-Version: 1.0
Content-Disposition: inline
<BLANKLINE>
--boundsep
Content-Type: application/pgp-encrypted
MIME-Version: 1.0
Content-Transfer-Encoding: 7bit
<BLANKLINE>
Version: 1
<BLANKLINE>
--boundsep
MIME-Version: 1.0
Content-Transfer-Encoding: 7bit
Content-Type: application/octet-stream; charset="us-ascii"
<BLANKLINE>
-----BEGIN PGP MESSAGE-----
...
-----END PGP MESSAGE-----
<BLANKLINE>
--boundsep--
>>> signedAndEncrypted = m.signAndEncrypt(header)
>>> signedAndEncrypted.set_boundary('boundsep')
>>> print flatten(signedAndEncrypted).replace('\\t', ' '*4) # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE
Content-Type: multipart/encrypted;
protocol="application/pgp-encrypted";
micalg="pgp-sha1"; boundary="boundsep"
MIME-Version: 1.0
Content-Disposition: inline
<BLANKLINE>
--boundsep
Content-Type: application/pgp-encrypted
MIME-Version: 1.0
Content-Transfer-Encoding: 7bit
<BLANKLINE>
Version: 1
<BLANKLINE>
--boundsep
MIME-Version: 1.0
Content-Transfer-Encoding: 7bit
Content-Type: application/octet-stream; charset="us-ascii"
<BLANKLINE>
-----BEGIN PGP MESSAGE-----
...
-----END PGP MESSAGE-----
<BLANKLINE>
--boundsep--
"""
def __init__(self, body):
self.body = body
def clearBodyPart(self):
body = encodedMIMEText(self.body)
body.add_header('Content-Disposition', 'inline')
return body
def passphrase_arg(self, passphrase=None):
if passphrase == None and PASSPHRASE != None:
passphrase = PASSPHRASE
if passphrase == None:
return (None,'')
return (passphrase, pgp_stdin_passphrase_arg)
def plain(self):
"""
text/plain
"""
return encodedMIMEText(self.body)
def sign(self, header, passphrase=None):
"""
multipart/signed
+-> text/plain (body)
+-> application/pgp-signature (signature)
"""
passphrase,pass_arg = self.passphrase_arg(passphrase)
body = self.clearBodyPart()
bfile = tempfile.NamedTemporaryFile()
bfile.write(flatten(body))
bfile.flush()
args = replace(pgp_sign_command, 'f', bfile.name)
if PGP_SIGN_AS == None:
pgp_sign_as = '<%s>' % source_email(header)
else:
pgp_sign_as = PGP_SIGN_AS
args = replace(args, 'a', pgp_sign_as)
args = replace(args, 'p', pass_arg)
status,output,error = execute(args, stdin=passphrase)
signature = output
sig = MIMEApplication(_data=signature,
_subtype='pgp-signature; name="signature.asc"',
_encoder=encode_7or8bit)
sig['Content-Description'] = 'signature'
sig.set_charset('us-ascii')
msg = MIMEMultipart('signed', micalg='pgp-sha1',
protocol='application/pgp-signature')
msg.attach(body)
msg.attach(sig)
msg['Content-Disposition'] = 'inline'
return msg
def encrypt(self, header, passphrase=None):
"""
multipart/encrypted
+-> application/pgp-encrypted (control information)
+-> application/octet-stream (body)
"""
body = self.clearBodyPart()
bfile = tempfile.NamedTemporaryFile()
bfile.write(flatten(body))
bfile.flush()
recipients = [replace(pgp_recipient_arg, 'r', recipient)
for recipient in target_emails(header)]
recipient_string = ' '.join(recipients)
args = replace(pgp_encrypt_only_command, 'R', recipient_string)
args = replace(args, 'f', bfile.name)
if PGP_SIGN_AS == None:
pgp_sign_as = '<%s>' % source_email(header)
else:
pgp_sign_as = PGP_SIGN_AS
args = replace(args, 'a', pgp_sign_as)
status,output,error = execute(args)
encrypted = output
enc = MIMEApplication(_data=encrypted, _subtype='octet-stream',
_encoder=encode_7or8bit)
enc.set_charset('us-ascii')
control = MIMEApplication(_data='Version: 1\n', _subtype='pgp-encrypted',
_encoder=encode_7or8bit)
msg = MIMEMultipart('encrypted', micalg='pgp-sha1',
protocol='application/pgp-encrypted')
msg.attach(control)
msg.attach(enc)
msg['Content-Disposition'] = 'inline'
return msg
def signAndEncrypt(self, header, passphrase=None):
"""
multipart/encrypted
+-> application/pgp-encrypted (control information)
+-> application/octet-stream (body)
"""
passphrase,pass_arg = self.passphrase_arg(passphrase)
body = self.sign(header, passphrase)
body.__delitem__('Bcc')
bfile = tempfile.NamedTemporaryFile()
bfile.write(flatten(body))
bfile.flush()
recipients = [replace(pgp_recipient_arg, 'r', recipient)
for recipient in target_emails(header)]
recipient_string = ' '.join(recipients)
args = replace(pgp_encrypt_only_command, 'R', recipient_string)
args = replace(args, 'f', bfile.name)
if PGP_SIGN_AS == None:
pgp_sign_as = '<%s>' % source_email(header)
else:
pgp_sign_as = PGP_SIGN_AS
args = replace(args, 'a', pgp_sign_as)
args = replace(args, 'p', pass_arg)
status,output,error = execute(args, stdin=passphrase)
encrypted = output
enc = MIMEApplication(_data=encrypted, _subtype='octet-stream',
_encoder=encode_7or8bit)
enc.set_charset('us-ascii')
control = MIMEApplication(_data='Version: 1\n',
_subtype='pgp-encrypted',
_encoder=encode_7or8bit)
msg = MIMEMultipart('encrypted', micalg='pgp-sha1',
protocol='application/pgp-encrypted')
msg.attach(control)
msg.attach(enc)
msg['Content-Disposition'] = 'inline'
return msg
def test():
import doctest
doctest.testmod()
if __name__ == '__main__':
from optparse import OptionParser
parser = OptionParser(usage=usage)
parser.add_option('-t', '--test', dest='test', action='store_true',
help='Run doctests and exit')
parser.add_option('-H', '--header-file', dest='header_filename',
help='file containing email header', metavar='FILE')
parser.add_option('-B', '--body-file', dest='body_filename',
help='file containing email body', metavar='FILE')
parser.add_option('-P', '--passphrase-file', dest='passphrase_file',
help='file containing gpg passphrase', metavar='FILE')
parser.add_option('-p', '--passphrase-fd', dest='passphrase_fd',
help='file descriptor from which to read gpg passphrase (0 for stdin)',
type="int", metavar='DESCRIPTOR')
parser.add_option('--mode', dest='mode', default='sign',
help="One of 'sign', 'encrypt', 'sign-encrypt', or 'plain'. Defaults to %default.",
metavar='MODE')
parser.add_option('-a', '--sign-as', dest='sign_as',
help="The gpg key to sign with (gpg's -u/--local-user)",
metavar='KEY')
parser.add_option('--output', dest='output', action='store_true',
help="Don't mail the generated message, print it to stdout instead.")
(options, args) = parser.parse_args()
stdin_used = False
if options.passphrase_file != None:
PASSPHRASE = file(options.passphrase_file, 'r').read()
elif options.passphrase_fd != None:
if options.passphrase_fd == 0:
stdin_used = True
PASSPHRASE = sys.stdin.read()
else:
PASSPHRASE = os.read(options.passphrase_fd)
if options.sign_as:
PGP_SIGN_AS = options.sign_as
if options.test == True:
test()
sys.exit(0)
header = None
if options.header_filename != None:
if options.header_filename == '-':
assert stdin_used == False
stdin_used = True
header = sys.stdin.read()
else:
header = file(options.header_filename, 'r').read()
if header == None:
raise Exception, "missing header"
headermsg = header_from_text(header)
body = None
if options.body_filename != None:
if options.body_filename == '-':
assert stdin_used == False
stdin_used = True
body = sys.stdin.read()
else:
body = file(options.body_filename, 'r').read()
if body == None:
raise Exception, "missing body"
m = PGPMimeMessageFactory(body)
if options.mode == "sign":
bodymsg = m.sign(header)
elif options.mode == "encrypt":
bodymsg = m.encrypt(header)
elif options.mode == "sign-encrypt":
bodymsg = m.signAndEncrypt(header)
elif options.mode == "plain":
bodymsg = m.plain()
else:
print "Unrecognized mode '%s'" % options.mode
message = attach_root(headermsg, bodymsg)
if options.output == True:
message = flatten(message)
print message
else:
mail(message, sendmail)