#!/usr/bin/env python3 # SPDX-License-Identifier: GPL-2.0+ # Copyright (c) 2016 Google, Inc # Written by Simon Glass # # Creates binary images from input files controlled by a description # """See README for more information""" from distutils.sysconfig import get_python_lib import os import site import sys import traceback import unittest # Bring in the patman and dtoc libraries (but don't override the first path # in PYTHONPATH) our_path = os.path.dirname(os.path.realpath(__file__)) sys.path.insert(2, os.path.join(our_path, '..')) from patman import test_util # Bring in the libfdt module sys.path.insert(2, 'scripts/dtc/pylibfdt') sys.path.insert(2, os.path.join(our_path, '../../scripts/dtc/pylibfdt')) sys.path.insert(2, os.path.join(our_path, '../../build-sandbox_spl/scripts/dtc/pylibfdt')) # When running under python-coverage on Ubuntu 16.04, the dist-packages # directories are dropped from the python path. Add them in so that we can find # the elffile module. We could use site.getsitepackages() here but unfortunately # that is not available in a virtualenv. sys.path.append(get_python_lib()) from binman import cmdline from binman import control from patman import test_util def RunTests(debug, verbosity, processes, test_preserve_dirs, args, toolpath): """Run the functional tests and any embedded doctests Args: debug: True to enable debugging, which shows a full stack trace on error verbosity: Verbosity level to use test_preserve_dirs: True to preserve the input directory used by tests so that it can be examined afterwards (only useful for debugging tests). If a single test is selected (in args[0]) it also preserves the output directory for this test. Both directories are displayed on the command line. processes: Number of processes to use to run tests (None=same as #CPUs) args: List of positional args provided to binman. This can hold a test name to execute (as in 'binman test testSections', for example) toolpath: List of paths to use for tools """ from binman import cbfs_util_test from binman import elf_test from binman import entry_test from binman import fdt_test from binman import ftest from binman import image_test import doctest result = unittest.TestResult() test_name = args and args[0] or None # Run the entry tests first ,since these need to be the first to import the # 'entry' module. test_util.RunTestSuites( result, debug, verbosity, test_preserve_dirs, processes, test_name, toolpath, [entry_test.TestEntry, ftest.TestFunctional, fdt_test.TestFdt, elf_test.TestElf, image_test.TestImage, cbfs_util_test.TestCbfs]) return test_util.ReportResult('binman', test_name, result) def RunTestCoverage(toolpath): """Run the tests and check that we get 100% coverage""" glob_list = control.GetEntryModules(False) all_set = set([os.path.splitext(os.path.basename(item))[0] for item in glob_list if '_testing' not in item]) extra_args = '' if toolpath: for path in toolpath: extra_args += ' --toolpath %s' % path test_util.RunTestCoverage('tools/binman/binman', None, ['*test*', '*main.py', 'tools/patman/*', 'tools/dtoc/*'], args.build_dir, all_set, extra_args or None) def RunBinman(args): """Main entry point to binman once arguments are parsed Args: args: Command line arguments Namespace object """ ret_code = 0 if not args.debug: sys.tracebacklimit = 0 # Provide a default toolpath in the hope of finding a mkimage built from # current source if not args.toolpath: args.toolpath = ['./tools', 'build-sandbox/tools'] if args.cmd == 'test': if args.test_coverage: RunTestCoverage(args.toolpath) else: ret_code = RunTests(args.debug, args.verbosity, args.processes, args.test_preserve_dirs, args.tests, args.toolpath) elif args.cmd == 'entry-docs': control.WriteEntryDocs(control.GetEntryModules()) else: try: ret_code = control.Binman(args) except Exception as e: print('binman: %s' % e, file=sys.stderr) if args.debug: print() traceback.print_exc() ret_code = 1 return ret_code if __name__ == "__main__": args = cmdline.ParseArgs(sys.argv[1:]) ret_code = RunBinman(args) sys.exit(ret_code)