# Authors: # Jan Cholasta # # Copyright (C) 2012 Red Hat # see file 'COPYING' for use and warranty information # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # """ SSH utilities. """ import base64 import re import struct import binascii from hashlib import md5, sha1 from hashlib import sha256 #pylint: disable=E0611 import six if six.PY3: unicode = str __all__ = ['SSHPublicKey'] OPENSSH_BASE_REGEX = re.compile(r'^[\t ]*(?P[^\x00\n\r]+?) [\t ]*(?P[^\x00\n\r]+?)(?:[\t ]+(?P[^\x00\n\r]*?)[\t ]*)?$') OPENSSH_OPTIONS_REGEX = re.compile(r'(?P[-0-9A-Za-z]+)(?:="(?P(?:\\"|[^\x00\n\r"])*)")?') class SSHPublicKey(object): """ SSH public key object. """ __slots__ = ('_key', '_keytype', '_comment', '_options') def __init__(self, key, comment=None, options=None, encoding='utf-8'): if isinstance(key, SSHPublicKey): self._key = key._key self._keytype = key._keytype self._comment = key._comment self._options = key._options return if not isinstance(key, (bytes, unicode)): raise TypeError("argument must be bytes or unicode, got %s" % type(key).__name__) # All valid public key blobs start with 3 null bytes (see RFC 4253 # section 6.6, RFC 4251 section 5 and RFC 4250 section 4.6) if isinstance(key, bytes) and key[:3] != b'\0\0\0': key = key.decode(encoding) valid = self._parse_raw(key) or self._parse_base64(key) or self._parse_openssh(key) if not valid: raise ValueError("not a valid SSH public key") if comment is not None: self._comment = comment if options is not None: self._options = options def _parse_raw(self, key): if not isinstance(key, bytes): return False try: (ktlen,) = struct.unpack('>I', key[:4]) except struct.error: return False if ktlen < 1 or ktlen > len(key) - 4: return False try: keytype = key[4:ktlen+4].decode('ascii') except UnicodeDecodeError: return False self._key = key self._keytype = keytype self._options = {} self._comment = None return True def _parse_base64(self, key): if not isinstance(key, unicode): return False try: key = base64.b64decode(key) except (TypeError, ValueError): return False return self._parse_raw(key) def _parse_openssh_without_options(self, key): match = OPENSSH_BASE_REGEX.match(key) if not match: return False if not self._parse_base64(match.group('key')): return False if self._keytype != match.group('keytype'): return False self._comment = match.group('comment') return True def _parse_openssh_with_options(self, key): key = key.lstrip('\t ') options = {} while True: match = OPENSSH_OPTIONS_REGEX.match(key) if not match: return False name = match.group('name').lower() value = match.group('value') if value: value = value.replace('\\"', '"') options[name] = value key = key[len(match.group(0)):] key0, key = key[:1], key[1:] if key0 != ',': break if not self._parse_openssh_without_options(key): return False self._options = options return True def _parse_openssh(self, key): if not isinstance(key, unicode): return False if self._parse_openssh_without_options(key): return True else: return self._parse_openssh_with_options(key) def keytype(self): return self._keytype def comment(self): return self._comment def has_options(self): return bool(self._options) def openssh(self): key = base64.b64encode(self._key).decode('ascii') out = u'%s %s' % (self._keytype, key) if self._options: options = [] for name in sorted(self._options): value = self._options[name] if value is None: options.append(name) else: value = value.replace('"', '\\"') options.append(u'%s="%s"' % (name, value)) options = u','.join(options) out = u'%s %s' % (options, out) if self._comment: out = u'%s %s' % (out, self._comment) return out def fingerprint_hex_md5(self): fp = md5(self._key).hexdigest().upper() fp = u':'.join([fp[j:j+2] for j in range(0, len(fp), 2)]) return fp def _fingerprint_dns(self, fpfunc, fptype): if self._keytype == 'ssh-rsa': keytype = 1 elif self._keytype == 'ssh-dss': keytype = 2 elif self._keytype.startswith('ecdsa-sha2-') and '@' not in self._keytype: keytype = 3 else: return fp = fpfunc(self._key).hexdigest().upper() return u'%d %d %s' % (keytype, fptype, fp) def fingerprint_dns_sha1(self): return self._fingerprint_dns(sha1, 1) def fingerprint_dns_sha256(self): return self._fingerprint_dns(sha256, 2)