# 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 llcp_packets
as llcp
import random
import unittest
from hci_packets
import ErrorCode
from py.bluetooth
import Address
from py.controller
import ControllerTest
class Test(ControllerTest):
SDU_Interval_C_TO_P =
10000 # 10ms
SDU_Interval_P_TO_C =
10000 # 10ms
ISO_Interval =
16 # 20ms
Worst_Case_SCA = hci.ClockAccuracy.PPM_500
Packing = hci.Packing.SEQUENTIAL
Framing = hci.Enable.DISABLED
NSE =
4
Max_SDU_C_TO_P =
130
Max_SDU_P_TO_C =
130
Max_PDU_C_TO_P =
130
Max_PDU_P_TO_C =
130
PHY_C_TO_P =
0x1
PHY_P_TO_C =
0x1
FT_C_TO_P =
1
FT_P_TO_C =
1
BN_C_TO_P =
2
BN_P_TO_C =
2
Max_Transport_Latency_C_TO_P =
40000 # 40ms
Max_Transport_Latency_P_TO_C =
40000 # 40ms
RTN_C_TO_P =
3
RTN_P_TO_C =
3
# LL/CIS/CEN/BV-03-C [CIS Setup Procedure, Central Initiated, Rejected]
async
def test(self):
# Test parameters.
cig_id =
0x12
cis_id =
0x42
cis_connection_handle =
0xe00
peer_address = Address(
'aa:bb:cc:dd:ee:ff')
controller = self.controller
# Enable Connected Isochronous Stream Host Support.
await self.enable_connected_isochronous_stream_host_support()
# Prelude: Establish an ACL connection as central with the IUT.
acl_connection_handle = await self.establish_le_connection_central(peer_address)
# 1. The Upper Tester sends an HCI_LE_Set_CIG_Parameters command to the IUT with valid
# parameters and receives a successful HCI_Command_Complete event.
controller.send_cmd(
hci.LeSetCigParametersTest(cig_id=cig_id,
sdu_interval_c_to_p=self.SDU_Interval_C_TO_P,
sdu_interval_p_to_c=self.SDU_Interval_P_TO_C,
ft_c_to_p=self.FT_C_TO_P,
ft_p_to_c=self.FT_P_TO_C,
iso_interval=self.ISO_Interval,
worst_case_sca=self.Worst_Case_SCA,
packing=self.Packing,
framing=self.Framing,
cis_config=[
hci.LeCisParametersTestConfig(
cis_id=cis_id,
nse=self.NSE,
max_sdu_c_to_p=self.Max_SDU_C_TO_P,
max_sdu_p_to_c=self.Max_SDU_P_TO_C,
max_pdu_c_to_p=self.Max_PDU_C_TO_P,
max_pdu_p_to_c=self.Max_PDU_P_TO_C,
phy_c_to_p=self.PHY_C_TO_P,
phy_p_to_c=self.PHY_P_TO_C,
bn_c_to_p=self.BN_C_TO_P,
bn_p_to_c=self.BN_P_TO_C)
]))
await self.expect_evt(
hci.LeSetCigParametersTestComplete(status=ErrorCode.SUCCESS,
num_hci_command_packets=
1,
cig_id=cig_id,
connection_handle=[cis_connection_handle]))
# 2. The Upper Tester sends an HCI_LE_Create_CIS command with the ACL_Connection_Handle of
# the established ACL and valid Connection_Handle from the IUT received in step 1.
controller.send_cmd(
hci.LeCreateCis(cis_config=[
hci.LeCreateCisConfig(cis_connection_handle=cis_connection_handle,
acl_connection_handle=acl_connection_handle)
]))
await self.expect_evt(
hci.LeCreateCisStatus(status=ErrorCode.SUCCESS, num_hci_command_packets=
1))
# 3. The Lower Tester receives an LL_CIS_REQ PDU from the IUT with all fields set to valid values.
cis_req = await self.expect_llcp(source_address=controller.address,
destination_address=peer_address,
expected_pdu=llcp.CisReq(
cig_id=cig_id,
cis_id=cis_id,
phy_c_to_p=hci.PhyType.LE_1M,
phy_p_to_c=hci.PhyType.LE_1M,
framed=self.Framing == hci.Enable.ENABLED,
max_sdu_c_to_p=self.Max_SDU_C_TO_P,
max_sdu_p_to_c=self.Max_SDU_P_TO_C,
sdu_interval_c_to_p=self.SDU_Interval_C_TO_P,
sdu_interval_p_to_c=self.SDU_Interval_P_TO_C,
max_pdu_c_to_p=self.Max_PDU_C_TO_P,
max_pdu_p_to_c=self.Max_PDU_P_TO_C,
nse=self.NSE,
sub_interval=self.Any,
bn_p_to_c=self.BN_C_TO_P,
bn_c_to_p=self.BN_P_TO_C,
ft_c_to_p=self.FT_C_TO_P,
ft_p_to_c=self.FT_P_TO_C,
iso_interval=self.ISO_Interval,
cis_offset_min=self.Any,
cis_offset_max=self.Any,
conn_event_count=
0))
# 4. The Lower Tester sends an LL_REJECT_EXT_IND to the IUT with an error code not equal to 0x00.
controller.send_llcp(source_address=peer_address,
destination_address=controller.address,
pdu=llcp.RejectExtInd(
reject_opcode=llcp.Opcode.LL_CIS_REQ,
error_code=hci.ErrorCode.REMOTE_USER_TERMINATED_CONNECTION))
# 5. The Upper Tester receives an HCI_LE_CIS_Established event from the IUT with a status failure.
# The Status field has the same value as the LL_REJECT_EXT_IND PDU in step 4.
await self.expect_evt(
hci.LeCisEstablishedV1(status=ErrorCode.REMOTE_USER_TERMINATED_CONNECTION,
connection_handle=cis_connection_handle))