##// END OF EJS Templates
ssh: always expand the path for the generated authorized_keys file....
ssh: always expand the path for the generated authorized_keys file. Without it we can lead to path problems on reading the ~.

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response.py
454 lines | 15.8 KiB | text/x-python | PythonLexer
# The code in this module is entirely lifted from the Lamson project
# (http://lamsonproject.org/). Its copyright is:
# Copyright (c) 2008, Zed A. Shaw
# All rights reserved.
# It is provided under this license:
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
# * Redistributions of source code must retain the above copyright notice, this
# list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above copyright notice,
# this list of conditions and the following disclaimer in the documentation
# and/or other materials provided with the distribution.
# * Neither the name of the Zed A. Shaw nor the names of its contributors may
# be used to endorse or promote products derived from this software without
# specific prior written permission.
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
# FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
# COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
# INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
# SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
# STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
import os
import mimetypes
import string
from email import encoders
from email.charset import Charset
from email.utils import parseaddr
from email.mime.base import MIMEBase
ADDRESS_HEADERS_WHITELIST = ['From', 'To', 'Delivered-To', 'Cc']
DEFAULT_ENCODING = "utf-8"
VALUE_IS_EMAIL_ADDRESS = lambda v: '@' in v
def normalize_header(header):
return string.capwords(header.lower(), '-')
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 is not 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."
ctype = ctype.lower()
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.
"""
ctype = ctype.lower()
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 MailResponse(object):
"""
You are given MailResponse objects from the lamson.view methods, and
whenever you want to generate an email to send to someone. It has the
same basic functionality as MailRequest, but it is designed to be written
to, rather than read from (although you can do both).
You can easily set a Body or Html during creation or after by passing it
as __init__ parameters, or by setting those attributes.
You can initially set the From, To, and Subject, but they are headers so
use the dict notation to change them: msg['From'] = 'joe@test.com'.
The message is not fully crafted until right when you convert it with
MailResponse.to_message. This lets you change it and work with it, then
send it out when it's ready.
"""
def __init__(self, To=None, From=None, Subject=None, Body=None, Html=None,
separator="; "):
self.Body = Body
self.Html = Html
self.base = MailBase([('To', To), ('From', From), ('Subject', Subject)])
self.multipart = self.Body and self.Html
self.attachments = []
self.separator = separator
def __contains__(self, key):
return self.base.__contains__(key)
def __getitem__(self, key):
return self.base.__getitem__(key)
def __setitem__(self, key, val):
return self.base.__setitem__(key, val)
def __delitem__(self, name):
del self.base[name]
def attach(self, filename=None, content_type=None, data=None,
disposition=None):
"""
Simplifies attaching files from disk or data as files. To attach
simple text simple give data and a content_type. To attach a file,
give the data/content_type/filename/disposition combination.
For convenience, if you don't give data and only a filename, then it
will read that file's contents when you call to_message() later. If
you give data and filename then it will assume you've filled data
with what the file's contents are and filename is just the name to
use.
"""
assert filename or data, ("You must give a filename or some data to "
"attach.")
assert data or os.path.exists(filename), ("File doesn't exist, and no "
"data given.")
self.multipart = True
if filename and not content_type:
content_type, encoding = mimetypes.guess_type(filename)
assert content_type, ("No content type given, and couldn't guess "
"from the filename: %r" % filename)
self.attachments.append({'filename': filename,
'content_type': content_type,
'data': data,
'disposition': disposition,})
def attach_part(self, part):
"""
Attaches a raw MailBase part from a MailRequest (or anywhere)
so that you can copy it over.
"""
self.multipart = True
self.attachments.append({'filename': None,
'content_type': None,
'data': None,
'disposition': None,
'part': part,
})
def attach_all_parts(self, mail_request):
"""
Used for copying the attachment parts of a mail.MailRequest
object for mailing lists that need to maintain attachments.
"""
for part in mail_request.all_parts():
self.attach_part(part)
self.base.content_encoding = mail_request.base.content_encoding.copy()
def clear(self):
"""
Clears out the attachments so you can redo them. Use this to keep the
headers for a series of different messages with different attachments.
"""
del self.attachments[:]
del self.base.parts[:]
self.multipart = False
def update(self, message):
"""
Used to easily set a bunch of heading from another dict
like object.
"""
for k in message.keys():
self.base[k] = message[k]
def __str__(self):
"""
Converts to a string.
"""
return self.to_message().as_string()
def _encode_attachment(self, filename=None, content_type=None, data=None,
disposition=None, part=None):
"""
Used internally to take the attachments mentioned in self.attachments
and do the actual encoding in a lazy way when you call to_message.
"""
if part:
self.base.parts.append(part)
elif filename:
if not data:
with open(filename) as f:
data = f.read()
self.base.attach_file(filename, data, content_type,
disposition or 'attachment')
else:
self.base.attach_text(data, content_type)
ctype = self.base.content_encoding['Content-Type'][0]
if ctype and not ctype.startswith('multipart'):
self.base.content_encoding['Content-Type'] = ('multipart/mixed', {})
def to_message(self):
"""
Figures out all the required steps to finally craft the
message you need and return it. The resulting message
is also available as a self.base attribute.
What is returned is a Python email API message you can
use with those APIs. The self.base attribute is the raw
lamson.encoding.MailBase.
"""
del self.base.parts[:]
if self.Body and self.Html:
self.multipart = True
self.base.content_encoding['Content-Type'] = (
'multipart/alternative', {})
if self.multipart:
self.base.body = None
if self.Body:
self.base.attach_text(self.Body, 'text/plain')
if self.Html:
self.base.attach_text(self.Html, 'text/html')
for args in self.attachments:
self._encode_attachment(**args)
elif self.Body:
self.base.body = self.Body
self.base.content_encoding['Content-Type'] = ('text/plain', {})
elif self.Html:
self.base.body = self.Html
self.base.content_encoding['Content-Type'] = ('text/html', {})
return to_message(self.base, separator=self.separator)
def all_parts(self):
"""
Returns all the encoded parts. Only useful for debugging
or inspecting after calling to_message().
"""
return self.base.parts
def keys(self):
return self.base.keys()
def to_message(mail, separator="; "):
"""
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", "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 as exc: # pragma: no cover
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],
not_email=False,
separator=separator
)
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
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 is 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 header_to_mime_encoding(value, not_email=False, separator=", "):
if not value:
return ""
encoder = Charset(DEFAULT_ENCODING)
if type(value) == list:
return separator.join(properly_encode_header(
v, encoder, not_email) for v in value)
else:
return properly_encode_header(value, encoder, not_email)
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 not_email 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"))