예제 #1
0
def hdl_wid_206(desc):
    stack = get_stack()

    passkey = btp.parse_passkey_description(desc)
    stack.gap.passkey.data = passkey

    btp.gap_passkey_entry_req_ev()
    return True
예제 #2
0
파일: gap.py 프로젝트: AyturkDuzen/auto-pts
def hdl_wid_206(params: WIDParams):
    stack = get_stack()

    passkey = btp.parse_passkey_description(params.description)
    stack.gap.passkey.data = passkey

    btp.gap_passkey_entry_req_ev()
    return True
예제 #3
0
    def test_SMP_Client_SC_Passkey_Entry(self, iut, valid):
        btp.gap_set_io_cap(iut, IOCap.keyboard_display)
        btp.gap_conn(iut, self.config.tester_addr)
        btp.gap_wait_for_connection(iut)

        future = btp.gap_passkey_entry_req_ev(iut)
        try:
            wait_futures([future], timeout=EV_TIMEOUT)
            btp.gap_passkey_entry_rsp(iut, self.config.tester_addr,
                                      self.config.tester_passkey)
        except (TimeoutError, BTPErrorInvalidStatus) as e:
            if valid:
                raise e
    def test_btp_GAP_CONN_PAIR_3(self):
        """
        Verify the IUT1 can perform the authenticated pairing procedure
        (Keyboard Input) as the initiator.

        The IUT1 is operating in the Central role and is the initiator
        performing the pairing procedure; the IUT2
        is operating in the Peripheral role and is the responder.
        """

        btp.gap_set_io_cap(self.iut1, IOCap.keyboard_only)
        btp.gap_set_io_cap(self.iut2, IOCap.display_only)

        connection_procedure(self, central=self.iut1, peripheral=self.iut2)

        btp.gap_pair(self.iut1, self.iut2.stack.gap.iut_addr_get())

        iut2_addr = self.iut2.stack.gap.iut_addr_get()

        future_slave = btp.gap_passkey_disp_ev(self.iut2)
        future_master = btp.gap_passkey_entry_req_ev(self.iut1)

        wait_futures([future_master, future_slave], timeout=EV_TIMEOUT)
        results_slave = future_slave.result()
        pk_iut2 = results_slave[1]
        self.assertIsNotNone(pk_iut2)

        btp.gap_passkey_entry_rsp(self.iut1, iut2_addr, pk_iut2)

        future_master = btp.gap_sec_level_changed_ev(self.iut1)
        future_slave = btp.gap_sec_level_changed_ev(self.iut2)

        wait_futures([future_master, future_slave], timeout=EV_TIMEOUT)

        _, level = future_master.result()
        self.assertEqual(level, 3)

        _, level = future_slave.result()
        self.assertEqual(level, 3)

        disconnection_procedure(self, central=self.iut1, peripheral=self.iut2)