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Quelle  BV_10_C.py

  Sprache: Python
 

# Copyright 2023 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.

import asyncio
import hci_packets as hci
import link_layer_packets as ll
import unittest
from hci_packets import ErrorCode
from py.bluetooth import Address
from py.controller import ControllerTest, generate_rpa


class Test(ControllerTest):

    LL_initiator_scanInterval_MIN = 0x2000
    LL_initiator_scanInterval_MAX = 0x2000
    LL_initiator_scanWindow_MIN = 0x200
    LL_initiator_scanWindow_MAX = 0x200
    LL_initiator_Adv_Channel_Map = 0x7
    LL_initiator_Channel_Map = 0x7

    # LL/CON/INI/BV-10-C [Network Privacy – Connection Establishment using
    # directed advertising and resolving list, Initiator]
    #
    # Verify that the IUT when initiating connection establishment with the
    # resolving list connects only to peer devices that are in the resolving
    # list. The Lower Tester uses directed advertising. The IUT may use a public
    # or static random device address
    async def test(self):
        # Test parameters.
        controller = self.controller
        peer_irk = bytes([2] * 16)
        random_irk = bytes([3] * 16)
        peer_address = Address('aa:bb:cc:dd:ee:ff')

        if not controller.le_features.ll_privacy:
            self.skipTest("LL privacy not supported")

        # 1. Configure the Lower Tester to use the first supported advertising channel and a valid resolvable
        # private address in the AdvA field, which is not known by the IUT (not in the resolving list).

        # 2. The Upper Tester adds the Lower Tester to the resolving list using a different IRK than in step 1.
        controller.send_cmd(
            hci.LeAddDeviceToResolvingList(
                peer_irk=peer_irk,
                local_irk=bytes([0] * 16),
                peer_identity_address=peer_address,
                peer_identity_address_type=hci.PeerAddressType.PUBLIC_DEVICE_OR_IDENTITY_ADDRESS))

        await self.expect_evt(
            hci.LeAddDeviceToResolvingListComplete(status=ErrorCode.SUCCESS,
                                                   num_hci_command_packets=1))

        controller.send_cmd(hci.LeSetResolvablePrivateAddressTimeout(rpa_timeout=0x10))

        await self.expect_evt(
            hci.LeSetResolvablePrivateAddressTimeoutComplete(status=ErrorCode.SUCCESS,
                                                             num_hci_command_packets=1))

        controller.send_cmd(
            hci.LeSetAddressResolutionEnable(address_resolution_enable=hci.Enable.ENABLED))

        await self.expect_evt(
            hci.LeSetAddressResolutionEnableComplete(status=ErrorCode.SUCCESS,
                                                     num_hci_command_packets=1))

        # 3. The Upper Tester enables the initiator state in the IUT.
        controller.send_cmd(
            hci.LeCreateConnection(
                le_scan_interval=Test.LL_initiator_scanInterval_MIN,
                le_scan_window=Test.LL_initiator_scanWindow_MIN,
                initiator_filter_policy=hci.InitiatorFilterPolicy.USE_PEER_ADDRESS,
                peer_address_type=hci.AddressType.PUBLIC_DEVICE_ADDRESS,
                peer_address=peer_address,
                own_address_type=hci.OwnAddressType.PUBLIC_DEVICE_ADDRESS,
                connection_interval_min=0x200,
                connection_interval_max=0x200,
                max_latency=0x6,
                supervision_timeout=0xc80,
                min_ce_length=0,
                max_ce_length=0))

        await self.expect_evt(
            hci.LeCreateConnectionStatus(status=ErrorCode.SUCCESS, num_hci_command_packets=1))

        # 4. Lower Tester sends ADV_DIRECT_IND packets directed to the IUT, each advertising event on
        # the selected advertising channel, using the selected advertising interval.
        controller.send_ll(ll.LeLegacyAdvertisingPdu(
            source_address=generate_rpa(random_irk),
            destination_address=controller.address,
            target_address_type=ll.AddressType.PUBLIC,
            advertising_address_type=ll.AddressType.RANDOM,
            advertising_type=ll.LegacyAdvertisingType.ADV_DIRECT_IND,
            advertising_data=[123]),
                           rssi=-16)

        # 5. The IUT resolves and compares the address in the AdvA field by checking against its resolving
        # list and does not find a match.
        try:
            await self.expect_ll(ll.LeConnect, timeout=1.0)
            self.assertTrue(False)
        except asyncio.exceptions.TimeoutError:
            pass

        # 6. Repeat the advertising steps 4–5 for at least 20 advertising intervals.

        # 7. The Lower Tester stops advertising.

        # 8. The Lower Tester begins advertising again using the correct resolvable address, which matches
        # the one stored in the IUT’s resolving list.
        peer_resolvable_address = generate_rpa(peer_irk)
        controller.send_ll(ll.LeLegacyAdvertisingPdu(
            source_address=peer_resolvable_address,
            destination_address=controller.address,
            target_address_type=ll.AddressType.PUBLIC,
            advertising_address_type=ll.AddressType.RANDOM,
            advertising_type=ll.LegacyAdvertisingType.ADV_DIRECT_IND,
            advertising_data=[123]),
                           rssi=-16)

        # 9. The Lower Tester receives a CONNECT_IND packet T_IFS after any of the ADV_DIRECT_IND
        # packets. The AdvA field is the same as the one received in the ADV_DIRECT_IND.
        await self.expect_ll(
            ll.LeConnect(source_address=controller.address,
                         destination_address=peer_resolvable_address,
                         initiating_address_type=ll.AddressType.PUBLIC,
                         advertising_address_type=ll.AddressType.RANDOM,
                         conn_interval=0x200,
                         conn_peripheral_latency=0x6,
                         conn_supervision_timeout=0xc80))

        controller.send_ll(
            ll.LeConnectComplete(source_address=peer_resolvable_address,
                                 destination_address=controller.address,
                                 initiating_address_type=ll.AddressType.PUBLIC,
                                 advertising_address_type=ll.AddressType.RANDOM,
                                 conn_interval=0x200,
                                 conn_peripheral_latency=0x6,
                                 conn_supervision_timeout=0xc80))

        # 10. Upper Tester receives an HCI_LE_Enhanced_Connection_Complete event from the IUT
        # including the Lower Tester address and connection interval selected.
        connect_complete = await self.expect_evt(
            hci.LeEnhancedConnectionCompleteV1(
                status=ErrorCode.SUCCESS,
                connection_handle=self.Any,
                role=hci.Role.CENTRAL,
                peer_address_type=hci.AddressType.PUBLIC_DEVICE_ADDRESS,
                peer_address=peer_address,
                peer_resolvable_private_address=peer_resolvable_address,
                connection_interval=0x200,
                peripheral_latency=0x6,
                supervision_timeout=0xc80,
                central_clock_accuracy=hci.ClockAccuracy.PPM_500))

        # 11. After the CONNECT_IND has been received, the Lower Tester receives the first correctly
        # formatted LL Data Channel PDU on the data channel.

        # 12. The Lower Tester sends a correctly formatted LL Data Channel PDU to the IUT on the same data
        # channel using the acknowledgement scheme.

        # 13. The Lower Tester receives correctly formatted LL Data Channel PDUs on subsequent data
        # channels at connection intervals, calculated for the connection interval used.

        # 14. Repeat a number of events (at least 100 events) to verify that the connection is maintained.

        # 15. The Upper Tester terminates the connection.
        controller.send_ll(
            ll.Disconnect(source_address=peer_resolvable_address,
                          destination_address=controller.address,
                          reason=hci.ErrorCode.REMOTE_USER_TERMINATED_CONNECTION))

        await self.expect_evt(
            hci.DisconnectionComplete(status=hci.ErrorCode.SUCCESS,
                                      connection_handle=connect_complete.connection_handle,
                                      reason=hci.ErrorCode.REMOTE_USER_TERMINATED_CONNECTION))

Messung V0.5 in Prozent
C=71 H=86 G=78

¤ Dauer der Verarbeitung: 0.12 Sekunden  (vorverarbeitet am  2026-06-27) ¤

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