def update(self) -> None: # explicitly discard old instance to prevent rpm from destroying # "sources" and "patches" lua tables after new instance is created self.spc = None self.spc = RpmHelper.get_rpm_spec(self.path, self.sources_location, self.predefined_macros) self.header = RpmHeader(self.spc.sourceHeader) self.spec_content = self._read_spec_content() self.tags = Tags(self.spec_content, SpecContent(self.spc.parsed)) self._update_data()
def test_replace_old_version_spec_hook(self, mocked_spec_object, mocked_spec_object_copy, replace_with_macro): mocked_spec_object_copy.header.version = '1.1.0' mocked_spec_object_copy.header.release = '1' mocked_spec_object_copy.set_raw_tag_value('Version', '1.1.0') ReplaceOldVersion.run( mocked_spec_object, mocked_spec_object_copy, replace_old_version_with_macro=replace_with_macro) # The spec is not saved due to mocking, refresh tags for the assertions mocked_spec_object_copy.tags = Tags( mocked_spec_object_copy.spec_content, mocked_spec_object_copy.spec_content) # Check if the version has been updated test_source = mocked_spec_object_copy.get_raw_tag_value('Source9') if replace_with_macro: assert test_source == 'https://test.com/#/1.1/%{name}-hardcoded-version-%{version}.tar.gz' else: assert test_source == 'https://test.com/#/1.1/%{name}-hardcoded-version-1.1.0.tar.gz' # Check if dependency and Version tags are ignored assert mocked_spec_object_copy.get_raw_tag_value( 'Recommends') == 'test > 1.0.2' assert mocked_spec_object_copy.get_raw_tag_value('Version') == '1.1.0' # Check if version in changelog hasn't been changed changelog = mocked_spec_object_copy.spec_content.section('%changelog') assert '1.0.2' in changelog[0]
def get_source(self, source_name: str) -> Optional[Tag]: """ get specific Source from spec :param source_name: precise name of the Source, e.g. Source1, or Source :return: corresponding Source Tag """ # sanitize the name, this will also add index if there isn't one source_name, *_ = Tags._sanitize_tag(source_name, 0, 0) return next(self.tags.filter(name=source_name, valid=None), None)
def __init__(self, path: str, sources_location: str = '', predefined_macros: Optional[Dict[str, str]] = None, lookaside_cache_preset: str = 'fedpkg', keep_comments: bool = False): # Initialize attributes self.path: str = path self.sources_location: str = sources_location self.predefined_macros: Dict[str, str] = predefined_macros or {} self.lookaside_cache_preset: str = lookaside_cache_preset self.keep_comments: bool = keep_comments self.prep_section: str = '' self.sources: List[str] = [] self.patches: Dict[str, List[PatchObject]] = {} self.removed_patches: List[str] = [] self.category: Optional[PackageCategory] = None self.spc: rpm.spec = RpmHelper.get_rpm_spec(self.path, self.sources_location, self.predefined_macros) self.header: RpmHeader = RpmHeader(self.spc.sourceHeader) self.spec_content: SpecContent = self._read_spec_content() self.tags: Tags = Tags(self.spec_content, SpecContent(self.spc.parsed)) # Load rpm information self._update_data()
def mocked_spec_object(spec_attributes): spec = SpecFile.__new__(SpecFile) spec.save = lambda: None for attribute, value in spec_attributes.items(): if attribute == 'macros': for macro, properties in value.items(): rpm.addMacro(macro, properties.get('value', '')) macros = MacroHelper.dump() for macro, properties in value.items(): for m in macros: if m['name'] == macro: for prop, v in properties.items(): if prop != 'value': m[prop] = v value = macros if attribute == 'spec_content' and isinstance(value, str): value = SpecContent(value) setattr(spec, attribute, value) if hasattr(spec, 'spec_content') and not hasattr(spec, 'tags'): spec.tags = Tags(spec.spec_content, spec.spec_content) return spec
class SpecFile: """Class representing a SPEC file. Be aware that using SpecFile modifies RPM macros in global context.""" def __init__(self, path: str, sources_location: str = '', predefined_macros: Optional[Dict[str, str]] = None, lookaside_cache_preset: str = 'fedpkg', keep_comments: bool = False): # Initialize attributes self.path: str = path self.sources_location: str = sources_location self.predefined_macros: Dict[str, str] = predefined_macros or {} self.lookaside_cache_preset: str = lookaside_cache_preset self.keep_comments: bool = keep_comments self.prep_section: str = '' self.sources: List[str] = [] self.patches: Dict[str, List[PatchObject]] = {} self.removed_patches: List[str] = [] self.category: Optional[PackageCategory] = None self.spc: rpm.spec = RpmHelper.get_rpm_spec(self.path, self.sources_location, self.predefined_macros) self.header: RpmHeader = RpmHeader(self.spc.sourceHeader) self.spec_content: SpecContent = self._read_spec_content() self.tags: Tags = Tags(self.spec_content, SpecContent(self.spc.parsed)) # Load rpm information self._update_data() def __del__(self): # make sure there are no leftover macros rpm.reloadConfig() def download_remote_sources(self): """ Method that iterates over all sources and downloads ones, which contain URL instead of just a file. :return: None """ try: # try to download old sources from Fedora lookaside cache LookasideCacheHelper.download(self.lookaside_cache_preset, os.path.dirname(self.path), self.header.name, self.sources_location) except LookasideCacheError as e: logger.verbose("Downloading sources from lookaside cache failed. " "Reason: %s.", str(e)) # filter out only sources with URL remote_files = [source for source in self.sources if bool(urllib.parse.urlparse(source).scheme)] # download any sources that are not yet downloaded for remote_file in remote_files: local_file = os.path.join(self.sources_location, os.path.basename(remote_file)) if not os.path.isfile(local_file): logger.verbose("File '%s' doesn't exist locally, downloading it.", local_file) try: DownloadHelper.download_file(remote_file, local_file) except DownloadError as e: raise RebaseHelperError("Failed to download file from URL {}. " "Reason: '{}'. ".format(remote_file, str(e))) from e def update(self) -> None: # explicitly discard old instance to prevent rpm from destroying # "sources" and "patches" lua tables after new instance is created self.spc = None self.spc = RpmHelper.get_rpm_spec(self.path, self.sources_location, self.predefined_macros) self.header = RpmHeader(self.spc.sourceHeader) self.spec_content = self._read_spec_content() self.tags = Tags(self.spec_content, SpecContent(self.spc.parsed)) self._update_data() def _update_data(self): """ Function updates data from given SPEC file :return: """ def guess_category(): for pkg in self.spc.packages: header = RpmHeader(pkg.header) for category in PackageCategory: if category.value.match(header.name): return category for provide in header.providename: if category.value.match(provide): return category return None self.category = guess_category() self.sources = self._get_spec_sources_list(self.spc) self.prep_section = self.spc.prep self.main_source_index = self._identify_main_source(self.spc) self.patches = self._get_initial_patches() self.macros = MacroHelper.dump() ###################### # TAG HELPER METHODS # ###################### def tag(self, name: str, section: Optional[Union[str, int]] = None) -> Optional[Tag]: """Returns the first non-unique tag.""" if isinstance(section, str): tags = self.tags.filter(section_name=section, name=name) else: tags = self.tags.filter(section_index=section, name=name) return next(tags, None) def get_raw_tag_value(self, tag_name: str, section: Optional[Union[str, int]] = None) -> Optional[str]: tag = self.tag(tag_name, section) if not tag: return None return self.spec_content[tag.section_index][tag.line][slice(*tag.value_span)] def set_raw_tag_value(self, tag_name: str, value: str, section: Optional[Union[str, int]] = None) -> None: tag = self.tag(tag_name, section) if not tag: return sec = self.spec_content[tag.section_index] line = sec[tag.line] sec[tag.line] = line[:tag.value_span[0]] + value + line[tag.value_span[1]:] # update span tag.value_span = (tag.value_span[0], tag.value_span[0] + len(value)) ########################### # SOURCES RELATED METHODS # ########################### @staticmethod def _identify_main_source(spec: rpm.spec) -> int: # lowest index is the main source return min([s[1] for s in spec.sources if s[2] == 1]) @staticmethod def _get_spec_sources_list(spec_object): """ Method uses RPM API to get list of Sources from the SPEC file and returns the list of sources. If the Source contains URL, the URL will be included in the list. This means no modifications of Sources are done at this point. :param spec_object: instance of rpm.spec object :type spec_object: rpm.spec :return: list of Sources in SPEC file in the exact order as they are listed in SPEC file. :rtype: list """ # the sources list returned by RPM API contains list of items (path, index, source_type). # source type "1" is a regular source regular_sources = [source[:2] for source in spec_object.sources if source[2] == 1] regular_sources = [source[0] for source in sorted(regular_sources, key=itemgetter(1))] return regular_sources def get_sources(self) -> List[str]: """Gets a list of local sources.""" return [os.path.join(self.sources_location, os.path.basename(source)) for source in self.sources] def get_archive(self): """ Method returns the basename of first Source in SPEC file a.k.a. Source0 :return: basename of first Source in SPEC file :rtype: str """ return os.path.basename(self.get_sources()[0]) def _get_raw_source_string(self, source_num: int) -> Optional[str]: tag = 'Source{0}'.format(source_num) return self.get_raw_tag_value(tag) def get_main_source(self) -> str: return self._get_raw_source_string(self.main_source_index) or '' ########################### # PATCHES RELATED METHODS # ########################### def _get_initial_patches(self) -> Dict[str, List[PatchObject]]: """Returns a dict of patches from a spec file""" patches_applied = [] patches_not_used = [] patches_list = [p for p in self.spc.sources if p[2] == 2] strip_options = self._get_patch_strip_options(patches_list) for patch, num, _ in patches_list: is_url = bool(urllib.parse.urlparse(patch).scheme) filename = os.path.basename(patch) if is_url else patch patch_path = os.path.join(self.sources_location, filename) if not os.path.exists(patch_path): if is_url: logger.info('Patch%s is remote, trying to download the patch', num) try: DownloadHelper.download_file(patch, filename) except DownloadError: logger.error('Could not download remote patch %s', patch) continue else: logger.error('Patch %s does not exist', filename) continue patch_num = num if patch_num in strip_options: patches_applied.append(PatchObject(patch_path, patch_num, strip_options[patch_num])) else: patches_not_used.append(PatchObject(patch_path, patch_num, None)) patches_applied = sorted(patches_applied, key=lambda x: x.index) return {"applied": patches_applied, "not_applied": patches_not_used} def _get_patch_strip_options(self, patches: List[Tuple[str, int, int]]): """ Gets value of strip option of each used patch This should work reliably in most cases except when a list of patches is read from a file (netcf, libvirt). """ parser = SilentArgumentParser() parser.add_argument('-p', type=int, default=1) result: Dict[int, int] = {} for line in self.get_prep_section(): try: tokens = shlex.split(line, comments=True) except ValueError: continue if not tokens: continue args = tokens[1:] try: ns, rest = parser.parse_known_args(args) except ParseError: continue rest = [os.path.basename(a) for a in rest] indexes = [p[1] for p in patches if os.path.basename(p[0]) in rest] for idx in indexes: if idx not in result or result[idx] < ns.p: result[idx] = ns.p return result def get_patches(self): """ Method returns list of all applied and not applied patches :return: list of PatchObject """ return self.get_applied_patches() + self.get_not_used_patches() def get_applied_patches(self): """ Method returns list of all applied patches. :return: list of PatchObject """ return self.patches['applied'] def get_not_used_patches(self): """ Method returns list of all unpplied patches. :return: list of PatchObject """ return self.patches['not_applied'] def process_patch_macros(self, comment_out: Optional[List[int]] = None, remove: Optional[List[int]] = None, annotate: Optional[List[int]] = None, note: Optional[str] = None) -> None: """Processes %patch macros in %prep section. Args: comment_out: List of patch numbers to comment out. remove: List of patch numbers to remove. annotate: List of patch numbers to annotate. note: Message to annotate patches with. """ comment_out = list(comment_out or []) remove = list(remove or []) annotate = list(annotate or []) prep = self.spec_content.section('%prep') if not prep: return patch_re = re.compile(r'^%patch(?P<index>\d+)(.*)') i = 0 removed = 0 while i < len(prep): line = prep[i] match = patch_re.match(line) if match: index = int(match.group('index')) if note and index in annotate and index not in remove: prep.insert(i, '# {}'.format(note)) annotate.remove(index) i += 1 continue if index in comment_out: prep[i] = '#%{}'.format(line) comment_out.remove(index) removed += 1 elif index in remove: del prep[i] remove.remove(index) removed += 1 i -= 1 # When combining Patch tags and %patchlist, if a Patch is removed, the indexes # of %patchlist patches change and %patch macros need to be modified. else: tag = self.tag('Patch{}'.format(index)) if tag and tag.section_name.startswith('%patchlist'): prep[i] = patch_re.sub(r'%patch{}\2'.format(index - removed), prep[i]) i += 1 @saves def update_paths_to_sources_and_patches(self) -> None: """Fixes paths of patches and sources to make them usable in SPEC file location""" rebased_sources_path = os.path.join(constants.RESULTS_DIR, constants.REBASED_SOURCES_DIR) for tag_type in ('Patch', 'Source'): for tag in self.tags.filter(name='{}*'.format(tag_type)): value = self.get_raw_tag_value(tag.name) if value and not urllib.parse.urlparse(value).scheme: self.set_raw_tag_value(tag.name, value.replace(rebased_sources_path + os.path.sep, '')) @saves def write_updated_patches(self, patches: Dict[str, List[str]], disable_inapplicable: bool) -> None: """Updates SPEC file according to rebased patches. Args: patches: Dict of lists of modified, deleted or inapplicable patches. disable_inapplicable: Whether to comment out inapplicable patches. """ def is_comment(line): if re.match(r'^#(Patch|Source)[0-9]*\s*:(?!//)', line, re.IGNORECASE): # ignore commented-out tag return False return line.startswith('#') def is_empty(line): return not line or line.isspace() if not patches: return None removed_patches = [] inapplicable_patches = [] modified_patches = [] remove_lines: Dict[int, List[Tuple[int, int]]] = collections.defaultdict(list) for tag in self.tags.filter(name='Patch*'): section = self.spec_content[tag.section_index] if section is None: continue patch_name = os.path.basename(self.get_raw_tag_value(tag.name) or '') if 'deleted' in patches: patch_removed = [x for x in patches['deleted'] if patch_name in x] else: patch_removed = [] if 'inapplicable' in patches: patch_inapplicable = [x for x in patches['inapplicable'] if patch_name in x] else: patch_inapplicable = [] if patch_removed: # remove the line of the patch that was removed self.removed_patches.append(patch_name) if tag.index: removed_patches.append(tag.index) # find associated comments i = tag.line if not self.keep_comments: # if the tag is followed by an empty line remove empty lines # in front of the tag to avoid unnecessary blank lines in the spec. blank_follows = i + 1 < len(section) and is_empty(section[i + 1]) while i > 0 and (is_comment(section[i - 1]) or blank_follows and is_empty(section[i - 1])): i -= 1 remove_lines[tag.section_index].append((i, tag.line + 1)) continue if patch_inapplicable: if disable_inapplicable: # comment out line if the patch was not applied section[tag.line] = '#' + section[tag.line] if tag.index: inapplicable_patches.append(tag.index) if 'modified' in patches: patch = [x for x in patches['modified'] if patch_name in x] else: patch = [] if patch: name = os.path.join(constants.RESULTS_DIR, constants.REBASED_SOURCES_DIR, patch_name) self.set_raw_tag_value(tag.name, name) if tag.index: modified_patches.append(tag.index) for section_index, remove in remove_lines.items(): content = self.spec_content[section_index] for span in sorted(remove, key=lambda s: s[0], reverse=True): del content[slice(*span)] self.process_patch_macros(comment_out=inapplicable_patches if disable_inapplicable else None, remove=removed_patches, annotate=inapplicable_patches, note='The following patch contains conflicts') ################################### # PACKAGE VERSION RELATED METHODS # ################################### def get_NVR(self) -> str: return '{0.name}-{0.version}-{0.release}'.format(self.header) def get_version(self) -> str: # deprecated, kept for backward compatibility return self.header.version def get_release(self) -> str: """Returns release string without %dist""" release = self.header.release dist = MacroHelper.expand('%{dist}') if dist and release.endswith(dist): release = release[:-len(dist)] return release def parse_release(self) -> Tuple[bool, int, Optional[str]]: """Parses release string. Returns: Tuple of is_prerelease, release_number and extra_version. Raises: RebaseHelperError in case release string is not valid. """ release = self.get_release() m = re.match(r'^(0\.)?(\d+)(?:\.(.+))?$', release) if not m: raise RebaseHelperError('Invalid release string: {}'.format(release)) return bool(m.group(1)), int(m.group(2)), m.group(3) def set_version(self, version: str, preserve_macros: bool = True) -> None: logger.verbose('Updating version in SPEC from %s to %s', self.header.version, version) self.set_tag('Version', version, preserve_macros=preserve_macros) def set_release(self, release: str, preserve_macros: bool = True) -> None: logger.verbose('Changing release to %s', release) self.set_tag('Release', '{}%{{?dist}}'.format(release), preserve_macros=preserve_macros) def set_release_number(self, release: str) -> None: # deprecated, kept for backward compatibility self.set_release(release) def set_extra_version(self, extra_version: Optional[str], version_changed: bool) -> None: """Updates SPEC file with the specified extra version. Args: extra_version: Extra version string or None. version_changed: Whether version (the value of Version tag) changed. """ logger.verbose('Setting extra version in SPEC to %s', extra_version) relnum = self.parse_release()[1] relnum = 1 if version_changed else relnum + 1 release = str(relnum) if extra_version: release += '.' + extra_version if re.match(r'^(a(lpha)?|b(eta)?|cr|rc)\d*$', extra_version, re.IGNORECASE): release = '0.' + release self.set_release(release) # TODO: in some cases it might be necessary to modify Source0 @saves def set_tag(self, tag: str, value: str, preserve_macros: bool = False) -> None: """Sets value of a tag while trying to preserve macros if requested. Note that this method is not intended to be used with non-unique tags, it will only affect the first instance. Args: tag: Tag name. value: Tag value. preserve_macros: Whether to attempt to preserve macros in the current tag value. """ macro_def_re = re.compile( r''' ^ (?P<cond>%{!?\?\w+:\s*)? (?(cond)%global|%(global|define)) \s+ (?P<name>\w+) (?P<options>\(.+?\))? \s+ (?P<value> (%((?P<b>{)|(?P<s>\()))? .+? (?(b)})(?(s)\)) ) (?(cond)}) $ ''', re.VERBOSE | re.MULTILINE | re.DOTALL) def _get_macro_value(macro): """Returns raw value of a macro""" for match in macro_def_re.finditer('\n'.join(self.spec_content.section('%package'))): if match.group('name') == macro: return match.group('value') return None def _redefine_macro(macro, value): """Replaces value of an existing macro""" content = '\n'.join(self.spec_content.section('%package')) for match in macro_def_re.finditer(content): if match.group('name') != macro: continue content = content[:match.start('value')] + value + content[match.end('value'):] if match.group('options'): content = content[:match.start('options')] + content[match.end('options'):] break self.spec_content.replace_section('%package', content.split('\n')) self.save() def _find_macros(s): """Returns all redefinable macros present in a string""" macro_re = re.compile(r'%(?P<brace>{\??)?(?P<name>\w+)(?(brace)})') macros = [] for match in macro_def_re.finditer('\n'.join(self.spec_content.section('%package'))): macros.append(match.group('name')) result = [] for match in macro_re.finditer(s): if not match: continue if match.group('name') not in macros: continue result.append((match.group('name'), match.span())) return result def _expand_macros(s): """Expands all redefinable macros containing redefinable macros. Keeps track of all expanded macros. Returns the expanded string and a set of expanded macro names. """ replace = [] macros = set() for macro, span in _find_macros(s): value = _get_macro_value(macro) if not value: continue macros.add(macro) rep, new_macros = _expand_macros(value) macros |= new_macros if _find_macros(rep): replace.append((rep, span)) for rep, span in reversed(replace): s = s[:span[0]] + rep + s[span[1]:] return s, macros def _tokenize(s): """Removes conditional macros and splits string on macro boundaries""" def parse(inp): tree = [] text = '' macro = '' buf = '' escape = False while inp: c = inp.pop(0) if c == '%': c = inp.pop(0) if c == '%': text += c elif c == '{': if text: tree.append(('t', text)) text = '' while inp and c not in ':}': c = inp.pop(0) buf += c if c == ':': tree.append(('c', buf[:-1], parse(inp))) buf = '' elif c == '}': tree.append(('m', buf[:-1])) buf = '' elif c == '(': if text: tree.append(('t', text)) text = '' tree.append(('s', None, parse(inp))) else: if text: tree.append(('t', text)) text = '' while inp and (c.isalnum() or c == '_'): c = inp.pop(0) macro += c tree.append(('m', macro)) macro = '' elif c == '$': text += c c = inp.pop(0) if c == '{': text += c escape = True elif c == '}': if escape: text += c escape = False else: if text: tree.append(('t', text)) inp.append(c) return tree elif c == ')': if text: tree.append(('t', text)) inp.append(c) return tree else: text += c if text: tree.append(('t', text)) return tree def traverse(tree): result = [] for node in tree: if node[0] == 't': # split text nodes on usual separators result.extend([t for t in re.split(r'(\.|-|_)', node[1]) if t]) elif node[0] == 'm': m = '%{{{}}}'.format(node[1]) if MacroHelper.expand(m): result.append(m) elif node[0] == 'c': if MacroHelper.expand('%{{{}:1}}'.format(node[1])): result.extend(traverse(node[2])) elif node[0] == 's': # ignore shell expansions, push nonsensical value result.append('@') return result inp = list(s) tree = parse(inp) return traverse(tree) def _sync_macros(s): """Makes all macros present in a string up-to-date in rpm context""" _, macros = _expand_macros(s) for macro in macros: MacroHelper.purge_macro(macro) value = _get_macro_value(macro) if value and MacroHelper.expand(value): rpm.addMacro(macro, value) def _process_value(curval, newval): """ Replaces non-redefinable-macro parts of curval with matching parts from newval and redefines values of macros accordingly """ value, _ = _expand_macros(curval) _sync_macros(curval + newval) tokens = _tokenize(value) values = [None] * len(tokens) sm = SequenceMatcher(a=newval) i = 0 # split newval to match tokens for index, token in enumerate(tokens): if token[0] == '%': # for macros, try both literal and expanded value for v in [token, MacroHelper.expand(token, token)]: sm.set_seq2(v) m = sm.find_longest_match(i, len(newval), 0, len(v)) valid = m.size == len(v) # only full match is valid if valid: break else: sm.set_seq2(token) m = sm.find_longest_match(i, len(newval), 0, len(token)) valid = m.size > 0 if not valid: continue if token == sm.b: tokens[index] = token[m.b:m.b+m.size] if index > 0: values[index] = newval[m.a:m.a+m.size] if not values[index - 1]: values[index - 1] = newval[i:m.a] else: values[index - 1] += newval[i:m.a] else: values[index] = newval[i:m.a+m.size] i = m.a + m.size if newval[i:] and values: if not values[-1]: values[-1] = newval[i:] else: values[-1] += newval[i:] # try to fill empty macros for index, token in enumerate(tokens): if token[0] == '%': continue if token == values[index]: continue for i in range(index - 1, 0, -1): if tokens[i][0] == '%' and not values[i]: values[i] = values[index] values[index] = None break # try to make values of identical macros equal for index, token in enumerate(tokens): if token[0] != '%': continue for i in range(index - 1, 0, -1): if tokens[i] == token: idx = values[index].find(values[i]) if idx >= 0: prefix = values[index][:idx] for j in range(index - 1, i + 1, -1): # first non-macro token if tokens[j][0] != '%': if prefix.endswith(values[j]): # move token from the end of prefix to the beginning prefix = values[j] + prefix[:prefix.find(values[j])] else: # no match with prefix, cannot continue break else: # remove prefix from the original value and append it to the value of this macro values[index] = values[index][idx:] values[j] += prefix break break # redefine macros and update tokens for index, token in enumerate(tokens): if token == values[index]: continue if not values[index]: values[index] = '%{nil}' if token[0] == '%' else '' macros = _find_macros(token) if macros: _redefine_macro(macros[0][0], values[index]) else: tokens[index] = values[index] result = ''.join(tokens) _sync_macros(curval + result) # only change value if necessary if MacroHelper.expand(curval) == MacroHelper.expand(result): return curval return result if preserve_macros: value = _process_value(self.get_raw_tag_value(tag) or '', value) self.set_raw_tag_value(tag, value) @staticmethod def extract_version_from_archive_name(archive_path: str, main_source: str) -> str: """Extracts version string from source archive name. Args: archive_path: Path to the main sources archive. main_source: Value of Source0 tag. Returns: Extracted version string. Raises: RebaseHelperError in case version can't be determined. """ fallback_regex = r'\w*[-_]?v?([.\d]+.*)({0})'.format( '|'.join([re.escape(a) for a in Archive.get_supported_archives()])) source = os.path.basename(main_source) regex = re.sub(r'%({)?version(?(1)})(.*%(\w+|{.+}))?', 'PLACEHOLDER', source, flags=re.IGNORECASE) regex = MacroHelper.expand(regex, regex) regex = re.escape(regex).replace('PLACEHOLDER', r'(.+)') if regex == re.escape(MacroHelper.expand(source, source)): # no substitution was made, use the fallback regex regex = fallback_regex logger.debug('Extracting version from archive name using %s', regex) archive_name = os.path.basename(archive_path) m = re.match(regex, archive_name) if m: logger.debug('Extracted version %s', m.group(1)) return m.group(1) if regex != fallback_regex: m = re.match(fallback_regex, archive_name) if m: logger.debug('Extracted version %s', m.group(1)) return m.group(1) raise RebaseHelperError('Unable to extract version from archive name') @staticmethod def split_version_string(version_string: str, current_version: str) -> Tuple[str, Optional[str]]: """Splits version string into version and extra version. Args: version_string: Complete version string. current_version: Current version (the value of Version tag). Returns: Tuple of version and extra_version. Raises: RebaseHelperError in case passed version string is not valid. """ version_re = re.compile(r'^(\d+[.\d]*\d+|\d+)(\.|-|_|\+|~)?(\w+)?$') m = version_re.match(version_string) if not m: raise RebaseHelperError('Invalid version string: {}'.format(version_string)) version, separator, extra = m.groups() m = version_re.match(current_version) if not m: raise RebaseHelperError('Invalid version string: {}'.format(current_version)) if m.group(3): # if current version contains non-numeric characters, the new version should too version += (separator or '') + (extra or '') extra = None # type: ignore # the type is actually Optional[str], but is defined as str in typeshed logger.debug('Split version string %s into %s and %s', version_string, version, extra) return version, extra ################################# # SPEC SECTIONS RELATED METHODS # ################################# def get_prep_section(self): """Function returns whole prep section""" def unmatched_quotation(s): try: shlex.split(s, comments=True) except ValueError: return True return False if not self.prep_section: return [] prep = self.prep_section.split('\n') # join lines split by backslash or ending with pipe result = [prep.pop(0)] while prep: if result[-1].rstrip().endswith('\\'): result[-1] = result[-1][:-1] + prep.pop(0) elif result[-1].rstrip().endswith('|') or unmatched_quotation(result[-1]): result[-1] = result[-1] + prep.pop(0) else: result.append(prep.pop(0)) return result @staticmethod def get_subpackage_name(files_section): """Gets subpackage name based on the %files section.""" parser = SilentArgumentParser() parser.add_argument('-n', default=None) parser.add_argument('-f') parser.add_argument('subpackage', nargs='?', default=None) ns, _ = parser.parse_known_args(shlex.split(files_section)[1:]) if ns.n: return ns.n elif ns.subpackage: return '%{{name}}-{}'.format(ns.subpackage) else: return '%{name}' def get_main_files_section(self): """Finds the exact name of the main %files section. Returns: str: Name of the main files section. """ for sec_name, _ in self.spec_content.sections: if sec_name.startswith('%files'): if self.get_subpackage_name(sec_name) == '%{name}': return sec_name ############################################# # SPEC CONTENT MANIPULATION RELATED METHODS # ############################################# def _read_spec_content(self) -> SpecContent: """Reads the content of the Spec file. Returns: The created SpecContent instance. Raises: RebaseHelperError: If the Spec file cannot be read. """ try: with open(self.path) as f: content = f.read() except IOError as e: raise RebaseHelperError("Unable to open and read SPEC file '{}'".format(self.path)) from e return SpecContent(content) def _write_spec_content(self): """Writes the current state of SpecContent into a file.""" logger.verbose("Writing SPEC file '%s' to the disc", self.path) try: with open(self.path, "w") as f: f.write(str(self.spec_content)) except IOError as e: raise RebaseHelperError("Unable to write updated data to SPEC file '{}'".format(self.path)) from e def copy(self, new_path): """Creates a copy of the current object and copies the SPEC file to a new location. Args: new_path (str): Path to copy the new SPEC file to. Returns: SpecFile: The created SpecFile instance. """ shutil.copy(self.path, new_path) new_object = SpecFile(new_path, self.sources_location, self.predefined_macros, self.lookaside_cache_preset, self.keep_comments) return new_object def reload(self): """Reloads the whole Spec file.""" self.update() def save(self) -> None: """Saves changes made to SpecContent and updates the internal state.""" self._write_spec_content() # Update internal variables self.update() #################### # UNSORTED METHODS # #################### def is_test_suite_enabled(self): """ Returns whether test suite is enabled during the build time :return: True if enabled or False if not """ check_section = self.spec_content.section('%check') if not check_section: return False # Remove commented lines check_section = [x.strip() for x in check_section if not x.strip().startswith('#')] # If there is at least one line with some command in %check we assume test suite is run if check_section: return True else: return False @saves def update_changelog(self, changelog_entry: str) -> None: """Inserts a new entry into the changelog and saves the SpecFile. Args: changelog_entry: Message to use in the entry. """ new_entry = self.get_new_log(changelog_entry) changelog = self.spec_content.section('%changelog') if changelog is None: changelog = [] self.spec_content.replace_section('%changelog', changelog) changelog[0:0] = new_entry def get_new_log(self, changelog_entry): """Constructs a new changelog entry. Args: changelog_entry (str): Message to use in the entry. Returns: list: List of lines of the new entry. """ new_record = [] today = date.today() evr = '{epoch}:{ver}-{rel}'.format(epoch=self.header.epochnum, ver=self.header.version, rel=self.get_release()) evr = evr[2:] if evr.startswith('0:') else evr new_record.append('* {day} {name} <{email}> - {evr}'.format(day=today.strftime('%a %b %d %Y'), name=GitHelper.get_user(), email=GitHelper.get_email(), evr=evr)) self.update() # FIXME: ugly workaround for mysterious rpm bug causing macros to disappear self.update() new_record.append(MacroHelper.expand(changelog_entry, changelog_entry)) new_record.append('') return new_record def _get_setup_parser(self): """ Construct ArgumentParser for parsing %(auto)setup macro arguments :return: constructed ArgumentParser """ parser = SilentArgumentParser() parser.add_argument('-n', default=MacroHelper.expand('%{name}-%{version}', '%{name}-%{version}')) parser.add_argument('-a', type=int, default=-1) parser.add_argument('-b', type=int, default=-1) parser.add_argument('-T', action='store_true') parser.add_argument('-q', action='store_true') parser.add_argument('-c', action='store_true') parser.add_argument('-D', action='store_true') parser.add_argument('-v', action='store_true') parser.add_argument('-N', action='store_true') parser.add_argument('-p', type=int, default=-1) parser.add_argument('-S', default='') return parser def get_setup_dirname(self): """ Get dirname from %setup or %autosetup macro arguments :return: dirname """ parser = self._get_setup_parser() prep = self.spec_content.section('%prep') if not prep: return None for line in prep: if line.startswith('%setup') or line.startswith('%autosetup'): args = shlex.split(line) args = [MacroHelper.expand(a, '') for a in args[1:]] # parse macro arguments try: ns, _ = parser.parse_known_args(args) except ParseError: continue # check if this macro instance is extracting Source0 if not ns.T or ns.a == 0 or ns.b == 0: return ns.n return None @saves def update_setup_dirname(self, dirname): """ Update %setup or %autosetup dirname argument if needed :param dirname: new dirname to be used """ parser = self._get_setup_parser() prep = self.spec_content.section('%prep') if not prep: return for index, line in enumerate(prep): if line.startswith('%setup') or line.startswith('%autosetup'): args = shlex.split(line) macro = args[0] args = [MacroHelper.expand(a, '') for a in args[1:]] # parse macro arguments try: ns, unknown = parser.parse_known_args(args) except ParseError: continue # check if this macro instance is extracting Source0 if ns.T and ns.a != 0 and ns.b != 0: continue # check if modification is really necessary if dirname != ns.n: new_dirname = dirname # get %{name} and %{version} macros macros = [m for m in MacroHelper.filter(self.macros, level=-3) if m['name'] in ('name', 'version')] # add all macros from spec file scope macros.extend(MacroHelper.filter(self.macros, level=0)) # omit short macros macros = [m for m in macros if len(m['value']) > 1] # ensure maximal greediness macros.sort(key=lambda k: len(k['value']), reverse=True) # substitute tokens with macros for m in macros: if m['value'] and m['value'] in dirname: new_dirname = new_dirname.replace(m['value'], '%{{{}}}'.format(m['name'])) args = [macro] args.extend(['-n', new_dirname]) if ns.a != -1: args.extend(['-a', str(ns.a)]) if ns.b != -1: args.extend(['-b', str(ns.b)]) if ns.T: args.append('-T') if ns.q: args.append('-q') if ns.c: args.append('-c') if ns.D: args.append('-D') if ns.v: args.append('-v') if ns.N: args.append('-N') if ns.p != -1: args.extend(['-p', str(ns.p)]) if ns.S != '': args.extend(['-S', ns.S]) args.extend(unknown) prep[index] = ' '.join(args) def find_archive_target_in_prep(self, archive): """ Tries to find a command that is used to extract the specified archive and attempts to determine target path from it. 'tar' and 'unzip' commands are supported so far. :param archive: Path to archive :return: Target path relative to builddir or None if not determined """ cd_parser = SilentArgumentParser() cd_parser.add_argument('dir', default=os.environ.get('HOME', '')) tar_parser = argparse.ArgumentParser() tar_parser.add_argument('-C', default='.', dest='target') unzip_parser = argparse.ArgumentParser() unzip_parser.add_argument('-d', default='.', dest='target') archive = os.path.basename(archive) builddir = MacroHelper.expand('%{_builddir}', '') basedir = builddir for line in self.get_prep_section(): tokens = shlex.split(line, comments=True) if not tokens: continue # split tokens by pipe for tokens in [list(group) for k, group in itertools.groupby(tokens, lambda t: t == '|') if not k]: cmd, args = os.path.basename(tokens[0]), tokens[1:] if cmd == 'cd': # keep track of current directory try: ns, _ = cd_parser.parse_known_args(args) except ParseError: pass else: basedir = ns.dir if os.path.isabs(ns.dir) else os.path.join(basedir, ns.dir) if archive in line: if cmd == 'tar': parser = tar_parser elif cmd == 'unzip': parser = unzip_parser else: continue try: ns, _ = parser.parse_known_args(args) except ParseError: continue basedir = os.path.relpath(basedir, builddir) return os.path.normpath(os.path.join(basedir, ns.target)) return None
def tags(self): rpm.reloadConfig() for macro in self.MACROS: rpm.addMacro(*macro) return Tags(SpecContent(self.RAW_CONTENT), SpecContent(self.PARSED_CONTENT))
def test_contructor(self): spec = SpecContent('') tags = Tags(spec, spec) assert isinstance(tags, Tags)