def _execute(self):
self.start_time = time.time()
suite_error = False
# run suite `before` function
if self.suite.before:
try:
self.suite.before.__call__()
except:
print('ERROR: suite before function failed')
print(traceback.format_exc())
if not suite_error:
if self.interactive and self.execution.processes != 1:
print(
'WARNING: to run in debug mode, processes must equal one')
if self.execution.processes == 1:
# run tests serially
for test in self.execution.tests:
run_test(session.testdir, self.project, test.name,
test.data_set, test.secrets, test.browser,
test.env, session.settings, test.reportdir,
self.execution.has_failed_tests,
self.execution.tags, self.is_suite)
else:
# run tests using multiprocessing
multiprocess_executor(self.project, self.execution.tests,
self.execution.has_failed_tests,
self.execution.processes,
self.execution.tags, self.is_suite)
# run suite `after` function
if self.suite.after:
try:
self.suite.after.__call__()
except:
print('ERROR: suite before function failed')
print(traceback.format_exc())
self._finalize()
def execute(self):
start_time = time.time()
suite_error = False
# run suite `before` function
if self.suite.before:
try:
self.suite.before.__call__()
except:
print('ERROR: suite before function failed')
print(traceback.format_exc())
if not suite_error:
if self.interactive and self.execution.processes != 1:
print('WARNING: to run in debug mode, threads must equal one')
if self.execution.processes == 1:
# run tests serially
for test in self.execution.tests:
run_test(test_execution.root_path, self.project, test.name,
test.data_set, test.browser,
test_execution.settings, test.reportdir)
else:
# run tests using multiprocessing
multiprocess_executor(self.project, self.execution.tests,
self.execution.processes)
# run suite `after` function
if self.suite.after:
try:
self.suite.after.__call__()
except:
print('ERROR: suite before function failed')
print(traceback.format_exc())
# generate execution_result.json
elapsed_time = round(time.time() - start_time, 2)
report_parser.generate_execution_report(self.execution.reportdir,
elapsed_time)
def run_test_or_suite(workspace, project, test=None, suite=None, directory_suite=None):
'''run a test, a suite or a "directory suite"'''
# suitex = {
# 'tests': []
# }
tests = []
threads = 1
suite_amount_workers = None
suite_drivers = None
suite_envs = []
drivers = []
suite_module = None
report_suite_name = None
is_suite = False
# get test list
if test:
tests = [test]
report_suite_name = 'single_tests'
elif suite:
tests = utils.get_suite_test_cases(workspace, project, suite)
suite_amount_workers = utils.get_suite_amount_of_workers(workspace, project, suite)
suite_drivers = utils.get_suite_browsers(workspace, project, suite)
suite_envs = utils.get_suite_environments(workspace, project, suite)
suite_module = utils.get_suite_module(test_execution.root_path,
test_execution.project,
suite)
report_suite_name = suite
is_suite = True
elif directory_suite:
tests = utils.get_directory_suite_test_cases(workspace, project, directory_suite)
report_suite_name = directory_suite
is_suite = True
else:
sys.exit("ERROR: invalid arguments for run_test_or_suite()")
# get threads
if test_execution.thread_amount:
# the thread count passed through cli has higher priority
threads = test_execution.thread_amount
elif suite_amount_workers:
threads = suite_amount_workers
settings_default_driver = test_execution.settings['default_browser']
drivers = utils.choose_driver_by_precedence(cli_drivers=test_execution.cli_drivers,
suite_drivers=suite_drivers,
settings_default_driver=settings_default_driver)
# check if drivers are remote
remote_browsers = settings_manager.get_remote_browsers(test_execution.settings)
default_browsers = gui_utils.get_supported_browsers_suggestions()
drivers_temp = []
for driver in drivers:
if driver in remote_browsers:
remote_browser = test_execution.settings['remote_browsers'][driver]
_ = {
'name': remote_browser['browserName'],
'full_name': driver,
'remote': True,
'capabilities': remote_browser
}
drivers_temp.append(_)
elif driver in default_browsers:
_ = {
'name': driver,
'full_name': '',
'remote': False,
'capabilities': None
}
drivers_temp.append(_)
else:
msg = ['Error: the browser {} is not defined\n'.format(driver),
'available options are:\n',
'\n'.join(default_browsers),
'\n'.join(remote_browsers)]
#sys.exit('Error: the browser {} is not defined'.format(driver))
sys.exit(''.join(msg))
drivers = drivers_temp
# timestamp is passed when the test is executed from the GUI,
# otherwise, a timestamp should be generated at this point
# the timestamp is used to identify this unique execution of the test or suite
if not test_execution.timestamp:
test_execution.timestamp = utils.get_timestamp()
#######
project_envs = environment_manager.get_envs(project)
envs = []
if test_execution.cli_environments:
# use the environments passed through command line if available
envs = test_execution.cli_environments
elif suite_envs:
# use the environments defined in the suite
envs = suite_envs
elif project_envs:
# if there are available envs, try to use the first by default
envs = [project_envs[0]]
else:
# execute using a blank environment
envs = ['']
envs_data = environment_manager.get_environment_data(project)
# get test data for each test present in the list of tests
# for each test in the list, for each data set and driver combination
# append an entry to the execution_list
execution_list = []
for test_case in tests:
data_sets = utils.get_test_data(workspace, project, test_case)
for data_set in data_sets:
for env in envs:
data_set_env = dict(data_set)
if env in envs_data:
env_data = envs_data[env]
## adding env_data to data_set
data_set_env['env'] = env_data
data_set_env['env']['name'] = env
for driver in drivers:
execution_list.append(
{
'test_name': test_case,
'data_set': data_set_env,
'driver': driver,
'report_directory': None
}
)
if is_suite:
execution_directory = report.create_suite_execution_directory(test_execution.root_path,
test_execution.project,
report_suite_name,
test_execution.timestamp)
else:
execution_directory = report.create_test_execution_directory(test_execution.root_path,
test_execution.project,
test,
test_execution.timestamp)
#
for test in execution_list:
# generate a report directory for this test
report_directory = report.create_report_directory(execution_directory,
test['test_name'],
is_suite)
test['report_directory'] = report_directory
if suite:
if hasattr(suite_module, 'before'):
suite_module.before()
if test_execution.interactive and threads == 1:
if threads == 1:
# run tests serially
for test in execution_list:
run_test(test_execution.root_path, test_execution.project,
test['test_name'], test['data_set'],
test['driver'], test_execution.settings,
test['report_directory'])
else:
print('Error: to run in debug mode, threads must equal one')
else:
# run list of tests using multiprocessing
multiprocess_executor(execution_list, is_suite, execution_directory, threads)
if suite:
if hasattr(suite_module, 'after'):
suite_module.after()
def _execute(self):
start_time = time.time()
suite_error = False
# run suite `before` function
if self.suite.before:
try:
self.suite.before.__call__()
except:
print('ERROR: suite before function failed')
print(traceback.format_exc())
if not suite_error:
if self.interactive and self.execution.processes != 1:
print('WARNING: to run in debug mode, threads must equal one')
if self.execution.processes == 1:
# run tests serially
for test in self.execution.tests:
run_test(test_execution.root_path, self.project, test.name,
test.data_set, test.secrets, test.browser,
test_execution.settings, test.reportdir,
self.execution.has_failed_tests)
else:
# run tests using multiprocessing
multiprocess_executor(self.project, self.execution.tests,
self.execution.has_failed_tests,
self.execution.processes)
# run suite `after` function
if self.suite.after:
try:
self.suite.after.__call__()
except:
print('ERROR: suite before function failed')
print(traceback.format_exc())
# generate report.json
elapsed_time = round(time.time() - start_time, 2)
self.report = report_parser.generate_execution_report(self.execution.reportdir,
elapsed_time)
if self.is_suite:
self._print_results()
# generate requested reports
if self.is_suite:
report_name = self.report_name or 'report'
report_folder = self.report_folder or self.execution.reportdir
if 'junit' in self.reports:
report_parser.generate_junit_report(self.execution.reportdir,
self.suite_name, self.timestamp,
self.report_folder, report_name)
if 'json' in self.reports and (self.report_folder or self.report_name):
report_parser.save_execution_json_report(self.report, report_folder, report_name)
if 'html' in self.reports:
gui_utils.generate_html_report(self.project, self.suite_name,
self.timestamp, self.report_folder,
report_name)
if 'html-no-images' in self.reports:
if 'html' in self.reports:
report_name = report_name + '-no-images'
gui_utils.generate_html_report(self.project, self.suite_name, self.timestamp,
self.report_folder, report_name,
no_images=True)
# exit to the console with exit status code 1 in case a test fails
if self.execution.has_failed_tests.value:
sys.exit(1)
def run_test_or_suite(workspace,
project,
test=None,
suite=None,
directory=None):
"""Run a suite or test or directory containing tests."""
execution = {
'tests': [],
'workers': 1,
'drivers': [],
'environments': [],
'suite_before': None,
'suite_after': None
}
suite_amount_workers = None
suite_drivers = None
suite_envs = []
suite_name = None
is_suite = False
if test:
execution['tests'] = [test]
suite_name = 'single_tests'
elif suite:
execution['tests'] = suite_module.get_suite_test_cases(
workspace, project, suite)
suite_amount_workers = suite_module.get_suite_amount_of_workers(
workspace, project, suite)
suite_drivers = suite_module.get_suite_browsers(
workspace, project, suite)
suite_envs = suite_module.get_suite_environments(
workspace, project, suite)
suite_imported_module = suite_module.get_suite_module(
workspace, project, suite)
execution['suite_before'] = getattr(suite_imported_module, 'before',
None)
execution['suite_after'] = getattr(suite_imported_module, 'after',
None)
suite_name = suite
is_suite = True
elif directory:
execution['tests'] = utils.get_directory_test_cases(
workspace, project, directory)
suite_name = directory
is_suite = True
else:
sys.exit("ERROR: invalid arguments for run_test_or_suite()")
# warn if no tests were found
if len(execution['tests']) == 0:
print('Warning: no tests were found')
# get amount of workers (parallel executions), default is 1
if test_execution.thread_amount:
# the thread count passed through cli has higher priority
execution['workers'] = test_execution.thread_amount
elif suite_amount_workers:
execution['workers'] = suite_amount_workers
# select the drivers to use in this execution
# the order of precedence is:
# 1. drivers defined by CLI
# 2. drivers defined inside a suite
# 3. 'default_driver' setting
# 4. default default is 'chrome'
settings_default_driver = test_execution.settings['default_browser']
selected_drivers = utils.choose_driver_by_precedence(
cli_drivers=test_execution.cli_drivers,
suite_drivers=suite_drivers,
settings_default_driver=settings_default_driver)
# Define the attributes for each driver
#
# A driver can be predefined ('chrome, 'chrome-headless', 'firefox', etc)
# or it can be defined by the user with the 'remote_browsers' setting.
# Remote browsers have extra details such as capabilities
#
# Each driver must have the following attributes:
# 'name': real name,
# 'full_name': the remote_browser name defined by the user,
# 'remote': is this a remote_browser or not
# 'capabilities': full capabilities defined in the remote_browsers setting
remote_browsers = settings_manager.get_remote_browsers(
test_execution.settings)
default_browsers = gui_utils.get_supported_browsers_suggestions()
execution['drivers'] = _define_drivers(selected_drivers, remote_browsers,
default_browsers)
# Generate timestamp if needed
# A timestamp is passed when the test is executed from the GUI.
# The gui uses this timestamp to fetch the test execution status later on.
# Otherwise, a new timestamp should be generated at this point
if not test_execution.timestamp:
test_execution.timestamp = utils.get_timestamp()
# Select which envs to use
# The user can define environments in the environments.json file.
# The suite/test can be executed in one or more of these environments.
# Which environments to use is defined by this order of preference:
# 1. envs passed by CLI
# 2. envs defined inside the suite
# 3. The first env defined
# 4. no envs at all
#
# Note, in the case of 4, the test might fail if it tries
# to use env variables
cli_envs = test_execution.cli_environments
project_envs = environment_manager.get_envs(workspace, project)
execution['environments'] = _select_environments(cli_envs, suite_envs,
project_envs)
# Generate the execution list
#
# Each test must be executed for each:
# * data set
# * environment
# * driver
#
# The result is a list that contains all the requested combinations
execution_list = _define_execution_list(workspace, project, execution)
# create the execution directory
#
# if this is a suite, the directory takes this structure
# reports/<suite_name>/<timestamp>/
#
# if this is a single test, the directory takes this structure:
# reports/single_tests/<test_name>/<timestamp>/
execution_directory = _create_execution_directory(workspace,
project,
test_execution.timestamp,
test_name=test,
suite_name=suite_name,
is_suite=is_suite)
# for each test, create the test directory
# for example, in a suite 'suite1' with a 'test1':
# reports/suite1/2017.07.02.19.22.20.001/test1/set_00001/
for test in execution_list:
report_directory = report.create_report_directory(
execution_directory, test['test_name'], is_suite)
test['report_directory'] = report_directory
# EXECUTION
start_time = time.time()
suite_error = False
# run suite `before` function
if execution['suite_before']:
try:
execution['suite_before'].__call__()
except:
print('ERROR: suite before function failed')
print(traceback.format_exc())
if not suite_error:
if test_execution.interactive and execution['workers'] != 1:
print('WARNING: to run in debug mode, threads must equal one')
if execution['workers'] == 1:
# run tests serially
for test in execution_list:
run_test(workspace, project, test['test_name'],
test['data_set'], test['driver'],
test_execution.settings, test['report_directory'])
else:
# run tests using multiprocessing
multiprocess_executor(execution_list, execution['workers'])
# run suite `after` function
if execution['suite_after']:
try:
execution['suite_after'].__call__()
except:
print('ERROR: suite before function failed')
print(traceback.format_exc())
# generate execution_result.json
elapsed_time = round(time.time() - start_time, 2)
report_parser.generate_execution_report(execution_directory, elapsed_time)
def run_test_or_suite(workspace,
project,
test=None,
suite=None,
directory_suite=None):
'''run a test, a suite or a "directory suite"'''
tests = []
threads = 1
suite_amount_workers = None
suite_drivers = None
drivers = []
suite_module = None
report_suite_name = None
is_suite = False
# get test list
if test:
tests = [test]
report_suite_name = 'single_tests'
elif suite:
tests = utils.get_suite_test_cases(workspace, project, suite)
suite_amount_workers = utils.get_suite_amount_of_workers(
workspace, project, suite)
suite_drivers = utils.get_suite_browsers(workspace, project, suite)
suite_module = utils.get_suite_module(test_execution.root_path,
test_execution.project, suite)
report_suite_name = suite
is_suite = True
elif directory_suite:
tests = utils.get_directory_suite_test_cases(workspace, project,
directory_suite)
report_suite_name = directory_suite
is_suite = True
else:
sys.exit("ERROR: invalid arguments for run_test_or_suite()")
# get threads
if test_execution.thread_amount:
# the thread count passed through cli has higher priority
threads = test_execution.thread_amount
elif suite_amount_workers:
threads = suite_amount_workers
drivers = utils.choose_driver_by_precedence(
cli_drivers=test_execution.cli_drivers,
suite_drivers=suite_drivers,
settings_default_driver=test_execution.settings['default_driver'])
# timestamp is passed when the test is executed from the GUI,
# otherwise, a timestamp should be generated at this point
# the timestamp is used to identify this unique execution of the test or suite
if not test_execution.timestamp:
test_execution.timestamp = utils.get_timestamp()
# get test data for each test present in the list of tests
# for each test in the list, for each data set and driver combination
# append an entry to the execution_list
execution_list = []
for test_case in tests:
data_sets = utils.get_test_data(workspace, project, test_case)
for data_set in data_sets:
for driver in drivers:
execution_list.append({
'test_name': test_case,
'data_set': vars(data_set),
'driver': driver,
'report_directory': None
})
if is_suite:
execution_directory = report.create_suite_execution_directory(
test_execution.root_path, test_execution.project,
report_suite_name, test_execution.timestamp)
else:
execution_directory = report.create_test_execution_directory(
test_execution.root_path, test_execution.project, test,
test_execution.timestamp)
#
for test in execution_list:
# generate a report directory for this test
report_directory = report.create_report_directory(
execution_directory, test['test_name'], is_suite)
test['report_directory'] = report_directory
if suite:
if hasattr(suite_module, 'before'):
suite_module.before()
if test_execution.interactive and threads == 1:
if threads == 1:
# run tests serially
for test in execution_list:
run_test(test_execution.root_path, test_execution.project,
test['test_name'], test['data_set'], test['driver'],
test_execution.settings, test['report_directory'])
else:
print('Error: to run in debug mode, threads must equal one')
else:
# run list of tests using threading
multiprocess_executor(execution_list, is_suite, execution_directory,
threads)
if suite:
if hasattr(suite_module, 'after'):
suite_module.after()
