""" mbed SDK Copyright (c) 2017-2018 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. """ import os import re import argparse import shutil """ Generates code in following structure. / |-- host_tests/ | |-- mbedtls_test.py | |-- suites/ | | |-- *.data files | |-- mbedtls/ | | |-- / | | | |-- main.c | | ... | | |-- / | | | |-- main.c | | | """ BEGIN_HEADER_REGEX = '/\*\s*BEGIN_HEADER\s*\*/' END_HEADER_REGEX = '/\*\s*END_HEADER\s*\*/' BEGIN_DEP_REGEX = 'BEGIN_DEPENDENCIES' END_DEP_REGEX = 'END_DEPENDENCIES' BEGIN_CASE_REGEX = '/\*\s*BEGIN_CASE\s*(.*?)\s*\*/' END_CASE_REGEX = '/\*\s*END_CASE\s*\*/' class InvalidFileFormat(Exception): """ Exception to indicate invalid file format. """ pass def gen_deps(deps): """ Generates dependency i.e. if def and endif code :param deps: :return: """ dep_start = '' dep_end = '' for dep in deps: if dep[0] == '!': noT = '!' dep = dep[1:] else: noT = '' dep_start += '#if %sdefined(%s)\n' % (noT, dep) dep_end = '#endif /* %s%s */\n' % (noT, dep) + dep_end return dep_start, dep_end def gen_deps_one_line(deps): """ Generates dependency checks in one line. Useful for writing code in #else case. :param deps: :return: """ defines = [] for dep in deps: if dep[0] == '!': noT = '!' dep = dep[1:] else: noT = '' defines.append('%sdefined(%s)' % (noT, dep)) return '#if ' + ' && '.join(defines) def gen_function_wrapper(name, args_dispatch): """ Creates test function code :param name: :param args_dispatch: :return: """ # Then create the wrapper wrapper = ''' void {name}_wrapper( void ** params ) {{ {unused_params} {name}( {args} ); }} '''.format(name=name, unused_params='(void)params;' if len(args_dispatch) == 0 else '', args=', '.join(args_dispatch)) return wrapper def gen_dispatch(name, deps): """ Generates dispatch condition for the functions. :param name: :param deps: :return: """ if len(deps): ifdef = gen_deps_one_line(deps) dispatch_code = ''' {ifdef} {name}_wrapper, #else NULL, #endif '''.format(ifdef=ifdef, name=name) else: dispatch_code = ''' {name}_wrapper, '''.format(name=name) return dispatch_code def parse_suite_headers(line_no, funcs_f): """ Parses function headers. :param line_no: :param funcs_f: :return: """ headers = '#line %d "%s"\n' % (line_no + 1, funcs_f.name) for line in funcs_f: line_no += 1 if re.search(END_HEADER_REGEX, line): break headers += line else: raise InvalidFileFormat("file: %s - end header pattern [%s] not found!" % (funcs_f.name, END_HEADER_REGEX)) return line_no, headers def parse_suite_deps(line_no, funcs_f): """ Parses function dependencies. :param line_no: :param funcs_f: :return: """ deps = [] for line in funcs_f: line_no += 1 m = re.search('depends_on\:(.*)', line.strip()) if m: deps += [x.strip() for x in m.group(1).split(':')] if re.search(END_DEP_REGEX, line): break else: raise InvalidFileFormat("file: %s - end dependency pattern [%s] not found!" % (funcs_f.name, END_DEP_REGEX)) return line_no, deps def parse_function_deps(line): """ :param line: :return: """ deps = [] m = re.search(BEGIN_CASE_REGEX, line) dep_str = m.group(1) if len(dep_str): m = re.search('depends_on:(.*)', dep_str) if m: deps = m.group(1).strip().split(':') return deps def parse_function_signature(line): """ Parsing function signature :param line: :return: """ args = [] args_dispatch = [] m = re.search('\s*void\s+(\w+)\s*\(', line, re.I) if not m: raise ValueError("Test function should return 'void'\n%s" % line) name = m.group(1) line = line[len(m.group(0)):] arg_idx = 0 last_was_hex = False for arg in line[:line.find(')')].split(','): arg = arg.strip() if arg == '': continue if re.search('int\s+.*', arg.strip()): args.append('int') args_dispatch.append('*( (int *) params[%d] )' % arg_idx) elif re.search('char\s*\*\s*.*', arg.strip()): args.append('char*') args_dispatch.append('(char *) params[%d]' % arg_idx) elif re.search('uint8_t\s*\*\s*.*', arg.strip()): args.append('hex') args_dispatch.append('(uint8_t *) params[%d]' % arg_idx) last_was_hex = True elif re.search('uint32_t\s+.*', arg.strip()) and last_was_hex: last_was_hex = False args_dispatch.append('*( (uint32_t *) params[%d] )' % arg_idx) else: raise ValueError("Test function arguments can only be 'int' or 'char *'\n%s" % line) arg_idx += 1 return name, args, args_dispatch def parse_function_code(line_no, funcs_f, deps, suite_deps): """ :param line_no: :param funcs_f: :param deps: :param suite_deps: :return: """ code = '#line %d "%s"\n' % (line_no + 1, funcs_f.name) for line in funcs_f: line_no += 1 # Check function signature m = re.match('.*?\s+(\w+)\s*\(', line, re.I) if m: # check if we have full signature i.e. split in more lines if not re.match('.*\)', line): for lin in funcs_f: line += lin line_no += 1 if re.search('.*?\)', line): break name, args, args_dispatch = parse_function_signature(line) code += line.replace(name, 'test_' + name) name = 'test_' + name break else: raise InvalidFileFormat("file: %s - Test functions not found!" % funcs_f.name) for line in funcs_f: line_no += 1 if re.search(END_CASE_REGEX, line): break code += line else: raise InvalidFileFormat("file: %s - end case pattern [%s] not found!" % (funcs_f.name, END_CASE_REGEX)) # Add exit label if not present if code.find('exit:') == -1: s = code.rsplit('}', 1) if len(s) == 2: code = """ exit: ;; } """.join(s) code += gen_function_wrapper(name, args_dispatch) ifdef, endif = gen_deps(deps) dispatch_code = gen_dispatch(name, suite_deps + deps) return line_no, name, args, ifdef + code + endif, dispatch_code def parse_functions(funcs_f): """ Returns functions code pieces :param funcs_f: :return: """ line_no = 0 suite_headers = '' suite_deps = [] suite_functions = '' func_info = {} function_idx = 0 dispatch_code = '' for line in funcs_f: line_no += 1 if re.search(BEGIN_HEADER_REGEX, line): line_no, headers = parse_suite_headers(line_no, funcs_f) suite_headers += headers elif re.search(BEGIN_DEP_REGEX, line): line_no, deps = parse_suite_deps(line_no, funcs_f) suite_deps += deps elif re.search(BEGIN_CASE_REGEX, line): deps = parse_function_deps(line) line_no, func_name, args, func_code, func_dispatch = parse_function_code(line_no, funcs_f, deps, suite_deps) suite_functions += func_code # Generate dispatch code and enumeration info assert func_name not in func_info, "file: %s - function %s re-declared at line %d" % \ (funcs_f.name, func_name, line_no) func_info[func_name] = (function_idx, args) dispatch_code += '/* Function Id: %d */\n' % function_idx dispatch_code += func_dispatch function_idx += 1 ifdef, endif = gen_deps(suite_deps) func_code = ifdef + suite_functions + endif return dispatch_code, suite_headers, func_code, func_info def escaped_split(str, ch): """ Split str on character ch but ignore escaped \{ch} :param str: :param ch: :return: """ if len(ch) > 1: raise ValueError('Expected split character. Found string!') out = [] part = '' escape = False for i in range(len(str)): if not escape and str[i] == ch: out.append(part) part = '' else: part += str[i] escape = not escape and str[i] == '\\' if len(part): out.append(part) return out def parse_test_data(data_f): """ Parses .data file :param data_f: :return: """ STATE_READ_NAME = 0 STATE_READ_ARGS = 1 state = STATE_READ_NAME deps = [] for line in data_f: line = line.strip() if len(line) and line[0] == '#': # Skip comments continue # skip blank lines if len(line) == 0: continue if state == STATE_READ_NAME: # Read test name name = line state = STATE_READ_ARGS elif state == STATE_READ_ARGS: # Check dependencies m = re.search('depends_on\:(.*)', line) if m: deps = m.group(1).split(':') else: # Read test vectors parts = escaped_split(line, ':') function = parts[0] args = parts[1:] yield name, function, deps, args deps = [] state = STATE_READ_NAME def gen_dep_check(dep_id, dep): """ Generate code for the dependency. :param dep_id: :param dep: :return: """ if dep[0] == '!': noT = '!' dep = dep[1:] else: noT = '' dep_check = ''' if ( dep_id == {id} ) {{ #if {noT}defined({macro}) return( DEPENDENCY_SUPPORTED ); #else return( DEPENDENCY_NOT_SUPPORTED ); #endif }} else '''.format(noT=noT, macro=dep, id=dep_id) return dep_check def gen_expression_check(exp_id, exp): """ Generates code for expression check :param exp_id: :param exp: :return: """ exp_code = ''' if ( exp_id == {exp_id} ) {{ *out_value = {expression}; }} else '''.format(exp_id=exp_id, expression=exp) return exp_code def gen_from_test_data(data_f, out_data_f, func_info): """ Generates dependency checks, expression code and intermediate data file from test data file. :param data_f: :param out_data_f: :param func_info: :return: """ unique_deps = [] unique_expressions = [] dep_check_code = '' expression_code = '' for test_name, function_name, test_deps, test_args in parse_test_data(data_f): out_data_f.write(test_name + '\n') func_id, func_args = func_info['test_' + function_name] if len(test_deps): out_data_f.write('depends_on') for dep in test_deps: if dep not in unique_deps: unique_deps.append(dep) dep_id = unique_deps.index(dep) dep_check_code += gen_dep_check(dep_id, dep) else: dep_id = unique_deps.index(dep) out_data_f.write(':' + str(dep_id)) out_data_f.write('\n') assert len(test_args) == len(func_args), \ "Invalid number of arguments in test %s. See function %s signature." % (test_name, function_name) out_data_f.write(str(func_id)) for i in xrange(len(test_args)): typ = func_args[i] val = test_args[i] # check if val is a non literal int val if typ == 'int' and not re.match('\d+', val): # its an expression # FIXME: Handle hex format. Tip: instead try converting int(str, 10) and int(str, 16) typ = 'exp' if val not in unique_expressions: unique_expressions.append(val) # exp_id can be derived from len(). But for readability and consistency with case of existing let's # use index(). exp_id = unique_expressions.index(val) expression_code += gen_expression_check(exp_id, val) val = exp_id else: val = unique_expressions.index(val) out_data_f.write(':' + typ + ':' + str(val)) out_data_f.write('\n\n') # void unused params if len(dep_check_code) == 0: dep_check_code = '(void) dep_id;\n' if len(expression_code) == 0: expression_code = '(void) exp_id;\n' expression_code += '(void) out_value;\n' return dep_check_code, expression_code def gen_mbed_code(funcs_file, data_file, template_file, platform_file, help_file, suites_dir, c_file, out_data_file): """ Generate mbed-os test code. :param funcs_file: :param dat a_file: :param template_file: :param platform_file: :param help_file: :param suites_dir: :param c_file: :param out_data_file: :return: """ for name, path in [('Functions file', funcs_file), ('Data file', data_file), ('Template file', template_file), ('Platform file', platform_file), ('Help code file', help_file), ('Suites dir', suites_dir)]: if not os.path.exists(path): raise IOError("ERROR: %s [%s] not found!" % (name, path)) snippets = {'generator_script' : os.path.basename(__file__)} # Read helpers with open(help_file, 'r') as help_f, open(platform_file, 'r') as platform_f: snippets['test_common_helper_file'] = help_file snippets['test_common_helpers'] = help_f.read() snippets['test_platform_file'] = platform_file snippets['platform_code'] = platform_f.read().replace('DATA_FILE', out_data_file.replace('\\', '\\\\')) # escape '\' # Function code with open(funcs_file, 'r') as funcs_f, open(data_file, 'r') as data_f, open(out_data_file, 'w') as out_data_f: dispatch_code, func_headers, func_code, func_info = parse_functions(funcs_f) snippets['function_headers'] = func_headers snippets['functions_code'] = func_code snippets['dispatch_code'] = dispatch_code dep_check_code, expression_code = gen_from_test_data(data_f, out_data_f, func_info) snippets['dep_check_code'] = dep_check_code snippets['expression_code'] = expression_code snippets['test_file'] = c_file snippets['test_main_file'] = template_file snippets['test_case_file'] = funcs_file snippets['test_case_data_file'] = data_file # Read Template # Add functions # with open(template_file, 'r') as template_f, open(c_file, 'w') as c_f: line_no = 1 for line in template_f.readlines(): snippets['line_no'] = line_no + 1 # Increment as it sets next line number code = line.format(**snippets) c_f.write(code) line_no += 1 def check_cmd(): """ Command line parser. :return: """ parser = argparse.ArgumentParser(description='Generate code for mbed-os tests.') parser.add_argument("-f", "--functions-file", dest="funcs_file", help="Functions file", metavar="FUNCTIONS", required=True) parser.add_argument("-d", "--data-file", dest="data_file", help="Data file", metavar="DATA", required=True) parser.add_argument("-t", "--template-file", dest="template_file", help="Template file", metavar="TEMPLATE", required=True) parser.add_argument("-s", "--suites-dir", dest="suites_dir", help="Suites dir", metavar="SUITES", required=True) parser.add_argument("--help-file", dest="help_file", help="Help file", metavar="HELPER", required=True) parser.add_argument("-p", "--platform-file", dest="platform_file", help="Platform code file", metavar="PLATFORM_FILE", required=True) parser.add_argument("-o", "--out-dir", dest="out_dir", help="Dir where generated code and scripts are copied", metavar="OUT_DIR", required=True) args = parser.parse_args() data_file_name = os.path.basename(args.data_file) data_name = os.path.splitext(data_file_name)[0] out_c_file = os.path.join(args.out_dir, data_name + '.c') out_data_file = os.path.join(args.out_dir, data_file_name) out_c_file_dir = os.path.dirname(out_c_file) out_data_file_dir = os.path.dirname(out_data_file) for d in [out_c_file_dir, out_data_file_dir]: if not os.path.exists(d): os.makedirs(d) gen_mbed_code(args.funcs_file, args.data_file, args.template_file, args.platform_file, args.help_file, args.suites_dir, out_c_file, out_data_file) if __name__ == "__main__": check_cmd()