def test_platform_property(self):
"""Test that platform_property picks the property value preserving
the following priority relationship:
targets.json > yotta blob > default
"""
with patch("mbed_os_tools.test.mbed_target_info._get_platform_property_from_targets") as _targets,\
patch("mbed_os_tools.test.mbed_target_info._get_platform_property_from_info_mapping") as _info_mapping,\
patch("mbed_os_tools.test.mbed_target_info._get_platform_property_from_default") as _default:
# 1
_targets.return_value = "targets"
_info_mapping.return_value = None
_default.return_value = "default"
self.assertEqual(
mbed_target_info.get_platform_property("K64F", "copy_method"),
"targets")
# 2
_info_mapping.return_value = "yotta"
self.assertEqual(
mbed_target_info.get_platform_property("K64F", "copy_method"),
"targets")
# 3
_targets.return_value = None
self.assertEqual(
mbed_target_info.get_platform_property("K64F", "copy_method"),
"yotta")
# 4
_info_mapping.return_value = None
self.assertEqual(
mbed_target_info.get_platform_property("K64F", "copy_method"),
"default")
# 5
_default.return_value = None
self.assertEqual(
mbed_target_info.get_platform_property("K64F", "copy_method"),
None)
# 6
_targets.return_value = "targets"
self.assertEqual(
mbed_target_info.get_platform_property("K64F", "copy_method"),
"targets")
# 7
_info_mapping.return_value = "yotta"
self.assertEqual(
mbed_target_info.get_platform_property("K64F", "copy_method"),
"targets")
# 8
_targets.return_value = None
self.assertEqual(
mbed_target_info.get_platform_property("K64F", "copy_method"),
"yotta")
def debug_test(project_dir, *, board_manager_script: Optional[str] = None, verbose_level: int = 0):
"""
Run test without uploading.
It's useful if you want to debug test inside IDE.
:param project_dir:
:param board_manager_script:
:param verbose_level:
:return:
"""
program_config = ProgramConfig(project_dir)
app_config = AppConfig(project_dir)
# resolve baudrate and platform name
serial_port_baudrate = app_config.get_parameter('platform.stdio-baud-rate', _DEFAULT_BAUDRATE)
target_name = program_config.resolve_target()
external_target_manager = ExternalTargetManager(board_manager_script) if board_manager_script is not None else None
with apply_mbed_api_patches_for_external_target_script(external_target_manager), patch_cwd(project_dir):
# find target board
target_mbed = _find_target(mbed_os_tools.detect.create(), target_name)
serial_port = target_mbed['serial_port']
target_id = target_mbed['target_id']
reset_method = mbed_target_info.get_platform_property(target_mbed['platform_name'], 'reset_method')
# run htrun to debut test
mbedhtrun_args = [
'mbedhtrun'
'--micro', 'target_name',
'--target-id', target_id,
'--sync', '5',
'--port', f'{serial_port}:{serial_port_baudrate}',
'--reset', reset_method,
'--skip-flashing',
'--skip-reset',
]
if verbose_level >= 0:
mbedhtrun_args.append('--verbose')
with patch_argv(mbedhtrun_args):
logger.info(f"Run command: {' '.join(mbedhtrun_args)}")
try:
ret_code = htrun_main()
except SystemExit as e:
ret_code = e.code
ret_code = ret_code or 0
if ret_code:
logger.error(f"mbedhtrun has failed with a code {ret_code}")
return ret_code
def flash_artifact(project_dir, *, board_manager_script: Optional[str] = None, verbose_level: int = 0, artifact_path):
"""
Upload specified artifact to a board.
:param project_dir:
:param board_manager_script:
:param verbose_level:
:param artifact_path:
:return:
"""
program_config = ProgramConfig(project_dir)
app_config = AppConfig(project_dir)
# resolve baudrate and platform name
serial_port_baudrate = app_config.get_parameter('platform.stdio-baud-rate', _DEFAULT_BAUDRATE)
target_name = program_config.resolve_target()
external_target_manager = ExternalTargetManager(board_manager_script) if board_manager_script is not None else None
with apply_mbed_api_patches_for_external_target_script(external_target_manager), patch_cwd(project_dir):
# find target board
target_mbed = _find_target(mbed_os_tools.detect.create(), target_name)
target_id = target_mbed['target_id']
copy_method = mbed_target_info.get_platform_property(target_mbed['platform_name'], 'copy_method')
result = mbed_host_tests_plugins.call_plugin(
'CopyMethod',
capability=copy_method,
image_path=artifact_path,
serial=f"{target_mbed['serial_port']}:{serial_port_baudrate}",
destination_disk=target_mbed['mount_point'],
target_id=target_id,
pooling_timeout=_DEFAULT_POOLING_TIMEOUT
)
if not result:
raise ValueError(f"Fail to upload image to \"{artifact_path}\" to target \"{target_id}\"")
return 0
def main_cli(opts, args, gt_instance_uuid=None):
"""! This is main CLI function with all command line parameters
@details This function also implements CLI workflow depending on CLI parameters inputed
@return This function doesn't return, it exits to environment with proper success code
"""
def filter_ready_devices(mbeds_list):
"""! Filters list of MUTs to check if all MUTs are correctly detected with mbed-ls module.
@details This function logs a lot to help users figure out root cause of their problems
@param mbeds_list List of MUTs to verify
@return Tuple of (MUTS detected correctly, MUTs not detected fully)
"""
ready_mbed_devices = [
] # Devices which can be used (are fully detected)
not_ready_mbed_devices = [
] # Devices which can't be used (are not fully detected)
required_mut_props = [
'target_id', 'platform_name', 'serial_port', 'mount_point'
]
gt_logger.gt_log(
"detected %d device%s" %
(len(mbeds_list), 's' if len(mbeds_list) != 1 else ''))
for mut in mbeds_list:
for prop in required_mut_props:
if not mut[prop]:
# Adding MUT to NOT DETECTED FULLY list
if mut not in not_ready_mbed_devices:
not_ready_mbed_devices.append(mut)
gt_logger.gt_log_err(
"mbed-ls was unable to enumerate correctly all properties of the device!"
)
gt_logger.gt_log_tab(
"check with 'mbedls -j' command if all properties of your device are enumerated properly"
)
gt_logger.gt_log_err("mbed-ls property '%s' is '%s'" %
(prop, str(mut[prop])))
if prop == 'serial_port':
gt_logger.gt_log_tab(
"check if your serial port driver is correctly installed!"
)
if prop == 'mount_point':
gt_logger.gt_log_tab(
'check if your OS can detect and mount mbed device mount point!'
)
else:
# Adding MUT to DETECTED CORRECTLY list
ready_mbed_devices.append(mut)
return (ready_mbed_devices, not_ready_mbed_devices)
def get_parallel_value(value):
"""! Get correct value for parallel switch (--parallel)
@param value Value passed from --parallel
@return Refactored version of parallel number
"""
try:
parallel_test_exec = int(value)
if parallel_test_exec < 1:
parallel_test_exec = 1
except ValueError:
gt_logger.gt_log_err(
"argument of mode --parallel is not a int, disabled parallel mode"
)
parallel_test_exec = 1
return parallel_test_exec
# This is how you magically control colours in this piece of art software
gt_logger.colorful(not opts.plain)
# Prints version and exits
if opts.version:
print_version()
return (0)
# Load test specification or print warnings / info messages and exit CLI mode
test_spec, ret = get_test_spec(opts)
if not test_spec:
return ret
# Verbose flag
verbose = opts.verbose_test_result_only
# We will load hooks from JSON file to support extra behaviour during test execution
greentea_hooks = GreenteaHooks(
opts.hooks_json) if opts.hooks_json else None
# Capture alternative test console inputs, used e.g. in 'yotta test command'
if opts.digest_source:
enum_host_tests_path = get_local_host_tests_dir(opts.enum_host_tests)
host_test_result = run_host_test(
None,
None,
None,
None,
None,
digest_source=opts.digest_source,
enum_host_tests_path=enum_host_tests_path,
verbose=verbose)
# Some error in htrun, abort test execution
if isinstance(host_test_result, int):
# int(host_test_result) > 0 - Call to mbedhtrun failed
# int(host_test_result) < 0 - Something went wrong while executing mbedhtrun
return host_test_result
# If execution was successful 'run_host_test' return tuple with results
single_test_result, single_test_output, single_testduration, single_timeout, result_test_cases, test_cases_summary, memory_metrics = host_test_result
status = TEST_RESULTS.index(
single_test_result) if single_test_result in TEST_RESULTS else -1
return (status)
### Query with mbedls for available mbed-enabled devices
gt_logger.gt_log("detecting connected mbed-enabled devices...")
### check if argument of --parallel mode is a integer and greater or equal 1
parallel_test_exec = get_parallel_value(opts.parallel_test_exec)
# Detect devices connected to system
mbeds = mbed_os_tools.detect.create()
mbeds_list = mbeds.list_mbeds(unique_names=True, read_details_txt=True)
if opts.global_resource_mgr:
# Mocking available platform requested by --grm switch
grm_values = parse_global_resource_mgr(opts.global_resource_mgr)
if grm_values:
gt_logger.gt_log_warn(
"entering global resource manager mbed-ls dummy mode!")
grm_platform_name, grm_module_name, grm_ip_name, grm_port_name = grm_values
mbeds_list = []
for _ in range(parallel_test_exec):
mbeds_list.append(mbeds.get_dummy_platform(grm_platform_name))
opts.global_resource_mgr = ':'.join(grm_values[1:])
gt_logger.gt_log_tab("adding dummy platform '%s'" %
grm_platform_name)
else:
gt_logger.gt_log(
"global resource manager switch '--grm %s' in wrong format!" %
opts.global_resource_mgr)
return (-1)
if opts.fast_model_connection:
# Mocking available platform requested by --fm switch
fm_values = parse_fast_model_connection(opts.fast_model_connection)
if fm_values:
gt_logger.gt_log_warn(
"entering fastmodel connection, mbed-ls dummy simulator mode!")
fm_platform_name, fm_config_name = fm_values
mbeds_list = []
for _ in range(parallel_test_exec):
mbeds_list.append(mbeds.get_dummy_platform(fm_platform_name))
opts.fast_model_connection = fm_config_name
gt_logger.gt_log_tab("adding dummy fastmodel platform '%s'" %
fm_platform_name)
else:
gt_logger.gt_log(
"fast model connection switch '--fm %s' in wrong format!" %
opts.fast_model_connection)
return (-1)
ready_mbed_devices = [] # Devices which can be used (are fully detected)
not_ready_mbed_devices = [
] # Devices which can't be used (are not fully detected)
if mbeds_list:
ready_mbed_devices, not_ready_mbed_devices = filter_ready_devices(
mbeds_list)
if ready_mbed_devices:
# devices in form of a pretty formatted table
for line in log_mbed_devices_in_table(
ready_mbed_devices).splitlines():
gt_logger.gt_log_tab(line.strip(), print_text=verbose)
else:
gt_logger.gt_log_err("no compatible devices detected")
return (RET_NO_DEVICES)
### We can filter in only specific target ids
accepted_target_ids = None
if opts.use_target_ids:
gt_logger.gt_log(
"filtering out target ids not on below list (specified with --use-tids switch)"
)
accepted_target_ids = opts.use_target_ids.split(',')
for tid in accepted_target_ids:
gt_logger.gt_log_tab("accepting target id '%s'" %
gt_logger.gt_bright(tid))
test_exec_retcode = 0 # Decrement this value each time test case result is not 'OK'
test_platforms_match = 0 # Count how many tests were actually ran with current settings
target_platforms_match = 0 # Count how many platforms were actually tested with current settings
test_report = {} # Test report used to export to Junit, HTML etc...
test_queue = Queue(
) # contains information about test_bin and image_path for each test case
test_result_queue = Queue() # used to store results of each thread
execute_threads = [] # list of threads to run test cases
# Values used to generate random seed for test execution order shuffle
SHUFFLE_SEED_ROUND = 10 # Value used to round float random seed
shuffle_random_seed = round(random.random(), SHUFFLE_SEED_ROUND)
# Set shuffle seed if it is provided with command line option
if opts.shuffle_test_seed:
shuffle_random_seed = round(float(opts.shuffle_test_seed),
SHUFFLE_SEED_ROUND)
### Testing procedures, for each target, for each target's compatible platform
# In case we are using test spec (switch --test-spec) command line option -t <list_of_targets>
# is used to enumerate builds from test spec we are supplying
filter_test_builds = opts.list_of_targets.split(
',') if opts.list_of_targets else None
for test_build in test_spec.get_test_builds(filter_test_builds):
platform_name = test_build.get_platform()
gt_logger.gt_log(
"processing target '%s' toolchain '%s' compatible platforms... (note: switch set to --parallel %d)"
% (gt_logger.gt_bright(platform_name),
gt_logger.gt_bright(
test_build.get_toolchain()), int(opts.parallel_test_exec)))
baudrate = test_build.get_baudrate()
### Select MUTS to test from list of available MUTS to start testing
mut = None
number_of_parallel_instances = 1
muts_to_test = [] # MUTs to actually be tested
for mbed_dev in ready_mbed_devices:
if accepted_target_ids and mbed_dev[
'target_id'] not in accepted_target_ids:
continue
# Check that we have a valid serial port detected.
sp = mbed_dev['serial_port']
if not sp:
gt_logger.gt_log_err(
"Serial port for target %s not detected correctly\n" %
mbed_dev['target_id'])
continue
if mbed_dev['platform_name'] == platform_name:
# We will force configuration specific baudrate by adding baudrate to serial port
# Only add baudrate decoration for serial port if it's not already there
# Format used by mbedhtrun: 'serial_port' = '<serial_port_name>:<baudrate>'
if not sp.endswith(str(baudrate)):
mbed_dev['serial_port'] = "%s:%d" % (
mbed_dev['serial_port'], baudrate)
mut = mbed_dev
if mbed_dev not in muts_to_test:
# We will only add unique devices to list of devices "for testing" in this test run
muts_to_test.append(mbed_dev)
if number_of_parallel_instances < parallel_test_exec:
number_of_parallel_instances += 1
else:
break
# devices in form of a pretty formatted table
for line in log_mbed_devices_in_table(muts_to_test).splitlines():
gt_logger.gt_log_tab(line.strip(), print_text=verbose)
# Configuration print mode:
if opts.verbose_test_configuration_only:
continue
### If we have at least one available device we can proceed
if mut:
target_platforms_match += 1
build = test_build.get_name()
build_path = test_build.get_path()
# Demo mode: --run implementation (already added --run to mbedhtrun)
# We want to pass file name to mbedhtrun (--run NAME => -f NAME_ and run only one binary
if opts.run_app:
gt_logger.gt_log(
"running '%s' for '%s'-'%s'" %
(gt_logger.gt_bright(
opts.run_app), gt_logger.gt_bright(platform_name),
gt_logger.gt_bright(test_build.get_toolchain())))
disk = mut['mount_point']
port = mut['serial_port']
micro = mut['platform_name']
program_cycle_s = get_platform_property(
micro, "program_cycle_s")
copy_method = opts.copy_method if opts.copy_method else 'shell'
enum_host_tests_path = get_local_host_tests_dir(
opts.enum_host_tests)
test_platforms_match += 1
host_test_result = run_host_test(
opts.run_app,
disk,
port,
build_path,
mut['target_id'],
micro=micro,
copy_method=copy_method,
program_cycle_s=program_cycle_s,
digest_source=opts.digest_source,
json_test_cfg=opts.json_test_configuration,
run_app=opts.run_app,
enum_host_tests_path=enum_host_tests_path,
verbose=True)
# Some error in htrun, abort test execution
if isinstance(host_test_result, int):
# int(host_test_result) > 0 - Call to mbedhtrun failed
# int(host_test_result) < 0 - Something went wrong while executing mbedhtrun
return host_test_result
# If execution was successful 'run_host_test' return tuple with results
single_test_result, single_test_output, single_testduration, single_timeout, result_test_cases, test_cases_summary, memory_metrics = host_test_result
status = TEST_RESULTS.index(
single_test_result
) if single_test_result in TEST_RESULTS else -1
if single_test_result != TEST_RESULT_OK:
test_exec_retcode += 1
test_list = test_build.get_tests()
filtered_ctest_test_list = create_filtered_test_list(
test_list,
opts.test_by_names,
opts.skip_test,
test_spec=test_spec)
gt_logger.gt_log(
"running %d test%s for platform '%s' and toolchain '%s'" %
(len(filtered_ctest_test_list),
"s" if len(filtered_ctest_test_list) != 1 else "",
gt_logger.gt_bright(platform_name),
gt_logger.gt_bright(test_build.get_toolchain())))
# Test execution order can be shuffled (also with provided random seed)
# for test execution reproduction.
filtered_ctest_test_list_keys = filtered_ctest_test_list.keys()
if opts.shuffle_test_order:
# We want to shuffle test names randomly
random.shuffle(filtered_ctest_test_list_keys,
lambda: shuffle_random_seed)
for test_name in filtered_ctest_test_list_keys:
image_path = filtered_ctest_test_list[test_name].get_binary(
binary_type=TestBinary.BIN_TYPE_BOOTABLE).get_path()
if image_path is None:
gt_logger.gt_log_err(
"Failed to find test binary for test %s flash method %s"
% (test_name, 'usb'))
else:
test = {"test_bin": test_name, "image_path": image_path}
test_queue.put(test)
number_of_threads = 0
for mut in muts_to_test:
# Experimental, parallel test execution
if number_of_threads < parallel_test_exec:
args = (test_result_queue, test_queue, opts, mut, build,
build_path, greentea_hooks)
t = Thread(target=run_test_thread, args=args)
execute_threads.append(t)
number_of_threads += 1
gt_logger.gt_log_tab(
"use %s instance%s of execution threads for testing" %
(len(execute_threads),
's' if len(execute_threads) != 1 else str()),
print_text=verbose)
for t in execute_threads:
t.daemon = True
t.start()
# merge partial test reports from different threads to final test report
for t in execute_threads:
try:
# We can't block forever here since that prevents KeyboardInterrupts
# from being propagated correctly. Therefore, we just join with a
# timeout of 0.1 seconds until the thread isn't alive anymore.
# A time of 0.1 seconds is a fairly arbitrary choice. It needs
# to balance CPU utilization and responsiveness to keyboard interrupts.
# Checking 10 times a second seems to be stable and responsive.
while t.isAlive():
t.join(0.1)
test_return_data = test_result_queue.get(False)
except Exception as e:
# No test report generated
gt_logger.gt_log_err("could not generate test report" + str(e))
test_exec_retcode += -1000
return test_exec_retcode
test_platforms_match += test_return_data['test_platforms_match']
test_exec_retcode += test_return_data['test_exec_retcode']
partial_test_report = test_return_data['test_report']
# todo: find better solution, maybe use extend
for report_key in partial_test_report.keys():
if report_key not in test_report:
test_report[report_key] = {}
test_report.update(partial_test_report)
else:
test_report[report_key].update(
partial_test_report[report_key])
execute_threads = []
if opts.verbose_test_configuration_only:
print
print(
"Example: execute 'mbedgt --target=TARGET_NAME' to start testing for TARGET_NAME target"
)
return (0)
gt_logger.gt_log("all tests finished!")
# We will execute post test hooks on tests
for build_name in test_report:
test_name_list = [] # All test case names for particular yotta target
for test_name in test_report[build_name]:
test = test_report[build_name][test_name]
# Test was successful
if test['single_test_result'] in [
TEST_RESULT_OK, TEST_RESULT_FAIL
]:
test_name_list.append(test_name)
# Call hook executed for each test, just after all tests are finished
if greentea_hooks:
# We can execute this test hook just after all tests are finished ('hook_post_test_end')
format = {
"test_name": test_name,
"test_bin_name": test['test_bin_name'],
"image_path": test['image_path'],
"build_path": test['build_path'],
"build_path_abs": test['build_path_abs'],
}
greentea_hooks.run_hook_ext('hook_post_test_end', format)
if greentea_hooks:
build = test_spec.get_test_build(build_name)
assert build is not None, "Failed to find build info for build %s" % build_name
# Call hook executed for each yotta target, just after all tests are finished
build_path = build.get_path()
build_path_abs = os.path.abspath(build_path)
# We can execute this test hook just after all tests are finished ('hook_post_test_end')
format = {
"build_path": build_path,
"build_path_abs": build_path_abs,
"test_name_list": test_name_list,
}
greentea_hooks.run_hook_ext('hook_post_all_test_end', format)
# This tool is designed to work in CI
# We want to return success codes based on tool actions,
# only if testes were executed and all passed we want to
# return 0 (success)
if not opts.only_build_tests:
# Prints shuffle seed
gt_logger.gt_log("shuffle seed: %.*f" %
(SHUFFLE_SEED_ROUND, shuffle_random_seed))
def dump_report_to_text_file(filename, content):
"""! Closure for report dumps to text files
@param filename Name of destination file
@parm content Text content of the file to write
@return True if write was successful, else return False
"""
try:
with open(filename, 'w') as f:
f.write(content)
except IOError as e:
gt_logger.gt_log_err("can't export to '%s', reason:" %
filename)
gt_logger.gt_log_err(str(e))
return False
return True
# Reports to JUNIT file
if opts.report_junit_file_name:
gt_logger.gt_log("exporting to JUNIT file '%s'..." %
gt_logger.gt_bright(opts.report_junit_file_name))
# This test specification will be used by JUnit exporter to populate TestSuite.properties (useful meta-data for Viewer)
test_suite_properties = {}
for target_name in test_report:
test_build_properties = get_test_build_properties(
test_spec, target_name)
if test_build_properties:
test_suite_properties[target_name] = test_build_properties
junit_report = exporter_testcase_junit(
test_report, test_suite_properties=test_suite_properties)
dump_report_to_text_file(opts.report_junit_file_name, junit_report)
# Reports to text file
if opts.report_text_file_name:
gt_logger.gt_log("exporting to TEXT '%s'..." %
gt_logger.gt_bright(opts.report_text_file_name))
# Useful text reporter for those who do not like to copy paste to files tabale with results
text_report, text_results = exporter_text(test_report)
text_testcase_report, text_testcase_results = exporter_testcase_text(
test_report)
text_final_report = '\n'.join([
text_report, text_results, text_testcase_report,
text_testcase_results
])
dump_report_to_text_file(opts.report_text_file_name,
text_final_report)
# Reports to JSON file
if opts.report_json_file_name:
# We will not print summary and json report together
gt_logger.gt_log("exporting to JSON '%s'..." %
gt_logger.gt_bright(opts.report_json_file_name))
json_report = exporter_json(test_report)
dump_report_to_text_file(opts.report_json_file_name, json_report)
# Reports to HTML file
if opts.report_html_file_name:
gt_logger.gt_log("exporting to HTML file '%s'..." %
gt_logger.gt_bright(opts.report_html_file_name))
# Generate a HTML page displaying all of the results
html_report = exporter_html(test_report)
dump_report_to_text_file(opts.report_html_file_name, html_report)
# Memory metrics to CSV file
if opts.report_memory_metrics_csv_file_name:
gt_logger.gt_log(
"exporting memory metrics to CSV file '%s'..." %
gt_logger.gt_bright(opts.report_memory_metrics_csv_file_name))
# Generate a CSV file page displaying all memory metrics
memory_metrics_csv_report = exporter_memory_metrics_csv(
test_report)
dump_report_to_text_file(opts.report_memory_metrics_csv_file_name,
memory_metrics_csv_report)
# Final summary
if test_report:
# Test suite report
gt_logger.gt_log("test suite report:")
text_report, text_results = exporter_text(test_report)
print(text_report)
gt_logger.gt_log("test suite results: " + text_results)
# test case detailed report
gt_logger.gt_log("test case report:")
text_testcase_report, text_testcase_results = exporter_testcase_text(
test_report)
print(text_testcase_report)
gt_logger.gt_log("test case results: " + text_testcase_results)
# This flag guards 'build only' so we expect only yotta errors
if test_platforms_match == 0:
# No tests were executed
gt_logger.gt_log_warn(
"no platform/target matching tests were found!")
test_exec_retcode += -10
if target_platforms_match == 0:
# No platforms were tested
gt_logger.gt_log_warn("no matching platforms were found!")
test_exec_retcode += -100
return (test_exec_retcode)
def run_test_thread(test_result_queue, test_queue, opts, mut, build,
build_path, greentea_hooks):
test_exec_retcode = 0
test_platforms_match = 0
test_report = {}
disk = mut['mount_point']
port = mut['serial_port']
micro = mut['platform_name']
program_cycle_s = get_platform_property(micro, "program_cycle_s")
forced_reset_timeout = get_platform_property(micro, "forced_reset_timeout")
copy_method = get_platform_property(micro, "copy_method")
reset_method = get_platform_property(micro, "reset_method")
while not test_queue.empty():
try:
test = test_queue.get(False)
except Exception as e:
gt_logger.gt_log_err(str(e))
break
test_result = 'SKIPPED'
if opts.copy_method:
copy_method = opts.copy_method
elif not copy_method:
copy_method = 'shell'
if opts.reset_method:
reset_method = opts.reset_method
verbose = opts.verbose_test_result_only
enum_host_tests_path = get_local_host_tests_dir(opts.enum_host_tests)
test_platforms_match += 1
host_test_result = run_host_test(
test['image_path'],
disk,
port,
build_path,
mut['target_id'],
micro=micro,
copy_method=copy_method,
reset=reset_method,
program_cycle_s=program_cycle_s,
forced_reset_timeout=forced_reset_timeout,
digest_source=opts.digest_source,
json_test_cfg=opts.json_test_configuration,
enum_host_tests_path=enum_host_tests_path,
global_resource_mgr=opts.global_resource_mgr,
fast_model_connection=opts.fast_model_connection,
num_sync_packtes=opts.num_sync_packtes,
tags=opts.tags,
retry_count=opts.retry_count,
polling_timeout=opts.polling_timeout,
verbose=verbose)
# Some error in htrun, abort test execution
if isinstance(host_test_result, int):
# int(host_test_result) > 0 - Call to mbedhtrun failed
# int(host_test_result) < 0 - Something went wrong while executing mbedhtrun
gt_logger.gt_log_err(
"run_test_thread.run_host_test() failed, aborting...")
break
# If execution was successful 'run_host_test' return tuple with results
single_test_result, single_test_output, single_testduration, single_timeout, result_test_cases, test_cases_summary, memory_metrics = host_test_result
test_result = single_test_result
build_path_abs = os.path.abspath(build_path)
if single_test_result != TEST_RESULT_OK:
test_exec_retcode += 1
if single_test_result in [TEST_RESULT_OK, TEST_RESULT_FAIL]:
if greentea_hooks:
# Test was successful
# We can execute test hook just after test is finished ('hook_test_end')
format = {
"test_name": test['test_bin'],
"test_bin_name": os.path.basename(test['image_path']),
"image_path": test['image_path'],
"build_path": build_path,
"build_path_abs": build_path_abs,
"build_name": build,
}
greentea_hooks.run_hook_ext('hook_test_end', format)
# Update report for optional reporting feature
test_suite_name = test['test_bin'].lower()
if build not in test_report:
test_report[build] = {}
if test_suite_name not in test_report[build]:
test_report[build][test_suite_name] = {}
if not test_cases_summary and not result_test_cases:
gt_logger.gt_log_warn("test case summary event not found")
gt_logger.gt_log_tab(
"no test case report present, assuming test suite to be a single test case!"
)
# We will map test suite result to test case to
# output valid test case in report
# Generate "artificial" test case name from test suite name#
# E.g:
# mbed-drivers-test-dev_null -> dev_null
test_case_name = test_suite_name
test_str_idx = test_suite_name.find("-test-")
if test_str_idx != -1:
test_case_name = test_case_name[test_str_idx + 6:]
gt_logger.gt_log_tab("test suite: %s" % test_suite_name)
gt_logger.gt_log_tab("test case: %s" % test_case_name)
# Test case result: OK, FAIL or ERROR
tc_result_text = {
"OK": "OK",
"FAIL": "FAIL",
}.get(single_test_result, 'ERROR')
# Test case integer success code OK, FAIL and ERROR: (0, >0, <0)
tc_result = {
"OK": 0,
"FAIL": 1024,
"ERROR": -1024,
}.get(tc_result_text, '-2048')
# Test case passes and failures: (1 pass, 0 failures) or (0 passes, 1 failure)
tc_passed, tc_failed = {
0: (1, 0),
}.get(tc_result, (0, 1))
# Test case report build for whole binary
# Add test case made from test suite result to test case report
result_test_cases = {
test_case_name: {
'duration': single_testduration,
'time_start': 0.0,
'time_end': 0.0,
'utest_log': single_test_output.splitlines(),
'result_text': tc_result_text,
'passed': tc_passed,
'failed': tc_failed,
'result': tc_result,
}
}
# Test summary build for whole binary (as a test case)
test_cases_summary = (
tc_passed,
tc_failed,
)
gt_logger.gt_log("test on hardware with target id: %s" %
(mut['target_id']))
gt_logger.gt_log(
"test suite '%s' %s %s in %.2f sec" %
(test['test_bin'], '.' *
(80 - len(test['test_bin'])), test_result, single_testduration))
# Test report build for whole binary
test_report[build][test_suite_name][
'single_test_result'] = single_test_result
test_report[build][test_suite_name][
'single_test_output'] = single_test_output
test_report[build][test_suite_name][
'elapsed_time'] = single_testduration
test_report[build][test_suite_name]['platform_name'] = micro
test_report[build][test_suite_name]['copy_method'] = copy_method
test_report[build][test_suite_name][
'testcase_result'] = result_test_cases
test_report[build][test_suite_name]['memory_metrics'] = memory_metrics
test_report[build][test_suite_name]['build_path'] = build_path
test_report[build][test_suite_name]['build_path_abs'] = build_path_abs
test_report[build][test_suite_name]['image_path'] = test['image_path']
test_report[build][test_suite_name][
'test_bin_name'] = os.path.basename(test['image_path'])
passes_cnt, failures_cnt = 0, 0
for tc_name in sorted(result_test_cases.keys()):
gt_logger.gt_log_tab(
"test case: '%s' %s %s in %.2f sec" %
(tc_name, '.' * (80 - len(tc_name)),
result_test_cases[tc_name].get('result_text', '_'),
result_test_cases[tc_name].get('duration', 0.0)))
if result_test_cases[tc_name].get('result_text', '_') == 'OK':
passes_cnt += 1
else:
failures_cnt += 1
if test_cases_summary:
passes, failures = test_cases_summary
gt_logger.gt_log("test case summary: %d pass%s, %d failur%s" %
(passes, '' if passes == 1 else 'es', failures,
'e' if failures == 1 else 'es'))
if passes != passes_cnt or failures != failures_cnt:
gt_logger.gt_log_err(
"utest test case summary mismatch: utest reported passes and failures miscount!"
)
gt_logger.gt_log_tab(
"reported by utest: passes = %d, failures %d)" %
(passes, failures))
gt_logger.gt_log_tab(
"test case result count: passes = %d, failures %d)" %
(passes_cnt, failures_cnt))
if single_test_result != 'OK' and not verbose and opts.report_fails:
# In some cases we want to print console to see why test failed
# even if we are not in verbose mode
gt_logger.gt_log_tab(
"test failed, reporting console output (specified with --report-fails option)"
)
print
print(single_test_output)
#greentea_release_target_id(mut['target_id'], gt_instance_uuid)
test_result_queue.put({
'test_platforms_match': test_platforms_match,
'test_exec_retcode': test_exec_retcode,
'test_report': test_report
})
return
