esp-idf/tools/test_build_system/test_cmake.py

87 wiersze
4.7 KiB
Python

# SPDX-FileCopyrightText: 2023-2024 Espressif Systems (Shanghai) CO LTD
# SPDX-License-Identifier: Apache-2.0
import logging
import os
import re
import shutil
from pathlib import Path
from test_build_system_helpers import append_to_file
from test_build_system_helpers import EnvDict
from test_build_system_helpers import file_contains
from test_build_system_helpers import IdfPyFunc
from test_build_system_helpers import run_cmake
from test_build_system_helpers import run_cmake_and_build
def test_build_custom_cmake_project(test_app_copy: Path) -> None:
# Test is compatible with any target. Random targets in the list are selected for performance reasons
for target in ['esp32', 'esp32s3', 'esp32c6', 'esp32h2']:
logging.info(f'Test build ESP-IDF as a library to a custom CMake projects for {target}')
idf_path = Path(os.environ['IDF_PATH'])
run_cmake_and_build(str(idf_path / 'examples' / 'build_system' / 'cmake' / 'idf_as_lib'), '-G', 'Ninja',
'-DCMAKE_TOOLCHAIN_FILE={}'.format(idf_path / 'tools' / 'cmake' / f'toolchain-{target}.cmake'), f'-DTARGET={target}')
assert file_contains((test_app_copy / 'build' / 'compile_commands.json'), '"command"')
shutil.rmtree(test_app_copy / 'build')
def test_build_cmake_library_psram_workaround(test_app_copy: Path) -> None:
logging.info('Building a project with CMake library imported and PSRAM workaround, all files compile with workaround')
idf_path = Path(os.environ['IDF_PATH'])
(test_app_copy / 'sdkconfig.defaults').write_text('\n'.join(['CONFIG_SPIRAM=y',
'CONFIG_SPIRAM_CACHE_WORKAROUND=y']))
run_cmake('-G', 'Ninja', '-DSDKCONFIG_DEFAULTS={}'.format(test_app_copy / 'sdkconfig.defaults'),
str(idf_path / 'examples' / 'build_system' / 'cmake' / 'import_lib'))
with open((test_app_copy / 'build' / 'compile_commands.json'), 'r', encoding='utf-8') as f:
data = f.read()
res = re.findall(r'.*\"command\".*', data)
for r in res:
assert 'mfix-esp32-psram-cache-issue' in r, 'All commands in compile_commands.json should use PSRAM cache workaround'
def test_build_cmake_library_psram_strategies(idf_py: IdfPyFunc, test_app_copy: Path) -> None:
for strategy in ['DUPLDST', 'NOPS', 'MEMW']:
logging.info(f'Test for external libraries in custom CMake projects with PSRAM strategy {strategy}')
(test_app_copy / 'sdkconfig.defaults').write_text('\n'.join(['CONFIG_SPIRAM=y',
f'CONFIG_SPIRAM_CACHE_WORKAROUND_STRATEGY_{strategy}=y',
'CONFIG_SPIRAM_CACHE_WORKAROUND=y']))
idf_py('reconfigure')
with open((test_app_copy / 'build' / 'compile_commands.json'), 'r', encoding='utf-8') as f:
data = f.read()
res = re.findall(r'.*\"command\".*', data)
for r in res:
assert f'mfix-esp32-psram-cache-strategy={strategy.lower()}' in r, ('All commands in compile_commands.json '
'should use PSRAM cache workaround strategy')
(test_app_copy / 'sdkconfig').unlink()
def test_defaults_unspecified_build_args(idf_copy: Path) -> None:
logging.info('Defaults set properly for unspecified idf_build_process args')
idf_as_lib_path = idf_copy / 'examples' / 'build_system' / 'cmake' / 'idf_as_lib'
append_to_file(idf_as_lib_path / 'CMakeLists.txt', '\n'.join(['idf_build_get_property(project_dir PROJECT_DIR)',
'message("Project directory: ${project_dir}")']))
ret = run_cmake('..', '-G', 'Ninja',
'-DCMAKE_TOOLCHAIN_FILE={}'.format(str(idf_copy / 'tools' / 'cmake' / 'toolchain-esp32.cmake')),
'-DTARGET=esp32',
workdir=idf_as_lib_path)
assert 'Project directory: {}'.format(str(idf_as_lib_path.as_posix())) in ret.stderr
def test_build_example_on_host(default_idf_env: EnvDict) -> None:
logging.info('Test if it can build the example to run on host')
idf_path = Path(default_idf_env.get('IDF_PATH'))
idf_as_lib_path = Path(idf_path, 'examples', 'build_system', 'cmake', 'idf_as_lib')
try:
target = 'esp32'
run_cmake('..',
f'-DCMAKE_TOOLCHAIN_FILE={idf_path}/tools/cmake/toolchain-{target}.cmake',
f'-DTARGET={target}',
'-GNinja',
workdir=idf_as_lib_path)
run_cmake('--build',
'.',
workdir=idf_as_lib_path)
finally:
shutil.rmtree(idf_as_lib_path / 'build', ignore_errors=True)