esp-idf/tools/ci/python_packages/ttfw_idf/__init__.py

334 lines
13 KiB
Python

# Copyright 2015-2017 Espressif Systems (Shanghai) PTE LTD
#
# 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.
import functools
import json
import logging
import os
import re
from collections import defaultdict
from copy import deepcopy
import junit_xml
from tiny_test_fw import TinyFW, Utility
from .DebugUtils import CustomProcess, GDBBackend, OCDBackend # noqa: export DebugUtils for users
from .IDFApp import UT, ComponentUTApp, Example, IDFApp, LoadableElfTestApp, TestApp # noqa: export all Apps for users
from .IDFDUT import (ESP32C3DUT, ESP32C3FPGADUT, ESP32DUT, ESP32QEMUDUT, ESP32S2DUT, # noqa: export DUTs for users
ESP32S3DUT, ESP32S3FPGADUT, ESP8266DUT, IDFDUT)
from .unity_test_parser import TestFormat, TestResults
# pass TARGET_DUT_CLS_DICT to Env.py to avoid circular dependency issue.
TARGET_DUT_CLS_DICT = {
'ESP32': ESP32DUT,
'ESP32S2': ESP32S2DUT,
'ESP32S3': ESP32S3DUT,
'ESP32C3': ESP32C3DUT,
'ESP32C3FPGA': ESP32C3FPGADUT,
'ESP32S3FPGA': ESP32S3FPGADUT,
}
try:
string_type = basestring # type: ignore
except NameError:
string_type = str
def upper_list_or_str(text):
"""
Return the uppercase of list of string or string. Return itself for other
data types
:param text: list or string, other instance will be returned immediately
:return: uppercase of list of string
"""
if isinstance(text, string_type):
return [text.upper()]
elif isinstance(text, list):
return [item.upper() for item in text]
else:
return text
def local_test_check(decorator_target):
# Try to get the sdkconfig.json to read the IDF_TARGET value.
# If not set, will set to ESP32.
# For CI jobs, this is a fake procedure, the true target and dut will be
# overwritten by the job config YAML file.
idf_target = 'ESP32' # default if sdkconfig not found or not readable
if os.getenv('CI_JOB_ID'): # Only auto-detect target when running locally
return idf_target
decorator_target = upper_list_or_str(decorator_target)
expected_json_path = os.path.join('build', 'config', 'sdkconfig.json')
if os.path.exists(expected_json_path):
sdkconfig = json.load(open(expected_json_path))
try:
idf_target = sdkconfig['IDF_TARGET'].upper()
except KeyError:
logging.debug('IDF_TARGET not in {}. IDF_TARGET set to esp32'.format(os.path.abspath(expected_json_path)))
else:
logging.debug('IDF_TARGET: {}'.format(idf_target))
else:
logging.debug('{} not found. IDF_TARGET set to esp32'.format(os.path.abspath(expected_json_path)))
if isinstance(decorator_target, list):
if idf_target not in decorator_target:
fpga_target = ''.join((idf_target, 'FPGA'))
if fpga_target not in decorator_target:
raise ValueError('IDF_TARGET set to {}, not in decorator target value'.format(idf_target))
else:
idf_target = fpga_target
else:
if idf_target != decorator_target:
raise ValueError('IDF_TARGET set to {}, not equal to decorator target value'.format(idf_target))
return idf_target
def get_dut_class(target, dut_class_dict, erase_nvs=None):
if target not in dut_class_dict:
raise Exception('target can only be {%s} (case insensitive)' % ', '.join(dut_class_dict.keys()))
dut = dut_class_dict[target.upper()]
if erase_nvs:
dut.ERASE_NVS = 'erase_nvs'
return dut
def ci_target_check(func):
@functools.wraps(func)
def wrapper(**kwargs):
target = upper_list_or_str(kwargs.get('target', []))
ci_target = upper_list_or_str(kwargs.get('ci_target', []))
if not set(ci_target).issubset(set(target)):
raise ValueError('ci_target must be a subset of target')
return func(**kwargs)
return wrapper
def test_func_generator(func, app, target, ci_target, module, execution_time, level, erase_nvs, **kwargs):
target = upper_list_or_str(target)
test_target = local_test_check(target)
if 'additional_duts' in kwargs:
dut_classes = deepcopy(TARGET_DUT_CLS_DICT)
dut_classes.update(kwargs['additional_duts'])
else:
dut_classes = TARGET_DUT_CLS_DICT
dut = get_dut_class(test_target, dut_classes, erase_nvs)
original_method = TinyFW.test_method(
app=app, dut=dut, target=target, ci_target=upper_list_or_str(ci_target),
module=module, execution_time=execution_time, level=level, erase_nvs=erase_nvs,
dut_dict=dut_classes, **kwargs
)
test_func = original_method(func)
return test_func
@ci_target_check
def idf_example_test(app=Example, target='ESP32', ci_target=None, module='examples', execution_time=1,
level='example', erase_nvs=True, config_name=None, **kwargs):
"""
decorator for testing idf examples (with default values for some keyword args).
:param app: test application class
:param target: target supported, string or list
:param ci_target: target auto run in CI, if None than all target will be tested, None, string or list
:param module: module, string
:param execution_time: execution time in minutes, int
:param level: test level, could be used to filter test cases, string
:param erase_nvs: if need to erase_nvs in DUT.start_app()
:param config_name: if specified, name of the app configuration
:param kwargs: other keyword args
:return: test method
"""
def test(func):
return test_func_generator(func, app, target, ci_target, module, execution_time, level, erase_nvs, **kwargs)
return test
@ci_target_check
def idf_unit_test(app=UT, target='ESP32', ci_target=None, module='unit-test', execution_time=1,
level='unit', erase_nvs=True, **kwargs):
"""
decorator for testing idf unit tests (with default values for some keyword args).
:param app: test application class
:param target: target supported, string or list
:param ci_target: target auto run in CI, if None than all target will be tested, None, string or list
:param module: module, string
:param execution_time: execution time in minutes, int
:param level: test level, could be used to filter test cases, string
:param erase_nvs: if need to erase_nvs in DUT.start_app()
:param kwargs: other keyword args
:return: test method
"""
def test(func):
return test_func_generator(func, app, target, ci_target, module, execution_time, level, erase_nvs, **kwargs)
return test
@ci_target_check
def idf_custom_test(app=TestApp, target='ESP32', ci_target=None, module='misc', execution_time=1,
level='integration', erase_nvs=True, config_name=None, **kwargs):
"""
decorator for idf custom tests (with default values for some keyword args).
:param app: test application class
:param target: target supported, string or list
:param ci_target: target auto run in CI, if None than all target will be tested, None, string or list
:param module: module, string
:param execution_time: execution time in minutes, int
:param level: test level, could be used to filter test cases, string
:param erase_nvs: if need to erase_nvs in DUT.start_app()
:param config_name: if specified, name of the app configuration
:param kwargs: other keyword args
:return: test method
"""
def test(func):
return test_func_generator(func, app, target, ci_target, module, execution_time, level, erase_nvs, **kwargs)
return test
@ci_target_check
def idf_component_unit_test(app=ComponentUTApp, target='ESP32', ci_target=None, module='misc', execution_time=1,
level='integration', erase_nvs=True, config_name=None, **kwargs):
"""
decorator for idf custom tests (with default values for some keyword args).
:param app: test application class
:param target: target supported, string or list
:param ci_target: target auto run in CI, if None than all target will be tested, None, string or list
:param module: module, string
:param execution_time: execution time in minutes, int
:param level: test level, could be used to filter test cases, string
:param erase_nvs: if need to erase_nvs in DUT.start_app()
:param config_name: if specified, name of the app configuration
:param kwargs: other keyword args
:return: test method
"""
def test(func):
return test_func_generator(func, app, target, ci_target, module, execution_time, level, erase_nvs, **kwargs)
return test
class ComponentUTResult:
"""
Function Class, parse component unit test results
"""
results_list = defaultdict(list) # type: dict[str, list[junit_xml.TestSuite]]
"""
For origin unity test cases with macro "TEST", please set "test_format" to "TestFormat.UNITY_FIXTURE_VERBOSE".
For IDF unity test cases with macro "TEST CASE", please set "test_format" to "TestFormat.UNITY_BASIC".
"""
@staticmethod
def parse_result(stdout, test_format=TestFormat.UNITY_FIXTURE_VERBOSE):
try:
results = TestResults(stdout, test_format)
except (ValueError, TypeError) as e:
raise ValueError('Error occurs when parsing the component unit test stdout to JUnit report: ' + str(e))
group_name = results.tests()[0].group()
ComponentUTResult.results_list[group_name].append(results.to_junit())
with open(os.path.join(os.getenv('LOG_PATH', ''), '{}_XUNIT_RESULT.xml'.format(group_name)), 'w') as fw:
junit_xml.to_xml_report_file(fw, ComponentUTResult.results_list[group_name])
if results.num_failed():
# raise exception if any case fails
err_msg = 'Failed Cases:\n'
for test_case in results.test_iter():
if test_case.result() == 'FAIL':
err_msg += '\t{}: {}'.format(test_case.name(), test_case.message())
raise AssertionError(err_msg)
def log_performance(item, value):
"""
do print performance with pre-defined format to console
:param item: performance item name
:param value: performance value
"""
performance_msg = '[Performance][{}]: {}'.format(item, value)
Utility.console_log(performance_msg, 'orange')
# update to junit test report
current_junit_case = TinyFW.JunitReport.get_current_test_case()
current_junit_case.stdout += performance_msg + '\r\n'
def check_performance(item, value, target):
"""
check if idf performance meet pass standard
:param item: performance item name
:param value: performance item value
:param target: target chip
:raise: AssertionError: if check fails
"""
def _find_perf_item(path):
with open(path, 'r') as f:
data = f.read()
match = re.search(r'#define\s+IDF_PERFORMANCE_(MIN|MAX)_{}\s+([\d.]+)'.format(item.upper()), data)
return match.group(1), float(match.group(2))
def _check_perf(op, standard_value):
if op == 'MAX':
ret = value <= standard_value
else:
ret = value >= standard_value
if not ret:
raise AssertionError("[Performance] {} value is {}, doesn't meet pass standard {}"
.format(item, value, standard_value))
path_prefix = os.path.join(IDFApp.get_sdk_path(), 'components', 'idf_test', 'include')
performance_files = (os.path.join(path_prefix, target, 'idf_performance_target.h'),
os.path.join(path_prefix, 'idf_performance.h'))
for performance_file in performance_files:
try:
op, standard = _find_perf_item(performance_file)
except (IOError, AttributeError):
# performance file doesn't exist or match is not found in it
continue
_check_perf(op, standard)
# if no exception was thrown then the performance is met and no need to continue
break
else:
raise AssertionError('Failed to get performance standard for {}'.format(item))
MINIMUM_FREE_HEAP_SIZE_RE = re.compile(r'Minimum free heap size: (\d+) bytes')
def print_heap_size(app_name, config_name, target, minimum_free_heap_size):
"""
Do not change the print output in case you really need to.
The result is parsed by ci-dashboard project
"""
print('------ heap size info ------\n'
'[app_name] {}\n'
'[config_name] {}\n'
'[target] {}\n'
'[minimum_free_heap_size] {} Bytes\n'
'------ heap size end ------'.format(app_name,
'' if not config_name else config_name,
target,
minimum_free_heap_size))