# 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 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
class Test(ControllerTest):
# Test parameters.
LL_advertiser_advInterval_MIN =
0x200
LL_advertiser_advInterval_MAX =
0x200
LL_advertiser_Adv_Channel_Map =
0x7
# LL/DDI/ADV/BV-20-C [Advertising Always Using the LE 1M PHY]
async
def test(self):
controller = self.controller
public_peer_address = Address(
'aa:bb:cc:dd:ee:ff')
connection_handle =
0xefe
# 1. Configure Lower Tester to monitor advertising packets from the IUT. Lower Tester will only
# accept advertising packets sent using the LE 1M PHY setting. Lower Tester will scan for at least
# 30 advertising intervals on each advertising channel (for example, scan on channel 37 for the first
# 30 intervals, then on channel 38 for another 30 intervals, then finally on channel 39 for the last 30
# intervals).
# 2. Upper Tester sends a LE_Set_Default_PHY command to the IUT, with the ALL_PHYS field set to
# zero, and the TX_PHYS and RX_PHYS fields both set to prefer the LE 2M PHY.
controller.send_cmd(
hci.LeSetDefaultPhy(all_phys_no_transmit_preference=
False,
all_phys_no_receive_preference=
False,
tx_phys=
0x2,
rx_phys=
0x2))
await self.expect_evt(
hci.LeSetDefaultPhyComplete(status=ErrorCode.SUCCESS, num_hci_command_packets=
1))
# 3. Upper Tester enables undirected advertising in the IUT using all supported advertising channels
# and minimum advertising interval.
controller.send_cmd(
hci.LeSetAdvertisingParameters(
advertising_interval_min=self.LL_advertiser_advInterval_MIN,
advertising_interval_max=self.LL_advertiser_advInterval_MAX,
advertising_type=hci.AdvertisingType.ADV_IND,
own_address_type=hci.OwnAddressType.PUBLIC_DEVICE_ADDRESS,
advertising_channel_map=self.LL_advertiser_Adv_Channel_Map,
advertising_filter_policy=hci.AdvertisingFilterPolicy.LISTED_SCAN_AND_CONNECT))
await self.expect_evt(
hci.LeSetAdvertisingParametersComplete(status=ErrorCode.SUCCESS,
num_hci_command_packets=
1))
controller.send_cmd(hci.LeSetAdvertisingEnable(advertising_enable=
True))
await self.expect_evt(
hci.LeSetAdvertisingEnableComplete(status=ErrorCode.SUCCESS, num_hci_command_pack
ets=1))
# 4. Lower Tester expects the IUT to send ADV_IND packets starting an event on an applicable
# advertising channel using the LE 1M PHY.
# 5. Repeat step 4 until at least 90 advertising packets have been detected, i.e., at least 30 packets
# on each channel.
for n in range(3):
await self.expect_ll(
ll.LeLegacyAdvertisingPdu(source_address=controller.address,
advertising_address_type=ll.AddressType.PUBLIC,
advertising_type=ll.LegacyAdvertisingType.ADV_IND,
advertising_data=[]))
# 6. Upper Tester sends an HCI_LE_Set_Advertising_Enable command to disable advertising in the
# IUT and receives an HCI_Command_Complete event from the IUT.
controller.send_cmd(hci.LeSetAdvertisingEnable(advertising_enable=False))
await self.expect_evt(
hci.LeSetAdvertisingEnableComplete(status=ErrorCode.SUCCESS, num_hci_command_packets=1))