#!/usr/bin/env python # # Copyright 2016 - The Android Open Source Project # # 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. # # Parses the output of parse_ltp_{make,make_install} and generates a # corresponding Android.mk. # # This process is split into two steps so this second step can later be replaced # with an Android.bp generator. import argparse import fileinput import json import os.path import re import make_parser import make_install_parser MAKE_DRY_RUN_FILE_NAME = 'make_dry_run.dump' MAKE_INSTALL_DRY_RUN_FILE_NAME = 'make_install_dry_run.dump' DISABLED_TESTS_FILE_NAME = 'disabled_tests.txt' DISABLED_LIBS_FILE_NAME = 'disabled_libs.txt' DISABLED_CFLAGS_FILE_NAME = 'disabled_cflags.txt' class BuildGenerator(object): '''A class to parse make output and convert the result to Android.ltp.mk modules. Attributes: _bp_result: directory of list of strings for blueprint file keyed by target name _mk_result: directory of list of strings for makefile keyed by target name _custom_cflags: dict of string (module name) to lists of strings (cflags to add for said module) _unused_custom_cflags: set of strings; tracks the modules with custom cflags that we haven't yet seen _packages: list of strings of packages for package list file ''' def __init__(self, custom_cflags): self._bp_result = {} self._mk_result = {} self._custom_cflags = custom_cflags self._unused_custom_cflags = set(custom_cflags) self._packages = [] def UniqueKeepOrder(self, sequence): '''Get a copy of list where items are unique and order is preserved. Args: sequence: a sequence, can be a list, tuple, or other iterable Returns: a list where items copied from input sequence are unique and order is preserved. ''' seen = set() return [x for x in sequence if not (x in seen or seen.add(x))] def ReadCommentedText(self, file_path): '''Read pound commented text file into a list of lines. Comments or empty lines will be excluded Args: file_path: string ''' ret = set() with open(file_path, 'r') as f: lines = [line.strip() for line in f.readlines()] ret = set([s for s in lines if s and not s.startswith('#')]) return ret def ArTargetToLibraryName(self, ar_target): '''Convert ar target to library name. Args: ar_target: string ''' return os.path.basename(ar_target)[len('lib'):-len('.a')] def BuildExecutable(self, cc_target, local_src_files, local_cflags, local_c_includes, local_libraries, ltp_libs, ltp_libs_used, ltp_names_used): '''Build a test module. Args: cc_target: string local_src_files: list of string local_cflags: list of string local_c_includes: list of string local_libraries: list of string ltp_libs: list of string ltp_libs_used: set of string ltp_names_used: set of string, set of already used cc_target basenames ''' base_name = os.path.basename(cc_target) if base_name in ltp_names_used: print 'ERROR: base name {} of cc_target {} already used. Skipping...'.format( base_name, cc_target) return ltp_names_used.add(base_name) if cc_target in self._custom_cflags: local_cflags.extend(self._custom_cflags[cc_target]) self._unused_custom_cflags.remove(cc_target) # ltp_defaults already adds the include directory local_c_includes = [i for i in local_c_includes if i != 'include'] target_name = 'ltp_%s' % base_name target_bp = [] self._packages.append(target_name) target_bp.append('cc_test {') target_bp.append(' name: "%s",' % target_name) target_bp.append(' stem: "%s",' % base_name) target_bp.append(' defaults: ["ltp_test_defaults"],') if len(local_src_files) == 1: target_bp.append(' srcs: ["%s"],' % list(local_src_files)[0]) else: target_bp.append(' srcs: [') for src in local_src_files: target_bp.append(' "%s",' % src) target_bp.append(' ],') if len(local_cflags) == 1: target_bp.append(' cflags: ["%s"],' % list(local_cflags)[0]) elif len(local_cflags) > 1: target_bp.append(' cflags: [') for cflag in local_cflags: target_bp.append(' "%s",' % cflag) target_bp.append(' ],') if len(local_c_includes) == 1: target_bp.append(' local_include_dirs: ["%s"],' % list(local_c_includes)[0]) elif len(local_c_includes) > 1: target_bp.append(' local_include_dirs: [') for d in local_c_includes: target_bp.append(' "%s",' % d) target_bp.append(' ],') bionic_builtin_libs = set(['m', 'rt', 'pthread', 'util']) filtered_libs = set(local_libraries).difference(bionic_builtin_libs) static_libraries = set(i for i in local_libraries if i in ltp_libs) if len(static_libraries) == 1: target_bp.append(' static_libs: ["libltp_%s"],' % list(static_libraries)[0]) elif len(static_libraries) > 1: target_bp.append(' static_libs: [') for lib in static_libraries: target_bp.append(' "libltp_%s",' % lib) target_bp.append(' ],') for lib in static_libraries: ltp_libs_used.add(lib) shared_libraries = set(i for i in filtered_libs if i not in ltp_libs) if len(shared_libraries) == 1: target_bp.append(' shared_libs: ["lib%s"],' % list(shared_libraries)[0]) elif len(shared_libraries) > 1: target_bp.append(' shared_libs: [') for lib in shared_libraries: target_bp.append(' "lib%s",' % lib) target_bp.append(' ],') target_bp.append('}') target_bp.append('') self._bp_result[target_name] = target_bp def BuildStaticLibrary(self, ar_target, local_src_files, local_cflags, local_c_includes): '''Build a library module. Args: ar_target: string local_src_files: list of string local_cflags: list of string local_c_includes: list of string ''' target_name = 'libltp_%s' % self.ArTargetToLibraryName(ar_target) target_bp = [] target_bp.append('cc_library_static {') target_bp.append(' name: "%s",' % target_name) target_bp.append(' defaults: ["ltp_defaults"],') if len(local_c_includes): target_bp.append(' local_include_dirs: [') for d in local_c_includes: target_bp.append(' "%s",' % d) target_bp.append(' ],') if len(local_cflags): target_bp.append(' cflags: [') for cflag in local_cflags: target_bp.append(' "%s",' % cflag) target_bp.append(' ],') target_bp.append(' srcs: [') for src in local_src_files: target_bp.append(' "%s",' % src) target_bp.append(' ],') target_bp.append('}') target_bp.append('') self._bp_result[target_name] = target_bp def BuildPrebuilt(self, install_target, local_src_file): '''Build a prebuild module. Args: install_target: string local_src_file: string ''' base_name = os.path.basename(install_target) mk_result = [] mk_result.append('module_prebuilt := %s' % install_target) mk_result.append('module_src_files := %s' % local_src_file) module_dir = os.path.dirname(install_target) module_stem = os.path.basename(install_target) module = 'ltp_%s' % install_target.replace('/', '_') self._packages.append(module) mk_result.append('include $(ltp_build_prebuilt)') mk_result.append('') self._mk_result[base_name] = mk_result def HandleParsedRule(self, line, rules): '''Prepare parse rules. Args: line: string rules: dictionary {string, dictionary} ''' groups = re.match(r'(.*)\[\'(.*)\'\] = \[(.*)\]', line).groups() rule = groups[0] rule_key = groups[1] if groups[2] == '': rule_value = [] else: rule_value = list(i.strip()[1:-1] for i in groups[2].split(',')) rule_value = self.UniqueKeepOrder(rule_value) rules.setdefault(rule, {})[rule_key] = rule_value def ParseInput(self, input_list, ltp_root): '''Parse a interpreted make output and produce Android.ltp.mk module. Args: input_list: list of string ''' disabled_tests = self.ReadCommentedText(DISABLED_TESTS_FILE_NAME) disabled_libs = self.ReadCommentedText(DISABLED_LIBS_FILE_NAME) disabled_cflags = self.ReadCommentedText(DISABLED_CFLAGS_FILE_NAME) rules = {} for line in input_list: self.HandleParsedRule(line.strip(), rules) # .a target -> .o files ar = rules.get('ar', {}) # executable target -> .o files cc_link = rules.get('cc_link', {}) # .o target -> .c file cc_compile = rules.get('cc_compile', {}) # executable target -> .c files cc_compilelink = rules.get('cc_compilelink', {}) # Target name -> CFLAGS passed to gcc cc_flags = rules.get('cc_flags', {}) # Target name -> -I paths passed to gcc cc_includes = rules.get('cc_includes', {}) # Target name -> -l paths passed to gcc cc_libraries = rules.get('cc_libraries', {}) # target -> prebuilt source install = rules.get('install', {}) # All libraries used by any LTP test (built or not) ltp_libs = set(self.ArTargetToLibraryName(i) for i in ar.keys()) # All libraries used by the LTP tests we actually build ltp_libs_used = set() ltp_names_used = set() print( "Disabled lib tests: Test cases listed here are" "suggested to be disabled since they require a disabled library. " "Please copy and paste them into disabled_tests.txt\n") for i in cc_libraries: if len(set(cc_libraries[i]).intersection(disabled_libs)) > 0: if not os.path.basename(i) in disabled_tests: print os.path.basename(i) print("Disabled_cflag tests: Test cases listed here are" "suggested to be disabled since they require a disabled cflag. " "Please copy and paste them into disabled_tests.txt\n") for i in cc_flags: if len(set(cc_flags[i]).intersection(disabled_cflags)) > 0: module_name = os.path.basename(i) idx = module_name.find('_') if idx > 0: module_name = module_name[:idx] print module_name # Remove include directories that don't exist. They're an error in # Soong. for target in cc_includes: cc_includes[target] = [i for i in cc_includes[target] if os.path.isdir(os.path.join(ltp_root, i))] for target in cc_compilelink: module_name = os.path.basename(target) if module_name in disabled_tests: continue local_src_files = [] src_files = cc_compilelink[target] for i in src_files: # some targets may have a mix of .c and .o files in srcs # find the .c files to build those .o from cc_compile targets if i.endswith('.o'): local_src_files.extend(cc_compile[i]) else: local_src_files.append(i) local_cflags = cc_flags[target] local_c_includes = cc_includes[target] local_libraries = cc_libraries[target] if len(set(local_libraries).intersection(disabled_libs)) > 0: continue if len(set(local_cflags).intersection(disabled_cflags)) > 0: continue self.BuildExecutable(target, local_src_files, local_cflags, local_c_includes, local_libraries, ltp_libs, ltp_libs_used, ltp_names_used) for target in cc_link: if os.path.basename(target) in disabled_tests: continue local_src_files = set() local_cflags = set() local_c_includes = set() local_libraries = cc_libraries[target] # Accumulate flags for all .c files needed to build the .o files. # (Android.mk requires a consistent set of flags across a given target. # Thankfully using the superset of all flags in the target works fine # with LTP tests.) for obj in cc_link[target]: for i in cc_compile[obj]: local_src_files.add(i) for i in cc_flags[obj]: local_cflags.add(i) for i in cc_includes[obj]: local_c_includes.add(i) if len(set(local_libraries).intersection(disabled_libs)) > 0: continue if len(set(local_cflags).intersection(disabled_cflags)) > 0: continue self.BuildExecutable(target, local_src_files, local_cflags, local_c_includes, local_libraries, ltp_libs, ltp_libs_used, ltp_names_used) for target in ar: # Disabled ltp library is already excluded # since it won't be in ltp_libs_used if not self.ArTargetToLibraryName(target) in ltp_libs_used: continue local_src_files = set() local_cflags = set() local_c_includes = set() # TODO: disabled cflags for obj in ar[target]: for i in cc_compile[obj]: local_src_files.add(i) for i in cc_flags[obj]: local_cflags.add(i) for i in cc_includes[obj]: local_c_includes.add(i) if len(set(local_cflags).intersection(disabled_cflags)) > 0: continue local_src_files = sorted(local_src_files) local_cflags = sorted(local_cflags) local_c_includes = sorted(local_c_includes) self.BuildStaticLibrary(target, local_src_files, local_cflags, local_c_includes) for target in install: # Check if the absolute path to the prebuilt (relative to LTP_ROOT) # is disabled. This is helpful in case there are duplicates with basename # of the prebuilt. # e.g. # ./ testcases / kernel / fs / fs_bind / move / test01 # ./ testcases / kernel / fs / fs_bind / cloneNS / test01 # ./ testcases / kernel / fs / fs_bind / regression / test01 # ./ testcases / kernel / fs / fs_bind / rbind / test01 # ./ testcases / kernel / fs / fs_bind / bind / test01 if target in disabled_tests: continue if os.path.basename(target) in disabled_tests: continue local_src_files = install[target] assert len(local_src_files) == 1 self.BuildPrebuilt(target, local_src_files[0]) def WriteAndroidBp(self, output_path): '''Write parse result to blueprint file. Args: output_path: string ''' with open(output_path, 'a') as f: for k in sorted(self._bp_result.iterkeys()): f.write('\n'.join(self._bp_result[k])) f.write('\n') self._bp_result = {} def WriteAndroidMk(self, output_path): '''Write parse result to make file. Args: output_path: string ''' with open(output_path, 'a') as f: for k in sorted(self._mk_result.iterkeys()): f.write('\n'.join(self._mk_result[k])) f.write('\n') self._mk_result = {} def WritePackageList(self, output_path): '''Write parse result to package list file. Args: output_path: string ''' with open(output_path, 'a') as f: f.write('ltp_packages := \\\n ') f.write(' \\\n '.join(sorted(self._packages))) self._packages = [] def ParseAll(self, ltp_root): '''Parse outputs from both 'make' and 'make install'. Args: ltp_root: string ''' parser = make_parser.MakeParser(ltp_root) self.ParseInput(parser.ParseFile(MAKE_DRY_RUN_FILE_NAME), ltp_root) parser = make_install_parser.MakeInstallParser(ltp_root) self.ParseInput(parser.ParseFile(MAKE_INSTALL_DRY_RUN_FILE_NAME), ltp_root) def GetUnusedCustomCFlagsTargets(self): '''Get targets that have custom cflags, but that weren't built.''' return list(self._unused_custom_cflags) def main(): parser = argparse.ArgumentParser( description='Generate Android.mk from parsed LTP make output') parser.add_argument( '--ltp_root', dest='ltp_root', required=True, help='LTP root dir') parser.add_argument( '--output_mk_path', dest='output_mk_path', required=True, help='output makefile path') parser.add_argument( '--output_bp_path', dest='output_bp_path', required=True, help='output blueprint path') parser.add_argument( '--output_plist_path', required=True, help='output package list path') parser.add_argument( '--custom_cflags_file', dest='custom_cflags_file', required=True, help='file with custom per-module cflags. empty means no file.') args = parser.parse_args() custom_cflags = {} if args.custom_cflags_file: # The file is expected to just be a JSON map of string -> [string], e.g. # {"testcases/kernel/syscalls/getcwd/getcwd02": ["-DFOO", "-O3"]} with open(args.custom_cflags_file) as f: custom_cflags = json.load(f) generator = BuildGenerator(custom_cflags) generator.ParseAll(args.ltp_root) generator.WriteAndroidMk(args.output_mk_path) generator.WriteAndroidBp(args.output_bp_path) generator.WritePackageList(args.output_plist_path) unused_cflags_targs = generator.GetUnusedCustomCFlagsTargets() if unused_cflags_targs: print 'NOTE: Tests had custom cflags, but were never seen: {}'.format( ', '.join(unused_cflags_targs)) print 'Finished!' if __name__ == '__main__': main()