kopia lustrzana https://github.com/micropython/micropython-lib
586 wiersze
24 KiB
Python
586 wiersze
24 KiB
Python
# Copyright (C) 2002-2007 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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"""Header encoding and decoding functionality."""
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__all__ = [
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"Header",
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"decode_header",
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"make_header",
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]
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import re
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import binascii
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import email.quoprimime
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import email.base64mime
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from email.errors import HeaderParseError
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from email import charset as _charset
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Charset = _charset.Charset
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NL = "\n"
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SPACE = " "
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BSPACE = b" "
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SPACE8 = " " * 8
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EMPTYSTRING = ""
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MAXLINELEN = 78
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FWS = " \t"
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USASCII = Charset("us-ascii")
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UTF8 = Charset("utf-8")
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# Match encoded-word strings in the form =?charset?q?Hello_World?=
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ecre = re.compile(
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r"""
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=\? # literal =?
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(?P<charset>[^?]*?) # non-greedy up to the next ? is the charset
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\? # literal ?
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(?P<encoding>[qb]) # either a "q" or a "b", case insensitive
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\? # literal ?
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(?P<encoded>.*?) # non-greedy up to the next ?= is the encoded string
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\?= # literal ?=
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""",
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re.VERBOSE | re.IGNORECASE | re.MULTILINE,
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)
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# Field name regexp, including trailing colon, but not separating whitespace,
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# according to RFC 2822. Character range is from tilde to exclamation mark.
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# For use with .match()
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fcre = re.compile(r"[\041-\176]+:$")
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# Find a header embedded in a putative header value. Used to check for
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# header injection attack.
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_embeded_header = re.compile(r"\n[^ \t]+:")
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# Helpers
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_max_append = email.quoprimime._max_append
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def decode_header(header):
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"""Decode a message header value without converting charset.
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Returns a list of (string, charset) pairs containing each of the decoded
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parts of the header. Charset is None for non-encoded parts of the header,
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otherwise a lower-case string containing the name of the character set
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specified in the encoded string.
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header may be a string that may or may not contain RFC2047 encoded words,
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or it may be a Header object.
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An email.errors.HeaderParseError may be raised when certain decoding error
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occurs (e.g. a base64 decoding exception).
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"""
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# If it is a Header object, we can just return the encoded chunks.
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if hasattr(header, "_chunks"):
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return [
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(_charset._encode(string, str(charset)), str(charset))
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for string, charset in header._chunks
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]
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# If no encoding, just return the header with no charset.
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if not ecre.search(header):
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return [(header, None)]
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# First step is to parse all the encoded parts into triplets of the form
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# (encoded_string, encoding, charset). For unencoded strings, the last
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# two parts will be None.
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words = []
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for line in header.splitlines():
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parts = ecre.split(line)
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first = True
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while parts:
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unencoded = parts.pop(0)
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if first:
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unencoded = unencoded.lstrip()
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first = False
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if unencoded:
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words.append((unencoded, None, None))
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if parts:
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charset = parts.pop(0).lower()
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encoding = parts.pop(0).lower()
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encoded = parts.pop(0)
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words.append((encoded, encoding, charset))
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# Now loop over words and remove words that consist of whitespace
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# between two encoded strings.
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import sys
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droplist = []
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for n, w in enumerate(words):
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if n > 1 and w[1] and words[n - 2][1] and words[n - 1][0].isspace():
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droplist.append(n - 1)
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for d in reversed(droplist):
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del words[d]
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# The next step is to decode each encoded word by applying the reverse
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# base64 or quopri transformation. decoded_words is now a list of the
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# form (decoded_word, charset).
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decoded_words = []
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for encoded_string, encoding, charset in words:
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if encoding is None:
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# This is an unencoded word.
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decoded_words.append((encoded_string, charset))
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elif encoding == "q":
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word = email.quoprimime.header_decode(encoded_string)
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decoded_words.append((word, charset))
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elif encoding == "b":
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paderr = len(encoded_string) % 4 # Postel's law: add missing padding
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if paderr:
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encoded_string += "==="[: 4 - paderr]
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try:
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word = email.base64mime.decode(encoded_string)
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except binascii.Error:
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raise HeaderParseError("Base64 decoding error")
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else:
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decoded_words.append((word, charset))
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else:
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raise AssertionError("Unexpected encoding: " + encoding)
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# Now convert all words to bytes and collapse consecutive runs of
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# similarly encoded words.
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collapsed = []
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last_word = last_charset = None
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for word, charset in decoded_words:
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if isinstance(word, str):
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word = bytes(word, "raw-unicode-escape")
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if last_word is None:
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last_word = word
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last_charset = charset
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elif charset != last_charset:
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collapsed.append((last_word, last_charset))
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last_word = word
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last_charset = charset
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elif last_charset is None:
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last_word += BSPACE + word
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else:
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last_word += word
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collapsed.append((last_word, last_charset))
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return collapsed
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def make_header(decoded_seq, maxlinelen=None, header_name=None, continuation_ws=" "):
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"""Create a Header from a sequence of pairs as returned by decode_header()
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decode_header() takes a header value string and returns a sequence of
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pairs of the format (decoded_string, charset) where charset is the string
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name of the character set.
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This function takes one of those sequence of pairs and returns a Header
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instance. Optional maxlinelen, header_name, and continuation_ws are as in
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the Header constructor.
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"""
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h = Header(maxlinelen=maxlinelen, header_name=header_name, continuation_ws=continuation_ws)
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for s, charset in decoded_seq:
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# None means us-ascii but we can simply pass it on to h.append()
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if charset is not None and not isinstance(charset, Charset):
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charset = Charset(charset)
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h.append(s, charset)
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return h
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class Header:
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def __init__(
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self,
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s=None,
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charset=None,
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maxlinelen=None,
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header_name=None,
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continuation_ws=" ",
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errors="strict",
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):
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"""Create a MIME-compliant header that can contain many character sets.
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Optional s is the initial header value. If None, the initial header
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value is not set. You can later append to the header with .append()
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method calls. s may be a byte string or a Unicode string, but see the
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.append() documentation for semantics.
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Optional charset serves two purposes: it has the same meaning as the
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charset argument to the .append() method. It also sets the default
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character set for all subsequent .append() calls that omit the charset
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argument. If charset is not provided in the constructor, the us-ascii
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charset is used both as s's initial charset and as the default for
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subsequent .append() calls.
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The maximum line length can be specified explicitly via maxlinelen. For
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splitting the first line to a shorter value (to account for the field
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header which isn't included in s, e.g. `Subject') pass in the name of
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the field in header_name. The default maxlinelen is 78 as recommended
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by RFC 2822.
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continuation_ws must be RFC 2822 compliant folding whitespace (usually
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either a space or a hard tab) which will be prepended to continuation
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lines.
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errors is passed through to the .append() call.
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"""
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if charset is None:
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charset = USASCII
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elif not isinstance(charset, Charset):
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charset = Charset(charset)
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self._charset = charset
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self._continuation_ws = continuation_ws
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self._chunks = []
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if s is not None:
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self.append(s, charset, errors)
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if maxlinelen is None:
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maxlinelen = MAXLINELEN
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self._maxlinelen = maxlinelen
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if header_name is None:
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self._headerlen = 0
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else:
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# Take the separating colon and space into account.
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self._headerlen = len(header_name) + 2
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def __str__(self):
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"""Return the string value of the header."""
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self._normalize()
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uchunks = []
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lastcs = None
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lastspace = None
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for string, charset in self._chunks:
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# We must preserve spaces between encoded and non-encoded word
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# boundaries, which means for us we need to add a space when we go
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# from a charset to None/us-ascii, or from None/us-ascii to a
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# charset. Only do this for the second and subsequent chunks.
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# Don't add a space if the None/us-ascii string already has
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# a space (trailing or leading depending on transition)
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nextcs = charset
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if nextcs == _charset.UNKNOWN8BIT:
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original_bytes = string.encode("ascii", "surrogateescape")
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string = original_bytes.decode("ascii", "replace")
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if uchunks:
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hasspace = string and self._nonctext(string[0])
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if lastcs not in (None, "us-ascii"):
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if nextcs in (None, "us-ascii") and not hasspace:
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uchunks.append(SPACE)
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nextcs = None
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elif nextcs not in (None, "us-ascii") and not lastspace:
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uchunks.append(SPACE)
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lastspace = string and self._nonctext(string[-1])
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lastcs = nextcs
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uchunks.append(string)
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return EMPTYSTRING.join(uchunks)
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# Rich comparison operators for equality only. BAW: does it make sense to
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# have or explicitly disable <, <=, >, >= operators?
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def __eq__(self, other):
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# other may be a Header or a string. Both are fine so coerce
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# ourselves to a unicode (of the unencoded header value), swap the
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# args and do another comparison.
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return other == str(self)
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def __ne__(self, other):
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return not self == other
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def append(self, s, charset=None, errors="strict"):
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"""Append a string to the MIME header.
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Optional charset, if given, should be a Charset instance or the name
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of a character set (which will be converted to a Charset instance). A
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value of None (the default) means that the charset given in the
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constructor is used.
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s may be a byte string or a Unicode string. If it is a byte string
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(i.e. isinstance(s, str) is false), then charset is the encoding of
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that byte string, and a UnicodeError will be raised if the string
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cannot be decoded with that charset. If s is a Unicode string, then
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charset is a hint specifying the character set of the characters in
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the string. In either case, when producing an RFC 2822 compliant
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header using RFC 2047 rules, the string will be encoded using the
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output codec of the charset. If the string cannot be encoded to the
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output codec, a UnicodeError will be raised.
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Optional `errors' is passed as the errors argument to the decode
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call if s is a byte string.
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"""
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if charset is None:
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charset = self._charset
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elif not isinstance(charset, Charset):
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charset = Charset(charset)
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if not isinstance(s, str):
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input_charset = charset.input_codec or "us-ascii"
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if input_charset == _charset.UNKNOWN8BIT:
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s = s.decode("us-ascii", "surrogateescape")
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else:
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s = s.decode(input_charset, errors)
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# Ensure that the bytes we're storing can be decoded to the output
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# character set, otherwise an early error is raised.
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output_charset = charset.output_codec or "us-ascii"
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if output_charset != _charset.UNKNOWN8BIT:
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try:
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s.encode(output_charset, errors)
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except UnicodeEncodeError:
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if output_charset != "us-ascii":
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raise
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charset = UTF8
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self._chunks.append((s, charset))
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def _nonctext(self, s):
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"""True if string s is not a ctext character of RFC822."""
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return s in (" ", "\t", "(", ")", "\\")
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def encode(self, splitchars=";, \t", maxlinelen=None, linesep="\n"):
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r"""Encode a message header into an RFC-compliant format.
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There are many issues involved in converting a given string for use in
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an email header. Only certain character sets are readable in most
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email clients, and as header strings can only contain a subset of
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7-bit ASCII, care must be taken to properly convert and encode (with
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Base64 or quoted-printable) header strings. In addition, there is a
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75-character length limit on any given encoded header field, so
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line-wrapping must be performed, even with double-byte character sets.
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Optional maxlinelen specifies the maximum length of each generated
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line, exclusive of the linesep string. Individual lines may be longer
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than maxlinelen if a folding point cannot be found. The first line
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will be shorter by the length of the header name plus ": " if a header
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name was specified at Header construction time. The default value for
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maxlinelen is determined at header construction time.
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Optional splitchars is a string containing characters which should be
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given extra weight by the splitting algorithm during normal header
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wrapping. This is in very rough support of RFC 2822's `higher level
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syntactic breaks': split points preceded by a splitchar are preferred
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during line splitting, with the characters preferred in the order in
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which they appear in the string. Space and tab may be included in the
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string to indicate whether preference should be given to one over the
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other as a split point when other split chars do not appear in the line
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being split. Splitchars does not affect RFC 2047 encoded lines.
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Optional linesep is a string to be used to separate the lines of
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the value. The default value is the most useful for typical
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Python applications, but it can be set to \r\n to produce RFC-compliant
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line separators when needed.
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"""
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self._normalize()
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if maxlinelen is None:
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maxlinelen = self._maxlinelen
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# A maxlinelen of 0 means don't wrap. For all practical purposes,
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# choosing a huge number here accomplishes that and makes the
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# _ValueFormatter algorithm much simpler.
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if maxlinelen == 0:
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maxlinelen = 1000000
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formatter = _ValueFormatter(self._headerlen, maxlinelen, self._continuation_ws, splitchars)
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lastcs = None
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hasspace = lastspace = None
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for string, charset in self._chunks:
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if hasspace is not None:
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hasspace = string and self._nonctext(string[0])
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import sys
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if lastcs not in (None, "us-ascii"):
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if not hasspace or charset not in (None, "us-ascii"):
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formatter.add_transition()
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elif charset not in (None, "us-ascii") and not lastspace:
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formatter.add_transition()
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lastspace = string and self._nonctext(string[-1])
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lastcs = charset
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hasspace = False
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lines = string.splitlines()
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if lines:
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formatter.feed("", lines[0], charset)
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else:
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formatter.feed("", "", charset)
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for line in lines[1:]:
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formatter.newline()
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if charset.header_encoding is not None:
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formatter.feed(self._continuation_ws, " " + line.lstrip(), charset)
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else:
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sline = line.lstrip()
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fws = line[: len(line) - len(sline)]
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formatter.feed(fws, sline, charset)
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if len(lines) > 1:
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formatter.newline()
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if self._chunks:
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formatter.add_transition()
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value = formatter._str(linesep)
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if _embeded_header.search(value):
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raise HeaderParseError(
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"header value appears to contain " "an embedded header: {!r}".format(value)
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)
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return value
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def _normalize(self):
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# Step 1: Normalize the chunks so that all runs of identical charsets
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# get collapsed into a single unicode string.
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chunks = []
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last_charset = None
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last_chunk = []
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for string, charset in self._chunks:
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if charset == last_charset:
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last_chunk.append(string)
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else:
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if last_charset is not None:
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chunks.append((SPACE.join(last_chunk), last_charset))
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last_chunk = [string]
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last_charset = charset
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if last_chunk:
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chunks.append((SPACE.join(last_chunk), last_charset))
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self._chunks = chunks
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class _ValueFormatter:
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def __init__(self, headerlen, maxlen, continuation_ws, splitchars):
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self._maxlen = maxlen
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self._continuation_ws = continuation_ws
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self._continuation_ws_len = len(continuation_ws)
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self._splitchars = splitchars
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self._lines = []
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self._current_line = _Accumulator(headerlen)
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def _str(self, linesep):
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self.newline()
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return linesep.join(self._lines)
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def __str__(self):
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return self._str(NL)
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def newline(self):
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end_of_line = self._current_line.pop()
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if end_of_line != (" ", ""):
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self._current_line.push(*end_of_line)
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if len(self._current_line) > 0:
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if self._current_line.is_onlyws():
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self._lines[-1] += str(self._current_line)
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else:
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self._lines.append(str(self._current_line))
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self._current_line.reset()
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def add_transition(self):
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self._current_line.push(" ", "")
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def feed(self, fws, string, charset):
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# If the charset has no header encoding (i.e. it is an ASCII encoding)
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# then we must split the header at the "highest level syntactic break"
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# possible. Note that we don't have a lot of smarts about field
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# syntax; we just try to break on semi-colons, then commas, then
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# whitespace. Eventually, this should be pluggable.
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if charset.header_encoding is None:
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self._ascii_split(fws, string, self._splitchars)
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return
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# Otherwise, we're doing either a Base64 or a quoted-printable
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# encoding which means we don't need to split the line on syntactic
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# breaks. We can basically just find enough characters to fit on the
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# current line, minus the RFC 2047 chrome. What makes this trickier
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# though is that we have to split at octet boundaries, not character
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# boundaries but it's only safe to split at character boundaries so at
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# best we can only get close.
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encoded_lines = charset.header_encode_lines(string, self._maxlengths())
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# The first element extends the current line, but if it's None then
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# nothing more fit on the current line so start a new line.
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try:
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first_line = encoded_lines.pop(0)
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except IndexError:
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# There are no encoded lines, so we're done.
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return
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if first_line is not None:
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self._append_chunk(fws, first_line)
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try:
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last_line = encoded_lines.pop()
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except IndexError:
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# There was only one line.
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return
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self.newline()
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self._current_line.push(self._continuation_ws, last_line)
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# Everything else are full lines in themselves.
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for line in encoded_lines:
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self._lines.append(self._continuation_ws + line)
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def _maxlengths(self):
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# The first line's length.
|
|
yield self._maxlen - len(self._current_line)
|
|
while True:
|
|
yield self._maxlen - self._continuation_ws_len
|
|
|
|
def _ascii_split(self, fws, string, splitchars):
|
|
# The RFC 2822 header folding algorithm is simple in principle but
|
|
# complex in practice. Lines may be folded any place where "folding
|
|
# white space" appears by inserting a linesep character in front of the
|
|
# FWS. The complication is that not all spaces or tabs qualify as FWS,
|
|
# and we are also supposed to prefer to break at "higher level
|
|
# syntactic breaks". We can't do either of these without intimate
|
|
# knowledge of the structure of structured headers, which we don't have
|
|
# here. So the best we can do here is prefer to break at the specified
|
|
# splitchars, and hope that we don't choose any spaces or tabs that
|
|
# aren't legal FWS. (This is at least better than the old algorithm,
|
|
# where we would sometimes *introduce* FWS after a splitchar, or the
|
|
# algorithm before that, where we would turn all white space runs into
|
|
# single spaces or tabs.)
|
|
parts = re.split("([" + FWS + "]+)", fws + string)
|
|
if parts[0]:
|
|
parts[:0] = [""]
|
|
else:
|
|
parts.pop(0)
|
|
for fws, part in zip(*[iter(parts)] * 2):
|
|
self._append_chunk(fws, part)
|
|
|
|
def _append_chunk(self, fws, string):
|
|
self._current_line.push(fws, string)
|
|
if len(self._current_line) > self._maxlen:
|
|
# Find the best split point, working backward from the end.
|
|
# There might be none, on a long first line.
|
|
for ch in self._splitchars:
|
|
for i in range(self._current_line.part_count() - 1, 0, -1):
|
|
if ch.isspace():
|
|
fws = self._current_line[i][0]
|
|
if fws and fws[0] == ch:
|
|
break
|
|
prevpart = self._current_line[i - 1][1]
|
|
if prevpart and prevpart[-1] == ch:
|
|
break
|
|
else:
|
|
continue
|
|
break
|
|
else:
|
|
fws, part = self._current_line.pop()
|
|
if self._current_line._initial_size > 0:
|
|
# There will be a header, so leave it on a line by itself.
|
|
self.newline()
|
|
if not fws:
|
|
# We don't use continuation_ws here because the whitespace
|
|
# after a header should always be a space.
|
|
fws = " "
|
|
self._current_line.push(fws, part)
|
|
return
|
|
remainder = self._current_line.pop_from(i)
|
|
self._lines.append(str(self._current_line))
|
|
self._current_line.reset(remainder)
|
|
|
|
|
|
class _Accumulator(list):
|
|
def __init__(self, initial_size=0):
|
|
self._initial_size = initial_size
|
|
super().__init__()
|
|
|
|
def push(self, fws, string):
|
|
self.append((fws, string))
|
|
|
|
def pop_from(self, i=0):
|
|
popped = self[i:]
|
|
self[i:] = []
|
|
return popped
|
|
|
|
def pop(self):
|
|
if self.part_count() == 0:
|
|
return ("", "")
|
|
return super().pop()
|
|
|
|
def __len__(self):
|
|
return sum((len(fws) + len(part) for fws, part in self), self._initial_size)
|
|
|
|
def __str__(self):
|
|
return EMPTYSTRING.join((EMPTYSTRING.join((fws, part)) for fws, part in self))
|
|
|
|
def reset(self, startval=None):
|
|
if startval is None:
|
|
startval = []
|
|
self[:] = startval
|
|
self._initial_size = 0
|
|
|
|
def is_onlyws(self):
|
|
return self._initial_size == 0 and (not self or str(self).isspace())
|
|
|
|
def part_count(self):
|
|
return super().__len__()
|