takashi kadono
/
Nucleo446_SSD1331
Color Oled(SSD1331) connect to STMicroelectronics Nucleo-F466
mbed-os/tools/test_webapi.py
- Committer:
- kadonotakashi
- Date:
- 2018-10-11
- Revision:
- 3:f3764f852aa8
- Parent:
- 0:8fdf9a60065b
File content as of revision 3:f3764f852aa8:
""" mbed SDK Copyright (c) 2011-2014 ARM Limited 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 http://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. Author: Przemyslaw Wirkus <Przemyslaw.wirkus@arm.com> """ import sys import json import optparse from flask import Flask from os.path import join, abspath, dirname # Be sure that the tools directory is in the search path ROOT = abspath(join(dirname(__file__), "..")) sys.path.insert(0, ROOT) # Imports related to mbed build api from tools.utils import construct_enum from tools.build_api import mcu_toolchain_matrix # Imports from TEST API from test_api import SingleTestRunner from test_api import SingleTestExecutor from test_api import get_json_data_from_file from test_api import print_muts_configuration_from_json from test_api import print_test_configuration_from_json from test_api import get_avail_tests_summary_table from test_api import get_default_test_options_parser class SingleTestRunnerWebService(SingleTestRunner): def __init__(self): super(SingleTestRunnerWebService, self).__init__() # With this lock we should control access to certain resources inside this class self.resource_lock = thread.allocate_lock() self.RestRequest = construct_enum(REST_MUTS='muts', REST_TEST_SPEC='test_spec', REST_TEST_RESULTS='test_results') def get_rest_result_template(self, result, command, success_code): """ Returns common part of every web service request """ result = {"result" : result, "command" : command, "success_code": success_code} # 0 - OK, >0 - Error number return result # REST API handlers for Flask framework def rest_api_status(self): """ Returns current test execution status. E.g. running / finished etc. """ with self.resource_lock: pass def rest_api_config(self): """ Returns configuration passed to SingleTest executor """ with self.resource_lock: pass def rest_api_log(self): """ Returns current test log """ with self.resource_lock: pass def rest_api_request_handler(self, request_type): """ Returns various data structures. Both static and mutable during test """ result = {} success_code = 0 with self.resource_lock: if request_type == self.RestRequest.REST_MUTS: result = self.muts # Returns MUTs elif request_type == self.RestRequest.REST_TEST_SPEC: result = self.test_spec # Returns Test Specification elif request_type == self.RestRequest.REST_TEST_RESULTS: pass # Returns test results else: success_code = -1 return json.dumps(self.get_rest_result_template(result, 'request/' + request_type, success_code), indent=4) def singletest_in_webservice_mode(): # TODO Implement this web service functionality pass def get_default_test_webservice_options_parser(): """ Get test script web service options used by CLI, webservices etc. """ parser = get_default_test_options_parser() # Things related to web services offered by test suite scripts parser.add_argument('', '--rest-api', dest='rest_api_enabled', default=False, action="store_true", help='Enables REST API.') parser.add_argument('', '--rest-api-port', dest='rest_api_port_no', type=int, help='Sets port for REST API interface') return parser ''' if __name__ == '__main__': # Command line options parser = get_default_test_options_parser() parser.description = """This script allows you to run mbed defined test cases for particular MCU(s) and corresponding toolchain(s).""" parser.epilog = """Example: singletest.py -i test_spec.json -M muts_all.json""" (opts, args) = parser.parse_args() # Print summary / information about automation test status if opts.test_automation_report: print get_avail_tests_summary_table() exit(0) # Print summary / information about automation test status if opts.test_case_report: test_case_report_cols = ['id', 'automated', 'description', 'peripherals', 'host_test', 'duration', 'source_dir'] print get_avail_tests_summary_table(cols=test_case_report_cols, result_summary=False, join_delim='\n') exit(0) # Only prints matrix of supported toolchains if opts.supported_toolchains: print mcu_toolchain_matrix(platform_filter=opts.general_filter_regex) exit(0) # Open file with test specification # test_spec_filename tells script which targets and their toolchain(s) # should be covered by the test scenario test_spec = get_json_data_from_file(opts.test_spec_filename) if opts.test_spec_filename else None if test_spec is None: if not opts.test_spec_filename: parser.print_help() exit(-1) # Get extra MUTs if applicable MUTs = get_json_data_from_file(opts.muts_spec_filename) if opts.muts_spec_filename else None if MUTs is None: if not opts.muts_spec_filename: parser.print_help() exit(-1) # Only prints read MUTs configuration if MUTs and opts.verbose_test_configuration_only: print "MUTs configuration in %s:"% opts.muts_spec_filename print print_muts_configuration_from_json(MUTs) print print "Test specification in %s:"% opts.test_spec_filename print print_test_configuration_from_json(test_spec) exit(0) # Verbose test specification and MUTs configuration if MUTs and opts.verbose: print print_muts_configuration_from_json(MUTs) if test_spec and opts.verbose: print print_test_configuration_from_json(test_spec) if opts.only_build_tests: # We are skipping testing phase, and suppress summary opts.suppress_summary = True single_test = SingleTestRunner(_global_loops_count=opts.test_global_loops_value, _test_loops_list=opts.test_loops_list, _muts=MUTs, _test_spec=test_spec, _opts_goanna_for_mbed_sdk=opts.goanna_for_mbed_sdk, _opts_goanna_for_tests=opts.goanna_for_tests, _opts_shuffle_test_order=opts.shuffle_test_order, _opts_shuffle_test_seed=opts.shuffle_test_seed, _opts_test_by_names=opts.test_by_names, _opts_test_only_peripheral=opts.test_only_peripheral, _opts_test_only_common=opts.test_only_common, _opts_verbose_skipped_tests=opts.verbose_skipped_tests, _opts_verbose_test_result_only=opts.verbose_test_result_only, _opts_verbose=opts.verbose, _opts_firmware_global_name=opts.firmware_global_name, _opts_only_build_tests=opts.only_build_tests, _opts_suppress_summary=opts.suppress_summary, _opts_test_x_toolchain_summary=opts.test_x_toolchain_summary, _opts_copy_method=opts.copy_method ) try: st_exec_thread = SingleTestExecutor(single_test) except KeyboardInterrupt, e: print "\n[CTRL+c] exit" st_exec_thread.start() if opts.rest_api_enabled: # Enable REST API app = Flask(__name__) @app.route('/') def hello_world(): return 'Hello World!' @app.route('/status') def rest_api_status(): return single_test.rest_api_status() # TODO @app.route('/config') def rest_api_config(): return single_test.rest_api_config() # TODO @app.route('/log') def rest_api_log(): return single_test.rest_api_log() # TODO @app.route('/request/<request_type>') # 'muts', 'test_spec', 'test_results' def rest_api_request_handler(request_type): result = single_test.rest_api_request_handler(request_type) # TODO return result rest_api_port = int(opts.rest_api_port_no) if opts.rest_api_port_no else 5555 app.debug = False app.run(port=rest_api_port) # Blocking Flask REST API web service else: st_exec_thread.join() '''