def test_get_test_pins(self):
yotta_config = YottaConfig()
yotta_config.set_yotta_config(self.YOTTA_CONFIG_LONG)
self.assertEqual(yotta_config.get_baudrate(), 9600)
self.assertIn('spi', yotta_config.get_test_pins())
self.assertIn('i2c', yotta_config.get_test_pins())
self.assertIn('serial', yotta_config.get_test_pins())
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
"""
if not MBED_LMTOOLS:
gt_log_err("error: mbed-ls proprietary module not installed")
return (-1)
if not MBED_HOST_TESTS:
gt_log_err("error: mbed-host-tests proprietary module not installed")
return (-1)
# List available test binaries (names, no extension)
if opts.list_binaries:
list_binaries_for_targets()
return (0)
# Prints version and exits
if opts.version:
print_version()
return (0)
# 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(image_path=None,
disk=None,
port=None,
digest_source=opts.digest_source,
enum_host_tests_path=enum_host_tests_path,
verbose=opts.verbose_test_result_only)
single_test_result, single_test_output, single_testduration, single_timeout = host_test_result
status = TEST_RESULTS.index(single_test_result) if single_test_result in TEST_RESULTS else -1
return (status)
### Selecting yotta targets to process
yt_targets = [] # List of yotta targets specified by user used to process during this run
if opts.list_of_targets:
yt_targets = opts.list_of_targets.split(',')
else:
# Trying to use locally set yotta target
gt_log("checking for yotta target in current directory")
gt_log_tab("reason: no --target switch set")
current_target = get_mbed_target_from_current_dir()
if current_target:
gt_log("assuming default target as '%s'"% gt_bright(current_target))
# Assuming first target printed by 'yotta search' will be used
yt_targets = [current_target]
else:
gt_log_tab("yotta target in current directory is not set")
gt_log_err("yotta target is not specified. Use '%s' or '%s' command to set target"%
(
gt_bright('mbedgt -t <yotta_target>'),
gt_bright('yotta target <yotta_target>')
))
return (-1)
#print "yt_targets:", yt_targets
### Query with mbedls for available mbed-enabled devices
gt_log("detecting connected mbed-enabled devices...")
# Detect devices connected to system
mbeds = mbed_lstools.create()
mbeds_list = mbeds.list_mbeds_ext()
ready_mbed_devices = [] # Devices which can be used (are fully detected)
if mbeds_list:
gt_log("detected %d device%s"% (len(mbeds_list), 's' if len(mbeds_list) != 1 else ''))
for mut in mbeds_list:
if not all(mut.values()):
gt_log_err("can't detect all properties of the device!")
else:
ready_mbed_devices.append(mut)
gt_log_tab("detected '%s' -> '%s', console at '%s', mounted at '%s', target id '%s'"% (
gt_bright(mut['platform_name']),
gt_bright(mut['platform_name_unique']),
gt_bright(mut['serial_port']),
gt_bright(mut['mount_point']),
gt_bright(mut['target_id'])
))
else:
gt_log("no devices detected")
return (RET_NO_DEVICES)
### Use yotta to search mapping between platform names and available platforms
# Convert platform:target, ... mapping to data structure
map_platform_to_yt_target = {}
if opts.map_platform_to_yt_target:
gt_log("user defined platform -> target supported mapping definition (specified with --map-target switch)")
p_to_t_mappings = opts.map_platform_to_yt_target.split(',')
for mapping in p_to_t_mappings:
if len(mapping.split(':')) == 2:
platform, yt_target = mapping.split(':')
if platform not in map_platform_to_yt_target:
map_platform_to_yt_target[platform] = []
map_platform_to_yt_target[platform].append(yt_target)
gt_log_tab("mapped platform '%s' to be compatible with '%s'"% (
gt_bright(platform),
gt_bright(yt_target)
))
else:
gt_log_tab("unknown format '%s', use 'platform:target' format"% mapping)
# Check if mbed classic target name can be translated to yotta target name
mut_info_map = {} # platform_name : mut_info_dict, extract yt_targets with e.g. [k["yotta_target"] for k in d['K64F']["yotta_targets"]]
for mut in ready_mbed_devices:
platfrom_name = mut['platform_name']
if platfrom_name not in mut_info_map:
mut_info = get_mbed_clasic_target_info(platfrom_name,
map_platform_to_yt_target,
use_yotta_registry=opts.yotta_search_for_mbed_target)
if mut_info:
mut_info_map[platfrom_name] = mut_info
#print "mut_info_map:", json.dumps(mut_info_map, indent=2)
### List of unique ready platform names
unique_mbed_devices = list(set(mut_info_map.keys()))
#print "unique_mbed_devices", json.dumps(unique_mbed_devices, indent=2)
### Identify which targets has to be build because platforms are present
yt_target_platform_map = {} # yt_target_to_test : platforms to test on
for yt_target in yt_targets:
for platform_name in unique_mbed_devices:
if yt_target in [k["yotta_target"] for k in mut_info_map[platform_name]["yotta_targets"]]:
if yt_target not in yt_target_platform_map:
yt_target_platform_map[yt_target] = []
if platform_name not in yt_target_platform_map[yt_target]:
yt_target_platform_map[yt_target].append(platform_name)
#print "yt_target_platform_map", json.dumps(yt_target_platform_map, indent=2)
### We can filter in only specific target ids
accepted_target_ids = None
if opts.use_target_ids:
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_log_tab("accepting target id '%s'"% 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...
muts_to_test = [] # MUTs to actually be tested
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
### check if argument of --parallel mode is a integer and greater or equal 1
try:
parallel_test_exec = int(opts.parallel_test_exec)
if parallel_test_exec < 1:
parallel_test_exec = 1
except ValueError:
gt_log_err("argument of mode --parallel is not a int, disable parallel mode")
parallel_test_exec = 1
### Testing procedures, for each target, for each target's compatible platform
for yotta_target_name in yt_target_platform_map:
gt_log("processing '%s' yotta target compatible platforms..."% gt_bright(yotta_target_name))
for platform_name in yt_target_platform_map[yotta_target_name]:
gt_log("processing '%s' platform..."% gt_bright(platform_name))
### Select MUTS to test from list of available MUTS to start testing
mut = None
number_of_parallel_instances = 1
for mbed_dev in ready_mbed_devices:
if accepted_target_ids and mbed_dev['target_id'] not in accepted_target_ids:
continue
if mbed_dev['platform_name'] == platform_name:
mut = mbed_dev
muts_to_test.append(mbed_dev)
gt_log("using platform '%s' for test:"% gt_bright(platform_name))
for k in mbed_dev:
gt_log_tab("%s = '%s'"% (k, mbed_dev[k]))
if number_of_parallel_instances < parallel_test_exec:
number_of_parallel_instances += 1
else:
break
# Configuration print mode:
if opts.verbose_test_configuration_only:
continue
if mut:
target_platforms_match += 1
# 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_log("running '%s' for '%s'"% (gt_bright(opts.run_app), gt_bright(yotta_target_name)))
disk = mut['mount_point']
port = mut['serial_port']
micro = mut['platform_name']
program_cycle_s = mut_info_map[platfrom_name]['properties']['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)
yotta_config = YottaConfig()
yotta_config.init(yotta_target_name)
yotta_config_baudrate = yotta_config.get_baudrate()
# We will force configuration specific baudrate
if port:
port = "%s:%d"% (port, yotta_config_baudrate)
test_platforms_match += 1
host_test_result = run_host_test(opts.run_app,
disk,
port,
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)
single_test_result, single_test_output, single_testduration, single_timeout = 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
continue
# Regression test mode:
# Building sources for given target and perform normal testing
yotta_result, yotta_ret = True, 0 # Skip build and assume 'yotta build' was successful
if opts.skip_yotta_build:
gt_log("skipping calling yotta (specified with --skip-build option)")
else:
yotta_result, yotta_ret = build_with_yotta(yotta_target_name,
verbose=opts.verbose,
build_to_release=opts.build_to_release,
build_to_debug=opts.build_to_debug)
# We need to stop executing if yotta build fails
if not yotta_result:
gt_log_err("yotta returned %d"% yotta_ret)
return (RET_YOTTA_BUILD_FAIL)
if opts.only_build_tests:
continue
# Build phase will be followed by test execution for each target
if yotta_result and not opts.only_build_tests:
binary_type = mut_info_map[platform_name]['properties']['binary_type']
ctest_test_list = load_ctest_testsuite(os.path.join('.', 'build', yotta_target_name),
binary_type=binary_type)
#print json.dumps(ctest_test_list, indent=2)
#TODO no tests to execute
filtered_ctest_test_list = ctest_test_list
test_list = None
if opts.test_by_names:
filtered_ctest_test_list = {} # Subset of 'ctest_test_list'
test_list = opts.test_by_names.split(',')
gt_log("test case filter (specified with -n option)")
invalid_test_names = False
for test_name in test_list:
if test_name not in ctest_test_list:
gt_log_tab("test name '%s' not found in CTestTestFile.cmake (specified with -n option)"% gt_bright(test_name))
invalid_test_names = True
else:
gt_log_tab("test filtered in '%s'"% gt_bright(test_name))
filtered_ctest_test_list[test_name] = ctest_test_list[test_name]
if invalid_test_names:
gt_log("invalid test case names (specified with -n option)")
gt_log_tab("note: test case names are case sensitive")
gt_log_tab("note: see list of available test cases below")
list_binaries_for_targets(verbose_footer=False)
gt_log("running %d test%s for target '%s' and platform '%s'"% (
len(filtered_ctest_test_list),
"s" if len(filtered_ctest_test_list) != 1 else "",
gt_bright(yotta_target_name),
gt_bright(platform_name)
))
for test_bin, image_path in filtered_ctest_test_list.iteritems():
test = {"test_bin":test_bin, "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, mut_info, yotta_target_name)
t = Thread(target=run_test_thread, args=args)
execute_threads.append(t)
number_of_threads += 1
gt_log_tab("use %s instance%s for testing" % (len(execute_threads), 's' if len(execute_threads) != 1 else ''))
for t in execute_threads:
t.daemon = True
t.start()
while test_result_queue.qsize() != len(execute_threads):
sleep(1)
# merge partial test reports from diffrent threads to final test report
for t in execute_threads:
t.join()
test_return_data = test_result_queue.get(False)
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])
if opts.verbose_test_configuration_only:
print
print "Example: execute 'mbedgt --target=TARGET_NAME' to start testing for TARGET_NAME target"
return (0)
# 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:
# Reports (to file)
if opts.report_junit_file_name:
junit_report = exporter_junit(test_report)
with open(opts.report_junit_file_name, 'w') as f:
f.write(junit_report)
if opts.report_text_file_name:
gt_log("exporting to junit '%s'..."% gt_bright(opts.report_text_file_name))
text_report, text_results = exporter_text(test_report)
with open(opts.report_text_file_name, 'w') as f:
f.write(text_report)
# Reports (to console)
if opts.report_json:
# We will not print summary and json report together
gt_log("json test report:")
print exporter_json(test_report)
else:
# Final summary
if test_report:
gt_log("test report:")
text_report, text_results = exporter_text(test_report)
print text_report
print
print "Result: " + text_results
# This flag guards 'build only' so we expect only yotta errors
if test_platforms_match == 0:
# No tests were executed
gt_log("no platform/target matching tests were found!")
test_exec_retcode += -10
if target_platforms_match == 0:
# No platforms were tested
gt_log("no target matching platforms were found!")
test_exec_retcode += -100
return (test_exec_retcode)
def run_test_thread(test_result_queue, test_queue, opts, mut, mut_info, yotta_target_name):
test_exec_retcode = 0
test_platforms_match = 0
test_report = {}
yotta_config_baudrate = None # Default serial port baudrate forced by configuration
yotta_config = YottaConfig()
yotta_config.init(yotta_target_name)
yotta_config_baudrate = yotta_config.get_baudrate()
while not test_queue.empty():
try:
test = test_queue.get(False)
except Exception as e:
print(str(e))
break
test_result = 'SKIPPED'
disk = mut['mount_point']
port = mut['serial_port']
micro = mut['platform_name']
program_cycle_s = mut_info['properties']['program_cycle_s']
copy_method = opts.copy_method if opts.copy_method else 'shell'
verbose = opts.verbose_test_result_only
enum_host_tests_path = get_local_host_tests_dir(opts.enum_host_tests)
# We will force configuration specific baudrate
if port:
port = "%s:%d"% (port, yotta_config_baudrate)
test_platforms_match += 1
#gt_log_tab("running host test...")
host_test_result = run_host_test(test['image_path'],
disk,
port,
micro=micro,
copy_method=copy_method,
program_cycle_s=program_cycle_s,
digest_source=opts.digest_source,
json_test_cfg=opts.json_test_configuration,
enum_host_tests_path=enum_host_tests_path,
verbose=verbose)
single_test_result, single_test_output, single_testduration, single_timeout = host_test_result
test_result = single_test_result
if single_test_result != TEST_RESULT_OK:
test_exec_retcode += 1
# Update report for optional reporting feature
test_name = test['test_bin'].lower()
if yotta_target_name not in test_report:
test_report[yotta_target_name] = {}
if test_name not in test_report[yotta_target_name]:
test_report[yotta_target_name][test_name] = {}
test_report[yotta_target_name][test_name]['single_test_result'] = single_test_result
test_report[yotta_target_name][test_name]['single_test_output'] = single_test_output
test_report[yotta_target_name][test_name]['elapsed_time'] = single_testduration
test_report[yotta_target_name][test_name]['platform_name'] = micro
test_report[yotta_target_name][test_name]['copy_method'] = copy_method
gt_log("test on hardware with target id: %s \n\ttest '%s' %s %s in %.2f sec"% (mut['target_id'], test['test_bin'], '.' * (80 - len(test['test_bin'])), test_result, single_testduration))
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_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
def test_get_baudrate_None(self):
yotta_config = YottaConfig()
yotta_config.set_yotta_config(None)
self.assertEqual(yotta_config.get_baudrate(), yotta_config.DEFAULT_BAUDRATE)
self.assertEqual(115200, yotta_config.DEFAULT_BAUDRATE)
def test_get_baudrate_default_115200_no_yotta_config(self):
yotta_config = YottaConfig()
self.assertEqual(yotta_config.get_baudrate(), yotta_config.DEFAULT_BAUDRATE)
def test_get_baudrate_38400(self):
yotta_config = YottaConfig()
yotta_config.set_yotta_config(self.YOTTA_CONFIG_SHORT)
self.assertEqual(yotta_config.get_baudrate(), 38400)
def test_get_baudrate_9600(self):
yotta_config = YottaConfig()
yotta_config.set_yotta_config(self.YOTTA_CONFIG_LONG)
self.assertEqual(yotta_config.get_baudrate(), 9600)
