from __future__ import print_function import os import re import glob import subprocess import sys import unittest brpath = os.path.normpath(os.path.join(os.path.dirname(__file__), "..")) # # Patch parsing functions # FIND_INFRA_IN_PATCH = re.compile(r"^\+\$\(eval \$\((host-)?([^-]*)-package\)\)$") def analyze_patch(patch): """Parse one patch and return the list of files modified, added or removed by the patch.""" files = set() infras = set() for line in patch: # If the patch is adding a package, find which infra it is m = FIND_INFRA_IN_PATCH.match(line) if m: infras.add(m.group(2)) if not line.startswith("+++ "): continue line.strip() fname = line[line.find("/") + 1:].strip() if fname == "dev/null": continue files.add(fname) return (files, infras) FIND_INFRA_IN_MK = re.compile(r"^\$\(eval \$\((host-)?([^-]*)-package\)\)$") def fname_get_package_infra(fname): """Checks whether the file name passed as argument is a Buildroot .mk file describing a package, and find the infrastructure it's using.""" if not fname.endswith(".mk"): return None if not os.path.exists(fname): return None with open(fname, "r") as f: for line in f: line = line.strip() m = FIND_INFRA_IN_MK.match(line) if m: return m.group(2) return None def get_infras(files): """Search in the list of files for .mk files, and collect the package infrastructures used by those .mk files.""" infras = set() for fname in files: infra = fname_get_package_infra(fname) if infra: infras.add(infra) return infras def analyze_patches(patches): """Parse a list of patches and returns the list of files modified, added or removed by the patches, as well as the list of package infrastructures used by those patches (if any)""" allfiles = set() allinfras = set() for patch in patches: (files, infras) = analyze_patch(patch) allfiles = allfiles | files allinfras = allinfras | infras allinfras = allinfras | get_infras(allfiles) return (allfiles, allinfras) # # Unit-test parsing functions # def get_all_test_cases(suite): """Generate all test-cases from a given test-suite. :return: (test.module, test.name)""" if issubclass(type(suite), unittest.TestSuite): for test in suite: for res in get_all_test_cases(test): yield res else: yield (suite.__module__, suite.__class__.__name__) def list_unittests(): """Use the unittest module to retreive all test cases from a given directory""" loader = unittest.TestLoader() suite = loader.discover(os.path.join(brpath, "support", "testing")) tests = {} for module, test in get_all_test_cases(suite): module_path = os.path.join("support", "testing", *module.split('.')) tests.setdefault(module_path, []).append('%s.%s' % (module, test)) return tests unittests = {} # # DEVELOPERS file parsing functions # class Developer: def __init__(self, name, files): self.name = name self.files = files self.packages = parse_developer_packages(files) self.architectures = parse_developer_architectures(files) self.infras = parse_developer_infras(files) self.runtime_tests = parse_developer_runtime_tests(files) self.defconfigs = parse_developer_defconfigs(files) def hasfile(self, f): for fs in self.files: if f.startswith(fs): return True return False def __repr__(self): name = '\'' + self.name.split(' <')[0][:20] + '\'' things = [] if len(self.files): things.append('{} files'.format(len(self.files))) if len(self.packages): things.append('{} pkgs'.format(len(self.packages))) if len(self.architectures): things.append('{} archs'.format(len(self.architectures))) if len(self.infras): things.append('{} infras'.format(len(self.infras))) if len(self.runtime_tests): things.append('{} tests'.format(len(self.runtime_tests))) if len(self.defconfigs): things.append('{} defconfigs'.format(len(self.defconfigs))) if things: return 'Developer <{} ({})>'.format(name, ', '.join(things)) else: return 'Developer <' + name + '>' def parse_developer_packages(fnames): """Given a list of file patterns, travel through the Buildroot source tree to find which packages are implemented by those file patterns, and return a list of those packages.""" packages = set() for fname in fnames: for root, dirs, files in os.walk(os.path.join(brpath, fname)): for f in files: path = os.path.join(root, f) if fname_get_package_infra(path): pkg = os.path.splitext(f)[0] packages.add(pkg) return packages def parse_arches_from_config_in(fname): """Given a path to an arch/Config.in.* file, parse it to get the list of BR2_ARCH values for this architecture.""" arches = set() with open(fname, "r") as f: parsing_arches = False for line in f: line = line.strip() if line == "config BR2_ARCH": parsing_arches = True continue if parsing_arches: m = re.match(r"^\s*default \"([^\"]*)\".*", line) if m: arches.add(m.group(1)) else: parsing_arches = False return arches def parse_developer_architectures(fnames): """Given a list of file names, find the ones starting by 'arch/Config.in.', and use that to determine the architecture a developer is working on.""" arches = set() for fname in fnames: if not re.match(r"^.*/arch/Config\.in\..*$", fname): continue arches = arches | parse_arches_from_config_in(fname) return arches def parse_developer_infras(fnames): infras = set() for fname in fnames: m = re.match(r"^package/pkg-([^.]*).mk$", fname) if m: infras.add(m.group(1)) return infras def parse_developer_defconfigs(fnames): """Given a list of file names, returns the config names corresponding to defconfigs.""" return {os.path.basename(fname[:-10]) for fname in fnames if fname.endswith('_defconfig')} def parse_developer_runtime_tests(fnames): """Given a list of file names, returns the runtime tests corresponding to the file.""" all_files = [] # List all files recursively for fname in fnames: if os.path.isdir(fname): for root, _dirs, files in os.walk(os.path.join(brpath, fname)): all_files += [os.path.join(root, f) for f in files] else: all_files.append(fname) # Get all runtime tests runtimes = set() for f in all_files: name = os.path.splitext(f)[0] if name in unittests: runtimes |= set(unittests[name]) return runtimes def parse_developers(): """Parse the DEVELOPERS file and return a list of Developer objects.""" developers = [] linen = 0 global unittests unittests = list_unittests() with open(os.path.join(brpath, "DEVELOPERS"), "r") as f: files = [] name = None for line in f: line = line.strip() if line.startswith("#"): continue elif line.startswith("N:"): if name is not None or len(files) != 0: print("Syntax error in DEVELOPERS file, line %d" % linen, file=sys.stderr) name = line[2:].strip() elif line.startswith("F:"): fname = line[2:].strip() dev_files = glob.glob(os.path.join(brpath, fname)) if len(dev_files) == 0: print("WARNING: '%s' doesn't match any file" % fname, file=sys.stderr) files += [os.path.relpath(f, brpath) for f in dev_files] elif line == "": if not name: continue developers.append(Developer(name, files)) files = [] name = None else: print("Syntax error in DEVELOPERS file, line %d: '%s'" % (linen, line), file=sys.stderr) return None linen += 1 # handle last developer if name is not None: developers.append(Developer(name, files)) return developers def check_developers(developers, basepath=None): """Look at the list of files versioned in Buildroot, and returns the list of files that are not handled by any developer""" if basepath is None: basepath = os.getcwd() cmd = ["git", "--git-dir", os.path.join(basepath, ".git"), "ls-files"] files = subprocess.check_output(cmd).strip().split("\n") unhandled_files = [] for f in files: handled = False for d in developers: if d.hasfile(os.path.join(basepath, f)): handled = True break if not handled: unhandled_files.append(f) return unhandled_files