#!/usr/bin/python3 # -*- coding: utf-8; Mode: Python; indent-tabs-mode: nil; tab-width: 4 -*- # Copyright (C) 2005 Javier Carranza and others for Guadalinex # Copyright (C) 2005, 2006, 2007, 2008, 2009 Canonical Ltd. # Copyright (C) 2007 Mario Limonciello # # 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA from __future__ import print_function import fcntl import gzip import os import platform import pwd import re import shutil import socket import stat import struct import subprocess import sys import syslog import textwrap import traceback import apt_pkg from apt.cache import Cache import debconf sys.path.insert(0, '/usr/lib/ubiquity') from ubiquity import install_misc, misc, osextras, plugin_manager from ubiquity.components import apt_setup, check_kernels, hw_detect INTERFACES_TEXT = """\ # This file describes the network interfaces available on your system # and how to activate them. For more information, see interfaces(5). # The loopback network interface auto lo iface lo inet loopback""" HOSTS_TEXT = """\ # The following lines are desirable for IPv6 capable hosts ::1 ip6-localhost ip6-loopback fe00::0 ip6-localnet ff00::0 ip6-mcastprefix ff02::1 ip6-allnodes ff02::2 ip6-allrouters""" IFTAB_TEXT = """\ # This file assigns persistent names to network interfaces. # See iftab(5) for syntax. """ def cleanup_after(func): def wrapper(self): try: func(self) finally: self.cleanup() try: self.db.progress('STOP') except (KeyboardInterrupt, SystemExit): raise except: pass return wrapper class PluginProgress: def __init__(self, db): self._db = db def info(self, title): self._db.progress('INFO', title) def get(self, question): return self._db.get(question) def substitute(self, template, substr, data): self._db.subst(template, substr, data) class Install(install_misc.InstallBase): def __init__(self): install_misc.InstallBase.__init__(self) self.db = debconf.Debconf() self.kernel_version = platform.release() # Get langpacks from install self.langpacks = [] if os.path.exists('/var/lib/ubiquity/langpacks'): with open('/var/lib/ubiquity/langpacks') as langpacks: for line in langpacks: self.langpacks.append(line.strip()) # Load plugins modules = plugin_manager.load_plugins() modules = plugin_manager.order_plugins(modules) self.plugins = [x for x in modules if hasattr(x, 'Install')] if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: self.target = '/' return apt_pkg.init_config() apt_pkg.config.set("Dir", self.target) apt_pkg.config.set("Dir::State::status", self.target_file('var/lib/dpkg/status')) apt_pkg.config.set("APT::GPGV::TrustedKeyring", self.target_file('etc/apt/trusted.gpg')) # Keep this in sync with configure_apt. # TODO cjwatson 2011-03-03: consolidate this. try: if self.db.get('base-installer/install-recommends') == 'false': apt_pkg.config.set("APT::Install-Recommends", "false") except debconf.DebconfError: pass apt_pkg.config.set("APT::Authentication::TrustCDROM", "true") apt_pkg.config.set("Acquire::gpgv::Options::", "--ignore-time-conflict") try: if self.db.get('debian-installer/allow_unauthenticated') == 'true': apt_pkg.config.set("APT::Get::AllowUnauthenticated", "true") apt_pkg.config.set( "Aptitude::CmdLine::Ignore-Trust-Violations", "true") except debconf.DebconfError: pass apt_pkg.config.set("APT::CDROM::NoMount", "true") apt_pkg.config.set("Acquire::cdrom::mount", "/cdrom") apt_pkg.config.set("Acquire::cdrom::/cdrom/::Mount", "true") apt_pkg.config.set("Acquire::cdrom::/cdrom/::UMount", "true") apt_pkg.config.set("Acquire::cdrom::AutoDetect", "false") apt_pkg.config.set("Dir::Media::MountPath", "/cdrom") apt_pkg.config.set("DPkg::Options::", "--root=%s" % self.target) # We don't want apt-listchanges or dpkg-preconfigure, so just clear # out the list of pre-installation hooks. apt_pkg.config.clear("DPkg::Pre-Install-Pkgs") apt_pkg.init_system() use_restricted = True try: if self.db.get('apt-setup/restricted') == 'false': use_restricted = False except debconf.DebconfError: pass if not use_restricted: self.restricted_cache = Cache() # TODO can we really pick up where install.py left off? They're using two # separate databases, which means two progress states. Might need to # record the progress position in find_next_step and pick up from there. # Ask Colin. @cleanup_after def run(self): """Main entry point.""" # We pick up where install.py left off. if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: self.prev_count = 0 else: self.prev_count = 74 self.count = self.prev_count self.start = self.prev_count self.end = self.start + 22 + len(self.plugins) self.db.progress( 'START', self.start, self.end, 'ubiquity/install/title') self.configure_python() self.next_region() self.db.progress('INFO', 'ubiquity/install/network') self.configure_network() self.configure_locale() self.next_region() self.db.progress('INFO', 'ubiquity/install/apt') self.configure_apt() self.configure_plugins() self.next_region() self.run_target_config_hooks() self.next_region(size=5) # Ignore failures from language pack installation. try: self.install_language_packs() except install_misc.InstallStepError: pass except IOError: pass except SystemError: pass self.next_region() self.remove_unusable_kernels() self.next_region(size=4) self.db.progress('INFO', 'ubiquity/install/hardware') self.configure_hardware() # Tell apt-install to install packages directly from now on. with open('/var/lib/ubiquity/apt-install-direct', 'w'): pass self.next_region() self.db.progress('INFO', 'ubiquity/install/installing') if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: self.install_oem_extras() else: self.install_extras() self.next_region() self.db.progress('INFO', 'ubiquity/install/bootloader') self.configure_bootloader() self.next_region(size=4) self.db.progress('INFO', 'ubiquity/install/removing') if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: try: if misc.create_bool(self.db.get('oem-config/remove_extras')): self.remove_oem_extras() except debconf.DebconfError: pass else: self.remove_extras() self.next_region() if 'UBIQUITY_OEM_USER_CONFIG' not in os.environ: self.install_restricted_extras() self.db.progress('INFO', 'ubiquity/install/apt_clone_restore') try: self.apt_clone_restore() except: syslog.syslog( syslog.LOG_WARNING, 'Could not restore packages from the previous install:') for line in traceback.format_exc().split('\n'): syslog.syslog(syslog.LOG_WARNING, line) self.db.input('critical', 'ubiquity/install/broken_apt_clone') self.db.go() try: self.copy_network_config() except: syslog.syslog( syslog.LOG_WARNING, 'Could not copy the network configuration:') for line in traceback.format_exc().split('\n'): syslog.syslog(syslog.LOG_WARNING, line) self.db.input('critical', 'ubiquity/install/broken_network_copy') self.db.go() try: self.copy_bluetooth_config() except: syslog.syslog( syslog.LOG_WARNING, 'Could not copy the bluetooth configuration:') for line in traceback.format_exc().split('\n'): syslog.syslog(syslog.LOG_WARNING, line) self.db.input('critical', 'ubiquity/install/broken_bluetooth_copy') self.db.go() try: self.recache_apparmor() except: syslog.syslog( syslog.LOG_WARNING, 'Could not create an Apparmor cache:') for line in traceback.format_exc().split('\n'): syslog.syslog(syslog.LOG_WARNING, line) try: self.copy_wallpaper_cache() except: syslog.syslog( syslog.LOG_WARNING, 'Could not copy wallpaper cache:') for line in traceback.format_exc().split('\n'): syslog.syslog(syslog.LOG_WARNING, line) self.copy_dcd() self.db.progress('SET', self.count) self.db.progress('INFO', 'ubiquity/install/log_files') self.copy_logs() self.save_random_seed() self.db.progress('SET', self.end) def _get_uid_gid_on_target(self, target_user): """Helper that gets the uid/gid of the username in the target chroot""" uid = subprocess.Popen( ['chroot', self.target, 'sudo', '-u', target_user, '--', 'id', '-u'], stdout=subprocess.PIPE, universal_newlines=True) uid = uid.communicate()[0].strip('\n') gid = subprocess.Popen( ['chroot', self.target, 'sudo', '-u', target_user, '--', 'id', '-g'], stdout=subprocess.PIPE, universal_newlines=True) gid = gid.communicate()[0].strip('\n') try: uid = int(uid) gid = int(gid) except ValueError: return (None, None) return uid, gid def configure_python(self): """Byte-compile Python modules. To save space, Ubuntu excludes .pyc files from the live filesystem. Recreate them now to restore the appearance of a system installed from .debs. """ cache = Cache() # Python standard library. re_minimal = re.compile('^python\d+\.\d+-minimal$') python_installed = sorted([ pkg[:-8] for pkg in cache.keys() if re_minimal.match(pkg) and cache[pkg].is_installed]) for python in python_installed: re_file = re.compile('^/usr/lib/%s/.*\.py$' % python) files = [ f for f in cache['%s-minimal' % python].installed_files if (re_file.match(f) and not os.path.exists(self.target_file('%sc' % f[1:])))] install_misc.chrex(self.target, python, '/usr/lib/%s/py_compile.py' % python, *files) files = [ f for f in cache[python].installed_files if (re_file.match(f) and not os.path.exists(self.target_file('%sc' % f[1:])))] install_misc.chrex(self.target, python, '/usr/lib/%s/py_compile.py' % python, *files) # Modules provided by the core Debian Python packages. default = subprocess.Popen( ['chroot', self.target, 'pyversions', '-d'], stdout=subprocess.PIPE, universal_newlines=True).communicate()[0].rstrip('\n') if default: install_misc.chrex(self.target, default, '-m', 'compileall', '/usr/share/python/') if osextras.find_on_path_root(self.target, 'py3compile'): install_misc.chrex(self.target, 'py3compile', '-p', 'python3', '/usr/share/python3/') def run_hooks(path, *args): for hook in osextras.glob_root(self.target, path): if not os.access(self.target_file(hook[1:]), os.X_OK): continue install_misc.chrex(self.target, hook, *args) # Public and private modules provided by other packages. install_misc.chroot_setup(self.target) try: if osextras.find_on_path_root(self.target, 'pyversions'): supported = subprocess.Popen( ['chroot', self.target, 'pyversions', '-s'], stdout=subprocess.PIPE, universal_newlines=True).communicate()[0].rstrip('\n') for python in supported.split(): try: cachedpython = cache['%s-minimal' % python] except KeyError: continue if not cachedpython.is_installed: continue version = cachedpython.installed.version run_hooks('/usr/share/python/runtime.d/*.rtinstall', 'rtinstall', python, '', version) run_hooks('/usr/share/python/runtime.d/*.rtupdate', 'pre-rtupdate', python, python) run_hooks('/usr/share/python/runtime.d/*.rtupdate', 'rtupdate', python, python) run_hooks('/usr/share/python/runtime.d/*.rtupdate', 'post-rtupdate', python, python) if osextras.find_on_path_root(self.target, 'py3versions'): supported = subprocess.Popen( ['chroot', self.target, 'py3versions', '-s'], stdout=subprocess.PIPE, universal_newlines=True).communicate()[0].rstrip('\n') for python in supported.split(): try: cachedpython = cache['%s-minimal' % python] except KeyError: continue if not cachedpython.is_installed: continue version = cachedpython.installed.version run_hooks('/usr/share/python3/runtime.d/*.rtinstall', 'rtinstall', python, '', version) run_hooks('/usr/share/python3/runtime.d/*.rtupdate', 'pre-rtupdate', python, python) run_hooks('/usr/share/python3/runtime.d/*.rtupdate', 'rtupdate', python, python) run_hooks('/usr/share/python3/runtime.d/*.rtupdate', 'post-rtupdate', python, python) finally: install_misc.chroot_cleanup(self.target) def configure_network(self): """Automatically configure the network. At present, the only thing the user gets to tweak in the UI is the hostname. Some other things will be copied from the live filesystem, so changes made there will be reflected in the installed system. Unfortunately, at present we have to duplicate a fair bit of netcfg here, because it's hard to drive netcfg in a way that won't try to bring interfaces up and down. """ # TODO cjwatson 2006-03-30: just call netcfg instead of doing all # this; requires a netcfg binary that doesn't bring interfaces up # and down if self.target != '/': for path in ('/etc/network/interfaces', '/etc/resolv.conf'): if os.path.exists(path): targetpath = self.target_file(path[1:]) st = os.lstat(path) if stat.S_ISLNK(st.st_mode): if os.path.lexists(targetpath): os.unlink(targetpath) linkto = os.readlink(path) os.symlink(linkto, targetpath) else: shutil.copy2(path, targetpath) else: if not os.path.exists('/etc/network/interfaces'): # Make sure there's at least something here so that ifupdown # doesn't get upset at boot. with open('/etc/network/interfaces', 'w') as interfaces: print(INTERFACES_TEXT, file=interfaces) try: hostname = self.db.get('netcfg/get_hostname') except debconf.DebconfError: hostname = '' try: domain = self.db.get('netcfg/get_domain').rstrip('.') except debconf.DebconfError: domain = '' if hostname == '': hostname = 'ubuntu' with open(self.target_file('etc/hosts'), 'w') as hosts: print("127.0.0.1\tlocalhost", file=hosts) if domain: print("127.0.1.1\t%s.%s\t%s" % (hostname, domain, hostname), file=hosts) else: print("127.0.1.1\t%s" % hostname, file=hosts) print(HOSTS_TEXT, file=hosts) # Network Manager's ifupdown plugin has an inotify watch on # /etc/hostname, which can trigger a race condition if /etc/hostname is # written and immediately followed with /etc/hosts. with open(self.target_file('etc/hostname'), 'w') as fp: print(hostname, file=fp) if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: os.system("hostname %s" % hostname) persistent_net = '/etc/udev/rules.d/70-persistent-net.rules' if os.path.exists(persistent_net): if self.target != '/': shutil.copy2( persistent_net, self.target_file(persistent_net[1:])) else: # TODO cjwatson 2006-03-30: from ; ugh, but no # binding available SIOCGIFHWADDR = 0x8927 # ARPHRD_ETHER = 1 if_names = {} sock = socket.socket(socket.SOCK_DGRAM) interfaces = install_misc.get_all_interfaces() for i in range(len(interfaces)): if_names[interfaces[i]] = struct.unpack( 'H6s', fcntl.ioctl( sock.fileno(), SIOCGIFHWADDR, struct.pack('256s', interfaces[i].encode()))[16:24]) sock.close() with open(self.target_file('etc/iftab'), 'w') as iftab: print(IFTAB_TEXT, file=iftab) for i in range(len(interfaces)): dup = False if_name = if_names[interfaces[i]] if if_name is None or if_name[0] != ARPHRD_ETHER: continue for j in range(len(interfaces)): if i == j or if_names[interfaces[j]] is None: continue if if_name[1] != if_names[interfaces[j]][1]: continue if if_names[interfaces[j]][0] == ARPHRD_ETHER: dup = True if dup: continue line = (interfaces[i] + " mac " + ':'.join(['%02x' % if_name[1][c] for c in range(6)])) line += " arp %d" % if_name[0] print(line, file=iftab) def run_plugin(self, plugin): """Run a single install plugin.""" self.next_region() # set a generic info message in case plugin doesn't provide one self.db.progress('INFO', 'ubiquity/install/title') inst = plugin.Install(None, db=self.db) ret = inst.install(self.target, PluginProgress(self.db)) if ret: raise install_misc.InstallStepError( "Plugin %s failed with code %s" % (plugin.NAME, ret)) def configure_locale(self): """Configure the locale by running the language plugin. We need to do this as early as possible so that apt can emit properly-localised messages when running in the target system. """ try: language_plugin = [ plugin for plugin in self.plugins if (plugin_manager.get_mod_string(plugin, "NAME") == "language")][0] except IndexError: return self.run_plugin(language_plugin) # Don't run this plugin again. self.plugins = [ plugin for plugin in self.plugins if plugin != language_plugin] def configure_plugins(self): """Apply plugin settings to installed system.""" for plugin in self.plugins: self.run_plugin(plugin) def configure_apt(self): """Configure /etc/apt/sources.list.""" if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: return # apt will already be setup as the OEM wants # TODO cjwatson 2007-07-06: Much of the following is # cloned-and-hacked from base-installer/debian/postinst. Perhaps we # should come up with a way to avoid this. # Keep this in sync with __init__. try: if self.db.get('base-installer/install-recommends') == 'false': tf = self.target_file('etc/apt/apt.conf.d/00InstallRecommends') with open(tf, 'w') as apt_conf_ir: print('APT::Install-Recommends "false";', file=apt_conf_ir) except debconf.DebconfError: pass # Make apt trust CDs. This is not on by default (we think). # This will be left in place on the installed system. tf = self.target_file('etc/apt/apt.conf.d/00trustcdrom') with open(tf, 'w') as apt_conf_tc: print('APT::Authentication::TrustCDROM "true";', file=apt_conf_tc) # Avoid clock skew causing gpg verification issues. # This file will be left in place until the end of the install. tf = self.target_file('etc/apt/apt.conf.d/00IgnoreTimeConflict') with open(tf, 'w') as apt_conf_itc: print('Acquire::gpgv::Options { "--ignore-time-conflict"; };', file=apt_conf_itc) try: if self.db.get('debian-installer/allow_unauthenticated') == 'true': tf = self.target_file( 'etc/apt/apt.conf.d/00AllowUnauthenticated') with open(tf, 'w') as apt_conf_au: print('APT::Get::AllowUnauthenticated "true";', file=apt_conf_au) print('Aptitude::CmdLine::Ignore-Trust-Violations "true";', file=apt_conf_au) except debconf.DebconfError: pass # let apt inside the chroot see the cdrom if self.target != "/": target_cdrom = self.target_file('cdrom') misc.execute('umount', target_cdrom) if not os.path.exists(target_cdrom): if os.path.lexists(target_cdrom): os.unlink(target_cdrom) os.mkdir(target_cdrom) misc.execute('mount', '--bind', '/cdrom', target_cdrom) # Make apt-cdrom and apt not unmount/mount CD-ROMs. # This file will be left in place until the end of the install. tf = self.target_file('etc/apt/apt.conf.d/00NoMountCDROM') with open(tf, 'w') as apt_conf_nmc: print(textwrap.dedent("""\ APT::CDROM::NoMount "true"; Acquire::cdrom { mount "/cdrom"; "/cdrom/" { Mount "true"; UMount "true"; }; AutoDetect "false"; }; Dir::Media::MountPath "/cdrom";"""), file=apt_conf_nmc) # This will be reindexed after installation based on the full # installed sources.list. try: shutil.rmtree( self.target_file('var/lib/apt-xapian-index'), ignore_errors=True) except OSError: pass dbfilter = apt_setup.AptSetup(None, self.db) ret = dbfilter.run_command(auto_process=True) if ret != 0: raise install_misc.InstallStepError( "AptSetup failed with code %d" % ret) def run_target_config_hooks(self): """Run hook scripts from /usr/lib/ubiquity/target-config. This allows casper to hook into us and repeat bits of its configuration in the target system. """ if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: return # These were already run once during install hookdir = '/usr/lib/ubiquity/target-config' if os.path.isdir(hookdir): # Exclude hooks containing '.', so that *.dpkg-* et al are avoided. hooks = [entry for entry in os.listdir(hookdir) if '.' not in entry] self.db.progress('START', 0, len(hooks), 'ubiquity/install/title') self.db.progress('INFO', 'ubiquity/install/target_hooks') for hookentry in hooks: hook = os.path.join(hookdir, hookentry) syslog.syslog('running %s' % hook) if not os.access(hook, os.X_OK): self.db.progress('STEP', 1) continue # Errors are ignored at present, although this may change. subprocess.call(['log-output', '-t', 'ubiquity', '--pass-stdout', hook]) self.db.progress('STEP', 1) self.db.progress('STOP') def install_language_packs(self): if not self.langpacks: return self.do_install(self.langpacks, langpacks=True) self.verify_language_packs() def verify_language_packs(self): if os.path.exists('/var/lib/ubiquity/no-install-langpacks'): return # always complete enough if self.db.get('pkgsel/ignore-incomplete-language-support') == 'true': return cache = Cache() incomplete = False for pkg in self.langpacks: if pkg.startswith('gimp-help-'): # gimp-help-common is far too big to fit on CDs, so don't # worry about it. continue cachedpkg = install_misc.get_cache_pkg(cache, pkg) if cachedpkg is None or not cachedpkg.is_installed: syslog.syslog('incomplete language support: %s missing' % pkg) incomplete = True break if incomplete: language_support_dir = \ self.target_file('usr/share/language-support') update_notifier_dir = \ self.target_file('var/lib/update-notifier/user.d') for note in ('incomplete-language-support-gnome.note', 'incomplete-language-support-qt.note'): notepath = os.path.join(language_support_dir, note) if os.path.exists(notepath): if not os.path.exists(update_notifier_dir): os.makedirs(update_notifier_dir) shutil.copy(notepath, os.path.join(update_notifier_dir, note)) break def traverse_for_kernel(self, cache, pkg): kern = install_misc.get_cache_pkg(cache, pkg) if kern is None: return None pkc = cache._depcache.get_candidate_ver(kern._pkg) if 'Depends' in pkc.depends_list: dependencies = pkc.depends_list['Depends'] else: # Didn't find. return None for dep in dependencies: name = dep[0].target_pkg.name if name.startswith('linux-image-2.'): return name elif name.startswith('linux-'): return self.traverse_for_kernel(cache, name) def remove_unusable_kernels(self): """Remove unusable kernels. Keeping these may cause us to be unable to boot. """ if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: return self.db.progress('START', 0, 5, 'ubiquity/install/title') self.db.progress('INFO', 'ubiquity/install/find_removables') # Check for kernel packages to remove. dbfilter = check_kernels.CheckKernels(None, self.db) dbfilter.run_command(auto_process=True) install_kernels = set() new_kernel_pkg = None new_kernel_version = None install_kernels_path = "/var/lib/ubiquity/install-kernels" if os.path.exists(install_kernels_path): with open(install_kernels_path) as install_kernels_file: for line in install_kernels_file: kernel = line.strip() install_kernels.add(kernel) # If we decided to actively install a particular kernel # like this, it's probably because we prefer it to the # default one, so we'd better update kernel_version to # match. if kernel.startswith('linux-image-2.'): new_kernel_pkg = kernel new_kernel_version = kernel[12:] elif kernel.startswith('linux-generic-'): # Traverse dependencies to find the real kernel image. cache = Cache() kernel = self.traverse_for_kernel(cache, kernel) if kernel: new_kernel_pkg = kernel new_kernel_version = kernel[12:] install_kernels_file.close() remove_kernels = set() remove_kernels_path = "/var/lib/ubiquity/remove-kernels" if os.path.exists(remove_kernels_path): with open(remove_kernels_path) as remove_kernels_file: for line in remove_kernels_file: remove_kernels.add(line.strip()) if len(install_kernels) == 0 and len(remove_kernels) == 0: self.db.progress('STOP') return # TODO cjwatson 2009-10-19: These regions are rather crude and # should be improved. self.db.progress('SET', 1) self.progress_region(1, 2) if install_kernels: self.do_install(install_kernels) install_misc.record_installed(install_kernels) if new_kernel_pkg: cache = Cache() cached_pkg = install_misc.get_cache_pkg(cache, new_kernel_pkg) if cached_pkg is not None and cached_pkg.is_installed: self.kernel_version = new_kernel_version else: remove_kernels = [] del cache else: remove_kernels = [] self.db.progress('SET', 2) self.progress_region(2, 5) try: if remove_kernels: install_misc.record_removed(remove_kernels, recursive=True) except: self.db.progress('STOP') raise self.db.progress('SET', 5) self.db.progress('STOP') def get_resume_partition(self): biggest_size = 0 biggest_partition = None try: with open('/proc/swaps') as swaps: for line in swaps: words = line.split() if words[1] != 'partition': continue if not os.path.exists(words[0]): continue if words[0].startswith('/dev/ramzswap'): continue size = int(words[2]) if size > biggest_size: biggest_size = size biggest_partition = words[0] except Exception: return None return biggest_partition def configure_hardware(self): """Reconfigure several hardware-specific packages. These packages depend on the hardware of the system where the live filesystem was built, and must be reconfigured to work properly on the installed system. """ self.nested_progress_start() install_misc.chroot_setup(self.target) try: dbfilter = hw_detect.HwDetect(None, self.db) ret = dbfilter.run_command(auto_process=True) if ret != 0: raise install_misc.InstallStepError( "HwDetect failed with code %d" % ret) finally: install_misc.chroot_cleanup(self.target) self.nested_progress_end() self.db.progress('INFO', 'ubiquity/install/hardware') script = '/usr/lib/ubiquity/debian-installer-utils' \ '/register-module.post-base-installer' if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: script += '-oem' misc.execute(script) resume = self.get_resume_partition() if resume is not None: resume_uuid = None try: resume_uuid = subprocess.Popen( ['block-attr', '--uuid', resume], stdout=subprocess.PIPE, universal_newlines=True).communicate()[0].rstrip('\n') except OSError: pass if resume_uuid: resume = "UUID=%s" % resume_uuid if os.path.exists(self.target_file('etc/initramfs-tools/conf.d')): configdir = self.target_file('etc/initramfs-tools/conf.d') elif os.path.exists(self.target_file('etc/mkinitramfs/conf.d')): configdir = self.target_file('etc/mkinitramfs/conf.d') else: configdir = None if configdir is not None: resume_path = os.path.join(configdir, 'resume') with open(resume_path, 'w') as configfile: print("RESUME=%s" % resume, file=configfile) osextras.unlink_force(self.target_file('etc/popularity-contest.conf')) try: participate = self.db.get('popularity-contest/participate') install_misc.set_debconf( self.target, 'popularity-contest/participate', participate, self.db) except debconf.DebconfError: pass osextras.unlink_force(self.target_file('etc/papersize')) subprocess.call(['log-output', '-t', 'ubiquity', 'chroot', self.target, 'ucf', '--purge', '/etc/papersize'], preexec_fn=install_misc.debconf_disconnect, close_fds=True) try: install_misc.set_debconf( self.target, 'libpaper/defaultpaper', '', self.db) except debconf.DebconfError: pass osextras.unlink_force( self.target_file('etc/ssl/certs/ssl-cert-snakeoil.pem')) osextras.unlink_force( self.target_file('etc/ssl/private/ssl-cert-snakeoil.key')) # ensure /etc/mtab is a symlink osextras.unlink_force(self.target_file('etc/mtab')) os.symlink('../proc/self/mounts', self.target_file('etc/mtab')) install_misc.chroot_setup(self.target, x11=True) install_misc.chrex( self.target, 'dpkg-divert', '--package', 'ubiquity', '--rename', '--quiet', '--add', '/usr/sbin/update-initramfs') try: os.symlink( '/bin/true', self.target_file('usr/sbin/update-initramfs')) except OSError: pass packages = ['linux-image-' + self.kernel_version, 'popularity-contest', 'libpaper1', 'ssl-cert'] arch, subarch = install_misc.archdetect() # this postinst installs EFI application and cleans old entries if arch in ('amd64', 'i386') and subarch == 'efi': packages.append('fwupdate') try: for package in packages: install_misc.reconfigure(self.target, package) finally: osextras.unlink_force( self.target_file('usr/sbin/update-initramfs')) install_misc.chrex( self.target, 'dpkg-divert', '--package', 'ubiquity', '--rename', '--quiet', '--remove', '/usr/sbin/update-initramfs') install_misc.chrex( self.target, 'update-initramfs', '-c', '-k', self.kernel_version) install_misc.chroot_cleanup(self.target, x11=True) # Fix up kernel symlinks now that the initrd exists. Depending on # the architecture, these may be in / or in /boot. bootdir = self.target_file('boot') if self.db.get('base-installer/kernel/linux/link_in_boot') == 'true': linkdir = bootdir linkprefix = '' else: linkdir = self.target linkprefix = 'boot' # Remove old symlinks. We'll set them up from scratch. re_symlink = re.compile('vmlinu[xz]|initrd.img$') for entry in os.listdir(linkdir): if re_symlink.match(entry) is not None: filename = os.path.join(linkdir, entry) if os.path.islink(filename): os.unlink(filename) if linkdir != self.target: # Remove symlinks in /target too, which may have been created on # the live filesystem. This isn't necessary, but it may help # avoid confusion. for entry in os.listdir(self.target): if re_symlink.match(entry) is not None: filename = self.target_file(entry) if os.path.islink(filename): os.unlink(filename) # Create symlinks. Prefer our current kernel version if possible, # but if not (perhaps due to a customised live filesystem image), # it's better to create some symlinks than none at all. re_image = re.compile('(vmlinu[xz]|initrd.img)-') for entry in os.listdir(bootdir): match = re_image.match(entry) if match is not None: imagetype = match.group(1) linksrc = os.path.join(linkprefix, entry) linkdst = os.path.join(linkdir, imagetype) if os.path.exists(linkdst): if entry.endswith('-' + self.kernel_version): os.unlink(linkdst) else: continue os.symlink(linksrc, linkdst) def configure_bootloader(self): """Configure and install the boot loader.""" if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: # the language might be different than initial install. # recopy translations if we have them now full_lang = self.db.get('debian-installer/locale').split('.')[0] for lang in [full_lang.split('.')[0], full_lang.split('_')[0]]: source = ( '/usr/share/locale-langpack/%s/LC_MESSAGES/grub.mo' % lang) if (os.path.exists(source) and os.path.isdir('/boot/grub/locale')): shutil.copy(source, '/boot/grub/locale/%s.mo' % lang) break return inst_boot = self.db.get('ubiquity/install_bootloader') if inst_boot == 'true' and 'UBIQUITY_NO_BOOTLOADER' not in os.environ: binds = ("/proc", "/sys", "/dev", "/run") for bind in binds: misc.execute('mount', '--bind', bind, self.target + bind) arch, subarch = install_misc.archdetect() try: if arch in ('amd64', 'i386'): from ubiquity.components import grubinstaller while 1: dbfilter = grubinstaller.GrubInstaller(None, self.db) ret = dbfilter.run_command(auto_process=True) if subarch == 'efi' and ret != 0: raise install_misc.InstallStepError( "GrubInstaller failed with code %d" % ret) elif ret != 0: old_bootdev = self.db.get('grub-installer/bootdev') bootdev = 'ubiquity/install/new-bootdev' self.db.fset(bootdev, 'seen', 'false') self.db.set(bootdev, old_bootdev) self.db.input('critical', bootdev) self.db.go() response = self.db.get(bootdev) if response == 'skip': break if not response: raise install_misc.InstallStepError( "GrubInstaller failed with code %d" % ret) else: self.db.set('grub-installer/bootdev', response) else: break elif (arch in ('armel', 'armhf') and subarch in ('omap', 'omap4', 'mx5')): from ubiquity.components import flash_kernel dbfilter = flash_kernel.FlashKernel(None, self.db) ret = dbfilter.run_command(auto_process=True) if ret != 0: raise install_misc.InstallStepError( "FlashKernel failed with code %d" % ret) elif arch == 'powerpc': from ubiquity.components import yabootinstaller dbfilter = yabootinstaller.YabootInstaller(None, self.db) ret = dbfilter.run_command(auto_process=True) if ret != 0: raise install_misc.InstallStepError( "YabootInstaller failed with code %d" % ret) else: raise install_misc.InstallStepError( "No bootloader installer found") except ImportError: raise install_misc.InstallStepError( "No bootloader installer found") for bind in binds: misc.execute('umount', '-f', self.target + bind) def do_remove(self, to_remove, recursive=False): self.nested_progress_start() self.db.progress('START', 0, 5, 'ubiquity/install/title') self.db.progress('INFO', 'ubiquity/install/find_removables') fetchprogress = install_misc.DebconfAcquireProgress( self.db, 'ubiquity/install/title', 'ubiquity/install/apt_indices_starting', 'ubiquity/install/apt_indices') cache = Cache() if cache._depcache.broken_count > 0: syslog.syslog( 'not processing removals, since there are broken packages: ' '%s' % ', '.join(install_misc.broken_packages(cache))) self.db.progress('STOP') self.nested_progress_end() return with cache.actiongroup(): install_misc.get_remove_list(cache, to_remove, recursive) self.db.progress('SET', 1) self.progress_region(1, 5) fetchprogress = install_misc.DebconfAcquireProgress( self.db, 'ubiquity/install/title', None, 'ubiquity/install/fetch_remove') installprogress = install_misc.DebconfInstallProgress( self.db, 'ubiquity/install/title', 'ubiquity/install/apt_info', 'ubiquity/install/apt_error_remove') install_misc.chroot_setup(self.target) commit_error = None try: try: if not cache.commit(fetchprogress, installprogress): fetchprogress.stop() installprogress.finish_update() self.db.progress('STOP') self.nested_progress_end() return except SystemError as e: for line in traceback.format_exc().split('\n'): syslog.syslog(syslog.LOG_ERR, line) commit_error = str(e) finally: install_misc.chroot_cleanup(self.target) self.db.progress('SET', 5) cache.open(None) if commit_error or cache._depcache.broken_count > 0: if commit_error is None: commit_error = '' brokenpkgs = install_misc.broken_packages(cache) syslog.syslog('broken packages after removal: ' '%s' % ', '.join(brokenpkgs)) self.db.subst('ubiquity/install/broken_remove', 'ERROR', commit_error) self.db.subst('ubiquity/install/broken_remove', 'PACKAGES', ', '.join(brokenpkgs)) self.db.input('critical', 'ubiquity/install/broken_remove') self.db.go() self.db.progress('STOP') self.nested_progress_end() def install_oem_extras(self): """Try to install additional packages requested by the distributor.""" try: inst_langpacks = \ self.db.get('oem-config/install-language-support') == 'true' except debconf.DebconfError: inst_langpacks = False if inst_langpacks: self.select_language_packs() recorded = install_misc.query_recorded_installed() try: extra_packages = self.db.get('oem-config/extra_packages') if extra_packages: extra_packages = extra_packages.replace(',', ' ').split() elif not inst_langpacks: return else: extra_packages = [] except debconf.DebconfError: if not inst_langpacks: return if inst_langpacks: extra_packages += recorded save_replace = None save_override = None custom = '/etc/apt/sources.list.d/oem-config.list' apt_update = ['debconf-apt-progress', '--', 'apt-get', 'update'] trusted_db = '/etc/apt/trusted.gpg' try: if 'DEBCONF_DB_REPLACE' in os.environ: save_replace = os.environ['DEBCONF_DB_REPLACE'] if 'DEBCONF_DB_OVERRIDE' in os.environ: save_override = os.environ['DEBCONF_DB_OVERRIDE'] os.environ['DEBCONF_DB_REPLACE'] = 'configdb' os.environ['DEBCONF_DB_OVERRIDE'] = 'Pipe{infd:none outfd:none}' try: extra_pool = self.db.get('oem-config/repository') except debconf.DebconfError: extra_pool = '' try: extra_key = self.db.get('oem-config/key') except debconf.DebconfError: extra_key = '' if extra_pool: with open(custom, 'w') as f: print(extra_pool, file=f) if extra_key and os.path.exists(extra_key): if os.path.exists(trusted_db): shutil.copy(trusted_db, trusted_db + '.oem-config') subprocess.call(['apt-key', 'add', extra_key]) if extra_pool: subprocess.call(apt_update) # We don't support asking questions on behalf of packages specified # here yet, as we don't support asking arbitrary questions in # components/install.py yet. This is complicated not only by the # present lack of dialogs for string and multiselect, but also # because we don't have any way of discerning between questions # asked by this module and questions asked by packages being # installed. cmd = ['debconf-apt-progress', '--', 'apt-get', '-y', 'install'] cmd += extra_packages try: subprocess.check_call(cmd) except subprocess.CalledProcessError as e: if e.returncode != 30: cache = Cache() brokenpkgs = install_misc.broken_packages(cache) self.warn_broken_packages(brokenpkgs, str(e)) finally: if os.path.exists(trusted_db + '.oem-config'): shutil.copy(trusted_db + '.oem-config', trusted_db) if os.path.exists(custom): os.unlink(custom) subprocess.call(apt_update) if save_replace: os.environ['DEBCONF_DB_REPLACE'] = save_replace if save_override: os.environ['DEBCONF_DB_OVERRIDE'] = save_override if inst_langpacks: self.verify_language_packs() def install_restricted_extras(self): if self.db.get('ubiquity/use_nonfree') == 'true': self.db.progress('INFO', 'ubiquity/install/nonfree') packages = self.db.get('ubiquity/nonfree_package').split() self.do_install(packages) def install_extras(self): """Try to install packages requested by installer components.""" # We only ever install these packages from the CD. sources_list = self.target_file('etc/apt/sources.list') os.rename(sources_list, "%s.apt-setup" % sources_list) with open("%s.apt-setup" % sources_list) as old_sources: with open(sources_list, 'w') as new_sources: found_cdrom = False for line in old_sources: if 'cdrom:' in line: print(line, end="", file=new_sources) found_cdrom = True if not found_cdrom: os.rename("%s.apt-setup" % sources_list, sources_list) self.do_install(install_misc.query_recorded_installed()) if found_cdrom: os.rename("%s.apt-setup" % sources_list, sources_list) # TODO cjwatson 2007-08-09: python reimplementation of # oem-config/finish-install.d/07oem-config-user. This really needs # to die in a great big chemical fire and call the same shell script # instead. try: if self.db.get('oem-config/enable') == 'true': if os.path.isdir(self.target_file('home/oem')): with open(self.target_file('home/oem/.hwdb'), 'w'): pass apps_dir = 'usr/share/applications' for desktop_file in ( apps_dir + '/oem-config-prepare-gtk.desktop', apps_dir + '/kde4/oem-config-prepare-kde.desktop'): if os.path.exists(self.target_file(desktop_file)): desktop_base = os.path.basename(desktop_file) install_misc.chrex( self.target, 'install', '-d', '-o', 'oem', '-g', 'oem', '/home/oem/Desktop') install_misc.chrex( self.target, 'install', '-o', 'oem', '-g', 'oem', '/%s' % desktop_file, '/home/oem/Desktop/%s' % desktop_base) break # Carry the locale setting over to the installed system. # This mimics the behavior in 01oem-config-udeb. di_locale = self.db.get('debian-installer/locale') if di_locale: install_misc.set_debconf( self.target, 'debian-installer/locale', di_locale, self.db) # in an automated install, this key needs to carry over installable_lang = self.db.get( 'ubiquity/only-show-installable-languages') if installable_lang: install_misc.set_debconf( self.target, 'ubiquity/only-show-installable-languages', installable_lang, self.db) except debconf.DebconfError: pass def remove_oem_extras(self): """Remove unnecessary packages in OEM mode. Try to remove packages that were not part of the base install and are not needed by the final system. This is roughly the set of packages installed by ubiquity + packages we explicitly installed in oem-config (langpacks, for example) - everything else. """ manifest = '/var/lib/ubiquity/installed-packages' if not os.path.exists(manifest): return keep = set() with open(manifest) as manifest_file: for line in manifest_file: if line.strip() != '' and not line.startswith('#'): keep.add(line.split()[0]) # Let's not rip out the ground beneath our feet. keep.add('ubiquity') keep.add('oem-config') cache = Cache() # TODO cjwatson 2012-05-04: It would be nice to use a set # comprehension here, but that causes: # SyntaxError: can not delete variable 'cache' referenced in nested # scope remove = set([pkg for pkg in cache.keys() if cache[pkg].is_installed]) # Keep packages we explicitly installed. keep |= install_misc.query_recorded_installed() remove -= install_misc.expand_dependencies_simple(cache, keep, remove) del cache install_misc.record_removed(remove) (regular, recursive) = install_misc.query_recorded_removed() self.do_remove(regular) self.do_remove(recursive, recursive=True) def copy_tree(self, source, target, uid, gid): # Mostly stolen from copy_all. directory_times = [] s = '/' for p in target.split(os.sep)[1:]: s = os.path.join(s, p) if not os.path.exists(s): os.mkdir(s) os.lchown(s, uid, gid) for dirpath, dirnames, filenames in os.walk(source): sp = dirpath[len(source) + 1:] for name in dirnames + filenames: relpath = os.path.join(sp, name) sourcepath = os.path.join(source, relpath) targetpath = os.path.join(target, relpath) st = os.lstat(sourcepath) # Remove the target if necessary and if we can. install_misc.remove_target(source, target, relpath, st) # Now actually copy source to target. mode = stat.S_IMODE(st.st_mode) if stat.S_ISLNK(st.st_mode): linkto = os.readlink(sourcepath) os.symlink(linkto, targetpath) elif stat.S_ISDIR(st.st_mode): if not os.path.isdir(targetpath): os.mkdir(targetpath, mode) elif stat.S_ISCHR(st.st_mode): os.mknod(targetpath, stat.S_IFCHR | mode, st.st_rdev) elif stat.S_ISBLK(st.st_mode): os.mknod(targetpath, stat.S_IFBLK | mode, st.st_rdev) elif stat.S_ISFIFO(st.st_mode): os.mknod(targetpath, stat.S_IFIFO | mode) elif stat.S_ISSOCK(st.st_mode): os.mknod(targetpath, stat.S_IFSOCK | mode) elif stat.S_ISREG(st.st_mode): install_misc.copy_file( self.db, sourcepath, targetpath, True) os.lchown(targetpath, uid, gid) if not stat.S_ISLNK(st.st_mode): os.chmod(targetpath, mode) if stat.S_ISDIR(st.st_mode): directory_times.append( (targetpath, st.st_atime, st.st_mtime)) # os.utime() sets timestamp of target, not link elif not stat.S_ISLNK(st.st_mode): try: os.utime(targetpath, (st.st_atime, st.st_mtime)) except Exception: # We can live with timestamps being wrong. pass # Apply timestamps to all directories now that the items within them # have been copied. for dirtime in directory_times: (directory, atime, mtime) = dirtime try: os.utime(directory, (atime, mtime)) except Exception: # I have no idea why I've been getting lots of bug reports # about this failing, but I really don't care. Ignore it. pass def remove_extras(self): """Remove unnecessary packages. Try to remove packages that are needed on the live CD but not on the installed system. """ # Looking through files for packages to remove is pretty quick, so # don't bother with a progress bar for that. # Check for packages specific to the live CD. (manifest-desktop is # the old method, which listed all the packages to keep; # manifest-remove is the new method, which lists all the packages to # remove.) manifest_remove = os.path.join(self.casper_path, 'filesystem.manifest-remove') manifest_desktop = os.path.join(self.casper_path, 'filesystem.manifest-desktop') manifest = os.path.join(self.casper_path, 'filesystem.manifest') if os.path.exists(manifest_remove) and os.path.exists(manifest): difference = set() with open(manifest_remove) as manifest_file: for line in manifest_file: if line.strip() != '' and not line.startswith('#'): pkg = line.split(':')[0] difference.add(pkg.split()[0]) live_packages = set() with open(manifest) as manifest_file: for line in manifest_file: if line.strip() != '' and not line.startswith('#'): pkg = line.split(':')[0] live_packages.add(pkg.split()[0]) desktop_packages = live_packages - difference elif os.path.exists(manifest_desktop) and os.path.exists(manifest): desktop_packages = set() with open(manifest_desktop) as manifest_file: for line in manifest_file: if line.strip() != '' and not line.startswith('#'): pkg = line.split(':')[0] desktop_packages.add(pkg.split()[0]) live_packages = set() with open(manifest) as manifest_file: for line in manifest_file: if line.strip() != '' and not line.startswith('#'): pkg = line.split(':')[0] live_packages.add(pkg.split()[0]) difference = live_packages - desktop_packages else: difference = set() # Keep packages we explicitly installed. keep = install_misc.query_recorded_installed() arch, subarch = install_misc.archdetect() if arch in ('amd64', 'i386'): for pkg in ('grub', 'grub-pc', 'grub-efi', 'grub-efi-amd64', 'grub-efi-amd64-signed', 'shim-signed', 'mokutil', 'lilo'): if pkg not in keep: difference.add(pkg) cache = Cache() difference -= install_misc.expand_dependencies_simple( cache, keep, difference) del cache if len(difference) == 0: return use_restricted = True try: if self.db.get('apt-setup/restricted') == 'false': use_restricted = False except debconf.DebconfError: pass if not use_restricted: cache = self.restricted_cache for pkg in cache.keys(): if (cache[pkg].is_installed and cache[pkg].section.startswith('restricted/')): difference.add(pkg) del cache install_misc.record_removed(difference) # Don't worry about failures removing packages; it will be easier # for the user to sort them out with a graphical package manager (or # whatever) after installation than it will be to try to deal with # them automatically here. (regular, recursive) = install_misc.query_recorded_removed() self.do_remove(regular) self.do_remove(recursive, recursive=True) oem_remove_extras = False try: oem_remove_extras = misc.create_bool( self.db.get('oem-config/remove_extras')) except debconf.DebconfError: pass if oem_remove_extras: installed = (desktop_packages | keep - regular - recursive) if not os.path.exists(self.target_file('var/lib/ubiquity')): os.makedirs(self.target_file('var/lib/ubiquity')) p = self.target_file('var/lib/ubiquity/installed-packages') with open(p, 'w') as fp: for line in installed: print(line, file=fp) def apt_clone_restore(self): if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: return import lsb_release working = self.target_file('ubiquity-apt-clone') working = os.path.join(working, 'apt-clone-state-%s.tar.gz' % os.uname()[1]) codename = lsb_release.get_distro_information()['CODENAME'] if not os.path.exists(working): return install_misc.chroot_setup(self.target) binds = ("/proc", "/sys", "/dev", "/run") try: for bind in binds: misc.execute('mount', '--bind', bind, self.target + bind) restore_cmd = [ 'apt-clone', 'restore-new-distro', working, codename, '--destination', self.target] subprocess.check_call( restore_cmd, preexec_fn=install_misc.debconf_disconnect) finally: install_misc.chroot_cleanup(self.target) for bind in binds: misc.execute('umount', '-f', self.target + bind) def copy_network_config(self): if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: return try: if self.db.get('oem-config/enable') == 'true': return except debconf.DebconfError: pass source_nm = "/etc/NetworkManager/system-connections/" target_nm = "/target/etc/NetworkManager/system-connections/" # Sanity checks. We don't want to do anything if a network # configuration already exists on the target if os.path.exists(source_nm) and os.path.exists(target_nm): for network in os.listdir(source_nm): # Skip LTSP live if network == "LTSP": continue source_network = os.path.join(source_nm, network) target_network = os.path.join(target_nm, network) if os.path.exists(target_network): continue shutil.copy(source_network, target_network) def copy_bluetooth_config(self): if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: return try: if self.db.get('oem-config/enable') == 'true': return except debconf.DebconfError: pass source_bluetooth = "/var/lib/bluetooth/" target_bluetooth = "/target/var/lib/bluetooth/" # Ensure the target doesn't exist if os.path.exists(target_bluetooth): shutil.rmtree(target_bluetooth) # Copy /var/lib/bluetooth to /target/var/lib/bluetooth/ if os.path.exists(source_bluetooth): shutil.copytree(source_bluetooth, target_bluetooth) def recache_apparmor(self): """Generate an apparmor cache to speed up boot time.""" if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: return if not os.path.exists(self.target_file('etc/init.d/apparmor')): syslog.syslog( 'Apparmor is not installed, so not generating cache.') return install_misc.chrex(self.target, 'mount', '-t', 'proc', 'proc', '/proc') install_misc.chrex( self.target, 'mount', '-t', 'sysfs', 'sysfs', '/sys') install_misc.chrex( self.target, 'mount', '-t', 'securityfs', 'securityfs', '/sys/kernel/security') install_misc.chrex(self.target, '/etc/init.d/apparmor', 'recache') install_misc.chrex(self.target, 'umount', '/proc') install_misc.chrex(self.target, 'umount', '/sys/kernel/security') install_misc.chrex(self.target, 'umount', '/sys') def copy_wallpaper_cache(self): """Copy GNOME wallpaper cache for the benefit of ureadahead. Only do this on systems with gnome-settings-daemon. """ if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: return # We don't use the copy_network_config casper user trick as it's not # ubuntu in install mode. try: casper_user = pwd.getpwuid(999).pw_name except KeyError: # We're on a weird system where the casper user isn't uid 999 # just stop there return casper_user_home = os.path.expanduser('~%s' % casper_user) casper_user_wallpaper_cache_dir = os.path.join(casper_user_home, '.cache', 'wallpaper') target_user = self.db.get('passwd/username') target_user_cache_dir = self.target_file('home', target_user, '.cache') target_user_wallpaper_cache_dir = os.path.join(target_user_cache_dir, 'wallpaper') if (not os.path.isdir(target_user_wallpaper_cache_dir) and os.path.isdir(casper_user_wallpaper_cache_dir)): # copy to targeted user uid = subprocess.Popen( ['chroot', self.target, 'sudo', '-u', target_user, '--', 'id', '-u'], stdout=subprocess.PIPE, universal_newlines=True).communicate()[0].strip('\n') gid = subprocess.Popen( ['chroot', self.target, 'sudo', '-u', target_user, '--', 'id', '-g'], stdout=subprocess.PIPE, universal_newlines=True).communicate()[0].strip('\n') uid = int(uid) gid = int(gid) self.copy_tree(casper_user_wallpaper_cache_dir, target_user_wallpaper_cache_dir, uid, gid) os.chmod(target_user_cache_dir, 0o700) os.chmod(target_user_wallpaper_cache_dir, 0o700) def copy_dcd(self): """Install the Distribution Channel Descriptor (DCD) file.""" dcd = '/cdrom/.disk/ubuntu_dist_channel' if os.path.exists(dcd): shutil.copy(dcd, self.target_file('var/lib/ubuntu_dist_channel')) def copy_logs(self): """Copy log files to the installed system.""" if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: return target_dir = self.target_file('var/log/installer') if not os.path.exists(target_dir): os.makedirs(target_dir) for log_file in ('/var/log/syslog', '/var/log/partman', '/var/log/installer/version', '/var/log/casper.log', '/var/log/installer/debug'): target_log_file = os.path.join(target_dir, os.path.basename(log_file)) if os.path.isfile(log_file): if not misc.execute('cp', '-a', log_file, target_log_file): syslog.syslog(syslog.LOG_ERR, 'Failed to copy installation log file') os.chmod(target_log_file, stat.S_IRUSR | stat.S_IWUSR) media_info = '/cdrom/.disk/info' if os.path.isfile(media_info): try: target_media_info = \ self.target_file('var/log/installer/media-info') shutil.copy(media_info, target_media_info) os.chmod(target_media_info, stat.S_IRUSR | stat.S_IWUSR | stat.S_IRGRP | stat.S_IROTH) except (IOError, OSError): pass try: status = open(self.target_file('var/lib/dpkg/status'), 'rb') status_gz = gzip.open(os.path.join(target_dir, 'initial-status.gz'), 'w') while True: data = status.read(65536) if not data: break status_gz.write(data) status_gz.close() status.close() except IOError: pass try: if self.db.get('oem-config/enable') == 'true': oem_id = self.db.get('oem-config/id') tf = self.target_file('var/log/installer/oem-id') with open(tf, 'w') as oem_id_file: print(oem_id, file=oem_id_file) except (debconf.DebconfError, IOError): pass try: path = self.target_file('ubiquity-apt-clone') if os.path.exists(path): shutil.move(path, self.target_file('var/log/installer')) except IOError: pass def save_random_seed(self): """Save random seed to the target system. This arranges for the installed system to have better entropy on first boot. """ if 'UBIQUITY_OEM_USER_CONFIG' in os.environ: return try: st = os.stat("/dev/urandom") except OSError: return if not stat.S_ISCHR(st.st_mode): return if not os.path.isdir(self.target_file("var/lib/systemd")): return poolbytes = 512 try: with open("/proc/sys/kernel/random/poolsize") as poolsize: poolbits = int(poolsize.readline()) if poolbits: poolbytes = int((poolbits + 7) / 8) except IOError: pass old_umask = os.umask(0o077) try: with open("/dev/urandom", "rb") as urandom: with open(self.target_file("var/lib/systemd/random-seed"), "wb") as seed: seed.write(urandom.read(poolbytes)) except IOError: pass finally: os.umask(old_umask) def cleanup(self): """Miscellaneous cleanup tasks.""" misc.execute('umount', self.target_file('cdrom')) env = dict(os.environ) env['OVERRIDE_BASE_INSTALLABLE'] = '1' subprocess.call(['/usr/lib/ubiquity/apt-setup/finish-install'], env=env) for apt_conf in ('00NoMountCDROM', '00IgnoreTimeConflict', '00AllowUnauthenticated'): osextras.unlink_force( self.target_file('etc/apt/apt.conf.d', apt_conf)) if __name__ == '__main__': os.environ['DPKG_UNTRANSLATED_MESSAGES'] = '1' if not os.path.exists('/var/lib/ubiquity'): os.makedirs('/var/lib/ubiquity') install = Install() sys.excepthook = install_misc.excepthook install.run() sys.exit(0) # vim:ai:et:sts=4:tw=80:sw=4: