#!/usr/bin/env python3 # # Copyright (C) 2018 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); you may not # use this file except in compliance with the License. You may obtain a copy of # the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations under # the License. """This scrip tests various BLE apis for Fuchsia devices. """ import pprint import random import time from acts.base_test import BaseTestClass from acts.test_utils.fuchsia.bt_test_utils import le_scan_for_device_by_name class BleFuchsiaTest(BaseTestClass): default_timeout = 10 active_scan_callback_list = [] active_adv_callback_list = [] droid = None def setup_class(self): super().setup_class() if (len(self.fuchsia_devices) < 2): self.log.error("BleFuchsiaTest Init: Not enough fuchsia devices.") self.log.info("Running testbed setup with two fuchsia devices") self.fuchsia_adv = self.fuchsia_devices[0] self.fuchsia_scan = self.fuchsia_devices[1] def test_fuchsia_publish_service(self): service_id = 0 service_primary = True # Random uuid service_type = "0000180f-0000-1000-8000-00805fffffff" # Generate a random key for sl4f storage of proxy key service_proxy_key = "SProxy" + str(random.randint(0, 1000000)) res = self.fuchsia_adv.ble_lib.blePublishService( service_id, service_primary, service_type, service_proxy_key) self.log.info("Publish result: {}".format(res)) return True def test_fuchsia_scan_fuchsia_adv(self): # Initialize advertising on fuchsia dveice with name and interval fuchsia_name = "testADV1234" adv_data = {"name": fuchsia_name} interval = 1000 res = True # Start advertising self.fuchsia_adv.ble_lib.bleStartBleAdvertising(adv_data, interval) self.log.info("Fuchsia advertising name: {}".format(fuchsia_name)) # Start scan scan_result = le_scan_for_device_by_name( self.fuchsia_scan, self.log, fuchsia_name, self.default_timeout) if not scan_result: res = False # Stop advertising self.fuchsia_adv.ble_lib.bleStopBleAdvertising() return res def test_fuchsia_gatt_fuchsia_periph(self): # Create random service with id, primary, and uuid service_id = 3 service_primary = True # Random uuid service_type = "0000180f-0000-1000-8000-00805fffffff" # Generate a random key for sl4f storage of proxy key service_proxy_key = "SProxy" + str(random.randint(0, 1000000)) res = self.fuchsia_adv.ble_lib.blePublishService( service_id, service_primary, service_type, service_proxy_key) self.log.info("Publish result: {}".format(res)) # Initialize advertising on fuchsia dveice with name and interval fuchsia_name = "testADV1234" adv_data = {"name": fuchsia_name} interval = 1000 # Start advertising self.fuchsia_adv.ble_lib.bleStartBleAdvertising(adv_data, interval) self.log.info("Fuchsia advertising name: {}".format(fuchsia_name)) # Start Scan scan_result = le_scan_for_device_by_name( self.fuchsia_scan, self.log, fuchsia_name, self.default_timeout) if not scan_result: self.fuchsia_adv.ble_lib.bleStopBleAdvertising() return False name, did, connectable = scan_result["name"], scan_result[ "id"], scan_result["connectable"] connect = self.fuchsia_scan.gattc_lib.bleConnectToPeripheral(did) self.log.info("Connecting returned status: {}".format(connect)) services = self.fuchsia_scan.gattc_lib.listServices(did) self.log.info("Listing services returned: {}".format(services)) dconnect = self.fuchsia_scan.gattc_lib.bleDisconnectPeripheral(did) self.log.info("Disconnect status: {}".format(dconnect)) # Stop fuchsia advertising self.fuchsia_adv.ble_lib.bleStopBleAdvertising() return True