The etc portion of systemd-tmpfiles creates a broken /etc/resolv.conf,
which breaks networking, and the rest of the stuff in the there is
already installed to the stage2.
fedup is deprecated and abandoned. Let's save time and disk by not
building `upgrade.img` when nothing is going to use it anymore.
For the record, performing upgrades using an initramfs from the new
system turns out to be fragile and hard to support:
* dracut initramfs isn't generic enough to handle booting all systems
(e.g. missing vconsole.conf means you get keymaps wrong, so users
can't unlock encrypted disks)
* The ABI differences between the two versions of plymouth, systemd,
etc. requires nasty workarounds at best and causes nightmarish
systemd crashes at worst
This patch removes all the code that built and installed `upgrade.img`.
For backwards compatibility, the API retains the `doupgrade` keyword
argument, and the `--noupgrade` flag is still accepted.
We really shouldn't need to run ldconfig on boot from read-only media,
unless someone messed up %post in a package. And the verify step will
catch that.
This reverts commit 3981ff5b79.
systemd-nspawn is some kind of container thing, and cairo-sphinx, as far
as I can tell (go ahead, try to google it) is a cairo debugging tool.
Neither of these are particularly useful on installer media and both use
libraries that are removed during cleanup.
In order for selinux to properly label the system it needs to see that
the config file exists.
Also remove the old code trying to copy in a selinux config file, it
never worked -- the removepkg would remove it.
So we can activate master connection instead of searching for and activating
slave connections.
Makes turning bond/team device on in network spoke work.
Resolves: rhbz#1172751
It also causes a device configured in dracut to be properly reactivated as a slave
if it is configured so by kickstart.
Resolves: rhbz#1134090
When it is left up to dnf to decide how to fulfill the kmod()
requirement from gfs2-utils it will pick kernel-debuginfo-* which adds
about 100M to the size of the iso.
Adding these packages first makes dnf choose them and the iso size is
back down around 450MB
iscsi-initator-utils and gobject-introspection actually are required via
anaconda rpm deps, so they aren't needed in runtime-install.tmpl.
Nothing seems to actually use python-imaging (i.e., python-pillow).
The executables for polkit, gnome-keyring and python-ethtool are removed
in runtime-cleanup, so if anything needs the libraries in these
packages, they can be pulled in through rpm dependencies. Among them,
only polkit is required.
For LUKS escrow stuff, keep the packages that provide the command-line
executables (volume_key, nss-tools), and remove the libraries. The
python2 libraries are no longer needed by blivet, and libblockdev will
install the C libraries it needs.
Install the dnf langpacks plugin instead of the yum one.
python-epdb is less useful now that anaconda is Python 3.
Add a 'lower' filter to the templates to replace string.lower which no
longer exists. Fix udev_escape, the strings are already unicode, and
drop --chdir from runcmd. It wasn't ever used, and passing cwd to the
new runcmd isn't supported.
I originally added --add-template to support doing something similar
to pungi, which injects content into the system to be used by default.
However, this causes the content to be part of the squashfs, which
means PXE installations have to download significantly more data that
they may not need (if they actually want to pull the tree data from
the network, which is not an unusual case).
What I actually need is to be able to modify *both* the runtime image
and the arch-specific content. For the runtime, I need to change
/usr/share/anaconda/interactive-defaults.ks to point to the new
content. (Although, potentially we could patch Anaconda itself to
auto-detect an ostree repository configured in disk image, similar to
what it does for yum repositories)
For the arch-specfic image, I want to drop my content into the ISO
root.
So this patch adds --add-arch-template and --add-arch-template-var
in order to do the latter, while preserving the --add-template
to affect the runtime image.
Further, the templates will automatically graft in a directory named
"iso-graft/" from the working directory (if it exists).
(I suggest that external templates create a subdirectory named
"content" to avoid clashes with any future lorax work)
Thus, this will be used by the Atomic Host lorax templates to inject
content/repo, but could be used by e.g. pungi to add content/rpms as
well.
I tried to avoid code deduplication by creating a new template for the
product.img bits and this, but that broke because the parent boot.iso
code needs access to the `${imggraft}` variable. I think a real fix
here would involve turning the product.img, content/, *and* boot.iso
into a new template.
removekmod GLOB [GLOB...] --allbut KEEPGLOB [KEEPGLOB...]
This can be used to remove kernel modules from under
/lib/modules/*/kernel/ while keeping specific items. This should be
easier than constructing find arguments to select the right things to
save.
Use the same stage2 location for all arches, put it in images with all
the other images. This only effects boot.iso, live images still use
LiveOS/squashfs.img because that's where dracut's 90dmsquashfs-live
module expects to find it.
For boot.iso anaconda-dracut handles finding stage2, looking at
images/install.img and LiveOS/squashfs.img
This package no longer contains anything that we actually use. Removing
it also removes gnome-themes, which we needed for the metacity theme but
which is now handled by anaconda, and gtk2-engines.
fedora-gnome-theme provides gnome-themes-standard, from which we remove
everything except a metacity theme file that metacity doesn't actually
use. Remove fedora-gnome-theme entirely and manually add the font
dependency that it was pulling in.
--make-pxe-live target generate live squashfs and initrd for pxe boot.
Also generates pxe config template.
--make-ostree-live is used for installations of Atomic Host. Additionally to
--make-pxe-live it ensures using deployment root instead of physical root of
installed disk image where needed. Atomic installation needs to be virt
installation with /boot on separate partition (the only way supported by
Anaconda currently). Content of boot partition is added to live root fs so that
ostree can find deployment by boot configuration.
Virtual machines easily get starved for randomness, and Anaconda insists
on sufficient amounts of entropy when the user requests LUKS disk
encryption. As a result, such installations can hang until Anaconda gives
up (after 10 minutes) and makes do with whatever entropy is available.
The virtualization host can feed randomness to the guest, unblocking the
installation. However, the guest can only consume that randomness through
the virtio-rng module. Let's not remove that module.
Signed-off-by: Laszlo Ersek <lersek@redhat.com>
Signed-off-by: Brian C. Lane <bcl@redhat.com>
Resolves: rhbz#1179000