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15a693a6f8
So passing unicode to set_payload works again (but still doesn't do what you want when the message is serialized).
410 lines
17 KiB
Python
410 lines
17 KiB
Python
# Copyright (C) 2001-2007 Python Software Foundation
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# Author: Ben Gertzfield, Barry Warsaw
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# Contact: email-sig@python.org
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__all__ = [
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'Charset',
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'add_alias',
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'add_charset',
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'add_codec',
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]
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from functools import partial
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import email.base64mime
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import email.quoprimime
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from email import errors
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from email.encoders import encode_7or8bit
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# Flags for types of header encodings
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QP = 1 # Quoted-Printable
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BASE64 = 2 # Base64
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SHORTEST = 3 # the shorter of QP and base64, but only for headers
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# In "=?charset?q?hello_world?=", the =?, ?q?, and ?= add up to 7
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RFC2047_CHROME_LEN = 7
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DEFAULT_CHARSET = 'us-ascii'
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UNKNOWN8BIT = 'unknown-8bit'
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EMPTYSTRING = ''
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# Defaults
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CHARSETS = {
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# input header enc body enc output conv
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'iso-8859-1': (QP, QP, None),
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'iso-8859-2': (QP, QP, None),
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'iso-8859-3': (QP, QP, None),
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'iso-8859-4': (QP, QP, None),
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# iso-8859-5 is Cyrillic, and not especially used
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# iso-8859-6 is Arabic, also not particularly used
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# iso-8859-7 is Greek, QP will not make it readable
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# iso-8859-8 is Hebrew, QP will not make it readable
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'iso-8859-9': (QP, QP, None),
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'iso-8859-10': (QP, QP, None),
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# iso-8859-11 is Thai, QP will not make it readable
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'iso-8859-13': (QP, QP, None),
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'iso-8859-14': (QP, QP, None),
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'iso-8859-15': (QP, QP, None),
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'iso-8859-16': (QP, QP, None),
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'windows-1252':(QP, QP, None),
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'viscii': (QP, QP, None),
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'us-ascii': (None, None, None),
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'big5': (BASE64, BASE64, None),
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'gb2312': (BASE64, BASE64, None),
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'euc-jp': (BASE64, None, 'iso-2022-jp'),
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'shift_jis': (BASE64, None, 'iso-2022-jp'),
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'iso-2022-jp': (BASE64, None, None),
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'koi8-r': (BASE64, BASE64, None),
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'utf-8': (SHORTEST, BASE64, 'utf-8'),
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}
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# Aliases for other commonly-used names for character sets. Map
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# them to the real ones used in email.
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ALIASES = {
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'latin_1': 'iso-8859-1',
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'latin-1': 'iso-8859-1',
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'latin_2': 'iso-8859-2',
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'latin-2': 'iso-8859-2',
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'latin_3': 'iso-8859-3',
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'latin-3': 'iso-8859-3',
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'latin_4': 'iso-8859-4',
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'latin-4': 'iso-8859-4',
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'latin_5': 'iso-8859-9',
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'latin-5': 'iso-8859-9',
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'latin_6': 'iso-8859-10',
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'latin-6': 'iso-8859-10',
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'latin_7': 'iso-8859-13',
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'latin-7': 'iso-8859-13',
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'latin_8': 'iso-8859-14',
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'latin-8': 'iso-8859-14',
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'latin_9': 'iso-8859-15',
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'latin-9': 'iso-8859-15',
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'latin_10':'iso-8859-16',
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'latin-10':'iso-8859-16',
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'cp949': 'ks_c_5601-1987',
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'euc_jp': 'euc-jp',
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'euc_kr': 'euc-kr',
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'ascii': 'us-ascii',
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}
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# Map charsets to their Unicode codec strings.
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CODEC_MAP = {
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'gb2312': 'eucgb2312_cn',
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'big5': 'big5_tw',
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# Hack: We don't want *any* conversion for stuff marked us-ascii, as all
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# sorts of garbage might be sent to us in the guise of 7-bit us-ascii.
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# Let that stuff pass through without conversion to/from Unicode.
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'us-ascii': None,
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}
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# Convenience functions for extending the above mappings
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def add_charset(charset, header_enc=None, body_enc=None, output_charset=None):
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"""Add character set properties to the global registry.
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charset is the input character set, and must be the canonical name of a
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character set.
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Optional header_enc and body_enc is either Charset.QP for
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quoted-printable, Charset.BASE64 for base64 encoding, Charset.SHORTEST for
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the shortest of qp or base64 encoding, or None for no encoding. SHORTEST
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is only valid for header_enc. It describes how message headers and
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message bodies in the input charset are to be encoded. Default is no
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encoding.
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Optional output_charset is the character set that the output should be
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in. Conversions will proceed from input charset, to Unicode, to the
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output charset when the method Charset.convert() is called. The default
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is to output in the same character set as the input.
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Both input_charset and output_charset must have Unicode codec entries in
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the module's charset-to-codec mapping; use add_codec(charset, codecname)
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to add codecs the module does not know about. See the codecs module's
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documentation for more information.
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"""
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if body_enc == SHORTEST:
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raise ValueError('SHORTEST not allowed for body_enc')
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CHARSETS[charset] = (header_enc, body_enc, output_charset)
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def add_alias(alias, canonical):
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"""Add a character set alias.
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alias is the alias name, e.g. latin-1
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canonical is the character set's canonical name, e.g. iso-8859-1
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"""
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ALIASES[alias] = canonical
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def add_codec(charset, codecname):
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"""Add a codec that map characters in the given charset to/from Unicode.
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charset is the canonical name of a character set. codecname is the name
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of a Python codec, as appropriate for the second argument to the unicode()
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built-in, or to the encode() method of a Unicode string.
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"""
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CODEC_MAP[charset] = codecname
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# Convenience function for encoding strings, taking into account
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# that they might be unknown-8bit (ie: have surrogate-escaped bytes)
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def _encode(string, codec):
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if codec == UNKNOWN8BIT:
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return string.encode('ascii', 'surrogateescape')
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else:
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return string.encode(codec)
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class Charset:
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"""Map character sets to their email properties.
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This class provides information about the requirements imposed on email
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for a specific character set. It also provides convenience routines for
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converting between character sets, given the availability of the
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applicable codecs. Given a character set, it will do its best to provide
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information on how to use that character set in an email in an
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RFC-compliant way.
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Certain character sets must be encoded with quoted-printable or base64
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when used in email headers or bodies. Certain character sets must be
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converted outright, and are not allowed in email. Instances of this
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module expose the following information about a character set:
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input_charset: The initial character set specified. Common aliases
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are converted to their `official' email names (e.g. latin_1
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is converted to iso-8859-1). Defaults to 7-bit us-ascii.
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header_encoding: If the character set must be encoded before it can be
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used in an email header, this attribute will be set to
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Charset.QP (for quoted-printable), Charset.BASE64 (for
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base64 encoding), or Charset.SHORTEST for the shortest of
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QP or BASE64 encoding. Otherwise, it will be None.
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body_encoding: Same as header_encoding, but describes the encoding for the
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mail message's body, which indeed may be different than the
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header encoding. Charset.SHORTEST is not allowed for
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body_encoding.
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output_charset: Some character sets must be converted before they can be
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used in email headers or bodies. If the input_charset is
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one of them, this attribute will contain the name of the
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charset output will be converted to. Otherwise, it will
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be None.
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input_codec: The name of the Python codec used to convert the
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input_charset to Unicode. If no conversion codec is
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necessary, this attribute will be None.
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output_codec: The name of the Python codec used to convert Unicode
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to the output_charset. If no conversion codec is necessary,
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this attribute will have the same value as the input_codec.
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"""
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def __init__(self, input_charset=DEFAULT_CHARSET):
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# RFC 2046, $4.1.2 says charsets are not case sensitive. We coerce to
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# unicode because its .lower() is locale insensitive. If the argument
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# is already a unicode, we leave it at that, but ensure that the
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# charset is ASCII, as the standard (RFC XXX) requires.
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try:
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if isinstance(input_charset, str):
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input_charset.encode('ascii')
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else:
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input_charset = str(input_charset, 'ascii')
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except UnicodeError:
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raise errors.CharsetError(input_charset)
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input_charset = input_charset.lower()
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# Set the input charset after filtering through the aliases
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self.input_charset = ALIASES.get(input_charset, input_charset)
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# We can try to guess which encoding and conversion to use by the
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# charset_map dictionary. Try that first, but let the user override
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# it.
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henc, benc, conv = CHARSETS.get(self.input_charset,
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(SHORTEST, BASE64, None))
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if not conv:
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conv = self.input_charset
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# Set the attributes, allowing the arguments to override the default.
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self.header_encoding = henc
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self.body_encoding = benc
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self.output_charset = ALIASES.get(conv, conv)
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# Now set the codecs. If one isn't defined for input_charset,
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# guess and try a Unicode codec with the same name as input_codec.
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self.input_codec = CODEC_MAP.get(self.input_charset,
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self.input_charset)
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self.output_codec = CODEC_MAP.get(self.output_charset,
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self.output_charset)
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def __str__(self):
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return self.input_charset.lower()
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__repr__ = __str__
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def __eq__(self, other):
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return str(self) == str(other).lower()
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def __ne__(self, other):
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return not self.__eq__(other)
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def get_body_encoding(self):
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"""Return the content-transfer-encoding used for body encoding.
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This is either the string `quoted-printable' or `base64' depending on
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the encoding used, or it is a function in which case you should call
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the function with a single argument, the Message object being
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encoded. The function should then set the Content-Transfer-Encoding
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header itself to whatever is appropriate.
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Returns "quoted-printable" if self.body_encoding is QP.
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Returns "base64" if self.body_encoding is BASE64.
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Returns conversion function otherwise.
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"""
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assert self.body_encoding != SHORTEST
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if self.body_encoding == QP:
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return 'quoted-printable'
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elif self.body_encoding == BASE64:
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return 'base64'
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else:
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return encode_7or8bit
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def get_output_charset(self):
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"""Return the output character set.
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This is self.output_charset if that is not None, otherwise it is
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self.input_charset.
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"""
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return self.output_charset or self.input_charset
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def header_encode(self, string):
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"""Header-encode a string by converting it first to bytes.
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The type of encoding (base64 or quoted-printable) will be based on
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this charset's `header_encoding`.
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:param string: A unicode string for the header. It must be possible
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to encode this string to bytes using the character set's
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output codec.
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:return: The encoded string, with RFC 2047 chrome.
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"""
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codec = self.output_codec or 'us-ascii'
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header_bytes = _encode(string, codec)
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# 7bit/8bit encodings return the string unchanged (modulo conversions)
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encoder_module = self._get_encoder(header_bytes)
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if encoder_module is None:
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return string
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return encoder_module.header_encode(header_bytes, codec)
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def header_encode_lines(self, string, maxlengths):
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"""Header-encode a string by converting it first to bytes.
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This is similar to `header_encode()` except that the string is fit
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into maximum line lengths as given by the argument.
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:param string: A unicode string for the header. It must be possible
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to encode this string to bytes using the character set's
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output codec.
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:param maxlengths: Maximum line length iterator. Each element
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returned from this iterator will provide the next maximum line
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length. This parameter is used as an argument to built-in next()
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and should never be exhausted. The maximum line lengths should
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not count the RFC 2047 chrome. These line lengths are only a
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hint; the splitter does the best it can.
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:return: Lines of encoded strings, each with RFC 2047 chrome.
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"""
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# See which encoding we should use.
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codec = self.output_codec or 'us-ascii'
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header_bytes = _encode(string, codec)
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encoder_module = self._get_encoder(header_bytes)
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encoder = partial(encoder_module.header_encode, charset=codec)
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# Calculate the number of characters that the RFC 2047 chrome will
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# contribute to each line.
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charset = self.get_output_charset()
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extra = len(charset) + RFC2047_CHROME_LEN
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# Now comes the hard part. We must encode bytes but we can't split on
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# bytes because some character sets are variable length and each
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# encoded word must stand on its own. So the problem is you have to
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# encode to bytes to figure out this word's length, but you must split
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# on characters. This causes two problems: first, we don't know how
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# many octets a specific substring of unicode characters will get
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# encoded to, and second, we don't know how many ASCII characters
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# those octets will get encoded to. Unless we try it. Which seems
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# inefficient. In the interest of being correct rather than fast (and
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# in the hope that there will be few encoded headers in any such
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# message), brute force it. :(
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lines = []
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current_line = []
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maxlen = next(maxlengths) - extra
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for character in string:
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current_line.append(character)
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this_line = EMPTYSTRING.join(current_line)
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length = encoder_module.header_length(_encode(this_line, charset))
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if length > maxlen:
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# This last character doesn't fit so pop it off.
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current_line.pop()
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# Does nothing fit on the first line?
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if not lines and not current_line:
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lines.append(None)
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else:
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separator = (' ' if lines else '')
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joined_line = EMPTYSTRING.join(current_line)
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header_bytes = _encode(joined_line, codec)
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lines.append(encoder(header_bytes))
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current_line = [character]
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maxlen = next(maxlengths) - extra
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joined_line = EMPTYSTRING.join(current_line)
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header_bytes = _encode(joined_line, codec)
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lines.append(encoder(header_bytes))
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return lines
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def _get_encoder(self, header_bytes):
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if self.header_encoding == BASE64:
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return email.base64mime
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elif self.header_encoding == QP:
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return email.quoprimime
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elif self.header_encoding == SHORTEST:
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len64 = email.base64mime.header_length(header_bytes)
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lenqp = email.quoprimime.header_length(header_bytes)
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if len64 < lenqp:
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return email.base64mime
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else:
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return email.quoprimime
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else:
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return None
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def body_encode(self, string):
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"""Body-encode a string by converting it first to bytes.
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The type of encoding (base64 or quoted-printable) will be based on
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self.body_encoding. If body_encoding is None, we assume the
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output charset is a 7bit encoding, so re-encoding the decoded
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string using the ascii codec produces the correct string version
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of the content.
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"""
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if not string:
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return string
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if self.body_encoding is BASE64:
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if isinstance(string, str):
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string = string.encode(self.output_charset)
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return email.base64mime.body_encode(string)
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elif self.body_encoding is QP:
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# quopromime.body_encode takes a string, but operates on it as if
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# it were a list of byte codes. For a (minimal) history on why
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# this is so, see changeset 0cf700464177. To correctly encode a
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# character set, then, we must turn it into pseudo bytes via the
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# latin1 charset, which will encode any byte as a single code point
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# between 0 and 255, which is what body_encode is expecting.
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if isinstance(string, str):
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string = string.encode(self.output_charset)
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string = string.decode('latin1')
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return email.quoprimime.body_encode(string)
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else:
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if isinstance(string, str):
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string = string.encode(self.output_charset).decode('ascii')
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return string
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