This commit is contained in:
John Dorman 2023-01-30 15:48:47 -08:00
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# Podman Install
## Features
* Automatically install podman from https://unifi.boostchicken.io
* Persists through firmware updates
## Requirements
1. You have successfully set up the on boot script described
[here](https://github.com/unifi-utilities/unifios-utilities/tree/main/on-boot-script)
2. [Optional] [`25-add-cron-jobs.sh`](https://github.com/unifi-utilities/unifios-utilities/blob/main/on-boot-script/examples/udm-files/on_boot.d/25-add-cron-jobs.sh)
## Installation
1. Copy `on_boot.d/00-podman.sh` to `/data/on_boot.d`
2. Copy the contents of `conf` to `/data/podman/conf`
## Customization
Optional: automatic updates
* Copy `cronjobs/update-podman` to `/data/cronjobs`
* Re-run `/data/on_boot.d/25-add-cron-jobs.sh`
The script can be run manually. Normally, it will refuse to overwrite an existing podman install. If you've installed podman manually, or if you are using UDM 1.x firmware (which includes podman), then the script will do nothing.
If you run `/data/on_boot.d/00-podman.sh --force`, then podman will be reinstalled, even if it aready exists.
Normally, the script will reuse previously-downloaded zip files. This should cause the previously-installed version to be reinstalled automatically after a firmware upgrade.
If you run `/data/on_boot.d/00-podman.sh --download-only`, then the latest zip file will be downloaded from [https://unifi.boostchicken.io/](https://unifi.boostchicken.io/), but not installed.
You can combine the two args to forcefully upgrade to the latest version:
```bash
/data/on_boot.d/00-podman.sh --download-only && /data/on_boot.d/00-podman.sh --force
```
### Why not `podman-update`?
https://github.com/unifi-utilities/unifios-utilities/issues/288#issuecomment-992404375

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max_log_size = 104857600

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{
"default": [
{ "type": "insecureAcceptAnything" }
],
"transports": {
"docker-daemon": {
"": [{"type":"insecureAcceptAnything"}]
}
}
}

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unqualified-search-registries = ['docker.io']

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# This file is is the configuration file for all tools
# that use the containers/storage library. The storage.conf file
# overrides all other storage.conf files. Container engines using the
# container/storage library do not inherit fields from other storage.conf
# files.
#
# Note: The storage.conf file overrides other storage.conf files based on this precedence:
# /usr/containers/storage.conf
# /etc/containers/storage.conf
# $HOME/.config/containers/storage.conf
# $XDG_CONFIG_HOME/containers/storage.conf (If XDG_CONFIG_HOME is set)
# See man 5 containers-storage.conf for more information
# The "container storage" table contains all of the server options.
[storage]
# Default Storage Driver, Must be set for proper operation.
driver = "vfs"
# Temporary storage location
runroot = "/run/containers/storage"
# Primary Read/Write location of container storage
# When changing the graphroot location on an SELINUX system, you must
# ensure the labeling matches the default locations labels with the
# following commands:
# semanage fcontext -a -e /var/lib/containers/storage /NEWSTORAGEPATH
# restorecon -R -v /NEWSTORAGEPATH
graphroot = "/var/lib/containers/storage"
# Storage path for rootless users
#
# rootless_storage_path = "$HOME/.local/share/containers/storage"
[storage.options]
# Storage options to be passed to underlying storage drivers
# AdditionalImageStores is used to pass paths to additional Read/Only image stores
# Must be comma separated list.
additionalimagestores = [
]
# Remap-UIDs/GIDs is the mapping from UIDs/GIDs as they should appear inside of
# a container, to the UIDs/GIDs as they should appear outside of the container,
# and the length of the range of UIDs/GIDs. Additional mapped sets can be
# listed and will be heeded by libraries, but there are limits to the number of
# mappings which the kernel will allow when you later attempt to run a
# container.
#
# remap-uids = 0:1668442479:65536
# remap-gids = 0:1668442479:65536
# Remap-User/Group is a user name which can be used to look up one or more UID/GID
# ranges in the /etc/subuid or /etc/subgid file. Mappings are set up starting
# with an in-container ID of 0 and then a host-level ID taken from the lowest
# range that matches the specified name, and using the length of that range.
# Additional ranges are then assigned, using the ranges which specify the
# lowest host-level IDs first, to the lowest not-yet-mapped in-container ID,
# until all of the entries have been used for maps.
#
# remap-user = "containers"
# remap-group = "containers"
# Root-auto-userns-user is a user name which can be used to look up one or more UID/GID
# ranges in the /etc/subuid and /etc/subgid file. These ranges will be partitioned
# to containers configured to create automatically a user namespace. Containers
# configured to automatically create a user namespace can still overlap with containers
# having an explicit mapping set.
# This setting is ignored when running as rootless.
# root-auto-userns-user = "storage"
#
# Auto-userns-min-size is the minimum size for a user namespace created automatically.
# auto-userns-min-size=1024
#
# Auto-userns-max-size is the minimum size for a user namespace created automatically.
# auto-userns-max-size=65536
[storage.options.overlay]
# ignore_chown_errors can be set to allow a non privileged user running with
# a single UID within a user namespace to run containers. The user can pull
# and use any image even those with multiple uids. Note multiple UIDs will be
# squashed down to the default uid in the container. These images will have no
# separation between the users in the container. Only supported for the overlay
# and vfs drivers.
#ignore_chown_errors = "false"
# Inodes is used to set a maximum inodes of the container image.
# inodes = ""
# Path to an helper program to use for mounting the file system instead of mounting it
# directly.
#mount_program = "/usr/bin/fuse-overlayfs"
# mountopt specifies comma separated list of extra mount options
mountopt = "nodev"
# Set to skip a PRIVATE bind mount on the storage home directory.
# skip_mount_home = "false"
# Size is used to set a maximum size of the container image.
# size = ""
# ForceMask specifies the permissions mask that is used for new files and
# directories.
#
# The values "shared" and "private" are accepted.
# Octal permission masks are also accepted.
#
# "": No value specified.
# All files/directories, get set with the permissions identified within the
# image.
# "private": it is equivalent to 0700.
# All files/directories get set with 0700 permissions. The owner has rwx
# access to the files. No other users on the system can access the files.
# This setting could be used with networked based homedirs.
# "shared": it is equivalent to 0755.
# The owner has rwx access to the files and everyone else can read, access
# and execute them. This setting is useful for sharing containers storage
# with other users. For instance have a storage owned by root but shared
# to rootless users as an additional store.
# NOTE: All files within the image are made readable and executable by any
# user on the system. Even /etc/shadow within your image is now readable by
# any user.
#
# OCTAL: Users can experiment with other OCTAL Permissions.
#
# Note: The force_mask Flag is an experimental feature, it could change in the
# future. When "force_mask" is set the original permission mask is stored in
# the "user.containers.override_stat" xattr and the "mount_program" option must
# be specified. Mount programs like "/usr/bin/fuse-overlayfs" present the
# extended attribute permissions to processes within containers rather then the
# "force_mask" permissions.
#
# force_mask = ""
[storage.options.thinpool]
# Storage Options for thinpool
# autoextend_percent determines the amount by which pool needs to be
# grown. This is specified in terms of % of pool size. So a value of 20 means
# that when threshold is hit, pool will be grown by 20% of existing
# pool size.
# autoextend_percent = "20"
# autoextend_threshold determines the pool extension threshold in terms
# of percentage of pool size. For example, if threshold is 60, that means when
# pool is 60% full, threshold has been hit.
# autoextend_threshold = "80"
# basesize specifies the size to use when creating the base device, which
# limits the size of images and containers.
# basesize = "10G"
# blocksize specifies a custom blocksize to use for the thin pool.
# blocksize="64k"
# directlvm_device specifies a custom block storage device to use for the
# thin pool. Required if you setup devicemapper.
# directlvm_device = ""
# directlvm_device_force wipes device even if device already has a filesystem.
# directlvm_device_force = "True"
# fs specifies the filesystem type to use for the base device.
# fs="xfs"
# log_level sets the log level of devicemapper.
# 0: LogLevelSuppress 0 (Default)
# 2: LogLevelFatal
# 3: LogLevelErr
# 4: LogLevelWarn
# 5: LogLevelNotice
# 6: LogLevelInfo
# 7: LogLevelDebug
# log_level = "7"
# min_free_space specifies the min free space percent in a thin pool require for
# new device creation to succeed. Valid values are from 0% - 99%.
# Value 0% disables
# min_free_space = "10%"
# mkfsarg specifies extra mkfs arguments to be used when creating the base
# device.
# mkfsarg = ""
# metadata_size is used to set the `pvcreate --metadatasize` options when
# creating thin devices. Default is 128k
# metadata_size = ""
# Size is used to set a maximum size of the container image.
# size = ""
# use_deferred_removal marks devicemapper block device for deferred removal.
# If the thinpool is in use when the driver attempts to remove it, the driver
# tells the kernel to remove it as soon as possible. Note this does not free
# up the disk space, use deferred deletion to fully remove the thinpool.
# use_deferred_removal = "True"
# use_deferred_deletion marks thinpool device for deferred deletion.
# If the device is busy when the driver attempts to delete it, the driver
# will attempt to delete device every 30 seconds until successful.
# If the program using the driver exits, the driver will continue attempting
# to cleanup the next time the driver is used. Deferred deletion permanently
# deletes the device and all data stored in device will be lost.
# use_deferred_deletion = "True"
# xfs_nospace_max_retries specifies the maximum number of retries XFS should
# attempt to complete IO when ENOSPC (no space) error is returned by
# underlying storage device.
# xfs_nospace_max_retries = "0"

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# update and reinstall podman each day
#00 00 * * * root sh -c '/data/on_boot.d/00-podman.sh --download-only && /data/on_boot.d/00-podman.sh --force'

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#!/bin/sh
if which unifi-os >/dev/null 2>&1; then
echo 'Cowardly refusing to install on UDM 1.x'
exit 1
fi
udm_model() {
case "$(ubnt-device-info model || true)" in
"UniFi Dream Machine SE")
echo "udmse"
;;
"UniFi Dream Machine Pro")
echo "udmpro"
;;
"UniFi Dream Machine")
echo "udm"
;;
"UniFi Dream Router")
echo "udr"
;;
*)
echo "unknown"
;;
esac
}
DESIRED_ZIPFILE='udmse-podman-install.zip'
case "$(udm_model)" in
udmse|udmpro)
DESIRED_ZIPFILE="$(udm_model)-podman-install.zip"
;;
*)
# shrug
# udmse-podman-install.zip seems to work fine on UDM 2.4.x
true
;;
esac
# Get DataDir location
DATA_DIR="/mnt/data"
case "$(ubnt-device-info firmware || true)" in
1*)
DATA_DIR="/mnt/data"
;;
2*)
DATA_DIR="/data"
;;
3*)
DATA_DIR="/data"
;;
*)
echo "ERROR: No persistent storage found." 1>&2
exit 1
;;
esac
CACHE_DIR="${DATA_DIR}/podman/cache"
INSTALL_ROOT="${DATA_DIR}/podman/install"
CONF_DIR="${DATA_DIR}/podman/conf"
mkdir -p "${CACHE_DIR}" "${INSTALL_ROOT}" "${CONF_DIR}"
URL="https://unifi.boostchicken.io/${DESIRED_ZIPFILE}"
if [ "$1" = '--download-only' ]; then
echo "downloading ${URL}" \
&& curl -Lsfo "${CACHE_DIR}/${DESIRED_ZIPFILE}" "${URL}" \
&& echo "downloaded ${URL}"
exit $?
fi
if podman version >/dev/null 2>&1; then
if [ "$1" = '--force' ]; then
echo 'overwriting existing podman install (--force)'
else
echo 'podman is already installed; skipping'
exit 0
fi
fi
if [ -f "${CACHE_DIR}/${DESIRED_ZIPFILE}" ]; then
echo "(using cache at ${CACHE_DIR}/${DESIRED_ZIPFILE})"
elif echo "downloading ${URL}" \
&& curl -Lsfo "${CACHE_DIR}/${DESIRED_ZIPFILE}" "${URL}"; then
echo "downloaded ${URL}"
else
echo 'download failed'
exit 1
fi
unzip -o "${CACHE_DIR}/${DESIRED_ZIPFILE}" -d "${CACHE_DIR}" >/dev/null
unzip -o "${CACHE_DIR}/podman-install.zip" -d "${INSTALL_ROOT}" >/dev/null
rm -f "${CACHE_DIR}/podman-install.zip"
for SOURCE in $(find "${INSTALL_ROOT}" -not -type d); do
TARGET="$(expr "${SOURCE}" : "${INSTALL_ROOT}\(.*\)")"
mkdir -p "$(dirname "${TARGET}")"
ln -sf "${SOURCE}" "${TARGET}"
done
# fix missing config files
for CONFIG in $(cd "${CONF_DIR}" && echo *); do
[ -e "${CONF_DIR}/${CONFIG}" ] || continue
ln -sf "${CONF_DIR}/${CONFIG}" "/etc/containers/${CONFIG}"
done
if podman version >/dev/null 2>&1; then
echo "podman $(podman version -f '{{.Client.Version}}') was installed successfully"
exit 0
fi
echo 'Something went wrong'
exit 1