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# DistUpgradeQuirks.py
#
# Copyright (c) 2004-2010 Canonical
#
# Author: Michael Vogt <michael.vogt@ubuntu.com>
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License as
# published by the Free Software Foundation; either version 2 of the
# License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
# USA
import apt
import atexit
import distro_info
import glob
import logging
import os
import re
import hashlib
import subprocess
from subprocess import PIPE, Popen
from .utils import get_arch
from .DistUpgradeGettext import gettext as _
class DistUpgradeQuirks(object):
"""
This class collects the various quirks handlers that can
be hooked into to fix/work around issues that the individual
releases have
"""
def __init__(self, controller, config):
self.controller = controller
self._view = controller._view
self.config = config
self.uname = Popen(["uname", "-r"], stdout=PIPE,
universal_newlines=True).communicate()[0].strip()
self.arch = get_arch()
self.extra_snap_space = 0
self._poke = None
self._snapstore_reachable = False
self._snap_list = None
self._from_version = None
self._to_version = None
# the quirk function have the name:
# $Name (e.g. PostUpgrade)
# $todist$Name (e.g. intrepidPostUpgrade)
# $from_$fromdist$Name (e.g. from_dapperPostUpgrade)
def run(self, quirksName):
"""
Run the specific quirks handler, the follow handlers are supported:
- PreCacheOpen: run *before* the apt cache is opened the first time
to set options that affect the cache
- PostInitialUpdate: run *before* the sources.list is rewritten but
after an initial apt-get update
- PreDistUpgradeCache: run *right before* the dist-upgrade is
calculated in the cache
- PostDistUpgradeCache: run *after* the dist-upgrade was calculated
in the cache
- StartUpgrade: before the first package gets installed (but the
download is finished)
- PostUpgrade: run *after* the upgrade is finished successfully and
packages got installed
- PostCleanup: run *after* the cleanup (orphaned etc) is finished
"""
# we do not run any quirks in partialUpgrade mode
if self.controller._partialUpgrade:
logging.info("not running quirks in partialUpgrade mode")
return
to_release = self.config.get("Sources", "To")
from_release = self.config.get("Sources", "From")
# run the handler that is common to all dists
funcname = "%s" % quirksName
func = getattr(self, funcname, None)
if func is not None:
logging.debug("quirks: running %s" % funcname)
func()
# run the quirksHandler to-dist
funcname = "%s%s" % (to_release, quirksName)
func = getattr(self, funcname, None)
if func is not None:
logging.debug("quirks: running %s" % funcname)
func()
# now run the quirksHandler from_${FROM-DIST}Quirks
funcname = "from_%s%s" % (from_release, quirksName)
func = getattr(self, funcname, None)
if func is not None:
logging.debug("quirks: running %s" % funcname)
func()
# individual quirks handler that run *before* the cache is opened
def PreCacheOpen(self):
""" run before the apt cache is opened the first time """
logging.debug("running Quirks.PreCacheOpen")
# individual quirks handler that run *after* the cache is opened
def focalPostInitialUpdate(self):
# PreCacheOpen would be better but controller.abort fails terribly
""" run after the apt cache is opened the first time """
logging.debug("running Quirks.focalPostInitialUpdate")
self._get_from_and_to_version()
self._test_and_fail_on_i386()
cache = self.controller.cache
self._test_and_warn_if_ros_installed(cache)
if 'snapd' not in cache:
logging.debug("package required for Quirk not in cache")
return
if cache['snapd'].is_installed:
self._checkStoreConnectivity()
# If the snap store is accessible, at the same time calculate the
# extra size needed by to-be-installed snaps. This also prepares
# the snaps-to-install list for the actual upgrade.
if self._snapstore_reachable:
self._calculateSnapSizeRequirements()
def focalPostUpgrade(self):
logging.debug("running Quirks.focalPostUpgrade")
cache = self.controller.cache
if 'snapd' not in cache:
logging.debug("package required for Quirk not in cache")
return
if cache['snapd'].is_installed and \
self._snap_list:
self._replaceDebsAndSnaps()
# individual quirks handler when the dpkg run is finished ---------
def PostCleanup(self):
" run after cleanup "
logging.debug("running Quirks.PostCleanup")
# run right before the first packages get installed
def StartUpgrade(self):
logging.debug("running Quirks.StartUpgrade")
self._applyPatches()
self._removeOldApportCrashes()
self._killUpdateNotifier()
self._killKBluetooth()
self._killScreensaver()
self._pokeScreensaver()
self._stopDocvertConverter()
# individual quirks handler that run *right before* the dist-upgrade
# is calculated in the cache
def PreDistUpgradeCache(self):
""" run right before calculating the dist-upgrade """
logging.debug("running Quirks.PreDistUpgradeCache")
self._install_python_is_python2()
# individual quirks handler that run *after* the dist-upgrade was
# calculated in the cache
def PostDistUpgradeCache(self):
""" run after calculating the dist-upgrade """
logging.debug("running Quirks.PostDistUpgradeCache")
self._install_linux_metapackage()
# helpers
def _get_pci_ids(self):
""" return a set of pci ids of the system (using lspci -n) """
lspci = set()
try:
p = subprocess.Popen(["lspci", "-n"], stdout=subprocess.PIPE,
universal_newlines=True)
except OSError:
return lspci
for line in p.communicate()[0].split("\n"):
if line:
lspci.add(line.split()[2])
return lspci
def _get_from_and_to_version(self):
di = distro_info.UbuntuDistroInfo()
try:
self._from_version = \
di.version('%s' % self.controller.fromDist).split()[0]
self._to_version = \
di.version('%s' % self.controller.toDist).split()[0]
# Ubuntu 18.04's python3-distro-info does not have version
except AttributeError:
self._from_version = next(
(r.version for r in di.get_all("object")
if r.series == self.controller.fromDist),
self.controller.fromDist).split()[0]
self._to_version = next(
(r.version for r in di.get_all("object")
if r.series == self.controller.toDist),
self.controller.toDist).split()[0]
def _test_and_warn_for_unity_3d_support(self):
UNITY_SUPPORT_TEST = "/usr/lib/nux/unity_support_test"
if (not os.path.exists(UNITY_SUPPORT_TEST) or
"DISPLAY" not in os.environ):
return
# see if there is a running unity, that service is used by both 2d,3d
return_code = subprocess.call(
["ps", "-C", "unity-panel-service"], stdout=open(os.devnull, "w"))
if return_code != 0:
logging.debug(
"_test_and_warn_for_unity_3d_support: no unity running")
return
# if we are here, we need to test and warn
return_code = subprocess.call([UNITY_SUPPORT_TEST])
logging.debug(
"_test_and_warn_for_unity_3d_support '%s' returned '%s'" % (
UNITY_SUPPORT_TEST, return_code))
if return_code != 0:
res = self._view.askYesNoQuestion(
_("Your graphics hardware may not be fully supported in "
"Ubuntu 14.04."),
_("Running the 'unity' desktop environment is not fully "
"supported by your graphics hardware. You will maybe end "
"up in a very slow environment after the upgrade. Our "
"advice is to keep the LTS version for now. For more "
"information see "
"https://wiki.ubuntu.com/X/Bugs/"
"UpdateManagerWarningForUnity3D "
"Do you still want to continue with the upgrade?")
)
if not res:
self.controller.abort()
def _test_and_warn_on_i8xx(self):
I8XX_PCI_IDS = ["8086:7121", # i810
"8086:7125", # i810e
"8086:1132", # i815
"8086:3577", # i830
"8086:2562", # i845
"8086:3582", # i855
"8086:2572", # i865
]
lspci = self._get_pci_ids()
if set(I8XX_PCI_IDS).intersection(lspci):
res = self._view.askYesNoQuestion(
_("Your graphics hardware may not be fully supported in "
"Ubuntu 12.04 LTS."),
_("The support in Ubuntu 12.04 LTS for your Intel "
"graphics hardware is limited "
"and you may encounter problems after the upgrade. "
"For more information see "
"https://wiki.ubuntu.com/X/Bugs/UpdateManagerWarningForI8xx "
"Do you want to continue with the upgrade?")
)
if not res:
self.controller.abort()
def _test_and_warn_on_dropped_fglrx_support(self):
"""
Some cards are no longer supported by fglrx. Check if that
is the case and warn
"""
# this is to deal with the fact that support for some of the cards
# that fglrx used to support got dropped
if (self._checkVideoDriver("fglrx") and
not self._supportInModaliases("fglrx")):
res = self._view.askYesNoQuestion(
_("Upgrading may reduce desktop "
"effects, and performance in games "
"and other graphically intensive "
"programs."),
_("This computer is currently using "
"the AMD 'fglrx' graphics driver. "
"No version of this driver is "
"available that works with your "
"hardware in Ubuntu 10.04 LTS.\n\n"
"Do you want to continue?"))
if not res:
self.controller.abort()
# if the user wants to continue we remove the fglrx driver
# here because its no use (no support for this card)
removals = [
"xorg-driver-fglrx",
"xorg-driver-fglrx-envy",
"fglrx-kernel-source",
"fglrx-amdcccle",
"xorg-driver-fglrx-dev",
"libamdxvba1"
]
logging.debug("remove %s" % ", ".join(removals))
postupgradepurge = self.controller.config.getlist(
"Distro",
"PostUpgradePurge")
for remove in removals:
postupgradepurge.append(remove)
self.controller.config.set("Distro", "PostUpgradePurge",
",".join(postupgradepurge))
def _test_and_fail_on_i386(self):
"""
Test and fail if the package architecture is i386 as we
have dropped support for this architecture.
"""
if self._from_version == '18.04':
updates_end = 'April 2023'
elif self._from_version == '19.04':
updates_end = 'January 2020'
# check on i386 only
if self.arch == "i386":
logging.error("apt architecture is i386")
summary = _("Sorry, no more upgrades for this system")
msg = _("There will not be any further Ubuntu releases "
"for this system's 'i386' architecture.\n\n"
"Updates for Ubuntu %s will continue until %s." %
(self._from_version, updates_end))
self._view.error(summary, msg)
self.controller.abort()
def _test_and_fail_on_non_arm_v6(self):
"""
Test and fail if the cpu is not a arm v6 or greater,
from 9.10 on we do no longer support those CPUs
"""
if self.arch == "armel":
if not self._checkArmCPU():
self._view.error(
_("No ARMv6 CPU"),
_("Your system uses an ARM CPU that is older "
"than the ARMv6 architecture. "
"All packages in karmic were built with "
"optimizations requiring ARMv6 as the "
"minimal architecture. It is not possible to "
"upgrade your system to a new Ubuntu release "
"with this hardware."))
self.controller.abort()
def _test_and_warn_if_vserver(self):
"""
upstart and vserver environments are not a good match, warn
if we find one
"""
# verver test (LP: #454783), see if there is a init around
try:
os.kill(1, 0)
except OSError:
logging.warning("no init found")
res = self._view.askYesNoQuestion(
_("No init available"),
_("Your system appears to be a virtualised environment "
"without an init daemon, e.g. Linux-VServer. "
"Ubuntu 10.04 LTS cannot function within this type of "
"environment, requiring an update to your virtual "
"machine configuration first.\n\n"
"Are you sure you want to continue?"))
if not res:
self.controller.abort()
self._view.processEvents()
def _test_and_warn_if_ros_installed(self, cache):
"""
Test and warn if ROS is installed. A given ROS release only
supports specific Ubuntu releases, and can cause the upgrade
to fail in an overly-cryptic manner.
"""
# These are the root ROS 1 and 2 dependencies as of 07/27/2020
ros_package_patterns = set()
for package_name in (
"catkin",
"rosboost-cfg",
"rosclean",
"ros-environment",
"ros-workspace"):
ros_package_patterns.add(
re.compile("ros-[^\-]+-%s" % package_name))
ros_is_installed = False
for pkg in cache:
if ros_is_installed:
break
for pattern in ros_package_patterns:
if pattern.match(pkg.name):
if pkg.is_installed or pkg.marked_install:
ros_is_installed = True
break
if ros_is_installed:
res = self._view.askYesNoQuestion(
_("The Robot Operating System (ROS) is installed"),
_("It appears that ROS is currently installed. Each ROS "
"release is very strict about the versions of Ubuntu "
"it supports, and Ubuntu upgrades can fail if that "
"guidance isn't followed. Before continuing, please "
"either uninstall ROS, or ensure the ROS release you "
"have installed supports the version of Ubuntu to "
"which you're upgrading.\n\n"
"For ROS 1 releases, refer to REP 3:\n"
"https://www.ros.org/reps/rep-0003.html\n\n"
"For ROS 2 releases, refer to REP 2000:\n"
"https://www.ros.org/reps/rep-2000.html\n\n"
"Are you sure you want to continue?"))
if not res:
self.controller.abort()
def _checkArmCPU(self):
"""
parse /proc/cpuinfo and search for ARMv6 or greater
"""
logging.debug("checking for ARM CPU version")
if not os.path.exists("/proc/cpuinfo"):
logging.error("cannot open /proc/cpuinfo ?!?")
return False
with open("/proc/cpuinfo") as f:
cpuinfo = f.read()
if re.search("^Processor\s*:\s*ARMv[45]", cpuinfo,
re.MULTILINE):
return False
return True
def _stopApparmor(self):
""" /etc/init.d/apparmor stop (see bug #559433)"""
if os.path.exists("/etc/init.d/apparmor"):
logging.debug("/etc/init.d/apparmor stop")
subprocess.call(["/etc/init.d/apparmor", "stop"])
def _stopDocvertConverter(self):
" /etc/init.d/docvert-converter stop (see bug #450569)"
if os.path.exists("/etc/init.d/docvert-converter"):
logging.debug("/etc/init.d/docvert-converter stop")
subprocess.call(["/etc/init.d/docvert-converter", "stop"])
def _killUpdateNotifier(self):
"kill update-notifier"
# kill update-notifier now to suppress reboot required
if os.path.exists("/usr/bin/killall"):
logging.debug("killing update-notifier")
subprocess.call(["killall", "-q", "update-notifier"])
def _killKBluetooth(self):
"""killall kblueplugd kbluetooth (riddel requested it)"""
if os.path.exists("/usr/bin/killall"):
logging.debug("killing kblueplugd kbluetooth4")
subprocess.call(["killall", "-q", "kblueplugd", "kbluetooth4"])
def _killScreensaver(self):
"""killall gnome-screensaver """
if os.path.exists("/usr/bin/killall"):
logging.debug("killing gnome-screensaver")
subprocess.call(["killall", "-q", "gnome-screensaver"])
def _pokeScreensaver(self):
if (os.path.exists("/usr/bin/xdg-screensaver") and
os.environ.get('DISPLAY')):
logging.debug("setup poke timer for the screensaver")
cmd = "while true;"
cmd += " do /usr/bin/xdg-screensaver reset >/dev/null 2>&1;"
cmd += " sleep 30; done"
try:
self._poke = subprocess.Popen(cmd, shell=True)
atexit.register(self._stopPokeScreensaver)
except (OSError, ValueError):
logging.exception("failed to setup screensaver poke")
def _stopPokeScreensaver(self):
res = False
if self._poke is not None:
try:
self._poke.terminate()
res = self._poke.wait()
except OSError:
logging.exception("failed to stop screensaver poke")
self._poke = None
return res
def _removeOldApportCrashes(self):
" remove old apport crash files and whoopsie control files "
try:
for ext in ['.crash', '.upload', '.uploaded']:
for f in glob.glob("/var/crash/*%s" % ext):
logging.debug("removing old %s file '%s'" % (ext, f))
os.unlink(f)
except Exception as e:
logging.warning("error during unlink of old crash files (%s)" % e)
def _checkStoreConnectivity(self):
""" check for connectivity to the snap store to install snaps"""
res = False
snap_env = os.environ.copy()
snap_env["LANG"] = "C.UTF-8"
connected = Popen(["snap", "debug", "connectivity"], stdout=PIPE,
stderr=PIPE, env=snap_env,
universal_newlines=True).communicate()
if re.search("^ \* PASS", connected[0], re.MULTILINE):
self._snapstore_reachable = True
return
# can't connect
elif re.search("^ \*.*unreachable", connected[0], re.MULTILINE):
logging.error("No snap store connectivity")
old_lxd_deb_installed = False
cache = self.controller.cache
if 'lxd' in cache:
# epoch 1 is the transitional deb
if cache['lxd'].is_installed and not \
cache['lxd'].candidate.version.startswith("1:"):
logging.error("lxd is installed")
old_lxd_deb_installed = True
if old_lxd_deb_installed:
summary = _("Connection to the Snap Store failed")
msg = _("You have the package lxd installed but your "
"system is unable to reach the Snap Store. "
"lxd is now provided via a snap and the release "
"upgrade will fail if snapd is not functional. "
"Please make sure you're connected to the "
"Internet and update any firewall or proxy "
"settings as needed so that you can reach "
"api.snapcraft.io. If you are an enterprise "
"with a firewall setup you may want to configure "
"a Snap Store proxy."
)
self._view.error(summary, msg)
self.controller.abort()
else:
res = self._view.askYesNoQuestion(
_("Connection to Snap Store failed"),
_("Your system does not have a connection to the Snap "
"Store. For the best upgrade experience make sure "
"that your system can connect to api.snapcraft.io.\n"
"Do you still want to continue with the upgrade?")
)
# debug command not available
elif 'error: unknown command' in connected[1]:
logging.error("snap debug command not available")
res = self._view.askYesNoQuestion(
_("Outdated snapd package"),
_("Your system does not have the latest version of snapd. "
"Please update the version of snapd on your system to "
"improve the upgrade experience.\n"
"Do you still want to continue with the upgrade?")
)
# not running as root
elif 'error: access denied' in connected[1]:
res = False
logging.error("Not running as root!")
if not res:
self.controller.abort()
def _calculateSnapSizeRequirements(self):
import json
import urllib.request
from urllib.error import URLError
# first fetch the list of snap-deb replacements that will be needed
# and store them for future reference, along with other data we'll
# need in the process
self._prepare_snap_replacement_data()
# now perform direct API calls to the store, requesting size
# information for each of the snaps needing installation
self._view.updateStatus(_("Calculating snap size requirements"))
for snap, snap_object in self._snap_list.items():
if snap_object['command'] != 'install':
continue
action = {
"instance-key": "upgrade-size-check",
"action": "download",
"snap-id": snap_object['snap-id'],
"channel": snap_object['channel'],
}
data = {
"context": [],
"actions": [action],
}
req = urllib.request.Request(
url='https://api.snapcraft.io/v2/snaps/refresh',
data=bytes(json.dumps(data), encoding='utf-8'))
req.add_header('Snap-Device-Series', '16')
req.add_header('Content-type', 'application/json')
req.add_header('Snap-Device-Architecture', self.arch)
try:
response = urllib.request.urlopen(req).read()
info = json.loads(response)
size = int(info['results'][0]['snap']['download']['size'])
except (KeyError, URLError, ValueError):
logging.debug("Failed fetching size of snap %s" % snap)
continue
self.extra_snap_space += size
def _replaceDebsAndSnaps(self):
""" install a snap and mark its corresponding package for removal """
self._view.updateStatus(_("Processing snap replacements"))
# _snap_list should be populated by the earlier
# _calculateSnapSizeRequirements call.
for snap, snap_object in self._snap_list.items():
command = snap_object['command']
if command == 'refresh':
self._view.updateStatus(_("refreshing snap %s" % snap))
popenargs = ["snap", command,
"--channel", snap_object['channel'], snap]
elif command == 'remove':
self._view.updateStatus(_("removing snap %s" % snap))
popenargs = ["snap", command, snap]
else:
self._view.updateStatus(_("installing snap %s" % snap))
popenargs = ["snap", command,
"--channel", snap_object['channel'], snap]
try:
self._view.processEvents()
proc = subprocess.run(
popenargs,
stdout=subprocess.PIPE,
check=True)
self._view.processEvents()
except subprocess.CalledProcessError:
logging.debug("%s of snap %s failed" % (command, snap))
continue
if proc.returncode == 0:
logging.debug("%s of snap %s succeeded" % (command, snap))
if command == 'install' and snap_object['deb']:
self.controller.forced_obsoletes.append(snap_object['deb'])
def _checkPae(self):
" check PAE in /proc/cpuinfo "
# upgrade from Precise will fail if PAE is not in cpu flags
logging.debug("_checkPae")
pae = 0
with open('/proc/cpuinfo') as f:
cpuinfo = f.read()
if re.search("^flags\s+:.* pae ", cpuinfo, re.MULTILINE):
pae = 1
if not pae:
logging.error("no pae in /proc/cpuinfo")
summary = _("PAE not enabled")
msg = _("Your system uses a CPU that does not have PAE enabled. "
"Ubuntu only supports non-PAE systems up to Ubuntu "
"12.04. To upgrade to a later version of Ubuntu, you "
"must enable PAE (if this is possible) see:\n"
"http://help.ubuntu.com/community/EnablingPAE")
self._view.error(summary, msg)
self.controller.abort()
def _checkVideoDriver(self, name):
" check if the given driver is in use in xorg.conf "
XORG = "/etc/X11/xorg.conf"
if not os.path.exists(XORG):
return False
with open(XORG) as f:
lines = f.readlines()
for line in lines:
s = line.split("#")[0].strip()
# check for fglrx driver entry
if (s.lower().startswith("driver") and
s.endswith('"%s"' % name)):
return True
return False
def _applyPatches(self, patchdir="./patches"):
"""
helper that applies the patches in patchdir. the format is
_path_to_file.md5sum and it will apply the diff to that file if the
md5sum matches
"""
if not os.path.exists(patchdir):
logging.debug("no patchdir")
return
for f in os.listdir(patchdir):
# skip, not a patch file, they all end with .$md5sum
if "." not in f:
logging.debug("skipping '%s' (no '.')" % f)
continue
logging.debug("check if patch '%s' needs to be applied" % f)
(encoded_path, md5sum, result_md5sum) = f.rsplit(".", 2)
# FIXME: this is not clever and needs quoting support for
# filenames with "_" in the name
path = encoded_path.replace("_", "/")
logging.debug("target for '%s' is '%s' -> '%s'" % (
f, encoded_path, path))
# target does not exist
if not os.path.exists(path):
logging.debug("target '%s' does not exist" % path)
continue
# check the input md5sum, this is not strictly needed as patch()
# will verify the result md5sum and discard the result if that
# does not match but this will remove a misleading error in the
# logs
md5 = hashlib.md5()
with open(path, "rb") as fd:
md5.update(fd.read())
if md5.hexdigest() == result_md5sum:
logging.debug("already at target hash, skipping '%s'" % path)
continue
elif md5.hexdigest() != md5sum:
logging.warning("unexpected target md5sum, skipping: '%s'"
% path)
continue
# patchable, do it
from .DistUpgradePatcher import patch
try:
patch(path, os.path.join(patchdir, f), result_md5sum)
logging.info("applied '%s' successfully" % f)
except Exception:
logging.exception("ed failed for '%s'" % f)
def _supportInModaliases(self, pkgname, lspci=None):
"""
Check if pkgname will work on this hardware
This helper will check with the modaliasesdir if the given
pkg will work on this hardware (or the hardware given
via the lspci argument)
"""
# get lspci info (if needed)
if not lspci:
lspci = self._get_pci_ids()
# get pkg
if (pkgname not in self.controller.cache or
not self.controller.cache[pkgname].candidate):
logging.warning("can not find '%s' in cache")
return False
pkg = self.controller.cache[pkgname]
for (module, pciid_list) in \
self._parse_modaliases_from_pkg_header(pkg.candidate.record):
for pciid in pciid_list:
m = re.match("pci:v0000(.+)d0000(.+)sv.*", pciid)
if m:
matchid = "%s:%s" % (m.group(1), m.group(2))
if matchid.lower() in lspci:
logging.debug("found system pciid '%s' in modaliases"
% matchid)
return True
logging.debug("checking for %s support in modaliases but none found"
% pkgname)
return False
def _parse_modaliases_from_pkg_header(self, pkgrecord):
""" return a list of (module1, (pciid, ...), ...)"""
if "Modaliases" not in pkgrecord:
return []
# split the string
modules = []
for m in pkgrecord["Modaliases"].split(")"):
m = m.strip(", ")
if not m:
continue
(module, pciids) = m.split("(")
modules.append((module, [x.strip() for x in pciids.split(",")]))
return modules
def _add_extras_repository(self):
logging.debug("_add_extras_repository")
cache = self.controller.cache
if "ubuntu-extras-keyring" not in cache:
logging.debug("no ubuntu-extras-keyring, no need to add repo")
return
if not (cache["ubuntu-extras-keyring"].marked_install or
cache["ubuntu-extras-keyring"].installed):
logging.debug("ubuntu-extras-keyring not installed/marked_install")
return
try:
import aptsources.sourceslist
sources = aptsources.sourceslist.SourcesList()
for entry in sources:
if "extras.ubuntu.com" in entry.uri:
logging.debug("found extras.ubuntu.com, no need to add it")
break
else:
logging.info("no extras.ubuntu.com, adding it to sources.list")
sources.add("deb", "http://extras.ubuntu.com/ubuntu",
self.controller.toDist, ["main"],
"Third party developers repository")
sources.save()
except Exception:
logging.exception("error adding extras.ubuntu.com")
def _gutenprint_fixup(self):
""" foomatic-db-gutenprint get removed during the upgrade,
replace it with the compressed ijsgutenprint-ppds
(context is foomatic-db vs foomatic-db-compressed-ppds)
"""
try:
cache = self.controller.cache
if ("foomatic-db-gutenprint" in cache and
cache["foomatic-db-gutenprint"].marked_delete and
"ijsgutenprint-ppds" in cache):
logging.info("installing ijsgutenprint-ppds")
cache.mark_install(
"ijsgutenprint-ppds",
"foomatic-db-gutenprint -> ijsgutenprint-ppds rule")
except Exception:
logging.exception("_gutenprint_fixup failed")
def _enable_multiarch(self, foreign_arch="i386"):
""" enable multiarch via /etc/dpkg/dpkg.cfg.d/multiarch """
cfg = "/etc/dpkg/dpkg.cfg.d/multiarch"
if not os.path.exists(cfg):
try:
os.makedirs("/etc/dpkg/dpkg.cfg.d/")
except OSError:
pass
with open(cfg, "w") as f:
f.write("foreign-architecture %s\n" % foreign_arch)
def _is_greater_than(self, term1, term2):
""" copied from ubuntu-drivers common """
# We don't want to take into account
# the flavour
pattern = re.compile('(.+)-([0-9]+)-(.+)')
match1 = pattern.match(term1)
match2 = pattern.match(term2)
if match1:
term1 = '%s-%s' % (match1.group(1),
match1.group(2))
term2 = '%s-%s' % (match2.group(1),
match2.group(2))
logging.debug('Comparing %s with %s' % (term1, term2))
return apt.apt_pkg.version_compare(term1, term2) > 0
def _get_linux_metapackage(self, cache, headers):
""" Get the linux headers or linux metapackage
copied from ubuntu-drivers-common
"""
suffix = headers and '-headers' or ''
pattern = re.compile('linux-image-(.+)-([0-9]+)-(.+)')
source_pattern = re.compile('linux-(.+)')
metapackage = ''
version = ''
for pkg in cache:
if ('linux-image' in pkg.name and 'extra' not in pkg.name and
(pkg.is_installed or pkg.marked_install)):
match = pattern.match(pkg.name)
# Here we filter out packages such as
# linux-generic-lts-quantal
if match:
source = pkg.candidate.record['Source']
current_version = '%s-%s' % (match.group(1),
match.group(2))
# See if the current version is greater than
# the greatest that we've found so far
if self._is_greater_than(current_version,
version):
version = current_version
match_source = source_pattern.match(source)
# Set the linux-headers metapackage
if '-lts-' in source and match_source:
# This is the case of packages such as
# linux-image-3.5.0-18-generic which
# comes from linux-lts-quantal.
# Therefore the linux-headers-generic
# metapackage would be wrong here and
# we should use
# linux-headers-generic-lts-quantal
# instead
metapackage = 'linux%s-%s-%s' % (
suffix,
match.group(3),
match_source.group(1))
else:
# The scheme linux-headers-$flavour works
# well here
metapackage = 'linux%s-%s' % (
suffix,
match.group(3))
return metapackage
def _install_linux_metapackage(self):
""" Ensure the linux metapackage is installed for the newest_kernel
installed. (LP: #1509305)
"""
cache = self.controller.cache
linux_metapackage = self._get_linux_metapackage(cache, False)
# Seen on errors.u.c with linux-rpi2 metapackage
# https://errors.ubuntu.com/problem/994bf05fae85fbcd44f721495db6518f2d5a126d
if linux_metapackage not in cache:
logging.info("linux metapackage (%s) not available" %
linux_metapackage)
return
# install the package if it isn't installed
if not cache[linux_metapackage].is_installed:
logging.info("installing linux metapackage: %s" %
linux_metapackage)
reason = "linux metapackage may have been accidentally uninstalled"
cache.mark_install(linux_metapackage, reason)
def _install_python_is_python2(self):
"""
Ensure python is removed, before it can produce a conflict with any
other package and the python-is-python2 package is installed instead,
if python-minimal was installed.
"""
# python-dbg must come first for reasons unknown
replacements = (('python-dbg', 'python2-dbg'),
('python-doc', 'python2-doc'),
('python-minimal', 'python-is-python2'),
('python-dev', 'python-dev-is-python2'),
('libpython-dev', None),
('libpython-stdlib', None),
('libpython-dbg', None))
cache = self.controller.cache
# We run with auto_inst=False first to mark our explicit choices so it
# can guide the code with auto_inst=True when it makes decisions
for auto_inst in False, True:
for old, new in replacements:
logging.info("checking for %s (auto_inst=%s)" %
(old, auto_inst))
if old in cache and cache[old].is_installed:
if new:
logging.info("installing %s because %s was installed" %
(new, old))
reason = "%s was installed on the system" % old
if not cache.mark_install(new, reason, auto_fix=False,
auto_inst=auto_inst):
logging.info("failed to install %s" % new)
logging.info("removing %s because %s is being installed" %
(old, new))
reason = "%s is being installed on the system" % new
if not cache.mark_remove(old, reason, auto_fix=False):
logging.info("failed to remove %s", old)
solver = apt.cache.ProblemResolver(cache)
for old, new in replacements:
if old in cache and cache[old].is_installed:
if new:
if new not in cache:
old_inst = [old for old, new in replacements if old
in cache and cache[old].is_installed]
summary = _("universe component not enabled")
msg = _("You have the package %s installed which "
"is a python2 package. python2 has been "
"deprecated in Ubuntu 20.04 LTS and is now "
"available from the universe component of "
"the Ubuntu archive. To ensure any existing "
"third party code you have installed "
"continues to work the release upgrade "
"process would install %s for you. However, "
"the universe component of the archive is not "
"enabled on this system. For the upgrade "
"process to proceed you should either enable "
"the universe component in "
"/etc/apt/sources.list or remove %s"
% (old, new, ', '.join(old_inst))
)
logging.info(summary)
# necessary to make the error text available again on
# stdout for the text frontend
cache._stopAptResolverLog()
self._view.error(summary, msg)
self.controller.abort()
else:
solver.clear(cache[new])
solver.protect(cache[new])
solver.clear(cache[old])
solver.remove(cache[old])
# protect our decision to remove legacy 'python' (as a
# dependency of python-minimal, removed above)
py = 'python'
if py in cache and cache[py].marked_delete:
solver.protect(cache[py])
solver.resolve()
def ensure_recommends_are_installed_on_desktops(self):
""" ensure that on a desktop install recommends are installed
(LP: #759262)
"""
if not self.controller.serverMode:
if not apt.apt_pkg.config.find_b("Apt::Install-Recommends"):
msg = "Apt::Install-Recommends was disabled,"
msg += " enabling it just for the upgrade"
logging.warning(msg)
apt.apt_pkg.config.set("Apt::Install-Recommends", "1")
def _prepare_snap_replacement_data(self):
""" Helper function fetching all required info for the deb-to-snap
migration: version strings for upgrade (from and to) and the list
of snaps (with actions).
"""
import json
self._snap_list = {}
from_channel = "stable/ubuntu-%s" % self._from_version
to_channel = "stable/ubuntu-%s" % self._to_version
seeded_snaps = {}
unseeded_snaps = {}
try:
current_path = os.path.dirname(os.path.abspath(__file__))
d2s_file = open(current_path + '/deb2snap.json', 'r')
d2s = json.load(d2s_file)
d2s_file.close()
for snap in d2s["seeded"]:
seed = d2s["seeded"][snap]
metapkg = seed.get("metapkg", None)
if metapkg not in self.controller.cache:
continue
if metapkg and \
self.controller.cache[metapkg].is_installed is False:
continue
deb = seed.get("deb", None)
from_chan = seed.get("from_channel", from_channel)
to_chan = seed.get("to_channel", to_channel)
seeded_snaps[snap] = (deb, from_chan, to_chan)
for snap in d2s["unseeded"]:
unseed = d2s["unseeded"][snap]
deb = unseed.get("deb", None)
metapkg = unseed.get("metapkg", None)
if metapkg not in self.controller.cache:
continue
if metapkg and \
self.controller.cache[metapkg].is_installed is False:
continue
from_chan = unseed.get("from_channel", from_channel)
unseeded_snaps[snap] = (deb, from_chan)
except Exception as e:
logging.warning("error reading deb2snap.json file (%s)" % e)
snap_list = ''
# list the installed snaps and add them to seeded ones
snap_list = subprocess.Popen(["snap", "list"],
universal_newlines=True,
stdout=subprocess.PIPE).communicate()
if snap_list:
# first line of output is a header and the last line is empty
snaps_installed = [line.split()[0]
for line in snap_list[0].split('\n')[1:-1]]
for snap in snaps_installed:
if snap in seeded_snaps or snap in unseeded_snaps:
continue
else:
seeded_snaps[snap] = (None, from_channel, to_channel)
self._view.updateStatus(_("Checking for installed snaps"))
for snap, (deb, from_channel, to_channel) in seeded_snaps.items():
snap_object = {}
# check to see if the snap is already installed
snap_info = subprocess.Popen(["snap", "info", snap],
universal_newlines=True,
stdout=subprocess.PIPE).communicate()
self._view.processEvents()
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 refresh
if not re.search(r"^tracking:.*%s" % from_channel,
snap_info[0], re.MULTILINE):
logging.debug("Snap %s is not tracking the release channel"
% snap)
continue
snap_object['command'] = 'refresh'
else:
# Do not replace packages not installed
cache = self.controller.cache
if (deb and (deb not in cache or not cache[deb].is_installed)):
logging.debug("Deb package %s is not installed. Skipping "
"snap package %s installation" % (deb, snap))
continue
match = re.search(r"snap-id:\s*(\w*)", snap_info[0])
if not match:
logging.debug("Could not parse snap-id for the %s snap"
% snap)
continue
snap_object['command'] = 'install'
snap_object['deb'] = deb
snap_object['snap-id'] = match[1]
snap_object['channel'] = to_channel
self._snap_list[snap] = snap_object
for snap, (deb, from_channel) in unseeded_snaps.items():
snap_object = {}
# check to see if the snap is already installed
snap_info = subprocess.Popen(["snap", "info", snap],
universal_newlines=True,
stdout=subprocess.PIPE).communicate()
self._view.processEvents()
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
if not re.search(r"^tracking:.*%s" % from_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()
self._view.processEvents()
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
self._snap_list[snap] = snap_object
return self._snap_list
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