/usr/share/pyshared/lamson/encoding.py is in python-lamson 1.0pre11-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Lamson takes the policy that email it receives is most likely complete garbage
using bizarre pre-Unicode formats that are irrelevant and unnecessary in today's
modern world. These emails must be cleansed of their unholy stench of
randomness and turned into something nice and clean that a regular Python
programmer can work with: unicode.
That's the receiving end, but on the sending end Lamson wants to make the world
better by not increasing the suffering. To that end, Lamson will canonicalize
all email it sends to be ascii or utf-8 (whichever is simpler and works to
encode the data). When you get an email from Lamson, it is a pristine easily
parseable clean unit of goodness you can count on.
To accomplish these tasks, Lamson goes back to basics and assert a few simple
rules on each email it receives:
1) NO ENCODING IS TRUSTED, NO LANGUAGE IS SACRED, ALL ARE SUSPECT.
2) Python wants Unicode, it will get Unicode.
3) Any email that CANNOT become Unicode, CANNOT be processed by Lamson or
Python.
4) Email addresses are ESSENTIAL to Lamson's routing and security, and therefore
will be canonicalized and properly encoded.
5) Lamson will therefore try to "upgrade" all email it receives to Unicode
internally, and cleaning all email addresses.
6) It does this by decoding all codecs, and if the codec LIES, then it will
attempt to statistically detect the codec using chardet.
7) If it can't detect the codec, and the codec lies, then the email is bad.
8) All text bodies and attachments are then converted to Python unicode in the
same way as the headers.
9) All other attachments are converted to raw strings as-is.
Once Lamson has done this, your Python handler can now assume that all
MailRequest objects are happily unicode enabled and ready to go. The rule is:
IF IT CANNOT BE UNICODE, THEN PYTHON CANNOT WORK WITH IT.
On the outgoing end (when you send a MailResponse), Lamson tries to create the
email it wants to receive by canonicalizing it:
1) All email will be encoded in the simplest cleanest way possible without
losing information.
2) All headers are converted to 'ascii', and if that doesn't work, then 'utf-8'.
3) All text/* attachments and bodies are converted to ascii, and if that doesn't
work, 'utf-8'.
4) All other attachments are left alone.
5) All email addresses are normalized and encoded if they have not been already.
The end result is an email that has the highest probability of not containing
any obfuscation techniques, hidden characters, bad characters, improper
formatting, invalid non-characterset headers, or any of the other billions of
things email clients do to the world. The output rule of Lamson is:
ALL EMAIL IS ASCII FIRST, THEN UTF-8, AND IF CANNOT BE EITHER THOSE IT WILL
NOT BE SENT.
Following these simple rules, this module does the work of converting email
to the canonical format and sending the canonical format. The code is
probably the most complex part of Lamson since the job it does is difficult.
Test results show that Lamson can safely canonicalize most email from any
culture (not just English) to the canonical form, and that if it can't then the
email is not formatted right and/or spam.
If you find an instance where this is not the case, then submit it to the
project as a test case.
"""
import string
from email.charset import Charset
import chardet
import re
import email
from email import encoders
from email.mime.base import MIMEBase
from email.utils import parseaddr
import sys
DEFAULT_ENCODING = "utf-8"
DEFAULT_ERROR_HANDLING = "strict"
CONTENT_ENCODING_KEYS = set(['Content-Type', 'Content-Transfer-Encoding',
'Content-Disposition', 'Mime-Version'])
CONTENT_ENCODING_REMOVED_PARAMS = ['boundary']
REGEX_OPTS = re.IGNORECASE | re.MULTILINE
ENCODING_REGEX = re.compile(r"\=\?([a-z0-9\-]+?)\?([bq])\?", REGEX_OPTS)
ENCODING_END_REGEX = re.compile(r"\?=", REGEX_OPTS)
INDENT_REGEX = re.compile(r"\n\s+")
VALUE_IS_EMAIL_ADDRESS = lambda v: '@' in v
ADDRESS_HEADERS_WHITELIST = ['From', 'To', 'Delivered-To', 'Cc', 'Bcc']
class EncodingError(Exception):
"""Thrown when there is an encoding error."""
pass
class MailBase(object):
"""MailBase is used as the basis of lamson.mail and contains the basics of
encoding an email. You actually can do all your email processing with this
class, but it's more raw.
"""
def __init__(self, items=()):
self.headers = dict(items)
self.parts = []
self.body = None
self.content_encoding = {'Content-Type': (None, {}),
'Content-Disposition': (None, {}),
'Content-Transfer-Encoding': (None, {})}
def __getitem__(self, key):
return self.headers.get(normalize_header(key), None)
def __len__(self):
return len(self.headers)
def __iter__(self):
return iter(self.headers)
def __contains__(self, key):
return normalize_header(key) in self.headers
def __setitem__(self, key, value):
self.headers[normalize_header(key)] = value
def __delitem__(self, key):
del self.headers[normalize_header(key)]
def __nonzero__(self):
return self.body != None or len(self.headers) > 0 or len(self.parts) > 0
def keys(self):
"""Returns the sorted keys."""
return sorted(self.headers.keys())
def attach_file(self, filename, data, ctype, disposition):
"""
A file attachment is a raw attachment with a disposition that
indicates the file name.
"""
assert filename, "You can't attach a file without a filename."
assert ctype.lower() == ctype, "Hey, don't be an ass. Use a lowercase content type."
part = MailBase()
part.body = data
part.content_encoding['Content-Type'] = (ctype, {'name': filename})
part.content_encoding['Content-Disposition'] = (disposition,
{'filename': filename})
self.parts.append(part)
def attach_text(self, data, ctype):
"""
This attaches a simpler text encoded part, which doesn't have a
filename.
"""
assert ctype.lower() == ctype, "Hey, don't be an ass. Use a lowercase content type."
part = MailBase()
part.body = data
part.content_encoding['Content-Type'] = (ctype, {})
self.parts.append(part)
def walk(self):
for p in self.parts:
yield p
for x in p.walk():
yield x
class MIMEPart(MIMEBase):
"""
A reimplementation of nearly everything in email.mime to be more useful
for actually attaching things. Rather than one class for every type of
thing you'd encode, there's just this one, and it figures out how to
encode what you ask it.
"""
def __init__(self, type, **params):
self.maintype, self.subtype = type.split('/')
MIMEBase.__init__(self, self.maintype, self.subtype, **params)
def add_text(self, content):
# this is text, so encode it in canonical form
try:
encoded = content.encode('ascii')
charset = 'ascii'
except UnicodeError:
encoded = content.encode('utf-8')
charset = 'utf-8'
self.set_payload(encoded, charset=charset)
def extract_payload(self, mail):
if mail.body == None: return # only None, '' is still ok
ctype, ctype_params = mail.content_encoding['Content-Type']
cdisp, cdisp_params = mail.content_encoding['Content-Disposition']
assert ctype, "Extract payload requires that mail.content_encoding have a valid Content-Type."
if ctype.startswith("text/"):
self.add_text(mail.body)
else:
if cdisp:
# replicate the content-disposition settings
self.add_header('Content-Disposition', cdisp, **cdisp_params)
self.set_payload(mail.body)
encoders.encode_base64(self)
def __repr__(self):
return "<MIMEPart '%s/%s': %r, %r, multipart=%r>" % (self.subtype, self.maintype, self['Content-Type'],
self['Content-Disposition'],
self.is_multipart())
def from_message(message):
"""
Given a MIMEBase or similar Python email API message object, this
will canonicalize it and give you back a pristine MailBase.
If it can't then it raises a EncodingError.
"""
mail = MailBase()
# parse the content information out of message
for k in CONTENT_ENCODING_KEYS:
setting, params = parse_parameter_header(message, k)
setting = setting.lower() if setting else setting
mail.content_encoding[k] = (setting, params)
# copy over any keys that are not part of the content information
for k in message.keys():
if normalize_header(k) not in mail.content_encoding:
mail[k] = header_from_mime_encoding(message[k])
decode_message_body(mail, message)
if message.is_multipart():
# recursively go through each subpart and decode in the same way
for msg in message.get_payload():
if msg != message: # skip the multipart message itself
mail.parts.append(from_message(msg))
return mail
def to_message(mail):
"""
Given a MailBase message, this will construct a MIMEPart
that is canonicalized for use with the Python email API.
"""
ctype, params = mail.content_encoding['Content-Type']
if not ctype:
if mail.parts:
ctype = 'multipart/mixed'
else:
ctype = 'text/plain'
else:
if mail.parts:
assert ctype.startswith("multipart") or ctype.startswith("message"), "Content type should be multipart or message, not %r" % ctype
# adjust the content type according to what it should be now
mail.content_encoding['Content-Type'] = (ctype, params)
try:
out = MIMEPart(ctype, **params)
except TypeError, exc:
raise EncodingError("Content-Type malformed, not allowed: %r; %r (Python ERROR: %s" %
(ctype, params, exc.message))
for k in mail.keys():
if k in ADDRESS_HEADERS_WHITELIST:
out[k.encode('ascii')] = header_to_mime_encoding(mail[k])
else:
out[k.encode('ascii')] = header_to_mime_encoding(mail[k], not_email=True)
out.extract_payload(mail)
# go through the children
for part in mail.parts:
out.attach(to_message(part))
return out
def to_string(mail, envelope_header=False):
"""Returns a canonicalized email string you can use to send or store
somewhere."""
msg = to_message(mail).as_string(envelope_header)
assert "From nobody" not in msg
return msg
def from_string(data):
"""Takes a string, and tries to clean it up into a clean MailBase."""
return from_message(email.message_from_string(data))
def to_file(mail, fileobj):
"""Writes a canonicalized message to the given file."""
fileobj.write(to_string(mail))
def from_file(fileobj):
"""Reads an email and cleans it up to make a MailBase."""
return from_message(email.message_from_file(fileobj))
def normalize_header(header):
return string.capwords(header.lower(), '-')
def parse_parameter_header(message, header):
params = message.get_params(header=header)
if params:
value = params.pop(0)[0]
params_dict = dict(params)
for key in CONTENT_ENCODING_REMOVED_PARAMS:
if key in params_dict: del params_dict[key]
return value, params_dict
else:
return None, {}
def decode_message_body(mail, message):
mail.body = message.get_payload(decode=True)
if mail.body:
# decode the payload according to the charset given if it's text
ctype, params = mail.content_encoding['Content-Type']
if not ctype:
charset = 'ascii'
mail.body = attempt_decoding(charset, mail.body)
elif ctype.startswith("text/"):
charset = params.get('charset', 'ascii')
mail.body = attempt_decoding(charset, mail.body)
else:
# it's a binary codec of some kind, so just decode and leave it
# alone for now
pass
def properly_encode_header(value, encoder, not_email):
"""
The only thing special (weird) about this function is that it tries
to do a fast check to see if the header value has an email address in
it. Since random headers could have an email address, and email addresses
have weird special formatting rules, we have to check for it.
Normally this works fine, but in Librelist, we need to "obfuscate" email
addresses by changing the '@' to '-AT-'. This is where
VALUE_IS_EMAIL_ADDRESS exists. It's a simple lambda returning True/False
to check if a header value has an email address. If you need to make this
check different, then change this.
"""
try:
return value.encode("ascii")
except UnicodeEncodeError:
if not_email is False and VALUE_IS_EMAIL_ADDRESS(value):
# this could have an email address, make sure we don't screw it up
name, address = parseaddr(value)
return '"%s" <%s>' % (encoder.header_encode(name.encode("utf-8")), address)
return encoder.header_encode(value.encode("utf-8"))
def header_to_mime_encoding(value, not_email=False):
if not value: return ""
encoder = Charset(DEFAULT_ENCODING)
if type(value) == list:
return "; ".join(properly_encode_header(v, encoder, not_email) for v in value)
else:
return properly_encode_header(value, encoder, not_email)
def header_from_mime_encoding(header):
if header is None:
return header
elif type(header) == list:
return [properly_decode_header(h) for h in header]
else:
return properly_decode_header(header)
def guess_encoding_and_decode(original, data, errors=DEFAULT_ERROR_HANDLING):
try:
charset = chardet.detect(str(data))
if not charset['encoding']:
raise EncodingError("Header claimed %r charset, but detection found none. Decoding failed." % original)
return data.decode(charset["encoding"], errors)
except UnicodeError, exc:
raise EncodingError("Header lied and claimed %r charset, guessing said "
"%r charset, neither worked so this is a bad email: "
"%s." % (original, charset, exc))
def attempt_decoding(charset, dec):
try:
if isinstance(dec, unicode):
# it's already unicode so just return it
return dec
else:
return dec.decode(charset)
except UnicodeError:
# looks like the charset lies, try to detect it
return guess_encoding_and_decode(charset, dec)
except LookupError:
# they gave a crap encoding
return guess_encoding_and_decode(charset, dec)
def apply_charset_to_header(charset, encoding, data):
if encoding == 'b' or encoding == 'B':
dec = email.base64mime.decode(data.encode('ascii'))
elif encoding == 'q' or encoding == 'Q':
dec = email.quoprimime.header_decode(data.encode('ascii'))
else:
raise EncodingError("Invalid header encoding %r should be 'Q' or 'B'." % encoding)
return attempt_decoding(charset, dec)
def _match(data, pattern, pos):
found = pattern.search(data, pos)
if found:
# contract: returns data before the match, and the match groups
left = data[pos:found.start()]
return left, found.groups(), found.end()
else:
left = data[pos:]
return left, None, -1
def _tokenize(data, next):
enc_data = None
left, enc_header, next = _match(data, ENCODING_REGEX, next)
if next != -1:
enc_data, _, next = _match(data, ENCODING_END_REGEX, next)
return left, enc_header, enc_data, next
def _scan(data):
next = 0
continued = False
while next != -1:
left, enc_header, enc_data, next = _tokenize(data, next)
if next != -1 and INDENT_REGEX.match(data, next):
continued = True
else:
continued = False
yield left, enc_header, enc_data, continued
def _parse_charset_header(data):
scanner = _scan(data)
oddness = None
try:
while True:
if not oddness:
left, enc_header, enc_data, continued = scanner.next()
else:
left, enc_header, enc_data, continued = oddness
oddness = None
while continued:
l, eh, ed, continued = scanner.next()
if not eh:
assert not ed, "Parsing error, give Zed this: %r" % data
oddness = (" " + l.lstrip(), eh, ed, continued)
elif eh[0] == enc_header[0] and eh[1] == enc_header[1]:
enc_data += ed
else:
# odd case, it's continued but not from the same base64
# need to stack this for the next loop, and drop the \n\s+
oddness = ('', eh, ed, continued)
break
if left:
yield attempt_decoding('ascii', left)
if enc_header:
yield apply_charset_to_header(enc_header[0], enc_header[1], enc_data)
except StopIteration:
pass
def properly_decode_header(header):
return u"".join(_parse_charset_header(header))
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