solo/tools/ctap_test.py

#!/usr/bin/env python
# -*- coding: utf-8 -*-
#
# Copyright 2019 SoloKeys Developers
#
# Licensed under the Apache License, Version 2.0, <LICENSE-APACHE or
# http://apache.org/licenses/LICENSE-2.0> or the MIT license <LICENSE-MIT or
# http://opensource.org/licenses/MIT>, at your option. This file may not be
# copied, modified, or distributed except according to those terms.
#

# Script for testing correctness of CTAP2/CTAP1 security token

from __future__ import print_function, absolute_import, unicode_literals

from fido2.hid import CtapHidDevice, CTAPHID
from fido2.client import Fido2Client, ClientError
from fido2.ctap import CtapError
from fido2.ctap1 import CTAP1
from fido2.ctap2 import *
from fido2.cose import *
from fido2.utils import Timeout
import sys, os, time
from random import randint
from binascii import hexlify
import array, struct, socket

# Set up a FIDO 2 client using the origin https://example.com


def ForceU2F(client, device):
    client.ctap = CTAP1(device)
    client.pin_protocol = None
    client._do_make_credential = client._ctap1_make_credential
    client._do_get_assertion = client._ctap1_get_assertion


class Packet(object):
    def __init__(self, data):
        l = len(data)
        self.data = data

    def ToWireFormat(self,):
        return self.data

    @staticmethod
    def FromWireFormat(pkt_size, data):
        return Packet(data)


class Tester:
    def __init__(self,):
        self.origin = 'https://examplo.org'
        self.host = 'examplo.org'

    def find_device(self,):
        print(list(CtapHidDevice.list_devices()))
        dev = next(CtapHidDevice.list_devices(), None)
        if not dev:
            raise RuntimeError('No FIDO device found')
        self.dev = dev
        self.client = Fido2Client(dev, self.origin)
        self.ctap = self.client.ctap2

        # consume timeout error
        # cmd,resp = self.recv_raw()

    def send_data(self, cmd, data):
        if type(data) != type(b''):
            data = struct.pack('%dB' % len(data), *[ord(x) for x in data])
        with Timeout(1.0) as event:
            return self.dev.call(cmd, data, event)

    def send_raw(self, data, cid=None):
        if cid is None:
            cid = self.dev._dev.cid
        elif type(cid) != type(b''):
            cid = struct.pack('%dB' % len(cid), *[ord(x) for x in cid])
        if type(data) != type(b''):
            data = struct.pack('%dB' % len(data), *[ord(x) for x in data])
        data = cid + data
        l = len(data)
        if l != 64:
            pad = '\x00' * (64 - l)
            pad = struct.pack('%dB' % len(pad), *[ord(x) for x in pad])
            data = data + pad
        data = list(data)
        assert len(data) == 64
        self.dev._dev.InternalSendPacket(Packet(data))

    def cid(self,):
        return self.dev._dev.cid

    def set_cid(self, cid):
        if type(cid) not in [type(b''), type(bytearray())]:
            cid = struct.pack('%dB' % len(cid), *[ord(x) for x in cid])
        self.dev._dev.cid = cid

    def recv_raw(self,):
        with Timeout(1.0) as t:
            cmd, payload = self.dev._dev.InternalRecv()
        return cmd, payload

    def check_error(self, data, err=None):
        assert len(data) == 1
        if err is None:
            if data[0] != 0:
                raise CtapError(data[0])
        elif data[0] != err:
            raise ValueError('Unexpected error: %02x' % data[0])

    def test_long_ping(self):
        amt = 1000
        pingdata = os.urandom(amt)
        try:
            t1 = time.time() * 1000
            r = self.send_data(CTAPHID.PING, pingdata)
            t2 = time.time() * 1000
            delt = t2 - t1
            # if (delt < 140 ):
            # raise RuntimeError('Fob is too fast (%d ms)' % delt)
            if delt > 555 * (amt / 1000):
                raise RuntimeError('Fob is too slow (%d ms)' % delt)
            if r != pingdata:
                raise ValueError('Ping data not echo\'d')
            print('1000 byte ping time: %s ms' % delt)
        except CtapError as e:
            print('7609 byte Ping failed:', e)
            raise RuntimeError('ping failed')
        print('PASS: 7609 byte ping')
        # sys.flush(sys.sto)
        sys.stdout.flush()

    def test_hid(self, check_timeouts=False):
        if check_timeouts:
            print('Test idle')
            try:
                cmd, resp = self.recv_raw()
            except socket.timeout:
                print('Pass: Idle')

        print('Test init')
        r = self.send_data(CTAPHID.INIT, '\x11\x11\x11\x11\x11\x11\x11\x11')

        pingdata = os.urandom(100)
        try:
            r = self.send_data(CTAPHID.PING, pingdata)
            if r != pingdata:
                raise ValueError('Ping data not echo\'d')
        except CtapError as e:
            print('100 byte Ping failed:', e)
            raise RuntimeError('ping failed')
        print('PASS: 100 byte ping')

        self.test_long_ping()

        try:
            r = self.send_data(CTAPHID.WINK, '')
            print(hexlify(r))
            # assert(len(r) == 0)
        except CtapError as e:
            print('wink failed:', e)
            raise RuntimeError('wink failed')
        print('PASS: wink')

        # try:
        # r = self.send_data(CTAPHID.WINK, 'we9gofrei8g')
        # raise RuntimeError('Wink is not supposed to have payload')
        # except CtapError as e:
        # assert(e.code == CtapError.ERR.INVALID_LENGTH)
        # print('PASS: malformed wink')

        try:
            r = self.send_data(CTAPHID.CBOR, '')
            if len(r) > 1 or r[0] == 0:
                raise RuntimeError('Cbor is supposed to have payload')
        except CtapError as e:
            assert e.code == CtapError.ERR.INVALID_LENGTH
        print('PASS: no data cbor')

        try:
            r = self.send_data(CTAPHID.MSG, '')
            print(hexlify(r))
            if len(r) > 2:
                raise RuntimeError('MSG is supposed to have payload')
        except CtapError as e:
            assert e.code == CtapError.ERR.INVALID_LENGTH
        print('PASS: no data msg')

        try:
            r = self.send_data(CTAPHID.INIT, '\x11\x22\x33\x44\x55\x66\x77\x88')
        except CtapError as e:
            raise RuntimeError('resync fail: ', e)
        print('PASS: resync')

        try:
            r = self.send_data(0x66, '')
            raise RuntimeError('Invalid command did not return error')
        except CtapError as e:
            assert e.code == CtapError.ERR.INVALID_COMMAND
        print('PASS: invalid HID command')

        print('Sending packet with too large of a length.')
        self.send_raw('\x81\x1d\xba\x00')
        cmd, resp = self.recv_raw()
        self.check_error(resp, CtapError.ERR.INVALID_LENGTH)
        print('PASS: invalid length')

        r = self.send_data(CTAPHID.PING, '\x44' * 200)
        print('Sending packets that skip a sequence number.')
        self.send_raw('\x81\x04\x90')
        self.send_raw('\x00')
        self.send_raw('\x01')
        # skip 2
        self.send_raw('\x03')
        cmd, resp = self.recv_raw()
        self.check_error(resp, CtapError.ERR.INVALID_SEQ)
        if check_timeouts:
            cmd, resp = self.recv_raw()
            assert cmd == 0xBF  # timeout
        print('PASS: invalid sequence')

        print('Resync and send ping')
        try:
            r = self.send_data(CTAPHID.INIT, '\x11\x22\x33\x44\x55\x66\x77\x88')
            pingdata = os.urandom(100)
            r = self.send_data(CTAPHID.PING, pingdata)
            if r != pingdata:
                raise ValueError('Ping data not echo\'d')
        except CtapError as e:
            raise RuntimeError('resync fail: ', e)
        print('PASS: resync and ping')

        print('Send ping and abort it')
        self.send_raw('\x81\x04\x00')
        self.send_raw('\x00')
        self.send_raw('\x01')
        try:
            r = self.send_data(CTAPHID.INIT, '\x11\x22\x33\x44\x55\x66\x77\x88')
        except CtapError as e:
            raise RuntimeError('resync fail: ', e)
        print('PASS: interrupt ping with resync')

        print('Send ping and abort it with different cid, expect timeout')
        oldcid = self.cid()
        newcid = '\x11\x22\x33\x44'
        self.send_raw('\x81\x10\x00')
        self.send_raw('\x00')
        self.send_raw('\x01')
        self.set_cid(newcid)
        self.send_raw(
            '\x86\x00\x08\x11\x22\x33\x44\x55\x66\x77\x88'
        )  # init from different cid
        print('wait for init response')
        cmd, r = self.recv_raw()  # init response
        assert cmd == 0x86
        self.set_cid(oldcid)
        if check_timeouts:
            # print('wait for timeout')
            cmd, r = self.recv_raw()  # timeout response
            assert cmd == 0xBF

        print('PASS: resync and timeout')

        print('Test timeout')
        self.send_data(CTAPHID.INIT, '\x11\x22\x33\x44\x55\x66\x77\x88')
        t1 = time.time() * 1000
        self.send_raw('\x81\x04\x00')
        self.send_raw('\x00')
        self.send_raw('\x01')
        cmd, r = self.recv_raw()  # timeout response
        t2 = time.time() * 1000
        delt = t2 - t1
        assert cmd == 0xBF
        assert r[0] == CtapError.ERR.TIMEOUT
        assert delt < 1000 and delt > 400
        print('Pass timeout')

        print('Test not cont')
        self.send_data(CTAPHID.INIT, '\x11\x22\x33\x44\x55\x66\x77\x88')
        self.send_raw('\x81\x04\x00')
        self.send_raw('\x00')
        self.send_raw('\x01')
        self.send_raw('\x81\x10\x00')  # init packet
        cmd, r = self.recv_raw()  # timeout response
        assert cmd == 0xBF
        assert r[0] == CtapError.ERR.INVALID_SEQ
        print('PASS: Test not cont')

        if check_timeouts:
            print('Check random cont ignored')
            self.send_data(CTAPHID.INIT, '\x11\x22\x33\x44\x55\x66\x77\x88')
            self.send_raw('\x01\x10\x00')
            try:
                cmd, r = self.recv_raw()  # timeout response
            except socket.timeout:
                pass
            print('PASS: random cont')

        print('Check busy')
        t1 = time.time() * 1000
        self.send_data(CTAPHID.INIT, '\x11\x22\x33\x44\x55\x66\x77\x88')
        oldcid = self.cid()
        newcid = '\x11\x22\x33\x44'
        self.send_raw('\x81\x04\x00')
        self.set_cid(newcid)
        self.send_raw('\x81\x04\x00')
        cmd, r = self.recv_raw()  # busy response
        t2 = time.time() * 1000
        assert t2 - t1 < 100
        assert cmd == 0xBF
        assert r[0] == CtapError.ERR.CHANNEL_BUSY

        self.set_cid(oldcid)
        cmd, r = self.recv_raw()  # timeout response
        assert cmd == 0xBF
        assert r[0] == CtapError.ERR.TIMEOUT
        print('PASS: busy')

        print('Check busy interleaved')
        cid1 = '\x11\x22\x33\x44'
        cid2 = '\x01\x22\x33\x44'
        self.set_cid(cid2)
        self.send_data(CTAPHID.INIT, '\x11\x22\x33\x44\x55\x66\x77\x88')
        self.set_cid(cid1)
        self.send_data(CTAPHID.INIT, '\x11\x22\x33\x44\x55\x66\x77\x88')
        self.send_raw('\x81\x00\x63')  # echo 99 bytes first channel

        self.set_cid(cid2)  # send ping on 2nd channel
        self.send_raw('\x81\x00\x63')
        self.send_raw('\x00')

        cmd, r = self.recv_raw()  # busy response

        self.set_cid(cid1)  # finish 1st channel ping
        self.send_raw('\x00')

        self.set_cid(cid2)

        assert cmd == 0xBF
        assert r[0] == CtapError.ERR.CHANNEL_BUSY

        self.set_cid(cid1)
        cmd, r = self.recv_raw()  # ping response
        assert cmd == 0x81
        assert len(r) == 0x63

        if check_timeouts:
            cmd, r = self.recv_raw()  # timeout
            assert cmd == 0xBF
            assert r[0] == CtapError.ERR.TIMEOUT
        print('PASS: busy interleaved')

        if check_timeouts:
            print('Test idle, wait for timeout')
            sys.stdout.flush()
            try:
                cmd, resp = self.recv_raw()
            except socket.timeout:
                print('Pass: Idle')

        print('Test cid 0 is invalid')
        self.set_cid('\x00\x00\x00\x00')
        self.send_raw(
            '\x86\x00\x08\x11\x22\x33\x44\x55\x66\x77\x88', cid='\x00\x00\x00\x00'
        )
        cmd, r = self.recv_raw()  # timeout
        assert cmd == 0xBF
        assert r[0] == CtapError.ERR.INVALID_CHANNEL
        print('Pass: cid 0')

        print('Test invalid broadcast cid use')
        self.set_cid('\xff\xff\xff\xff')
        self.send_raw(
            '\x81\x00\x08\x11\x22\x33\x44\x55\x66\x77\x88', cid='\xff\xff\xff\xff'
        )
        cmd, r = self.recv_raw()  # timeout
        assert cmd == 0xBF
        assert r[0] == CtapError.ERR.INVALID_CHANNEL
        print('Pass: cid broadcast')

    def test_u2f(self,):
        pass

    def test_fido2_simple(self, pin_token=None):
        creds = []
        exclude_list = []
        rp = {'id': self.host, 'name': 'ExaRP'}
        user = {'id': b'usee_od', 'name': 'AB User'}
        challenge = 'Y2hhbGxlbmdl'
        PIN = pin_token

        fake_id1 = array.array('B', [randint(0, 255) for i in range(0, 150)]).tobytes()
        fake_id2 = array.array('B', [randint(0, 255) for i in range(0, 73)]).tobytes()

        exclude_list.append({'id': fake_id1, 'type': 'public-key'})
        exclude_list.append({'id': fake_id2, 'type': 'public-key'})

        print('MC')
        t1 = time.time() * 1000
        attest, data = self.client.make_credential(
            rp, user, challenge, pin=PIN, exclude_list=[]
        )
        t2 = time.time() * 1000
        attest.verify(data.hash)
        print('Register valid (%d ms)' % (t2 - t1))

        cred = attest.auth_data.credential_data
        creds.append(cred)

        allow_list = [{'id': creds[0].credential_id, 'type': 'public-key'}]
        t1 = time.time() * 1000
        assertions, client_data = self.client.get_assertion(
            rp['id'], challenge, allow_list, pin=PIN
        )
        t2 = time.time() * 1000
        assertions[0].verify(client_data.hash, creds[0].public_key)

        print('Assertion valid (%d ms)' % (t2 - t1))

    def test_fido2_brute_force(self):
        creds = []
        exclude_list = []
        rp = {'id': self.host, 'name': 'ExaRP'}
        user = {'id': b'usee_od', 'name': 'AB User'}
        PIN = None
        abc = 'abcdefghijklnmopqrstuvwxyz'
        abc += abc.upper()

        self.ctap.reset()

        for i in range(0, 2048 ** 2):
            creds = []

            challenge = ''.join([abc[randint(0, len(abc) - 1)] for x in range(0, 32)])

            fake_id1 = array.array(
                'B', [randint(0, 255) for i in range(0, 150)]
            ).tostring()
            fake_id2 = array.array(
                'B', [randint(0, 255) for i in range(0, 73)]
            ).tostring()

            exclude_list.append({'id': fake_id1, 'type': 'public-key'})
            exclude_list.append({'id': fake_id2, 'type': 'public-key'})

            # for i in range(0,2048**2):
            for i in range(0, 1):
                t1 = time.time() * 1000
                attest, data = self.client.make_credential(
                    rp, user, challenge, pin=PIN, exclude_list=[]
                )
                print(attest.auth_data.counter)
                t2 = time.time() * 1000
                attest.verify(data.hash)
                print('Register valid (%d ms)' % (t2 - t1))
            sys.stdout.flush()

            cred = attest.auth_data.credential_data
            creds.append(cred)

            # for i in range(0,2048**2):
            for i in range(0, 1):
                allow_list = [{'id': creds[0].credential_id, 'type': 'public-key'}]
                t1 = time.time() * 1000
                assertions, client_data = self.client.get_assertion(
                    rp['id'], challenge, allow_list, pin=PIN
                )
                t2 = time.time() * 1000
                assertions[0].verify(client_data.hash, creds[0].public_key)
                print(assertions[0].auth_data.counter)

                print('Assertion valid (%d ms)' % (t2 - t1))
                sys.stdout.flush()

    def test_fido2(self):
        def test(self, pincode=None):
            creds = []
            exclude_list = []
            rp = {'id': self.host, 'name': 'ExaRP'}
            user = {'id': b'usee_od', 'name': 'AB User'}
            challenge = 'Y2hhbGxlbmdl'
            PIN = pincode

            fake_id1 = array.array(
                'B', [randint(0, 255) for i in range(0, 150)]
            ).tostring()
            fake_id2 = array.array(
                'B', [randint(0, 255) for i in range(0, 73)]
            ).tostring()

            exclude_list.append({'id': fake_id1, 'type': 'public-key'})
            exclude_list.append({'id': fake_id2, 'type': 'public-key'})

            # test make credential
            print('make 3 credentials')
            for i in range(0, 3):
                attest, data = self.client.make_credential(
                    rp, user, challenge, pin=PIN, exclude_list=[]
                )
                attest.verify(data.hash)
                cred = attest.auth_data.credential_data
                creds.append(cred)
                print(cred)
            print('PASS')

            if PIN is not None:
                print('make credential with wrong pin code')
                try:
                    attest, data = self.client.make_credential(
                        rp, user, challenge, pin=PIN + ' ', exclude_list=[]
                    )
                except CtapError as e:
                    assert e.code == CtapError.ERR.PIN_INVALID
                except ClientError as e:
                    assert e.cause.code == CtapError.ERR.PIN_INVALID
                print('PASS')

            print('make credential with exclude list')
            attest, data = self.client.make_credential(
                rp, user, challenge, pin=PIN, exclude_list=exclude_list
            )
            attest.verify(data.hash)
            cred = attest.auth_data.credential_data
            creds.append(cred)
            print('PASS')

            print('make credential with exclude list including real credential')
            real_excl = [{'id': cred.credential_id, 'type': 'public-key'}]
            try:
                attest, data = self.client.make_credential(
                    rp, user, challenge, pin=PIN, exclude_list=exclude_list + real_excl
                )
                raise RuntimeError('Exclude list did not return expected error')
            except CtapError as e:
                assert e.code == CtapError.ERR.CREDENTIAL_EXCLUDED
            except ClientError as e:
                assert e.cause.code == CtapError.ERR.CREDENTIAL_EXCLUDED
            print('PASS')

            for i, x in enumerate(creds):
                print('get assertion %d' % i)
                allow_list = [{'id': x.credential_id, 'type': 'public-key'}]
                assertions, client_data = self.client.get_assertion(
                    rp['id'], challenge, allow_list, pin=PIN
                )
                assertions[0].verify(client_data.hash, x.public_key)
                print('PASS')

            if PIN is not None:
                print('get assertion with wrong pin code')
                try:
                    assertions, client_data = self.client.get_assertion(
                        rp['id'], challenge, allow_list, pin=PIN + ' '
                    )
                except CtapError as e:
                    assert e.code == CtapError.ERR.PIN_INVALID
                except ClientError as e:
                    assert e.cause.code == CtapError.ERR.PIN_INVALID
                print('PASS')

            print('get multiple assertions')
            allow_list = [{'id': x.credential_id, 'type': 'public-key'} for x in creds]
            assertions, client_data = self.client.get_assertion(
                rp['id'], challenge, allow_list, pin=PIN
            )

            for ass, cred in zip(assertions, creds):
                i += 1

                ass.verify(client_data.hash, cred.public_key)
                print('%d verified' % i)
            print('PASS')

        print('Reset device')
        try:
            self.ctap.reset()
        except CtapError as e:
            print('Warning, reset failed: ', e)
            pass
        print('PASS')

        test(self, None)

        print('Set a pin code')
        PIN = '1122aabbwfg0h9g !@#=='
        self.client.pin_protocol.set_pin(PIN)
        print('PASS')

        print('Illegally set pin code again')
        try:
            self.client.pin_protocol.set_pin(PIN)
        except CtapError as e:
            assert e.code == CtapError.ERR.NOT_ALLOWED
        print('PASS')

        print('Change pin code')
        PIN2 = PIN + '_pin2'
        self.client.pin_protocol.change_pin(PIN, PIN2)
        PIN = PIN2
        print('PASS')

        print('Change pin code using wrong pin')
        try:
            self.client.pin_protocol.change_pin(PIN.replace('a', 'b'), '1234')
        except CtapError as e:
            assert e.code == CtapError.ERR.PIN_INVALID
        print('PASS')

        print('MC using wrong pin')
        try:
            self.test_fido2_simple('abcd3')
        except ClientError as e:
            assert e.cause.code == CtapError.ERR.PIN_INVALID
        print('PASS')

        print('get info')
        inf = self.ctap.get_info()
        print('PASS')

        self.test_fido2_simple(PIN)

        print('Re-run make_credential and get_assertion tests with pin code')
        test(self, PIN)

        print('Reset device')
        try:
            self.ctap.reset()
        except CtapError as e:
            print('Warning, reset failed: ', e)
        print('PASS')

    def test_rk(self,):
        creds = []
        rp = {'id': self.host, 'name': 'ExaRP'}
        user0 = {'id': b'first one', 'name': 'single User'}

        users = [
            {'id': b'user' + os.urandom(16), 'name': 'AB User'} for i in range(0, 2)
        ]
        challenge = 'Y2hhbGxlbmdl'
        PIN = None
        print('reset')
        self.ctap.reset()
        # if PIN: self.client.pin_protocol.set_pin(PIN)

        print('registering 1 user with RK')
        t1 = time.time() * 1000
        attest, data = self.client.make_credential(
            rp, user0, challenge, pin=PIN, exclude_list=[], rk=True
        )
        t2 = time.time() * 1000
        attest.verify(data.hash)
        creds.append(attest.auth_data.credential_data)
        print('Register valid (%d ms)' % (t2 - t1))

        print('1 assertion')
        t1 = time.time() * 1000
        assertions, client_data = self.client.get_assertion(
            rp['id'], challenge, pin=PIN
        )
        t2 = time.time() * 1000
        assertions[0].verify(client_data.hash, creds[0].public_key)
        print('Assertion valid (%d ms)' % (t2 - t1))

        print(assertions[0], client_data)

        print('registering %d users with RK' % len(users))
        for i in range(0, len(users)):
            t1 = time.time() * 1000
            attest, data = self.client.make_credential(
                rp, users[i], challenge, pin=PIN, exclude_list=[], rk=True
            )
            t2 = time.time() * 1000
            attest.verify(data.hash)
            print('Register valid (%d ms)' % (t2 - t1))

            creds.append(attest.auth_data.credential_data)

        t1 = time.time() * 1000
        assertions, client_data = self.client.get_assertion(
            rp['id'], challenge, pin=PIN
        )
        t2 = time.time() * 1000

        for x, y in zip(assertions, creds):
            x.verify(client_data.hash, y.public_key)

        print('Assertion(s) valid (%d ms)' % (t2 - t1))

        print('registering a duplicate user ')

        t1 = time.time() * 1000
        attest, data = self.client.make_credential(
            rp, users[1], challenge, pin=PIN, exclude_list=[], rk=True
        )
        t2 = time.time() * 1000
        attest.verify(data.hash)
        creds = creds[:2] + creds[3:] + [attest.auth_data.credential_data]
        print('Register valid (%d ms)' % (t2 - t1))

        t1 = time.time() * 1000
        assertions, client_data = self.client.get_assertion(
            rp['id'], challenge, pin=PIN
        )
        t2 = time.time() * 1000
        assert len(assertions) == len(users) + 1
        for x, y in zip(assertions, creds):
            x.verify(client_data.hash, y.public_key)

        print('Assertion(s) valid (%d ms)' % (t2 - t1))

    def test_responses(self,):
        PIN = '1234'
        RPID = self.host
        for dev in CtapHidDevice.list_devices():
            print('dev', dev)
            client = Fido2Client(dev, RPID)
            ctap = client.ctap2
            # ctap.reset()
            try:
                if PIN:
                    client.pin_protocol.set_pin(PIN)
            except:
                pass

            inf = ctap.get_info()
            # print (inf)
            print('versions: ', inf.versions)
            print('aaguid: ', inf.aaguid)
            print('rk: ', inf.options['rk'])
            print('clientPin: ', inf.options['clientPin'])
            print('max_message_size: ', inf.max_msg_size)

            # rp = {'id': 'SelectDevice', 'name': 'SelectDevice'}
            rp = {'id': RPID, 'name': 'ExaRP'}
            user = {'id': os.urandom(10), 'name': 'SelectDevice'}
            user = {'id': b'21first one', 'name': 'single User'}
            challenge = 'Y2hhbGxlbmdl'

            if 1:
                attest, data = client.make_credential(
                    rp, user, challenge, exclude_list=[], pin=PIN, rk=True
                )

                cred = attest.auth_data.credential_data
                creds = [cred]

                allow_list = [{'id': creds[0].credential_id, 'type': 'public-key'}]
                allow_list = []
                assertions, client_data = client.get_assertion(
                    rp['id'], challenge, pin=PIN
                )
                assertions[0].verify(client_data.hash, creds[0].public_key)

            if 0:
                print('registering 1 user with RK')
                t1 = time.time() * 1000
                attest, data = client.make_credential(
                    rp, user, challenge, pin=PIN, exclude_list=[], rk=True
                )
                t2 = time.time() * 1000
                attest.verify(data.hash)
                creds = [attest.auth_data.credential_data]
                print('Register valid (%d ms)' % (t2 - t1))

                print('1 assertion')
                t1 = time.time() * 1000
                assertions, client_data = client.get_assertion(
                    rp['id'], challenge, pin=PIN
                )
                t2 = time.time() * 1000
                assertions[0].verify(client_data.hash, creds[0].public_key)
                print('Assertion valid (%d ms)' % (t2 - t1))

            # print('fmt:',attest.fmt)
            # print('rp_id_hash',attest.auth_data.rp_id_hash)
            # print('flags:', hex(attest.auth_data.flags))
            # print('count:', hex(attest.auth_data.counter))
            print('flags MC:', attest.auth_data)
            print('flags GA:', assertions[0].auth_data)
            # print('cred_id:',attest.auth_data.credential_data.credential_id)
            # print('pubkey:',attest.auth_data.credential_data.public_key)
            # print('aaguid:',attest.auth_data.credential_data.aaguid)
            # print('cred data:',attest.auth_data.credential_data)
            # print('auth_data:',attest.auth_data)
            # print('auth_data:',attest.auth_data)
            # print('alg:',attest.att_statement['alg'])
            # print('sig:',attest.att_statement['sig'])
            # print('x5c:',attest.att_statement['x5c'])
            # print('data:',data)

            print('assertion:', assertions[0])
            print('clientData:', client_data)

            print()
            # break


def test_find_brute_force():
    i = 0
    while 1:
        t1 = time.time() * 1000
        t = Tester()
        t.find_device()
        t2 = time.time() * 1000
        print('connected %d (%d ms)' % (i, t2 - t1))
        i += 1
        time.sleep(0.01)


if __name__ == '__main__':
    t = Tester()
    t.find_device()
    # t.test_hid()
    # t.test_long_ping()
    t.test_fido2()
    # t.test_rk()
    # t.test_responses()
    # test_find_brute_force()
    # t.test_fido2_simple()
    # t.test_fido2_brute_force()