|
"""Header value parser implementing various email-related RFC parsing rules. |
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|
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The parsing methods defined in this module implement various email related |
|
parsing rules. Principal among them is RFC 5322, which is the followon |
|
to RFC 2822 and primarily a clarification of the former. It also implements |
|
RFC 2047 encoded word decoding. |
|
|
|
RFC 5322 goes to considerable trouble to maintain backward compatibility with |
|
RFC 822 in the parse phase, while cleaning up the structure on the generation |
|
phase. This parser supports correct RFC 5322 generation by tagging white space |
|
as folding white space only when folding is allowed in the non-obsolete rule |
|
sets. Actually, the parser is even more generous when accepting input than RFC |
|
5322 mandates, following the spirit of Postel's Law, which RFC 5322 encourages. |
|
Where possible deviations from the standard are annotated on the 'defects' |
|
attribute of tokens that deviate. |
|
|
|
The general structure of the parser follows RFC 5322, and uses its terminology |
|
where there is a direct correspondence. Where the implementation requires a |
|
somewhat different structure than that used by the formal grammar, new terms |
|
that mimic the closest existing terms are used. Thus, it really helps to have |
|
a copy of RFC 5322 handy when studying this code. |
|
|
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Input to the parser is a string that has already been unfolded according to |
|
RFC 5322 rules. According to the RFC this unfolding is the very first step, and |
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this parser leaves the unfolding step to a higher level message parser, which |
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will have already detected the line breaks that need unfolding while |
|
determining the beginning and end of each header. |
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|
|
The output of the parser is a TokenList object, which is a list subclass. A |
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TokenList is a recursive data structure. The terminal nodes of the structure |
|
are Terminal objects, which are subclasses of str. These do not correspond |
|
directly to terminal objects in the formal grammar, but are instead more |
|
practical higher level combinations of true terminals. |
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|
|
All TokenList and Terminal objects have a 'value' attribute, which produces the |
|
semantically meaningful value of that part of the parse subtree. The value of |
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all whitespace tokens (no matter how many sub-tokens they may contain) is a |
|
single space, as per the RFC rules. This includes 'CFWS', which is herein |
|
included in the general class of whitespace tokens. There is one exception to |
|
the rule that whitespace tokens are collapsed into single spaces in values: in |
|
the value of a 'bare-quoted-string' (a quoted-string with no leading or |
|
trailing whitespace), any whitespace that appeared between the quotation marks |
|
is preserved in the returned value. Note that in all Terminal strings quoted |
|
pairs are turned into their unquoted values. |
|
|
|
All TokenList and Terminal objects also have a string value, which attempts to |
|
be a "canonical" representation of the RFC-compliant form of the substring that |
|
produced the parsed subtree, including minimal use of quoted pair quoting. |
|
Whitespace runs are not collapsed. |
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|
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Comment tokens also have a 'content' attribute providing the string found |
|
between the parens (including any nested comments) with whitespace preserved. |
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|
|
All TokenList and Terminal objects have a 'defects' attribute which is a |
|
possibly empty list all of the defects found while creating the token. Defects |
|
may appear on any token in the tree, and a composite list of all defects in the |
|
subtree is available through the 'all_defects' attribute of any node. (For |
|
Terminal notes x.defects == x.all_defects.) |
|
|
|
Each object in a parse tree is called a 'token', and each has a 'token_type' |
|
attribute that gives the name from the RFC 5322 grammar that it represents. |
|
Not all RFC 5322 nodes are produced, and there is one non-RFC 5322 node that |
|
may be produced: 'ptext'. A 'ptext' is a string of printable ascii characters. |
|
It is returned in place of lists of (ctext/quoted-pair) and |
|
(qtext/quoted-pair). |
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|
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XXX: provide complete list of token types. |
|
""" |
|
|
|
import re |
|
import sys |
|
import urllib |
|
from string import hexdigits |
|
from operator import itemgetter |
|
from email import _encoded_words as _ew |
|
from email import errors |
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from email import utils |
|
|
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|
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WSP = set(' \t') |
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CFWS_LEADER = WSP | set('(') |
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SPECIALS = set(r'()<>@,:;.\"[]') |
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ATOM_ENDS = SPECIALS | WSP |
|
DOT_ATOM_ENDS = ATOM_ENDS - set('.') |
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|
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PHRASE_ENDS = SPECIALS - set('."(') |
|
TSPECIALS = (SPECIALS | set('/?=')) - set('.') |
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TOKEN_ENDS = TSPECIALS | WSP |
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ASPECIALS = TSPECIALS | set("*'%") |
|
ATTRIBUTE_ENDS = ASPECIALS | WSP |
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EXTENDED_ATTRIBUTE_ENDS = ATTRIBUTE_ENDS - set('%') |
|
|
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def quote_string(value): |
|
return '"'+str(value).replace('\\', '\\\\').replace('"', r'\"')+'"' |
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|
|
|
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rfc2047_matcher = re.compile(r''' |
|
=\? # literal =? |
|
[^?]* # charset |
|
\? # literal ? |
|
[qQbB] # literal 'q' or 'b', case insensitive |
|
\? # literal ? |
|
.*? # encoded word |
|
\?= # literal ?= |
|
''', re.VERBOSE | re.MULTILINE) |
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|
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class TokenList(list): |
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|
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token_type = None |
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syntactic_break = True |
|
ew_combine_allowed = True |
|
|
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def __init__(self, *args, **kw): |
|
super().__init__(*args, **kw) |
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self.defects = [] |
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|
|
def __str__(self): |
|
return ''.join(str(x) for x in self) |
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|
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def __repr__(self): |
|
return '{}({})'.format(self.__class__.__name__, |
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super().__repr__()) |
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|
|
@property |
|
def value(self): |
|
return ''.join(x.value for x in self if x.value) |
|
|
|
@property |
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def all_defects(self): |
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return sum((x.all_defects for x in self), self.defects) |
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|
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def startswith_fws(self): |
|
return self[0].startswith_fws() |
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|
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@property |
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def as_ew_allowed(self): |
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"""True if all top level tokens of this part may be RFC2047 encoded.""" |
|
return all(part.as_ew_allowed for part in self) |
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|
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@property |
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def comments(self): |
|
comments = [] |
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for token in self: |
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comments.extend(token.comments) |
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return comments |
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|
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def fold(self, *, policy): |
|
return _refold_parse_tree(self, policy=policy) |
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|
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def pprint(self, indent=''): |
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print(self.ppstr(indent=indent)) |
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|
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def ppstr(self, indent=''): |
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return '\n'.join(self._pp(indent=indent)) |
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|
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def _pp(self, indent=''): |
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yield '{}{}/{}('.format( |
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indent, |
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self.__class__.__name__, |
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self.token_type) |
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for token in self: |
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if not hasattr(token, '_pp'): |
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yield (indent + ' !! invalid element in token ' |
|
'list: {!r}'.format(token)) |
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else: |
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yield from token._pp(indent+' ') |
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if self.defects: |
|
extra = ' Defects: {}'.format(self.defects) |
|
else: |
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extra = '' |
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yield '{}){}'.format(indent, extra) |
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|
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class WhiteSpaceTokenList(TokenList): |
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@property |
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def value(self): |
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return ' ' |
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@property |
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def comments(self): |
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return [x.content for x in self if x.token_type=='comment'] |
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|
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class UnstructuredTokenList(TokenList): |
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token_type = 'unstructured' |
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class Phrase(TokenList): |
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token_type = 'phrase' |
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class Word(TokenList): |
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token_type = 'word' |
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|
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class CFWSList(WhiteSpaceTokenList): |
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token_type = 'cfws' |
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|
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class Atom(TokenList): |
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token_type = 'atom' |
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class Token(TokenList): |
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token_type = 'token' |
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encode_as_ew = False |
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class EncodedWord(TokenList): |
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token_type = 'encoded-word' |
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cte = None |
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charset = None |
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lang = None |
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class QuotedString(TokenList): |
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|
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token_type = 'quoted-string' |
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@property |
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def content(self): |
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for x in self: |
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if x.token_type == 'bare-quoted-string': |
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return x.value |
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@property |
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def quoted_value(self): |
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res = [] |
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for x in self: |
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if x.token_type == 'bare-quoted-string': |
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res.append(str(x)) |
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else: |
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res.append(x.value) |
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return ''.join(res) |
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|
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@property |
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def stripped_value(self): |
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for token in self: |
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if token.token_type == 'bare-quoted-string': |
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return token.value |
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class BareQuotedString(QuotedString): |
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|
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token_type = 'bare-quoted-string' |
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|
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def __str__(self): |
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return quote_string(''.join(str(x) for x in self)) |
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|
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@property |
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def value(self): |
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return ''.join(str(x) for x in self) |
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|
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class Comment(WhiteSpaceTokenList): |
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token_type = 'comment' |
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|
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def __str__(self): |
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return ''.join(sum([ |
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["("], |
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[self.quote(x) for x in self], |
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[")"], |
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], [])) |
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|
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def quote(self, value): |
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if value.token_type == 'comment': |
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return str(value) |
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return str(value).replace('\\', '\\\\').replace( |
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'(', r'\(').replace( |
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')', r'\)') |
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@property |
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def content(self): |
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return ''.join(str(x) for x in self) |
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@property |
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def comments(self): |
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return [self.content] |
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|
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class AddressList(TokenList): |
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token_type = 'address-list' |
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@property |
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def addresses(self): |
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return [x for x in self if x.token_type=='address'] |
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@property |
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def mailboxes(self): |
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return sum((x.mailboxes |
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for x in self if x.token_type=='address'), []) |
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@property |
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def all_mailboxes(self): |
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return sum((x.all_mailboxes |
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for x in self if x.token_type=='address'), []) |
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|
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class Address(TokenList): |
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token_type = 'address' |
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@property |
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def display_name(self): |
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if self[0].token_type == 'group': |
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return self[0].display_name |
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@property |
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def mailboxes(self): |
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if self[0].token_type == 'mailbox': |
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return [self[0]] |
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elif self[0].token_type == 'invalid-mailbox': |
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return [] |
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return self[0].mailboxes |
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|
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@property |
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def all_mailboxes(self): |
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if self[0].token_type == 'mailbox': |
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return [self[0]] |
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elif self[0].token_type == 'invalid-mailbox': |
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return [self[0]] |
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return self[0].all_mailboxes |
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|
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class MailboxList(TokenList): |
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token_type = 'mailbox-list' |
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@property |
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def mailboxes(self): |
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return [x for x in self if x.token_type=='mailbox'] |
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@property |
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def all_mailboxes(self): |
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return [x for x in self |
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if x.token_type in ('mailbox', 'invalid-mailbox')] |
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|
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class GroupList(TokenList): |
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token_type = 'group-list' |
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@property |
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def mailboxes(self): |
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if not self or self[0].token_type != 'mailbox-list': |
|
return [] |
|
return self[0].mailboxes |
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|
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@property |
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def all_mailboxes(self): |
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if not self or self[0].token_type != 'mailbox-list': |
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return [] |
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return self[0].all_mailboxes |
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|
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class Group(TokenList): |
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token_type = "group" |
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@property |
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def mailboxes(self): |
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if self[2].token_type != 'group-list': |
|
return [] |
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return self[2].mailboxes |
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|
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@property |
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def all_mailboxes(self): |
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if self[2].token_type != 'group-list': |
|
return [] |
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return self[2].all_mailboxes |
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@property |
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def display_name(self): |
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return self[0].display_name |
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|
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class NameAddr(TokenList): |
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|
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token_type = 'name-addr' |
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|
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@property |
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def display_name(self): |
|
if len(self) == 1: |
|
return None |
|
return self[0].display_name |
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|
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@property |
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def local_part(self): |
|
return self[-1].local_part |
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|
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@property |
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def domain(self): |
|
return self[-1].domain |
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|
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@property |
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def route(self): |
|
return self[-1].route |
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@property |
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def addr_spec(self): |
|
return self[-1].addr_spec |
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|
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class AngleAddr(TokenList): |
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|
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token_type = 'angle-addr' |
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|
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@property |
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def local_part(self): |
|
for x in self: |
|
if x.token_type == 'addr-spec': |
|
return x.local_part |
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|
|
@property |
|
def domain(self): |
|
for x in self: |
|
if x.token_type == 'addr-spec': |
|
return x.domain |
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|
|
@property |
|
def route(self): |
|
for x in self: |
|
if x.token_type == 'obs-route': |
|
return x.domains |
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|
|
@property |
|
def addr_spec(self): |
|
for x in self: |
|
if x.token_type == 'addr-spec': |
|
if x.local_part: |
|
return x.addr_spec |
|
else: |
|
return quote_string(x.local_part) + x.addr_spec |
|
else: |
|
return '<>' |
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|
|
class ObsRoute(TokenList): |
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|
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token_type = 'obs-route' |
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|
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@property |
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def domains(self): |
|
return [x.domain for x in self if x.token_type == 'domain'] |
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|
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class Mailbox(TokenList): |
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|
|
token_type = 'mailbox' |
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|
|
@property |
|
def display_name(self): |
|
if self[0].token_type == 'name-addr': |
|
return self[0].display_name |
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|
|
@property |
|
def local_part(self): |
|
return self[0].local_part |
|
|
|
@property |
|
def domain(self): |
|
return self[0].domain |
|
|
|
@property |
|
def route(self): |
|
if self[0].token_type == 'name-addr': |
|
return self[0].route |
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|
|
@property |
|
def addr_spec(self): |
|
return self[0].addr_spec |
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|
|
class InvalidMailbox(TokenList): |
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|
|
token_type = 'invalid-mailbox' |
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|
|
@property |
|
def display_name(self): |
|
return None |
|
|
|
local_part = domain = route = addr_spec = display_name |
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|
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class Domain(TokenList): |
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|
|
token_type = 'domain' |
|
as_ew_allowed = False |
|
|
|
@property |
|
def domain(self): |
|
return ''.join(super().value.split()) |
|
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|
|
|
class DotAtom(TokenList): |
|
token_type = 'dot-atom' |
|
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|
|
class DotAtomText(TokenList): |
|
token_type = 'dot-atom-text' |
|
as_ew_allowed = True |
|
|
|
|
|
class NoFoldLiteral(TokenList): |
|
token_type = 'no-fold-literal' |
|
as_ew_allowed = False |
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|
|
class AddrSpec(TokenList): |
|
|
|
token_type = 'addr-spec' |
|
as_ew_allowed = False |
|
|
|
@property |
|
def local_part(self): |
|
return self[0].local_part |
|
|
|
@property |
|
def domain(self): |
|
if len(self) < 3: |
|
return None |
|
return self[-1].domain |
|
|
|
@property |
|
def value(self): |
|
if len(self) < 3: |
|
return self[0].value |
|
return self[0].value.rstrip()+self[1].value+self[2].value.lstrip() |
|
|
|
@property |
|
def addr_spec(self): |
|
nameset = set(self.local_part) |
|
if len(nameset) > len(nameset-DOT_ATOM_ENDS): |
|
lp = quote_string(self.local_part) |
|
else: |
|
lp = self.local_part |
|
if self.domain is not None: |
|
return lp + '@' + self.domain |
|
return lp |
|
|
|
|
|
class ObsLocalPart(TokenList): |
|
|
|
token_type = 'obs-local-part' |
|
as_ew_allowed = False |
|
|
|
|
|
class DisplayName(Phrase): |
|
|
|
token_type = 'display-name' |
|
ew_combine_allowed = False |
|
|
|
@property |
|
def display_name(self): |
|
res = TokenList(self) |
|
if len(res) == 0: |
|
return res.value |
|
if res[0].token_type == 'cfws': |
|
res.pop(0) |
|
else: |
|
if res[0][0].token_type == 'cfws': |
|
res[0] = TokenList(res[0][1:]) |
|
if res[-1].token_type == 'cfws': |
|
res.pop() |
|
else: |
|
if res[-1][-1].token_type == 'cfws': |
|
res[-1] = TokenList(res[-1][:-1]) |
|
return res.value |
|
|
|
@property |
|
def value(self): |
|
quote = False |
|
if self.defects: |
|
quote = True |
|
else: |
|
for x in self: |
|
if x.token_type == 'quoted-string': |
|
quote = True |
|
if len(self) != 0 and quote: |
|
pre = post = '' |
|
if self[0].token_type=='cfws' or self[0][0].token_type=='cfws': |
|
pre = ' ' |
|
if self[-1].token_type=='cfws' or self[-1][-1].token_type=='cfws': |
|
post = ' ' |
|
return pre+quote_string(self.display_name)+post |
|
else: |
|
return super().value |
|
|
|
|
|
class LocalPart(TokenList): |
|
|
|
token_type = 'local-part' |
|
as_ew_allowed = False |
|
|
|
@property |
|
def value(self): |
|
if self[0].token_type == "quoted-string": |
|
return self[0].quoted_value |
|
else: |
|
return self[0].value |
|
|
|
@property |
|
def local_part(self): |
|
|
|
res = [DOT] |
|
last = DOT |
|
last_is_tl = False |
|
for tok in self[0] + [DOT]: |
|
if tok.token_type == 'cfws': |
|
continue |
|
if (last_is_tl and tok.token_type == 'dot' and |
|
last[-1].token_type == 'cfws'): |
|
res[-1] = TokenList(last[:-1]) |
|
is_tl = isinstance(tok, TokenList) |
|
if (is_tl and last.token_type == 'dot' and |
|
tok[0].token_type == 'cfws'): |
|
res.append(TokenList(tok[1:])) |
|
else: |
|
res.append(tok) |
|
last = res[-1] |
|
last_is_tl = is_tl |
|
res = TokenList(res[1:-1]) |
|
return res.value |
|
|
|
|
|
class DomainLiteral(TokenList): |
|
|
|
token_type = 'domain-literal' |
|
as_ew_allowed = False |
|
|
|
@property |
|
def domain(self): |
|
return ''.join(super().value.split()) |
|
|
|
@property |
|
def ip(self): |
|
for x in self: |
|
if x.token_type == 'ptext': |
|
return x.value |
|
|
|
|
|
class MIMEVersion(TokenList): |
|
|
|
token_type = 'mime-version' |
|
major = None |
|
minor = None |
|
|
|
|
|
class Parameter(TokenList): |
|
|
|
token_type = 'parameter' |
|
sectioned = False |
|
extended = False |
|
charset = 'us-ascii' |
|
|
|
@property |
|
def section_number(self): |
|
|
|
|
|
return self[1].number if self.sectioned else 0 |
|
|
|
@property |
|
def param_value(self): |
|
|
|
for token in self: |
|
if token.token_type == 'value': |
|
return token.stripped_value |
|
if token.token_type == 'quoted-string': |
|
for token in token: |
|
if token.token_type == 'bare-quoted-string': |
|
for token in token: |
|
if token.token_type == 'value': |
|
return token.stripped_value |
|
return '' |
|
|
|
|
|
class InvalidParameter(Parameter): |
|
|
|
token_type = 'invalid-parameter' |
|
|
|
|
|
class Attribute(TokenList): |
|
|
|
token_type = 'attribute' |
|
|
|
@property |
|
def stripped_value(self): |
|
for token in self: |
|
if token.token_type.endswith('attrtext'): |
|
return token.value |
|
|
|
class Section(TokenList): |
|
|
|
token_type = 'section' |
|
number = None |
|
|
|
|
|
class Value(TokenList): |
|
|
|
token_type = 'value' |
|
|
|
@property |
|
def stripped_value(self): |
|
token = self[0] |
|
if token.token_type == 'cfws': |
|
token = self[1] |
|
if token.token_type.endswith( |
|
('quoted-string', 'attribute', 'extended-attribute')): |
|
return token.stripped_value |
|
return self.value |
|
|
|
|
|
class MimeParameters(TokenList): |
|
|
|
token_type = 'mime-parameters' |
|
syntactic_break = False |
|
|
|
@property |
|
def params(self): |
|
|
|
|
|
|
|
|
|
|
|
params = {} |
|
for token in self: |
|
if not token.token_type.endswith('parameter'): |
|
continue |
|
if token[0].token_type != 'attribute': |
|
continue |
|
name = token[0].value.strip() |
|
if name not in params: |
|
params[name] = [] |
|
params[name].append((token.section_number, token)) |
|
for name, parts in params.items(): |
|
parts = sorted(parts, key=itemgetter(0)) |
|
first_param = parts[0][1] |
|
charset = first_param.charset |
|
|
|
|
|
|
|
if not first_param.extended and len(parts) > 1: |
|
if parts[1][0] == 0: |
|
parts[1][1].defects.append(errors.InvalidHeaderDefect( |
|
'duplicate parameter name; duplicate(s) ignored')) |
|
parts = parts[:1] |
|
|
|
|
|
value_parts = [] |
|
i = 0 |
|
for section_number, param in parts: |
|
if section_number != i: |
|
|
|
|
|
|
|
if not param.extended: |
|
param.defects.append(errors.InvalidHeaderDefect( |
|
'duplicate parameter name; duplicate ignored')) |
|
continue |
|
else: |
|
param.defects.append(errors.InvalidHeaderDefect( |
|
"inconsistent RFC2231 parameter numbering")) |
|
i += 1 |
|
value = param.param_value |
|
if param.extended: |
|
try: |
|
value = urllib.parse.unquote_to_bytes(value) |
|
except UnicodeEncodeError: |
|
|
|
|
|
|
|
value = urllib.parse.unquote(value, encoding='latin-1') |
|
else: |
|
try: |
|
value = value.decode(charset, 'surrogateescape') |
|
except (LookupError, UnicodeEncodeError): |
|
|
|
|
|
|
|
|
|
value = value.decode('us-ascii', 'surrogateescape') |
|
if utils._has_surrogates(value): |
|
param.defects.append(errors.UndecodableBytesDefect()) |
|
value_parts.append(value) |
|
value = ''.join(value_parts) |
|
yield name, value |
|
|
|
def __str__(self): |
|
params = [] |
|
for name, value in self.params: |
|
if value: |
|
params.append('{}={}'.format(name, quote_string(value))) |
|
else: |
|
params.append(name) |
|
params = '; '.join(params) |
|
return ' ' + params if params else '' |
|
|
|
|
|
class ParameterizedHeaderValue(TokenList): |
|
|
|
|
|
|
|
syntactic_break = False |
|
|
|
@property |
|
def params(self): |
|
for token in reversed(self): |
|
if token.token_type == 'mime-parameters': |
|
return token.params |
|
return {} |
|
|
|
|
|
class ContentType(ParameterizedHeaderValue): |
|
token_type = 'content-type' |
|
as_ew_allowed = False |
|
maintype = 'text' |
|
subtype = 'plain' |
|
|
|
|
|
class ContentDisposition(ParameterizedHeaderValue): |
|
token_type = 'content-disposition' |
|
as_ew_allowed = False |
|
content_disposition = None |
|
|
|
|
|
class ContentTransferEncoding(TokenList): |
|
token_type = 'content-transfer-encoding' |
|
as_ew_allowed = False |
|
cte = '7bit' |
|
|
|
|
|
class HeaderLabel(TokenList): |
|
token_type = 'header-label' |
|
as_ew_allowed = False |
|
|
|
|
|
class MsgID(TokenList): |
|
token_type = 'msg-id' |
|
as_ew_allowed = False |
|
|
|
def fold(self, policy): |
|
|
|
return str(self) + policy.linesep |
|
|
|
|
|
class MessageID(MsgID): |
|
token_type = 'message-id' |
|
|
|
|
|
class InvalidMessageID(MessageID): |
|
token_type = 'invalid-message-id' |
|
|
|
|
|
class Header(TokenList): |
|
token_type = 'header' |
|
|
|
|
|
|
|
|
|
|
|
|
|
class Terminal(str): |
|
|
|
as_ew_allowed = True |
|
ew_combine_allowed = True |
|
syntactic_break = True |
|
|
|
def __new__(cls, value, token_type): |
|
self = super().__new__(cls, value) |
|
self.token_type = token_type |
|
self.defects = [] |
|
return self |
|
|
|
def __repr__(self): |
|
return "{}({})".format(self.__class__.__name__, super().__repr__()) |
|
|
|
def pprint(self): |
|
print(self.__class__.__name__ + '/' + self.token_type) |
|
|
|
@property |
|
def all_defects(self): |
|
return list(self.defects) |
|
|
|
def _pp(self, indent=''): |
|
return ["{}{}/{}({}){}".format( |
|
indent, |
|
self.__class__.__name__, |
|
self.token_type, |
|
super().__repr__(), |
|
'' if not self.defects else ' {}'.format(self.defects), |
|
)] |
|
|
|
def pop_trailing_ws(self): |
|
|
|
return None |
|
|
|
@property |
|
def comments(self): |
|
return [] |
|
|
|
def __getnewargs__(self): |
|
return(str(self), self.token_type) |
|
|
|
|
|
class WhiteSpaceTerminal(Terminal): |
|
|
|
@property |
|
def value(self): |
|
return ' ' |
|
|
|
def startswith_fws(self): |
|
return True |
|
|
|
|
|
class ValueTerminal(Terminal): |
|
|
|
@property |
|
def value(self): |
|
return self |
|
|
|
def startswith_fws(self): |
|
return False |
|
|
|
|
|
class EWWhiteSpaceTerminal(WhiteSpaceTerminal): |
|
|
|
@property |
|
def value(self): |
|
return '' |
|
|
|
def __str__(self): |
|
return '' |
|
|
|
|
|
class _InvalidEwError(errors.HeaderParseError): |
|
"""Invalid encoded word found while parsing headers.""" |
|
|
|
|
|
|
|
|
|
|
|
DOT = ValueTerminal('.', 'dot') |
|
ListSeparator = ValueTerminal(',', 'list-separator') |
|
ListSeparator.as_ew_allowed = False |
|
RouteComponentMarker = ValueTerminal('@', 'route-component-marker') |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
_wsp_splitter = re.compile(r'([{}]+)'.format(''.join(WSP))).split |
|
_non_atom_end_matcher = re.compile(r"[^{}]+".format( |
|
re.escape(''.join(ATOM_ENDS)))).match |
|
_non_printable_finder = re.compile(r"[\x00-\x20\x7F]").findall |
|
_non_token_end_matcher = re.compile(r"[^{}]+".format( |
|
re.escape(''.join(TOKEN_ENDS)))).match |
|
_non_attribute_end_matcher = re.compile(r"[^{}]+".format( |
|
re.escape(''.join(ATTRIBUTE_ENDS)))).match |
|
_non_extended_attribute_end_matcher = re.compile(r"[^{}]+".format( |
|
re.escape(''.join(EXTENDED_ATTRIBUTE_ENDS)))).match |
|
|
|
def _validate_xtext(xtext): |
|
"""If input token contains ASCII non-printables, register a defect.""" |
|
|
|
non_printables = _non_printable_finder(xtext) |
|
if non_printables: |
|
xtext.defects.append(errors.NonPrintableDefect(non_printables)) |
|
if utils._has_surrogates(xtext): |
|
xtext.defects.append(errors.UndecodableBytesDefect( |
|
"Non-ASCII characters found in header token")) |
|
|
|
def _get_ptext_to_endchars(value, endchars): |
|
"""Scan printables/quoted-pairs until endchars and return unquoted ptext. |
|
|
|
This function turns a run of qcontent, ccontent-without-comments, or |
|
dtext-with-quoted-printables into a single string by unquoting any |
|
quoted printables. It returns the string, the remaining value, and |
|
a flag that is True iff there were any quoted printables decoded. |
|
|
|
""" |
|
fragment, *remainder = _wsp_splitter(value, 1) |
|
vchars = [] |
|
escape = False |
|
had_qp = False |
|
for pos in range(len(fragment)): |
|
if fragment[pos] == '\\': |
|
if escape: |
|
escape = False |
|
had_qp = True |
|
else: |
|
escape = True |
|
continue |
|
if escape: |
|
escape = False |
|
elif fragment[pos] in endchars: |
|
break |
|
vchars.append(fragment[pos]) |
|
else: |
|
pos = pos + 1 |
|
return ''.join(vchars), ''.join([fragment[pos:]] + remainder), had_qp |
|
|
|
def get_fws(value): |
|
"""FWS = 1*WSP |
|
|
|
This isn't the RFC definition. We're using fws to represent tokens where |
|
folding can be done, but when we are parsing the *un*folding has already |
|
been done so we don't need to watch out for CRLF. |
|
|
|
""" |
|
newvalue = value.lstrip() |
|
fws = WhiteSpaceTerminal(value[:len(value)-len(newvalue)], 'fws') |
|
return fws, newvalue |
|
|
|
def get_encoded_word(value): |
|
""" encoded-word = "=?" charset "?" encoding "?" encoded-text "?=" |
|
|
|
""" |
|
ew = EncodedWord() |
|
if not value.startswith('=?'): |
|
raise errors.HeaderParseError( |
|
"expected encoded word but found {}".format(value)) |
|
tok, *remainder = value[2:].split('?=', 1) |
|
if tok == value[2:]: |
|
raise errors.HeaderParseError( |
|
"expected encoded word but found {}".format(value)) |
|
remstr = ''.join(remainder) |
|
if (len(remstr) > 1 and |
|
remstr[0] in hexdigits and |
|
remstr[1] in hexdigits and |
|
tok.count('?') < 2): |
|
|
|
rest, *remainder = remstr.split('?=', 1) |
|
tok = tok + '?=' + rest |
|
if len(tok.split()) > 1: |
|
ew.defects.append(errors.InvalidHeaderDefect( |
|
"whitespace inside encoded word")) |
|
ew.cte = value |
|
value = ''.join(remainder) |
|
try: |
|
text, charset, lang, defects = _ew.decode('=?' + tok + '?=') |
|
except (ValueError, KeyError): |
|
raise _InvalidEwError( |
|
"encoded word format invalid: '{}'".format(ew.cte)) |
|
ew.charset = charset |
|
ew.lang = lang |
|
ew.defects.extend(defects) |
|
while text: |
|
if text[0] in WSP: |
|
token, text = get_fws(text) |
|
ew.append(token) |
|
continue |
|
chars, *remainder = _wsp_splitter(text, 1) |
|
vtext = ValueTerminal(chars, 'vtext') |
|
_validate_xtext(vtext) |
|
ew.append(vtext) |
|
text = ''.join(remainder) |
|
|
|
if value and value[0] not in WSP: |
|
ew.defects.append(errors.InvalidHeaderDefect( |
|
"missing trailing whitespace after encoded-word")) |
|
return ew, value |
|
|
|
def get_unstructured(value): |
|
"""unstructured = (*([FWS] vchar) *WSP) / obs-unstruct |
|
obs-unstruct = *((*LF *CR *(obs-utext) *LF *CR)) / FWS) |
|
obs-utext = %d0 / obs-NO-WS-CTL / LF / CR |
|
|
|
obs-NO-WS-CTL is control characters except WSP/CR/LF. |
|
|
|
So, basically, we have printable runs, plus control characters or nulls in |
|
the obsolete syntax, separated by whitespace. Since RFC 2047 uses the |
|
obsolete syntax in its specification, but requires whitespace on either |
|
side of the encoded words, I can see no reason to need to separate the |
|
non-printable-non-whitespace from the printable runs if they occur, so we |
|
parse this into xtext tokens separated by WSP tokens. |
|
|
|
Because an 'unstructured' value must by definition constitute the entire |
|
value, this 'get' routine does not return a remaining value, only the |
|
parsed TokenList. |
|
|
|
""" |
|
|
|
|
|
|
|
|
|
unstructured = UnstructuredTokenList() |
|
while value: |
|
if value[0] in WSP: |
|
token, value = get_fws(value) |
|
unstructured.append(token) |
|
continue |
|
valid_ew = True |
|
if value.startswith('=?'): |
|
try: |
|
token, value = get_encoded_word(value) |
|
except _InvalidEwError: |
|
valid_ew = False |
|
except errors.HeaderParseError: |
|
|
|
|
|
pass |
|
else: |
|
have_ws = True |
|
if len(unstructured) > 0: |
|
if unstructured[-1].token_type != 'fws': |
|
unstructured.defects.append(errors.InvalidHeaderDefect( |
|
"missing whitespace before encoded word")) |
|
have_ws = False |
|
if have_ws and len(unstructured) > 1: |
|
if unstructured[-2].token_type == 'encoded-word': |
|
unstructured[-1] = EWWhiteSpaceTerminal( |
|
unstructured[-1], 'fws') |
|
unstructured.append(token) |
|
continue |
|
tok, *remainder = _wsp_splitter(value, 1) |
|
|
|
|
|
|
|
|
|
|
|
|
|
if valid_ew and rfc2047_matcher.search(tok): |
|
tok, *remainder = value.partition('=?') |
|
vtext = ValueTerminal(tok, 'vtext') |
|
_validate_xtext(vtext) |
|
unstructured.append(vtext) |
|
value = ''.join(remainder) |
|
return unstructured |
|
|
|
def get_qp_ctext(value): |
|
r"""ctext = <printable ascii except \ ( )> |
|
|
|
This is not the RFC ctext, since we are handling nested comments in comment |
|
and unquoting quoted-pairs here. We allow anything except the '()' |
|
characters, but if we find any ASCII other than the RFC defined printable |
|
ASCII, a NonPrintableDefect is added to the token's defects list. Since |
|
quoted pairs are converted to their unquoted values, what is returned is |
|
a 'ptext' token. In this case it is a WhiteSpaceTerminal, so it's value |
|
is ' '. |
|
|
|
""" |
|
ptext, value, _ = _get_ptext_to_endchars(value, '()') |
|
ptext = WhiteSpaceTerminal(ptext, 'ptext') |
|
_validate_xtext(ptext) |
|
return ptext, value |
|
|
|
def get_qcontent(value): |
|
"""qcontent = qtext / quoted-pair |
|
|
|
We allow anything except the DQUOTE character, but if we find any ASCII |
|
other than the RFC defined printable ASCII, a NonPrintableDefect is |
|
added to the token's defects list. Any quoted pairs are converted to their |
|
unquoted values, so what is returned is a 'ptext' token. In this case it |
|
is a ValueTerminal. |
|
|
|
""" |
|
ptext, value, _ = _get_ptext_to_endchars(value, '"') |
|
ptext = ValueTerminal(ptext, 'ptext') |
|
_validate_xtext(ptext) |
|
return ptext, value |
|
|
|
def get_atext(value): |
|
"""atext = <matches _atext_matcher> |
|
|
|
We allow any non-ATOM_ENDS in atext, but add an InvalidATextDefect to |
|
the token's defects list if we find non-atext characters. |
|
""" |
|
m = _non_atom_end_matcher(value) |
|
if not m: |
|
raise errors.HeaderParseError( |
|
"expected atext but found '{}'".format(value)) |
|
atext = m.group() |
|
value = value[len(atext):] |
|
atext = ValueTerminal(atext, 'atext') |
|
_validate_xtext(atext) |
|
return atext, value |
|
|
|
def get_bare_quoted_string(value): |
|
"""bare-quoted-string = DQUOTE *([FWS] qcontent) [FWS] DQUOTE |
|
|
|
A quoted-string without the leading or trailing white space. Its |
|
value is the text between the quote marks, with whitespace |
|
preserved and quoted pairs decoded. |
|
""" |
|
if value[0] != '"': |
|
raise errors.HeaderParseError( |
|
"expected '\"' but found '{}'".format(value)) |
|
bare_quoted_string = BareQuotedString() |
|
value = value[1:] |
|
if value and value[0] == '"': |
|
token, value = get_qcontent(value) |
|
bare_quoted_string.append(token) |
|
while value and value[0] != '"': |
|
if value[0] in WSP: |
|
token, value = get_fws(value) |
|
elif value[:2] == '=?': |
|
valid_ew = False |
|
try: |
|
token, value = get_encoded_word(value) |
|
bare_quoted_string.defects.append(errors.InvalidHeaderDefect( |
|
"encoded word inside quoted string")) |
|
valid_ew = True |
|
except errors.HeaderParseError: |
|
token, value = get_qcontent(value) |
|
|
|
|
|
if valid_ew and len(bare_quoted_string) > 1: |
|
if (bare_quoted_string[-1].token_type == 'fws' and |
|
bare_quoted_string[-2].token_type == 'encoded-word'): |
|
bare_quoted_string[-1] = EWWhiteSpaceTerminal( |
|
bare_quoted_string[-1], 'fws') |
|
else: |
|
token, value = get_qcontent(value) |
|
bare_quoted_string.append(token) |
|
if not value: |
|
bare_quoted_string.defects.append(errors.InvalidHeaderDefect( |
|
"end of header inside quoted string")) |
|
return bare_quoted_string, value |
|
return bare_quoted_string, value[1:] |
|
|
|
def get_comment(value): |
|
"""comment = "(" *([FWS] ccontent) [FWS] ")" |
|
ccontent = ctext / quoted-pair / comment |
|
|
|
We handle nested comments here, and quoted-pair in our qp-ctext routine. |
|
""" |
|
if value and value[0] != '(': |
|
raise errors.HeaderParseError( |
|
"expected '(' but found '{}'".format(value)) |
|
comment = Comment() |
|
value = value[1:] |
|
while value and value[0] != ")": |
|
if value[0] in WSP: |
|
token, value = get_fws(value) |
|
elif value[0] == '(': |
|
token, value = get_comment(value) |
|
else: |
|
token, value = get_qp_ctext(value) |
|
comment.append(token) |
|
if not value: |
|
comment.defects.append(errors.InvalidHeaderDefect( |
|
"end of header inside comment")) |
|
return comment, value |
|
return comment, value[1:] |
|
|
|
def get_cfws(value): |
|
"""CFWS = (1*([FWS] comment) [FWS]) / FWS |
|
|
|
""" |
|
cfws = CFWSList() |
|
while value and value[0] in CFWS_LEADER: |
|
if value[0] in WSP: |
|
token, value = get_fws(value) |
|
else: |
|
token, value = get_comment(value) |
|
cfws.append(token) |
|
return cfws, value |
|
|
|
def get_quoted_string(value): |
|
"""quoted-string = [CFWS] <bare-quoted-string> [CFWS] |
|
|
|
'bare-quoted-string' is an intermediate class defined by this |
|
parser and not by the RFC grammar. It is the quoted string |
|
without any attached CFWS. |
|
""" |
|
quoted_string = QuotedString() |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
quoted_string.append(token) |
|
token, value = get_bare_quoted_string(value) |
|
quoted_string.append(token) |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
quoted_string.append(token) |
|
return quoted_string, value |
|
|
|
def get_atom(value): |
|
"""atom = [CFWS] 1*atext [CFWS] |
|
|
|
An atom could be an rfc2047 encoded word. |
|
""" |
|
atom = Atom() |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
atom.append(token) |
|
if value and value[0] in ATOM_ENDS: |
|
raise errors.HeaderParseError( |
|
"expected atom but found '{}'".format(value)) |
|
if value.startswith('=?'): |
|
try: |
|
token, value = get_encoded_word(value) |
|
except errors.HeaderParseError: |
|
|
|
|
|
token, value = get_atext(value) |
|
else: |
|
token, value = get_atext(value) |
|
atom.append(token) |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
atom.append(token) |
|
return atom, value |
|
|
|
def get_dot_atom_text(value): |
|
""" dot-text = 1*atext *("." 1*atext) |
|
|
|
""" |
|
dot_atom_text = DotAtomText() |
|
if not value or value[0] in ATOM_ENDS: |
|
raise errors.HeaderParseError("expected atom at a start of " |
|
"dot-atom-text but found '{}'".format(value)) |
|
while value and value[0] not in ATOM_ENDS: |
|
token, value = get_atext(value) |
|
dot_atom_text.append(token) |
|
if value and value[0] == '.': |
|
dot_atom_text.append(DOT) |
|
value = value[1:] |
|
if dot_atom_text[-1] is DOT: |
|
raise errors.HeaderParseError("expected atom at end of dot-atom-text " |
|
"but found '{}'".format('.'+value)) |
|
return dot_atom_text, value |
|
|
|
def get_dot_atom(value): |
|
""" dot-atom = [CFWS] dot-atom-text [CFWS] |
|
|
|
Any place we can have a dot atom, we could instead have an rfc2047 encoded |
|
word. |
|
""" |
|
dot_atom = DotAtom() |
|
if value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
dot_atom.append(token) |
|
if value.startswith('=?'): |
|
try: |
|
token, value = get_encoded_word(value) |
|
except errors.HeaderParseError: |
|
|
|
|
|
token, value = get_dot_atom_text(value) |
|
else: |
|
token, value = get_dot_atom_text(value) |
|
dot_atom.append(token) |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
dot_atom.append(token) |
|
return dot_atom, value |
|
|
|
def get_word(value): |
|
"""word = atom / quoted-string |
|
|
|
Either atom or quoted-string may start with CFWS. We have to peel off this |
|
CFWS first to determine which type of word to parse. Afterward we splice |
|
the leading CFWS, if any, into the parsed sub-token. |
|
|
|
If neither an atom or a quoted-string is found before the next special, a |
|
HeaderParseError is raised. |
|
|
|
The token returned is either an Atom or a QuotedString, as appropriate. |
|
This means the 'word' level of the formal grammar is not represented in the |
|
parse tree; this is because having that extra layer when manipulating the |
|
parse tree is more confusing than it is helpful. |
|
|
|
""" |
|
if value[0] in CFWS_LEADER: |
|
leader, value = get_cfws(value) |
|
else: |
|
leader = None |
|
if not value: |
|
raise errors.HeaderParseError( |
|
"Expected 'atom' or 'quoted-string' but found nothing.") |
|
if value[0]=='"': |
|
token, value = get_quoted_string(value) |
|
elif value[0] in SPECIALS: |
|
raise errors.HeaderParseError("Expected 'atom' or 'quoted-string' " |
|
"but found '{}'".format(value)) |
|
else: |
|
token, value = get_atom(value) |
|
if leader is not None: |
|
token[:0] = [leader] |
|
return token, value |
|
|
|
def get_phrase(value): |
|
""" phrase = 1*word / obs-phrase |
|
obs-phrase = word *(word / "." / CFWS) |
|
|
|
This means a phrase can be a sequence of words, periods, and CFWS in any |
|
order as long as it starts with at least one word. If anything other than |
|
words is detected, an ObsoleteHeaderDefect is added to the token's defect |
|
list. We also accept a phrase that starts with CFWS followed by a dot; |
|
this is registered as an InvalidHeaderDefect, since it is not supported by |
|
even the obsolete grammar. |
|
|
|
""" |
|
phrase = Phrase() |
|
try: |
|
token, value = get_word(value) |
|
phrase.append(token) |
|
except errors.HeaderParseError: |
|
phrase.defects.append(errors.InvalidHeaderDefect( |
|
"phrase does not start with word")) |
|
while value and value[0] not in PHRASE_ENDS: |
|
if value[0]=='.': |
|
phrase.append(DOT) |
|
phrase.defects.append(errors.ObsoleteHeaderDefect( |
|
"period in 'phrase'")) |
|
value = value[1:] |
|
else: |
|
try: |
|
token, value = get_word(value) |
|
except errors.HeaderParseError: |
|
if value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
phrase.defects.append(errors.ObsoleteHeaderDefect( |
|
"comment found without atom")) |
|
else: |
|
raise |
|
phrase.append(token) |
|
return phrase, value |
|
|
|
def get_local_part(value): |
|
""" local-part = dot-atom / quoted-string / obs-local-part |
|
|
|
""" |
|
local_part = LocalPart() |
|
leader = None |
|
if value[0] in CFWS_LEADER: |
|
leader, value = get_cfws(value) |
|
if not value: |
|
raise errors.HeaderParseError( |
|
"expected local-part but found '{}'".format(value)) |
|
try: |
|
token, value = get_dot_atom(value) |
|
except errors.HeaderParseError: |
|
try: |
|
token, value = get_word(value) |
|
except errors.HeaderParseError: |
|
if value[0] != '\\' and value[0] in PHRASE_ENDS: |
|
raise |
|
token = TokenList() |
|
if leader is not None: |
|
token[:0] = [leader] |
|
local_part.append(token) |
|
if value and (value[0]=='\\' or value[0] not in PHRASE_ENDS): |
|
obs_local_part, value = get_obs_local_part(str(local_part) + value) |
|
if obs_local_part.token_type == 'invalid-obs-local-part': |
|
local_part.defects.append(errors.InvalidHeaderDefect( |
|
"local-part is not dot-atom, quoted-string, or obs-local-part")) |
|
else: |
|
local_part.defects.append(errors.ObsoleteHeaderDefect( |
|
"local-part is not a dot-atom (contains CFWS)")) |
|
local_part[0] = obs_local_part |
|
try: |
|
local_part.value.encode('ascii') |
|
except UnicodeEncodeError: |
|
local_part.defects.append(errors.NonASCIILocalPartDefect( |
|
"local-part contains non-ASCII characters)")) |
|
return local_part, value |
|
|
|
def get_obs_local_part(value): |
|
""" obs-local-part = word *("." word) |
|
""" |
|
obs_local_part = ObsLocalPart() |
|
last_non_ws_was_dot = False |
|
while value and (value[0]=='\\' or value[0] not in PHRASE_ENDS): |
|
if value[0] == '.': |
|
if last_non_ws_was_dot: |
|
obs_local_part.defects.append(errors.InvalidHeaderDefect( |
|
"invalid repeated '.'")) |
|
obs_local_part.append(DOT) |
|
last_non_ws_was_dot = True |
|
value = value[1:] |
|
continue |
|
elif value[0]=='\\': |
|
obs_local_part.append(ValueTerminal(value[0], |
|
'misplaced-special')) |
|
value = value[1:] |
|
obs_local_part.defects.append(errors.InvalidHeaderDefect( |
|
"'\\' character outside of quoted-string/ccontent")) |
|
last_non_ws_was_dot = False |
|
continue |
|
if obs_local_part and obs_local_part[-1].token_type != 'dot': |
|
obs_local_part.defects.append(errors.InvalidHeaderDefect( |
|
"missing '.' between words")) |
|
try: |
|
token, value = get_word(value) |
|
last_non_ws_was_dot = False |
|
except errors.HeaderParseError: |
|
if value[0] not in CFWS_LEADER: |
|
raise |
|
token, value = get_cfws(value) |
|
obs_local_part.append(token) |
|
if (obs_local_part[0].token_type == 'dot' or |
|
obs_local_part[0].token_type=='cfws' and |
|
obs_local_part[1].token_type=='dot'): |
|
obs_local_part.defects.append(errors.InvalidHeaderDefect( |
|
"Invalid leading '.' in local part")) |
|
if (obs_local_part[-1].token_type == 'dot' or |
|
obs_local_part[-1].token_type=='cfws' and |
|
obs_local_part[-2].token_type=='dot'): |
|
obs_local_part.defects.append(errors.InvalidHeaderDefect( |
|
"Invalid trailing '.' in local part")) |
|
if obs_local_part.defects: |
|
obs_local_part.token_type = 'invalid-obs-local-part' |
|
return obs_local_part, value |
|
|
|
def get_dtext(value): |
|
r""" dtext = <printable ascii except \ [ ]> / obs-dtext |
|
obs-dtext = obs-NO-WS-CTL / quoted-pair |
|
|
|
We allow anything except the excluded characters, but if we find any |
|
ASCII other than the RFC defined printable ASCII, a NonPrintableDefect is |
|
added to the token's defects list. Quoted pairs are converted to their |
|
unquoted values, so what is returned is a ptext token, in this case a |
|
ValueTerminal. If there were quoted-printables, an ObsoleteHeaderDefect is |
|
added to the returned token's defect list. |
|
|
|
""" |
|
ptext, value, had_qp = _get_ptext_to_endchars(value, '[]') |
|
ptext = ValueTerminal(ptext, 'ptext') |
|
if had_qp: |
|
ptext.defects.append(errors.ObsoleteHeaderDefect( |
|
"quoted printable found in domain-literal")) |
|
_validate_xtext(ptext) |
|
return ptext, value |
|
|
|
def _check_for_early_dl_end(value, domain_literal): |
|
if value: |
|
return False |
|
domain_literal.append(errors.InvalidHeaderDefect( |
|
"end of input inside domain-literal")) |
|
domain_literal.append(ValueTerminal(']', 'domain-literal-end')) |
|
return True |
|
|
|
def get_domain_literal(value): |
|
""" domain-literal = [CFWS] "[" *([FWS] dtext) [FWS] "]" [CFWS] |
|
|
|
""" |
|
domain_literal = DomainLiteral() |
|
if value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
domain_literal.append(token) |
|
if not value: |
|
raise errors.HeaderParseError("expected domain-literal") |
|
if value[0] != '[': |
|
raise errors.HeaderParseError("expected '[' at start of domain-literal " |
|
"but found '{}'".format(value)) |
|
value = value[1:] |
|
if _check_for_early_dl_end(value, domain_literal): |
|
return domain_literal, value |
|
domain_literal.append(ValueTerminal('[', 'domain-literal-start')) |
|
if value[0] in WSP: |
|
token, value = get_fws(value) |
|
domain_literal.append(token) |
|
token, value = get_dtext(value) |
|
domain_literal.append(token) |
|
if _check_for_early_dl_end(value, domain_literal): |
|
return domain_literal, value |
|
if value[0] in WSP: |
|
token, value = get_fws(value) |
|
domain_literal.append(token) |
|
if _check_for_early_dl_end(value, domain_literal): |
|
return domain_literal, value |
|
if value[0] != ']': |
|
raise errors.HeaderParseError("expected ']' at end of domain-literal " |
|
"but found '{}'".format(value)) |
|
domain_literal.append(ValueTerminal(']', 'domain-literal-end')) |
|
value = value[1:] |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
domain_literal.append(token) |
|
return domain_literal, value |
|
|
|
def get_domain(value): |
|
""" domain = dot-atom / domain-literal / obs-domain |
|
obs-domain = atom *("." atom)) |
|
|
|
""" |
|
domain = Domain() |
|
leader = None |
|
if value[0] in CFWS_LEADER: |
|
leader, value = get_cfws(value) |
|
if not value: |
|
raise errors.HeaderParseError( |
|
"expected domain but found '{}'".format(value)) |
|
if value[0] == '[': |
|
token, value = get_domain_literal(value) |
|
if leader is not None: |
|
token[:0] = [leader] |
|
domain.append(token) |
|
return domain, value |
|
try: |
|
token, value = get_dot_atom(value) |
|
except errors.HeaderParseError: |
|
token, value = get_atom(value) |
|
if value and value[0] == '@': |
|
raise errors.HeaderParseError('Invalid Domain') |
|
if leader is not None: |
|
token[:0] = [leader] |
|
domain.append(token) |
|
if value and value[0] == '.': |
|
domain.defects.append(errors.ObsoleteHeaderDefect( |
|
"domain is not a dot-atom (contains CFWS)")) |
|
if domain[0].token_type == 'dot-atom': |
|
domain[:] = domain[0] |
|
while value and value[0] == '.': |
|
domain.append(DOT) |
|
token, value = get_atom(value[1:]) |
|
domain.append(token) |
|
return domain, value |
|
|
|
def get_addr_spec(value): |
|
""" addr-spec = local-part "@" domain |
|
|
|
""" |
|
addr_spec = AddrSpec() |
|
token, value = get_local_part(value) |
|
addr_spec.append(token) |
|
if not value or value[0] != '@': |
|
addr_spec.defects.append(errors.InvalidHeaderDefect( |
|
"addr-spec local part with no domain")) |
|
return addr_spec, value |
|
addr_spec.append(ValueTerminal('@', 'address-at-symbol')) |
|
token, value = get_domain(value[1:]) |
|
addr_spec.append(token) |
|
return addr_spec, value |
|
|
|
def get_obs_route(value): |
|
""" obs-route = obs-domain-list ":" |
|
obs-domain-list = *(CFWS / ",") "@" domain *("," [CFWS] ["@" domain]) |
|
|
|
Returns an obs-route token with the appropriate sub-tokens (that is, |
|
there is no obs-domain-list in the parse tree). |
|
""" |
|
obs_route = ObsRoute() |
|
while value and (value[0]==',' or value[0] in CFWS_LEADER): |
|
if value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
obs_route.append(token) |
|
elif value[0] == ',': |
|
obs_route.append(ListSeparator) |
|
value = value[1:] |
|
if not value or value[0] != '@': |
|
raise errors.HeaderParseError( |
|
"expected obs-route domain but found '{}'".format(value)) |
|
obs_route.append(RouteComponentMarker) |
|
token, value = get_domain(value[1:]) |
|
obs_route.append(token) |
|
while value and value[0]==',': |
|
obs_route.append(ListSeparator) |
|
value = value[1:] |
|
if not value: |
|
break |
|
if value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
obs_route.append(token) |
|
if value[0] == '@': |
|
obs_route.append(RouteComponentMarker) |
|
token, value = get_domain(value[1:]) |
|
obs_route.append(token) |
|
if not value: |
|
raise errors.HeaderParseError("end of header while parsing obs-route") |
|
if value[0] != ':': |
|
raise errors.HeaderParseError( "expected ':' marking end of " |
|
"obs-route but found '{}'".format(value)) |
|
obs_route.append(ValueTerminal(':', 'end-of-obs-route-marker')) |
|
return obs_route, value[1:] |
|
|
|
def get_angle_addr(value): |
|
""" angle-addr = [CFWS] "<" addr-spec ">" [CFWS] / obs-angle-addr |
|
obs-angle-addr = [CFWS] "<" obs-route addr-spec ">" [CFWS] |
|
|
|
""" |
|
angle_addr = AngleAddr() |
|
if value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
angle_addr.append(token) |
|
if not value or value[0] != '<': |
|
raise errors.HeaderParseError( |
|
"expected angle-addr but found '{}'".format(value)) |
|
angle_addr.append(ValueTerminal('<', 'angle-addr-start')) |
|
value = value[1:] |
|
|
|
|
|
if value[0] == '>': |
|
angle_addr.append(ValueTerminal('>', 'angle-addr-end')) |
|
angle_addr.defects.append(errors.InvalidHeaderDefect( |
|
"null addr-spec in angle-addr")) |
|
value = value[1:] |
|
return angle_addr, value |
|
try: |
|
token, value = get_addr_spec(value) |
|
except errors.HeaderParseError: |
|
try: |
|
token, value = get_obs_route(value) |
|
angle_addr.defects.append(errors.ObsoleteHeaderDefect( |
|
"obsolete route specification in angle-addr")) |
|
except errors.HeaderParseError: |
|
raise errors.HeaderParseError( |
|
"expected addr-spec or obs-route but found '{}'".format(value)) |
|
angle_addr.append(token) |
|
token, value = get_addr_spec(value) |
|
angle_addr.append(token) |
|
if value and value[0] == '>': |
|
value = value[1:] |
|
else: |
|
angle_addr.defects.append(errors.InvalidHeaderDefect( |
|
"missing trailing '>' on angle-addr")) |
|
angle_addr.append(ValueTerminal('>', 'angle-addr-end')) |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
angle_addr.append(token) |
|
return angle_addr, value |
|
|
|
def get_display_name(value): |
|
""" display-name = phrase |
|
|
|
Because this is simply a name-rule, we don't return a display-name |
|
token containing a phrase, but rather a display-name token with |
|
the content of the phrase. |
|
|
|
""" |
|
display_name = DisplayName() |
|
token, value = get_phrase(value) |
|
display_name.extend(token[:]) |
|
display_name.defects = token.defects[:] |
|
return display_name, value |
|
|
|
|
|
def get_name_addr(value): |
|
""" name-addr = [display-name] angle-addr |
|
|
|
""" |
|
name_addr = NameAddr() |
|
|
|
leader = None |
|
if value[0] in CFWS_LEADER: |
|
leader, value = get_cfws(value) |
|
if not value: |
|
raise errors.HeaderParseError( |
|
"expected name-addr but found '{}'".format(leader)) |
|
if value[0] != '<': |
|
if value[0] in PHRASE_ENDS: |
|
raise errors.HeaderParseError( |
|
"expected name-addr but found '{}'".format(value)) |
|
token, value = get_display_name(value) |
|
if not value: |
|
raise errors.HeaderParseError( |
|
"expected name-addr but found '{}'".format(token)) |
|
if leader is not None: |
|
token[0][:0] = [leader] |
|
leader = None |
|
name_addr.append(token) |
|
token, value = get_angle_addr(value) |
|
if leader is not None: |
|
token[:0] = [leader] |
|
name_addr.append(token) |
|
return name_addr, value |
|
|
|
def get_mailbox(value): |
|
""" mailbox = name-addr / addr-spec |
|
|
|
""" |
|
|
|
|
|
mailbox = Mailbox() |
|
try: |
|
token, value = get_name_addr(value) |
|
except errors.HeaderParseError: |
|
try: |
|
token, value = get_addr_spec(value) |
|
except errors.HeaderParseError: |
|
raise errors.HeaderParseError( |
|
"expected mailbox but found '{}'".format(value)) |
|
if any(isinstance(x, errors.InvalidHeaderDefect) |
|
for x in token.all_defects): |
|
mailbox.token_type = 'invalid-mailbox' |
|
mailbox.append(token) |
|
return mailbox, value |
|
|
|
def get_invalid_mailbox(value, endchars): |
|
""" Read everything up to one of the chars in endchars. |
|
|
|
This is outside the formal grammar. The InvalidMailbox TokenList that is |
|
returned acts like a Mailbox, but the data attributes are None. |
|
|
|
""" |
|
invalid_mailbox = InvalidMailbox() |
|
while value and value[0] not in endchars: |
|
if value[0] in PHRASE_ENDS: |
|
invalid_mailbox.append(ValueTerminal(value[0], |
|
'misplaced-special')) |
|
value = value[1:] |
|
else: |
|
token, value = get_phrase(value) |
|
invalid_mailbox.append(token) |
|
return invalid_mailbox, value |
|
|
|
def get_mailbox_list(value): |
|
""" mailbox-list = (mailbox *("," mailbox)) / obs-mbox-list |
|
obs-mbox-list = *([CFWS] ",") mailbox *("," [mailbox / CFWS]) |
|
|
|
For this routine we go outside the formal grammar in order to improve error |
|
handling. We recognize the end of the mailbox list only at the end of the |
|
value or at a ';' (the group terminator). This is so that we can turn |
|
invalid mailboxes into InvalidMailbox tokens and continue parsing any |
|
remaining valid mailboxes. We also allow all mailbox entries to be null, |
|
and this condition is handled appropriately at a higher level. |
|
|
|
""" |
|
mailbox_list = MailboxList() |
|
while value and value[0] != ';': |
|
try: |
|
token, value = get_mailbox(value) |
|
mailbox_list.append(token) |
|
except errors.HeaderParseError: |
|
leader = None |
|
if value[0] in CFWS_LEADER: |
|
leader, value = get_cfws(value) |
|
if not value or value[0] in ',;': |
|
mailbox_list.append(leader) |
|
mailbox_list.defects.append(errors.ObsoleteHeaderDefect( |
|
"empty element in mailbox-list")) |
|
else: |
|
token, value = get_invalid_mailbox(value, ',;') |
|
if leader is not None: |
|
token[:0] = [leader] |
|
mailbox_list.append(token) |
|
mailbox_list.defects.append(errors.InvalidHeaderDefect( |
|
"invalid mailbox in mailbox-list")) |
|
elif value[0] == ',': |
|
mailbox_list.defects.append(errors.ObsoleteHeaderDefect( |
|
"empty element in mailbox-list")) |
|
else: |
|
token, value = get_invalid_mailbox(value, ',;') |
|
if leader is not None: |
|
token[:0] = [leader] |
|
mailbox_list.append(token) |
|
mailbox_list.defects.append(errors.InvalidHeaderDefect( |
|
"invalid mailbox in mailbox-list")) |
|
if value and value[0] not in ',;': |
|
|
|
|
|
mailbox = mailbox_list[-1] |
|
mailbox.token_type = 'invalid-mailbox' |
|
token, value = get_invalid_mailbox(value, ',;') |
|
mailbox.extend(token) |
|
mailbox_list.defects.append(errors.InvalidHeaderDefect( |
|
"invalid mailbox in mailbox-list")) |
|
if value and value[0] == ',': |
|
mailbox_list.append(ListSeparator) |
|
value = value[1:] |
|
return mailbox_list, value |
|
|
|
|
|
def get_group_list(value): |
|
""" group-list = mailbox-list / CFWS / obs-group-list |
|
obs-group-list = 1*([CFWS] ",") [CFWS] |
|
|
|
""" |
|
group_list = GroupList() |
|
if not value: |
|
group_list.defects.append(errors.InvalidHeaderDefect( |
|
"end of header before group-list")) |
|
return group_list, value |
|
leader = None |
|
if value and value[0] in CFWS_LEADER: |
|
leader, value = get_cfws(value) |
|
if not value: |
|
|
|
|
|
|
|
group_list.defects.append(errors.InvalidHeaderDefect( |
|
"end of header in group-list")) |
|
group_list.append(leader) |
|
return group_list, value |
|
if value[0] == ';': |
|
group_list.append(leader) |
|
return group_list, value |
|
token, value = get_mailbox_list(value) |
|
if len(token.all_mailboxes)==0: |
|
if leader is not None: |
|
group_list.append(leader) |
|
group_list.extend(token) |
|
group_list.defects.append(errors.ObsoleteHeaderDefect( |
|
"group-list with empty entries")) |
|
return group_list, value |
|
if leader is not None: |
|
token[:0] = [leader] |
|
group_list.append(token) |
|
return group_list, value |
|
|
|
def get_group(value): |
|
""" group = display-name ":" [group-list] ";" [CFWS] |
|
|
|
""" |
|
group = Group() |
|
token, value = get_display_name(value) |
|
if not value or value[0] != ':': |
|
raise errors.HeaderParseError("expected ':' at end of group " |
|
"display name but found '{}'".format(value)) |
|
group.append(token) |
|
group.append(ValueTerminal(':', 'group-display-name-terminator')) |
|
value = value[1:] |
|
if value and value[0] == ';': |
|
group.append(ValueTerminal(';', 'group-terminator')) |
|
return group, value[1:] |
|
token, value = get_group_list(value) |
|
group.append(token) |
|
if not value: |
|
group.defects.append(errors.InvalidHeaderDefect( |
|
"end of header in group")) |
|
elif value[0] != ';': |
|
raise errors.HeaderParseError( |
|
"expected ';' at end of group but found {}".format(value)) |
|
group.append(ValueTerminal(';', 'group-terminator')) |
|
value = value[1:] |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
group.append(token) |
|
return group, value |
|
|
|
def get_address(value): |
|
""" address = mailbox / group |
|
|
|
Note that counter-intuitively, an address can be either a single address or |
|
a list of addresses (a group). This is why the returned Address object has |
|
a 'mailboxes' attribute which treats a single address as a list of length |
|
one. When you need to differentiate between to two cases, extract the single |
|
element, which is either a mailbox or a group token. |
|
|
|
""" |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
address = Address() |
|
try: |
|
token, value = get_group(value) |
|
except errors.HeaderParseError: |
|
try: |
|
token, value = get_mailbox(value) |
|
except errors.HeaderParseError: |
|
raise errors.HeaderParseError( |
|
"expected address but found '{}'".format(value)) |
|
address.append(token) |
|
return address, value |
|
|
|
def get_address_list(value): |
|
""" address_list = (address *("," address)) / obs-addr-list |
|
obs-addr-list = *([CFWS] ",") address *("," [address / CFWS]) |
|
|
|
We depart from the formal grammar here by continuing to parse until the end |
|
of the input, assuming the input to be entirely composed of an |
|
address-list. This is always true in email parsing, and allows us |
|
to skip invalid addresses to parse additional valid ones. |
|
|
|
""" |
|
address_list = AddressList() |
|
while value: |
|
try: |
|
token, value = get_address(value) |
|
address_list.append(token) |
|
except errors.HeaderParseError as err: |
|
leader = None |
|
if value[0] in CFWS_LEADER: |
|
leader, value = get_cfws(value) |
|
if not value or value[0] == ',': |
|
address_list.append(leader) |
|
address_list.defects.append(errors.ObsoleteHeaderDefect( |
|
"address-list entry with no content")) |
|
else: |
|
token, value = get_invalid_mailbox(value, ',') |
|
if leader is not None: |
|
token[:0] = [leader] |
|
address_list.append(Address([token])) |
|
address_list.defects.append(errors.InvalidHeaderDefect( |
|
"invalid address in address-list")) |
|
elif value[0] == ',': |
|
address_list.defects.append(errors.ObsoleteHeaderDefect( |
|
"empty element in address-list")) |
|
else: |
|
token, value = get_invalid_mailbox(value, ',') |
|
if leader is not None: |
|
token[:0] = [leader] |
|
address_list.append(Address([token])) |
|
address_list.defects.append(errors.InvalidHeaderDefect( |
|
"invalid address in address-list")) |
|
if value and value[0] != ',': |
|
|
|
|
|
mailbox = address_list[-1][0] |
|
mailbox.token_type = 'invalid-mailbox' |
|
token, value = get_invalid_mailbox(value, ',') |
|
mailbox.extend(token) |
|
address_list.defects.append(errors.InvalidHeaderDefect( |
|
"invalid address in address-list")) |
|
if value: |
|
address_list.append(ListSeparator) |
|
value = value[1:] |
|
return address_list, value |
|
|
|
|
|
def get_no_fold_literal(value): |
|
""" no-fold-literal = "[" *dtext "]" |
|
""" |
|
no_fold_literal = NoFoldLiteral() |
|
if not value: |
|
raise errors.HeaderParseError( |
|
"expected no-fold-literal but found '{}'".format(value)) |
|
if value[0] != '[': |
|
raise errors.HeaderParseError( |
|
"expected '[' at the start of no-fold-literal " |
|
"but found '{}'".format(value)) |
|
no_fold_literal.append(ValueTerminal('[', 'no-fold-literal-start')) |
|
value = value[1:] |
|
token, value = get_dtext(value) |
|
no_fold_literal.append(token) |
|
if not value or value[0] != ']': |
|
raise errors.HeaderParseError( |
|
"expected ']' at the end of no-fold-literal " |
|
"but found '{}'".format(value)) |
|
no_fold_literal.append(ValueTerminal(']', 'no-fold-literal-end')) |
|
return no_fold_literal, value[1:] |
|
|
|
def get_msg_id(value): |
|
"""msg-id = [CFWS] "<" id-left '@' id-right ">" [CFWS] |
|
id-left = dot-atom-text / obs-id-left |
|
id-right = dot-atom-text / no-fold-literal / obs-id-right |
|
no-fold-literal = "[" *dtext "]" |
|
""" |
|
msg_id = MsgID() |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
msg_id.append(token) |
|
if not value or value[0] != '<': |
|
raise errors.HeaderParseError( |
|
"expected msg-id but found '{}'".format(value)) |
|
msg_id.append(ValueTerminal('<', 'msg-id-start')) |
|
value = value[1:] |
|
|
|
try: |
|
token, value = get_dot_atom_text(value) |
|
except errors.HeaderParseError: |
|
try: |
|
|
|
token, value = get_obs_local_part(value) |
|
msg_id.defects.append(errors.ObsoleteHeaderDefect( |
|
"obsolete id-left in msg-id")) |
|
except errors.HeaderParseError: |
|
raise errors.HeaderParseError( |
|
"expected dot-atom-text or obs-id-left" |
|
" but found '{}'".format(value)) |
|
msg_id.append(token) |
|
if not value or value[0] != '@': |
|
msg_id.defects.append(errors.InvalidHeaderDefect( |
|
"msg-id with no id-right")) |
|
|
|
|
|
|
|
if value and value[0] == '>': |
|
msg_id.append(ValueTerminal('>', 'msg-id-end')) |
|
value = value[1:] |
|
return msg_id, value |
|
msg_id.append(ValueTerminal('@', 'address-at-symbol')) |
|
value = value[1:] |
|
|
|
try: |
|
token, value = get_dot_atom_text(value) |
|
except errors.HeaderParseError: |
|
try: |
|
token, value = get_no_fold_literal(value) |
|
except errors.HeaderParseError as e: |
|
try: |
|
token, value = get_domain(value) |
|
msg_id.defects.append(errors.ObsoleteHeaderDefect( |
|
"obsolete id-right in msg-id")) |
|
except errors.HeaderParseError: |
|
raise errors.HeaderParseError( |
|
"expected dot-atom-text, no-fold-literal or obs-id-right" |
|
" but found '{}'".format(value)) |
|
msg_id.append(token) |
|
if value and value[0] == '>': |
|
value = value[1:] |
|
else: |
|
msg_id.defects.append(errors.InvalidHeaderDefect( |
|
"missing trailing '>' on msg-id")) |
|
msg_id.append(ValueTerminal('>', 'msg-id-end')) |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
msg_id.append(token) |
|
return msg_id, value |
|
|
|
|
|
def parse_message_id(value): |
|
"""message-id = "Message-ID:" msg-id CRLF |
|
""" |
|
message_id = MessageID() |
|
try: |
|
token, value = get_msg_id(value) |
|
message_id.append(token) |
|
except errors.HeaderParseError as ex: |
|
token = get_unstructured(value) |
|
message_id = InvalidMessageID(token) |
|
message_id.defects.append( |
|
errors.InvalidHeaderDefect("Invalid msg-id: {!r}".format(ex))) |
|
else: |
|
|
|
if value: |
|
message_id.defects.append(errors.InvalidHeaderDefect( |
|
"Unexpected {!r}".format(value))) |
|
|
|
return message_id |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
def parse_mime_version(value): |
|
""" mime-version = [CFWS] 1*digit [CFWS] "." [CFWS] 1*digit [CFWS] |
|
|
|
""" |
|
|
|
|
|
mime_version = MIMEVersion() |
|
if not value: |
|
mime_version.defects.append(errors.HeaderMissingRequiredValue( |
|
"Missing MIME version number (eg: 1.0)")) |
|
return mime_version |
|
if value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
mime_version.append(token) |
|
if not value: |
|
mime_version.defects.append(errors.HeaderMissingRequiredValue( |
|
"Expected MIME version number but found only CFWS")) |
|
digits = '' |
|
while value and value[0] != '.' and value[0] not in CFWS_LEADER: |
|
digits += value[0] |
|
value = value[1:] |
|
if not digits.isdigit(): |
|
mime_version.defects.append(errors.InvalidHeaderDefect( |
|
"Expected MIME major version number but found {!r}".format(digits))) |
|
mime_version.append(ValueTerminal(digits, 'xtext')) |
|
else: |
|
mime_version.major = int(digits) |
|
mime_version.append(ValueTerminal(digits, 'digits')) |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
mime_version.append(token) |
|
if not value or value[0] != '.': |
|
if mime_version.major is not None: |
|
mime_version.defects.append(errors.InvalidHeaderDefect( |
|
"Incomplete MIME version; found only major number")) |
|
if value: |
|
mime_version.append(ValueTerminal(value, 'xtext')) |
|
return mime_version |
|
mime_version.append(ValueTerminal('.', 'version-separator')) |
|
value = value[1:] |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
mime_version.append(token) |
|
if not value: |
|
if mime_version.major is not None: |
|
mime_version.defects.append(errors.InvalidHeaderDefect( |
|
"Incomplete MIME version; found only major number")) |
|
return mime_version |
|
digits = '' |
|
while value and value[0] not in CFWS_LEADER: |
|
digits += value[0] |
|
value = value[1:] |
|
if not digits.isdigit(): |
|
mime_version.defects.append(errors.InvalidHeaderDefect( |
|
"Expected MIME minor version number but found {!r}".format(digits))) |
|
mime_version.append(ValueTerminal(digits, 'xtext')) |
|
else: |
|
mime_version.minor = int(digits) |
|
mime_version.append(ValueTerminal(digits, 'digits')) |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
mime_version.append(token) |
|
if value: |
|
mime_version.defects.append(errors.InvalidHeaderDefect( |
|
"Excess non-CFWS text after MIME version")) |
|
mime_version.append(ValueTerminal(value, 'xtext')) |
|
return mime_version |
|
|
|
def get_invalid_parameter(value): |
|
""" Read everything up to the next ';'. |
|
|
|
This is outside the formal grammar. The InvalidParameter TokenList that is |
|
returned acts like a Parameter, but the data attributes are None. |
|
|
|
""" |
|
invalid_parameter = InvalidParameter() |
|
while value and value[0] != ';': |
|
if value[0] in PHRASE_ENDS: |
|
invalid_parameter.append(ValueTerminal(value[0], |
|
'misplaced-special')) |
|
value = value[1:] |
|
else: |
|
token, value = get_phrase(value) |
|
invalid_parameter.append(token) |
|
return invalid_parameter, value |
|
|
|
def get_ttext(value): |
|
"""ttext = <matches _ttext_matcher> |
|
|
|
We allow any non-TOKEN_ENDS in ttext, but add defects to the token's |
|
defects list if we find non-ttext characters. We also register defects for |
|
*any* non-printables even though the RFC doesn't exclude all of them, |
|
because we follow the spirit of RFC 5322. |
|
|
|
""" |
|
m = _non_token_end_matcher(value) |
|
if not m: |
|
raise errors.HeaderParseError( |
|
"expected ttext but found '{}'".format(value)) |
|
ttext = m.group() |
|
value = value[len(ttext):] |
|
ttext = ValueTerminal(ttext, 'ttext') |
|
_validate_xtext(ttext) |
|
return ttext, value |
|
|
|
def get_token(value): |
|
"""token = [CFWS] 1*ttext [CFWS] |
|
|
|
The RFC equivalent of ttext is any US-ASCII chars except space, ctls, or |
|
tspecials. We also exclude tabs even though the RFC doesn't. |
|
|
|
The RFC implies the CFWS but is not explicit about it in the BNF. |
|
|
|
""" |
|
mtoken = Token() |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
mtoken.append(token) |
|
if value and value[0] in TOKEN_ENDS: |
|
raise errors.HeaderParseError( |
|
"expected token but found '{}'".format(value)) |
|
token, value = get_ttext(value) |
|
mtoken.append(token) |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
mtoken.append(token) |
|
return mtoken, value |
|
|
|
def get_attrtext(value): |
|
"""attrtext = 1*(any non-ATTRIBUTE_ENDS character) |
|
|
|
We allow any non-ATTRIBUTE_ENDS in attrtext, but add defects to the |
|
token's defects list if we find non-attrtext characters. We also register |
|
defects for *any* non-printables even though the RFC doesn't exclude all of |
|
them, because we follow the spirit of RFC 5322. |
|
|
|
""" |
|
m = _non_attribute_end_matcher(value) |
|
if not m: |
|
raise errors.HeaderParseError( |
|
"expected attrtext but found {!r}".format(value)) |
|
attrtext = m.group() |
|
value = value[len(attrtext):] |
|
attrtext = ValueTerminal(attrtext, 'attrtext') |
|
_validate_xtext(attrtext) |
|
return attrtext, value |
|
|
|
def get_attribute(value): |
|
""" [CFWS] 1*attrtext [CFWS] |
|
|
|
This version of the BNF makes the CFWS explicit, and as usual we use a |
|
value terminal for the actual run of characters. The RFC equivalent of |
|
attrtext is the token characters, with the subtraction of '*', "'", and '%'. |
|
We include tab in the excluded set just as we do for token. |
|
|
|
""" |
|
attribute = Attribute() |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
attribute.append(token) |
|
if value and value[0] in ATTRIBUTE_ENDS: |
|
raise errors.HeaderParseError( |
|
"expected token but found '{}'".format(value)) |
|
token, value = get_attrtext(value) |
|
attribute.append(token) |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
attribute.append(token) |
|
return attribute, value |
|
|
|
def get_extended_attrtext(value): |
|
"""attrtext = 1*(any non-ATTRIBUTE_ENDS character plus '%') |
|
|
|
This is a special parsing routine so that we get a value that |
|
includes % escapes as a single string (which we decode as a single |
|
string later). |
|
|
|
""" |
|
m = _non_extended_attribute_end_matcher(value) |
|
if not m: |
|
raise errors.HeaderParseError( |
|
"expected extended attrtext but found {!r}".format(value)) |
|
attrtext = m.group() |
|
value = value[len(attrtext):] |
|
attrtext = ValueTerminal(attrtext, 'extended-attrtext') |
|
_validate_xtext(attrtext) |
|
return attrtext, value |
|
|
|
def get_extended_attribute(value): |
|
""" [CFWS] 1*extended_attrtext [CFWS] |
|
|
|
This is like the non-extended version except we allow % characters, so that |
|
we can pick up an encoded value as a single string. |
|
|
|
""" |
|
|
|
attribute = Attribute() |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
attribute.append(token) |
|
if value and value[0] in EXTENDED_ATTRIBUTE_ENDS: |
|
raise errors.HeaderParseError( |
|
"expected token but found '{}'".format(value)) |
|
token, value = get_extended_attrtext(value) |
|
attribute.append(token) |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
attribute.append(token) |
|
return attribute, value |
|
|
|
def get_section(value): |
|
""" '*' digits |
|
|
|
The formal BNF is more complicated because leading 0s are not allowed. We |
|
check for that and add a defect. We also assume no CFWS is allowed between |
|
the '*' and the digits, though the RFC is not crystal clear on that. |
|
The caller should already have dealt with leading CFWS. |
|
|
|
""" |
|
section = Section() |
|
if not value or value[0] != '*': |
|
raise errors.HeaderParseError("Expected section but found {}".format( |
|
value)) |
|
section.append(ValueTerminal('*', 'section-marker')) |
|
value = value[1:] |
|
if not value or not value[0].isdigit(): |
|
raise errors.HeaderParseError("Expected section number but " |
|
"found {}".format(value)) |
|
digits = '' |
|
while value and value[0].isdigit(): |
|
digits += value[0] |
|
value = value[1:] |
|
if digits[0] == '0' and digits != '0': |
|
section.defects.append(errors.InvalidHeaderDefect( |
|
"section number has an invalid leading 0")) |
|
section.number = int(digits) |
|
section.append(ValueTerminal(digits, 'digits')) |
|
return section, value |
|
|
|
|
|
def get_value(value): |
|
""" quoted-string / attribute |
|
|
|
""" |
|
v = Value() |
|
if not value: |
|
raise errors.HeaderParseError("Expected value but found end of string") |
|
leader = None |
|
if value[0] in CFWS_LEADER: |
|
leader, value = get_cfws(value) |
|
if not value: |
|
raise errors.HeaderParseError("Expected value but found " |
|
"only {}".format(leader)) |
|
if value[0] == '"': |
|
token, value = get_quoted_string(value) |
|
else: |
|
token, value = get_extended_attribute(value) |
|
if leader is not None: |
|
token[:0] = [leader] |
|
v.append(token) |
|
return v, value |
|
|
|
def get_parameter(value): |
|
""" attribute [section] ["*"] [CFWS] "=" value |
|
|
|
The CFWS is implied by the RFC but not made explicit in the BNF. This |
|
simplified form of the BNF from the RFC is made to conform with the RFC BNF |
|
through some extra checks. We do it this way because it makes both error |
|
recovery and working with the resulting parse tree easier. |
|
""" |
|
|
|
|
|
|
|
param = Parameter() |
|
token, value = get_attribute(value) |
|
param.append(token) |
|
if not value or value[0] == ';': |
|
param.defects.append(errors.InvalidHeaderDefect("Parameter contains " |
|
"name ({}) but no value".format(token))) |
|
return param, value |
|
if value[0] == '*': |
|
try: |
|
token, value = get_section(value) |
|
param.sectioned = True |
|
param.append(token) |
|
except errors.HeaderParseError: |
|
pass |
|
if not value: |
|
raise errors.HeaderParseError("Incomplete parameter") |
|
if value[0] == '*': |
|
param.append(ValueTerminal('*', 'extended-parameter-marker')) |
|
value = value[1:] |
|
param.extended = True |
|
if value[0] != '=': |
|
raise errors.HeaderParseError("Parameter not followed by '='") |
|
param.append(ValueTerminal('=', 'parameter-separator')) |
|
value = value[1:] |
|
leader = None |
|
if value and value[0] in CFWS_LEADER: |
|
token, value = get_cfws(value) |
|
param.append(token) |
|
remainder = None |
|
appendto = param |
|
if param.extended and value and value[0] == '"': |
|
|
|
|
|
|
|
qstring, remainder = get_quoted_string(value) |
|
inner_value = qstring.stripped_value |
|
semi_valid = False |
|
if param.section_number == 0: |
|
if inner_value and inner_value[0] == "'": |
|
semi_valid = True |
|
else: |
|
token, rest = get_attrtext(inner_value) |
|
if rest and rest[0] == "'": |
|
semi_valid = True |
|
else: |
|
try: |
|
token, rest = get_extended_attrtext(inner_value) |
|
except: |
|
pass |
|
else: |
|
if not rest: |
|
semi_valid = True |
|
if semi_valid: |
|
param.defects.append(errors.InvalidHeaderDefect( |
|
"Quoted string value for extended parameter is invalid")) |
|
param.append(qstring) |
|
for t in qstring: |
|
if t.token_type == 'bare-quoted-string': |
|
t[:] = [] |
|
appendto = t |
|
break |
|
value = inner_value |
|
else: |
|
remainder = None |
|
param.defects.append(errors.InvalidHeaderDefect( |
|
"Parameter marked as extended but appears to have a " |
|
"quoted string value that is non-encoded")) |
|
if value and value[0] == "'": |
|
token = None |
|
else: |
|
token, value = get_value(value) |
|
if not param.extended or param.section_number > 0: |
|
if not value or value[0] != "'": |
|
appendto.append(token) |
|
if remainder is not None: |
|
assert not value, value |
|
value = remainder |
|
return param, value |
|
param.defects.append(errors.InvalidHeaderDefect( |
|
"Apparent initial-extended-value but attribute " |
|
"was not marked as extended or was not initial section")) |
|
if not value: |
|
|
|
param.defects.append(errors.InvalidHeaderDefect( |
|
"Missing required charset/lang delimiters")) |
|
appendto.append(token) |
|
if remainder is None: |
|
return param, value |
|
else: |
|
if token is not None: |
|
for t in token: |
|
if t.token_type == 'extended-attrtext': |
|
break |
|
t.token_type == 'attrtext' |
|
appendto.append(t) |
|
param.charset = t.value |
|
if value[0] != "'": |
|
raise errors.HeaderParseError("Expected RFC2231 char/lang encoding " |
|
"delimiter, but found {!r}".format(value)) |
|
appendto.append(ValueTerminal("'", 'RFC2231-delimiter')) |
|
value = value[1:] |
|
if value and value[0] != "'": |
|
token, value = get_attrtext(value) |
|
appendto.append(token) |
|
param.lang = token.value |
|
if not value or value[0] != "'": |
|
raise errors.HeaderParseError("Expected RFC2231 char/lang encoding " |
|
"delimiter, but found {}".format(value)) |
|
appendto.append(ValueTerminal("'", 'RFC2231-delimiter')) |
|
value = value[1:] |
|
if remainder is not None: |
|
|
|
v = Value() |
|
while value: |
|
if value[0] in WSP: |
|
token, value = get_fws(value) |
|
elif value[0] == '"': |
|
token = ValueTerminal('"', 'DQUOTE') |
|
value = value[1:] |
|
else: |
|
token, value = get_qcontent(value) |
|
v.append(token) |
|
token = v |
|
else: |
|
token, value = get_value(value) |
|
appendto.append(token) |
|
if remainder is not None: |
|
assert not value, value |
|
value = remainder |
|
return param, value |
|
|
|
def parse_mime_parameters(value): |
|
""" parameter *( ";" parameter ) |
|
|
|
That BNF is meant to indicate this routine should only be called after |
|
finding and handling the leading ';'. There is no corresponding rule in |
|
the formal RFC grammar, but it is more convenient for us for the set of |
|
parameters to be treated as its own TokenList. |
|
|
|
This is 'parse' routine because it consumes the remaining value, but it |
|
would never be called to parse a full header. Instead it is called to |
|
parse everything after the non-parameter value of a specific MIME header. |
|
|
|
""" |
|
mime_parameters = MimeParameters() |
|
while value: |
|
try: |
|
token, value = get_parameter(value) |
|
mime_parameters.append(token) |
|
except errors.HeaderParseError as err: |
|
leader = None |
|
if value[0] in CFWS_LEADER: |
|
leader, value = get_cfws(value) |
|
if not value: |
|
mime_parameters.append(leader) |
|
return mime_parameters |
|
if value[0] == ';': |
|
if leader is not None: |
|
mime_parameters.append(leader) |
|
mime_parameters.defects.append(errors.InvalidHeaderDefect( |
|
"parameter entry with no content")) |
|
else: |
|
token, value = get_invalid_parameter(value) |
|
if leader: |
|
token[:0] = [leader] |
|
mime_parameters.append(token) |
|
mime_parameters.defects.append(errors.InvalidHeaderDefect( |
|
"invalid parameter {!r}".format(token))) |
|
if value and value[0] != ';': |
|
|
|
|
|
param = mime_parameters[-1] |
|
param.token_type = 'invalid-parameter' |
|
token, value = get_invalid_parameter(value) |
|
param.extend(token) |
|
mime_parameters.defects.append(errors.InvalidHeaderDefect( |
|
"parameter with invalid trailing text {!r}".format(token))) |
|
if value: |
|
|
|
mime_parameters.append(ValueTerminal(';', 'parameter-separator')) |
|
value = value[1:] |
|
return mime_parameters |
|
|
|
def _find_mime_parameters(tokenlist, value): |
|
"""Do our best to find the parameters in an invalid MIME header |
|
|
|
""" |
|
while value and value[0] != ';': |
|
if value[0] in PHRASE_ENDS: |
|
tokenlist.append(ValueTerminal(value[0], 'misplaced-special')) |
|
value = value[1:] |
|
else: |
|
token, value = get_phrase(value) |
|
tokenlist.append(token) |
|
if not value: |
|
return |
|
tokenlist.append(ValueTerminal(';', 'parameter-separator')) |
|
tokenlist.append(parse_mime_parameters(value[1:])) |
|
|
|
def parse_content_type_header(value): |
|
""" maintype "/" subtype *( ";" parameter ) |
|
|
|
The maintype and substype are tokens. Theoretically they could |
|
be checked against the official IANA list + x-token, but we |
|
don't do that. |
|
""" |
|
ctype = ContentType() |
|
recover = False |
|
if not value: |
|
ctype.defects.append(errors.HeaderMissingRequiredValue( |
|
"Missing content type specification")) |
|
return ctype |
|
try: |
|
token, value = get_token(value) |
|
except errors.HeaderParseError: |
|
ctype.defects.append(errors.InvalidHeaderDefect( |
|
"Expected content maintype but found {!r}".format(value))) |
|
_find_mime_parameters(ctype, value) |
|
return ctype |
|
ctype.append(token) |
|
|
|
|
|
if not value or value[0] != '/': |
|
ctype.defects.append(errors.InvalidHeaderDefect( |
|
"Invalid content type")) |
|
if value: |
|
_find_mime_parameters(ctype, value) |
|
return ctype |
|
ctype.maintype = token.value.strip().lower() |
|
ctype.append(ValueTerminal('/', 'content-type-separator')) |
|
value = value[1:] |
|
try: |
|
token, value = get_token(value) |
|
except errors.HeaderParseError: |
|
ctype.defects.append(errors.InvalidHeaderDefect( |
|
"Expected content subtype but found {!r}".format(value))) |
|
_find_mime_parameters(ctype, value) |
|
return ctype |
|
ctype.append(token) |
|
ctype.subtype = token.value.strip().lower() |
|
if not value: |
|
return ctype |
|
if value[0] != ';': |
|
ctype.defects.append(errors.InvalidHeaderDefect( |
|
"Only parameters are valid after content type, but " |
|
"found {!r}".format(value))) |
|
|
|
|
|
|
|
del ctype.maintype, ctype.subtype |
|
_find_mime_parameters(ctype, value) |
|
return ctype |
|
ctype.append(ValueTerminal(';', 'parameter-separator')) |
|
ctype.append(parse_mime_parameters(value[1:])) |
|
return ctype |
|
|
|
def parse_content_disposition_header(value): |
|
""" disposition-type *( ";" parameter ) |
|
|
|
""" |
|
disp_header = ContentDisposition() |
|
if not value: |
|
disp_header.defects.append(errors.HeaderMissingRequiredValue( |
|
"Missing content disposition")) |
|
return disp_header |
|
try: |
|
token, value = get_token(value) |
|
except errors.HeaderParseError: |
|
disp_header.defects.append(errors.InvalidHeaderDefect( |
|
"Expected content disposition but found {!r}".format(value))) |
|
_find_mime_parameters(disp_header, value) |
|
return disp_header |
|
disp_header.append(token) |
|
disp_header.content_disposition = token.value.strip().lower() |
|
if not value: |
|
return disp_header |
|
if value[0] != ';': |
|
disp_header.defects.append(errors.InvalidHeaderDefect( |
|
"Only parameters are valid after content disposition, but " |
|
"found {!r}".format(value))) |
|
_find_mime_parameters(disp_header, value) |
|
return disp_header |
|
disp_header.append(ValueTerminal(';', 'parameter-separator')) |
|
disp_header.append(parse_mime_parameters(value[1:])) |
|
return disp_header |
|
|
|
def parse_content_transfer_encoding_header(value): |
|
""" mechanism |
|
|
|
""" |
|
|
|
cte_header = ContentTransferEncoding() |
|
if not value: |
|
cte_header.defects.append(errors.HeaderMissingRequiredValue( |
|
"Missing content transfer encoding")) |
|
return cte_header |
|
try: |
|
token, value = get_token(value) |
|
except errors.HeaderParseError: |
|
cte_header.defects.append(errors.InvalidHeaderDefect( |
|
"Expected content transfer encoding but found {!r}".format(value))) |
|
else: |
|
cte_header.append(token) |
|
cte_header.cte = token.value.strip().lower() |
|
if not value: |
|
return cte_header |
|
while value: |
|
cte_header.defects.append(errors.InvalidHeaderDefect( |
|
"Extra text after content transfer encoding")) |
|
if value[0] in PHRASE_ENDS: |
|
cte_header.append(ValueTerminal(value[0], 'misplaced-special')) |
|
value = value[1:] |
|
else: |
|
token, value = get_phrase(value) |
|
cte_header.append(token) |
|
return cte_header |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
def _steal_trailing_WSP_if_exists(lines): |
|
wsp = '' |
|
if lines and lines[-1] and lines[-1][-1] in WSP: |
|
wsp = lines[-1][-1] |
|
lines[-1] = lines[-1][:-1] |
|
return wsp |
|
|
|
def _refold_parse_tree(parse_tree, *, policy): |
|
"""Return string of contents of parse_tree folded according to RFC rules. |
|
|
|
""" |
|
|
|
maxlen = policy.max_line_length or sys.maxsize |
|
encoding = 'utf-8' if policy.utf8 else 'us-ascii' |
|
lines = [''] |
|
last_ew = None |
|
last_charset = None |
|
wrap_as_ew_blocked = 0 |
|
want_encoding = False |
|
end_ew_not_allowed = Terminal('', 'wrap_as_ew_blocked') |
|
parts = list(parse_tree) |
|
while parts: |
|
part = parts.pop(0) |
|
if part is end_ew_not_allowed: |
|
wrap_as_ew_blocked -= 1 |
|
continue |
|
tstr = str(part) |
|
if part.token_type == 'ptext' and set(tstr) & SPECIALS: |
|
|
|
want_encoding = True |
|
try: |
|
tstr.encode(encoding) |
|
charset = encoding |
|
except UnicodeEncodeError: |
|
if any(isinstance(x, errors.UndecodableBytesDefect) |
|
for x in part.all_defects): |
|
charset = 'unknown-8bit' |
|
else: |
|
|
|
|
|
charset = 'utf-8' |
|
want_encoding = True |
|
if part.token_type == 'mime-parameters': |
|
|
|
_fold_mime_parameters(part, lines, maxlen, encoding) |
|
continue |
|
if want_encoding and not wrap_as_ew_blocked: |
|
if not part.as_ew_allowed: |
|
want_encoding = False |
|
last_ew = None |
|
if part.syntactic_break: |
|
encoded_part = part.fold(policy=policy)[:-len(policy.linesep)] |
|
if policy.linesep not in encoded_part: |
|
|
|
if len(encoded_part) > maxlen - len(lines[-1]): |
|
|
|
newline = _steal_trailing_WSP_if_exists(lines) |
|
|
|
lines.append(newline) |
|
lines[-1] += encoded_part |
|
continue |
|
|
|
|
|
|
|
|
|
if not hasattr(part, 'encode'): |
|
|
|
parts = list(part) + parts |
|
else: |
|
|
|
|
|
if (last_ew is not None and |
|
charset != last_charset and |
|
(last_charset == 'unknown-8bit' or |
|
last_charset == 'utf-8' and charset != 'us-ascii')): |
|
last_ew = None |
|
last_ew = _fold_as_ew(tstr, lines, maxlen, last_ew, |
|
part.ew_combine_allowed, charset) |
|
last_charset = charset |
|
want_encoding = False |
|
continue |
|
if len(tstr) <= maxlen - len(lines[-1]): |
|
lines[-1] += tstr |
|
continue |
|
|
|
|
|
|
|
if (part.syntactic_break and |
|
len(tstr) + 1 <= maxlen): |
|
newline = _steal_trailing_WSP_if_exists(lines) |
|
if newline or part.startswith_fws(): |
|
lines.append(newline + tstr) |
|
last_ew = None |
|
continue |
|
if not hasattr(part, 'encode'): |
|
|
|
newparts = list(part) |
|
if not part.as_ew_allowed: |
|
wrap_as_ew_blocked += 1 |
|
newparts.append(end_ew_not_allowed) |
|
parts = newparts + parts |
|
continue |
|
if part.as_ew_allowed and not wrap_as_ew_blocked: |
|
|
|
|
|
parts.insert(0, part) |
|
want_encoding = True |
|
continue |
|
|
|
newline = _steal_trailing_WSP_if_exists(lines) |
|
if newline or part.startswith_fws(): |
|
lines.append(newline + tstr) |
|
else: |
|
|
|
lines[-1] += tstr |
|
return policy.linesep.join(lines) + policy.linesep |
|
|
|
def _fold_as_ew(to_encode, lines, maxlen, last_ew, ew_combine_allowed, charset): |
|
"""Fold string to_encode into lines as encoded word, combining if allowed. |
|
Return the new value for last_ew, or None if ew_combine_allowed is False. |
|
|
|
If there is already an encoded word in the last line of lines (indicated by |
|
a non-None value for last_ew) and ew_combine_allowed is true, decode the |
|
existing ew, combine it with to_encode, and re-encode. Otherwise, encode |
|
to_encode. In either case, split to_encode as necessary so that the |
|
encoded segments fit within maxlen. |
|
|
|
""" |
|
if last_ew is not None and ew_combine_allowed: |
|
to_encode = str( |
|
get_unstructured(lines[-1][last_ew:] + to_encode)) |
|
lines[-1] = lines[-1][:last_ew] |
|
if to_encode[0] in WSP: |
|
|
|
|
|
leading_wsp = to_encode[0] |
|
to_encode = to_encode[1:] |
|
if (len(lines[-1]) == maxlen): |
|
lines.append(_steal_trailing_WSP_if_exists(lines)) |
|
lines[-1] += leading_wsp |
|
trailing_wsp = '' |
|
if to_encode[-1] in WSP: |
|
|
|
trailing_wsp = to_encode[-1] |
|
to_encode = to_encode[:-1] |
|
new_last_ew = len(lines[-1]) if last_ew is None else last_ew |
|
|
|
encode_as = 'utf-8' if charset == 'us-ascii' else charset |
|
|
|
|
|
|
|
chrome_len = len(encode_as) + 7 |
|
|
|
if (chrome_len + 1) >= maxlen: |
|
raise errors.HeaderParseError( |
|
"max_line_length is too small to fit an encoded word") |
|
|
|
while to_encode: |
|
remaining_space = maxlen - len(lines[-1]) |
|
text_space = remaining_space - chrome_len |
|
if text_space <= 0: |
|
lines.append(' ') |
|
continue |
|
|
|
to_encode_word = to_encode[:text_space] |
|
encoded_word = _ew.encode(to_encode_word, charset=encode_as) |
|
excess = len(encoded_word) - remaining_space |
|
while excess > 0: |
|
|
|
|
|
to_encode_word = to_encode_word[:-1] |
|
encoded_word = _ew.encode(to_encode_word, charset=encode_as) |
|
excess = len(encoded_word) - remaining_space |
|
lines[-1] += encoded_word |
|
to_encode = to_encode[len(to_encode_word):] |
|
|
|
if to_encode: |
|
lines.append(' ') |
|
new_last_ew = len(lines[-1]) |
|
lines[-1] += trailing_wsp |
|
return new_last_ew if ew_combine_allowed else None |
|
|
|
def _fold_mime_parameters(part, lines, maxlen, encoding): |
|
"""Fold TokenList 'part' into the 'lines' list as mime parameters. |
|
|
|
Using the decoded list of parameters and values, format them according to |
|
the RFC rules, including using RFC2231 encoding if the value cannot be |
|
expressed in 'encoding' and/or the parameter+value is too long to fit |
|
within 'maxlen'. |
|
|
|
""" |
|
|
|
|
|
|
|
|
|
|
|
|
|
for name, value in part.params: |
|
|
|
|
|
|
|
|
|
|
|
if not lines[-1].rstrip().endswith(';'): |
|
lines[-1] += ';' |
|
charset = encoding |
|
error_handler = 'strict' |
|
try: |
|
value.encode(encoding) |
|
encoding_required = False |
|
except UnicodeEncodeError: |
|
encoding_required = True |
|
if utils._has_surrogates(value): |
|
charset = 'unknown-8bit' |
|
error_handler = 'surrogateescape' |
|
else: |
|
charset = 'utf-8' |
|
if encoding_required: |
|
encoded_value = urllib.parse.quote( |
|
value, safe='', errors=error_handler) |
|
tstr = "{}*={}''{}".format(name, charset, encoded_value) |
|
else: |
|
tstr = '{}={}'.format(name, quote_string(value)) |
|
if len(lines[-1]) + len(tstr) + 1 < maxlen: |
|
lines[-1] = lines[-1] + ' ' + tstr |
|
continue |
|
elif len(tstr) + 2 <= maxlen: |
|
lines.append(' ' + tstr) |
|
continue |
|
|
|
|
|
section = 0 |
|
extra_chrome = charset + "''" |
|
while value: |
|
chrome_len = len(name) + len(str(section)) + 3 + len(extra_chrome) |
|
if maxlen <= chrome_len + 3: |
|
|
|
|
|
|
|
|
|
maxlen = 78 |
|
splitpoint = maxchars = maxlen - chrome_len - 2 |
|
while True: |
|
partial = value[:splitpoint] |
|
encoded_value = urllib.parse.quote( |
|
partial, safe='', errors=error_handler) |
|
if len(encoded_value) <= maxchars: |
|
break |
|
splitpoint -= 1 |
|
lines.append(" {}*{}*={}{}".format( |
|
name, section, extra_chrome, encoded_value)) |
|
extra_chrome = '' |
|
section += 1 |
|
value = value[splitpoint:] |
|
if value: |
|
lines[-1] += ';' |
|
|