DandelionNStuff/dkimpy-smtputf8
4
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
339bf1fb63f822941fffaf3b3baed59eb762909f
dkimpy-smtputf8/dkim/__init__.py
T
André Cruz 264230308c fix correct AMS header selection 
When we are verifying the ARC seal we need to fetch the raw AMS header
from the header list. But it's not enough to return the first one we
find, since we may be interested in a different arc seal, we need
to search for the correct ARC index.
2023-03-30 16:02:46 +01:00

1456 lines
56 KiB
Python
Raw Blame History

# This software is provided 'as-is', without any express or implied
# warranty. In no event will the author be held liable for any damages
# arising from the use of this software.
#
# Permission is granted to anyone to use this software for any purpose,
# including commercial applications, and to alter it and redistribute it
# freely, subject to the following restrictions:
#
# 1. The origin of this software must not be misrepresented; you must not
# claim that you wrote the original software. If you use this software
# in a product, an acknowledgment in the product documentation would be
# appreciated but is not required.
# 2. Altered source versions must be plainly marked as such, and must not be
# misrepresented as being the original software.
# 3. This notice may not be removed or altered from any source distribution.
#
# Copyright (c) 2008 Greg Hewgill http://hewgill.com
#
# This has been modified from the original software.
# Copyright (c) 2011 William Grant <me@williamgrant.id.au>
#
# This has been modified from the original software.
# Copyright (c) 2016 Google, Inc.
# Contact: Brandon Long <blong@google.com>
#
# This has been modified from the original software.
# Copyright (c) 2016, 2017, 2018, 2019 Scott Kitterman <scott@kitterman.com>
#
# This has been modified from the original software.
# Copyright (c) 2017 Valimail Inc
# Contact: Gene Shuman <gene@valimail.com>
#
import base64
import hashlib
import logging
import re
import sys
import time
import binascii
# Set to False to not use async functions even though aiodns is installed.
USE_ASYNC = True
# only needed for arc
try:
import authres
except ImportError:
pass
# only needed for ed25519 signing/verification
try:
import nacl.signing
import nacl.encoding
except ImportError:
pass
from dkim.canonicalization import (
CanonicalizationPolicy,
InvalidCanonicalizationPolicyError,
)
from dkim.canonicalization import Relaxed as RelaxedCanonicalization
from dkim.crypto import (
DigestTooLargeError,
HASH_ALGORITHMS,
ARC_HASH_ALGORITHMS,
parse_pem_private_key,
parse_public_key,
RSASSA_PKCS1_v1_5_sign,
RSASSA_PKCS1_v1_5_verify,
UnparsableKeyError,
)
try:
from dkim.dnsplug import get_txt
except ImportError:
if USE_ASYNC:
try:
import aiodns
from dkim.asyncsupport import get_txt_async as get_txt
except:
# Only true if not using async
def get_txt(s,timeout=5):
raise RuntimeError("DKIM.verify requires DNS or dnspython module")
else:
raise RuntimeError("DKIM.verify requires DNS or dnspython module")
from dkim.util import (
get_default_logger,
InvalidTagValueList,
parse_tag_value,
)
__all__ = [
"DKIMException",
"InternalError",
"KeyFormatError",
"MessageFormatError",
"ParameterError",
"ValidationError",
"AuthresNotFoundError",
"NaClNotFoundError",
"DnsTimeoutError",
"USE_ASYNC",
"CV_Pass",
"CV_Fail",
"CV_None",
"Relaxed",
"Simple",
"DKIM",
"ARC",
"sign",
"verify",
"dkim_sign",
"dkim_verify",
"arc_sign",
"arc_verify",
]
Relaxed = b'relaxed' # for clients passing dkim.Relaxed
Simple = b'simple' # for clients passing dkim.Simple
# for ARC
CV_Pass = b'pass'
CV_Fail = b'fail'
CV_None = b'none'
class HashThrough(object):
def __init__(self, hasher, debug=False):
self.data = []
self.hasher = hasher
self.name = hasher.name
self.debug = debug
def update(self, data):
if self.debug:
self.data.append(data)
return self.hasher.update(data)
def digest(self):
return self.hasher.digest()
def hexdigest(self):
return self.hasher.hexdigest()
def hashed(self):
return b''.join(self.data)
def bitsize(x):
"""Return size of long in bits."""
return len(bin(x)) - 2
class DKIMException(Exception):
"""Base class for DKIM errors."""
pass
class InternalError(DKIMException):
"""Internal error in dkim module. Should never happen."""
pass
class KeyFormatError(DKIMException):
"""Key format error while parsing an RSA public or private key."""
pass
class MessageFormatError(DKIMException):
"""RFC822 message format error."""
pass
class ParameterError(DKIMException):
"""Input parameter error."""
pass
class ValidationError(DKIMException):
"""Validation error."""
pass
class AuthresNotFoundError(DKIMException):
""" Authres Package not installed, needed for ARC """
pass
class NaClNotFoundError(DKIMException):
""" Nacl package not installed, needed for ed25119 signatures """
pass
class UnknownKeyTypeError(DKIMException):
""" Key type (k tag) is not known (rsa/ed25519) """
class DnsTimeoutError(DKIMException):
""" DNS query for public key timed out """
def select_headers(headers, include_headers):
"""Select message header fields to be signed/verified.
>>> h = [('from','biz'),('foo','bar'),('from','baz'),('subject','boring')]
>>> i = ['from','subject','to','from']
>>> select_headers(h,i)
[('from', 'baz'), ('subject', 'boring'), ('from', 'biz')]
>>> h = [('From','biz'),('Foo','bar'),('Subject','Boring')]
>>> i = ['from','subject','to','from']
>>> select_headers(h,i)
[('From', 'biz'), ('Subject', 'Boring')]
"""
sign_headers = []
lastindex = {}
for h in include_headers:
assert h == h.lower()
i = lastindex.get(h, len(headers))
while i > 0:
i -= 1
if h == headers[i][0].lower():
sign_headers.append(headers[i])
break
lastindex[h] = i
return sign_headers
# FWS = ([*WSP CRLF] 1*WSP) / obs-FWS ; Folding white space [RFC5322]
FWS = br'(?:(?:\s*\r?\n)?\s+)?'
RE_BTAG = re.compile(br'([;\s]b'+FWS+br'=)(?:'+FWS+br'[a-zA-Z0-9+/=])*(?:\r?\n\Z)?')
def hash_headers(hasher, canonicalize_headers, headers, include_headers,
sigheader, sig):
"""Update hash for signed message header fields."""
sign_headers = select_headers(headers,include_headers)
# The call to _remove() assumes that the signature b= only appears
# once in the signature header
cheaders = canonicalize_headers.canonicalize_headers(
[(sigheader[0], RE_BTAG.sub(b'\\1',sigheader[1]))])
# the dkim sig is hashed with no trailing crlf, even if the
# canonicalization algorithm would add one.
for x,y in sign_headers + [(x, y.rstrip()) for x,y in cheaders]:
hasher.update(x)
hasher.update(b":")
hasher.update(y)
return sign_headers
def hash_headers_ed25519(pk, canonicalize_headers, headers, include_headers,
sigheader, sig):
"""Update hash for signed message header fields."""
hash_header = ''
sign_headers = select_headers(headers,include_headers)
# The call to _remove() assumes that the signature b= only appears
# once in the signature header
cheaders = canonicalize_headers.canonicalize_headers(
[(sigheader[0], RE_BTAG.sub(b'\\1',sigheader[1]))])
# the dkim sig is hashed with no trailing crlf, even if the
# canonicalization algorithm would add one.
for x,y in sign_headers + [(x, y.rstrip()) for x,y in cheaders]:
hash_header += x + y
return sign_headers, hash_header
def validate_signature_fields(sig, mandatory_fields=[b'v', b'a', b'b', b'bh', b'd', b'h', b's'], arc=False):
"""Validate DKIM or ARC Signature fields.
Basic checks for presence and correct formatting of mandatory fields.
Raises a ValidationError if checks fail, otherwise returns None.
@param sig: A dict mapping field keys to values.
@param mandatory_fields: A list of non-optional fields
@param arc: flag to differentiate between dkim & arc
"""
if arc:
hashes = ARC_HASH_ALGORITHMS
else:
hashes = HASH_ALGORITHMS
for field in mandatory_fields:
if field not in sig:
raise ValidationError("missing %s=" % field)
if b'a' in sig and not sig[b'a'] in hashes:
raise ValidationError("unknown signature algorithm: %s" % sig[b'a'])
if b'b' in sig:
if re.match(br"[\s0-9A-Za-z+/]+[\s=]*$", sig[b'b']) is None:
raise ValidationError("b= value is not valid base64 (%s)" % sig[b'b'])
if len(re.sub(br"\s+", b"", sig[b'b'])) % 4 != 0:
raise ValidationError("b= value is not valid base64 (%s)" % sig[b'b'])
if b'bh' in sig:
if re.match(br"[\s0-9A-Za-z+/]+[\s=]*$", sig[b'b']) is None:
raise ValidationError("bh= value is not valid base64 (%s)" % sig[b'bh'])
if len(re.sub(br"\s+", b"", sig[b'bh'])) % 4 != 0:
raise ValidationError("bh= value is not valid base64 (%s)" % sig[b'bh'])
if b'cv' in sig and sig[b'cv'] not in (CV_Pass, CV_Fail, CV_None):
raise ValidationError("cv= value is not valid (%s)" % sig[b'cv'])
# Limit domain validation to ASCII domains because too hard
try:
str(sig[b'd'], 'ascii')
# No specials, which is close enough
if re.findall(b"[\(\)<>\[\]:;@\\,]", sig[b'd']):
raise ValidationError("d= value is not valid (%s)" % sig[b'd'])
except UnicodeDecodeError as e:
# Not an ASCII domain
pass
# Nasty hack to support both str and bytes... check for both the
# character and integer values.
if not arc and b'i' in sig and (
not sig[b'i'].lower().endswith(sig[b'd'].lower()) or
sig[b'i'][-len(sig[b'd'])-1] not in ('@', '.', 64, 46)):
raise ValidationError(
"i= domain is not a subdomain of d= (i=%s d=%s)" %
(sig[b'i'], sig[b'd']))
if b'l' in sig and re.match(br"\d{,76}$", sig[b'l']) is None:
raise ValidationError(
"l= value is not a decimal integer (%s)" % sig[b'l'])
if b'q' in sig and sig[b'q'] != b"dns/txt":
raise ValidationError("q= value is not dns/txt (%s)" % sig[b'q'])
if b't' in sig:
if re.match(br"\d+$", sig[b't']) is None:
raise ValidationError(
"t= value is not a decimal integer (%s)" % sig[b't'])
now = int(time.time())
slop = 36000 # 10H leeway for mailers with inaccurate clocks
t_sign = int(sig[b't'])
if t_sign > now + slop:
raise ValidationError("t= value is in the future (%s)" % sig[b't'])
if b'v' in sig and sig[b'v'] != b"1":
raise ValidationError("v= value is not 1 (%s)" % sig[b'v'])
if b'x' in sig:
if re.match(br"\d+$", sig[b'x']) is None:
raise ValidationError(
"x= value is not a decimal integer (%s)" % sig[b'x'])
x_sign = int(sig[b'x'])
now = int(time.time())
slop = 36000 # 10H leeway for mailers with inaccurate clocks
if x_sign < now - slop:
raise ValidationError(
"x= value is past (%s)" % sig[b'x'])
if x_sign < t_sign:
raise ValidationError(
"x= value is less than t= value (x=%s t=%s)" %
(sig[b'x'], sig[b't']))
def rfc822_parse(message):
"""Parse a message in RFC822 format.
@param message: The message in RFC822 format. Either CRLF or LF is an accepted line separator.
@return: Returns a tuple of (headers, body) where headers is a list of (name, value) pairs.
The body is a CRLF-separated string.
"""
headers = []
lines = re.split(b"\r?\n", message)
i = 0
while i < len(lines):
if len(lines[i]) == 0:
# End of headers, return what we have plus the body, excluding the blank line.
i += 1
break
if lines[i][0] in ("\x09", "\x20", 0x09, 0x20):
headers[-1][1] += lines[i]+b"\r\n"
else:
m = re.match(br"([\x21-\x7e]+?):", lines[i])
if m is not None:
headers.append([m.group(1), lines[i][m.end(0):]+b"\r\n"])
elif lines[i].startswith(b"From "):
pass
else:
raise MessageFormatError("Unexpected characters in RFC822 header: %s" % lines[i])
i += 1
return (headers, b"\r\n".join(lines[i:]))
def text(s):
"""Normalize bytes/str to str for python 2/3 compatible doctests.
>>> text(b'foo')
'foo'
>>> text(u'foo')
'foo'
>>> text('foo')
'foo'
"""
if type(s) is str: return s
s = s.decode('ascii')
if type(s) is str: return s
return s.encode('ascii')
def fold(header, namelen=0, linesep=b'\r\n'):
"""Fold a header line into multiple crlf-separated lines of text at column
72. The crlf does not count for line length.
>>> text(fold(b'foo'))
'foo'
>>> text(fold(b'foo '+b'foo'*24).splitlines()[0])
'foo '
>>> text(fold(b'foo'*25).splitlines()[-1])
' foo'
>>> len(fold(b'foo'*25).splitlines()[0])
72
>>> text(fold(b'x'))
'x'
>>> text(fold(b'xyz'*24))
'xyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyzxyz'
>>> len(fold(b'xyz'*48))
150
"""
# 72 is the max line length we actually want, but the header field name
# has to fit in the first line too (See Debian Bug #863690).
maxleng = 72 - namelen
if len(header) <= maxleng:
return header
if len(header) - header.rfind(b"\r\n") == 2 and len(header) <= maxleng +2:
return header
i = header.rfind(b"\r\n ")
if i == -1:
pre = b""
else:
i += 3
pre = header[:i]
header = header[i:]
while len(header) > maxleng:
i = header[:maxleng].rfind(b" ")
if i == -1:
j = maxleng
pre += header[:j] + linesep + b" "
else:
j = i + 1
pre += header[:i] + linesep + b" "
header = header[j:]
maxleng = 71
if len(header) > 2:
return pre + header
else:
if pre[0] == b' ':
return pre[:-1]
else:
return pre + header
def evaluate_pk(name, s):
if not s:
raise KeyFormatError("missing public key: %s"%name)
try:
if type(s) is str:
s = s.encode('ascii')
pub = parse_tag_value(s)
except InvalidTagValueList as e:
raise KeyFormatError(e)
try:
if pub[b'v'] != b'DKIM1':
raise KeyFormatError("bad version")
except KeyError as e:
# Version not required in key record: RFC 6376 3.6.1
pass
try:
if pub[b'k'] == b'ed25519':
try:
pk = nacl.signing.VerifyKey(pub[b'p'], encoder=nacl.encoding.Base64Encoder)
except NameError:
raise NaClNotFoundError('pynacl module required for ed25519 signing, see README.md')
keysize = 256
ktag = b'ed25519'
except KeyError:
pub[b'k'] = b'rsa'
if pub[b'k'] == b'rsa':
try:
pk = parse_public_key(base64.b64decode(pub[b'p']))
keysize = bitsize(pk['modulus'])
except KeyError:
raise KeyFormatError("incomplete public key: %s" % s)
except (TypeError,UnparsableKeyError) as e:
raise KeyFormatError("could not parse public key (%s): %s" % (pub[b'p'],e))
ktag = b'rsa'
if pub[b'k'] != b'rsa' and pub[b'k'] != b'ed25519':
raise KeyFormatError('unknown algorithm in k= tag: {0}'.format(pub[b'k']))
seqtlsrpt = False
try:
# Ignore unknown service types, RFC 6376 3.6.1
if pub[b's'] != b'*' and pub[b's'] != b'email' and pub[b's'] != b'tlsrpt':
pk = None
keysize = None
ktag = None
raise KeyFormatError('unknown service type in s= tag: {0}'.format(pub[b's']))
elif pub[b's'] == b'tlsrpt':
seqtlsrpt = True
except:
# Default is '*' - all service types, so no error if missing from key record
pass
return pk, keysize, ktag, seqtlsrpt
def load_pk_from_dns(name, dnsfunc=get_txt, timeout=5):
s = dnsfunc(name, timeout=timeout)
pk, keysize, ktag, seqtlsrpt = evaluate_pk(name, s)
return pk, keysize, ktag, seqtlsrpt
#: Abstract base class for holding messages and options during DKIM/ARC signing and verification.
class DomainSigner(object):
# NOTE - the first 2 indentation levels are 2 instead of 4
# to minimize changed lines from the function only version.
#: @param message: an RFC822 formatted message to be signed or verified
#: (with either \\n or \\r\\n line endings)
#: @param logger: a logger to which debug info will be written (default None)
#: @param signature_algorithm: the signing algorithm to use when signing
#: @param debug_content: log headers and body after canonicalization (default False)
#: @param linesep: use this line seperator for folding the headers
#: @param timeout: number of seconds for DNS lookup timeout (default = 5)
#: @param tlsrpt: message is an RFC 8460 TLS report (default False)
#: False: Not a tlsrpt, True: Is a tlsrpt, 'strict': tlsrpt, invalid if
#: service type is missing. For signing, if True, length is never used.
def __init__(self,message=None,logger=None,signature_algorithm=b'rsa-sha256',
minkey=1024, linesep=b'\r\n', debug_content=False, timeout=5,
tlsrpt=False):
self.set_message(message)
if logger is None:
logger = get_default_logger()
self.logger = logger
self.debug_content = debug_content and logger.isEnabledFor(logging.DEBUG)
if signature_algorithm not in HASH_ALGORITHMS:
raise ParameterError(
"Unsupported signature algorithm: "+signature_algorithm)
self.signature_algorithm = signature_algorithm
#: Header fields which should be signed. Default as suggested by RFC6376
self.should_sign = set(DKIM.SHOULD)
#: Header fields which should not be signed. The default is from RFC6376.
#: Attempting to sign these headers results in an exception.
#: If it is necessary to sign one of these, it must be removed
#: from this list first.
self.should_not_sign = set(DKIM.SHOULD_NOT)
#: Header fields to sign an extra time to prevent additions.
self.frozen_sign = set(DKIM.FROZEN)
#: Minimum public key size. Shorter keys raise KeyFormatError. The
#: default is 1024
self.minkey = minkey
# use this line seperator for output
self.linesep = linesep
self.timeout = timeout
self.tlsrpt = tlsrpt
# Service type in DKIM record is s=tlsrpt
self.seqtlsrpt = False
#: Header fields to protect from additions by default.
#:
#: The short list below is the result more of instinct than logic.
#: @since: 0.5
FROZEN = (b'from',)
#: The rfc6376 recommended header fields to sign
#: @since: 0.5
SHOULD = (
b'from', b'sender', b'reply-to', b'subject', b'date', b'message-id', b'to', b'cc',
b'mime-version', b'content-type', b'content-transfer-encoding',
b'content-id', b'content-description', b'resent-date', b'resent-from',
b'resent-sender', b'resent-to', b'resent-cc', b'resent-message-id',
b'in-reply-to', b'references', b'list-id', b'list-help', b'list-unsubscribe',
b'list-subscribe', b'list-post', b'list-owner', b'list-archive'
)
#: The rfc6376 recommended header fields not to sign.
#: @since: 0.5
SHOULD_NOT = (
b'return-path',b'received',b'comments',b'keywords',b'bcc',b'resent-bcc',
b'dkim-signature'
)
# Doesn't seem to be used (GS)
#: The U{RFC5322<http://tools.ietf.org/html/rfc5322#section-3.6>}
#: complete list of singleton headers (which should
#: appear at most once). This can be used for a "paranoid" or
#: "strict" signing mode.
#: Bcc in this list is in the SHOULD NOT sign list, the rest could
#: be in the default FROZEN list, but that could also make signatures
#: more fragile than necessary.
#: @since: 0.5
RFC5322_SINGLETON = (b'date',b'from',b'sender',b'reply-to',b'to',b'cc',b'bcc',
b'message-id',b'in-reply-to',b'references')
def add_frozen(self,s):
""" Add headers not in should_not_sign to frozen_sign.
@param s: list of headers to add to frozen_sign
@since: 0.5
>>> dkim = DKIM()
>>> dkim.add_frozen(DKIM.RFC5322_SINGLETON)
>>> [text(x) for x in sorted(dkim.frozen_sign)]
['cc', 'date', 'from', 'in-reply-to', 'message-id', 'references', 'reply-to', 'sender', 'to']
>>> dkim2 = DKIM()
>>> dkim2.add_frozen((b'date',b'subject'))
>>> [text(x) for x in sorted(dkim2.frozen_sign)]
['date', 'from', 'subject']
"""
self.frozen_sign.update(x.lower() for x in s
if x.lower() not in self.should_not_sign)
def add_should_not(self,s):
""" Add headers not in should_not_sign to frozen_sign.
@param s: list of headers to add to frozen_sign
@since: 0.9
>>> dkim = DKIM()
>>> dkim.add_should_not(DKIM.RFC5322_SINGLETON)
>>> [text(x) for x in sorted(dkim.should_not_sign)]
['bcc', 'cc', 'comments', 'date', 'dkim-signature', 'in-reply-to', 'keywords', 'message-id', 'received', 'references', 'reply-to', 'resent-bcc', 'return-path', 'sender', 'to']
"""
self.should_not_sign.update(x.lower() for x in s
if x.lower() not in self.frozen_sign)
#: Load a new message to be signed or verified.
#: @param message: an RFC822 formatted message to be signed or verified
#: (with either \\n or \\r\\n line endings)
#: @since: 0.5
def set_message(self,message):
if message:
self.headers, self.body = rfc822_parse(message)
else:
self.headers, self.body = [],''
#: The DKIM signing domain last signed or verified.
self.domain = None
#: The DKIM key selector last signed or verified.
self.selector = 'default'
#: Signature parameters of last sign or verify. To parse
#: a DKIM-Signature header field that you have in hand,
#: use L{dkim.util.parse_tag_value}.
self.signature_fields = {}
#: The list of headers last signed or verified. Each header
#: is a name,value tuple. FIXME: The headers are canonicalized.
#: This could be more useful as original headers.
self.signed_headers = []
#: The public key size last verified.
self.keysize = 0
def default_sign_headers(self):
"""Return the default list of headers to sign: those in should_sign or
frozen_sign, with those in frozen_sign signed an extra time to prevent
additions.
@since: 0.5"""
hset = self.should_sign | self.frozen_sign
include_headers = [ x for x,y in self.headers
if x.lower() in hset ]
return include_headers + [ x for x in include_headers
if x.lower() in self.frozen_sign]
def all_sign_headers(self):
"""Return header list of all existing headers not in should_not_sign.
@since: 0.5"""
return [x for x,y in self.headers if x.lower() not in self.should_not_sign]
# Abstract helper method to generate a tag=value header from a list of fields
#: @param fields: A list of key value tuples to be included in the header
#: @param include_headers: A list message headers to include in the b= signature computation
#: @param canon_policy: A canonicialization policy for b= & bh=
#: @param header_name: The name of the generated header
#: @param pk: The private key used for signature generation
#: @param standardize: Flag to enable 'standard' header syntax
def gen_header(self, fields, include_headers, canon_policy, header_name, pk, standardize=False):
if standardize:
lower = [(x,y.lower().replace(b' ', b'')) for (x,y) in fields if x != b'bh']
reg = [(x,y.replace(b' ', b'')) for (x,y) in fields if x == b'bh']
fields = lower + reg
fields = sorted(fields, key=(lambda x: x[0]))
header_value = b"; ".join(b"=".join(x) for x in fields)
if not standardize:
header_value = fold(header_value, namelen=len(header_name), linesep=b'\r\n')
header_value = RE_BTAG.sub(b'\\1',header_value)
header = (header_name, b' ' + header_value)
h = HashThrough(self.hasher(), self.debug_content)
sig = dict(fields)
headers = canon_policy.canonicalize_headers(self.headers)
self.signed_headers = hash_headers(
h, canon_policy, headers, include_headers, header, sig)
if self.debug_content:
self.logger.debug("sign %s headers: %r" % (header_name, h.hashed()))
if self.signature_algorithm == b'rsa-sha256' or self.signature_algorithm == b'rsa-sha1':
try:
sig2 = RSASSA_PKCS1_v1_5_sign(h, pk)
except DigestTooLargeError:
raise ParameterError("digest too large for modulus")
elif self.signature_algorithm == b'ed25519-sha256':
sigobj = pk.sign(h.digest())
sig2 = sigobj.signature
# Folding b= is explicity allowed, but yahoo and live.com are broken
#header_value += base64.b64encode(bytes(sig2))
# Instead of leaving unfolded (which lets an MTA fold it later and still
# breaks yahoo and live.com), we change the default signing mode to
# relaxed/simple (for broken receivers), and fold now.
idx = [i for i in range(len(fields)) if fields[i][0] == b'b'][0]
fields[idx] = (b'b', base64.b64encode(bytes(sig2)))
header_value = b"; ".join(b"=".join(x) for x in fields) + self.linesep
if not standardize:
header_value = fold(header_value, namelen=len(header_name), linesep=self.linesep)
return header_value
def verify_sig_process(self, sig, include_headers, sig_header, dnsfunc):
"""Non-async sensitive verify_sig elements. Separated to avoid async code
duplication."""
# RFC 8460 MAY ignore signatures without tlsrpt Service Type
if self.tlsrpt == 'strict' and not self.seqtlsrpt:
raise ValidationError("Message is tlsrpt and Service Type is not tlsrpt")
# Inferred requirement from both RFC 8460 and RFC 6376
if not self.tlsrpt and self.seqtlsrpt:
raise ValidationError("Message is not tlsrpt and Service Type is tlsrpt")
try:
canon_policy = CanonicalizationPolicy.from_c_value(sig.get(b'c', b'simple/simple'))
except InvalidCanonicalizationPolicyError as e:
raise MessageFormatError("invalid c= value: %s" % e.args[0])
hasher = HASH_ALGORITHMS[sig[b'a']]
# validate body if present
if b'bh' in sig:
h = HashThrough(hasher(), self.debug_content)
body = canon_policy.canonicalize_body(self.body)
if b'l' in sig and not self.tlsrpt:
body = body[:int(sig[b'l'])]
h.update(body)
if self.debug_content:
self.logger.debug("body hashed: %r" % h.hashed())
bodyhash = h.digest()
self.logger.debug("bh: %s" % base64.b64encode(bodyhash))
try:
bh = base64.b64decode(re.sub(br"\s+", b"", sig[b'bh']))
except TypeError as e:
raise MessageFormatError(str(e))
if bodyhash != bh:
raise ValidationError(
"body hash mismatch (got %s, expected %s)" %
(base64.b64encode(bodyhash), sig[b'bh']))
# address bug#644046 by including any additional From header
# fields when verifying. Since there should be only one From header,
# this shouldn't break any legitimate messages. This could be
# generalized to check for extras of other singleton headers.
if b'from' in include_headers:
include_headers.append(b'from')
h = HashThrough(hasher(), self.debug_content)
headers = canon_policy.canonicalize_headers(self.headers)
self.signed_headers = hash_headers(
h, canon_policy, headers, include_headers, sig_header, sig)
if self.debug_content:
self.logger.debug("signed for %s: %r" % (sig_header[0], h.hashed()))
signature = base64.b64decode(re.sub(br"\s+", b"", sig[b'b']))
if self.ktag == b'rsa':
try:
res = RSASSA_PKCS1_v1_5_verify(h, signature, self.pk)
self.logger.debug("%s valid: %s" % (sig_header[0], res))
if res and self.keysize < self.minkey:
raise KeyFormatError("public key too small: %d" % self.keysize)
return res
except (TypeError,DigestTooLargeError) as e:
raise KeyFormatError("digest too large for modulus: %s"%e)
elif self.ktag == b'ed25519':
try:
self.pk.verify(h.digest(), signature)
self.logger.debug("%s valid" % (sig_header[0]))
return True
except (nacl.exceptions.BadSignatureError) as e:
return False
else:
raise UnknownKeyTypeError(self.ktag)
# Abstract helper method to verify a signed header
#: @param sig: List of (key, value) tuples containing tag=values of the header
#: @param include_headers: headers to validate b= signature against
#: @param sig_header: (header_name, header_value)
#: @param dnsfunc: interface to dns
def verify_sig(self, sig, include_headers, sig_header, dnsfunc):
name = sig[b's'] + b"._domainkey." + sig[b'd'] + b"."
try:
self.pk, self.keysize, self.ktag, self.seqtlsrpt = load_pk_from_dns(name,
dnsfunc, timeout=self.timeout)
except KeyFormatError as e:
self.logger.error("%s" % e)
return False
except binascii.Error as e:
self.logger.error('KeyFormatError: {0}'.format(e))
return False
except dns.exception.Timeout as e:
self.logger.error('DnsTimeoutError: Domain: {0} Selector: {1} Error message: {2}'.format(
sig[b'd'], sig[b's'], e))
return False
return self.verify_sig_process(sig, include_headers, sig_header, dnsfunc)
#: Hold messages and options during DKIM signing and verification.
class DKIM(DomainSigner):
#: Sign an RFC822 message and return the DKIM-Signature header line.
#:
#: The include_headers option gives full control over which header fields
#: are signed. Note that signing a header field that doesn't exist prevents
#: that field from being added without breaking the signature. Repeated
#: fields (such as Received) can be signed multiple times. Instances
#: of the field are signed from bottom to top. Signing a header field more
#: times than are currently present prevents additional instances
#: from being added without breaking the signature.
#:
#: The length option allows the message body to be appended to by MTAs
#: enroute (e.g. mailing lists that append unsubscribe information)
#: without breaking the signature.
#:
#: The default include_headers for this method differs from the backward
#: compatible sign function, which signs all headers not
#: in should_not_sign. The default list for this method can be modified
#: by tweaking should_sign and frozen_sign (or even should_not_sign).
#: It is only necessary to pass an include_headers list when precise control
#: is needed.
#:
#: @param selector: the DKIM selector value for the signature
#: @param domain: the DKIM domain value for the signature
#: @param privkey: a PKCS#1 private key in base64-encoded text form
#: @param identity: the DKIM identity value for the signature
#: (default "@"+domain)
#: @param canonicalize: the canonicalization algorithms to use
#: (default (Simple, Simple))
#: @param include_headers: a list of strings indicating which headers
#: are to be signed (default rfc4871 recommended headers)
#: @param length: true if the l= tag should be included to indicate
#: body length signed (default False).
#: @return: DKIM-Signature header field terminated by '\r\n'
#: @raise DKIMException: when the message, include_headers, or key are badly
#: formed.
def sign(self, selector, domain, privkey, signature_algorithm=None, identity=None,
canonicalize=(b'relaxed',b'simple'), include_headers=None, length=False):
if signature_algorithm:
self.signature_algorithm = signature_algorithm
if self.signature_algorithm == b'rsa-sha256' or self.signature_algorithm == b'rsa-sha1':
try:
pk = parse_pem_private_key(privkey)
except UnparsableKeyError as e:
raise KeyFormatError(str(e))
elif self.signature_algorithm == b'ed25519-sha256':
try:
pk = nacl.signing.SigningKey(privkey, encoder=nacl.encoding.Base64Encoder)
except NameError:
raise NaClNotFoundError('pynacl module required for ed25519 signing, see README.md')
except nacl.exceptions.ValueError:
raise KeyFormatError('invalid ed25519 private key or format')
if identity is not None and not identity.endswith(domain):
raise ParameterError("identity must end with domain")
canon_policy = CanonicalizationPolicy.from_c_value(b'/'.join(canonicalize))
if include_headers is None:
include_headers = self.default_sign_headers()
try:
include_headers = [bytes(x, 'utf-8') for x in include_headers]
except TypeError:
# TypeError means it's already bytes and we're good or we're in
# Python 2 and we don't care. See LP: #1776775.
pass
include_headers = tuple([x.lower() for x in include_headers])
# record what verify should extract
self.include_headers = include_headers
if self.tlsrpt:
# RFC 8460 MUST NOT
length = False
# rfc4871 says FROM is required
if b'from' not in include_headers:
raise ParameterError("The From header field MUST be signed")
# raise exception for any SHOULD_NOT headers, call can modify
# SHOULD_NOT if really needed.
for x in set(include_headers).intersection(self.should_not_sign):
raise ParameterError("The %s header field SHOULD NOT be signed"%x)
body = canon_policy.canonicalize_body(self.body)
self.hasher = HASH_ALGORITHMS[self.signature_algorithm]
h = self.hasher()
h.update(body)
bodyhash = base64.b64encode(h.digest())
sigfields = [x for x in [
(b'v', b"1"),
(b'a', self.signature_algorithm),
(b'c', canon_policy.to_c_value()),
(b'd', domain),
(b'i', identity or b"@"+domain),
length and (b'l', str(len(body)).encode('ascii')),
(b'q', b"dns/txt"),
(b's', selector),
(b't', str(int(time.time())).encode('ascii')),
(b'h', b" : ".join(include_headers)),
(b'bh', bodyhash),
# Force b= to fold onto it's own line so that refolding after
# adding sig doesn't change whitespace for previous tags.
(b'b', b'0'*60),
] if x]
res = self.gen_header(sigfields, include_headers, canon_policy,
b"DKIM-Signature", pk)
self.domain = domain
self.selector = selector
self.signature_fields = dict(sigfields)
return b'DKIM-Signature: ' + res
#: Checks if any DKIM signature is present
#: @return: True if there is one or more DKIM signatures present or False otherwise
def present(self):
return (len([(x,y) for x,y in self.headers if x.lower() == b"dkim-signature"]) > 0)
def verify_headerprep(self, idx=0):
"""Non-DNS verify parts to minimize asyncio code duplication."""
sigheaders = [(x,y) for x,y in self.headers if x.lower() == b"dkim-signature"]
if len(sigheaders) <= idx:
return False
# By default, we validate the first DKIM-Signature line found.
try:
sig = parse_tag_value(sigheaders[idx][1])
self.signature_fields = sig
except InvalidTagValueList as e:
raise MessageFormatError(e)
self.logger.debug("sig: %r" % sig)
validate_signature_fields(sig)
self.domain = sig[b'd']
self.selector = sig[b's']
include_headers = [x.lower() for x in re.split(br"\s*:\s*", sig[b'h'])]
self.include_headers = tuple(include_headers)
return sig, include_headers, sigheaders
#: Verify a DKIM signature.
#: @type idx: int
#: @param idx: which signature to verify. The first (topmost) signature is 0.
#: @type dnsfunc: callable
#: @param dnsfunc: an option function to lookup TXT resource records
#: for a DNS domain. The default uses dnspython or pydns.
#: @return: True if signature verifies or False otherwise
#: @raise DKIMException: when the message, signature, or key are badly formed
def verify(self,idx=0,dnsfunc=get_txt):
prep = self.verify_headerprep(idx)
if prep:
sig, include_headers, sigheaders = prep
return self.verify_sig(sig, include_headers, sigheaders[idx], dnsfunc)
return False # No signature
#: Hold messages and options during ARC signing and verification.
class ARC(DomainSigner):
#: Header fields used by ARC
ARC_HEADERS = (b'arc-seal', b'arc-message-signature', b'arc-authentication-results')
#: Regex to extract i= value from ARC headers
INSTANCE_RE = re.compile(br'[\s;]?i\s*=\s*(\d+)', re.MULTILINE | re.IGNORECASE)
def sorted_arc_headers(self):
headers = []
# Use relaxed canonicalization to unfold and clean up headers
relaxed_headers = RelaxedCanonicalization.canonicalize_headers(self.headers)
for x,y in relaxed_headers:
if x.lower() in ARC.ARC_HEADERS:
m = ARC.INSTANCE_RE.search(y)
if m is not None:
try:
i = int(m.group(1))
headers.append((i, (x, y)))
except ValueError:
self.logger.debug("invalid instance number %s: '%s: %s'" % (m.group(1), x, y))
else:
self.logger.debug("not instance number: '%s: %s'" % (x, y))
if len(headers) == 0:
return 0, []
def arc_header_key(a):
return [a[0], a[1][0].lower(), a[1][1].lower()]
headers = sorted(headers, key=arc_header_key)
headers.reverse()
return headers[0][0], headers
#: Sign an RFC822 message and return the list of ARC set header lines
#:
#: The include_headers option gives full control over which header fields
#: are signed for the ARC-Message-Signature. Note that signing a header
#: field that doesn't exist prevents
#: that field from being added without breaking the signature. Repeated
#: fields (such as Received) can be signed multiple times. Instances
#: of the field are signed from bottom to top. Signing a header field more
#: times than are currently present prevents additional instances
#: from being added without breaking the signature.
#:
#: The default include_headers for this method differs from the backward
#: compatible sign function, which signs all headers not
#: in should_not_sign. The default list for this method can be modified
#: by tweaking should_sign and frozen_sign (or even should_not_sign).
#: It is only necessary to pass an include_headers list when precise control
#: is needed.
#:
#: @param selector: the DKIM selector value for the signature
#: @param domain: the DKIM domain value for the signature
#: @param privkey: a PKCS#1 private key in base64-encoded text form
#: @param srv_id: a srv_id for identifying AR headers to sign & extract cv from
#: @param include_headers: a list of strings indicating which headers
#: are to be signed (default rfc4871 recommended headers)
#: @return: list of ARC set header fields
#: @raise DKIMException: when the message, include_headers, or key are badly
#: formed.
def sign(self, selector, domain, privkey, srv_id, include_headers=None,
timestamp=None, standardize=False):
INSTANCE_LIMIT = 50 # Maximum allowed i= value
self.add_should_not(('Authentication-Results',))
# check if authres has been imported
try:
authres.AuthenticationResultsHeader
except:
self.logger.debug("authres package not installed")
raise authres.AuthresNotFoundError
try:
pk = parse_pem_private_key(privkey)
except UnparsableKeyError as e:
raise KeyFormatError(str(e))
# extract, parse, filter & group AR headers
ar_headers = [res.strip() for [ar, res] in self.headers if ar == b'Authentication-Results']
grouped_headers = []
for res in ar_headers:
try: # see LP: #1884044
grouped_headers.append((res, authres.AuthenticationResultsHeader.parse('Authentication-Results: ' + res.decode('utf-8'))))
except authres.core.SyntaxError:
# Skip over invalid AR header fields
pass
auth_headers = [res for res in grouped_headers if res[1].authserv_id == srv_id.decode('utf-8')]
if len(auth_headers) == 0:
self.logger.debug("no AR headers found, chain terminated")
return []
# consolidate headers
results_lists = [raw.replace(srv_id + b';', b'').strip() for (raw, parsed) in auth_headers]
results_lists = [tags.split(b';') for tags in results_lists]
results = [tag.strip() for sublist in results_lists for tag in sublist]
auth_results = srv_id + b'; ' + (b';' + self.linesep + b' ').join(results)
# extract cv
parsed_auth_results = authres.AuthenticationResultsHeader.parse('Authentication-Results: ' + auth_results.decode('utf-8'))
arc_results = [res for res in parsed_auth_results.results if res.method == 'arc']
if len(arc_results) == 0:
chain_validation_status = CV_None
elif len(arc_results) != 1:
self.logger.debug("multiple AR arc stamps found, failing chain")
chain_validation_status = CV_Fail
else:
chain_validation_status = arc_results[0].result.lower().encode('utf-8')
# Setup headers
if include_headers is None:
include_headers = self.default_sign_headers()
include_headers = tuple([x.lower() for x in include_headers])
# record what verify should extract
self.include_headers = include_headers
# rfc4871 says FROM is required
if b'from' not in include_headers:
raise ParameterError("The From header field MUST be signed")
# raise exception for any SHOULD_NOT headers, call can modify
# SHOULD_NOT if really needed.
for x in set(include_headers).intersection(self.should_not_sign):
raise ParameterError("The %s header field SHOULD NOT be signed"%x)
max_instance, arc_headers_w_instance = self.sorted_arc_headers()
instance = 1
if len(arc_headers_w_instance) != 0:
instance = max_instance + 1
if instance > INSTANCE_LIMIT:
raise ParameterError("Maximum instance tag value exceeded")
if instance == 1 and chain_validation_status != CV_None:
raise ParameterError("No existing chain found on message, cv should be none")
elif instance != 1 and chain_validation_status == CV_None:
self.logger.debug("no previous AR arc results found and instance > 1, chain terminated")
return []
new_arc_set = []
if chain_validation_status != CV_Fail:
arc_headers = [y for x,y in arc_headers_w_instance]
else: # don't include previous sets for a failed/invalid chain
arc_headers = []
# Compute ARC-Authentication-Results
aar_value = ("i=%d; " % instance).encode('utf-8') + auth_results
if aar_value[-1] != b'\n': aar_value += b'\r\n'
new_arc_set.append(b"ARC-Authentication-Results: " + aar_value)
self.headers.insert(0, (b"arc-authentication-results", aar_value))
arc_headers.insert(0, (b"ARC-Authentication-Results", aar_value))
# Compute bh=
canon_policy = CanonicalizationPolicy.from_c_value(b'relaxed/relaxed')
self.hasher = HASH_ALGORITHMS[self.signature_algorithm]
h = HashThrough(self.hasher(), self.debug_content)
h.update(canon_policy.canonicalize_body(self.body))
if self.debug_content:
self.logger.debug("sign ams body hashed: %r" % h.hashed())
bodyhash = base64.b64encode(h.digest())
# Compute ARC-Message-Signature
timestamp = str(timestamp or int(time.time())).encode('ascii')
ams_fields = [x for x in [
(b'i', str(instance).encode('ascii')),
(b'a', self.signature_algorithm),
(b'c', b'relaxed/relaxed'),
(b'd', domain),
(b's', selector),
(b't', timestamp),
(b'h', b" : ".join(include_headers)),
(b'bh', bodyhash),
# Force b= to fold onto it's own line so that refolding after
# adding sig doesn't change whitespace for previous tags.
(b'b', b'0'*60),
] if x]
res = self.gen_header(ams_fields, include_headers, canon_policy,
b"ARC-Message-Signature", pk, standardize)
new_arc_set.append(b"ARC-Message-Signature: " + res)
self.headers.insert(0, (b"ARC-Message-Signature", res))
arc_headers.insert(0, (b"ARC-Message-Signature", res))
# Compute ARC-Seal
as_fields = [x for x in [
(b'i', str(instance).encode('ascii')),
(b'cv', chain_validation_status),
(b'a', self.signature_algorithm),
(b'd', domain),
(b's', selector),
(b't', timestamp),
# Force b= to fold onto it's own line so that refolding after
# adding sig doesn't change whitespace for previous tags.
(b'b', b'0'*60),
] if x]
as_include_headers = [x[0].lower() for x in arc_headers]
as_include_headers.reverse()
# if our chain is failing or invalid, we only grab the most recent set
# reversing the order of the headers accomplishes this
if chain_validation_status == CV_Fail:
self.headers.reverse()
if b'h' in as_fields:
raise ValidationError("h= tag not permitted in ARC-Seal header field")
res = self.gen_header(as_fields, as_include_headers, canon_policy,
b"ARC-Seal", pk, standardize)
new_arc_set.append(b"ARC-Seal: " + res)
self.headers.insert(0, (b"ARC-Seal", res))
arc_headers.insert(0, (b"ARC-Seal", res))
new_arc_set.reverse()
return new_arc_set
#: Verify an ARC set.
#: @type instance: int
#: @param instance: which ARC set to verify, based on i= instance.
#: @type dnsfunc: callable
#: @param dnsfunc: an optional function to lookup TXT resource records
#: for a DNS domain. The default uses dnspython or pydns.
#: @return: True if signature verifies or False otherwise
#: @return: three-tuple of (CV Result (CV_Pass, CV_Fail, CV_None or None, for a chain that has ended), list of
#: result dictionaries, result reason)
#: @raise DKIMException: when the message, signature, or key are badly formed
def verify(self,dnsfunc=get_txt):
result_data = []
max_instance, arc_headers_w_instance = self.sorted_arc_headers()
if max_instance == 0:
return CV_None, result_data, "Message is not ARC signed"
for instance in range(max_instance, 0, -1):
try:
result = self.verify_instance(arc_headers_w_instance, instance, dnsfunc=dnsfunc)
result_data.append(result)
except DKIMException as e:
self.logger.error("%s" % e)
return CV_Fail, result_data, "%s" % e
# Most recent instance must ams-validate
if not result_data[0]['ams-valid']:
return CV_Fail, result_data, "Most recent ARC-Message-Signature did not validate"
for result in result_data:
if result['cv'] == CV_Fail:
return None, result_data, "ARC-Seal[%d] reported failure, the chain is terminated" % result['instance']
elif not result['as-valid']:
return CV_Fail, result_data, "ARC-Seal[%d] did not validate" % result['instance']
elif (result['instance'] == 1) and (result['cv'] != CV_None):
return CV_Fail, result_data, "ARC-Seal[%d] reported invalid status %s" % (result['instance'], result['cv'])
elif (result['instance'] != 1) and (result['cv'] == CV_None):
return CV_Fail, result_data, "ARC-Seal[%d] reported invalid status %s" % (result['instance'], result['cv'])
return CV_Pass, result_data, "success"
#: Verify an ARC set.
#: @type arc_headers_w_instance: list
#: @param arc_headers_w_instance: list of tuples, (instance, (name, value)) of
#: ARC headers
#: @type instance: int
#: @param instance: which ARC set to verify, based on i= instance.
#: @type dnsfunc: callable
#: @param dnsfunc: an optional function to lookup TXT resource records
#: for a DNS domain. The default uses dnspython or pydns.
#: @return: True if signature verifies or False otherwise
#: @raise DKIMException: when the message, signature, or key are badly formed
def verify_instance(self,arc_headers_w_instance,instance,dnsfunc=get_txt):
if (instance == 0) or (len(arc_headers_w_instance) == 0):
raise ParameterError("request to verify instance %d not present" % (instance))
aar_value = None
ams_value = None
as_value = None
arc_headers = []
output = { 'instance': instance }
for i, arc_header in arc_headers_w_instance:
if i > instance: continue
arc_headers.append(arc_header)
if i == instance:
if arc_header[0].lower() == b"arc-authentication-results":
if aar_value is not None:
raise MessageFormatError("Duplicate ARC-Authentication-Results for instance %d" % instance)
aar_value = arc_header[1]
elif arc_header[0].lower() == b"arc-message-signature":
if ams_value is not None:
raise MessageFormatError("Duplicate ARC-Message-Signature for instance %d" % instance)
ams_value = arc_header[1]
elif arc_header[0].lower() == b"arc-seal":
if as_value is not None:
raise MessageFormatError("Duplicate ARC-Seal for instance %d" % instance)
as_value = arc_header[1]
if (aar_value is None) or (ams_value is None) or (as_value is None):
raise MessageFormatError("Incomplete ARC set for instance %d" % instance)
output['aar-value'] = aar_value
# Validate Arc-Message-Signature
try:
sig = parse_tag_value(ams_value)
except InvalidTagValueList as e:
raise MessageFormatError(e)
self.logger.debug("ams sig[%d]: %r" % (instance, sig))
validate_signature_fields(sig, [b'i', b'a', b'b', b'bh', b'd', b'h', b's'], True)
output['ams-domain'] = sig[b'd']
output['ams-selector'] = sig[b's']
include_headers = [x.lower() for x in re.split(br"\s*:\s*", sig[b'h'])]
if b'arc-seal' in include_headers:
raise ParameterError("The Arc-Message-Signature MUST NOT sign ARC-Seal")
ams_header = (b'ARC-Message-Signature', b' ' + ams_value)
# we can't use the AMS provided above, as it's already been canonicalized relaxed
# for use in validating the AS. However the AMS is included in the AMS itself,
# and this can use simple canonicalization
raw_ams_header = [
(x, y) for (x, y) in self.headers if x.lower() == b'arc-message-signature' and b" i="+sig[b'i']+b";" in y.lower()
][0]
# Only relaxed canonicalization used by ARC
if b'c' not in sig:
sig[b'c'] = b'relaxed/relaxed'
try:
ams_valid = self.verify_sig(sig, include_headers, raw_ams_header, dnsfunc)
except DKIMException as e:
self.logger.error("%s" % e)
ams_valid = False
output['ams-valid'] = ams_valid
self.logger.debug("ams valid: %r" % ams_valid)
# Validate Arc-Seal
try:
sig = parse_tag_value(as_value)
except InvalidTagValueList as e:
raise MessageFormatError(e)
self.logger.debug("as sig[%d]: %r" % (instance, sig))
validate_signature_fields(sig, [b'i', b'a', b'b', b'cv', b'd', b's'], True)
if b'h' in sig:
raise ValidationError("h= tag not permitted in ARC-Seal header field")
output['as-domain'] = sig[b'd']
output['as-selector'] = sig[b's']
output['cv'] = sig[b'cv']
as_include_headers = [x[0].lower() for x in arc_headers]
as_include_headers.reverse()
as_header = (b'ARC-Seal', b' ' + as_value)
# Only relaxed canonicalization used by ARC
if b'c' not in sig:
sig[b'c'] = b'relaxed/relaxed'
try:
as_valid = self.verify_sig(sig, as_include_headers[:-1], as_header, dnsfunc)
except DKIMException as e:
self.logger.error("%s" % e)
as_valid = False
output['as-valid'] = as_valid
self.logger.debug("as valid: %r" % as_valid)
return output
def sign(message, selector, domain, privkey, identity=None,
canonicalize=(b'relaxed', b'simple'),
signature_algorithm=b'rsa-sha256',
include_headers=None, length=False, logger=None,
linesep=b'\r\n', tlsrpt=False):
# type: (bytes, bytes, bytes, bytes, bytes, tuple, bytes, list, bool, any) -> bytes
"""Sign an RFC822 message and return the DKIM-Signature header line.
@param message: an RFC822 formatted message (with either \\n or \\r\\n line endings)
@param selector: the DKIM selector value for the signature
@param domain: the DKIM domain value for the signature
@param privkey: a PKCS#1 private key in base64-encoded text form
@param identity: the DKIM identity value for the signature (default "@"+domain)
@param canonicalize: the canonicalization algorithms to use (default (Simple, Simple))
@param signature_algorithm: the signing algorithm to use when signing
@param include_headers: a list of strings indicating which headers are to be signed (default all headers not listed as SHOULD NOT sign)
@param length: true if the l= tag should be included to indicate body length (default False)
@param logger: a logger to which debug info will be written (default None)
@param linesep: use this line seperator for folding the headers
@param tlsrpt: message is an RFC 8460 TLS report (default False)
False: Not a tlsrpt, True: Is a tlsrpt, 'strict': tlsrpt, invalid if
service type is missing. For signing, if True, length is never used.
@return: DKIM-Signature header field terminated by \\r\\n
@raise DKIMException: when the message, include_headers, or key are badly formed.
"""
d = DKIM(message,logger=logger,signature_algorithm=signature_algorithm,linesep=linesep,tlsrpt=tlsrpt)
return d.sign(selector, domain, privkey, identity=identity, canonicalize=canonicalize, include_headers=include_headers, length=length)
def verify(message, logger=None, dnsfunc=get_txt, minkey=1024,
timeout=5, tlsrpt=False):
"""Verify the first (topmost) DKIM signature on an RFC822 formatted message.
@param message: an RFC822 formatted message (with either \\n or \\r\\n line endings)
@param logger: a logger to which debug info will be written (default None)
@param timeout: number of seconds for DNS lookup timeout (default = 5)
@param tlsrpt: message is an RFC 8460 TLS report (default False)
False: Not a tlsrpt, True: Is a tlsrpt, 'strict': tlsrpt, invalid if
service type is missing. For signing, if True, length is never used.
@return: True if signature verifies or False otherwise
"""
# type: (bytes, any, function, int) -> bool
d = DKIM(message,logger=logger,minkey=minkey,timeout=timeout,tlsrpt=tlsrpt)
try:
return d.verify(dnsfunc=dnsfunc)
except DKIMException as x:
if logger is not None:
logger.error("%s" % x)
return False
# aiodns requires Python 3.5+, so no async before that
if sys.version_info >= (3, 5) and USE_ASYNC:
try:
import aiodns
from dkim.asyncsupport import verify_async
dkim_verify_async = verify_async
except ImportError:
# If aiodns is not installed, then async verification is not available
pass
# For consistency with ARC
dkim_sign = sign
dkim_verify = verify
def arc_sign(message, selector, domain, privkey,
srv_id, signature_algorithm=b'rsa-sha256',
include_headers=None, timestamp=None,
logger=None, standardize=False, linesep=b'\r\n'):
# type: (bytes, bytes, bytes, bytes, bytes, bytes, list, any, any, bool) -> list
"""Sign an RFC822 message and return the ARC set header lines for the next instance
@param message: an RFC822 formatted message (with either \\n or \\r\\n line endings)
@param selector: the DKIM selector value for the signature
@param domain: the DKIM domain value for the signature
@param privkey: a PKCS#1 private key in base64-encoded text form
@param srv_id: the authserv_id used to identify the ADMD's AR headers and to use for ARC authserv_id
@param signature_algorithm: the signing algorithm to use when signing
@param include_headers: a list of strings indicating which headers are to be signed (default all headers not listed as SHOULD NOT sign)
@param timestamp: the time in integer seconds when the message is sealed (default is int(time.time) based on platform, can be string or int)
@param logger: a logger to which debug info will be written (default None)
@param linesep: use this line seperator for folding the headers
@return: A list containing the ARC set of header fields for the next instance
@raise DKIMException: when the message, include_headers, or key are badly formed.
"""
a = ARC(message,logger=logger,signature_algorithm=b'rsa-sha256',linesep=linesep)
if not include_headers:
include_headers = a.default_sign_headers()
return a.sign(selector, domain, privkey, srv_id, include_headers=include_headers,
timestamp=timestamp, standardize=standardize)
def arc_verify(message, logger=None, dnsfunc=get_txt, minkey=1024, timeout=5):
# type: (bytes, any, function, int) -> tuple
"""Verify the ARC chain on an RFC822 formatted message.
@param message: an RFC822 formatted message (with either \\n or \\r\\n line endings)
@param logger: a logger to which debug info will be written (default None)
@param dnsfunc: an optional function to lookup TXT resource records
@param minkey: the minimum key size to accept
@param timeout: number of seconds for DNS lookup timeout (default = 5)
@return: three-tuple of (CV Result (CV_Pass, CV_Fail or CV_None), list of
result dictionaries, result reason)
"""
a = ARC(message,logger=logger,minkey=minkey,timeout=5)
try:
return a.verify(dnsfunc=dnsfunc)
except DKIMException as x:
if logger is not None:
logger.error("%s" % x)
return CV_Fail, [], "%s" % x
Reference in New Issue View Git Blame Copy Permalink