cpython/Lib/email/Parser.py

# Copyright (C) 2001,2002 Python Software Foundation
# Author: barry@zope.com (Barry Warsaw)

"""A parser of RFC 2822 and MIME email messages.
"""

import re
from cStringIO import StringIO
from types import ListType

# Intrapackage imports
import Errors
import Message

EMPTYSTRING = ''
NL = '\n'



class Parser:
    def __init__(self, _class=Message.Message):
        """Parser of RFC 2822 and MIME email messages.

        Creates an in-memory object tree representing the email message, which
        can then be manipulated and turned over to a Generator to return the
        textual representation of the message.

        The string must be formatted as a block of RFC 2822 headers and header
        continuation lines, optionally preceeded by a `Unix-from' header.  The
        header block is terminated either by the end of the string or by a
        blank line.

        _class is the class to instantiate for new message objects when they
        must be created.  This class must have a constructor that can take
        zero arguments.  Default is Message.Message.
        """
        self._class = _class

    def parse(self, fp):
        root = self._class()
        self._parseheaders(root, fp)
        self._parsebody(root, fp)
        return root

    def parsestr(self, text):
        return self.parse(StringIO(text))

    def _parseheaders(self, container, fp):
        # Parse the headers, returning a list of header/value pairs.  None as
        # the header means the Unix-From header.
        lastheader = ''
        lastvalue = []
        lineno = 0
        while 1:
            # Don't strip the line before we test for the end condition,
            # because whitespace-only header lines are RFC compliant
            # continuation lines.
            line = fp.readline()
            if not line:
                break
            line = line.splitlines()[0]
            if not line:
                break
            # Ignore the trailing newline
            lineno += 1
            # Check for initial Unix From_ line
            if line.startswith('From '):
                if lineno == 1:
                    container.set_unixfrom(line)
                    continue
                else:
                    raise Errors.HeaderParseError(
                        'Unix-from in headers after first rfc822 header')
            # Header continuation line
            if line[0] in ' \t':
                if not lastheader:
                    raise Errors.HeaderParseError(
                        'Continuation line seen before first header')
                lastvalue.append(line)
                continue
            # Normal, non-continuation header.  BAW: this should check to make
            # sure it's a legal header, e.g. doesn't contain spaces.  Also, we
            # should expose the header matching algorithm in the API, and
            # allow for a non-strict parsing mode (that ignores the line
            # instead of raising the exception).
            i = line.find(':')
            if i < 0:
                raise Errors.HeaderParseError(
                    'Not a header, not a continuation')
            if lastheader:
                container[lastheader] = NL.join(lastvalue)
            lastheader = line[:i]
            lastvalue = [line[i+1:].lstrip()]
        # Make sure we retain the last header
        if lastheader:
            container[lastheader] = NL.join(lastvalue)

    def _parsebody(self, container, fp):
        # Parse the body, but first split the payload on the content-type
        # boundary if present.
        boundary = container.get_boundary()
        isdigest = (container.get_type() == 'multipart/digest')
        # If there's a boundary, split the payload text into its constituent
        # parts and parse each separately.  Otherwise, just parse the rest of
        # the body as a single message.  Note: any exceptions raised in the
        # recursive parse need to have their line numbers coerced.
        if boundary:
            preamble = epilogue = None
            # Split into subparts.  The first boundary we're looking for won't
            # have the leading newline since we're at the start of the body
            # text.
            separator = '--' + boundary
            payload = fp.read()
            start = payload.find(separator)
            if start < 0:
                raise Errors.BoundaryError(
                    "Couldn't find starting boundary: %s" % boundary)
            if start > 0:
                # there's some pre-MIME boundary preamble
                preamble = payload[0:start]
            # Find out what kind of line endings we're using
            start += len(separator)
            cre = re.compile('\r\n|\r|\n')
            mo = cre.search(payload, start)
            if mo:
                start += len(mo.group(0)) * (1 + isdigest)
            # We create a compiled regexp first because we need to be able to
            # specify the start position, and the module function doesn't
            # support this signature. :(
            cre = re.compile('(?P<sep>\r\n|\r|\n)' +
                             re.escape(separator) + '--')
            mo = cre.search(payload, start)
            if not mo:
                raise Errors.BoundaryError(
                    "Couldn't find terminating boundary: %s" % boundary)
            terminator = mo.start()
            linesep = mo.group('sep')
            if mo.end() < len(payload):
                # there's some post-MIME boundary epilogue
                epilogue = payload[mo.end():]
            # We split the textual payload on the boundary separator, which
            # includes the trailing newline.  If the container is a
            # multipart/digest then the subparts are by default message/rfc822
            # instead of text/plain.  In that case, they'll have an extra
            # newline before the headers to distinguish the message's headers
            # from the subpart headers.
            separator += linesep * (1 + isdigest)
            parts = payload[start:terminator].split(linesep + separator)
            for part in parts:
                msgobj = self.parsestr(part)
                container.preamble = preamble
                container.epilogue = epilogue
                container.attach(msgobj)
        elif container.get_main_type() == 'multipart':
            # Very bad.  A message is a multipart with no boundary!
            raise Errors.BoundaryError(
                'multipart message with no defined boundary')
        elif container.get_type() == 'message/delivery-status':
            # This special kind of type contains blocks of headers separated
            # by a blank line.  We'll represent each header block as a
            # separate Message object
            blocks = []
            while 1:
                blockmsg = self._class()
                self._parseheaders(blockmsg, fp)
                if not len(blockmsg):
                    # No more header blocks left
                    break
                blocks.append(blockmsg)
            container.set_payload(blocks)
        elif container.get_main_type() == 'message':
            # Create a container for the payload, but watch out for there not
            # being any headers left
            try:
                msg = self.parse(fp)
            except Errors.HeaderParseError:
                msg = self._class()
                self._parsebody(msg, fp)
            container.set_payload(msg)
        else:
            container.set_payload(fp.read())



class HeaderParser(Parser):
    """A subclass of Parser, this one only meaningfully parses message headers.

    This class can be used if all you're interested in is the headers of a
    message.  While it consumes the message body, it does not parse it, but
    simply makes it available as a string payload.

    Parsing with this subclass can be considerably faster if all you're
    interested in is the message headers.
    """
    def _parsebody(self, container, fp):
        # Consume but do not parse, the body
        container.set_payload(fp.read())