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author | Barry Warsaw <barry@python.org> | 2002-06-28 23:46:53 (GMT) |
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committer | Barry Warsaw <barry@python.org> | 2002-06-28 23:46:53 (GMT) |
commit | 766125080f12f1ff0db7b1cf5b963e9a60324ab3 (patch) | |
tree | 3471083e0fa8ca356b87cc619cef24bc21717110 /Lib/email/Header.py | |
parent | 062749ac577be62c2f14fe61c2167c9c5b909ea3 (diff) | |
download | cpython-766125080f12f1ff0db7b1cf5b963e9a60324ab3.zip cpython-766125080f12f1ff0db7b1cf5b963e9a60324ab3.tar.gz cpython-766125080f12f1ff0db7b1cf5b963e9a60324ab3.tar.bz2 |
Teach this class about "highest-level syntactic breaks" but only for
headers with no charset or 'us-ascii' charsets. Actually this is only
partially true: we know about semicolons (but not true parameters) and
we know about whitespace (but not technically folding whitespace).
Still it should be good enough for all practical purposes.
Other changes include:
__init__(): Add a continuation_ws argument, which defaults to a single
space. Set this to change the whitespace used for continuation lines
when a header must be split. Also, changed the way header line
lengths are calculated, so that they take into account continuation_ws
(when tabs-expanded) and any provided header_name parameter. This
should do much better on returning split headers for which the first
and subsequent lines must fit into a specified width.
guess_maxlinelen(): Removed. I don't think we need this method as
part of the public API.
encode_chunks() -> _encode_chunks(): I don't think we need this one as
part of the public API either.
Diffstat (limited to 'Lib/email/Header.py')
-rw-r--r-- | Lib/email/Header.py | 209 |
1 files changed, 151 insertions, 58 deletions
diff --git a/Lib/email/Header.py b/Lib/email/Header.py index 714839e..c72f64d 100644 --- a/Lib/email/Header.py +++ b/Lib/email/Header.py @@ -16,7 +16,9 @@ except SyntaxError: CRLFSPACE = '\r\n ' CRLF = '\r\n' -NLSPACE = '\n ' +NL = '\n' +SPACE8 = ' ' * 8 +EMPTYSTRING = '' MAXLINELEN = 76 @@ -92,11 +94,12 @@ def decode_header(header): class Header: - def __init__(self, s, charset=None, maxlinelen=None, header_name=None): + def __init__(self, s, charset=None, maxlinelen=None, header_name=None, + continuation_ws=' '): """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 + 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; @@ -104,43 +107,41 @@ class Header: 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. + The maximum line length can be specified explicit via maxlinelen. For + splitting the first line to a shorter value (to account for the field + header which isn't included in s, e.g. `Subject') pass in the name of + the field in header_name. The default maxlinelen is 76. + + continuation_ws must be RFC 2822 compliant folding whitespace (usually + either a space or a hard tab) which will be prepended to continuation + lines. """ if charset is None: charset = Charset() self._charset = charset + self._continuation_ws = continuation_ws + cws_expanded_len = len(continuation_ws.replace('\t', SPACE8)) # 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) + maxlinelen = MAXLINELEN + if header_name is None: + # We don't know anything about the field header so the first line + # is the same length as subsequent lines. + self._firstlinelen = maxlinelen else: - self._maxlinelen = maxlinelen + # The first line should be shorter to take into account the field + # header. Also subtract off 2 extra for the colon and space. + self._firstlinelen = maxlinelen - len(header_name) - 2 + # Second and subsequent lines should subtract off the length in + # columns of the continuation whitespace prefix. + self._maxlinelen = maxlinelen - cws_expanded_len 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. @@ -150,7 +151,7 @@ class Header: charset = self._charset self._chunks.append((s, charset)) - def _split(self, s, charset): + def _split(self, s, charset, firstline=0): # Split up a header safely for use with encode_chunks. BAW: this # appears to be a private convenience method. splittable = charset.to_splittable(s) @@ -159,6 +160,20 @@ class Header: if elen <= self._maxlinelen: return [(encoded, charset)] + # BAW: I'm not sure what the right test here is. What we're trying to + # do is be faithful to RFC 2822's recommendation that ($2.2.3): + # + # "Note: Though structured field bodies are defined in such a way that + # folding can take place between many of the lexical tokens (and even + # within some of the lexical tokens), folding SHOULD be limited to + # placing the CRLF at higher-level syntactic breaks." + # + # For now, I can only imagine doing this when the charset is us-ascii, + # although it's possible that other charsets may also benefit from the + # higher-level syntactic breaks. + # + elif charset == 'us-ascii': + return self._ascii_split(s, charset, firstline) # BAW: should we use encoded? elif elen == len(s): # We can split on _maxlinelen boundaries because we know that the @@ -166,39 +181,91 @@ class Header: 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): + # Do the split + return self._split(first, charset, firstline) + \ + self._split(last, charset) + + def _ascii_split(self, s, charset, firstline): + # Attempt to split the line at the highest-level syntactic break + # possible. Note that we don't have a lot of smarts about field + # syntax; we just try to break on semi-colons, then whitespace. + rtn = [] + lines = s.splitlines() + while lines: + line = lines.pop(0) + if firstline: + maxlinelen = self._firstlinelen + firstline = 0 + else: + line = line.lstrip() + maxlinelen = self._maxlinelen + # Short lines can remain unchanged + if len(line.replace('\t', SPACE8)) <= maxlinelen: + rtn.append(line) + else: + oldlen = len(line) + # Try to break the line on semicolons, but if that doesn't + # work, try to split on folding whitespace. + while len(line) > maxlinelen: + i = line.rfind(';', 0, maxlinelen) + if i < 0: + break + rtn.append(line[:i] + ';') + line = line[i+1:] + # Is the remaining stuff still longer than maxlinelen? + if len(line) <= maxlinelen: + # Splitting on semis worked + rtn.append(line) + continue + # Splitting on semis didn't finish the job. If it did any + # work at all, stick the remaining junk on the front of the + # `lines' sequence and let the next pass do its thing. + if len(line) <> oldlen: + lines.insert(0, line) + continue + # Otherwise, splitting on semis didn't help at all. + parts = re.split(r'(\s+)', line) + if len(parts) == 1 or (len(parts) == 3 and + parts[0].endswith(':')): + # This line can't be split on whitespace. There's now + # little we can do to get this into maxlinelen. BAW: + # We're still potentially breaking the RFC by possibly + # allowing lines longer than the absolute maximum of 998 + # characters. For now, let it slide. + # + # len(parts) will be 1 if this line has no `Field: ' + # prefix, otherwise it will be len(3). + rtn.append(line) + continue + # There is whitespace we can split on. + first = parts.pop(0) + sublines = [first] + acc = len(first) + while parts: + len0 = len(parts[0]) + len1 = len(parts[1]) + if acc + len0 + len1 <= maxlinelen: + sublines.append(parts.pop(0)) + sublines.append(parts.pop(0)) + acc += len0 + len1 + else: + # Split it here, but don't forget to ignore the + # next whitespace-only part + if first <> '': + rtn.append(EMPTYSTRING.join(sublines)) + del parts[0] + first = parts.pop(0) + sublines = [first] + acc = len(first) + rtn.append(EMPTYSTRING.join(sublines)) + return [(chunk, charset) for chunk in rtn] + + 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 @@ -219,9 +286,35 @@ class Header: """ chunks = [] for header, charset in self._chunks: - if charset is None: - _max_append(chunks, header, self._maxlinelen, ' ') + if charset is None or charset.header_encoding is None: + # There's no encoding for this chunk's charsets + _max_append(chunks, header, self._maxlinelen) else: _max_append(chunks, charset.header_encode(header, 0), self._maxlinelen, ' ') - return NLSPACE.join(chunks) + joiner = NL + self._continuation_ws + return joiner.join(chunks) + + 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, 1) + self._chunks = newchunks + return self._encode_chunks() |