def check_summary(self, pkg, lang, ignored_words): summary = pkg.langtag(rpm.RPMTAG_SUMMARY, lang) self._unexpanded_macros(pkg, 'Summary(%s)' % lang, summary) utf8summary = summary if use_utf8: utf8summary = Pkg.to_utf8(summary).decode('utf-8') spell_check(pkg, utf8summary, 'Summary(%s)', lang, ignored_words) if '\n' in summary: printError(pkg, 'summary-on-multiple-lines', lang) if summary[0] != summary[0].upper(): printWarning(pkg, 'summary-not-capitalized', lang, summary) if summary[-1] == '.': printWarning(pkg, 'summary-ended-with-dot', lang, summary) if len(utf8summary) > max_line_len: printError(pkg, 'summary-too-long', lang, summary) if leading_space_regex.search(summary): printError(pkg, 'summary-has-leading-spaces', lang, summary) res = forbidden_words_regex.search(summary) if res and Config.getOption('ForbiddenWords'): printWarning(pkg, 'summary-use-invalid-word', lang, res.group(1)) if pkg.name: sepchars = '[\s' + punct + ']' res = re.search( '(?:^|\s)(%s)(?:%s|$)' % (re.escape(pkg.name), sepchars), summary, re.IGNORECASE | re.UNICODE) if res: printWarning(pkg, 'name-repeated-in-summary', lang, res.group(1)) if use_utf8 and not Pkg.is_utf8_str(summary): printError(pkg, 'tag-not-utf8', 'Summary', lang)
def check_summary(self, pkg, lang, ignored_words): summary = pkg.langtag(rpm.RPMTAG_SUMMARY, lang) self._unexpanded_macros(pkg, 'Summary(%s)' % lang, summary) utf8summary = summary if use_utf8: utf8summary = Pkg.to_utf8(summary).decode('utf-8') spell_check(pkg, utf8summary, 'Summary(%s)', lang, ignored_words) if '\n' in summary: printError(pkg, 'summary-on-multiple-lines', lang) if summary[0] != summary[0].upper(): printWarning(pkg, 'summary-not-capitalized', lang, summary) if summary[-1] == '.': printWarning(pkg, 'summary-ended-with-dot', lang, summary) if len(utf8summary) > max_line_len: printError(pkg, 'summary-too-long', lang, summary) if leading_space_regex.search(summary): printError(pkg, 'summary-has-leading-spaces', lang, summary) res = forbidden_words_regex.search(summary) if res and Config.getOption('ForbiddenWords'): printWarning(pkg, 'summary-use-invalid-word', lang, res.group(1)) if pkg.name: sepchars = '[\s' + punct + ']' res = re.search('(?:^|\s)(%s)(?:%s|$)' % (re.escape(pkg.name), sepchars), summary, re.IGNORECASE | re.UNICODE) if res: printWarning(pkg, 'name-repeated-in-summary', lang, res.group(1)) if use_utf8 and not Pkg.is_utf8_str(summary): printError(pkg, 'tag-not-utf8', 'Summary', lang)
def check_description(self, pkg, lang, ignored_words): description = pkg.langtag(rpm.RPMTAG_DESCRIPTION, lang) self._unexpanded_macros(pkg, '%%description -l %s' % lang, description) utf8desc = description if use_utf8: utf8desc = Pkg.to_utf8(description).decode('utf-8') spell_check(pkg, utf8desc, '%%description -l %s', lang, ignored_words) for l in utf8desc.splitlines(): if len(l) > max_line_len: printError(pkg, 'description-line-too-long', lang, l) res = forbidden_words_regex.search(l) if res and Config.getOption('ForbiddenWords'): printWarning(pkg, 'description-use-invalid-word', lang, res.group(1)) res = tag_regex.search(l) if res: printWarning(pkg, 'tag-in-description', lang, res.group(1)) if use_utf8 and not Pkg.is_utf8_str(description): printError(pkg, 'tag-not-utf8', '%description', lang)
def check(self, pkg): packager = Pkg.b2s(pkg[rpm.RPMTAG_PACKAGER]) if packager: self._unexpanded_macros(pkg, 'Packager', packager) if Config.getOption('Packager') and \ not packager_regex.search(packager): printWarning(pkg, 'invalid-packager', packager) else: printError(pkg, 'no-packager-tag') version = pkg[rpm.RPMTAG_VERSION] if version: self._unexpanded_macros(pkg, 'Version', version) res = invalid_version_regex.search(version) if res: printError(pkg, 'invalid-version', version) else: printError(pkg, 'no-version-tag') release = pkg[rpm.RPMTAG_RELEASE] if release: self._unexpanded_macros(pkg, 'Release', release) if release_ext and not extension_regex.search(release): printWarning(pkg, 'not-standard-release-extension', release) else: printError(pkg, 'no-release-tag') epoch = pkg[rpm.RPMTAG_EPOCH] if epoch is None: if use_epoch: printError(pkg, 'no-epoch-tag') else: if epoch > 99: printWarning(pkg, 'unreasonable-epoch', epoch) epoch = str(epoch) if use_epoch: for o in (x for x in pkg.obsoletes() if x[1] and x[2][0] is None): printWarning(pkg, 'no-epoch-in-obsoletes', Pkg.formatRequire(*o)) for c in (x for x in pkg.conflicts() if x[1] and x[2][0] is None): printWarning(pkg, 'no-epoch-in-conflicts', Pkg.formatRequire(*c)) for p in (x for x in pkg.provides() if x[1] and x[2][0] is None): printWarning(pkg, 'no-epoch-in-provides', Pkg.formatRequire(*p)) name = pkg.name deps = pkg.requires() + pkg.prereq() devel_depend = False is_devel = FilesCheck.devel_regex.search(name) is_source = pkg.isSource() for d in deps: value = Pkg.formatRequire(*d) if use_epoch and d[1] and d[2][0] is None and \ not d[0].startswith('rpmlib('): printWarning(pkg, 'no-epoch-in-dependency', value) for r in INVALID_REQUIRES: if r.search(d[0]): printError(pkg, 'invalid-dependency', d[0]) if d[0].startswith('/usr/local/'): printError(pkg, 'invalid-dependency', d[0]) if is_source: if lib_devel_number_regex.search(d[0]): printError(pkg, 'invalid-build-requires', d[0]) elif not is_devel: if not devel_depend and FilesCheck.devel_regex.search(d[0]): printError(pkg, 'devel-dependency', d[0]) devel_depend = True if not d[1]: res = lib_package_regex.search(d[0]) if res and not res.group(1): printError(pkg, 'explicit-lib-dependency', d[0]) if d[1] == rpm.RPMSENSE_EQUAL and d[2][2] is not None: printWarning(pkg, 'requires-on-release', value) self._unexpanded_macros(pkg, 'dependency %s' % (value, ), value) self._unexpanded_macros(pkg, 'Name', name) if not name: printError(pkg, 'no-name-tag') else: if is_devel and not is_source: base = is_devel.group(1) dep = None has_so = False for fname in pkg.files(): if fname.endswith('.so'): has_so = True break if has_so: base_or_libs = base + '/' + base + '-libs/lib' + base # try to match *%_isa as well (e.g. "(x86-64)", "(x86-32)") base_or_libs_re = re.compile( '^(lib)?%s(-libs)?(\(\w+-\d+\))?$' % re.escape(base)) for d in deps: if base_or_libs_re.match(d[0]): dep = d break if not dep: printWarning(pkg, 'no-dependency-on', base_or_libs) elif version: exp = (epoch, version, None) sexp = Pkg.versionToString(exp) if not dep[1]: printWarning(pkg, 'no-version-dependency-on', base_or_libs, sexp) elif dep[2][:2] != exp[:2]: printWarning( pkg, 'incoherent-version-dependency-on', base_or_libs, Pkg.versionToString( (dep[2][0], dep[2][1], None)), sexp) res = devel_number_regex.search(name) if not res: printWarning(pkg, 'no-major-in-name', name) else: if res.group(3): prov = res.group(1) + res.group(2) + '-devel' else: prov = res.group(1) + '-devel' if prov not in (x[0] for x in pkg.provides()): printWarning(pkg, 'no-provides', prov) # List of words to ignore in spell check ignored_words = set() for pf in pkg.files(): ignored_words.update(pf.split('/')) ignored_words.update((x[0] for x in pkg.provides())) ignored_words.update((x[0] for x in pkg.requires())) ignored_words.update((x[0] for x in pkg.conflicts())) ignored_words.update((x[0] for x in pkg.obsoletes())) langs = pkg[rpm.RPMTAG_HEADERI18NTABLE] if langs: langs = [Pkg.b2s(x) for x in langs] summary = Pkg.b2s(pkg[rpm.RPMTAG_SUMMARY]) if summary: if not langs: self._unexpanded_macros(pkg, 'Summary', summary) else: for lang in langs: self.check_summary(pkg, lang, ignored_words) else: printError(pkg, 'no-summary-tag') description = Pkg.b2s(pkg[rpm.RPMTAG_DESCRIPTION]) if description: if not langs: self._unexpanded_macros(pkg, '%description', description) else: for lang in langs: self.check_description(pkg, lang, ignored_words) else: printError(pkg, 'no-description-tag') group = pkg[rpm.RPMTAG_GROUP] self._unexpanded_macros(pkg, 'Group', group) if not group: printError(pkg, 'no-group-tag') elif VALID_GROUPS and group not in VALID_GROUPS: printWarning(pkg, 'non-standard-group', group) buildhost = pkg[rpm.RPMTAG_BUILDHOST] self._unexpanded_macros(pkg, 'BuildHost', buildhost) if not buildhost: printError(pkg, 'no-buildhost-tag') elif Config.getOption('ValidBuildHost') and \ not valid_buildhost_regex.search(buildhost): printWarning(pkg, 'invalid-buildhost', buildhost) changelog = pkg[rpm.RPMTAG_CHANGELOGNAME] if not changelog: printError(pkg, 'no-changelogname-tag') else: changelog = [Pkg.b2s(x) for x in changelog] clt = [Pkg.b2s(x) for x in pkg[rpm.RPMTAG_CHANGELOGTEXT]] if use_version_in_changelog: ret = changelog_version_regex.search(changelog[0]) if not ret and clt: # we also allow the version specified as the first # thing on the first line of the text ret = changelog_text_version_regex.search(clt[0]) if not ret: printWarning(pkg, 'no-version-in-last-changelog') elif version and release: srpm = pkg[rpm.RPMTAG_SOURCERPM] or '' # only check when source name correspond to name if srpm[0:-8] == '%s-%s-%s' % (name, version, release): expected = [version + '-' + release] if epoch is not None: # regardless of use_epoch expected[0] = str(epoch) + ':' + expected[0] # Allow EVR in changelog without release extension, # the extension is often a macro or otherwise dynamic. if release_ext: expected.append( extension_regex.sub('', expected[0])) if ret.group(1) not in expected: if len(expected) == 1: expected = expected[0] printWarning(pkg, 'incoherent-version-in-changelog', ret.group(1), expected) if clt: changelog = changelog + clt if use_utf8 and not Pkg.is_utf8_str(' '.join(changelog)): printError(pkg, 'tag-not-utf8', '%changelog') clt = pkg[rpm.RPMTAG_CHANGELOGTIME][0] if clt: clt -= clt % (24 * 3600) # roll back to 00:00:00, see #246 if clt < oldest_changelog_timestamp: printWarning(pkg, 'changelog-time-overflow', time.strftime("%Y-%m-%d", time.gmtime(clt))) elif clt > time.time(): printError(pkg, 'changelog-time-in-future', time.strftime("%Y-%m-%d", time.gmtime(clt))) # for provide_name in (x[0] for x in pkg.provides()): # if name == provide_name: # printWarning(pkg, 'package-provides-itself') # break def split_license(license): return (x.strip() for x in (l for l in license_regex.split(license) if l)) rpm_license = pkg[rpm.RPMTAG_LICENSE] if not rpm_license: printError(pkg, 'no-license') else: valid_license = True if rpm_license not in VALID_LICENSES: for l1 in split_license(rpm_license): if l1 in VALID_LICENSES: continue for l2 in split_license(l1): if l2 not in VALID_LICENSES: printWarning(pkg, 'invalid-license', l2) valid_license = False if not valid_license: self._unexpanded_macros(pkg, 'License', rpm_license) for tag in ('URL', 'DistURL', 'BugURL'): if hasattr(rpm, 'RPMTAG_%s' % tag.upper()): url = Pkg.b2s(pkg[getattr(rpm, 'RPMTAG_%s' % tag.upper())]) self._unexpanded_macros(pkg, tag, url, is_url=True) if url: (scheme, netloc) = urlparse(url)[0:2] if not scheme or not netloc or "." not in netloc or \ scheme not in ('http', 'https', 'ftp') or \ (Config.getOption('InvalidURL') and invalid_url_regex.search(url)): printWarning(pkg, 'invalid-url', tag, url) else: self.check_url(pkg, tag, url) elif tag == 'URL': printWarning(pkg, 'no-url-tag') obs_names = [x[0] for x in pkg.obsoletes()] prov_names = [x[0] for x in pkg.provides()] for o in (x for x in obs_names if x not in prov_names): printWarning(pkg, 'obsolete-not-provided', o) for o in pkg.obsoletes(): value = Pkg.formatRequire(*o) self._unexpanded_macros(pkg, 'Obsoletes %s' % (value, ), value) # TODO: should take versions, <, <=, =, >=, > into account here # https://bugzilla.redhat.com/460872 useless_provides = [] for p in prov_names: if prov_names.count(p) != 1 and p not in useless_provides: useless_provides.append(p) for p in useless_provides: printError(pkg, 'useless-provides', p) for p in pkg.provides(): value = Pkg.formatRequire(*p) self._unexpanded_macros(pkg, 'Provides %s' % (value, ), value) for c in pkg.conflicts(): value = Pkg.formatRequire(*c) self._unexpanded_macros(pkg, 'Conflicts %s' % (value, ), value) obss = pkg.obsoletes() if obss: provs = pkg.provides() for prov in provs: for obs in obss: if Pkg.rangeCompare(obs, prov): printWarning( pkg, 'self-obsoletion', '%s obsoletes %s' % (Pkg.formatRequire(*obs), Pkg.formatRequire(*prov))) expfmt = rpm.expandMacro("%{_build_name_fmt}") if pkg.isSource(): # _build_name_fmt often (always?) ends up not outputting src/nosrc # as arch for source packages, do it ourselves expfmt = re.sub(r'(?i)%\{?ARCH\b\}?', pkg.arch, expfmt) expected = pkg.header.sprintf(expfmt).split("/")[-1] basename = os.path.basename(pkg.filename) if basename != expected: printWarning(pkg, 'non-coherent-filename', basename, expected) for tag in ('Distribution', 'DistTag', 'ExcludeArch', 'ExcludeOS', 'Vendor'): if hasattr(rpm, 'RPMTAG_%s' % tag.upper()): self._unexpanded_macros( pkg, tag, Pkg.b2s(pkg[getattr(rpm, 'RPMTAG_%s' % tag.upper())])) for path in private_so_paths: for fname, pkgfile in pkg.files().items(): if fname.startswith(path): for prov in pkgfile.provides: if so_dep_regex.search(prov[0]): printWarning(pkg, "private-shared-object-provides", fname, Pkg.formatRequire(*prov))
def check(self, pkg): packager = Pkg.b2s(pkg[rpm.RPMTAG_PACKAGER]) if packager: self._unexpanded_macros(pkg, 'Packager', packager) if Config.getOption('Packager') and \ not packager_regex.search(packager): printWarning(pkg, 'invalid-packager', packager) else: printError(pkg, 'no-packager-tag') version = pkg[rpm.RPMTAG_VERSION] if version: self._unexpanded_macros(pkg, 'Version', version) res = invalid_version_regex.search(version) if res: printError(pkg, 'invalid-version', version) else: printError(pkg, 'no-version-tag') release = pkg[rpm.RPMTAG_RELEASE] if release: self._unexpanded_macros(pkg, 'Release', release) if release_ext and not extension_regex.search(release): printWarning(pkg, 'not-standard-release-extension', release) else: printError(pkg, 'no-release-tag') epoch = pkg[rpm.RPMTAG_EPOCH] if epoch is None: if use_epoch: printError(pkg, 'no-epoch-tag') else: if epoch > 99: printWarning(pkg, 'unreasonable-epoch', epoch) epoch = str(epoch) if use_epoch: for o in (x for x in pkg.obsoletes() if x[1] and x[2][0] is None): printWarning(pkg, 'no-epoch-in-obsoletes', Pkg.formatRequire(*o)) for c in (x for x in pkg.conflicts() if x[1] and x[2][0] is None): printWarning(pkg, 'no-epoch-in-conflicts', Pkg.formatRequire(*c)) for p in (x for x in pkg.provides() if x[1] and x[2][0] is None): printWarning(pkg, 'no-epoch-in-provides', Pkg.formatRequire(*p)) name = pkg.name deps = pkg.requires() + pkg.prereq() devel_depend = False is_devel = FilesCheck.devel_regex.search(name) is_source = pkg.isSource() for d in deps: value = Pkg.formatRequire(*d) if use_epoch and d[1] and d[2][0] is None and \ not d[0].startswith('rpmlib('): printWarning(pkg, 'no-epoch-in-dependency', value) for r in INVALID_REQUIRES: if r.search(d[0]): printError(pkg, 'invalid-dependency', d[0]) if d[0].startswith('/usr/local/'): printError(pkg, 'invalid-dependency', d[0]) if is_source: if lib_devel_number_regex.search(d[0]): printError(pkg, 'invalid-build-requires', d[0]) elif not is_devel: if not devel_depend and FilesCheck.devel_regex.search(d[0]): printError(pkg, 'devel-dependency', d[0]) devel_depend = True if not d[1]: res = lib_package_regex.search(d[0]) if res and not res.group(1): printError(pkg, 'explicit-lib-dependency', d[0]) if d[1] == rpm.RPMSENSE_EQUAL and d[2][2] is not None: printWarning(pkg, 'requires-on-release', value) self._unexpanded_macros(pkg, 'dependency %s' % (value,), value) self._unexpanded_macros(pkg, 'Name', name) if not name: printError(pkg, 'no-name-tag') else: if is_devel and not is_source: base = is_devel.group(1) dep = None has_so = False for fname in pkg.files(): if fname.endswith('.so'): has_so = True break if has_so: base_or_libs = base + '/' + base + '-libs/lib' + base # try to match *%_isa as well (e.g. "(x86-64)", "(x86-32)") base_or_libs_re = re.compile( '^(lib)?%s(-libs)?(\(\w+-\d+\))?$' % re.escape(base)) for d in deps: if base_or_libs_re.match(d[0]): dep = d break if not dep: printWarning(pkg, 'no-dependency-on', base_or_libs) elif version: exp = (epoch, version, None) sexp = Pkg.versionToString(exp) if not dep[1]: printWarning(pkg, 'no-version-dependency-on', base_or_libs, sexp) elif dep[2][:2] != exp[:2]: printWarning(pkg, 'incoherent-version-dependency-on', base_or_libs, Pkg.versionToString((dep[2][0], dep[2][1], None)), sexp) res = devel_number_regex.search(name) if not res: printWarning(pkg, 'no-major-in-name', name) else: if res.group(3): prov = res.group(1) + res.group(2) + '-devel' else: prov = res.group(1) + '-devel' if prov not in (x[0] for x in pkg.provides()): printWarning(pkg, 'no-provides', prov) # List of words to ignore in spell check ignored_words = set() for pf in pkg.files(): ignored_words.update(pf.split('/')) ignored_words.update((x[0] for x in pkg.provides())) ignored_words.update((x[0] for x in pkg.requires())) ignored_words.update((x[0] for x in pkg.conflicts())) ignored_words.update((x[0] for x in pkg.obsoletes())) langs = pkg[rpm.RPMTAG_HEADERI18NTABLE] if langs: langs = [Pkg.b2s(x) for x in langs] summary = Pkg.b2s(pkg[rpm.RPMTAG_SUMMARY]) if summary: if not langs: self._unexpanded_macros(pkg, 'Summary', summary) else: for lang in langs: self.check_summary(pkg, lang, ignored_words) else: printError(pkg, 'no-summary-tag') description = Pkg.b2s(pkg[rpm.RPMTAG_DESCRIPTION]) if description: if not langs: self._unexpanded_macros(pkg, '%description', description) else: for lang in langs: self.check_description(pkg, lang, ignored_words) else: printError(pkg, 'no-description-tag') group = pkg[rpm.RPMTAG_GROUP] self._unexpanded_macros(pkg, 'Group', group) if not group: printError(pkg, 'no-group-tag') elif VALID_GROUPS and group not in VALID_GROUPS: printWarning(pkg, 'non-standard-group', group) buildhost = pkg[rpm.RPMTAG_BUILDHOST] self._unexpanded_macros(pkg, 'BuildHost', buildhost) if not buildhost: printError(pkg, 'no-buildhost-tag') elif Config.getOption('ValidBuildHost') and \ not valid_buildhost_regex.search(buildhost): printWarning(pkg, 'invalid-buildhost', buildhost) changelog = pkg[rpm.RPMTAG_CHANGELOGNAME] if not changelog: printError(pkg, 'no-changelogname-tag') else: changelog = [Pkg.b2s(x) for x in changelog] clt = [Pkg.b2s(x) for x in pkg[rpm.RPMTAG_CHANGELOGTEXT]] if use_version_in_changelog: ret = changelog_version_regex.search(changelog[0]) if not ret and clt: # we also allow the version specified as the first # thing on the first line of the text ret = changelog_text_version_regex.search(clt[0]) if not ret: printWarning(pkg, 'no-version-in-last-changelog') elif version and release: srpm = pkg[rpm.RPMTAG_SOURCERPM] or '' # only check when source name correspond to name if srpm[0:-8] == '%s-%s-%s' % (name, version, release): expected = [version + '-' + release] if epoch is not None: # regardless of use_epoch expected[0] = str(epoch) + ':' + expected[0] # Allow EVR in changelog without release extension, # the extension is often a macro or otherwise dynamic. if release_ext: expected.append( extension_regex.sub('', expected[0])) if ret.group(1) not in expected: if len(expected) == 1: expected = expected[0] printWarning(pkg, 'incoherent-version-in-changelog', ret.group(1), expected) if clt: changelog = changelog + clt if use_utf8 and not Pkg.is_utf8_str(' '.join(changelog)): printError(pkg, 'tag-not-utf8', '%changelog') clt = pkg[rpm.RPMTAG_CHANGELOGTIME][0] if clt: clt -= clt % (24*3600) # roll back to 00:00:00, see #246 if clt < oldest_changelog_timestamp: printWarning(pkg, 'changelog-time-overflow', time.strftime("%Y-%m-%d", time.gmtime(clt))) elif clt > time.time(): printError(pkg, 'changelog-time-in-future', time.strftime("%Y-%m-%d", time.gmtime(clt))) # for provide_name in (x[0] for x in pkg.provides()): # if name == provide_name: # printWarning(pkg, 'package-provides-itself') # break def split_license(license): return (x.strip() for x in (l for l in license_regex.split(license) if l)) rpm_license = pkg[rpm.RPMTAG_LICENSE] if not rpm_license: printError(pkg, 'no-license') else: valid_license = True if rpm_license not in VALID_LICENSES: for l1 in split_license(rpm_license): if l1 in VALID_LICENSES: continue for l2 in split_license(l1): if l2 not in VALID_LICENSES: printWarning(pkg, 'invalid-license', l2) valid_license = False if not valid_license: self._unexpanded_macros(pkg, 'License', rpm_license) for tag in ('URL', 'DistURL', 'BugURL'): if hasattr(rpm, 'RPMTAG_%s' % tag.upper()): url = Pkg.b2s(pkg[getattr(rpm, 'RPMTAG_%s' % tag.upper())]) self._unexpanded_macros(pkg, tag, url, is_url=True) if url: (scheme, netloc) = urlparse(url)[0:2] if not scheme or not netloc or "." not in netloc or \ scheme not in ('http', 'https', 'ftp') or \ (Config.getOption('InvalidURL') and invalid_url_regex.search(url)): printWarning(pkg, 'invalid-url', tag, url) else: self.check_url(pkg, tag, url) elif tag == 'URL': printWarning(pkg, 'no-url-tag') obs_names = [x[0] for x in pkg.obsoletes()] prov_names = [x[0] for x in pkg.provides()] for o in (x for x in obs_names if x not in prov_names): printWarning(pkg, 'obsolete-not-provided', o) for o in pkg.obsoletes(): value = Pkg.formatRequire(*o) self._unexpanded_macros(pkg, 'Obsoletes %s' % (value,), value) # TODO: should take versions, <, <=, =, >=, > into account here # https://bugzilla.redhat.com/460872 useless_provides = [] for p in prov_names: if prov_names.count(p) != 1 and p not in useless_provides: useless_provides.append(p) for p in useless_provides: printError(pkg, 'useless-provides', p) for p in pkg.provides(): value = Pkg.formatRequire(*p) self._unexpanded_macros(pkg, 'Provides %s' % (value,), value) for c in pkg.conflicts(): value = Pkg.formatRequire(*c) self._unexpanded_macros(pkg, 'Conflicts %s' % (value,), value) obss = pkg.obsoletes() if obss: provs = pkg.provides() for prov in provs: for obs in obss: if Pkg.rangeCompare(obs, prov): printWarning(pkg, 'self-obsoletion', '%s obsoletes %s' % (Pkg.formatRequire(*obs), Pkg.formatRequire(*prov))) expfmt = rpm.expandMacro("%{_build_name_fmt}") if pkg.isSource(): # _build_name_fmt often (always?) ends up not outputting src/nosrc # as arch for source packages, do it ourselves expfmt = re.sub(r'(?i)%\{?ARCH\b\}?', pkg.arch, expfmt) expected = pkg.header.sprintf(expfmt).split("/")[-1] basename = os.path.basename(pkg.filename) if basename != expected: printWarning(pkg, 'non-coherent-filename', basename, expected) for tag in ('Distribution', 'DistTag', 'ExcludeArch', 'ExcludeOS', 'Vendor'): if hasattr(rpm, 'RPMTAG_%s' % tag.upper()): self._unexpanded_macros(pkg, tag, Pkg.b2s(pkg[getattr(rpm, 'RPMTAG_%s' % tag.upper())])) for path in private_so_paths: for fname, pkgfile in pkg.files().items(): if fname.startswith(path): for prov in pkgfile.provides: if so_dep_regex.search(prov[0]): printWarning(pkg, "private-shared-object-provides", fname, Pkg.formatRequire(*prov))