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272 lines
10 KiB
272 lines
10 KiB
#!/usr/bin/env python
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#
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# Electrum - lightweight Bitcoin client
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# Copyright (C) 2015 Thomas Voegtlin
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#
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# Permission is hereby granted, free of charge, to any person
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# obtaining a copy of this software and associated documentation files
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# (the "Software"), to deal in the Software without restriction,
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# including without limitation the rights to use, copy, modify, merge,
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# publish, distribute, sublicense, and/or sell copies of the Software,
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# and to permit persons to whom the Software is furnished to do so,
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# subject to the following conditions:
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#
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# The above copyright notice and this permission notice shall be
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# included in all copies or substantial portions of the Software.
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#
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# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
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# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
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# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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# SOFTWARE.
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# Check DNSSEC trust chain.
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# Todo: verify expiration dates
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#
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# Based on
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# http://backreference.org/2010/11/17/dnssec-verification-with-dig/
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# https://github.com/rthalley/dnspython/blob/master/tests/test_dnssec.py
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# import traceback
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# import sys
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import time
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import struct
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import dns.name
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import dns.query
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import dns.dnssec
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import dns.message
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import dns.resolver
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import dns.rdatatype
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import dns.rdtypes.ANY.NS
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import dns.rdtypes.ANY.CNAME
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import dns.rdtypes.ANY.DLV
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import dns.rdtypes.ANY.DNSKEY
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import dns.rdtypes.ANY.DS
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import dns.rdtypes.ANY.NSEC
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import dns.rdtypes.ANY.NSEC3
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import dns.rdtypes.ANY.NSEC3PARAM
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import dns.rdtypes.ANY.RRSIG
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import dns.rdtypes.ANY.SOA
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import dns.rdtypes.ANY.TXT
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import dns.rdtypes.IN.A
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import dns.rdtypes.IN.AAAA
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# Pure-Python version of dns.dnssec._validate_rsig
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import ecdsa
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from . import rsakey
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def python_validate_rrsig(rrset, rrsig, keys, origin=None, now=None):
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from dns.dnssec import ValidationFailure, ECDSAP256SHA256, ECDSAP384SHA384
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from dns.dnssec import _find_candidate_keys, _make_hash, _is_ecdsa, _is_rsa, _to_rdata, _make_algorithm_id
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if isinstance(origin, str):
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origin = dns.name.from_text(origin, dns.name.root)
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for candidate_key in _find_candidate_keys(keys, rrsig):
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if not candidate_key:
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raise ValidationFailure('unknown key')
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# For convenience, allow the rrset to be specified as a (name, rdataset)
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# tuple as well as a proper rrset
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if isinstance(rrset, tuple):
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rrname = rrset[0]
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rdataset = rrset[1]
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else:
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rrname = rrset.name
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rdataset = rrset
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if now is None:
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now = time.time()
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if rrsig.expiration < now:
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raise ValidationFailure('expired')
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if rrsig.inception > now:
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raise ValidationFailure('not yet valid')
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hash = _make_hash(rrsig.algorithm)
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if _is_rsa(rrsig.algorithm):
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keyptr = candidate_key.key
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(bytes,) = struct.unpack('!B', keyptr[0:1])
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keyptr = keyptr[1:]
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if bytes == 0:
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(bytes,) = struct.unpack('!H', keyptr[0:2])
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keyptr = keyptr[2:]
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rsa_e = keyptr[0:bytes]
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rsa_n = keyptr[bytes:]
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n = ecdsa.util.string_to_number(rsa_n)
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e = ecdsa.util.string_to_number(rsa_e)
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pubkey = rsakey.RSAKey(n, e)
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sig = rrsig.signature
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elif _is_ecdsa(rrsig.algorithm):
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if rrsig.algorithm == ECDSAP256SHA256:
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curve = ecdsa.curves.NIST256p
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key_len = 32
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digest_len = 32
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elif rrsig.algorithm == ECDSAP384SHA384:
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curve = ecdsa.curves.NIST384p
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key_len = 48
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digest_len = 48
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else:
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# shouldn't happen
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raise ValidationFailure('unknown ECDSA curve')
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keyptr = candidate_key.key
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x = ecdsa.util.string_to_number(keyptr[0:key_len])
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y = ecdsa.util.string_to_number(keyptr[key_len:key_len * 2])
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assert ecdsa.ecdsa.point_is_valid(curve.generator, x, y)
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point = ecdsa.ellipticcurve.Point(curve.curve, x, y, curve.order)
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verifying_key = ecdsa.keys.VerifyingKey.from_public_point(point, curve)
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r = rrsig.signature[:key_len]
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s = rrsig.signature[key_len:]
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sig = ecdsa.ecdsa.Signature(ecdsa.util.string_to_number(r),
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ecdsa.util.string_to_number(s))
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else:
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raise ValidationFailure('unknown algorithm %u' % rrsig.algorithm)
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hash.update(_to_rdata(rrsig, origin)[:18])
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hash.update(rrsig.signer.to_digestable(origin))
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if rrsig.labels < len(rrname) - 1:
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suffix = rrname.split(rrsig.labels + 1)[1]
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rrname = dns.name.from_text('*', suffix)
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rrnamebuf = rrname.to_digestable(origin)
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rrfixed = struct.pack('!HHI', rdataset.rdtype, rdataset.rdclass,
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rrsig.original_ttl)
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rrlist = sorted(rdataset);
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for rr in rrlist:
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hash.update(rrnamebuf)
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hash.update(rrfixed)
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rrdata = rr.to_digestable(origin)
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rrlen = struct.pack('!H', len(rrdata))
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hash.update(rrlen)
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hash.update(rrdata)
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digest = hash.digest()
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if _is_rsa(rrsig.algorithm):
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digest = _make_algorithm_id(rrsig.algorithm) + digest
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if pubkey.verify(bytearray(sig), bytearray(digest)):
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return
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elif _is_ecdsa(rrsig.algorithm):
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diglong = ecdsa.util.string_to_number(digest)
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if verifying_key.pubkey.verifies(diglong, sig):
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return
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else:
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raise ValidationFailure('unknown algorithm %s' % rrsig.algorithm)
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raise ValidationFailure('verify failure')
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# replace validate_rrsig
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dns.dnssec._validate_rrsig = python_validate_rrsig
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dns.dnssec.validate_rrsig = python_validate_rrsig
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dns.dnssec.validate = dns.dnssec._validate
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from .util import print_error
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# hard-coded trust anchors (root KSKs)
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trust_anchors = [
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# KSK-2017:
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dns.rrset.from_text('.', 1 , 'IN', 'DNSKEY', '257 3 8 AwEAAaz/tAm8yTn4Mfeh5eyI96WSVexTBAvkMgJzkKTOiW1vkIbzxeF3+/4RgWOq7HrxRixHlFlExOLAJr5emLvN7SWXgnLh4+B5xQlNVz8Og8kvArMtNROxVQuCaSnIDdD5LKyWbRd2n9WGe2R8PzgCmr3EgVLrjyBxWezF0jLHwVN8efS3rCj/EWgvIWgb9tarpVUDK/b58Da+sqqls3eNbuv7pr+eoZG+SrDK6nWeL3c6H5Apxz7LjVc1uTIdsIXxuOLYA4/ilBmSVIzuDWfdRUfhHdY6+cn8HFRm+2hM8AnXGXws9555KrUB5qihylGa8subX2Nn6UwNR1AkUTV74bU='),
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# KSK-2010:
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dns.rrset.from_text('.', 15202, 'IN', 'DNSKEY', '257 3 8 AwEAAagAIKlVZrpC6Ia7gEzahOR+9W29euxhJhVVLOyQbSEW0O8gcCjF FVQUTf6v58fLjwBd0YI0EzrAcQqBGCzh/RStIoO8g0NfnfL2MTJRkxoX bfDaUeVPQuYEhg37NZWAJQ9VnMVDxP/VHL496M/QZxkjf5/Efucp2gaD X6RS6CXpoY68LsvPVjR0ZSwzz1apAzvN9dlzEheX7ICJBBtuA6G3LQpz W5hOA2hzCTMjJPJ8LbqF6dsV6DoBQzgul0sGIcGOYl7OyQdXfZ57relS Qageu+ipAdTTJ25AsRTAoub8ONGcLmqrAmRLKBP1dfwhYB4N7knNnulq QxA+Uk1ihz0='),
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]
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def check_query(ns, sub, _type, keys):
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q = dns.message.make_query(sub, _type, want_dnssec=True)
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response = dns.query.tcp(q, ns, timeout=5)
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assert response.rcode() == 0, 'No answer'
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answer = response.answer
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assert len(answer) != 0, ('No DNS record found', sub, _type)
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assert len(answer) != 1, ('No DNSSEC record found', sub, _type)
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if answer[0].rdtype == dns.rdatatype.RRSIG:
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rrsig, rrset = answer
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elif answer[1].rdtype == dns.rdatatype.RRSIG:
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rrset, rrsig = answer
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else:
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raise Exception('No signature set in record')
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if keys is None:
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keys = {dns.name.from_text(sub):rrset}
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dns.dnssec.validate(rrset, rrsig, keys)
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return rrset
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def get_and_validate(ns, url, _type):
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# get trusted root key
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root_rrset = None
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for dnskey_rr in trust_anchors:
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try:
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# Check if there is a valid signature for the root dnskey
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root_rrset = check_query(ns, '', dns.rdatatype.DNSKEY, {dns.name.root: dnskey_rr})
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break
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except dns.dnssec.ValidationFailure:
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# It's OK as long as one key validates
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continue
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if not root_rrset:
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raise dns.dnssec.ValidationFailure('None of the trust anchors found in DNS')
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keys = {dns.name.root: root_rrset}
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# top-down verification
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parts = url.split('.')
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for i in range(len(parts), 0, -1):
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sub = '.'.join(parts[i-1:])
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name = dns.name.from_text(sub)
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# If server is authoritative, don't fetch DNSKEY
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query = dns.message.make_query(sub, dns.rdatatype.NS)
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response = dns.query.udp(query, ns, 3)
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assert response.rcode() == dns.rcode.NOERROR, "query error"
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rrset = response.authority[0] if len(response.authority) > 0 else response.answer[0]
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rr = rrset[0]
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if rr.rdtype == dns.rdatatype.SOA:
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continue
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# get DNSKEY (self-signed)
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rrset = check_query(ns, sub, dns.rdatatype.DNSKEY, None)
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# get DS (signed by parent)
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ds_rrset = check_query(ns, sub, dns.rdatatype.DS, keys)
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# verify that a signed DS validates DNSKEY
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for ds in ds_rrset:
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for dnskey in rrset:
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htype = 'SHA256' if ds.digest_type == 2 else 'SHA1'
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good_ds = dns.dnssec.make_ds(name, dnskey, htype)
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if ds == good_ds:
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break
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else:
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continue
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break
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else:
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raise Exception("DS does not match DNSKEY")
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# set key for next iteration
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keys = {name: rrset}
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# get TXT record (signed by zone)
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rrset = check_query(ns, url, _type, keys)
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return rrset
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def query(url, rtype):
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# 8.8.8.8 is Google's public DNS server
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nameservers = ['8.8.8.8']
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ns = nameservers[0]
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try:
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out = get_and_validate(ns, url, rtype)
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validated = True
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except BaseException as e:
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#traceback.print_exc(file=sys.stderr)
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print_error("DNSSEC error:", str(e))
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resolver = dns.resolver.get_default_resolver()
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out = resolver.query(url, rtype)
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validated = False
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return out, validated
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