esp-idf/tools/ble/lib_ble_client.py
2021-06-01 12:27:04 +05:30

713 lines
28 KiB
Python

#!/usr/bin/env python
#
# Copyright 2019 Espressif Systems (Shanghai) PTE LTD
#
# 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.
#
# DBus-Bluez BLE library
from __future__ import print_function
import sys
import time
try:
import dbus
import dbus.mainloop.glib
from gi.repository import GLib
except ImportError as e:
if 'linux' not in sys.platform:
raise e
print(e)
print('Install packages `libgirepository1.0-dev gir1.2-gtk-3.0 libcairo2-dev libdbus-1-dev libdbus-glib-1-dev` for resolving the issue')
print('Run `pip install -r $IDF_PATH/tools/ble/requirements.txt` for resolving the issue')
raise
from . import lib_gap, lib_gatt
BLUEZ_SERVICE_NAME = 'org.bluez'
DBUS_OM_IFACE = 'org.freedesktop.DBus.ObjectManager'
DBUS_PROP_IFACE = 'org.freedesktop.DBus.Properties'
ADAPTER_IFACE = 'org.bluez.Adapter1'
DEVICE_IFACE = 'org.bluez.Device1'
GATT_MANAGER_IFACE = 'org.bluez.GattManager1'
LE_ADVERTISING_MANAGER_IFACE = 'org.bluez.LEAdvertisingManager1'
GATT_SERVICE_IFACE = 'org.bluez.GattService1'
GATT_CHRC_IFACE = 'org.bluez.GattCharacteristic1'
class DBusException(dbus.exceptions.DBusException):
pass
class Characteristic:
def __init__(self):
self.iface = None
self.path = None
self.props = None
class Service:
def __init__(self):
self.iface = None
self.path = None
self.props = None
self.chars = []
class Device:
def __init__(self):
self.iface = None
self.path = None
self.props = None
self.name = None
self.addr = None
self.services = []
class Adapter:
def __init__(self):
self.iface = None
self.path = None
self.props = None
class BLE_Bluez_Client:
def __init__(self, iface=None):
self.bus = None
self.hci_iface = iface
self.adapter = Adapter()
self.device = None
self.gatt_app = None
self.gatt_mgr = None
self.mainloop = None
self.loop_cnt = 0
try:
dbus.mainloop.glib.DBusGMainLoop(set_as_default=True)
self.bus = dbus.SystemBus()
except dbus.exceptions.DBusException as dbus_err:
raise DBusException('Failed to initialise client: {}'.format(dbus_err))
except Exception as err:
raise Exception('Failed to initialise client: {}'.format(err))
def __del__(self):
try:
# Cleanup
self.disconnect()
print('Test Exit')
except Exception as e:
print(e)
def set_adapter(self):
'''
Discover Bluetooth Adapter
Power On Bluetooth Adapter
'''
try:
print('discovering adapter')
dbus_obj_mgr = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, '/'), DBUS_OM_IFACE)
dbus_objs = dbus_obj_mgr.GetManagedObjects()
for path, interfaces in dbus_objs.items():
adapter = interfaces.get(ADAPTER_IFACE)
if adapter is not None and path.endswith(self.hci_iface):
self.adapter.iface = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, path), ADAPTER_IFACE)
self.adapter.props = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, path), DBUS_PROP_IFACE)
self.adapter.path = path
break
if self.adapter.iface is None:
print('bluetooth adapter not found')
return False
print('bluetooth adapter discovered')
print('checking if bluetooth adapter is already powered on')
# Check if adapter is already powered on
powered = self.adapter.props.Get(ADAPTER_IFACE, 'Powered')
if powered == 1:
print('adapter already powered on')
return True
# Power On Adapter
print('powering on adapter')
self.adapter.props.Set(ADAPTER_IFACE, 'Powered', dbus.Boolean(1))
# Check if adapter is powered on
print('checking if adapter is powered on')
for cnt in range(10, 0, -1):
time.sleep(5)
powered_on = self.adapter.props.Get(ADAPTER_IFACE, 'Powered')
if powered_on == 1:
# Set adapter props again with powered on value
self.adapter.props = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, self.adapter.path), DBUS_PROP_IFACE)
print('bluetooth adapter powered on')
return True
print('number of retries left({})'.format(cnt - 1))
# Adapter not powered on
print('bluetooth adapter not powered on')
return False
except Exception as err:
raise Exception('Failed to set adapter: {}'.format(err))
def connect(self, devname=None, devaddr=None):
'''
Start Discovery and Connect to the device
'''
try:
device_found = None
start_discovery = False
self.device = Device()
discovery_val = self.adapter.props.Get(ADAPTER_IFACE, 'Discovering')
# Start Discovery
if discovery_val == 0:
print('starting discovery')
self.adapter.iface.StartDiscovery()
start_discovery = True
for cnt in range(10, 0, -1):
time.sleep(5)
discovery_val = self.adapter.props.Get(ADAPTER_IFACE, 'Discovering')
if discovery_val == 1:
print('start discovery successful')
break
print('number of retries left ({})'.format(cnt - 1))
if discovery_val == 0:
print('start discovery failed')
return False
# Get device
for cnt in range(10, 0, -1):
# Wait for device to be discovered
time.sleep(5)
device_found = self.get_device(
devname=devname,
devaddr=devaddr)
if device_found:
break
# Retry
print('number of retries left ({})'.format(cnt - 1))
if not device_found:
print('expected device {} [ {} ] not found'.format(devname, devaddr))
return False
# Connect to expected device found
print('connecting to device {} [ {} ] '.format(self.device.name, self.device.addr))
self.device.iface.Connect(dbus_interface=DEVICE_IFACE)
for cnt in range(10, 0, -1):
time.sleep(5)
connected = self.device.props.Get(DEVICE_IFACE, 'Connected')
if connected == 1:
# Set device props again with connected on value
self.device.props = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, self.device.path), DBUS_PROP_IFACE)
print('connected to device with iface {}'.format(self.device.path))
return True
print('number of retries left({})'.format(cnt - 1))
# Device not connected
print('connection to device failed')
return False
except Exception as err:
raise Exception('Connect to device failed : {}'.format(err))
finally:
try:
if start_discovery:
print('stopping discovery')
self.adapter.iface.StopDiscovery()
for cnt in range(10, 0, -1):
time.sleep(5)
discovery_val = self.adapter.props.Get(ADAPTER_IFACE, 'Discovering')
if discovery_val == 0:
print('stop discovery successful')
break
print('number of retries left ({})'.format(cnt - 1))
if discovery_val == 1:
print('stop discovery failed')
except dbus.exceptions.DBusException as dbus_err:
print('Warning: Failure during cleanup for device connection : {}'.format(dbus_err))
def get_device(self, devname=None, devaddr=None):
'''
Get device based on device name
and device address and connect to device
'''
dev_path = None
expected_device_addr = devaddr.lower()
expected_device_name = devname.lower()
print('checking if expected device {} [ {} ] is present'.format(devname, devaddr))
dbus_obj_mgr = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, '/'), DBUS_OM_IFACE)
dbus_objs = dbus_obj_mgr.GetManagedObjects()
# Check if expected device is present
for path, interfaces in dbus_objs.items():
if DEVICE_IFACE not in interfaces.keys():
continue
# Check expected device address is received device address
received_device_addr_path = (path.replace('_', ':')).lower()
if expected_device_addr not in received_device_addr_path:
continue
device_props = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, path), DBUS_PROP_IFACE)
received_device_name = device_props.Get(DEVICE_IFACE, 'Name').lower()
# Check expected device name is received device name
if expected_device_name == received_device_name:
# Set device iface path
dev_path = path
break
if not dev_path:
print('\nBLE device not found')
return False
print('device {} [ {} ] found'.format(devname, devaddr))
# Set device details
self.device.iface = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, dev_path), DEVICE_IFACE)
self.device.props = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, dev_path), DBUS_PROP_IFACE)
self.device.path = dev_path
self.device.name = devname
self.device.addr = devaddr
return True
def get_services(self):
'''
Retrieve Services found in the device connected
'''
try:
# Get current dbus objects
dbus_obj_mgr = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, '/'), DBUS_OM_IFACE)
dbus_objs = dbus_obj_mgr.GetManagedObjects()
# Get services
for path, interfaces in dbus_objs.items():
if GATT_SERVICE_IFACE in interfaces.keys():
if not path.startswith(self.device.path):
continue
received_service = self.bus.get_object(BLUEZ_SERVICE_NAME, path)
# Retrieve all services on device iface path
# and set each service received
service = Service()
service.path = path
service.iface = dbus.Interface(received_service, GATT_SERVICE_IFACE)
service.props = dbus.Interface(received_service, DBUS_PROP_IFACE)
self.device.services.append(service)
if not self.device.services:
print('no services found for device: {}'.format(self.device.path))
return False
return True
except Exception as err:
raise Exception('Failed to get services: {}'.format(err))
def get_chars(self):
'''
Get characteristics of the services set for the device connected
'''
try:
if not self.device.services:
print('No services set for device: {}'.format(self.device.path))
return
# Read chars for all the services received for device
for service in self.device.services:
char_found = False
dbus_obj_mgr = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, '/'), DBUS_OM_IFACE)
dbus_objs = dbus_obj_mgr.GetManagedObjects()
for path, interfaces in dbus_objs.items():
if GATT_CHRC_IFACE in interfaces.keys():
if not path.startswith(self.device.path):
continue
if not path.startswith(service.path):
continue
# Set characteristics
received_char = self.bus.get_object(BLUEZ_SERVICE_NAME, path)
char = Characteristic()
char.path = path
char.iface = dbus.Interface(received_char, GATT_CHRC_IFACE)
char.props = dbus.Interface(received_char, DBUS_PROP_IFACE)
service.chars.append(char)
char_found = True
if not char_found:
print('Characteristic not found for service: {}'.format(service.iface))
except Exception as err:
raise Exception('Failed to get characteristics : {}'.format(err))
def read_chars(self):
'''
Read value of characteristics
'''
try:
if not self.device.services:
print('No services set for device: {}'.format(self.device.path))
return
# Read chars for all services of device
for service in self.device.services:
# Read properties of characteristic
for char in service.chars:
# Print path
print('Characteristic: {}'.format(char.path))
# Print uuid
uuid = char.props.Get(GATT_CHRC_IFACE, 'UUID')
print('UUID: {}'.format(uuid))
# Print flags
flags = [flag for flag in char.props.Get(GATT_CHRC_IFACE, 'Flags')]
print('Flags: {}'.format(flags))
# Read value if `read` flag is present
if 'read' in flags:
value = char.iface.ReadValue({}, dbus_interface=GATT_CHRC_IFACE)
print('Value: {}'.format(value))
except Exception as err:
raise Exception('Failed to read characteristics : {}'.format(err))
def write_chars(self, new_value):
'''
Write to characteristics
'''
try:
if not self.device.services:
print('No services set for device: {}'.format(self.device.path))
return False
print('writing data to characteristics with read and write permission')
# Read chars of all services of device
for service in self.device.services:
if not service.chars:
print('No chars found for service: {}'.format(service.path))
continue
for char in service.chars:
flags = [flag.lower() for flag in char.props.Get(GATT_CHRC_IFACE, 'Flags')]
if not ('read' in flags and 'write' in flags):
continue
# Write new value to characteristic
curr_value = char.iface.ReadValue({}, dbus_interface=GATT_CHRC_IFACE)
print('current value: {}'.format(curr_value))
print('writing {} to characteristic {}'.format(new_value, char.path))
char.iface.WriteValue(new_value, {}, dbus_interface=GATT_CHRC_IFACE)
time.sleep(5)
updated_value = char.iface.ReadValue({}, dbus_interface=GATT_CHRC_IFACE)
print('updated value: {}'.format(updated_value))
if not (ord(new_value) == int(updated_value[0])):
print('write operation to {} failed'.format(char.path))
return False
print('write operation to {} successful'.format(char.path))
return True
except Exception as err:
raise Exception('Failed to write to characteristics: {}'.format(err))
def get_char_if_exists(self, char_uuid):
'''
Get char if exists for given uuid
'''
try:
for service in self.device.services:
for char in service.chars:
curr_uuid = char.props.Get(GATT_CHRC_IFACE, 'UUID')
if char_uuid.lower() in curr_uuid.lower():
return char
print('char {} not found'.format(char_uuid))
return False
except Exception as err:
raise Exception('Failed to get char based on uuid {} - {}'.format(char_uuid, err))
def get_service_if_exists(self, service_uuid):
try:
for service in self.device.services:
uuid = service.props.Get(GATT_SERVICE_IFACE, 'UUID')
if service_uuid.lower() in uuid.lower():
return service
print('service {} not found'.format(service_uuid))
return False
except Exception as err:
raise Exception('Failed to get service based on uuid {} - {}'.format(service_uuid, err))
def start_notify(self, char):
try:
notify_started = 0
notifying = char.props.Get(GATT_CHRC_IFACE, 'Notifying')
if notifying == 0:
# Start Notify
char.iface.StartNotify()
notify_started = 1
# Check notify started
for _ in range(10, 0, -1):
notifying = char.props.Get(GATT_CHRC_IFACE, 'Notifying')
if notifying == 1:
print('subscribe to notifications: on')
break
if notifying == 0:
print('Failed to start notifications')
return False
# Get updated value
for _ in range(10, 0, -1):
time.sleep(1)
char_value = char.props.Get(GATT_CHRC_IFACE, 'Value')
print(char_value)
return None
except Exception as err:
raise Exception('Failed to perform notification operation: {}'.format(err))
finally:
try:
if notify_started == 1:
# Stop notify
char.iface.StopNotify()
for _ in range(10, 0, -1):
notifying = char.props.Get(GATT_CHRC_IFACE, 'Notifying')
if notifying == 0:
print('subscribe to notifications: off')
break
if notifying == 1:
print('Failed to stop notifications')
except dbus.exceptions.DBusException as dbus_err:
print('Warning: Failure during cleanup for start notify : {}'.format(dbus_err))
def _create_mainloop(self):
'''
Create GLibMainLoop
'''
if not self.mainloop:
self.mainloop = GLib.MainLoop()
def register_gatt_app(self):
'''
Create Gatt Application
Register Gatt Application
'''
try:
# Create mainloop, if does not exist
self._create_mainloop()
# Create Gatt Application
self.gatt_app = lib_gatt.AlertNotificationApp(self.bus, self.adapter.path)
print('GATT Application created')
self.gatt_mgr = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, self.adapter.path), GATT_MANAGER_IFACE)
# Register Gatt Application
self.gatt_mgr.RegisterApplication(
self.gatt_app, {},
reply_handler=self.gatt_app_success_handler,
error_handler=self.gatt_app_error_handler)
self.mainloop.run()
except dbus.exceptions.DBusException as dbus_err:
raise DBusException('Failed to create GATT Application : {}'.format(dbus_err))
except Exception as err:
raise Exception('Failed to register Gatt Application: {}'.format(err))
def gatt_app_success_handler(self):
print('GATT Application successfully registered')
self.mainloop.quit()
def gatt_app_error_handler(self):
raise DBusException('Failed to register GATT Application')
def check_le_iface(self):
'''
Check if LEAdvertisingManager1 interface exists
'''
try:
dbus_obj_mgr = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, '/'), DBUS_OM_IFACE)
dbus_objs = dbus_obj_mgr.GetManagedObjects()
for path, iface in dbus_objs.items():
if LE_ADVERTISING_MANAGER_IFACE in iface:
le_adv_iface_path = path
break
# Check LEAdvertisingManager1 interface is found
assert le_adv_iface_path, '\n Cannot start advertising. LEAdvertisingManager1 Interface not found'
return le_adv_iface_path
except AssertionError:
raise
except Exception as err:
raise Exception('Failed to find LEAdvertisingManager1 interface: {}'.format(err))
def register_adv(self, adv_host_name, adv_type, adv_uuid):
try:
# Gatt Application is expected to be registered
if not self.gatt_app:
print('No Gatt Application is registered')
return
adv_iface_index = 0
# Create mainloop, if does not exist
self._create_mainloop()
# Check LEAdvertisingManager1 interface exists
le_iface_path = self.check_le_iface()
# Create Advertisement data
leadv_obj = lib_gap.Advertisement(
self.bus,
adv_iface_index,
adv_type,
adv_uuid,
adv_host_name)
print('Advertisement registered')
# Register Advertisement
leadv_mgr_iface_obj = dbus.Interface(self.bus.get_object(BLUEZ_SERVICE_NAME, le_iface_path), LE_ADVERTISING_MANAGER_IFACE)
leadv_mgr_iface_obj.RegisterAdvertisement(
leadv_obj.get_path(), {},
reply_handler=self.adv_success_handler,
error_handler=self.adv_error_handler)
# Handler to read events received and exit from mainloop
GLib.timeout_add_seconds(3, self.check_adv)
self.mainloop.run()
except AssertionError:
raise
except dbus.exceptions.DBusException as dbus_err:
raise DBusException('Failure during registering advertisement : {}'.format(dbus_err))
except Exception as err:
raise Exception('Failure during registering advertisement : {}'.format(err))
else:
try:
try:
# Stop Notify if not already stopped
chars = self.gatt_app.service.get_characteristics()
for char in chars:
if char.uuid == lib_gatt.CHAR_UUIDS['UNREAD_ALERT_STATUS_UUID']:
if char.notifying:
char.StopNotify()
except dbus.exceptions.DBusException as dbus_err:
print('Warning: {}'.format(dbus_err))
try:
# Unregister Advertisement
leadv_mgr_iface_obj.UnregisterAdvertisement(leadv_obj.get_path())
except dbus.exceptions.DBusException as dbus_err:
print('Warning: {}'.format(dbus_err))
try:
# Remove advertising data
dbus.service.Object.remove_from_connection(leadv_obj)
except LookupError as err:
print('Warning: Failed to remove connection from dbus for advertisement object: {} - {}'.format(leadv_obj, err))
try:
# Unregister Gatt Application
self.gatt_mgr.UnregisterApplication(self.gatt_app.get_path())
except dbus.exceptions.DBusException as dbus_err:
print('Warning: {}'.format(dbus_err))
try:
# Remove Gatt Application
dbus.service.Object.remove_from_connection(self.gatt_app)
except LookupError as err:
print('Warning: Failed to remove connection from dbus for Gatt application object: {} - {}'.format(self.gatt_app, err))
except RuntimeError as err:
print('Warning: Failure during cleanup of Advertisement: {}'.format(err))
def adv_success_handler(self):
print('Registered Advertisement successfully')
def adv_error_handler(self, err):
raise DBusException('{}'.format(err))
def check_adv(self):
'''
Handler to check for events triggered (read/write/subscribe)
for advertisement registered for AlertNotificationApp
'''
try:
retry = 10
# Exit loop if read and write and subscribe is successful
if self.gatt_app.service.get_char_status(lib_gatt.CHAR_UUIDS['SUPPORT_NEW_ALERT_UUID'], 'read') and \
self.gatt_app.service.get_char_status(lib_gatt.CHAR_UUIDS['ALERT_NOTIF_UUID'], 'write') and \
self.gatt_app.service.get_char_status(lib_gatt.CHAR_UUIDS['UNREAD_ALERT_STATUS_UUID'], 'notify'):
if self.mainloop.is_running():
self.mainloop.quit()
# return False to stop polling
return False
self.loop_cnt += 1
print('Check read/write/subscribe events are received...Retry {}'.format(self.loop_cnt))
# Exit loop if max retry value is reached and
# all three events (read and write and subscribe) have not yet passed
# Retry total 10 times
if self.loop_cnt == (retry - 1):
if self.mainloop.is_running():
self.mainloop.quit()
# return False to stop polling
return False
# return True to continue polling
return True
except RuntimeError as err:
print('Failure in advertisment handler: {}'.format(err))
if self.mainloop.is_running():
self.mainloop.quit()
# return False to stop polling
return False
def disconnect(self):
'''
Disconnect device
'''
try:
if not self.device or not self.device.iface:
return
print('disconnecting device')
# Disconnect device
device_conn = self.device.props.Get(DEVICE_IFACE, 'Connected')
if device_conn == 1:
self.device.iface.Disconnect(dbus_interface=DEVICE_IFACE)
for cnt in range(10, 0, -1):
time.sleep(5)
device_conn = self.device.props.Get(DEVICE_IFACE, 'Connected')
if device_conn == 0:
print('device disconnected')
break
print('number of retries left ({})'.format(cnt - 1))
if device_conn == 1:
print('failed to disconnect device')
self.adapter.iface.RemoveDevice(self.device.iface)
self.device = None
except dbus.exceptions.DBusException as dbus_err:
print('Warning: {}'.format(dbus_err))
except Exception as err:
raise Exception('Failed to disconnect device: {}'.format(err))