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android / platform / external / python / bumble / c2959da / . / bumble / gatt_server.py
blob: ea863047389a3b55fa37b0fe210e26edeb65b304 [file] [log] [blame]
# Copyright 2021-2022 Google LLC
#
# 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
#
# https://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.
# -----------------------------------------------------------------------------
# GATT - Generic Attribute Profile
# Server
#
# See Bluetooth spec @ Vol 3, Part G
#
# -----------------------------------------------------------------------------
# -----------------------------------------------------------------------------
# Imports
# -----------------------------------------------------------------------------
import asyncio
import logging
from collections import defaultdict
import struct
from typing import Tuple, Optional
from pyee import EventEmitter
from colors import color
from .core import UUID
from .att import (
ATT_ATTRIBUTE_NOT_FOUND_ERROR,
ATT_ATTRIBUTE_NOT_LONG_ERROR,
ATT_CID,
ATT_DEFAULT_MTU,
ATT_INVALID_ATTRIBUTE_LENGTH_ERROR,
ATT_INVALID_HANDLE_ERROR,
ATT_INVALID_OFFSET_ERROR,
ATT_REQUEST_NOT_SUPPORTED_ERROR,
ATT_REQUESTS,
ATT_UNLIKELY_ERROR_ERROR,
ATT_UNSUPPORTED_GROUP_TYPE_ERROR,
ATT_Error,
ATT_Error_Response,
ATT_Exchange_MTU_Response,
ATT_Find_By_Type_Value_Response,
ATT_Find_Information_Response,
ATT_Handle_Value_Indication,
ATT_Handle_Value_Notification,
ATT_Read_Blob_Response,
ATT_Read_By_Group_Type_Response,
ATT_Read_By_Type_Response,
ATT_Read_Response,
ATT_Write_Response,
Attribute,
)
from .gatt import (
GATT_CHARACTERISTIC_ATTRIBUTE_TYPE,
GATT_CLIENT_CHARACTERISTIC_CONFIGURATION_DESCRIPTOR,
GATT_INCLUDE_ATTRIBUTE_TYPE,
GATT_MAX_ATTRIBUTE_VALUE_SIZE,
GATT_PRIMARY_SERVICE_ATTRIBUTE_TYPE,
GATT_REQUEST_TIMEOUT,
GATT_SECONDARY_SERVICE_ATTRIBUTE_TYPE,
Characteristic,
CharacteristicDeclaration,
CharacteristicValue,
Descriptor,
Service,
)
# -----------------------------------------------------------------------------
# Logging
# -----------------------------------------------------------------------------
logger = logging.getLogger(__name__)
# -----------------------------------------------------------------------------
# Constants
# -----------------------------------------------------------------------------
GATT_SERVER_DEFAULT_MAX_MTU = 517
# -----------------------------------------------------------------------------
# GATT Server
# -----------------------------------------------------------------------------
class Server(EventEmitter):
def __init__(self, device):
super().__init__()
self.device = device
self.attributes = [] # Attributes, ordered by increasing handle values
self.attributes_by_handle = {} # Map for fast attribute access by handle
self.max_mtu = (
GATT_SERVER_DEFAULT_MAX_MTU # The max MTU we're willing to negotiate
)
self.subscribers = (
{}
) # Map of subscriber states by connection handle and attribute handle
self.indication_semaphores = defaultdict(lambda: asyncio.Semaphore(1))
self.pending_confirmations = defaultdict(lambda: None)
def __str__(self):
return "\n".join(map(str, self.attributes))
def send_gatt_pdu(self, connection_handle, pdu):
self.device.send_l2cap_pdu(connection_handle, ATT_CID, pdu)
def next_handle(self):
return 1 + len(self.attributes)
def get_advertising_service_data(self):
return {
attribute: data
for attribute in self.attributes
if isinstance(attribute, Service)
and (data := attribute.get_advertising_data())
}
def get_attribute(self, handle):
attribute = self.attributes_by_handle.get(handle)
if attribute:
return attribute
# Not in the cached map, perform a linear lookup
for attribute in self.attributes:
if attribute.handle == handle:
# Store in cached map
self.attributes_by_handle[handle] = attribute
return attribute
return None
def get_service_attribute(self, service_uuid: UUID) -> Optional[Service]:
return next(
(
attribute
for attribute in self.attributes
if attribute.type == GATT_PRIMARY_SERVICE_ATTRIBUTE_TYPE
and attribute.uuid == service_uuid
),
None,
)
def get_characteristic_attributes(
self, service_uuid: UUID, characteristic_uuid: UUID
) -> Optional[Tuple[CharacteristicDeclaration, Characteristic]]:
service_handle = self.get_service_attribute(service_uuid)
if not service_handle:
return None
return next(
(
(attribute, self.get_attribute(attribute.characteristic.handle))
for attribute in map(
self.get_attribute,
range(service_handle.handle, service_handle.end_group_handle + 1),
)
if attribute.type == GATT_CHARACTERISTIC_ATTRIBUTE_TYPE
and attribute.characteristic.uuid == characteristic_uuid
),
None,
)
def get_descriptor_attribute(
self, service_uuid: UUID, characteristic_uuid: UUID, descriptor_uuid: UUID
) -> Optional[Descriptor]:
characteristics = self.get_characteristic_attributes(
service_uuid, characteristic_uuid
)
if not characteristics:
return None
(_, characteristic_value) = characteristics
return next(
(
attribute
for attribute in map(
self.get_attribute,
range(
characteristic_value.handle + 1,
characteristic_value.end_group_handle + 1,
),
)
if attribute.type == descriptor_uuid
),
None,
)
def add_attribute(self, attribute):
# Assign a handle to this attribute
attribute.handle = self.next_handle()
attribute.end_group_handle = (
attribute.handle
) # TODO: keep track of descriptors in the group
# Add this attribute to the list
self.attributes.append(attribute)
def add_service(self, service: Service):
# Add the service attribute to the DB
self.add_attribute(service)
# TODO: add included services
# Add all characteristics
for characteristic in service.characteristics:
# Add a Characteristic Declaration
characteristic_declaration = CharacteristicDeclaration(
characteristic, self.next_handle() + 1
)
self.add_attribute(characteristic_declaration)
# Add the characteristic value
self.add_attribute(characteristic)
# Add the descriptors
for descriptor in characteristic.descriptors:
self.add_attribute(descriptor)
# If the characteristic supports subscriptions, add a CCCD descriptor
# unless there is one already
if (
characteristic.properties
& (Characteristic.NOTIFY | Characteristic.INDICATE)
and characteristic.get_descriptor(
GATT_CLIENT_CHARACTERISTIC_CONFIGURATION_DESCRIPTOR
)
is None
):
self.add_attribute(
# pylint: disable=line-too-long
Descriptor(
GATT_CLIENT_CHARACTERISTIC_CONFIGURATION_DESCRIPTOR,
Attribute.READABLE | Attribute.WRITEABLE,
CharacteristicValue(
read=lambda connection, characteristic=characteristic: self.read_cccd(
connection, characteristic
),
write=lambda connection, value, characteristic=characteristic: self.write_cccd(
connection, characteristic, value
),
),
)
)
# Update the service and characteristic group ends
characteristic_declaration.end_group_handle = self.attributes[-1].handle
characteristic.end_group_handle = self.attributes[-1].handle
# Update the service group end
service.end_group_handle = self.attributes[-1].handle
def add_services(self, services):
for service in services:
self.add_service(service)
def read_cccd(self, connection, characteristic):
if connection is None:
return bytes([0, 0])
subscribers = self.subscribers.get(connection.handle)
cccd = None
if subscribers:
cccd = subscribers.get(characteristic.handle)
return cccd or bytes([0, 0])
def write_cccd(self, connection, characteristic, value):
logger.debug(
f'Subscription update for connection=0x{connection.handle:04X}, '
f'handle=0x{characteristic.handle:04X}: {value.hex()}'
)
# Sanity check
if len(value) != 2:
logger.warning('CCCD value not 2 bytes long')
return
cccds = self.subscribers.setdefault(connection.handle, {})
cccds[characteristic.handle] = value
logger.debug(f'CCCDs: {cccds}')
notify_enabled = value[0] & 0x01 != 0
indicate_enabled = value[0] & 0x02 != 0
characteristic.emit(
'subscription', connection, notify_enabled, indicate_enabled
)
self.emit(
'characteristic_subscription',
connection,
characteristic,
notify_enabled,
indicate_enabled,
)
def send_response(self, connection, response):
logger.debug(
f'GATT Response from server: [0x{connection.handle:04X}] {response}'
)
self.send_gatt_pdu(connection.handle, response.to_bytes())
async def notify_subscriber(self, connection, attribute, value=None, force=False):
# Check if there's a subscriber
if not force:
subscribers = self.subscribers.get(connection.handle)
if not subscribers:
logger.debug('not notifying, no subscribers')
return
cccd = subscribers.get(attribute.handle)
if not cccd:
logger.debug(
f'not notifying, no subscribers for handle {attribute.handle:04X}'
)
return
if len(cccd) != 2 or (cccd[0] & 0x01 == 0):
logger.debug(f'not notifying, cccd={cccd.hex()}')
return
# Get or encode the value
value = (
attribute.read_value(connection)
if value is None
else attribute.encode_value(value)
)
# Truncate if needed
if len(value) > connection.att_mtu - 3:
value = value[: connection.att_mtu - 3]
# Notify
notification = ATT_Handle_Value_Notification(
attribute_handle=attribute.handle, attribute_value=value
)
logger.debug(
f'GATT Notify from server: [0x{connection.handle:04X}] {notification}'
)
self.send_gatt_pdu(connection.handle, bytes(notification))
async def indicate_subscriber(self, connection, attribute, value=None, force=False):
# Check if there's a subscriber
if not force:
subscribers = self.subscribers.get(connection.handle)
if not subscribers:
logger.debug('not indicating, no subscribers')
return
cccd = subscribers.get(attribute.handle)
if not cccd:
logger.debug(
f'not indicating, no subscribers for handle {attribute.handle:04X}'
)
return
if len(cccd) != 2 or (cccd[0] & 0x02 == 0):
logger.debug(f'not indicating, cccd={cccd.hex()}')
return
# Get or encode the value
value = (
attribute.read_value(connection)
if value is None
else attribute.encode_value(value)
)
# Truncate if needed
if len(value) > connection.att_mtu - 3:
value = value[: connection.att_mtu - 3]
# Indicate
indication = ATT_Handle_Value_Indication(
attribute_handle=attribute.handle, attribute_value=value
)
logger.debug(
f'GATT Indicate from server: [0x{connection.handle:04X}] {indication}'
)
# Wait until we can send (only one pending indication at a time per connection)
async with self.indication_semaphores[connection.handle]:
assert self.pending_confirmations[connection.handle] is None
# Create a future value to hold the eventual response
self.pending_confirmations[
connection.handle
] = asyncio.get_running_loop().create_future()
try:
self.send_gatt_pdu(connection.handle, indication.to_bytes())
await asyncio.wait_for(
self.pending_confirmations[connection.handle], GATT_REQUEST_TIMEOUT
)
except asyncio.TimeoutError as error:
logger.warning(color('!!! GATT Indicate timeout', 'red'))
raise TimeoutError(f'GATT timeout for {indication.name}') from error
finally:
self.pending_confirmations[connection.handle] = None
async def notify_or_indicate_subscribers(
self, indicate, attribute, value=None, force=False
):
# Get all the connections for which there's at least one subscription
connections = [
connection
for connection in [
self.device.lookup_connection(connection_handle)
for (connection_handle, subscribers) in self.subscribers.items()
if force or subscribers.get(attribute.handle)
]
if connection is not None
]
# Indicate or notify for each connection
if connections:
coroutine = self.indicate_subscriber if indicate else self.notify_subscriber
await asyncio.wait(
[
asyncio.create_task(coroutine(connection, attribute, value, force))
for connection in connections
]
)
async def notify_subscribers(self, attribute, value=None, force=False):
return await self.notify_or_indicate_subscribers(False, attribute, value, force)
async def indicate_subscribers(self, attribute, value=None, force=False):
return await self.notify_or_indicate_subscribers(True, attribute, value, force)
def on_disconnection(self, connection):
if connection.handle in self.subscribers:
del self.subscribers[connection.handle]
if connection.handle in self.indication_semaphores:
del self.indication_semaphores[connection.handle]
if connection.handle in self.pending_confirmations:
del self.pending_confirmations[connection.handle]
def on_gatt_pdu(self, connection, att_pdu):
logger.debug(f'GATT Request to server: [0x{connection.handle:04X}] {att_pdu}')
handler_name = f'on_{att_pdu.name.lower()}'
handler = getattr(self, handler_name, None)
if handler is not None:
try:
handler(connection, att_pdu)
except ATT_Error as error:
logger.debug(f'normal exception returned by handler: {error}')
response = ATT_Error_Response(
request_opcode_in_error=att_pdu.op_code,
attribute_handle_in_error=error.att_handle,
error_code=error.error_code,
)
self.send_response(connection, response)
except Exception as error:
logger.warning(f'{color("!!! Exception in handler:", "red")} {error}')
response = ATT_Error_Response(
request_opcode_in_error=att_pdu.op_code,
attribute_handle_in_error=0x0000,
error_code=ATT_UNLIKELY_ERROR_ERROR,
)
self.send_response(connection, response)
raise error
else:
# No specific handler registered
if att_pdu.op_code in ATT_REQUESTS:
# Invoke the generic handler
self.on_att_request(connection, att_pdu)
else:
# Just ignore
logger.warning(
color(
f'--- Ignoring GATT Request from [0x{connection.handle:04X}]: ',
'red',
)
+ str(att_pdu)
)
#######################################################
# ATT handlers
#######################################################
def on_att_request(self, connection, pdu):
'''
Handler for requests without a more specific handler
'''
logger.warning(
color(
f'--- Unsupported ATT Request from [0x{connection.handle:04X}]: ', 'red'
)
+ str(pdu)
)
response = ATT_Error_Response(
request_opcode_in_error=pdu.op_code,
attribute_handle_in_error=0x0000,
error_code=ATT_REQUEST_NOT_SUPPORTED_ERROR,
)
self.send_response(connection, response)
def on_att_exchange_mtu_request(self, connection, request):
'''
See Bluetooth spec Vol 3, Part F - 3.4.2.1 Exchange MTU Request
'''
self.send_response(
connection, ATT_Exchange_MTU_Response(server_rx_mtu=self.max_mtu)
)
# Compute the final MTU
if request.client_rx_mtu >= ATT_DEFAULT_MTU:
mtu = min(self.max_mtu, request.client_rx_mtu)
# Notify the device
self.device.on_connection_att_mtu_update(connection.handle, mtu)
else:
logger.warning('invalid client_rx_mtu received, MTU not changed')
def on_att_find_information_request(self, connection, request):
'''
See Bluetooth spec Vol 3, Part F - 3.4.3.1 Find Information Request
'''
# Check the request parameters
if (
request.starting_handle == 0
or request.starting_handle > request.ending_handle
):
self.send_response(
connection,
ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.starting_handle,
error_code=ATT_INVALID_HANDLE_ERROR,
),
)
return
# Build list of returned attributes
pdu_space_available = connection.att_mtu - 2
attributes = []
uuid_size = 0
for attribute in (
attribute
for attribute in self.attributes
if attribute.handle >= request.starting_handle
and attribute.handle <= request.ending_handle
):
# TODO: check permissions
this_uuid_size = len(attribute.type.to_pdu_bytes())
if attributes:
# Check if this attribute has the same type size as the previous one
if this_uuid_size != uuid_size:
break
# Check if there's enough space for one more entry
uuid_size = this_uuid_size
if pdu_space_available < 2 + uuid_size:
break
# Add the attribute to the list
attributes.append(attribute)
pdu_space_available -= 2 + uuid_size
# Return the list of attributes
if attributes:
information_data_list = [
struct.pack('<H', attribute.handle) + attribute.type.to_pdu_bytes()
for attribute in attributes
]
response = ATT_Find_Information_Response(
format=1 if len(attributes[0].type.to_pdu_bytes()) == 2 else 2,
information_data=b''.join(information_data_list),
)
else:
response = ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.starting_handle,
error_code=ATT_ATTRIBUTE_NOT_FOUND_ERROR,
)
self.send_response(connection, response)
def on_att_find_by_type_value_request(self, connection, request):
'''
See Bluetooth spec Vol 3, Part F - 3.4.3.3 Find By Type Value Request
'''
# Build list of returned attributes
pdu_space_available = connection.att_mtu - 2
attributes = []
for attribute in (
attribute
for attribute in self.attributes
if attribute.handle >= request.starting_handle
and attribute.handle <= request.ending_handle
and attribute.type == request.attribute_type
and attribute.read_value(connection) == request.attribute_value
and pdu_space_available >= 4
):
# TODO: check permissions
# Add the attribute to the list
attributes.append(attribute)
pdu_space_available -= 4
# Return the list of attributes
if attributes:
handles_information_list = []
for attribute in attributes:
if attribute.type in (
GATT_PRIMARY_SERVICE_ATTRIBUTE_TYPE,
GATT_SECONDARY_SERVICE_ATTRIBUTE_TYPE,
GATT_CHARACTERISTIC_ATTRIBUTE_TYPE,
):
# Part of a group
group_end_handle = attribute.end_group_handle
else:
# Not part of a group
group_end_handle = attribute.handle
handles_information_list.append(
struct.pack('<HH', attribute.handle, group_end_handle)
)
response = ATT_Find_By_Type_Value_Response(
handles_information_list=b''.join(handles_information_list)
)
else:
response = ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.starting_handle,
error_code=ATT_ATTRIBUTE_NOT_FOUND_ERROR,
)
self.send_response(connection, response)
def on_att_read_by_type_request(self, connection, request):
'''
See Bluetooth spec Vol 3, Part F - 3.4.4.1 Read By Type Request
'''
pdu_space_available = connection.att_mtu - 2
attributes = []
for attribute in (
attribute
for attribute in self.attributes
if attribute.type == request.attribute_type
and attribute.handle >= request.starting_handle
and attribute.handle <= request.ending_handle
and pdu_space_available
):
# TODO: check permissions
# Check the attribute value size
attribute_value = attribute.read_value(connection)
max_attribute_size = min(connection.att_mtu - 4, 253)
if len(attribute_value) > max_attribute_size:
# We need to truncate
attribute_value = attribute_value[:max_attribute_size]
if attributes and len(attributes[0][1]) != len(attribute_value):
# Not the same size as previous attribute, stop here
break
# Check if there is enough space
entry_size = 2 + len(attribute_value)
if pdu_space_available < entry_size:
break
# Add the attribute to the list
attributes.append((attribute.handle, attribute_value))
pdu_space_available -= entry_size
if attributes:
attribute_data_list = [
struct.pack('<H', handle) + value for handle, value in attributes
]
response = ATT_Read_By_Type_Response(
length=entry_size, attribute_data_list=b''.join(attribute_data_list)
)
else:
response = ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.starting_handle,
error_code=ATT_ATTRIBUTE_NOT_FOUND_ERROR,
)
self.send_response(connection, response)
def on_att_read_request(self, connection, request):
'''
See Bluetooth spec Vol 3, Part F - 3.4.4.3 Read Request
'''
if attribute := self.get_attribute(request.attribute_handle):
# TODO: check permissions
value = attribute.read_value(connection)
value_size = min(connection.att_mtu - 1, len(value))
response = ATT_Read_Response(attribute_value=value[:value_size])
else:
response = ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.attribute_handle,
error_code=ATT_INVALID_HANDLE_ERROR,
)
self.send_response(connection, response)
def on_att_read_blob_request(self, connection, request):
'''
See Bluetooth spec Vol 3, Part F - 3.4.4.5 Read Blob Request
'''
if attribute := self.get_attribute(request.attribute_handle):
# TODO: check permissions
value = attribute.read_value(connection)
if request.value_offset > len(value):
response = ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.attribute_handle,
error_code=ATT_INVALID_OFFSET_ERROR,
)
elif len(value) <= connection.att_mtu - 1:
response = ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.attribute_handle,
error_code=ATT_ATTRIBUTE_NOT_LONG_ERROR,
)
else:
part_size = min(
connection.att_mtu - 1, len(value) - request.value_offset
)
response = ATT_Read_Blob_Response(
part_attribute_value=value[
request.value_offset : request.value_offset + part_size
]
)
else:
response = ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.attribute_handle,
error_code=ATT_INVALID_HANDLE_ERROR,
)
self.send_response(connection, response)
def on_att_read_by_group_type_request(self, connection, request):
'''
See Bluetooth spec Vol 3, Part F - 3.4.4.9 Read by Group Type Request
'''
if request.attribute_group_type not in (
GATT_PRIMARY_SERVICE_ATTRIBUTE_TYPE,
GATT_SECONDARY_SERVICE_ATTRIBUTE_TYPE,
GATT_INCLUDE_ATTRIBUTE_TYPE,
):
response = ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.starting_handle,
error_code=ATT_UNSUPPORTED_GROUP_TYPE_ERROR,
)
self.send_response(connection, response)
return
pdu_space_available = connection.att_mtu - 2
attributes = []
for attribute in (
attribute
for attribute in self.attributes
if attribute.type == request.attribute_group_type
and attribute.handle >= request.starting_handle
and attribute.handle <= request.ending_handle
and pdu_space_available
):
# Check the attribute value size
attribute_value = attribute.read_value(connection)
max_attribute_size = min(connection.att_mtu - 6, 251)
if len(attribute_value) > max_attribute_size:
# We need to truncate
attribute_value = attribute_value[:max_attribute_size]
if attributes and len(attributes[0][2]) != len(attribute_value):
# Not the same size as previous attributes, stop here
break
# Check if there is enough space
entry_size = 4 + len(attribute_value)
if pdu_space_available < entry_size:
break
# Add the attribute to the list
attributes.append(
(attribute.handle, attribute.end_group_handle, attribute_value)
)
pdu_space_available -= entry_size
if attributes:
attribute_data_list = [
struct.pack('<HH', handle, end_group_handle) + value
for handle, end_group_handle, value in attributes
]
response = ATT_Read_By_Group_Type_Response(
length=len(attribute_data_list[0]),
attribute_data_list=b''.join(attribute_data_list),
)
else:
response = ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.starting_handle,
error_code=ATT_ATTRIBUTE_NOT_FOUND_ERROR,
)
self.send_response(connection, response)
def on_att_write_request(self, connection, request):
'''
See Bluetooth spec Vol 3, Part F - 3.4.5.1 Write Request
'''
# Check that the attribute exists
attribute = self.get_attribute(request.attribute_handle)
if attribute is None:
self.send_response(
connection,
ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.attribute_handle,
error_code=ATT_INVALID_HANDLE_ERROR,
),
)
return
# TODO: check permissions
# Check the request parameters
if len(request.attribute_value) > GATT_MAX_ATTRIBUTE_VALUE_SIZE:
self.send_response(
connection,
ATT_Error_Response(
request_opcode_in_error=request.op_code,
attribute_handle_in_error=request.attribute_handle,
error_code=ATT_INVALID_ATTRIBUTE_LENGTH_ERROR,
),
)
return
# Accept the value
attribute.write_value(connection, request.attribute_value)
# Done
self.send_response(connection, ATT_Write_Response())
def on_att_write_command(self, connection, request):
'''
See Bluetooth spec Vol 3, Part F - 3.4.5.3 Write Command
'''
# Check that the attribute exists
attribute = self.get_attribute(request.attribute_handle)
if attribute is None:
return
# TODO: check permissions
# Check the request parameters
if len(request.attribute_value) > GATT_MAX_ATTRIBUTE_VALUE_SIZE:
return
# Accept the value
try:
attribute.write_value(connection, request.attribute_value)
except Exception as error:
logger.warning(f'!!! ignoring exception: {error}')
def on_att_handle_value_confirmation(self, connection, _confirmation):
'''
See Bluetooth spec Vol 3, Part F - 3.4.7.3 Handle Value Confirmation
'''
if self.pending_confirmations[connection.handle] is None:
# Not expected!
logger.warning(
'!!! unexpected confirmation, there is no pending indication'
)
return
self.pending_confirmations[connection.handle].set_result(None)