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{{Subpages|GPU Acceleration}}
<languages/>
{{Subpages|Laptop Network Setup,GPU Acceleration,GPU Acceleration (NVIDIA),What are subuids and subgids?,Administration Tutorial,Features and Concepts,Container Migration,Storage Pools}}
<translate>
== Introduction == <!--T:1-->


== Introduction ==
<!--T:122-->
{{Important|Please note that if you plan to use LXD on a laptop, you are likely using WiFi and NetworkManager, and the steps below will ''not'' work for you bridge setup. Please see [[LXD/Laptop Network Setup]] for important differences to allow you to use LXD in 'dev mode' for local use of containers for development.}}


LXD is a container "hypervisor" designed to provide an easy set of tools to manage Linux containers, and its development is currently being led by employees at Canonical. You can learn more about the project in general at https://linuxcontainers.org/lxd/ .  
<!--T:2-->
LXD is a container "hypervisor" designed to provide an easy set of tools to manage Linux containers, and its development is currently being led by employees at Canonical. You can learn more about the project in general at https://linuxcontainers.org/lxd/.  


LXD is currently used for container infrastructure for [[Funtoo Containers]] and is also very well-supported under Funtoo Linux. For this reason, it's recommended that you check out LXD and see what it can do for you.
<!--T:3-->
LXD is currently used for container infrastructure for [[Special:MyLanguage/Funtoo Containers|Funtoo Containers]] and is also very well-supported under Funtoo Linux. For this reason, it's recommended that you check out LXD and see what it can do for you.


== Basic Setup on Funtoo ==
== Basic Setup on Funtoo == <!--T:4-->


The following steps will show you how to set up a basic LXD environment under Funtoo Linux. This environment will essentially use the default LXD setup -- a will be created called {{c|lxdbr0}} which will use NAT to provide Internet access to your containers. In addition, a default storage pool will be created that will simply use your existing filesystem's storage, creating a directory at {{f|/var/lib/lxd/storage-pools/default}} to store any containers you create. More sophisticated configurations are possible that use dedicated network bridges connected to physical interfaces without NAT, as well as dedicated storage pools that use [[ZFS]] and [[BTRFS]] -- however, these types of configurations are generally overkill for a developer workstation and should only be attempted by advanced users. So we won't cover them here.
<!--T:5-->
The following steps will show you how to set up a basic LXD environment under Funtoo Linux. This environment will essentially use the default LXD setup -- a will be created called {{c|lxdbr0}} which will use NAT to provide Internet access to your containers. In addition, a default storage pool will be created that will simply use your existing filesystem's storage, creating a directory at {{f|/var/lib/lxd/storage-pools/default}} to store any containers you create. More sophisticated configurations are possible that use dedicated network bridges connected to physical interfaces without NAT, as well as dedicated storage pools that use [[Special:MyLanguage/ZFS|ZFS]] and [[Special:MyLanguage/btrfs|btrfs]] -- however, these types of configurations are generally overkill for a developer workstation and should only be attempted by advanced users. So we won't cover them here.


=== Requirements ===
=== Requirements === <!--T:6-->


<!--T:123-->
This section will guide you through setting up the basic requirements for creating an LXD environment.
This section will guide you through setting up the basic requirements for creating an LXD environment.


<!--T:8-->
The first step is to emerge LXD and its dependencies. Perform the following:
The first step is to emerge LXD and its dependencies. Perform the following:


</translate>
{{console|body=
{{console|body=
# ##i##emerge -a lxd
# ##i##emerge -a lxd
}}
}}
<translate>


<!--T:9-->
Once LXD is done emerging, we will want to enable it to start by default:
Once LXD is done emerging, we will want to enable it to start by default:


</translate>
{{console|body=
{{console|body=
# ##i##rc-update add lxd default
# ##i##rc-update add lxd default
}}
}}
<translate>


<!--T:10-->
In addition, we will want to set up the following files. {{f|/etc/security/limits.conf}} should be modified to have the following lines in it:
In addition, we will want to set up the following files. {{f|/etc/security/limits.conf}} should be modified to have the following lines in it:


</translate>
{{file|name=/etc/security/limits.conf|body=
{{file|name=/etc/security/limits.conf|body=
*      soft    nofile  1048576
*      soft    nofile  1048576
Line 38: Line 54:
# End of file
# End of file
}}
}}
<translate>


In addition, we will want to map a set of user ids and group ids to the root user so they are available for its use. Do this by creating the {{f|/etc/subuid}} and {{f|/etc/subgid}} files with the following identical contents:
<!--T:11-->
Next, we come to the concept of "subuid" and "subgid". Typically, a user will get one user id and one group id. Subids and subgids allow us to assign additional UIDs and GIDs to a user for their own uses. Per the documentation:


:If some but not all of /etc/subuid, /etc/subgid, newuidmap (path lookup) and newgidmap (path lookup) can be found on the system, LXD will fail the startup of any container until this is corrected as this shows a broken shadow setup.<ref>[https://documentation.ubuntu.com/lxd/en/latest/userns-idmap/#allowed-ranges]</ref>
As noted above, it is no longer true that LXD will allocate subuids for the root user in all cases.  A good default configuration (and what would be used if the conditions above were not met) is that given by the following files on the root filesystem:
</translate>
{{file|name=/etc/subuid|body=
root:1000000:1000000000
}}
<translate>
</translate>
{{file|name=/etc/subgid|body=
root:1000000:1000000000
}}
<translate>
<!--T:12-->
The format of both of these files are "user":"start":"count". Meaning that the {{c|root}} user will be allocated "count" IDs starting at the position "start". The reason why LXD does this is because
these extra IDs will be used to isolate containers from the host processes and optionally from each other, by using different offsets so that their UID and GIDs will not overlap. For some systems (those lacking `newuidmap` and `newgidmap`, according to the documentation), LXD 5 now
has these settings "baked in". For more information on subids and subgids, see [[LXD/What are subuids and subgids?|What are subuids and subgids?]].
==== LXD-in-LXD ==== <!--T:142-->
<!--T:143-->
After the initial setup, the only time you will now need to edit {{f|/etc/subuid}} and {{f|/etc/subgid}} now is if you are running "LXD-in-LXD". In this case, the inner LXD (within the container) will need to reduce these
subuid and subgid mappings as the full range will not be available. This should be possible by simply using the following settings within your containerized LXD instance:
</translate>
{{file|name=/etc/subuid|body=
{{file|name=/etc/subuid|body=
root:100000:1000000000
root:65537:70000
}}
}}
<translate>


</translate>
{{file|name=/etc/subgid|body=
{{file|name=/etc/subgid|body=
root:100000:1000000000
root:65537:70000
}}
<translate>
 
<!--T:144-->
If you are not using advanced features of LXD, your LXD-in-LXD instance should now have sufficient id mappings to isolate container-containers from the host-container. The only remaining
step for LXD-in-LXD would be to allow the host-container to nest:
 
<!--T:145-->
{{console|body=
# ##i##lxc config set host-container security.nesting true
}}
}}


At this point we are ready to initialize and start LXD.
<!--T:146-->
This will allow for host-container contain containers itself :)


=== Initialization ===
=== Initialization === <!--T:13-->


<!--T:14-->
To configure LXD, first we will need to start LXD. This can be done as follows:
To configure LXD, first we will need to start LXD. This can be done as follows:


</translate>
{{console|body=
{{console|body=
# ##i##/etc/init.d/lxd start
# ##i##/etc/init.d/lxd start
}}
}}
<translate>


<!--T:15-->
At this point, we can run {{c|lxd init}} to run a configuration wizard to set up LXD:
At this point, we can run {{c|lxd init}} to run a configuration wizard to set up LXD:


</translate>
{{console|body=
{{console|body=
# ##i##lxd init
# ##i##lxd init
Line 66: Line 130:
Do you want to configure a new storage pool? (yes/no) [default=yes]: ##i##↵
Do you want to configure a new storage pool? (yes/no) [default=yes]: ##i##↵
Name of the new storage pool [default=default]: ##i##↵
Name of the new storage pool [default=default]: ##i##↵
Name of the storage backend to use (btrfs, dir, lvm) [default=btrfs]: ##i##dir↵
Name of the storage backend to use (btrfs, dir, lvm) [default=btrfs]: ##i##dir ↵
Would you like to connect to a MAAS server? (yes/no) [default=no]: ##i##↵
Would you like to connect to a MAAS server? (yes/no) [default=no]: ##i##↵
Would you like to create a new local network bridge? (yes/no) [default=yes]: ##i##↵
Would you like to create a new local network bridge? (yes/no) [default=yes]: ##i##↵
What should the new bridge be called? [default=lxdbr0]: ##i##↵
What should the new bridge be called? [default=lxdbr0]: ##i##↵
What IPv4 address should be used? (CIDR subnet notation, “auto” or “none”) [default=auto]: ##i##↵
What IPv4 address should be used? (CIDR subnet notation, “auto” or “none”) [default=auto]: ##i##↵
What IPv6 address should be used? (CIDR subnet notation, “auto” or “none”) [default=auto]: ##i##↵
What IPv6 address should be used? (CIDR subnet notation, “auto” or “none”) [default=auto]: ##i##none
Would you like LXD to be available over the network? (yes/no) [default=no]: ##i##↵
Would you like LXD to be available over the network? (yes/no) [default=no]: ##i##↵
Would you like stale cached images to be updated automatically? (yes/no) [default=yes] ##i##↵
Would you like stale cached images to be updated automatically? (yes/no) [default=yes] ##i##↵
Would you like a YAML "lxd init" preseed to be printed? (yes/no) [default=no]: ##i##↵
Would you like a YAML "lxd init" preseed to be printed? (yes/no) [default=no]: ##i##↵
#
#
}}
<translate>
<!--T:16-->
As you can see, we chose all the default ''except'' for:
;storage pool: We opted for using a directory-based container storage rather than [[Special:MyLanguage/btrfs|btrfs]] volumes.  Directory-based may be the default option during LXD configuration -- it depends if you have btrfs-tools installed or not.
;IPv6 address: It is recommended you turn this off unless you are specifically wanting to play with IPv6 in your containers. It may cause {{c|dhcpcd}} in your container to only retrieve an IPv6 address if you leave it enabled. This is great if you have IPv6 working -- otherwise, you'll get a dud IPv6 address and no IPv4 address, and thus no network.
<!--T:125-->
{{Warning|As explained above, turn off IPv6 NAT in LXD unless you specifically intend to use it! It can confuse {{c|dhcpcd}}.}}
<!--T:126-->
If you choose to output the ''YAML lxd init preseed'' configuration from the {{c|lxd init}} command above, here is a config example:
<!--T:127-->
{{file|name=lxc_init_preseed.yaml|lang=YAML|desc=lxc init preseed config example|body=
config:
  images.auto_update_interval: "0"
networks:
- config:
    ipv4.address: auto
    ipv6.address: none
  description: ""
  name: lxdbr0
  type: ""
  project: default
storage_pools:
- config: {}
  description: ""
  name: default
  driver: dir
profiles:
- config: {}
  description: ""
  devices:
    eth0:
      name: eth0
      network: lxdbr0
      type: nic
    root:
      path: /
      pool: funtoo
      type: disk
  name: default
projects: []
cluster: null
}}
}}


As you can see, we chose all the default 'except' for storage pool, where we opted for using a directory-based container
<!--T:128-->
storage rather than [[BTRFS]]. Now, we should be able to run {{c|lxc image list}} and get a response from the LXD daemon:
Now, we should be able to run {{c|lxc image list}} and get a response from the LXD daemon:


</translate>
{{console|body=
{{console|body=
# ##i##lxc image list
# ##i##lxc image list
Line 88: Line 199:
#
#
}}
}}
 
<translate>
<!--T:18-->
If you are able to do this, you have successfully set up the core parts of LXD! Note that we used the command {{c|lxc}} and not {{c|lxd}} like we did for {{c|lxd init}} -- from this point forward, you will use the {{c|lxc}} command. Don't let this
If you are able to do this, you have successfully set up the core parts of LXD! Note that we used the command {{c|lxc}} and not {{c|lxd}} like we did for {{c|lxd init}} -- from this point forward, you will use the {{c|lxc}} command. Don't let this
confuse you -- the {{c|lxc}} command is the primary command-line tool for working with LXD containers.
confuse you -- the {{c|lxc}} command is the primary command-line tool for working with LXD containers.


<!--T:19-->
Above, you can see that no images are installed. Images are installable snapshots of containers that we can use to create new containers ourselves. So, as a first step, let's go ahead and grab an image we can use. You will want to browse https://build.funtoo.org for an LXD image that will work on your computer hardware. For example, I was able to download
Above, you can see that no images are installed. Images are installable snapshots of containers that we can use to create new containers ourselves. So, as a first step, let's go ahead and grab an image we can use. You will want to browse https://build.funtoo.org for an LXD image that will work on your computer hardware. For example, I was able to download
the following file using {{c|wget}}:
the following file using {{c|wget}}:


</translate>
{{console|body=
{{console|body=
# ##i##wget https://build.funtoo.org/1.3-release-std/x86-64bit/intel64-skylake/lxd-intel64-skylake-1.3-release-std-2019-06-11.tar.xz
# ##i##wget https://build.funtoo.org/1.4-release-std/x86-64bit/amd64-zen2/2022-04-13/lxd-amd64-zen2-1.4-release-std-2022-04-13.tar.xz
}}
}}
<translate>


<!--T:20-->
Once downloaded, this image can be installed using the following command:
Once downloaded, this image can be installed using the following command:
</translate>
{{console|body=
{{console|body=
# ##i##lxc image import lxd-intel64-skylake-1.3-release-std-2019-06-11.tar.xz --alias funtoo
# ##i##lxc image import lxd-amd64-zen2-1.4-release-std-2022-04-13.tar.xz --alias funtoo
Image imported with fingerprint: fe4d27fb31bfaf3bd4f470e0ea43d26a6c05991de2a504b9e0a3b1a266dddc69
Image imported with fingerprint: fe4d27fb31bfaf3bd4f470e0ea43d26a6c05991de2a504b9e0a3b1a266dddc69
}}
}}
<translate>


<!--T:21-->
Now you will see the image available in our image list:
Now you will see the image available in our image list:


</translate>
{{console|body=
{{console|body=
# ##i##lxc image list
# ##i##lxc image list
+--------+--------------+--------+--------------------------------------------+--------+----------+------------------------------+
+--------+--------------+--------+-----------------------------------------+--------------+-----------+----------+------------------------------+
{{!}} ALIAS  {{!}} FINGERPRINT  {{!}} PUBLIC {{!}}                DESCRIPTION                 {{!}}  ARCH  {{!}}   SIZE  {{!}}         UPLOAD DATE          {{!}}
| ALIAS  | FINGERPRINT  | PUBLIC |              DESCRIPTION               | ARCHITECTURE |  TYPE    |   SIZE  |         UPLOAD DATE          |
+--------+--------------+--------+--------------------------------------------+--------+----------+------------------------------+
+--------+--------------+--------+-----------------------------------------+--------------+-----------+----------+------------------------------+
{{!}} funtoo {{!}} fe4d27fb31bf {{!}} no    {{!}} 1.3 Release Skylake 64bit [std] 2019-06-14 {{!}} x86_64 {{!}} 279.35MB {{!}} Jun 15, 2019 at 3:09am (UTC) {{!}}
| funtoo | b8eaa7e30c14 | no    | 1.4 Release Zen2 64bit [std] 2022-04-13 | x86_64       | CONTAINER | 342.13MB | Apr 29, 2022 at 9:36pm (UTC) |
+--------+--------------+--------+--------------------------------------------+--------+----------+------------------------------+
+--------+--------------+--------+-----------------------------------------+--------------+-----------+----------+------------------------------+
#
#
}}
}}
<translate>


=== First Containeer ===
=== First Container === <!--T:24-->


<!--T:25-->
It is now time to launch our first container. This can be done as follows:
It is now time to launch our first container. This can be done as follows:


</translate>
{{console|body=
{{console|body=
# ##i##lxc launch funtoo testcontainer
# ##i##lxc launch funtoo testcontainer
Line 126: Line 249:
Starting testcontainer
Starting testcontainer
}}
}}
<translate>


<!--T:26-->
We can now see the container running via {{c|lxc list}}:
We can now see the container running via {{c|lxc list}}:


</translate>
{{console|body=
{{console|body=
# ##i##lxc list
# ##i##lxc list
+---------------+---------+------+-----------------------------------------------+------------+-----------+
+---------------+---------+------+-----------------------------------------------+------------+-----------+
{{!}}     NAME     {{!}}  STATE  {{!}} IPV4 {{!}}                    IPV6                      {{!}}    TYPE    {{!}} SNAPSHOTS {{!}}
{{!}} NAME         {{!}}  STATE  {{!}} IPV4 {{!}}                    IPV6                      {{!}}    TYPE    {{!}} SNAPSHOTS {{!}}
+---------------+---------+------+-----------------------------------------------+------------+-----------+
+---------------+---------+------+-----------------------------------------------+------------+-----------+
{{!}} testcontainer {{!}} RUNNING {{!}}      {{!}} fd42:8063:81cb:988c:216:3eff:fe2a:f901 (eth0) {{!}} PERSISTENT {{!}}          {{!}}
{{!}} testcontainer {{!}} RUNNING {{!}}      {{!}} fd42:8063:81cb:988c:216:3eff:fe2a:f901 (eth0) {{!}} PERSISTENT {{!}}          {{!}}
Line 138: Line 264:
#
#
}}
}}
 
<translate>
<!--T:29-->
By default, our new container {{c|testcontainer}} will use the default profile, which will connect an {{c|eth0}} interface in the container to NAT, and will also use our directory-based LXD storage pool. We can now enter the container as follows:
By default, our new container {{c|testcontainer}} will use the default profile, which will connect an {{c|eth0}} interface in the container to NAT, and will also use our directory-based LXD storage pool. We can now enter the container as follows:


</translate>
{{console|body=
{{console|body=
# ##i##lxc exec testcontainer -- su --login
# ##i##lxc exec testcontainer -- su --login
%testcontainer% #
%testcontainer%
}}
}}
<translate>


<!--T:30-->
As you might have noticed, we do not yet have any IPv4 networking configured. While LXD has set up a bridge and NAT for us, along with a DHCP server to query, we actually need to use {{c|dhcpcd}} to query for an IP address, so let's get that set up:
As you might have noticed, we do not yet have any IPv4 networking configured. While LXD has set up a bridge and NAT for us, along with a DHCP server to query, we actually need to use {{c|dhcpcd}} to query for an IP address, so let's get that set up:


</translate>
{{console|body=
{{console|body=
##r##testcontainer ##bl##~ # ##i##echo "template=dhcpcd" > /etc/conf.d/netif.eth0
%testcontainer% ##i##echo "template=dhcpcd" > /etc/conf.d/netif.eth0
##r##testcontainer ##bl##~ # ##i##cd /etc/init.d
%testcontainer% ##i##cd /etc/init.d
##r##testcontainer ##bl##/etc/init.d # ##i##ln -s netif.tmpl netif.eth0
%testcontainer% ##i##ln -s netif.tmpl netif.eth0
##r##testcontainer ##bl##/etc/init.d # ##i##rc-update add netif.eth0 default
%testcontainer% ##i##rc-update add netif.eth0 default
  * service netif.eth0 added to runlevel default
  * service netif.eth0 added to runlevel default
##r##testcontainer ##bl##/etc/init.d # ##i##rc
%testcontainer% ##i##rc
  * rc is deprecated, please use openrc instead.
  * rc is deprecated, please use openrc instead.
  * Caching service dependencies ...                            [ ##g##ok ##!g##]
  * Caching service dependencies ...                            [ ##g##ok ##!g##]
  * Starting DHCP Client Daemon ...                              [ ##g##ok ##!g##]
  * Starting DHCP Client Daemon ...                              [ ##g##ok ##!g##]
  * Network dhcpcd eth0 up ...                                  [ ##g##ok ##!g##]
  * Network dhcpcd eth0 up ...                                  [ ##g##ok ##!g##]
##r##testcontainer ##bl##/etc/init.d # ##i##
%testcontainer% ##i##
}}
}}
<translate>


<!--T:31-->
You can now see that {{c|eth0}} has a valid IPv4 address:
You can now see that {{c|eth0}} has a valid IPv4 address:


</translate>
{{console|body=
{{console|body=
# ##i##ifconfig
%testcontainer% ##i##ifconfig
eth0: flags=4163<UP,BROADCAST,RUNNING,MULTICAST>  mtu 1500
eth0: flags=4163<UP,BROADCAST,RUNNING,MULTICAST>  mtu 1500
         inet 10.212.194.17  netmask 255.255.255.0  broadcast 10.212.194.255
         inet 10.212.194.17  netmask 255.255.255.0  broadcast 10.212.194.255
Line 176: Line 310:
         TX errors 0  dropped 0 overruns 0  carrier 0  collisions 0
         TX errors 0  dropped 0 overruns 0  carrier 0  collisions 0
}}
}}
<translate>


Time to have some fun!
<!--T:129-->
 
What happened is that LXD set up a DHCP server for us (dnsmasq) running on our private container network, and automatically offers IP addresses to our containers. It also configured iptables for us to NAT the connection so that outbound Internet access should magically work.
{{console|body=
You should also be able to see this IPv4 address listed in the container list when you type {{c|lxc list}} on your host system.
# ##i##ego sync
}}
 
== Another Nice LXD Administration Tutorial ==
 
This section contains another nice LXD tutorial that can be used to learn more about profiles and other features of LXD.
 
=== Terminology ===
 
Container '''snapshots''' as the name states snapshots of the container in time and cannot be modified in any way. It is worth noting that because snapshots can store the container runtime state, which gives us ability of “stateful” snapshots. That is, the ability to rollback the container including its cpu and memory state at the time of the snapshot.
 
LXD is '''image''' based, all LXD containers come from an image. Images are typically clean Linux distribution images similar to what you would use for a virtual machine or cloud instance. It is possible to “publish” a container, making an image from it which can then be used by the local or remote LXD hosts.
 
=== Our first image ===
Let's get our hands even more dirty and create our first image. We will be using a generic 64 bit Funtoo Linux image.
 
{{note|The Funtoo's default build host is building only westmere stage for now.}}
 
Grab the image here:
https://build.funtoo.org/funtoo-current/x86-64bit/intel64-westmere/lxd-latest.tar.xz
 
Grab also the hash file:
https://build.funtoo.org/funtoo-current/x86-64bit/intel64-westmere/lxd-latest.tar.xz.hash.txt
 
{{tip|Check the hash of the downloaded file against the one from server. Proceed if they match. }}
 
==== Import the image ====
After we have successfully downloaded the archive we can now finally import it into LXD and start using it as our "seed" image for all our containers.
{{console|body=
###i## lxc image import lxd-latest.tar.xz --alias funtoo
Image imported with fingerprint: 6c2ca3af0222d503656f5a1838885f1b9b6aed2c1994f1d7ef94e2efcb7233c4
###i## lxc image ls
<nowiki>+--------+--------------+--------+------------------------------------+--------+----------+-----------------------------+
| ALIAS  | FINGERPRINT  | PUBLIC |            DESCRIPTION            |  ARCH  |  SIZE  |        UPLOAD DATE        |
+--------+--------------+--------+------------------------------------+--------+----------+-----------------------------+
| funtoo | 6c2ca3af0222 | no    | Funtoo Current Generic Pure 64-bit | x86_64 |227.99MB  | Dec 13, 2017 at 11:01pm (UTC) |
+--------+--------------+--------+------------------------------------+--------+----------+-----------------------------+
</nowiki>}}
And there we have our very first Funtoo Linux image imported inside LXD.  You can reference the image through the alias or through the fingerprint. Aliases can be added also later.
 
Let me show you some basic usage then.
 
=== Creating your first container ===
So now we can launch our first container. That is done using this command:
 
{{console|body=
###i## lxc launch funtoo fun-1
Creating fun-1
Starting fun-1
###i##  lxc ls
<nowiki>+-------+---------+------+-----------------------------------------------+------------+-----------+
| NAME  |  STATE  | IPV4 |                    IPV6                      |    TYPE    | SNAPSHOTS |
+-------+---------+------+-----------------------------------------------+------------+-----------+
| fun-1 | RUNNING |      | fd42:156d:4593:a619:216:3eff:fef7:c1c2 (eth0) | PERSISTENT | 0        |
+-------+---------+------+-----------------------------------------------+------------+-----------+
</nowiki>}}
 
{{tip|lxc launch is a shortcut for lxc init and lxc start, lxc init creates the container without starting it. }}
 
==== Profiles intermezzo ====
LXD has the ability to change quite a few container settings, including resource limitation, control of container startup and a variety of device pass-through options using what is called profiles. Multiple profiles can be applied to a single container, and the last profile overrides the other ones it the resources being configured is the same for multiple profiles. Let me show you how can this be used.
 
This is the default profile that gets inherited by all containers.
{{console|body=
###i## lxc profile list
<nowiki>+---------+---------+
|  NAME  | USED BY |
+---------+---------+
| default | 1      |
+---------+---------+
</nowiki>
###i##  lxc profile show default
config: {}
description: Default LXD profile
devices:
  eth0:
    nictype: bridged
    parent: lxdbr0
    type: nic
  root:
    path: /
    pool: default
    type: disk
name: default
used_by:
- /1.0/containers/fun-1
}}
 
Now let's edit this profile for our funtoo containers. It will include some useful stuff.
 
{{console|body=
###i## lxc profile set default raw.lxc "lxc.mount.entry = none dev/shm tmpfs rw,nosuid,nodev,create=dir"
###i## lxc profile set default environment.LANG "en_US.UTF-8"
###i## lxc profile set default environment.LC_ALL "en_US.UTF-8"
###i## lxc profile set default environment.LC_COLLATE "POSIX"
}}
 
Profiles can store any configuration that a container can (key/value or devices) and any number of profiles can be applied to a container. Profiles are applied in the order they are specified so the last profile to specify a specific key wins. In any case, resource-specific configuration always overrides that coming from the profiles.
 
The default profile is set for any new container created which doesn't specify a different profiles list.
 
{{note|LXD supports simple instance types. Those are represented as a string which can be passed at container creation time. [https://github.com/lxc/lxd/blob/master/doc/containers.md#instance-types containers.md#instance-types]}}
 
=== Using our first container ===
After we have done all these customizations we can now start using our container.
The next command will give us shell inside the container.
 
{{console|body=
###i## lxc exec fun-1 bash
}}


Now you should see a different prompt starting with
=== Network Troubleshooting === <!--T:130-->


{{console|body=
<!--T:131-->
fun-1 ~ #
{{warning|Proceed with caution. These are advanced LXC commands that can modify the state of your LXD local network setup. In extreme scenarios, all of your LXD containers' networks NAT routing can easily break all if the wrong LXC config key value is changed}}
}}


If we run top or ps for example we will see only the processes of the container.
<!--T:132-->
Note that if you are having issues with your container getting an IPv4 address via DHCP, make sure that you turn IPv6 off in LXD. Do this
by running:


<!--T:133-->
{{console|body=
{{console|body=
fun-1 ~ # ps aux
###i## lxc network edit lxdbr0
USER      PID %CPU %MEM    VSZ  RSS TTY      STAT START  TIME COMMAND
root        1  0.0  0.0  4248  748 ?        Ss+  13:20  0:00 init [3]
root      266  0.0  0.0  30488  472 ?        Ss  13:20  0:00 /usr/sbin/sshd
root      312  0.2  0.0  17996  3416 ?        Ss  13:29  0:00 bash
root      317  0.0  0.0  19200  2260 ?        R+  13:29  0:00 ps aux
}}
}}


As you can see only the container's processes are shown. User running the processes is root here. What happens if we search for all sshd processes for example on the host box?
<!--T:134-->
Then, change {{c|ipv6.nat}} YAML key value to {{c|"false"}} and restart LXD and the test container:


<!--T:135-->
{{console|body=
{{console|body=
###i## <nowiki>ps aux|grep ssh
###i## /etc/init.d/lxd restart
root    14505  0.0  0.0  30564  1508 ?        Ss  Sep07  0:00 /usr/sbin/sshd 
###i## lxc restart testcontainer
100000  25863  0.0  0.0  30488  472 ?        Ss  15:20  0:00 /usr/sbin/sshd 
root    29487  0.0  0.0  8324  828 pts/2    S+  15:30  0:00 grep --colour=auto sshd</nowiki>
###i##
}}
}}


So as you can see, the sshd process is running under user with uid 100000 on the host machine and has a different PID.
<!--T:136-->
This should resolve the issue.


=== Basic actions with containers ===
<!--T:137-->
==== Listing containers ====
{{important|If you have initialized your LXD cluster by turning off IPv6 with the ''What IPv6 address should be used?'' option set to {{c|none}}, then the {{c|ipv6.nat}} will not even be present in our LXC local network's {{c|lxdbr0}} bridge interface.
{{console|body=
###i##  lxc ls
<nowiki>+-------+---------+-----------------------+------------------------------------------------+------------+-----------+
| NAME  | STATE  |        IPV4          |                     IPV6                      |    TYPE    | SNAPSHOTS |
+-------+---------+-----------------------+------------------------------------------------+------------+-----------+
| fun-1 | RUNNING | 10.214.101.187 (eth0) | fd42:156d:4593:a619:a5ad:edaf:7270:e6c4 (eth0) | PERSISTENT | 0        |
|      |        |                      | fd42:156d:4593:a619:216:3eff:fef7:c1c2 (eth0)  |            |          |
+-------+---------+-----------------------+------------------------------------------------+------------+-----------+
</nowiki>}}
lxc ls also accepts arguments as filters. For example lxc ls web will list all containers that have web in their name.


==== Container details ====
<!--T:138-->
{{console|body=
Be careful not to tamper with the {{c|ipv4.nat}} setting or all LXD container NAT routing will break, meaning no network traffic within running and new LXD containers will be able to route to external to the Internet!}}
###i## lxc info c1
Name: c1
Remote: unix://
Architecture: x86_64
Created: 2017/09/08 02:07 UTC
Status: Running
Type: persistent
Profiles: default, prf-funtoo
Pid: 6366
Ips:
  eth0: inet    10.214.101.79  vethFG4HXG
  eth0: inet6  fd42:156d:4593:a619:8619:546e:43f:2089  vethFG4HXG
  eth0: inet6  fd42:156d:4593:a619:216:3eff:fe4a:3d4f  vethFG4HXG
  eth0: inet6  fe80::216:3eff:fe4a:3d4f        vethFG4HXG
  lo:  inet    127.0.0.1
  lo:  inet6  ::1
Resources:
  Processes: 6
  CPU usage:
    CPU usage (in seconds): 25
  Memory usage:
    Memory (current): 69.01MB
    Memory (peak): 258.92MB
  Network usage:
    eth0:
      Bytes received: 83.65kB
      Bytes sent: 9.44kB
      Packets received: 188
      Packets sent: 93
    lo:
      Bytes received: 0B
      Bytes sent: 0B
      Packets received: 0
      Packets sent: 0
}}


==== Container configuration ====
<!--T:139-->
{{console|body=
Here is some example YAML of a default {{c|lxdbr0}} LXC local network bridge device for reference:
###i##  lxc config edit c1
### This is a yaml representation of the configuration.
### Any line starting with a '# will be ignored.
###
### A sample configuration looks like:
### name: container1
### profiles:
### - default
### config:
###  volatile.eth0.hwaddr: 00:16:3e:e9:f8:7f
### devices:
###  homedir:
###    path: /extra
###    source: /home/user
###    type: disk
### ephemeral: false
###
### Note that the name is shown but cannot be changed


architecture: x86_64
<!--T:140-->
{{file|name=lxc_lxdbr0.yaml|lang=YAML|desc=lxc network edit lxdbr0|body=
config:
config:
   image.architecture: x86_64
   ipv4.address: 10.239.139.1/24
  image.description: Funtoo Current Generic Pure 64-bit
   ipv4.nat: "true"
  image.name: funtoo-generic_64-pure64-funtoo-current-2016-12-10
   ipv6.address: none
  image.os: funtoo
  image.release: "1.0"
  image.variant: current
  volatile.base_image: e279c16d1a801b2bd1698df95e148e0a968846835f4769b24988f2eb3700100f
  volatile.eth0.hwaddr: 00:16:3e:4a:3d:4f
  volatile.eth0.name: eth0
  volatile.idmap.base: "0"
  volatile.idmap.next: '[{"Isuid":true,"Isgid":false,"Hostid":100000,"Nsid":0,"Maprange":65536},{"Isuid":false,"Isgid":true,"Hostid":100000,"Nsid":0,"Maprange":65536}]'
   volatile.last_state.idmap: '[{"Isuid":true,"Isgid":false,"Hostid":100000,"Nsid":0,"Maprange":65536},{"Isuid":false,"Isgid":true,"Hostid":100000,"Nsid":0,"Maprange":65536}]'
   volatile.last_state.power: RUNNING
devices: {}
ephemeral: false
profiles:
- default
- prf-funtoo
stateful: false
description: ""
description: ""
name: lxdbr0
type: bridge
used_by:
- /1.0/profiles/default
- /1.0/instances/funtoo-livestream
managed: true
status: Created
locations:
- none
}}
}}


One can also add environment variables.
=== Container Console setup === <!--T:130-->
{{console|body=
###i## lxc config set <container> environment.LANG en_US.UTF-8
###i## lxc config set <container> environment.LC_COLLATE POSIX
}}
 
=== Managing files ===
 
=== Snapshots ===
 
=== Cloning, copying and moving containers ===
 
=== Resource control ===
LXD offers a variety of resource limits. Some of those are tied to the container itself, like memory quotas, CPU limits and I/O priorities. Some are tied to a particular device instead, like I/O bandwidth or disk usage limits.
 
As with all LXD configuration, resource limits can be dynamically changed while the container is running. Some may fail to apply, for example if setting a memory value smaller than the current memory usage, but LXD will try anyway and report back on failure.
 
All limits can also be inherited through profiles in which case each affected container will be constrained by that limit. That is, if you set limits.memory=256MB in the default profile, every container using the default profile (typically all of them) will have a memory limit of 256MB.
 
==== Disk ====
Setting a size limit on the container’s filesystem and have it enforced against the container. Right now LXD only supports disk limits if you’re using the ZFS or btrfs storage backend.
 
To set a disk limit (requires btrfs or ZFS):
 
{{console|body=
###i## lxc config device set c1 root size 20GB
}}
 
==== CPU ====
To just limit a container to any 2 CPUs, do:
 
{{console|body=
###i## lxc config set c1 limits.cpu 2
}}
 
To pin to specific CPU cores, say the second and fourth:
 
{{console|body=
###i## lxc config set c1 limits.cpu 1,3
}}


More complex pinning ranges like this works too:
LXD containers are created with a special `/dev` where there is only one tty console `/dev/console` that could be used to see bootstrap phase or to enter in the container from the container console.


{{console|body=
This could be done in two way:
###i## lxc config set c1 limits.cpu 0-3,7-11
}}


==== Memory ====
* on launch phase:
To apply a straightforward memory limit run:


<!--T:133-->
{{console|body=
{{console|body=
###i## lxc config set c1 limits.memory 256MB
###i## lxc launch -p default -p net macaroni:funtoo/next-stage3 testcontainer -e  --console
}}
}}


(The supported suffixes are kB, MB, GB, TB, PB and EB)
* through the `lxc console` command:
 
To turn swap off for the container (defaults to enabled):


<!--T:133-->
{{console|body=
{{console|body=
###i## lxc config set c1 limits.memory.swap false
###i## lxc console testcontainer
}}
}}
To tell the kernel to swap this container’s memory first:


{{console|body=
To use correctly this feature is needed setup correctly the `/etc/inittab` file and disable the standard c* entries:
###i## lxc config set c1 limits.memory.swap.priority 0
}}
And finally if you don’t want hard memory limit enforcement:


<!--T:133-->
{{console|body=
{{console|body=
###i## lxc config set c1 limits.memory.enforce soft
###i## sed -i /etc/inittab <nowiki>-e 's|^#x1|x1|g' -e '/^c[0-9].*/d'</nowiki>
}}
}}


==== Network ====
The images exposed over the Simplestreams Server of Funtoo Macaroni are already configured correctly and ready to use.
==== Block I/O ====
 
=== Resource limits using profile - Funtoo Containers example ===
So I am going to create 3 profiles to mimic the resource limits for current Funtoo Containers.
 
{{TableStart}}
<tr class="danger"><th>Price</th><th>RAM</th><th>CPU Threads</th><th>Disk Space</th><th>Sign Up</th></tr>
<tr><td>'''$15/mo'''</td><td>4GB</td><td>6 CPU Threads</td><td>50GB</td><td>[https://funtoo.chargebee.com/hosted_pages/plans/container_small Sign Up! (small)]</td></tr>
<tr><td>'''$30/mo'''</td><td>12GB</td><td>12 CPU Threads</td><td>100GB</td><td>[https://funtoo.chargebee.com/hosted_pages/plans/container_medium Sign Up! (medium)]</td></tr>
<tr><td>'''$45/mo'''</td><td>48GB</td><td>24 CPU Threads</td><td>200GB</td><td>[https://funtoo.chargebee.com/hosted_pages/plans/container_large Sign Up! (large)]</td></tr>
{{TableEnd}}


I am going to create one profile and copy/edit it for the remaining two options.
=== Finishing Steps === <!--T:141-->


<!--T:32-->
Assuming your network is now working, you are ready to start using your new Funtoo container. Time to have some fun! Go ahead and run {{c|ego sync}} and then emerge your favorite things:
</translate>
{{console|body=
{{console|body=
###i## lxc profile create res-small
%testcontainer% ##i##ego sync
###i## lxc profile edit res-small
\##g##Syncing meta-repo
config:
Cloning into '/var/git/meta-repo'...
  limits.cpu: "6"
  limits.memory: 4GB
description: Small Variant of Funtoo Containers
devices:
  root:
    path: /
    pool: default
    size: 50GB
    type: disk
name: small
used_by: []
###i## lxc profile copy res-small res-medium
###i## lxc profile copy res-small res-large
###i## lxc profile set res-medium limits.cpu 12
###i## lxc profile set res-medium limits.memory 12GB
###i## lxc profile device set res-medium root size 100GB
###i## lxc profile set res-large limits.cpu 24
###i## lxc profile set res-large limits.memory 48GB
###i## lxc profile device set res-large root size 200GB
}}
Now let's create a container and assign the res-small and funtoo profiles to it.
{{console|body=
###i## lxc init funtoo c-small
###i## lxc profile assign c-small res-small
###i## lxc profile add c-small funtoo
}}
 
=== Image manipulations ===
 
=== Remote hosts ===
 
== Running systemd container on a non-systemd host ==
To use systemd in the container, a recent enough (>=4.6) kernel version with support for cgroup namespaces is needed. Funtoo's openrc has the fix to mount systemd cgroups, which is sufficient to run systemd based distributions lxd containers.  


If you want to get <code>systemd</code> hierarchy mounted automatically on system startup, using <code>/etc/fstab</code> will not work, but the
{{Package|dev-libs/libcgroup}} can be used for this. First you needed to edit the <code>/etc/cgroup/cgconfig.conf</code> and add:
{{file|name=/etc/cgroup/cgconfig.conf|body=mount {
    "name=systemd" = /sys/fs/cgroup/systemd;
}
}}
Then you need to start the cgconfig daemon:
{{console|body=
###i## rc-service cgconfig start
}}
The daemon can be started as needed, or automatically at system start by simply adding it to default group:
{{console|body=
###i## rc-update add cgconfig default
}}
}}
 
<translate>
<hr>
<!--T:121-->
<hr>
[[Category:Containers]]
 
[[Category:LXD]]
== [[LXD/LXD in LXD|PART X - LXD in LXD]] ==
== [[LXD/Docker in LXD|PART Y - Docker in LXD]] ==
 
== [[LXD/FAQ|PART Z - LXD FAQ]] ==
 
== List of tested and working images ==
These are images from the https://images.linuxcontainers.org repository available by default in lxd. You can
list all available images by typing following command (beware the list is very long):
{{console|body=
###i## lxc image list images:
<nowiki>+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
|              ALIAS              | FINGERPRINT  | PUBLIC |              DESCRIPTION                |  ARCH  |  SIZE  |          UPLOAD DATE          |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
| alpine/3.3 (3 more)            | ef69c8dc37f6 | yes    | Alpine 3.3 amd64 (20171018_17:50)        | x86_64  | 2.00MB  | Oct 18, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
| alpine/3.3/armhf (1 more)      | 5ce4c80edcf3 | yes    | Alpine 3.3 armhf (20170103_17:50)        | armv7l  | 1.53MB  | Jan 3, 2017 at 12:00am (UTC)  |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
| alpine/3.3/i386 (1 more)        | cd1700cb7c97 | yes    | Alpine 3.3 i386 (20171018_17:50)        | i686    | 1.84MB  | Oct 18, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
| alpine/3.4 (3 more)            | bd4f1ccfabb5 | yes    | Alpine 3.4 amd64 (20171018_17:50)        | x86_64  | 2.04MB  | Oct 18, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
| alpine/3.4/armhf (1 more)      | 9fe7c201924c | yes    | Alpine 3.4 armhf (20170111_20:27)        | armv7l  | 1.58MB  | Jan 11, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
| alpine/3.4/i386 (1 more)        | 188a31315773 | yes    | Alpine 3.4 i386 (20171018_17:50)        | i686    | 1.88MB  | Oct 18, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
| alpine/3.5 (3 more)            | 63bebc672163 | yes    | Alpine 3.5 amd64 (20171018_17:50)        | x86_64  | 1.70MB  | Oct 18, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
| alpine/3.5/i386 (1 more)        | 48045e297515 | yes    | Alpine 3.5 i386 (20171018_17:50)        | i686    | 1.73MB  | Oct 18, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
...
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
|                                | fd95a7a754a0 | yes    | Alpine 3.5 amd64 (20171016_17:50)        | x86_64  | 1.70MB  | Oct 16, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
|                                | fef66668f5a2 | yes    | Debian stretch arm64 (20171016_22:42)    | aarch64 | 96.56MB  | Oct 16, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
|                                | ff18aa2c11d7 | yes    | Opensuse 42.3 amd64 (20171017_00:53)    | x86_64  | 58.92MB  | Oct 17, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
|                                | ff4ef0d824b6 | yes    | Ubuntu zesty s390x (20171017_03:49)      | s390x  | 86.88MB  | Oct 17, 2017 at 12:00am (UTC) |
+---------------------------------+--------------+--------+------------------------------------------+---------+----------+-------------------------------+
</nowiki>}}
 
These are the images that are known to work with current LXD setup on Funtoo Linux:
{| class="wikitable sortable"
|-
! Image  !! Init !! Status
|-
| CentOS 7 || systemd || Working
|-
| Debian Jessie (8) - EOL  April/May 2020|| systemd || Working (systemd - no failed units)
|-
| Debian Stretch (9) - EOL June 2022|| systemd || Working
|-
| Fedora 26 || systemd with cgroup v2|| Not Working
|-
| Fedora 25 || systemd || Working
|-
| Fedora 24 || systemd || Working
|-
| Oracle 7 || systemd || Working (systemd - no failed units)
|-
| OpenSUSE 42.2 || systemd || Working
|-
| OpenSUSE 42.3 || systemd || Working
|-
| Ubuntu Xenial (16.04 LTS) - EOL 2021-04 || systemd || Working
|-
| Ubuntu Zesty (17.04) - EOL 2018-01 || systemd || Working
|-
| Alpine 3.3 || OpenRC || Working
|-
| Alpine 3.4 || OpenRC || Working
|-
| Alpine 3.5 || OpenRC || Working
|-
| Alpine 3.6 || OpenRC || Working
|-
| Alpine Edge || OpenRC || Working
|-
| Archlinux || systemd with cgroup v2 || Not Working
|-
| CentOS 6 || upstart || Working (systemd - no failed units)
|-
| Debian Buster || systemd with cgroup v2 || Not Working
|-
| Debian Sid || systemd with cgroup v2 || Not working
|-
| Debian Wheezy (7) - EOL May 2018 || ? || ? (more testing needed)
|-
| Gentoo || OpenRC || Working (all services started)
|-
| Oracle 6 || upstart || ? (mount outputs nothing)
|-
| Plamo 5 || ? || ?
|-
| Plamo 6 || ? || ?
|-
| Sabayon || systemd with cgroup v2 || Not Working
|-
| Ubuntu Artful (17.10) - EOL 2018-07|| systemd with cgroup v2 || Not Working
|-
| Ubuntu Core 16 || ? || ?
|-
| Ubuntu Trusty (14.04 LTS) - EOL 2019-04 || upstart || Working
|}
 
== Features ==
 
Some of the biggest features of LXD are:
 
* Secure by design (unprivileged containers, resource restrictions and much more)
* Scalable (from containers on your laptop to thousand of compute nodes)
* Intuitive (simple, clear API and crisp command line experience)
* Image based (no more distribution templates, only good, trusted images)
* Live migration
 
==== Unprivileged Containers ====
 
LXD uses unprivileged containers by default. The difference between an unprivileged container and a privileged one is whether the root user in the container is the “real” root user (uid 0 at the kernel level).
 
The way unprivileged containers are created is by taking a set of normal UIDs and GIDs from the host, usually at least 65536 of each (to be POSIX compliant) and mapping those into the container.
 
The most common example and what most LXD users will end up with by default is a map of 65536 UIDs and GIDs, with a host base id of 100000. This means that root in the container (uid 0) will be mapped to the host uid 100000 and uid 65535 in the container will be mapped to uid 165535 on the host. UID/GID 65536 and higher in the container aren’t mapped and will return an error if you attempt to use them.
 
From a security point of view, that means that anything which is not owned by the users and groups mapped into the container will be inaccessible. Any such resource will show up as being owned by uid/gid “-1” (rendered as 65534 or nobody/nogroup in userspace). It also means that should there be a way to escape the container, even root in the container would find itself with just as much privileges on the host as a nobody user.
 
LXD does offer a number of options related to unprivileged configuration:
 
* Increasing the size of the default uid/gid map
* Setting up per-container maps
* Punching holes into the map to expose host users and groups
 
=== Relationship with LXC ===
LXD isn't a rewrite of LXC, in fact it's building on top of LXC to provide a new, better user experience. Under the hood, LXD uses LXC through liblxc and its Go binding
to create and manage the containers.
 
It's basically an alternative to LXC's tools and distribution template system with the added features that come from being controllable over the network.
 
[[Category:Virtualization]]
[[Category:Official Documentation]]
[[Category:Official Documentation]]
[[Category:First Steps]]
</translate>

Latest revision as of 20:56, February 17, 2024

Other languages:

Introduction

   Important

Please note that if you plan to use LXD on a laptop, you are likely using WiFi and NetworkManager, and the steps below will not work for you bridge setup. Please see LXD/Laptop Network Setup for important differences to allow you to use LXD in 'dev mode' for local use of containers for development.

LXD is a container "hypervisor" designed to provide an easy set of tools to manage Linux containers, and its development is currently being led by employees at Canonical. You can learn more about the project in general at https://linuxcontainers.org/lxd/.

LXD is currently used for container infrastructure for Funtoo Containers and is also very well-supported under Funtoo Linux. For this reason, it's recommended that you check out LXD and see what it can do for you.

Basic Setup on Funtoo

The following steps will show you how to set up a basic LXD environment under Funtoo Linux. This environment will essentially use the default LXD setup -- a will be created called lxdbr0 which will use NAT to provide Internet access to your containers. In addition, a default storage pool will be created that will simply use your existing filesystem's storage, creating a directory at /var/lib/lxd/storage-pools/default to store any containers you create. More sophisticated configurations are possible that use dedicated network bridges connected to physical interfaces without NAT, as well as dedicated storage pools that use ZFS and btrfs -- however, these types of configurations are generally overkill for a developer workstation and should only be attempted by advanced users. So we won't cover them here.

Requirements

This section will guide you through setting up the basic requirements for creating an LXD environment.

The first step is to emerge LXD and its dependencies. Perform the following:

root # emerge -a lxd

Once LXD is done emerging, we will want to enable it to start by default:

root # rc-update add lxd default

In addition, we will want to set up the following files. /etc/security/limits.conf should be modified to have the following lines in it:

   /etc/security/limits.conf
*       soft    nofile  1048576
*       hard    nofile  1048576
root    soft    nofile  1048576
root    hard    nofile  1048576
*       soft    memlock unlimited
*       hard    memlock unlimited
# End of file

Next, we come to the concept of "subuid" and "subgid". Typically, a user will get one user id and one group id. Subids and subgids allow us to assign additional UIDs and GIDs to a user for their own uses. Per the documentation:

If some but not all of /etc/subuid, /etc/subgid, newuidmap (path lookup) and newgidmap (path lookup) can be found on the system, LXD will fail the startup of any container until this is corrected as this shows a broken shadow setup.[1]

As noted above, it is no longer true that LXD will allocate subuids for the root user in all cases. A good default configuration (and what would be used if the conditions above were not met) is that given by the following files on the root filesystem:

   /etc/subuid
root:1000000:1000000000
   /etc/subgid
root:1000000:1000000000

The format of both of these files are "user":"start":"count". Meaning that the root user will be allocated "count" IDs starting at the position "start". The reason why LXD does this is because these extra IDs will be used to isolate containers from the host processes and optionally from each other, by using different offsets so that their UID and GIDs will not overlap. For some systems (those lacking `newuidmap` and `newgidmap`, according to the documentation), LXD 5 now has these settings "baked in". For more information on subids and subgids, see What are subuids and subgids?.

LXD-in-LXD

After the initial setup, the only time you will now need to edit /etc/subuid and /etc/subgid now is if you are running "LXD-in-LXD". In this case, the inner LXD (within the container) will need to reduce these subuid and subgid mappings as the full range will not be available. This should be possible by simply using the following settings within your containerized LXD instance:

   /etc/subuid
root:65537:70000
   /etc/subgid
root:65537:70000

If you are not using advanced features of LXD, your LXD-in-LXD instance should now have sufficient id mappings to isolate container-containers from the host-container. The only remaining step for LXD-in-LXD would be to allow the host-container to nest:

root # lxc config set host-container security.nesting true

This will allow for host-container contain containers itself :)

Initialization

To configure LXD, first we will need to start LXD. This can be done as follows:

root # /etc/init.d/lxd start

At this point, we can run lxd init to run a configuration wizard to set up LXD:

root # lxd init
Would you like to use LXD clustering? (yes/no) [default=no]: 
Do you want to configure a new storage pool? (yes/no) [default=yes]: 
Name of the new storage pool [default=default]: 
Name of the storage backend to use (btrfs, dir, lvm) [default=btrfs]: dir ↵
Would you like to connect to a MAAS server? (yes/no) [default=no]: 
Would you like to create a new local network bridge? (yes/no) [default=yes]: 
What should the new bridge be called? [default=lxdbr0]: 
What IPv4 address should be used? (CIDR subnet notation, “auto” or “none”) [default=auto]: 
What IPv6 address should be used? (CIDR subnet notation, “auto” or “none”) [default=auto]: none ↵
Would you like LXD to be available over the network? (yes/no) [default=no]: 
Would you like stale cached images to be updated automatically? (yes/no) [default=yes] 
Would you like a YAML "lxd init" preseed to be printed? (yes/no) [default=no]: 
root #

As you can see, we chose all the default except for:

storage pool
We opted for using a directory-based container storage rather than btrfs volumes. Directory-based may be the default option during LXD configuration -- it depends if you have btrfs-tools installed or not.
IPv6 address
It is recommended you turn this off unless you are specifically wanting to play with IPv6 in your containers. It may cause dhcpcd in your container to only retrieve an IPv6 address if you leave it enabled. This is great if you have IPv6 working -- otherwise, you'll get a dud IPv6 address and no IPv4 address, and thus no network.
   Warning

As explained above, turn off IPv6 NAT in LXD unless you specifically intend to use it! It can confuse dhcpcd.

If you choose to output the YAML lxd init preseed configuration from the lxd init command above, here is a config example:

   lxc_init_preseed.yaml (YAML source code) - lxc init preseed config example
config:
  images.auto_update_interval: "0"
networks:
- config:
    ipv4.address: auto
    ipv6.address: none
  description: ""
  name: lxdbr0
  type: ""
  project: default
storage_pools:
- config: {}
  description: ""
  name: default
  driver: dir
profiles:
- config: {}
  description: ""
  devices:
    eth0:
      name: eth0
      network: lxdbr0
      type: nic
    root:
      path: /
      pool: funtoo
      type: disk
  name: default
projects: []
cluster: null

Now, we should be able to run lxc image list and get a response from the LXD daemon:

root # lxc image list
+-------+-------------+--------+-------------+------+------+-------------+
| ALIAS | FINGERPRINT | PUBLIC | DESCRIPTION | ARCH | SIZE | UPLOAD DATE |
+-------+-------------+--------+-------------+------+------+-------------+
root #

If you are able to do this, you have successfully set up the core parts of LXD! Note that we used the command lxc and not lxd like we did for lxd init -- from this point forward, you will use the lxc command. Don't let this confuse you -- the lxc command is the primary command-line tool for working with LXD containers.

Above, you can see that no images are installed. Images are installable snapshots of containers that we can use to create new containers ourselves. So, as a first step, let's go ahead and grab an image we can use. You will want to browse https://build.funtoo.org for an LXD image that will work on your computer hardware. For example, I was able to download the following file using wget:

root # wget https://build.funtoo.org/1.4-release-std/x86-64bit/amd64-zen2/2022-04-13/lxd-amd64-zen2-1.4-release-std-2022-04-13.tar.xz

Once downloaded, this image can be installed using the following command:

root # lxc image import lxd-amd64-zen2-1.4-release-std-2022-04-13.tar.xz --alias funtoo
Image imported with fingerprint: fe4d27fb31bfaf3bd4f470e0ea43d26a6c05991de2a504b9e0a3b1a266dddc69

Now you will see the image available in our image list:

root # lxc image list
+--------+--------------+--------+-----------------------------------------+--------------+-----------+----------+------------------------------+

First Container

It is now time to launch our first container. This can be done as follows:

root # lxc launch funtoo testcontainer
Creating testcontainer
Starting testcontainer

We can now see the container running via lxc list:

root # lxc list
+---------------+---------+------+-----------------------------------------------+------------+-----------+
| NAME          |  STATE  | IPV4 |                     IPV6                      |    TYPE    | SNAPSHOTS |
+---------------+---------+------+-----------------------------------------------+------------+-----------+
| testcontainer | RUNNING |      | fd42:8063:81cb:988c:216:3eff:fe2a:f901 (eth0) | PERSISTENT |           |
+---------------+---------+------+-----------------------------------------------+------------+-----------+
root #

By default, our new container testcontainer will use the default profile, which will connect an eth0 interface in the container to NAT, and will also use our directory-based LXD storage pool. We can now enter the container as follows:

root # lxc exec testcontainer -- su --login
testcontainer #

As you might have noticed, we do not yet have any IPv4 networking configured. While LXD has set up a bridge and NAT for us, along with a DHCP server to query, we actually need to use dhcpcd to query for an IP address, so let's get that set up:

testcontainer # echo "template=dhcpcd" > /etc/conf.d/netif.eth0
testcontainer # cd /etc/init.d
testcontainer # ln -s netif.tmpl netif.eth0
testcontainer # rc-update add netif.eth0 default
 * service netif.eth0 added to runlevel default
testcontainer # rc
 * rc is deprecated, please use openrc instead.
 * Caching service dependencies ...                             [ ok ]
 * Starting DHCP Client Daemon ...                              [ ok ]
 * Network dhcpcd eth0 up ...                                   [ ok ]
testcontainer # 

You can now see that eth0 has a valid IPv4 address:

testcontainer # ifconfig
eth0: flags=4163<UP,BROADCAST,RUNNING,MULTICAST>  mtu 1500
        inet 10.212.194.17  netmask 255.255.255.0  broadcast 10.212.194.255
        inet6 fd42:8063:81cb:988c:25ea:b5bd:603d:8b0d  prefixlen 64  scopeid 0x0<global>
        inet6 fe80::216:3eff:fe2a:f901  prefixlen 64  scopeid 0x20<link>
        ether 00:16:3e:2a:f9:01  txqueuelen 1000  (Ethernet)
        RX packets 45  bytes 5385 (5.2 KiB)
        RX errors 0  dropped 0  overruns 0  frame 0
        TX packets 20  bytes 2232 (2.1 KiB)
        TX errors 0  dropped 0 overruns 0  carrier 0  collisions 0

What happened is that LXD set up a DHCP server for us (dnsmasq) running on our private container network, and automatically offers IP addresses to our containers. It also configured iptables for us to NAT the connection so that outbound Internet access should magically work. You should also be able to see this IPv4 address listed in the container list when you type lxc list on your host system.

Network Troubleshooting

   Warning

Proceed with caution. These are advanced LXC commands that can modify the state of your LXD local network setup. In extreme scenarios, all of your LXD containers' networks NAT routing can easily break all if the wrong LXC config key value is changed

Note that if you are having issues with your container getting an IPv4 address via DHCP, make sure that you turn IPv6 off in LXD. Do this by running:

root # lxc network edit lxdbr0

Then, change ipv6.nat YAML key value to "false" and restart LXD and the test container:

root # /etc/init.d/lxd restart
root # lxc restart testcontainer

This should resolve the issue.

   Important

If you have initialized your LXD cluster by turning off IPv6 with the What IPv6 address should be used? option set to none, then the ipv6.nat will not even be present in our LXC local network's lxdbr0 bridge interface.

Be careful not to tamper with the ipv4.nat setting or all LXD container NAT routing will break, meaning no network traffic within running and new LXD containers will be able to route to external to the Internet!

Here is some example YAML of a default lxdbr0 LXC local network bridge device for reference:

   lxc_lxdbr0.yaml (YAML source code) - lxc network edit lxdbr0
config:
  ipv4.address: 10.239.139.1/24
  ipv4.nat: "true"
  ipv6.address: none
description: ""
name: lxdbr0
type: bridge
used_by:
- /1.0/profiles/default
- /1.0/instances/funtoo-livestream
managed: true
status: Created
locations:
- none

Container Console setup

LXD containers are created with a special `/dev` where there is only one tty console `/dev/console` that could be used to see bootstrap phase or to enter in the container from the container console.

This could be done in two way:

  • on launch phase:
root # lxc launch -p default -p net macaroni:funtoo/next-stage3 testcontainer -e   --console
  • through the `lxc console` command:
root # lxc console testcontainer

To use correctly this feature is needed setup correctly the `/etc/inittab` file and disable the standard c* entries:

root # sed -i /etc/inittab -e 's|^#x1|x1|g' -e '/^c[0-9].*/d'

The images exposed over the Simplestreams Server of Funtoo Macaroni are already configured correctly and ready to use.

Finishing Steps

Assuming your network is now working, you are ready to start using your new Funtoo container. Time to have some fun! Go ahead and run ego sync and then emerge your favorite things:

testcontainer # ego sync
Syncing meta-repo
Cloning into '/var/git/meta-repo'...