""" Connection to hardware authentication device. It is used for getting SSH public keys and ECDSA signing of server requests. """ import binascii import io import logging from . import factory, formats, util log = logging.getLogger(__name__) class Client(object): """Client wrapper for SSH authentication device.""" def __init__(self, loader=factory.load, curve=formats.CURVE_NIST256): """Connect to hardware device.""" client_wrapper = loader() self.client = client_wrapper.connection self.identity_type = client_wrapper.identity_type self.device_name = client_wrapper.device_name self.call_exception = client_wrapper.call_exception self.curve = curve def __enter__(self): """Start a session, and test connection.""" msg = 'Hello World!' assert self.client.ping(msg) == msg return self def __exit__(self, *args): """Forget PIN, shutdown screen and disconnect.""" log.info('disconnected from %s', self.device_name) self.client.clear_session() self.client.close() def get_identity(self, label, index=0): """Parse label string into Identity protobuf.""" identity = util.string_to_identity(label, self.identity_type) identity.proto = 'ssh' identity.index = index return identity def get_public_key(self, label): """Get SSH public key corresponding to specified by label.""" identity = self.get_identity(label=label) label = util.identity_to_string(identity) # canonize key label log.info('getting "%s" public key (%s) from %s...', label, self.curve, self.device_name) addr = util.get_bip32_address(identity) node = self.client.get_public_node(n=addr, ecdsa_curve_name=self.curve) pubkey = node.node.public_key vk = formats.decompress_pubkey(pubkey=pubkey, curve_name=self.curve) return formats.export_public_key(vk=vk, label=label) def sign_ssh_challenge(self, label, blob): """Sign given blob using a private key, specified by the label.""" identity = self.get_identity(label=label) msg = _parse_ssh_blob(blob) log.debug('%s: user %r via %r (%r)', msg['conn'], msg['user'], msg['auth'], msg['key_type']) log.debug('nonce: %s', binascii.hexlify(msg['nonce'])) log.debug('fingerprint: %s', msg['public_key']['fingerprint']) log.debug('hidden challenge size: %d bytes', len(blob)) log.info('please confirm user "%s" login to "%s" using %s...', msg['user'], label, self.device_name) try: result = self.client.sign_identity(identity=identity, challenge_hidden=blob, challenge_visual='', ecdsa_curve_name=self.curve) except self.call_exception as e: code, msg = e.args log.warning('%s error #%s: %s', self.device_name, code, msg) raise IOError(msg) # close current connection, keep server open verifying_key = formats.decompress_pubkey(pubkey=result.public_key, curve_name=self.curve) key_type, blob = formats.serialize_verifying_key(verifying_key) assert blob == msg['public_key']['blob'] assert key_type == msg['key_type'] assert len(result.signature) == 65 assert result.signature[:1] == bytearray([0]) return result.signature[1:] def _parse_ssh_blob(data): res = {} i = io.BytesIO(data) res['nonce'] = util.read_frame(i) i.read(1) # SSH2_MSG_USERAUTH_REQUEST == 50 (from ssh2.h, line 108) res['user'] = util.read_frame(i) res['conn'] = util.read_frame(i) res['auth'] = util.read_frame(i) i.read(1) # have_sig == 1 (from sshconnect2.c, line 1056) res['key_type'] = util.read_frame(i) public_key = util.read_frame(i) res['public_key'] = formats.parse_pubkey(public_key) assert not i.read() return res