3.5G is not enough for riscv64 preinstalled as the creation of the initrd fails
with the following error:
Creating config file /etc/default/grub with new version
Processing triggers for initramfs-tools (0.140ubuntu13) ...
update-initramfs: Generating /boot/initrd.img-5.15.0-1011-generic
zstd: error 25 : Write error : No space left on device (cannot write compressed block)
E: mkinitramfs failure zstd -q -1 -T0 25
update-initramfs: failed for /boot/initrd.img-5.15.0-1011-generic with 1.
dpkg: error processing package initramfs-tools (--configure):
installed initramfs-tools package post-installation script subprocess returned error exit status 1
Signed-off-by: Alexandre Ghiti <alexandre.ghiti@canonical.com>
The image created uses a UEFI bootflow, so we install grub for this board
only. We also need flash-kernel to install the dtb where grub can find
it.
This image is specifically architectured so that it can be installed on
a "factory" board, meaning using the u-boot firmware which was
originally implemented for Fedora, so we need the p3 partition that
embeds a uEnv.txt file to tell u-boot what/where to load next stage.
Signed-off-by: Alexandre Ghiti <alexandre.ghiti@canonical.com>
Define the image layout for the Nezha board.
The U-Boot SPL based boot0 may be installed starting in sector 16 or 256.
As sector 16 is incompatible with GPT partitioning use sector 256.
The primary U-Boot image is expected to start at sector 32800 and its
backup in sector 24576.
Cf. https://linux-sunxi.org/index.php?title=Allwinner_Nezha&oldid=24469
Signed-off-by: Heinrich Schuchardt <heinrich.schuchardt@canonical.com>
Modifying directly /etc/ssh/sshd_config creates "problems" when
upgrading eg. from Focal to Jammy because the upgrade will ask the
user what to do with the modified config. To avoid that, put the
custom configuration into /etc/ssh/sshd_config.d/ so the upgrade of
openssh-server can just replace /etc/ssh/sshd_config without asking
the user.
This reverts part of a change causing regression with vmware import due to the
cdrom getting moved to SCSI while shifting controller IDs. (LP: #1970795)
Germinate doesn't take very long at all to run but downloading the
indices it operates on can take a while and nothing else in auto/config
does so not doing it every time you run "lb config" can be a real time
saver.
The code that invokes germinate already checked if the output was
already there but it was unconditionally deleted by the time control got
to that point.
LP: 1969664 tracks an issue related to the deprecation of rsa+ssh on
Jammy+ openssh server, coupled with upstream vagrant bugs, that cause
Jammy vagrant images fail to bootstrap due to ssh negotiation issues.
Moving to a different key algo from the upstream insecure key matches
Jammy's expectations, and works with older vagrant versions.
vagrant >= 2.2.16 hosts are unaffected by the issue, as an upstream
change was made. This change keep compatibility with newer vagrant
versions as well.
Readding this file per reviewer's request until CPC splits the
pipelines. Removing this file would make CPC image builds fail.
Co-authored-by: Didier Roche <didrocks@ubuntu.com>
Commit 245f7772bd added code to abort the build if a snap wants to
install "core" (the 16.04 runtime). That's great but there are still
some CPC maintained image builds that use snaps based on "core". So
make it possible to continue the build if the "ALLOW_CORE_SNAP" env
variable is set.
Due to how `disk-image` file is structured, it builds BIOS and UEFI
images at the same time. However, certain images (e.g., GCE images)
require only UEFI image to be built, BIOS image is being simply
discarded. This results in longer build times.
Splitting out `disk-image-uefi` would allow images to use it instead of
`disk-image` and thus avoid building unused BIOS images.
`disk-image` now depends on `disk-image-uefi` for backward
compatibility.
The UNCONFIGURED FSTAB warning was being left in the result, the discard
option wasn't included, and the fsck flag was 0 (all in marked contrast
to the preinstalled server images).
Changes in either livecd-rootfs or ubuntu-image seem to periodically
break the transfer of the pre-allocated swapfile (copying it in such a
fashion that it winds up "with holes" and thus unable to be used as a
swapfile). Rather than fight this, just use a simple systemd service to
generate the swapfile if it doesn't exist (using fallocate to keep
things snappy).