Note

The Funtoo Linux project has transitioned to "Hobby Mode" and this wiki is now read-only.

Difference between revisions of "LXD/Laptop Network Setup"

From Funtoo
< LXD
Jump to navigation Jump to search
 
(9 intermediate revisions by the same user not shown)
Line 72: Line 72:
}}
}}


This changes the default settings for any new containers so that they will use our new bridge. Now typing {{c|lxc network list}} should show nothing is referencing {{c|lxdbr0}} so you should now be able to delete it:
An editor will pop up. Make sure that you add {{c|brwan}} as the default bridge for the primary interface, so that "devices: eth0:" looks exactly like this. Remember that this is YAML which expects indents to consist of two spaces -- not tabs:  
 
{{console|body=
# ##i##lxc network delete lxdbr0
}}
 
I recommend that at this point you reboot your system to make sure any routes referring to the old bridge that were inserted by LXD are cleaned out.
 
Now, let's add the *new* bridge to your default profile, so it is used by default. You can edit your default profile like before:
 
{{console|body=
# ##i##lxc profile edit default
}}
 
Now, make sure that you add {{c|brwan}} as the default bridge for the primary interface:  


{{file|body=
{{file|body=
Line 104: Line 90:
}}
}}


== Container and Internet ==
Save your changes. Now, the default lxd profile will add a container to {{c|brwan}} by default.


We now have working setup, but your containers will not be able to access the Internet yet. Let's get a Funtoo-in-Funtoo environment set up:
This changes the default settings for any new containers so that they will use our new bridge. Now typing {{c|lxc network list}} should show nothing is referencing {{c|lxdbr0}} so you should now be able to delete it:
 
{{console|body=
# ##i##lxc network delete lxdbr0
}}
 
I recommend that at this point you reboot your system to make sure any routes referring to the old bridge that were inserted by LXD are cleaned out.
 
 
== Local Networking ==
 
We now have functioning local networking, but containers will not yet be able to access the Internet. This is fine for now though -- let's test things so far to make sure at least local networking is working. We'll set up our first container, and then gradually add functionality in later sections so the container can access the Internet.
 
Let's download a pre-built Funtoo LXD image which we'll use to create a test container. Of course, grab the appropriate subarch for your actual system (ideally, match whatever is displayed in the subarch section of {{c|epro show {{!}} less}}.


{{console|body=
{{console|body=
Line 155: Line 154:
== IP Masquerade ==
== IP Masquerade ==


We'll now set up IP Masquerading so that your laptop will use your active WiFi connection to provide Internet access to your containers. This is a one-time setup and will keep working after reboots.
{{note|This section will set up IP masquerading on your host (laptop) to provide transparent Internet access to devices connected to {{c|brwan}} -- like your containers.}}
 
We'll now set up IP Masquerading. This is done on the host -- not in the container. It will set up your system to use your active WiFi connection to provide Internet access to your containers. This is a one-time setup and will keep working after reboots.


Create the file {{f|/etc/local.d/masquerade.start}}:
Create the file {{f|/etc/local.d/masquerade.start}}:


{{note|Below, I am using {{c|wlan0}} below, because this is the interface on my laptop that is providing Internet access. If you are setting this up on a desktop, or have another name for your primary wireless interface, then adjust the following lines accordingly:}}
{{file|name=/etc/local.d/masquerade.start|body=
{{file|name=/etc/local.d/masquerade.start|body=
/sbin/iptables -t nat -A POSTROUTING -o wlan0 -j MASQUERADE
/sbin/iptables -t nat -A POSTROUTING -o wlan0 -j MASQUERADE
Line 183: Line 185:


{{c|ego sync}} and all the things you need to use Funtoo (like fetching distfiles) will now work.
{{c|ego sync}} and all the things you need to use Funtoo (like fetching distfiles) will now work.
== DHCP Daemon ==
{{note|This section sets up a DHCP daemon on your laptop to hand out IP addresses to containers automatically.}}
Now, you've probably noticed that we are statically assigning an IP address to our containers. This works, but having a DHCP daemon running to hand out IPv4 addresses is generally much nicer. To fix this, let's set up {{c|dnsmasq}}:
{{console|body=
# ##i##emerge dnsmasq
}}
Put the following in your {{f|/etc/dnsmasq.conf}}:
{{file|name=/etc/dnsmasq.conf|body=
interface=brwan
dhcp-range=10.0.30.2,10.0.30.254,12h
}}
Now, let's add {{c|dnsmasq}} to our default runlevel and start it:
{{console|body=
# ##i##rc-update add dnsmasq default
# ##i##rc
}}
{{c|dnsmasq}} should now be handing out IP addresses on your {{c|brwan}} bridge for your containers. Try it out and see how it's working.

Latest revision as of 18:50, August 30, 2021

LXD can be really useful to use on a laptop, because you can spin up containers locally for development. A bit of manual setup is required but once set up, this configuration should give your containers Internet access regardless of what particular WiFi network you are connected to.

Special setup is required on a laptop when you are using WiFi. Without special steps, LXD will cause a conflict with the default route on your system which is managed by NetworkManager. This will result in your Internet connection failing. See https://bugs.funtoo.org/browse/FL-8295 for more information on the gory details if you are interested.

Fortunately, there is a relatively easy way to work around this.

LXD Setup

Please follow the steps in LXD, and set up /etc/subuid, /etc/subgid, and/etc/security/limits.conf as described in our official setup.

Using an Unmanaged Bridge

Rather than use LXD's managed bridge, we are going to set up an unmanaged bridge using Funtoo networking.

Create the following file on your laptop:

   /etc/conf.d/netif.brwan
template="bridge"
ipaddrs="10.0.30.1/24"

This will set up a 10.0.30.0/24 network and we are setting up your laptop to be the gateway for this network. We will get the containers to the Internet by connecting your containers to this bridge, and giving them an IP address in the 10.0.30.2 thru 10.0.30.254 range.

Now, let's enable this bridge:

root # cd /etc/init.d
root # ln -s netif.tmpl netif.brwan
root # rc-update add netif.brwan default
 * service netif.brwan added to runlevel default
root # rc
 * Caching service dependencies ...
 * Network bridge brwan up ...
root #

The bridge is now set up.

New Bridge In, Old Bridge Out

When you configured LXD, you probably told LXD to create a bridge for you. We want to get rid of this bridge if it exists. We also want LXD to see our new bridge. First, let's get LXD to see our new bridge. The best way for LXD to see our bridge is to restart it:

root # /etc/init.d/lxd restart

Now, LXD should display your bridge:

root # lxc network list
+--------+----------+---------+------+------+-------------+---------+
| NAME   |   TYPE   | MANAGED | IPV4 | IPV6 | DESCRIPTION | USED BY |
+--------+----------+---------+------+------+-------------+---------+
| brwan  | bridge   | NO      |      |      |             | 0       |
+--------+----------+---------+------+------+-------------+---------+
| lxdbr0 | bridge   | YES     |      |      |             | 1       |
+--------+----------+---------+------+------+-------------+---------+
| eth0   | physical | NO      |      |      |             | 0       |
+--------+----------+---------+------+------+-------------+---------+
| wlan0  | physical | NO      |      |      |             | 0       |
+--------+----------+---------+------+------+-------------+---------+

Great! LXD is now seeing our bridge. But we have a problem -- there is still the lxdbr0 managed bridge that LXD created. LXD will continually mess with the default route on this bridge and it will mess up your WiFi connection. So we need to completely remove it from the LXD configuration.

To do this, first delete any containers that are using this bridge.

Then run the following command and modify the reference to lxdbr0 to instead refer to our new bridge, brwan:

root # lxc profile edit default

An editor will pop up. Make sure that you add brwan as the default bridge for the primary interface, so that "devices: eth0:" looks exactly like this. Remember that this is YAML which expects indents to consist of two spaces -- not tabs:

   
config: {}
description: Default LXD profile
devices:
  eth0:
    name: eth0
    nictype: bridged
    parent: brwan
    type: nic
  root:
    path: /
    pool: default
    type: disk
name: default

Save your changes. Now, the default lxd profile will add a container to brwan by default.

This changes the default settings for any new containers so that they will use our new bridge. Now typing lxc network list should show nothing is referencing lxdbr0 so you should now be able to delete it:

root # lxc network delete lxdbr0

I recommend that at this point you reboot your system to make sure any routes referring to the old bridge that were inserted by LXD are cleaned out.


Local Networking

We now have functioning local networking, but containers will not yet be able to access the Internet. This is fine for now though -- let's test things so far to make sure at least local networking is working. We'll set up our first container, and then gradually add functionality in later sections so the container can access the Internet.

Let's download a pre-built Funtoo LXD image which we'll use to create a test container. Of course, grab the appropriate subarch for your actual system (ideally, match whatever is displayed in the subarch section of epro show | less.

root # wget https://build.funtoo.org/1.4-release-std/x86-64bit/intel64-skylake/2021-05-05/lxd-intel64-skylake-1.4-release-std-2021-05-05.tar.xz
root # lxc image import lxd-intel64-skylake-1.4-release-std-2021-05-05.tar.xz --alias funtoo
root # lxc launch funtoo test-image

Now, let's enter the test image:

root # lxc exec test-image -- /bin/bash
test-image # cd /etc/conf.d
test-image # nano netif.eth0

In the container network configuration, put the following information:

   /etc/conf.d/netif.eth0
template='interface'
ipaddrs='10.0.30.2/24'
gateway='10.0.30.1'
nameservers='1.1.1.1 1.0.0.1'

We are setting the container's IP address to 10.0.30.2. We're setting it's gateway to 10.0.30.1, which is the IP address of the bridge on our laptop. We are using Cloudflare for DNS.

Now, let's start this network:

test-image # cd /etc/init.d
test-image # ln -s netif.tmpl netif.eth0
test-image # rc-update add netif.eth0 default
test-image # rc

You should now be able to ping the gateway, the laptop bridge:

test-image # ping 10.0.30.1
PING 10.0.30.1 (10.0.30.1) 56(84) bytes of data.
64 bytes from 10.0.30.1: icmp_seq=1 ttl=64 time=0.120 ms
64 bytes from 10.0.30.1: icmp_seq=2 ttl=64 time=0.092 ms

So this part is working, but you won't be able to ping anything on the Internet -- yet. But make note -- this is the network configuration you will repeat for all your containers -- be sure to use different IP addresses for each container :)

IP Masquerade

   Note

This section will set up IP masquerading on your host (laptop) to provide transparent Internet access to devices connected to brwan -- like your containers.

We'll now set up IP Masquerading. This is done on the host -- not in the container. It will set up your system to use your active WiFi connection to provide Internet access to your containers. This is a one-time setup and will keep working after reboots.

Create the file /etc/local.d/masquerade.start:

   Note

Below, I am using wlan0 below, because this is the interface on my laptop that is providing Internet access. If you are setting this up on a desktop, or have another name for your primary wireless interface, then adjust the following lines accordingly:

   /etc/local.d/masquerade.start
/sbin/iptables -t nat -A POSTROUTING -o wlan0 -j MASQUERADE
echo 1 > /proc/sys/net/ipv4/ip_forward

Make it executable -- and run it just this once. It will get automatically run when your system starts in the future:

root # chmod +x masquerade.start
root # ./masquerade.start

At this point, you should now be able to enter your container and ping things on the Internet:

root # lxc exec test-image -- /bin/bash
test-image # ping www.yahoo.com
PING new-fp-shed.wg1.b.yahoo.com (98.137.11.164) 56(84) bytes of data.
64 bytes from media-router-fp73.prod.media.vip.gq1.yahoo.com (98.137.11.164): icmp_seq=1 ttl=47 time=91.9 ms
64 bytes from media-router-fp73.prod.media.vip.gq1.yahoo.com (98.137.11.164): icmp_seq=2 ttl=47 time=110 ms
64 bytes from media-router-fp73.prod.media.vip.gq1.yahoo.com (98.137.11.164): icmp_seq=3 ttl=47 time=88.6 ms

ego sync and all the things you need to use Funtoo (like fetching distfiles) will now work.

DHCP Daemon

   Note

This section sets up a DHCP daemon on your laptop to hand out IP addresses to containers automatically.

Now, you've probably noticed that we are statically assigning an IP address to our containers. This works, but having a DHCP daemon running to hand out IPv4 addresses is generally much nicer. To fix this, let's set up dnsmasq:

root # emerge dnsmasq

Put the following in your /etc/dnsmasq.conf:

   /etc/dnsmasq.conf
interface=brwan
dhcp-range=10.0.30.2,10.0.30.254,12h

Now, let's add dnsmasq to our default runlevel and start it:

root # rc-update add dnsmasq default
root # rc

dnsmasq should now be handing out IP addresses on your brwan bridge for your containers. Try it out and see how it's working.