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ptscontrol.py
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ptscontrol.py
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#
# auto-pts - The Bluetooth PTS Automation Framework
#
# Copyright (c) 2017, Intel Corporation
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# * Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
# * Neither the name of Intel Corporation nor the names of its contributors
# may be used to endorse or promote products derived from this software
# without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
# LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
#
"""Python bindings for PTSControl introp objects
Cause of tight coupling with PTS, this module is Windows specific
"""
import os
import wmi
import sys
import time
import logging
import argparse
import shutil
import win32com.client
import win32com.server.connect
import win32com.server.util
import xmlrpc.client
import pythoncom
import ptsprojects.ptstypes as ptstypes
import ctypes
from pathlib import Path
log = logging.debug
logtype_whitelist = [ptstypes.PTS_LOGTYPE_START_TEST,
ptstypes.PTS_LOGTYPE_END_TEST,
ptstypes.PTS_LOGTYPE_ERROR,
ptstypes.PTS_LOGTYPE_FINAL_VERDICT]
PTS_WORKSPACE_FILE_EXT = ".pqw6"
class PTSLogger(win32com.server.connect.ConnectableServer):
"""PTS control client logger callback implementation"""
_reg_desc_ = "AutoPTS Logger"
_reg_clsid_ = "{50B17199-917A-427F-8567-4842CAD241A1}"
_reg_progid_ = "autopts.PTSLogger"
_public_methods_ = ['Log'] + win32com.server.connect.ConnectableServer._public_methods_
def __init__(self):
""""Constructor"""
super(PTSLogger, self).__init__()
self._callback = None
self._maximum_logging = False
self._test_case_name = None
def set_callback(self, callback):
"""Set the callback"""
self._callback = callback
def unset_callback(self):
"""Unset the callback"""
self._callback = None
def enable_maximum_logging(self, enable):
"""Enable/disable maximum logging"""
self._maximum_logging = enable
def set_test_case_name(self, test_case_name):
"""Required to identify multiple instances on client side"""
self._test_case_name = test_case_name
def Log(self, log_type, logtype_string, log_time, log_message):
"""Implements:
void Log(
[in] unsigned int logType,
[in] BSTR szLogType,
[in] BSTR szTime,
[in] BSTR pszMessage);
};
"""
logger = logging.getLogger(self.__class__.__name__)
log = logger.info
log("%d %s %s %s" % (log_type, logtype_string, log_time, log_message))
try:
if self._callback is not None:
if self._maximum_logging or log_type in logtype_whitelist:
self._callback.log(log_type, logtype_string, log_time,
log_message, self._test_case_name)
except Exception as e:
logging.exception(repr(e))
sys.exit("Exception in Log")
class PTSSender(win32com.server.connect.ConnectableServer):
"""PTS control client implicit send callback implementation"""
_reg_desc_ = "AutoPTS Sender"
_reg_clsid_ = "{9F4517C9-559D-4655-9032-076A1E9B7654}"
_reg_progid_ = "autopts.PTSSender"
_public_methods_ = ['OnImplicitSend'] + win32com.server.connect.ConnectableServer._public_methods_
def __init__(self):
""""Constructor"""
super(PTSSender, self).__init__()
self._callback = None
def set_callback(self, callback):
"""Sets the callback"""
self._callback = callback
def unset_callback(self):
"""Unsets the callback"""
self._callback = None
def OnImplicitSend(self, project_name, wid, test_case, description, style):
"""Implements:
VARIANT OnImplicitSend(
[in] BSTR pszProjectName,
[in] unsigned short wID,
[in] BSTR szTestCase,
[in] BSTR szDescription,
[in] unsigned long style);
};
"""
logger = logging.getLogger(self.__class__.__name__)
log = logger.info
timer = 0
# Remove whitespaces from project and test case name
project_name = project_name.replace(" ", "")
test_case = test_case.replace(" ", "")
log("*" * 20)
log("BEGIN OnImplicitSend:")
log("project_name: %s %s" % (project_name, type(project_name)))
log("wid: %d %s" % (wid, type(wid)))
log("test_case_name: %s %s" % (test_case, type(test_case)))
log("description: %s %s" % (description, type(description)))
log("style: %s 0x%x", ptstypes.MMI_STYLE_STRING[style], style)
rsp = ""
try:
if self._callback is not None:
log("Calling callback.on_implicit_send")
rsp = self._callback.on_implicit_send(project_name, wid,
test_case, description,
style)
# Don't block xml-rpc
if rsp == "WAIT":
rsp = self._callback.get_pending_response(
test_case)
while not rsp:
# XXX: Ask for response every second
timer = timer + 1
# XXX: Timeout 90 seconds
if timer > 90:
rsp = "Cancel"
break
log("Rechecking response...")
time.sleep(1)
rsp = self._callback.get_pending_response(test_case)
log("callback returned on_implicit_send, respose: %r", rsp)
except xmlrpc.client.Fault as err:
log("A fault occurred, code = %d, string = %s" %
(err.faultCode, err.faultString))
except Exception as e:
log("Caught exception")
log(e)
# exit does not work, cause app is blocked in PTS.RunTestCase?
sys.exit("Exception in OnImplicitSend")
if rsp:
is_present = 1
else:
is_present = 0
# Stringify response
rsp = str(rsp)
rsp_len = str(len(rsp))
is_present = str(is_present)
log("END OnImplicitSend:")
log("*" * 20)
return win32com.client.VARIANT(pythoncom.VT_ARRAY | pythoncom.VT_BSTR,
[rsp, rsp_len, is_present])
def parse_ptscontrol_error(err):
try:
_, source, description, _, _, hresult = err.excepinfo
ptscontrol_e = ctypes.c_uint32(hresult).value
ptscontrol_e_string = ptstypes.PTSCONTROL_E_STRING[ptscontrol_e]
logging.exception(ptscontrol_e_string)
return ptscontrol_e_string
except Exception:
raise Exception(err)
class PyPTS:
"""PTS control interface.
Provides wrappers around Interop.PTSControl.PTSControlClass methods and
some additional features.
For detailed documentation see 'Extended Automatiing - Using PTSControl'
document provided with PTS in file Extended_Automating.pdf
"""
def __init__(self):
"""Constructor"""
log("%s", self.__init__.__name__)
self._init_attributes()
# list of tuples of methods and arguments to recover after PTS restart
self._recov = []
self._temp_changes = []
self._recov_in_progress = False
self._temp_workspace_path = None
self.last_start_time = time.time()
# This is done to have valid _pts in case client does not restart_pts
# and uses other methods. Normally though, the client should
# restart_pts, see its docstring for the details
#
# Another reason: PTS starting from version 6.2 returns
# PTSCONTROL_E_IMPLICIT_SEND_CALLBACK_ALREADY_REGISTERED 0x849C004 in
# RegisterImplicitSendCallbackEx if PTS from previous autoptsserver is
# used
self.restart_pts()
def _init_attributes(self):
"""Initializes class attributes"""
log("%s", self._init_attributes.__name__)
self._pts = None
self._pts_proc = None
self._pts_logger = None
self._pts_sender = None
self._com_logger = None
self._com_sender = None
# Cached frequently used PTS attributes: for optimisation reasons it is
# avoided to contact PTS. These attributes should not change anyway.
self.__bd_addr = None
self._pts_projects = {}
def add_recov(self, func, *args, **kwds):
"""Add function to recovery list"""
if self._recov_in_progress:
return
log("%s %r %r %r", self.add_recov.__name__, func, args, kwds)
# Re-set recovery element to avoid duplications
if func == self.set_pixit:
profile = args[0]
pixit = args[1]
# Look for possible re-setable PIXIT
try:
'''Search for matching recover function, PIXIT and recover
if value was changed. '''
item = next(x for x in self._recov if ((x[0] ==
self.set_pixit) and (x[1][0] == profile) and
(x[1][1] == pixit)))
self._recov.remove(item)
log("%s, re-set pixit: %s", self.add_recov.__name__, pixit)
except StopIteration:
pass
self._recov.append((func, args, kwds))
def _add_temp_change(self, func, *args, **kwds):
"""Add function to set temporary value"""
if not self._recov_in_progress:
log("%s %r %r %r", self._add_temp_change.__name__, func, args, kwds)
self._temp_changes.append((func, args, kwds))
def del_recov(self, func, *args, **kwds):
"""Remove function from recovery list"""
log("%s %r %r %r", self.del_recov.__name__, func, args, kwds)
recov_funcs = [item[0] for item in self._recov]
if func not in recov_funcs:
return
# no arguments specified: remove all method calls
if not args and not kwds:
self._recov = [item for item in self._recov if item[0] != func]
# remove single method call with matching arguments
else:
item = (func, args, kwds)
if item in self._recov:
self._recov.remove(item)
def _recover_item(self, item):
"""Recovery item wraper"""
func = item[0]
args = item[1]
kwds = item[2]
log("%s, Recovering: %s, %r %r", self._recover_item.__name__,
func, args, kwds)
func(*args, **kwds)
def recover_pts(self):
"""Recovers PTS from errors occured during RunTestCase call.
The errors include timeout set by SetPTSCallTimeout. The only way to
correctly recover is to restart PTS and restore its settings.
Timeouts break some PTS functionality, hence it is good idea to start a
new instance of PTS every time. For details see:
https://www.bluetooth.org/pts/issues/view_issue.cfm?id=13794
PTS timeouts also break run_test_case in a way that the status of
completed test cases is incorrect.
"""
log("%s", self.recover_pts.__name__)
log("recov=%s", self._recov)
self._recov_in_progress = True
self.restart_pts()
for item in self._recov:
self._recover_item(item)
self._recov_in_progress = False
def restart_pts(self):
"""Restarts PTS
This function will block for couple of seconds while PTS starts
"""
log("%s", self.restart_pts.__name__)
# Startup of ptscontrol doesn't have PTS pid yet set - no pts running
if self._pts_proc:
self.stop_pts()
time.sleep(1) # otherwise there are COM errors occasionally
self.start_pts()
def start_pts(self):
"""Starts PTS
This function will block for couple of seconds while PTS starts"""
log("%s", self.start_pts.__name__)
# Get PTS process list before running new PTS daemon
c = wmi.WMI()
pts_ps_list_pre = []
pts_ps_list_post = []
for ps in c.Win32_Process(name="PTS.exe"):
pts_ps_list_pre.append(ps)
self._pts = win32com.client.Dispatch('ProfileTuningSuite_6.PTSControlServer')
# Get PTS process list after running new PTS daemon to get PID of
# new instance
for ps in c.Win32_Process(name="PTS.exe"):
pts_ps_list_post.append(ps)
pts_ps_list = list(set(pts_ps_list_post) - set(pts_ps_list_pre))
if not pts_ps_list:
log("Error during pts startup!")
return
self._pts_proc = pts_ps_list[0]
log("Started new PTS daemon with pid: %d" % self._pts_proc.ProcessId)
self._pts_logger = PTSLogger()
self._pts_sender = PTSSender()
# cached frequently used PTS attributes: due to optimisation reasons it
# is avoided to contact PTS. These attributes should not change anyway.
self.__bd_addr = None
self._com_logger = win32com.client.dynamic.Dispatch(
win32com.server.util.wrap(self._pts_logger))
self._com_sender = win32com.client.dynamic.Dispatch(
win32com.server.util.wrap(self._pts_sender))
self._pts.SetControlClientLoggerCallback(self._com_logger)
self._pts.RegisterImplicitSendCallbackEx(self._com_sender)
log("PTS Version: %s", self.get_version())
log("PTS Bluetooth Address: %s", self.get_bluetooth_address())
log("PTS BD_ADDR: %s" % self.bd_addr())
def stop_pts(self):
"""Stops PTS"""
try:
log("About to stop PTS with pid: %d", self._pts_proc.ProcessId)
self._pts_proc.Terminate()
self._pts_proc = None
except Exception as error:
logging.exception(repr(error))
self._init_attributes()
def create_workspace(self, bd_addr, pts_file_path, workspace_name,
workspace_path):
"""Creates a new workspace"""
log("%s %s %s %s %s", self.create_workspace.__name__, bd_addr,
pts_file_path, workspace_name, workspace_path)
self._pts.CreateWorkspace(bd_addr, pts_file_path, workspace_name,
workspace_path)
@staticmethod
def _get_own_workspaces():
"""Get auto-pts own workspaces"""
script_path = os.path.split(os.path.realpath(__file__))[0]
workspaces = {}
for root, dirs, files in os.walk("workspaces"):
for file in files:
if file.endswith(PTS_WORKSPACE_FILE_EXT):
name = os.path.splitext(file)[0]
path = os.path.join(script_path, root, file)
workspaces[name] = path
return workspaces
def open_workspace(self, workspace_path):
"""Opens existing workspace"""
log("%s %s", self.open_workspace.__name__, workspace_path)
# auto-pts own workspaces
autopts_workspaces = self._get_own_workspaces()
if workspace_path in list(autopts_workspaces.keys()):
workspace_name = workspace_path
workspace_path = autopts_workspaces[workspace_path]
log("Using %s workspace: %s", workspace_name, workspace_path)
if not os.path.isfile(workspace_path):
raise Exception("Workspace file '%s' does not exist" %
(workspace_path,))
specified_ext = os.path.splitext(workspace_path)[1]
if PTS_WORKSPACE_FILE_EXT != specified_ext:
raise Exception(
"Workspace file '%s' extension is wrong, should be %s" %
(workspace_path, PTS_WORKSPACE_FILE_EXT))
# Workaround CASE0044114 PTS issue
# Do not open original workspace file that can become broken by
# TestCase. Instead use a copy of this file
if self._temp_workspace_path and \
os.path.exists(self._temp_workspace_path):
os.unlink(self._temp_workspace_path)
workspace_dir = os.path.dirname(workspace_path)
workspace_name = os.path.basename(workspace_path)
temp_workspace_dir = os.path.join(workspace_dir, "_" + self.get_bluetooth_address())
Path(temp_workspace_dir).mkdir(parents=False, exist_ok=True)
self._temp_workspace_path = \
os.path.join(temp_workspace_dir, "temp_" + workspace_name)
shutil.copy2(workspace_path, self._temp_workspace_path)
log("Using temporary workspace: %s", self._temp_workspace_path)
self._pts.OpenWorkspace(self._temp_workspace_path)
self.add_recov(self.open_workspace, workspace_path)
self._cache_test_cases()
def _cache_test_cases(self):
"""Cache test cases"""
self._pts_projects.clear()
for i in range(0, self._pts.GetProjectCount()):
project_name = self._pts.GetProjectName(i)
self._pts_projects[project_name] = {}
for j in range(0, self._pts.GetTestCaseCount(project_name)):
test_case_name = self._pts.GetTestCaseName(project_name,
j)
self._pts_projects[project_name][test_case_name] = j
def get_project_list(self):
"""Returns list of projects available in the current workspace"""
return tuple(self._pts_projects.keys())
def get_project_version(self, project_name):
"""Returns project version"""
return self._pts.GetProjectVersion(project_name)
def get_test_case_list(self, project_name):
"""Returns list of active test cases of the specified project"""
test_case_list = []
for test_case_name in list(self._pts_projects[project_name].keys()):
if self._pts.IsActiveTestCase(project_name, test_case_name):
test_case_list.append(test_case_name)
return tuple(test_case_list)
def get_test_case_description(self, project_name, test_case_name):
"""Returns description of the specified test case"""
test_case_index = self._pts_projects[project_name][test_case_name]
return self._pts.GetTestCaseDescription(project_name, test_case_index)
def _revert_temp_changes(self):
"""Recovery default state for test case"""
if not self._temp_changes:
return
log("%s", self._revert_temp_changes.__name__)
self._recov_in_progress = True
for tch in self._temp_changes:
func = tch[0]
if func == self.update_pixit_param:
# Look for possible recoverable parameter
try:
'''Search for matching recover function, PIXIT and recover
if value was changed. '''
item = next(x for x in self._recov if ((x[0] ==
self.set_pixit) and (x[1][0] ==
tch[1][0]) and (x[1][1] == tch[1][1])))
self._recover_item(item)
except StopIteration:
continue
self._recov_in_progress = False
self._temp_changes = []
def run_test_case(self, project_name, test_case_name):
"""Executes the specified Test Case.
If an error occurs when running test case returns code of an error as a
string, otherwise returns an empty string
"""
log("Starting %s %s %s", self.run_test_case.__name__, project_name,
test_case_name)
self.last_start_time = time.time()
self._pts_logger.set_test_case_name(test_case_name)
error_code = ""
try:
self._pts.RunTestCase(project_name, test_case_name)
self._revert_temp_changes()
except pythoncom.com_error as e:
error_code = parse_ptscontrol_error(e)
self.recover_pts()
log("Done %s %s %s out: %s", self.run_test_case.__name__,
project_name, test_case_name, error_code)
return error_code
def stop_test_case(self, project_name, test_case_name):
"""NOTE: According to documentation 'StopTestCase() is not currently
implemented'"""
log("%s %s %s", self.is_active_test_case.__name__, project_name,
test_case_name)
self._pts.StopTestCase(project_name, test_case_name)
def get_test_case_count_from_tss_file(self, project_name):
"""Returns the number of test cases that are available in the specified
project according to TSS file."""
return self._pts.GetTestCaseCountFromTSSFile(project_name)
def get_test_cases_from_tss_file(self, project_name):
"""Returns array of test case names according to TSS file."""
return self._pts.GetTestCasesFromTSSFile(project_name)
def set_pics(self, project_name, entry_name, bool_value):
"""Set PICS
Method used to setup workspace default PICS
This wrapper handles exceptions that PTS throws if PICS entry is
already set to the same value.
PTS throws exception if the value passed to UpdatePics is the same as
the value when PTS was started.
In C++ HRESULT error with this value is returned:
PTSCONTROL_E_PICS_ENTRY_NOT_CHANGED (0x849C0032)
"""
log("%s %s %s %s", self.set_pics.__name__, project_name,
entry_name, bool_value)
try:
self._pts.UpdatePics(project_name, entry_name, bool_value)
self.add_recov(self.set_pics, project_name, entry_name,
bool_value)
except pythoncom.com_error as e:
parse_ptscontrol_error(e)
def set_pixit(self, project_name, param_name, param_value):
"""Set PIXIT
Method used to setup workspace default PIXIT
This wrapper handles exceptions that PTS throws if PIXIT param is
already set to the same value.
PTS throws exception if the value passed to UpdatePixitParam is the
same as the value when PTS was started.
In C++ HRESULT error with this value is returned:
PTSCONTROL_E_PIXIT_PARAM_NOT_CHANGED (0x849C0021)
"""
log("%s %s %s %s", self.set_pixit.__name__, project_name,
param_name, param_value)
try:
self._pts.UpdatePixitParam(project_name, param_name, param_value)
self.add_recov(self.set_pixit, project_name, param_name,
param_value)
except pythoncom.com_error as e:
parse_ptscontrol_error(e)
def update_pixit_param(self, project_name, param_name, new_param_value):
"""Updates PIXIT
This wrapper handles exceptions that PTS throws if PIXIT param is
already set to the same value.
PTS throws exception if the value passed to UpdatePixitParam is the
same as the value when PTS was started.
In C++ HRESULT error with this value is returned:
PTSCONTROL_E_PIXIT_PARAM_NOT_CHANGED (0x849C0021)
"""
log("%s %s %s %s", self.update_pixit_param.__name__, project_name,
param_name, new_param_value)
try:
self._pts.UpdatePixitParam(
project_name, param_name, new_param_value)
self._add_temp_change(self.update_pixit_param, project_name,
param_name)
except pythoncom.com_error as e:
parse_ptscontrol_error(e)
def enable_maximum_logging(self, enable):
"""Enables/disables the maximum logging."""
log("%s %s", self.enable_maximum_logging.__name__, enable)
self._pts.EnableMaximumLogging(enable)
self._pts_logger.enable_maximum_logging(enable)
def set_call_timeout(self, timeout):
"""Sets a timeout period in milliseconds for the RunTestCase() calls
to PTS."""
self._pts.SetPTSCallTimeout(timeout)
if timeout:
self.add_recov(self.set_call_timeout, timeout)
else: # timeout 0 = no timeout
self.del_recov(self.set_call_timeout)
def save_test_history_log(self, save):
"""This function enables automation clients to specify whether test
logs have to be saved in the corresponding workspace folder.
save -- Boolean
"""
log("%s %s", self.save_test_history_log.__name__, save)
self._pts.SaveTestHistoryLog(save)
def get_bluetooth_address(self):
"""Returns PTS bluetooth address string"""
try:
address = self._pts.GetPTSBluetoothAddress()
except Exception as e:
address = ""
if address == "":
self.connect_to_dongle()
try:
address = self._pts.GetPTSBluetoothAddress()
except Exception as e:
log("Connecting to dongle failed.")
raise e
return address
def connect_to_dongle(self):
deviceToConnect = None
devices = self._pts.GetDeviceList()
for device in devices:
if 'USB:Free' in device:
log("Connecting to dual-mode dongle")
deviceToConnect = device
break
elif 'COM' in device:
log("Connecting to LE-only dongle")
deviceToConnect = device
break
if deviceToConnect is not None:
self._pts.SelectDevice(deviceToConnect)
def bd_addr(self):
"""Returns PTS Bluetooth address as a colon separated string"""
# use cached address if available
if not self.__bd_addr:
a = self.get_bluetooth_address().upper()
self.__bd_addr = ":".join(a[i:i + 2] for i in range(0, len(a), 2))
return self.__bd_addr
def get_version(self):
"""Returns PTS version"""
return self._pts.GetPTSVersion()
def register_ptscallback(self, callback):
"""Registers testcase.PTSCallback instance to be used as PTS log and
implicit send callback"""
log("%s %s", self.register_ptscallback.__name__, callback)
self._pts_logger.set_callback(callback)
self._pts_sender.set_callback(callback)
self.add_recov(self.register_ptscallback, callback)
def unregister_ptscallback(self):
"""Unregisters the testcase.PTSCallback callback"""
log("%s", self.unregister_ptscallback.__name__)
self._pts_logger.unset_callback()
self._pts_sender.unset_callback()
self.del_recov(self.register_ptscallback)
def parse_args():
"""Parses command line arguments and options"""
arg_parser = argparse.ArgumentParser(
description="PTS Control")
arg_parser.add_argument(
"workspace",
help="Path to PTS workspace to use for testing. It should have %s "
"extension" % (PTS_WORKSPACE_FILE_EXT,))
args = arg_parser.parse_args()
return args
def main():
"""Rudimentary testing."""
args = parse_args()
script_name = os.path.basename(sys.argv[0]) # in case it is full path
script_name_no_ext = os.path.splitext(script_name)[0]
log_filename = "%s.log" % (script_name_no_ext,)
logging.basicConfig(format='%(name)s [%(asctime)s] %(message)s',
filename=log_filename,
filemode='w',
level=logging.DEBUG)
pts = PyPTS()
pts.open_workspace(args.workspace)
# pts.run_test_case("RFCOMM", "TC_RFC_BV_19_C")
project_count = pts.get_project_count()
print("Project count:", project_count)
# print all projects and their test cases
for project_index in range(project_count):
project_name = pts.get_project_name(project_index)
print("\nProject name:", project_name)
print("Project version:", pts.get_project_version(project_name))
test_case_count = pts.get_test_case_count(project_name)
print("Test case count:", test_case_count)
for test_case_index in range(test_case_count):
test_case_name = pts.get_test_case_name(
project_name, test_case_index)
print("\nTest case project:", project_name)
print("Test case name:", test_case_name)
print("Test case description:", pts.get_test_case_description(
project_name, test_case_index))
print("Is active test case:", pts.is_active_test_case(
project_name, test_case_name))
print("\n\n\n\nTSS file info:")
# print all projects and their test cases
for project_index in range(project_count):
project_name = pts.get_project_name(project_index)
print("\nProject name:", project_name)
print("Project version:", pts.get_project_version(project_name))
test_case_count = pts.get_test_case_count_from_tss_file(project_name)
print("Test case count:", test_case_count)
test_cases = pts.get_test_cases_from_tss_file(project_name)
print(test_cases)
for test_case in test_cases:
print(test_case)
pts.update_pixit_param("L2CAP", "TSPX_iut_role_initiator", "FALSE")
pts.update_pixit_param("L2CAP", "TSPX_iut_role_initiator", "TRUE")
pts.set_pics("L2CAP", "TSPC_L2CAP_3_13", True)
pts.set_pics("L2CAP", "TSPC_L2CAP_3_13", False)
pts.enable_maximum_logging(True)
pts.enable_maximum_logging(False)
pts.set_call_timeout(600000)
pts.set_call_timeout(0)
pts.save_test_history_log(True)
pts.save_test_history_log(False)
print("PTS Bluetooth Address: ", pts.get_bluetooth_address())
print("PTS BD_ADDR: ", pts.bd_addr())
print("PTS Version: ", pts.get_version())
if __name__ == "__main__":
main()