# Copyright 1999-2014 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 from __future__ import unicode_literals import errno import io import re import stat import sys import warnings from portage import os from portage import _encodings from portage import _unicode_decode from portage import _unicode_encode import portage portage.proxy.lazyimport.lazyimport(globals(), 'portage.dep:Atom,dep_getkey,isvalidatom,match_from_list', 'portage.util:ConfigProtect,new_protect_filename,' + \ 'normalize_path,write_atomic,writemsg', 'portage.versions:_get_slot_re', ) from portage.const import USER_CONFIG_PATH, VCS_DIRS from portage.eapi import _get_eapi_attrs from portage.exception import DirectoryNotFound, InvalidAtom, PortageException from portage.localization import _ if sys.hexversion >= 0x3000000: # pylint: disable=W0622 long = int _unicode = str else: _unicode = unicode ignored_dbentries = ("CONTENTS", "environment.bz2") def update_dbentry(update_cmd, mycontent, eapi=None, parent=None): if parent is not None: eapi = parent.eapi if update_cmd[0] == "move": old_value = _unicode(update_cmd[1]) new_value = _unicode(update_cmd[2]) # Use isvalidatom() to check if this move is valid for the # EAPI (characters allowed in package names may vary). if old_value in mycontent and isvalidatom(new_value, eapi=eapi): # this split preserves existing whitespace split_content = re.split(r'(\s+)', mycontent) modified = False for i, token in enumerate(split_content): if old_value not in token: continue try: atom = Atom(token, eapi=eapi) except InvalidAtom: continue if atom.cp != old_value: continue new_atom = Atom(token.replace(old_value, new_value, 1), eapi=eapi) # Avoid creating self-blockers for bug #367215. if new_atom.blocker and parent is not None and \ parent.cp == new_atom.cp and \ match_from_list(new_atom, [parent]): continue split_content[i] = _unicode(new_atom) modified = True if modified: mycontent = "".join(split_content) elif update_cmd[0] == "slotmove" and update_cmd[1].operator is None: orig_atom, origslot, newslot = update_cmd[1:] orig_cp = orig_atom.cp # We don't support versioned slotmove atoms here, since it can be # difficult to determine if the version constraints really match # the atoms that we're trying to update. if orig_atom.version is None and orig_cp in mycontent: # this split preserves existing whitespace split_content = re.split(r'(\s+)', mycontent) modified = False for i, token in enumerate(split_content): if orig_cp not in token: continue try: atom = Atom(token, eapi=eapi) except InvalidAtom: continue if atom.cp != orig_cp: continue if atom.slot is None or atom.slot != origslot: continue slot_part = newslot if atom.sub_slot is not None: if atom.sub_slot == origslot: sub_slot = newslot else: sub_slot = atom.sub_slot slot_part += "/" + sub_slot if atom.slot_operator is not None: slot_part += atom.slot_operator split_content[i] = atom.with_slot(slot_part) modified = True if modified: mycontent = "".join(split_content) return mycontent def update_dbentries(update_iter, mydata, eapi=None, parent=None): """Performs update commands and returns a dict containing only the updated items.""" updated_items = {} for k, mycontent in mydata.items(): k_unicode = _unicode_decode(k, encoding=_encodings['repo.content'], errors='replace') if k_unicode not in ignored_dbentries: orig_content = mycontent mycontent = _unicode_decode(mycontent, encoding=_encodings['repo.content'], errors='replace') is_encoded = mycontent is not orig_content orig_content = mycontent for update_cmd in update_iter: mycontent = update_dbentry(update_cmd, mycontent, eapi=eapi, parent=parent) if mycontent != orig_content: if is_encoded: mycontent = _unicode_encode(mycontent, encoding=_encodings['repo.content'], errors='backslashreplace') updated_items[k] = mycontent return updated_items def fixdbentries(update_iter, dbdir, eapi=None, parent=None): """Performs update commands which result in search and replace operations for each of the files in dbdir (excluding CONTENTS and environment.bz2). Returns True when actual modifications are necessary and False otherwise.""" warnings.warn("portage.update.fixdbentries() is deprecated", DeprecationWarning, stacklevel=2) mydata = {} for myfile in [f for f in os.listdir(dbdir) if f not in ignored_dbentries]: file_path = os.path.join(dbdir, myfile) with io.open(_unicode_encode(file_path, encoding=_encodings['fs'], errors='strict'), mode='r', encoding=_encodings['repo.content'], errors='replace') as f: mydata[myfile] = f.read() updated_items = update_dbentries(update_iter, mydata, eapi=eapi, parent=parent) for myfile, mycontent in updated_items.items(): file_path = os.path.join(dbdir, myfile) write_atomic(file_path, mycontent, encoding=_encodings['repo.content']) return len(updated_items) > 0 def grab_updates(updpath, prev_mtimes=None): """Returns all the updates from the given directory as a sorted list of tuples, each containing (file_path, statobj, content). If prev_mtimes is given then updates are only returned if one or more files have different mtimes. When a change is detected for a given file, updates will be returned for that file and any files that come after it in the entire sequence. This ensures that all relevant updates are returned for cases in which the destination package of an earlier move corresponds to the source package of a move that comes somewhere later in the entire sequence of files. """ try: mylist = os.listdir(updpath) except OSError as oe: if oe.errno == errno.ENOENT: raise DirectoryNotFound(updpath) raise if prev_mtimes is None: prev_mtimes = {} # validate the file name (filter out CVS directory, etc...) mylist = [myfile for myfile in mylist if len(myfile) == 7 and myfile[1:3] == "Q-"] if len(mylist) == 0: return [] # update names are mangled to make them sort properly mylist = [myfile[3:]+"-"+myfile[:2] for myfile in mylist] mylist.sort() mylist = [myfile[5:]+"-"+myfile[:4] for myfile in mylist] update_data = [] for myfile in mylist: file_path = os.path.join(updpath, myfile) mystat = os.stat(file_path) if update_data or \ file_path not in prev_mtimes or \ long(prev_mtimes[file_path]) != mystat[stat.ST_MTIME]: f = io.open(_unicode_encode(file_path, encoding=_encodings['fs'], errors='strict'), mode='r', encoding=_encodings['repo.content'], errors='replace') content = f.read() f.close() update_data.append((file_path, mystat, content)) return update_data def parse_updates(mycontent): """Valid updates are returned as a list of split update commands.""" eapi_attrs = _get_eapi_attrs(None) slot_re = _get_slot_re(eapi_attrs) myupd = [] errors = [] mylines = mycontent.splitlines() for myline in mylines: mysplit = myline.split() if len(mysplit) == 0: continue if mysplit[0] not in ("move", "slotmove"): errors.append(_("ERROR: Update type not recognized '%s'") % myline) continue if mysplit[0] == "move": if len(mysplit) != 3: errors.append(_("ERROR: Update command invalid '%s'") % myline) continue valid = True for i in (1, 2): try: atom = Atom(mysplit[i]) except InvalidAtom: atom = None else: if atom.blocker or atom != atom.cp: atom = None if atom is not None: mysplit[i] = atom else: errors.append( _("ERROR: Malformed update entry '%s'") % myline) valid = False break if not valid: continue if mysplit[0] == "slotmove": if len(mysplit)!=4: errors.append(_("ERROR: Update command invalid '%s'") % myline) continue pkg, origslot, newslot = mysplit[1], mysplit[2], mysplit[3] try: atom = Atom(pkg) except InvalidAtom: atom = None else: if atom.blocker: atom = None if atom is not None: mysplit[1] = atom else: errors.append(_("ERROR: Malformed update entry '%s'") % myline) continue invalid_slot = False for slot in (origslot, newslot): m = slot_re.match(slot) if m is None: invalid_slot = True break if "/" in slot: # EAPI 4-slot-abi style SLOT is currently not supported. invalid_slot = True break if invalid_slot: errors.append(_("ERROR: Malformed update entry '%s'") % myline) continue # The list of valid updates is filtered by continue statements above. myupd.append(mysplit) return myupd, errors def update_config_files(config_root, protect, protect_mask, update_iter, match_callback=None, case_insensitive=False): """Perform global updates on /etc/portage/package.*, /etc/portage/profile/package.*, /etc/portage/profile/packages and /etc/portage/sets. config_root - location of files to update protect - list of paths from CONFIG_PROTECT protect_mask - list of paths from CONFIG_PROTECT_MASK update_iter - list of update commands as returned from parse_updates(), or dict of {repo_name: list} match_callback - a callback which will be called with three arguments: match_callback(repo_name, old_atom, new_atom) and should return boolean value determining whether to perform the update""" repo_dict = None if isinstance(update_iter, dict): repo_dict = update_iter if match_callback is None: def match_callback(repo_name, atoma, atomb): return True config_root = normalize_path(config_root) update_files = {} file_contents = {} myxfiles = [ "package.accept_keywords", "package.env", "package.keywords", "package.license", "package.mask", "package.properties", "package.unmask", "package.use", "sets" ] myxfiles += [os.path.join("profile", x) for x in ( "packages", "package.accept_keywords", "package.keywords", "package.mask", "package.unmask", "package.use", "package.use.force", "package.use.mask", "package.use.stable.force", "package.use.stable.mask" )] abs_user_config = os.path.join(config_root, USER_CONFIG_PATH) recursivefiles = [] for x in myxfiles: config_file = os.path.join(abs_user_config, x) if os.path.isdir(config_file): for parent, dirs, files in os.walk(config_file): try: parent = _unicode_decode(parent, encoding=_encodings['fs'], errors='strict') except UnicodeDecodeError: continue for y_enc in list(dirs): try: y = _unicode_decode(y_enc, encoding=_encodings['fs'], errors='strict') except UnicodeDecodeError: dirs.remove(y_enc) continue if y.startswith(".") or y in VCS_DIRS: dirs.remove(y_enc) for y in files: try: y = _unicode_decode(y, encoding=_encodings['fs'], errors='strict') except UnicodeDecodeError: continue if y.startswith("."): continue recursivefiles.append( os.path.join(parent, y)[len(abs_user_config) + 1:]) else: recursivefiles.append(x) myxfiles = recursivefiles for x in myxfiles: f = None try: f = io.open( _unicode_encode(os.path.join(abs_user_config, x), encoding=_encodings['fs'], errors='strict'), mode='r', encoding=_encodings['content'], errors='replace') file_contents[x] = f.readlines() except IOError: continue finally: if f is not None: f.close() ignore_line_re = re.compile(r'^#|^\s*$') if repo_dict is None: update_items = [(None, update_iter)] else: update_items = [x for x in repo_dict.items() if x[0] != 'DEFAULT'] for repo_name, update_iter in update_items: for update_cmd in update_iter: for x, contents in file_contents.items(): skip_next = False for pos, line in enumerate(contents): if skip_next: skip_next = False continue if ignore_line_re.match(line): continue atom = line.split()[0] if atom[:1] == "-": # package.mask supports incrementals atom = atom[1:] if atom[:1] == "*": # packages file supports "*"-prefixed atoms as indication of system packages. atom = atom[1:] if not isvalidatom(atom): continue new_atom = update_dbentry(update_cmd, atom) if atom != new_atom: if match_callback(repo_name, atom, new_atom): # add a comment with the update command, so # the user can clearly see what happened contents[pos] = "# %s\n" % \ " ".join("%s" % (x,) for x in update_cmd) contents.insert(pos + 1, line.replace("%s" % (atom,), "%s" % (new_atom,), 1)) # we've inserted an additional line, so we need to # skip it when it's reached in the next iteration skip_next = True update_files[x] = 1 sys.stdout.write("p") sys.stdout.flush() protect_obj = ConfigProtect( config_root, protect, protect_mask, case_insensitive=case_insensitive) for x in update_files: updating_file = os.path.join(abs_user_config, x) if protect_obj.isprotected(updating_file): updating_file = new_protect_filename(updating_file) try: write_atomic(updating_file, "".join(file_contents[x])) except PortageException as e: writemsg("\n!!! %s\n" % str(e), noiselevel=-1) writemsg(_("!!! An error occurred while updating a config file:") + \ " '%s'\n" % updating_file, noiselevel=-1) continue def dep_transform(mydep, oldkey, newkey): if dep_getkey(mydep) == oldkey: return mydep.replace(oldkey, newkey, 1) return mydep