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# Copyright (C) 2001-2010 Python Software Foundation
# Author: Barry Warsaw
# Contact: email-sig@python.org
"""Miscellaneous utilities."""
__all__ = [
'collapse_rfc2231_value',
'decode_params',
'decode_rfc2231',
'encode_rfc2231',
'formataddr',
'formatdate',
'format_datetime',
'getaddresses',
'make_msgid',
'mktime_tz',
'parseaddr',
'parsedate',
'parsedate_tz',
'parsedate_to_datetime',
'unquote',
]
import os
import re
import time
import base64
import random
import socket
import datetime
import urllib.parse
import warnings
from io import StringIO
from email._parseaddr import quote
from email._parseaddr import AddressList as _AddressList
from email._parseaddr import mktime_tz
# We need wormarounds for bugs in these methods in older Pythons (see below)
from email._parseaddr import parsedate as _parsedate
from email._parseaddr import parsedate_tz as _parsedate_tz
from email._parseaddr import _parsedate_tz as __parsedate_tz
from quopri import decodestring as _qdecode
# Intrapackage imports
from email.encoders import _bencode, _qencode
from email.charset import Charset
COMMASPACE = ', '
EMPTYSTRING = ''
UEMPTYSTRING = ''
CRLF = '\r\n'
TICK = "'"
specialsre = re.compile(r'[][\\()<>@,:;".]')
escapesre = re.compile(r'[\\"]')
# How to figure out if we are processing strings that come from a byte
# source with undecodable characters.
_has_surrogates = re.compile(
'([^\ud800-\udbff]|\A)[\udc00-\udfff]([^\udc00-\udfff]|\Z)').search
# How to deal with a string containing bytes before handing it to the
# application through the 'normal' interface.
def _sanitize(string):
# Turn any escaped bytes into unicode 'unknown' char.
original_bytes = string.encode('ascii', 'surrogateescape')
return original_bytes.decode('ascii', 'replace')
# Helpers
def formataddr(pair, charset='utf-8'):
"""The inverse of parseaddr(), this takes a 2-tuple of the form
(realname, email_address) and returns the string value suitable
for an RFC 2822 From, To or Cc header.
If the first element of pair is false, then the second element is
returned unmodified.
Optional charset if given is the character set that is used to encode
realname in case realname is not ASCII safe. Can be an instance of str or
a Charset-like object which has a header_encode method. Default is
'utf-8'.
"""
name, address = pair
# The address MUST (per RFC) be ascii, so throw a UnicodeError if it isn't.
address.encode('ascii')
if name:
try:
name.encode('ascii')
except UnicodeEncodeError:
if isinstance(charset, str):
charset = Charset(charset)
encoded_name = charset.header_encode(name)
return "%s <%s>" % (encoded_name, address)
else:
quotes = ''
if specialsre.search(name):
quotes = '"'
name = escapesre.sub(r'\\\g<0>', name)
return '%s%s%s <%s>' % (quotes, name, quotes, address)
return address
def getaddresses(fieldvalues):
"""Return a list of (REALNAME, EMAIL) for each fieldvalue."""
all = COMMASPACE.join(fieldvalues)
a = _AddressList(all)
return a.addresslist
ecre = re.compile(r'''
=\? # literal =?
(?P<charset>[^?]*?) # non-greedy up to the next ? is the charset
\? # literal ?
(?P<encoding>[qb]) # either a "q" or a "b", case insensitive
\? # literal ?
(?P<atom>.*?) # non-greedy up to the next ?= is the atom
\?= # literal ?=
''', re.VERBOSE | re.IGNORECASE)
def _format_timetuple_and_zone(timetuple, zone):
return '%s, %02d %s %04d %02d:%02d:%02d %s' % (
['Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'][timetuple[6]],
timetuple[2],
['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun',
'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'][timetuple[1] - 1],
timetuple[0], timetuple[3], timetuple[4], timetuple[5],
zone)
def formatdate(timeval=None, localtime=False, usegmt=False):
"""Returns a date string as specified by RFC 2822, e.g.:
Fri, 09 Nov 2001 01:08:47 -0000
Optional timeval if given is a floating point time value as accepted by
gmtime() and localtime(), otherwise the current time is used.
Optional localtime is a flag that when True, interprets timeval, and
returns a date relative to the local timezone instead of UTC, properly
taking daylight savings time into account.
Optional argument usegmt means that the timezone is written out as
an ascii string, not numeric one (so "GMT" instead of "+0000"). This
is needed for HTTP, and is only used when localtime==False.
"""
# Note: we cannot use strftime() because that honors the locale and RFC
# 2822 requires that day and month names be the English abbreviations.
if timeval is None:
timeval = time.time()
if localtime:
now = time.localtime(timeval)
# Calculate timezone offset, based on whether the local zone has
# daylight savings time, and whether DST is in effect.
if time.daylight and now[-1]:
offset = time.altzone
else:
offset = time.timezone
hours, minutes = divmod(abs(offset), 3600)
# Remember offset is in seconds west of UTC, but the timezone is in
# minutes east of UTC, so the signs differ.
if offset > 0:
sign = '-'
else:
sign = '+'
zone = '%s%02d%02d' % (sign, hours, minutes // 60)
else:
now = time.gmtime(timeval)
# Timezone offset is always -0000
if usegmt:
zone = 'GMT'
else:
zone = '-0000'
return _format_timetuple_and_zone(now, zone)
def format_datetime(dt, usegmt=False):
"""Turn a datetime into a date string as specified in RFC 2822.
If usegmt is True, dt must be an aware datetime with an offset of zero. In
this case 'GMT' will be rendered instead of the normal +0000 required by
RFC2822. This is to support HTTP headers involving date stamps.
"""
now = dt.timetuple()
if usegmt:
if dt.tzinfo is None or dt.tzinfo != datetime.timezone.utc:
raise ValueError("usegmt option requires a UTC datetime")
zone = 'GMT'
elif dt.tzinfo is None:
zone = '-0000'
else:
zone = dt.strftime("%z")
return _format_timetuple_and_zone(now, zone)
def make_msgid(idstring=None, domain=None):
"""Returns a string suitable for RFC 2822 compliant Message-ID, e.g:
<20020201195627.33539.96671@nightshade.la.mastaler.com>
Optional idstring if given is a string used to strengthen the
uniqueness of the message id. Optional domain if given provides the
portion of the message id after the '@'. It defaults to the locally
defined hostname.
"""
timeval = time.time()
utcdate = time.strftime('%Y%m%d%H%M%S', time.gmtime(timeval))
pid = os.getpid()
randint = random.randrange(100000)
if idstring is None:
idstring = ''
else:
idstring = '.' + idstring
if domain is None:
domain = socket.getfqdn()
msgid = '<%s.%s.%s%s@%s>' % (utcdate, pid, randint, idstring, domain)
return msgid
# These functions are in the standalone mimelib version only because they've
# subsequently been fixed in the latest Python versions. We use this to worm
# around broken older Pythons.
def parsedate(data):
if not data:
return None
return _parsedate(data)
def parsedate_tz(data):
if not data:
return None
return _parsedate_tz(data)
def parsedate_to_datetime(data):
if not data:
return None
*dtuple, tz = __parsedate_tz(data)
if tz is None:
return datetime.datetime(*dtuple[:6])
return datetime.datetime(*dtuple[:6],
tzinfo=datetime.timezone(datetime.timedelta(seconds=tz)))
def parseaddr(addr):
addrs = _AddressList(addr).addresslist
if not addrs:
return '', ''
return addrs[0]
# rfc822.unquote() doesn't properly de-backslash-ify in Python pre-2.3.
def unquote(str):
"""Remove quotes from a string."""
if len(str) > 1:
if str.startswith('"') and str.endswith('"'):
return str[1:-1].replace('\\\\', '\\').replace('\\"', '"')
if str.startswith('<') and str.endswith('>'):
return str[1:-1]
return str
# RFC2231-related functions - parameter encoding and decoding
def decode_rfc2231(s):
"""Decode string according to RFC 2231"""
parts = s.split(TICK, 2)
if len(parts) <= 2:
return None, None, s
return parts
def encode_rfc2231(s, charset=None, language=None):
"""Encode string according to RFC 2231.
If neither charset nor language is given, then s is returned as-is. If
charset is given but not language, the string is encoded using the empty
string for language.
"""
s = urllib.parse.quote(s, safe='', encoding=charset or 'ascii')
if charset is None and language is None:
return s
if language is None:
language = ''
return "%s'%s'%s" % (charset, language, s)
rfc2231_continuation = re.compile(r'^(?P<name>\w+)\*((?P<num>[0-9]+)\*?)?$',
re.ASCII)
def decode_params(params):
"""Decode parameters list according to RFC 2231.
params is a sequence of 2-tuples containing (param name, string value).
"""
# Copy params so we don't mess with the original
params = params[:]
new_params = []
# Map parameter's name to a list of continuations. The values are a
# 3-tuple of the continuation number, the string value, and a flag
# specifying whether a particular segment is %-encoded.
rfc2231_params = {}
name, value = params.pop(0)
new_params.append((name, value))
while params:
name, value = params.pop(0)
if name.endswith('*'):
encoded = True
else:
encoded = False
value = unquote(value)
mo = rfc2231_continuation.match(name)
if mo:
name, num = mo.group('name', 'num')
if num is not None:
num = int(num)
rfc2231_params.setdefault(name, []).append((num, value, encoded))
else:
new_params.append((name, '"%s"' % quote(value)))
if rfc2231_params:
for name, continuations in rfc2231_params.items():
value = []
extended = False
# Sort by number
continuations.sort()
# And now append all values in numerical order, converting
# %-encodings for the encoded segments. If any of the
# continuation names ends in a *, then the entire string, after
# decoding segments and concatenating, must have the charset and
# language specifiers at the beginning of the string.
for num, s, encoded in continuations:
if encoded:
# Decode as "latin-1", so the characters in s directly
# represent the percent-encoded octet values.
# collapse_rfc2231_value treats this as an octet sequence.
s = urllib.parse.unquote(s, encoding="latin-1")
extended = True
value.append(s)
value = quote(EMPTYSTRING.join(value))
if extended:
charset, language, value = decode_rfc2231(value)
new_params.append((name, (charset, language, '"%s"' % value)))
else:
new_params.append((name, '"%s"' % value))
return new_params
def collapse_rfc2231_value(value, errors='replace',
fallback_charset='us-ascii'):
if not isinstance(value, tuple) or len(value) != 3:
return unquote(value)
# While value comes to us as a unicode string, we need it to be a bytes
# object. We do not want bytes() normal utf-8 decoder, we want a straight
# interpretation of the string as character bytes.
charset, language, text = value
rawbytes = bytes(text, 'raw-unicode-escape')
try:
return str(rawbytes, charset, errors)
except LookupError:
# charset is not a known codec.
return unquote(text)
#
# datetime doesn't provide a localtime function yet, so provide one. Code
# adapted from the patch in issue 9527. This may not be perfect, but it is
# better than not having it.
#
def localtime(dt=None, isdst=-1):
"""Return local time as an aware datetime object.
If called without arguments, return current time. Otherwise *dt*
argument should be a datetime instance, and it is converted to the
local time zone according to the system time zone database. If *dt* is
naive (that is, dt.tzinfo is None), it is assumed to be in local time.
In this case, a positive or zero value for *isdst* causes localtime to
presume initially that summer time (for example, Daylight Saving Time)
is or is not (respectively) in effect for the specified time. A
negative value for *isdst* causes the localtime() function to attempt
to divine whether summer time is in effect for the specified time.
"""
if dt is None:
seconds = time.time()
else:
if dt.tzinfo is None:
# A naive datetime is given. Convert to a (localtime)
# timetuple and pass to system mktime together with
# the isdst hint. System mktime will return seconds
# sysce epoch.
tm = dt.timetuple()[:-1] + (isdst,)
seconds = time.mktime(tm)
else:
# An aware datetime is given. Use aware datetime
# arithmetics to find seconds since epoch.
delta = dt - datetime.datetime(1970, 1, 1,
tzinfo=datetime.timezone.utc)
seconds = delta.total_seconds()
tm = time.localtime(seconds)
# XXX: The following logic may not work correctly if UTC
# offset has changed since time provided in dt. This will be
# corrected in C implementation for platforms that support
# tm_gmtoff.
if time.daylight and tm.tm_isdst:
offset = time.altzone
tzname = time.tzname[1]
else:
offset = time.timezone
tzname = time.tzname[0]
tz = datetime.timezone(datetime.timedelta(seconds=-offset), tzname)
return datetime.datetime.fromtimestamp(seconds, tz)
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