%PDF- %PDF-
Direktori : /usr/lib/python3/dist-packages/UpdateManager/backend/ |
Current File : //usr/lib/python3/dist-packages/UpdateManager/backend/__init__.py |
#!/usr/bin/env python # -*- Mode: Python; indent-tabs-mode: nil; tab-width: 4; coding: utf-8 -*- """Integration of package managers into UpdateManager""" # (c) 2005-2009 Canonical, GPL from __future__ import absolute_import import gi gi.require_version("Gtk", "3.0") gi.require_version('Snapd', '1') from gi.repository import GLib, Gtk, Snapd from apt import Cache import json import logging import os import re import subprocess from gettext import gettext as _ from threading import Thread from UpdateManager.Core.MyCache import MyCache from UpdateManager.Core.utils import inhibit_sleep, get_dist_version from UpdateManager.Dialogs import Dialog class InstallBackend(Dialog): ACTION_UPDATE = 0 ACTION_PRE_INSTALL = 1 ACTION_INSTALL = 2 def __init__(self, window_main, action): Dialog.__init__(self, window_main) self.action = action self.sleep_cookie = None def start(self): os.environ["APT_LISTCHANGES_FRONTEND"] = "none" # Do not suspend during the update process self.sleep_cookie = inhibit_sleep() if self.action == self.ACTION_PRE_INSTALL: unfresh_cache = self.window_main.cache fresh_cache = Cache(rootdir=self.window_main.cache.rootdir) # Install OEM packages, update, then do ACTION_INSTALL pkgs_install_oem = [] pkgs_upgrade_oem = [] for pkg in self.window_main.oem_metapackages: unfresh_pkg = unfresh_cache[pkg] fresh_pkg = fresh_cache[pkg] if (unfresh_pkg.marked_install and not fresh_pkg.is_installed): pkgs_install_oem.append(pkg) elif (unfresh_pkg.marked_upgrade and fresh_pkg.is_upgradable): pkgs_upgrade_oem.append(pkg) self.commit_oem(pkgs_install_oem, pkgs_upgrade_oem) elif self.action == self.ACTION_INSTALL: # Get the packages which should be installed and update pkgs_install = [] pkgs_upgrade = [] pkgs_remove = [] # Get a fresh cache in case update-manager's is outdated to # skip operations that already took place fresh_cache = Cache(rootdir=self.window_main.cache.rootdir) for pkg in self.window_main.cache: try: if pkg.marked_install \ and not fresh_cache[pkg.name].is_installed: pkgname = pkg.name if pkg.is_auto_installed: pkgname += "#auto" pkgs_install.append(pkgname) elif (pkg.marked_upgrade and fresh_cache[pkg.name].is_upgradable): pkgs_upgrade.append(pkg.name) elif (pkg.marked_delete and fresh_cache[pkg.name].is_installed): pkgs_remove.append(pkg.name) except KeyError: # pkg missing from fresh_cache can't be modified pass self.commit(pkgs_install, pkgs_upgrade, pkgs_remove) else: self.update() def update(self): """Run a update to refresh the package list""" raise NotImplementedError def commit_oem(self, pkgs_install_oem, pkgs_upgrade_oem): """ Install these OEM packages """ self._action_done(self.ACTION_PRE_INSTALL, authorized=True, success=True, error_string=None, error_desc=None, trans_failed=None) def commit(self, pkgs_install, pkgs_upgrade, pkgs_remove): """Commit the cache changes """ raise NotImplementedError def get_snap_seeds(self): seeded_snaps = {} unseeded_snaps = {} curr_channel = "stable/ubuntu-" + get_dist_version() cache = self.window_main.cache try: d2s_file = open( '/usr/share/ubuntu-release-upgrader/deb2snap.json', 'r') d2s = json.load(d2s_file) d2s_file.close() for snap in d2s["seeded"]: seed = d2s["seeded"][snap] deb = seed.get("deb", None) to_channel = seed.get("to_channel", curr_channel) metapkg = seed.get("metapkg", None) if metapkg not in cache: continue if metapkg and cache[metapkg].is_installed is False: continue seeded_snaps[snap] = (deb, to_channel) for snap in d2s["unseeded"]: unseed = d2s["unseeded"][snap] from_channel = unseed.get("from_channel", curr_channel) metapkg = seed.get("metapkg", None) if metapkg not in cache: continue if metapkg and cache[metapkg].is_installed is False: continue unseeded_snaps[snap] = (from_channel) except Exception as e: logging.debug("error reading deb2snap.json file (%s)" % e) return seeded_snaps, unseeded_snaps def get_deb2snap_dups(self): # update and grab the latest cache try: if self.window_main.cache is None: self.window_main.cache = MyCache(None) else: self.window_main.cache.open(None) self.window_main.cache._initDepCache() cache = self.window_main.cache except Exception as e: # just return an empty array for now, it's perfectly safe to # postpone this duplicates check to a later update. logging.debug("error reading cache (%s)" % e) return [] duplicates = [] seeded_snaps, _ = self.get_snap_seeds() for snap, (deb, _) in seeded_snaps.items(): # if the deb is installed and was not manually installed, # replace it if (deb in cache and cache[deb].is_installed): deb_is_auto = True cache[deb].mark_delete() for pkg in cache.get_changes(): if (pkg.is_installed and pkg.marked_delete and not pkg.is_auto_installed): deb_is_auto = False break cache.clear() if deb_is_auto: duplicates.append(deb) return duplicates def get_snap_transitions(self): # populate snap_list with deb2snap transitions snap_list = {} seeded_snaps, unseeded_snaps = self.get_snap_seeds() for snap, (deb, to_channel) in seeded_snaps.items(): snap_object = {} # check if the snap is already installed snap_info = subprocess.Popen(["snap", "info", snap], universal_newlines=True, stdout=subprocess.PIPE).communicate() if re.search("^installed: ", snap_info[0], re.MULTILINE): logging.debug("Snap %s is installed" % snap) continue elif (deb in self.window_main.duplicate_packages): # install the snap if the deb was just marked delete snap_object['command'] = 'install' snap_object['channel'] = to_channel snap_list[snap] = snap_object for snap, (from_channel) in unseeded_snaps.items(): snap_object = {} # check if the snap is already installed snap_info = subprocess.Popen(["snap", "info", snap], universal_newlines=True, stdout=subprocess.PIPE).communicate() if re.search("^installed: ", snap_info[0], re.MULTILINE): logging.debug("Snap %s is installed" % snap) # its not tracking the release channel so don't remove re_channel = "stable/ubuntu-[0-9][0-9].[0-9][0-9]" if not re.search(r"^tracking:.*%s" % re_channel, snap_info[0], re.MULTILINE): logging.debug("Snap %s is not tracking the release channel" % snap) continue snap_object['command'] = 'remove' # check if this snap is being used by any other snaps conns = subprocess.Popen(["snap", "connections", snap], universal_newlines=True, stdout=subprocess.PIPE).communicate() for conn in conns[0].split('\n'): conn_cols = conn.split() if len(conn_cols) != 4: continue plug = conn_cols[1] slot = conn_cols[2] if slot.startswith(snap + ':'): plug_snap = plug.split(':')[0] if plug_snap != '-' and \ plug_snap not in unseeded_snaps: logging.debug("Snap %s is being used by %s. " "Switching it to stable track" % (snap, plug_snap)) snap_object['command'] = 'refresh' snap_object['channel'] = 'stable' break snap_list[snap] = snap_object return snap_list def update_snap_cb(self, client, change, _, user_data): index, count, progress_bar = user_data if not progress_bar: return # determine how much of this change has been done task_total = 0 task_done = 0 for task in change.get_tasks(): task_total += task.get_progress_total() task_done += task.get_progress_done() task_fraction = task_done / task_total # determine how much total progress has been made total_fraction = (task_fraction / count) + (index / count) # change.get_tasks() can increase between callbacks so we must # avoid jumping backward in progress here if total_fraction > progress_bar.get_fraction(): GLib.idle_add(progress_bar.set_fraction, total_fraction) def update_snaps(self): # update status and progress bar def update_status(status): GLib.idle_add(self.label_details.set_label, status) def update_progress(progress_bar): progress_bar.pulse() return True update_status(_("Updating snaps")) progress_bar = None progress_timer = None progress_bars = self.progressbar_slot.get_children() if progress_bars and isinstance(progress_bars[0], Gtk.ProgressBar): progress_bar = progress_bars[0] progress_timer = GLib.timeout_add(100, update_progress, progress_bar) # populate snap_list with deb2snap transitions snap_list = self.get_snap_transitions() if progress_timer: GLib.source_remove(progress_timer) progress_bar.set_fraction(0) # (un)install (un)seeded snap(s) try: client = Snapd.Client() client.connect_sync() index = 0 count = len(snap_list) for snap, snap_object in snap_list.items(): command = snap_object['command'] if command == 'refresh': update_status(_("Refreshing %s snap" % snap)) client.refresh_sync(snap, snap_object['channel'], self.update_snap_cb, progress_callback_data=(index, count, progress_bar)) elif command == 'remove': update_status(_("Removing %s snap" % snap)) client.remove_sync(snap, self.update_snap_cb, progress_callback_data=(index, count, progress_bar)) else: update_status(_("Installing %s snap" % snap)) client.install_sync(snap, snap_object['channel'], self.update_snap_cb, progress_callback_data=(index, count, progress_bar)) index += 1 except GLib.Error as e: logging.debug("error updating snaps (%s)" % e) GLib.idle_add(self.window_main.start_error, False, _("Upgrade only partially completed."), _("An error occurred while updating snaps. " "Please check your network connection.")) return # continue with the rest of the updates GLib.idle_add(self.window_main.start_available) def _action_done(self, action, authorized, success, error_string, error_desc, trans_failed=False): # If the progress dialog should be closed automatically afterwards #settings = Gio.Settings.new("com.ubuntu.update-manager") #close_after_install = settings.get_boolean( # "autoclose-install-window") # FIXME: confirm with mpt whether this should still be a setting #close_after_install = False if action == self.ACTION_PRE_INSTALL and success: # Now do the regular updates self.action = self.ACTION_INSTALL self.start() elif action == self.ACTION_INSTALL: if (success and os.path.exists("/usr/bin/snap") and hasattr(self, 'pane_update_progress')): Thread(target=self.update_snaps).start() elif success: self.window_main.start_available() elif error_string: self.window_main.start_error(trans_failed, error_string, error_desc) else: # exit gracefuly, we can't just exit as this will trigger # a crash if system.exit() is called in a exception handler GLib.timeout_add(1, self.window_main.exit) else: if error_string: self.window_main.start_error(True, error_string, error_desc) elif (success and os.path.exists("/usr/bin/snap") and hasattr(self, 'pane_update_progress')): self.window_main.duplicate_packages = self.get_deb2snap_dups() self.window_main.start_available() else: is_cancelled_update = not success self.window_main.start_available(is_cancelled_update) # try aptdaemon if os.path.exists("/usr/sbin/aptd") \ and "UPDATE_MANAGER_FORCE_BACKEND_SYNAPTIC" not in os.environ: # check if the gtkwidgets are installed as well try: from .InstallBackendAptdaemon import InstallBackendAptdaemon except ImportError: logging.exception("importing aptdaemon") # try synaptic if os.path.exists("/usr/sbin/synaptic") \ and "UPDATE_MANAGER_FORCE_BACKEND_APTDAEMON" not in os.environ: try: from .InstallBackendSynaptic import InstallBackendSynaptic except ImportError: logging.exception("importing synaptic") def get_backend(*args, **kwargs): """Select and return a package manager backend.""" # try aptdaemon if (os.path.exists("/usr/sbin/aptd") and "UPDATE_MANAGER_FORCE_BACKEND_SYNAPTIC" not in os.environ): # check if the gtkwidgets are installed as well try: return InstallBackendAptdaemon(*args, **kwargs) except NameError: logging.exception("using aptdaemon failed") # try synaptic if (os.path.exists("/usr/sbin/synaptic") and "UPDATE_MANAGER_FORCE_BACKEND_APTDAEMON" not in os.environ): try: return InstallBackendSynaptic(*args, **kwargs) except NameError: pass # nothing found, raise raise Exception("No working backend found, please try installing " "aptdaemon or synaptic")