# install.py # Do the hard work of performing an installation. # # Copyright (C) 2012 Red Hat, Inc. # # This copyrighted material is made available to anyone wishing to use, # modify, copy, or redistribute it subject to the terms and conditions of # the GNU General Public License v.2, or (at your option) any later version. # This program is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY expressed or implied, including the implied warranties 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 Street, Fifth Floor, Boston, MA # 02110-1301, USA. Any Red Hat trademarks that are incorporated in the # source code or documentation are not subject to the GNU General Public # License and may only be used or replicated with the express permission of # Red Hat, Inc. # # Red Hat Author(s): Chris Lumens # from blivet import callbacks from blivet.osinstall import turnOnFilesystems from blivet.devices import BTRFSDevice from pyanaconda.bootloader import writeBootLoader from pyanaconda.progress import progress_report, progress_message, progress_step, progress_complete, progress_init from pyanaconda.users import createLuserConf, getPassAlgo, Users from pyanaconda import flags from pyanaconda import iutil from pyanaconda import timezone from pyanaconda import network from pyanaconda.i18n import _ from pyanaconda.threads import threadMgr from pyanaconda.ui.lib.entropy import wait_for_entropy import logging import blivet log = logging.getLogger("anaconda") def _writeKS(ksdata): import os path = iutil.getSysroot() + "/root/anaconda-ks.cfg" # Clear out certain sensitive information that kickstart doesn't have a # way of representing encrypted. for obj in [ksdata.autopart] + ksdata.logvol.dataList() + \ ksdata.partition.dataList() + ksdata.raid.dataList(): obj.passphrase = "" with open(path, "w") as f: f.write(str(ksdata)) # Make it so only root can read - could have passwords iutil.eintr_retry_call(os.chmod, path, 0o600) def doConfiguration(storage, payload, ksdata, instClass): from pyanaconda.kickstart import runPostScripts willWriteNetwork = not flags.flags.imageInstall and not flags.flags.dirInstall willRunRealmd = ksdata.realm.discovered # configure base, create users, configure addons, initramfs, post-install step_count = 5 # network, maybe if willWriteNetwork: step_count += 1 # if a realm was discovered, # increment the counter as the # real joining step will be executed if willRunRealmd: step_count += 1 progress_init(step_count) # Now run the execute methods of ksdata that require an installed system # to be present first. with progress_report(_("Configuring installed system")): ksdata.authconfig.execute(storage, ksdata, instClass) ksdata.selinux.execute(storage, ksdata, instClass) ksdata.firstboot.execute(storage, ksdata, instClass) ksdata.services.execute(storage, ksdata, instClass) ksdata.keyboard.execute(storage, ksdata, instClass) ksdata.timezone.execute(storage, ksdata, instClass) ksdata.lang.execute(storage, ksdata, instClass) ksdata.firewall.execute(storage, ksdata, instClass) ksdata.xconfig.execute(storage, ksdata, instClass) ksdata.skipx.execute(storage, ksdata, instClass) if willWriteNetwork: with progress_report(_("Writing network configuration")): ksdata.network.execute(storage, ksdata, instClass) # Creating users and groups requires some pre-configuration. with progress_report(_("Creating users")): createLuserConf(iutil.getSysroot(), algoname=getPassAlgo(ksdata.authconfig.authconfig)) u = Users() ksdata.rootpw.execute(storage, ksdata, instClass, u) ksdata.group.execute(storage, ksdata, instClass, u) ksdata.user.execute(storage, ksdata, instClass, u) ksdata.sshkey.execute(storage, ksdata, instClass, u) with progress_report(_("Configuring addons")): ksdata.addons.execute(storage, ksdata, instClass, u) with progress_report(_("Generating initramfs")): payload.recreateInitrds() # Work around rhbz#1200539, grubby doesn't handle grub2 missing initrd with /boot on btrfs # So rerun writing the bootloader if this is live and /boot is on btrfs boot_on_btrfs = isinstance(storage.mountpoints.get("/boot", storage.mountpoints.get("/")), BTRFSDevice) if flags.flags.livecdInstall and boot_on_btrfs \ and (not ksdata.bootloader.disabled and ksdata.bootloader != "none"): writeBootLoader(storage, payload, instClass, ksdata) if willRunRealmd: with progress_report(_("Joining realm: %s") % ksdata.realm.discovered): ksdata.realm.execute(storage, ksdata, instClass) with progress_report(_("Running post-installation scripts")): runPostScripts(ksdata.scripts) # Write the kickstart file to the installed system (or, copy the input # kickstart file over if one exists). _writeKS(ksdata) progress_complete() def doInstall(storage, payload, ksdata, instClass): """Perform an installation. This method takes the ksdata as prepared by the UI (the first hub, in graphical mode) and applies it to the disk. The two main tasks for this are putting filesystems onto disks and installing packages onto those filesystems. """ willRunRealmd = ksdata.realm.join_realm willInstallBootloader = not flags.flags.dirInstall and (not ksdata.bootloader.disabled and ksdata.bootloader != "none") # First save system time to HW clock. if flags.can_touch_runtime_system("save system time to HW clock"): timezone.save_hw_clock(ksdata.timezone) # We really only care about actions that affect filesystems, since # those are the ones that take the most time. steps = len(storage.devicetree.findActions(action_type="create", object_type="format")) + \ len(storage.devicetree.findActions(action_type="resize", object_type="format")) # Update every 10% of packages installed. We don't know how many packages # we are installing until it's too late (see realmd later on) so this is # the best we can do. steps += 10 # pre setup phase, post install steps += 2 # realmd, maybe if willRunRealmd: steps += 1 # bootloader, maybe if willInstallBootloader: steps += 1 # This should be the only thread running, wait for the others to finish if not. if threadMgr.running > 1: progress_init(steps+1) with progress_report(_("Waiting for %s threads to finish") % (threadMgr.running-1)): map(log.debug, ("Thread %s is running" % n for n in threadMgr.names)) threadMgr.wait_all() else: progress_init(steps) with progress_report(_("Setting up the installation environment")): ksdata.firstboot.setup(storage, ksdata, instClass) ksdata.addons.setup(storage, ksdata, instClass) storage.updateKSData() # this puts custom storage info into ksdata # Do partitioning. payload.preStorage() # callbacks for blivet message_clbk = lambda clbk_data: progress_message(clbk_data.msg) step_clbk = lambda clbk_data: progress_step(clbk_data.msg) entropy_wait_clbk = lambda clbk_data: wait_for_entropy(clbk_data.msg, clbk_data.min_entropy, ksdata) callbacks_reg = callbacks.create_new_callbacks_register(create_format_pre=message_clbk, create_format_post=step_clbk, resize_format_pre=message_clbk, resize_format_post=step_clbk, wait_for_entropy=entropy_wait_clbk) turnOnFilesystems(storage, mountOnly=flags.flags.dirInstall, callbacks=callbacks_reg) write_storage_late = (flags.flags.livecdInstall or ksdata.ostreesetup.seen or ksdata.method.method == "liveimg") if not write_storage_late and not flags.flags.dirInstall: storage.write() # Do packaging. # Discover information about realms to join, # to determine additional packages if willRunRealmd: with progress_report(_("Discovering realm to join")): ksdata.realm.setup() # Check for additional packages ksdata.authconfig.setup() ksdata.firewall.setup() # make name resolution work for rpm scripts in chroot if flags.can_touch_runtime_system("copy /etc/resolv.conf to sysroot"): network.copyFileToPath("/etc/resolv.conf", iutil.getSysroot()) # anaconda requires storage packages in order to make sure the target # system is bootable and configurable, and some other packages in order # to finish setting up the system. packages = storage.packages + ksdata.realm.packages packages += ksdata.authconfig.packages + ksdata.firewall.packages if willInstallBootloader: packages += storage.bootloader.packages if network.is_using_team_device(): packages.append("teamd") # don't try to install packages from the install class' ignored list and the # explicitly excluded ones (user takes the responsibility) packages = [p for p in packages if p not in instClass.ignoredPackages and p not in ksdata.packages.excludedList] payload.preInstall(packages=packages, groups=payload.languageGroups()) payload.install() if write_storage_late and not flags.flags.dirInstall: if iutil.getSysroot() != iutil.getTargetPhysicalRoot(): blivet.setSysroot(iutil.getTargetPhysicalRoot(), iutil.getSysroot()) storage.write() # Now that we have the FS layout in the target, umount # things that were in the legacy sysroot, and put them in # the target root, except for the physical /. First, # unmount all target filesystems. storage.umountFilesystems() # Explicitly mount the root on the physical sysroot rootmnt = storage.mountpoints.get('/') rootmnt.setup() rootmnt.format.setup(options=rootmnt.format.options, chroot=iutil.getTargetPhysicalRoot()) payload.prepareMountTargets(storage) # Everything else goes in the target root, including /boot # since the bootloader code will expect to find /boot # inside the chroot. storage.mountFilesystems(skipRoot=True) else: storage.write() # Do bootloader. if willInstallBootloader: with progress_report(_("Installing boot loader")): writeBootLoader(storage, payload, instClass, ksdata) with progress_report(_("Performing post-installation setup tasks")): payload.postInstall() progress_complete()