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226 lines
12 KiB
Python
226 lines
12 KiB
Python
"""
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The MIT License (MIT)
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Copyright (C) 2017-2023 Joe Testa (jtesta@positronsecurity.com)
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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"""
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# pylint: disable=unused-import
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from typing import Dict, List, Set, Sequence, Tuple, Iterable # noqa: F401
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from typing import Callable, Optional, Union, Any # noqa: F401
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import traceback
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from ssh_audit.kexdh import KexDH, KexDHException, KexGroup1, KexGroup14_SHA1, KexGroup14_SHA256, KexCurve25519_SHA256, KexGroup16_SHA512, KexGroup18_SHA512, KexGroupExchange_SHA1, KexGroupExchange_SHA256, KexNISTP256, KexNISTP384, KexNISTP521
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from ssh_audit.ssh2_kex import SSH2_Kex
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from ssh_audit.ssh2_kexdb import SSH2_KexDB
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from ssh_audit.ssh_socket import SSH_Socket
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from ssh_audit.outputbuffer import OutputBuffer
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# Obtains host keys, checks their size, and derives their fingerprints.
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class HostKeyTest:
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# Tracks the RSA host key types. As of this writing, testing one in this family yields valid results for the rest.
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RSA_FAMILY = ['ssh-rsa', 'rsa-sha2-256', 'rsa-sha2-512']
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# Dict holding the host key types we should extract & parse. 'cert' is True to denote that a host key type handles certificates (thus requires additional parsing). 'variable_key_len' is True for host key types that can have variable sizes (True only for RSA types, as the rest are of fixed-size). After the host key type is fully parsed, the key 'parsed' is added with a value of True.
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HOST_KEY_TYPES = {
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'ssh-rsa': {'cert': False, 'variable_key_len': True},
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'rsa-sha2-256': {'cert': False, 'variable_key_len': True},
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'rsa-sha2-512': {'cert': False, 'variable_key_len': True},
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'ssh-rsa-cert-v01@openssh.com': {'cert': True, 'variable_key_len': True},
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'rsa-sha2-256-cert-v01@openssh.com': {'cert': True, 'variable_key_len': True},
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'rsa-sha2-512-cert-v01@openssh.com': {'cert': True, 'variable_key_len': True},
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'ssh-ed25519': {'cert': False, 'variable_key_len': False},
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'ssh-ed25519-cert-v01@openssh.com': {'cert': True, 'variable_key_len': False},
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}
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TWO2K_MODULUS_WARNING = '2048-bit modulus only provides 112-bits of symmetric strength'
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SMALL_ECC_MODULUS_WARNING = '224-bit ECC modulus only provides 112-bits of symmetric strength'
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@staticmethod
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def run(out: 'OutputBuffer', s: 'SSH_Socket', server_kex: 'SSH2_Kex') -> None:
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KEX_TO_DHGROUP = {
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'diffie-hellman-group1-sha1': KexGroup1,
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'diffie-hellman-group14-sha1': KexGroup14_SHA1,
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'diffie-hellman-group14-sha256': KexGroup14_SHA256,
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'curve25519-sha256': KexCurve25519_SHA256,
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'curve25519-sha256@libssh.org': KexCurve25519_SHA256,
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'diffie-hellman-group16-sha512': KexGroup16_SHA512,
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'diffie-hellman-group18-sha512': KexGroup18_SHA512,
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'diffie-hellman-group-exchange-sha1': KexGroupExchange_SHA1,
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'diffie-hellman-group-exchange-sha256': KexGroupExchange_SHA256,
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'ecdh-sha2-nistp256': KexNISTP256,
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'ecdh-sha2-nistp384': KexNISTP384,
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'ecdh-sha2-nistp521': KexNISTP521,
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# 'kexguess2@matt.ucc.asn.au': ???
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}
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# Pick the first kex algorithm that the server supports, which we
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# happen to support as well.
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kex_str = None
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kex_group = None
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for server_kex_alg in server_kex.kex_algorithms:
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if server_kex_alg in KEX_TO_DHGROUP:
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kex_str = server_kex_alg
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kex_group = KEX_TO_DHGROUP[kex_str](out)
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break
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if kex_str is not None and kex_group is not None:
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HostKeyTest.perform_test(out, s, server_kex, kex_str, kex_group, HostKeyTest.HOST_KEY_TYPES)
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@staticmethod
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def perform_test(out: 'OutputBuffer', s: 'SSH_Socket', server_kex: 'SSH2_Kex', kex_str: str, kex_group: 'KexDH', host_key_types: Dict[str, Dict[str, bool]]) -> None:
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hostkey_modulus_size = 0
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ca_modulus_size = 0
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# If the connection still exists, close it so we can test
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# using a clean slate (otherwise it may exist in a non-testable
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# state).
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if s.is_connected():
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s.close()
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# For each host key type...
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for host_key_type in host_key_types:
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# Skip those already handled (i.e.: those in the RSA family, as testing one tests them all).
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if 'parsed' in host_key_types[host_key_type] and host_key_types[host_key_type]['parsed']:
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continue
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# If this host key type is supported by the server, we test it.
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if host_key_type in server_kex.key_algorithms:
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out.d('Preparing to obtain ' + host_key_type + ' host key...', write_now=True)
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cert = host_key_types[host_key_type]['cert']
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# If the connection is closed, re-open it and get the kex again.
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if not s.is_connected():
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err = s.connect()
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if err is not None:
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out.v(err, write_now=True)
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return
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_, _, err = s.get_banner()
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if err is not None:
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out.v(err, write_now=True)
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s.close()
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return
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# Send our KEX using the specified group-exchange and most of the server's own values.
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s.send_kexinit(key_exchanges=[kex_str], hostkeys=[host_key_type], ciphers=server_kex.server.encryption, macs=server_kex.server.mac, compressions=server_kex.server.compression, languages=server_kex.server.languages)
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try:
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# Parse the server's KEX.
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_, payload = s.read_packet()
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SSH2_Kex.parse(out, payload)
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except Exception:
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out.v("Failed to parse server's kex. Stack trace:\n%s" % str(traceback.format_exc()), write_now=True)
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return
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# Do the initial DH exchange. The server responds back
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# with the host key and its length. Bingo. We also get back the host key fingerprint.
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kex_group.send_init(s)
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raw_hostkey_bytes = b''
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try:
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kex_reply = kex_group.recv_reply(s)
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raw_hostkey_bytes = kex_reply if kex_reply is not None else b''
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except KexDHException:
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out.v("Failed to parse server's host key. Stack trace:\n%s" % str(traceback.format_exc()), write_now=True)
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# Since parsing this host key failed, there's nothing more to do but close the socket and move on to the next host key type.
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s.close()
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continue
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hostkey_modulus_size = kex_group.get_hostkey_size()
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ca_key_type = kex_group.get_ca_type()
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ca_modulus_size = kex_group.get_ca_size()
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out.d("Hostkey type: [%s]; hostkey size: %u; CA type: [%s]; CA modulus size: %u" % (host_key_type, hostkey_modulus_size, ca_key_type, ca_modulus_size), write_now=True)
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# Record all the host key info.
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server_kex.set_host_key(host_key_type, raw_hostkey_bytes, hostkey_modulus_size, ca_key_type, ca_modulus_size)
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# Set the hostkey size for all RSA key types since 'ssh-rsa', 'rsa-sha2-256', etc. are all using the same host key. Note, however, that this may change in the future.
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if cert is False and host_key_type in HostKeyTest.RSA_FAMILY:
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for rsa_type in HostKeyTest.RSA_FAMILY:
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server_kex.set_host_key(rsa_type, raw_hostkey_bytes, hostkey_modulus_size, ca_key_type, ca_modulus_size)
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# Close the socket, as the connection has
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# been put in a state that later tests can't use.
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s.close()
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# If the host key modulus or CA modulus was successfully parsed, check to see that its a safe size.
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if hostkey_modulus_size > 0 or ca_modulus_size > 0:
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# The minimum good modulus size for RSA host keys is 3072. However, since ECC cryptosystems are fundamentally different, the minimum good is 256.
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hostkey_min_good = cakey_min_good = 3072
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hostkey_min_warn = cakey_min_warn = 2048
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hostkey_warn_str = cakey_warn_str = HostKeyTest.TWO2K_MODULUS_WARNING
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if host_key_type.startswith('ssh-ed25519') or host_key_type.startswith('ecdsa-sha2-nistp'):
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hostkey_min_good = 256
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hostkey_min_warn = 224
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hostkey_warn_str = HostKeyTest.SMALL_ECC_MODULUS_WARNING
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if ca_key_type.startswith('ssh-ed25519') or host_key_type.startswith('ecdsa-sha2-nistp'):
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cakey_min_good = 256
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cakey_min_warn = 224
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cakey_warn_str = HostKeyTest.SMALL_ECC_MODULUS_WARNING
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# Keys smaller than 2048 result in a failure. Keys smaller 3072 result in a warning. Update the database accordingly.
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if (cert is False) and (hostkey_modulus_size < hostkey_min_good):
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alg_list = SSH2_KexDB.ALGORITHMS['key'][host_key_type]
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# Ensure that failure & warning lists exist.
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while len(alg_list) < 3:
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alg_list.append([])
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# If the key is under 2048, add to the failure list.
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if hostkey_modulus_size < hostkey_min_warn:
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alg_list[1].append('using small %d-bit modulus' % hostkey_modulus_size)
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elif hostkey_warn_str not in alg_list[2]: # Issue a warning about 2048-bit moduli.
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alg_list[2].append(hostkey_warn_str)
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elif (cert is True) and ((hostkey_modulus_size < hostkey_min_good) or (0 < ca_modulus_size < cakey_min_good)):
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alg_list = SSH2_KexDB.ALGORITHMS['key'][host_key_type]
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# Ensure that failure & warning lists exist.
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while len(alg_list) < 3:
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alg_list.append([])
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# If the host key is smaller than 2048-bit/224-bit, flag this as a failure.
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if hostkey_modulus_size < hostkey_min_warn:
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alg_list[1].append('using small %d-bit hostkey modulus' % hostkey_modulus_size)
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# Otherwise, this is just a warning.
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elif (hostkey_modulus_size < hostkey_min_good) and (hostkey_warn_str not in alg_list[2]):
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alg_list[2].append(hostkey_warn_str)
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# If the CA key is smaller than 2048-bit/224-bit, flag this as a failure.
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if 0 < ca_modulus_size < cakey_min_warn:
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alg_list[1].append('using small %d-bit CA key modulus' % ca_modulus_size)
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# Otherwise, this is just a warning.
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elif (0 < ca_modulus_size < cakey_min_good) and (cakey_warn_str not in alg_list[2]):
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alg_list[2].append(cakey_warn_str)
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# If this host key type is in the RSA family, then mark them all as parsed (since results in one are valid for them all).
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if host_key_type in HostKeyTest.RSA_FAMILY:
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for rsa_type in HostKeyTest.RSA_FAMILY:
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host_key_types[rsa_type]['parsed'] = True
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else:
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host_key_types[host_key_type]['parsed'] = True
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