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cpython/Lib/email/Header.py

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# Copyright (C) 2002 Python Software Foundation
# Author: che@debian.org (Ben Gertzfield)
"""Header encoding and decoding functionality."""
import re
import email.quopriMIME
import email.base64MIME
from email.Charset import Charset
try:
from email._compat22 import _floordiv
except SyntaxError:
# Python 2.1 spells integer division differently
from email._compat21 import _floordiv
CRLFSPACE = '\r\n '
CRLF = '\r\n'
NLSPACE = '\n '
MAXLINELEN = 76
ENCODE = 1
DECODE = 2
# Match encoded-word strings in the form =?charset?q?Hello_World?=
ecre = re.compile(r'''
=\? # literal =?
(?P<charset>[^?]*?) # non-greedy up to the next ? is the charset
\? # literal ?
(?P<encoding>[qb]) # either a "q" or a "b", case insensitive
\? # literal ?
(?P<encoded>.*?) # non-greedy up to the next ?= is the encoded string
\?= # literal ?=
''', re.VERBOSE | re.IGNORECASE)
# Helpers
_max_append = email.quopriMIME._max_append
def decode_header(header):
"""Decode a message header value without converting charset.
Returns a list of (decoded_string, charset) pairs containing each of the
decoded parts of the header. Charset is None for non-encoded parts of the
header, otherwise a lower-case string containing the name of the character
set specified in the encoded string.
"""
# If no encoding, just return the header
header = str(header)
if not ecre.search(header):
return [(header, None)]
decoded = []
dec = ''
for line in header.splitlines():
# This line might not have an encoding in it
if not ecre.search(line):
decoded.append((line, None))
continue
parts = ecre.split(line)
while parts:
unenc = parts.pop(0).strip()
if unenc:
# Should we continue a long line?
if decoded and decoded[-1][1] is None:
decoded[-1] = (decoded[-1][0] + dec, None)
else:
decoded.append((unenc, None))
if parts:
charset, encoding = [s.lower() for s in parts[0:2]]
encoded = parts[2]
dec = ''
if encoding == 'q':
dec = email.quopriMIME.header_decode(encoded)
elif encoding == 'b':
dec = email.base64MIME.decode(encoded)
else:
dec = encoded
if decoded and decoded[-1][1] == charset:
decoded[-1] = (decoded[-1][0] + dec, decoded[-1][1])
else:
decoded.append((dec, charset))
del parts[0:3]
return decoded
class Header:
def __init__(self, s, charset=None, maxlinelen=None, header_name=None):
"""Create a MIME-compliant header that can contain many languages.
Specify the initial header value in s. Specify its character set as a
Charset object in the charset argument. If none, a default Charset
instance will be used.
You can later append to the header with append(s, charset) below;
charset does not have to be the same as the one initially specified
here. In fact, it's optional, and if not given, defaults to the
charset specified in the constructor.
The maximum line length can be specified explicitly via maxlinelen.
You can also pass None for maxlinelen and the name of a header field
(e.g. "Subject") to let the constructor guess the best line length to
use. The default maxlinelen is 76.
"""
if charset is None:
charset = Charset()
self._charset = charset
# BAW: I believe `chunks' and `maxlinelen' should be non-public.
self._chunks = []
self.append(s, charset)
if maxlinelen is None:
if header_name is None:
self._maxlinelen = MAXLINELEN
else:
self.guess_maxlinelen(header_name)
else:
self._maxlinelen = maxlinelen
def __str__(self):
"""A synonym for self.encode()."""
return self.encode()
def guess_maxlinelen(self, s=None):
"""Guess the maximum length to make each header line.
Given a header name (e.g. "Subject"), set this header's maximum line
length to an appropriate length to avoid line wrapping. If s is not
given, return the previous maximum line length and don't set it.
Returns the new maximum line length.
"""
# BAW: is this semantic necessary?
if s is not None:
self._maxlinelen = MAXLINELEN - len(s) - 2
return self._maxlinelen
def append(self, s, charset=None):
"""Append string s with Charset charset to the MIME header.
charset defaults to the one given in the class constructor.
"""
if charset is None:
charset = self._charset
self._chunks.append((s, charset))
def _split(self, s, charset):
# Split up a header safely for use with encode_chunks. BAW: this
# appears to be a private convenience method.
splittable = charset.to_splittable(s)
encoded = charset.from_splittable(splittable)
elen = charset.encoded_header_len(encoded)
if elen <= self._maxlinelen:
return [(encoded, charset)]
# BAW: should we use encoded?
elif elen == len(s):
# We can split on _maxlinelen boundaries because we know that the
# encoding won't change the size of the string
splitpnt = self._maxlinelen
first = charset.from_splittable(splittable[:splitpnt], 0)
last = charset.from_splittable(splittable[splitpnt:], 0)
return self._split(first, charset) + self._split(last, charset)
else:
# Divide and conquer.
halfway = _floordiv(len(splittable), 2)
first = charset.from_splittable(splittable[:halfway], 0)
last = charset.from_splittable(splittable[halfway:], 0)
return self._split(first, charset) + self._split(last, charset)
def encode(self):
"""Encode a message header, possibly converting charset and encoding.
There are many issues involved in converting a given string for use in
an email header. Only certain character sets are readable in most
email clients, and as header strings can only contain a subset of
7-bit ASCII, care must be taken to properly convert and encode (with
Base64 or quoted-printable) header strings. In addition, there is a
75-character length limit on any given encoded header field, so
line-wrapping must be performed, even with double-byte character sets.
This method will do its best to convert the string to the correct
character set used in email, and encode and line wrap it safely with
the appropriate scheme for that character set.
If the given charset is not known or an error occurs during
conversion, this function will return the header untouched.
"""
newchunks = []
for s, charset in self._chunks:
newchunks += self._split(s, charset)
self._chunks = newchunks
return self.encode_chunks()
def encode_chunks(self):
"""MIME-encode a header with many different charsets and/or encodings.
Given a list of pairs (string, charset), return a MIME-encoded string
suitable for use in a header field. Each pair may have different
charsets and/or encodings, and the resulting header will accurately
reflect each setting.
Each encoding can be email.Utils.QP (quoted-printable, for ASCII-like
character sets like iso-8859-1), email.Utils.BASE64 (Base64, for
non-ASCII like character sets like KOI8-R and iso-2022-jp), or None
(no encoding).
Each pair will be represented on a separate line; the resulting string
will be in the format:
"=?charset1?q?Mar=EDa_Gonz=E1lez_Alonso?=\n
=?charset2?b?SvxyZ2VuIEL2aW5n?="
"""
chunks = []
for header, charset in self._chunks:
if charset is None:
_max_append(chunks, header, self._maxlinelen, ' ')
else:
_max_append(chunks, charset.header_encode(header, 0),
self._maxlinelen, ' ')
return NLSPACE.join(chunks)
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