def test_btp_GATT_CL_GAW_1(self): """ Verify that a Generic Attribute Profile client can write a Characteristic Value selected by handle. """ connection_procedure(self, central=self.iut1, peripheral=self.iut2) btp.gattc_disc_chrc_uuid(self.iut1, self.iut2.stack.gap.iut_addr_get(), 0x0001, 0xffff, PTS_DB.CHR_READ_WRITE) db = GattDB() btp.gattc_disc_chrc_uuid_rsp(self.iut1, db) db.print_db() chr = db.find_chr_by_uuid(PTS_DB.CHR_READ_WRITE) self.assertIsNotNone(chr) new_value = "FF" btp.gattc_write(self.iut1, self.iut2.stack.gap.iut_addr_get(), chr.value_handle, new_value) future_iut2 = btp.gatts_attr_value_changed_ev(self.iut2) val = GattValue() btp.gattc_write_rsp(self.iut1, val) self.assertEqual(val.att_rsp, "No error") wait_futures([future_iut2], timeout=EV_TIMEOUT) hdl, data = future_iut2.result() self.assertEqual(data, new_value) disconnection_procedure(self, central=self.iut1, peripheral=self.iut2)
def test_btp_GATT_CL_GAW_3(self): """ Verify that a Generic Attribute Profile client can write a characteristic descriptor selected by handle. """ connection_procedure(self, central=self.iut1, peripheral=self.iut2) btp.gattc_disc_prim_uuid(self.iut1, self.iut2.stack.gap.iut_addr_get(), PTS_DB.SVC) db = GattDB() btp.gattc_disc_prim_uuid_rsp(self.iut1, db) svc = db.find_svc_by_uuid(PTS_DB.SVC) self.assertIsNotNone(svc) start_hdl, end_hdl = svc.handle, svc.end_hdl btp.gattc_disc_all_chrc(self.iut1, self.iut2.stack.gap.iut_addr_get(), start_hdl, end_hdl) btp.gattc_disc_all_chrc_rsp(self.iut1, db) db.print_db() chr = db.find_chr_by_uuid(PTS_DB.CHR_READ_WRITE) self.assertIsNotNone(chr) end_hdl = db.find_characteristic_end(chr.handle) self.assertIsNotNone(end_hdl) btp.gattc_disc_all_desc(self.iut1, self.iut2.stack.gap.iut_addr_get(), chr.value_handle + 1, end_hdl) btp.gattc_disc_all_desc_rsp(self.iut1, db) db.print_db() dsc = db.find_dsc_by_uuid(PTS_DB.DSC_READ_WRITE) self.assertIsNotNone(dsc) new_value = "FF" btp.gattc_write(self.iut1, self.iut2.stack.gap.iut_addr_get(), dsc.handle, new_value) future_iut2 = btp.gatts_attr_value_changed_ev(self.iut2) val = GattValue() btp.gattc_write_rsp(self.iut1, val) self.assertEqual(val.att_rsp, "No error") wait_futures([future_iut2], timeout=EV_TIMEOUT) hdl, data = future_iut2.result() self.assertEqual(data, new_value) disconnection_procedure(self, central=self.iut1, peripheral=self.iut2)
def test_ATT_Client_Write_Attribute_Value(self, iut, valid): btp.gap_conn(iut, self.config.tester_addr) btp.gap_wait_for_connection(iut) btp.gattc_write(iut, self.config.tester_addr, self.config.tester_write_hdl, '00') tuple_hdr, tuple_data = iut.btp_worker.read() try: btp.btp_hdr_check(tuple_hdr, defs.BTP_SERVICE_ID_GATT, defs.GATT_WRITE) except BTPErrorInvalidStatus: pass
def hdl_wid_142(desc): MMI.reset() MMI.parse_description(desc) hdl = MMI.args[0] if not hdl: logging.error("parsing error") return False btp.gattc_write(btp.pts_addr_type_get(None), btp.pts_addr_get(None), hdl, '02', 1) return True
def hdl_wid_135(params: WIDParams): MMI.reset() MMI.parse_description(params.description) hdl = MMI.args[0] if not hdl: logging.error("parsing error") return False btp.gattc_write(btp.pts_addr_type_get(None), btp.pts_addr_get(None), hdl, '01', 1) return True
def hdl_wid_74(desc): pattern = re.compile("'([0-9a-fA-F]+)'") params = pattern.findall(desc) if not params: logging.error("parsing error") return False handle = params[0] size = int(params[1]) btp.gattc_write(btp.pts_addr_type_get(None), btp.pts_addr_get(None), handle, '12', size) btp.gattc_write_rsp() return True
def hdl_wid_80(desc): MMI.reset() MMI.parse_description(desc) hdl = MMI.args[0] val_mtp = MMI.args[1] if not hdl or not val_mtp: logging.error("parsing error") return False btp.gattc_write(btp.pts_addr_type_get(), btp.pts_addr_get(), hdl, '1234', val_mtp) btp.gattc_write_rsp(True) return True
def hdl_wid_74(desc): MMI.reset() MMI.parse_description(desc) hdl = MMI.args[0] size = int(MMI.args[1]) if not hdl or size == 0: logging.error("parsing error") return False btp.gattc_write(btp.pts_addr_type_get(), btp.pts_addr_get(), hdl, '12', size) try: btp.gattc_write_rsp(True, 40) except socket.timeout: pass return True
def hdl_wid_150(params: WIDParams): """ Please send an ATT_Write_Request to Client Support Features handle = 'XXXX'O to enable Multiple Handle Value Notifications. Discover all characteristics if needed. """ MMI.reset() MMI.parse_description(params.description) hdl = MMI.args[0] # First read the existing value in Client Supported Features. btp.gattc_read(btp.pts_addr_type_get(), btp.pts_addr_get(), hdl) btp.gattc_read_rsp(False, True) client_support_features = int(btp.get_verify_values()[0]) # Set Multiple Handle Value Notifications bit in features. multi_hvn_bit = 4 value = client_support_features | multi_hvn_bit btp.gattc_write(btp.pts_addr_type_get(), btp.pts_addr_get(), hdl, f'{value:02x}') btp.gattc_write_rsp() return True
def hdl_wid_82(desc): btp.gattc_write(btp.pts_addr_type_get(None), btp.pts_addr_get(None), '0100', '12', 1) btp.gattc_write_rsp() return True