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Table of Contents

Introduction

By default, your containers are accessible only from the host. For serious use you will want to expose some containers to the outside world. There are various ways of doing this. Currently I have settled on the following,

...

macvlan with Additional IP - allows you to have, a dedicated network interfaces (to the outside world) but actually only use one real physical network card. Unlike using a bridge this will not have the cpu overhead and need for your network card to work in promiscuous mode. This article builds on the work done in the introductory LXC article.

I actually use both multiple techniques together.

Warning

Make sure to change the password or better remove the default ubuntu account generated by the lxc creation script before making the container accessible to the Internet.

 

UFW

UFW in the Host

UFW is a great simple firewall, but at this point I do not recommend installing on your host. First, port forwarding using UFW is overly complex and seems like a hack versus it being very simple with IP Tables. 

If you insist on using UFW, make sure to change the setting to not drop forwarded packets. I will revisit this later as I do like UFW. Perhaps I can ask the developers to make port forwarding more straight-forward.

UFW in a Container

Also, firewalls as I understand work at the kernel level. So you should not be installing UFW or even IP Tables inside of a container for now.

I will revisit this topic but believe it is due to modules not loading inside of containers /etc/modules and the container not being able to modify it.

Code Block
languagebash
sudo ufw allow 22
ERROR: initcaps
[Errno 2] modprobe: ERROR: ../libkmod/libkmod.c:556 kmod_search_moddep() could not open moddep file '/lib/modules/3.13.0-57-generic/modules.dep.bin'
ip6tables v1.4.21: can't initialize ip6tables table `filter': Table does not exist (do you need to insmod?)
Perhaps ip6tables or your kernel needs to be upgraded.

Trying to enable UFW inside of a container results in a a kernel needs to be upgraded error.

This will get better over time, ie compared to Solaris where you just tell the container to use a public IP address and the macvlan or bridging is done for you.

Port Forwarding using IP Tables

You might want to use one IP Address on the host and then map specific ports out from the containers. As a pre-requisite you will need to setup Static LXC Assigned IP address.

There are a number of ways to do this but I favour iptables.

Note

At the moment, it seems to conflict with my favourite firewall utility ufw, but I do not know for sure yet.

In this example we setup Apache which runs on port 80 in the container which has been assigned the static IP 10.0.3.10.

...

Code Block
languagebash
netstat -an | grep LISTEN | grep 80
tcp6       0      0 fe80::2cd7:eff:fea3::53 :::*                    LISTEN

Next determine your hosts network card name associated with the hosts IP address,

Code Block
languagebash
ifconfig -a
eth0      Link encap:Ethernet  HWaddr 00:0d:3a:02:e6:8a  
          inet addr:10.0.0.4  Bcast:10.0.0.255  Mask:255.255.255.0
          inet6 addr: fe80::20d:3aff:fe02:e68a/64 Scope:Link
          UP BROADCAST RUNNING MULTICAST  MTU:1500  Metric:1
          RX packets:964479 errors:0 dropped:0 overruns:0 frame:0
          TX packets:1199824 errors:0 dropped:0 overruns:0 carrier:0
          collisions:0 txqueuelen:1000 
          RX bytes:333377198 (333.3 MB)  TX bytes:1757835361 (1.7 GB)


# ... more get's displayed

In this case, I know my host's public IP6 address (put reference of how to convert to ip4 or reverse lookup on dns IP6 address) is  fe80::20d:3aff:fe02:e68a/64 and see it as the first entry. This let's us know the network card name is eth0. In Ubuntu it will normally be eth0 or ens33.

While on the host issue these commands, (TBD, look at making own named chain to distinguish the rules)

Code Block
languagebash
# Immediately enable port forwarding rule, but this is not persistent on reboot.
# This is for all external connections coming in.
sudo iptables -t nat -A PREROUTING -p tcp -i eth0 --dport 80 -j DNAT --to-destination 10.0.3.10:80
 
# If any containers initiate outbound requests, they will appear to comewithin the hosts own IP and will not work.
# Allow container internal initiated requests to be converted using 'source NAT',
# http://blog.codeaholics.org/2013/giving-dockerlxc-containers-a-routable-ip-address/ figuring out

Now traffic on port 80 on the host will be forwarded to port 80 in the container IP specified. You can see your rules, (note I got to try below review output again on a clean machine).

Code Block
languagebash
sudo iptables -t nat -L -n -v
Chain PREROUTING (policy ACCEPT 15 packets, 957 bytes)
 pkts bytes target     prot opt in     out     source               destination         
    1    64 DNAT       tcp  --  eth0   *       0.0.0.0/0            0.0.0.0/0            tcp dpt:80 to:10.0.3.10:80

Chain INPUT (policy ACCEPT 1 packets, 229 bytes)
 pkts bytes target     prot opt in     out     source               destination         

Chain OUTPUT (policy ACCEPT 0 packets, 0 bytes)
 pkts bytes target     prot opt in     out     source               destination         

Chain POSTROUTING (policy ACCEPT 0 packets, 0 bytes)
 pkts bytes target     prot opt in     out     source               destination         
 695K   53M MASQUERADE  all  --  *      *       10.0.3.0/24         !10.0.3.0/24

...

Code Block
languagebash
# To make persistent.
sudo apt-get install iptables-persistent # Tool replaces lots of manual work documented here, https://help.ubuntu.com/community/IptablesHowTo
sudo /etc/init.d/iptables-persistent save
sudo /etc/init.d/iptables-persistent reload 

 

Going further you can actually remap ports too. In this example, I map port 23 on the host server to the 22 on the container,

Code Block
languagebash
sudo iptables -t nat -D PREROUTING -p tcp -i eth0 --dport 22 -j DNAT --to-destination 10.0.3.11:23

bridge with Additional IP Address

...

How to adjust LXD,

https://insights.ubuntu.com/2015/11/10/converting-eth0-to-br0-and-getting-all-your-lxc-or-lxd-onto-your-lan/

Also rever to my own article on bridge networking.

macvlan with Additional IP Address

Here's the Use Case,


Panel

For further isolation you may have purchased an additional IP address. For example run Apache on your host using port 80 and then also run Apache inside one of your containers also requiring port 80. Since it is not possible to have port 80 twice on the same IP you opt to purchase a second IP.

In most hosting services this is not expensive, but they will likely not give you a dedicated network card. In this example we purchase an additional static IP from the hosting company and use the same network card as the host.

Note
Hopefully this will get better with LXD, but this is quite cumbersome compared to Solaris where you just tell the container to use a public IP address. 

The most viable options, I understand are using bridge or a dedicated vlan.

With macvlan you configure the container to directly use the public IP address without the overhead of changing the network card to promiscuous mode. Once  and have a lower CPU overhead. Once setup the macvlan gets it's own MAC address. This only works if there are no restrictions on the network which set's static IPs based on the hosts' MAC address. Usually this is only the case with the initial primary IP provided by the hosting company.

The containers can reach the network and each other, but not the host. Even though the host may be on the same network. I am not sure why this is the case (maybe security?) but do not see a need to solve with any use case. macvlan has many modes, but from my readings bridge mode is most appropriate.This is by design of macvlan. The container network cards (Sub-interfaces) on the same host (parent) cannot communicate with each other. ALL frames from sub-interfaces are forward out through the parent interface. Even physcial switches that reflect the frames back in will get dropped.

If you had previously assigned a static IP to the container using /etc/lxc/dnsmasq.conf make sure to remove the entry (I believe you also need to restart the host).

Note
One interesting limitation is that the containers cannot resolve by DNS to the original Public IP directly used by the host. I don't have a use case requiring this, so will resolve iif/when needed.

You must have,

  • 1 macvlan mapped to 1 container interface 
  • each interface must have different static IP addresses

macvlan mac address

The first thing to do is to create a mac address for the macvlan interface to be created we will create on the host.

According to this article the Second bit of the most significant Byte indicates if the MAC address is Locally locally or Universally universally administered. (I think locally is better on for the public facing so you do not collide with other mac addresses). When generating MAC addresses for macvlan, this bit should be set to '1', indicating it is Locally locally administered. As such, translated to a mac address any of these numbers are locally managed and you will not need to worry about colliding with the larger Internet,

...

Warning

You can not use the same MAC interface on multiple containers on the same host. Otherwise, you will not be able to start you container and receive the error message about your interface already being in use.

Command Line macvlan

(move this section out as a subpage)

You can use the command line inside your container to quickly create a macvlan and test, but it will disappear after reboot,

Code Block
languagebash
ip link add mvlan0 link eth0 address 8a:38:2a:cc:d7:aa type macvlan mode bridge
ifconfig mvlan0 up

I believe you must have 1 macvlan mapped to 1 container interface and they all must have different static IP addresses. Need to test. I tried replicating my steps in a new container and though it got the IP address, I could not connect.

Create a Permanent macvlan on the Host

Add to the bottom of the /etc/network/interfaces file of the host,

...

Notice that the MAC address is locally generated. This The mavclan interface is actually not directly used and the MAC address will not actually register with anything. I am uncertain if it mattermatters, so I have put in a static rather than generated MAC address out of preference (I don't like the idea of it changing on every boot). Not using a MAC address at all here might work . Let too. If you the reader has time, let me know.

This macvlan0 is a placeholder on the host that will be used by a container interface. I have only purchased one additional static IP address so not all scenarios are tested.

If somebody gets to step 2 in below chart, please fill out for me. Otherwise, I'll try myself using my home network which is not exactly the same thing.

#Hostcontainer1container2Results
1mvlan0connect to mvlan0 with static-IP-1 with container2 offconnect to mvlan0 with static-IP-1 with container1 offsuccess
2mvlan0connect to mvlan0 with static-IP-1 with container2 onconnect to mvlan0 with static-IP-2 with container1 onNot sure... I need to buy another static IP to test

Scenario 1 basically shows that a macvlan in the host may be used by multiple containers as long as only one host is on at a time.

...

Notice mvlan0 is present with the hardware address you specified.

Connect Container to macvlan on Host

Now one ore more containers one container may connect to the mvlan0 interface on the host and they will get their IPs directly from the same network connected to the host (if DHCP) or you can assign static IPs inside the container that are reserved for you.

Make the container aware of the mvlan0 by modifying the config file located in /var/lib/lxc/[container]/config. In this example, I named the container web so the location will be /var/lib/lxc/web/config,.

Code Block
languagebash
# The directory itself is root only so for ease of browsing you might want to switch to root
sudo su -

...


cd /var/lib/lxc/[container]/config # change [container] to your container name, in my case "web"

We will be adding a network card for the container. First step is to use the hellion website to generate a Random Locally Administered Unicast MAC Address. Then, modify the config file by adding a network card for the container.

Code Block
languagebash
# Template used to create this container: /usr/share/lxc/templates/lxc-ubuntu
# Parameters passed to the template:

# For additional config options, please look at lxc.container.conf(5)
# Common configuration
lxc.include = /usr/share/lxc/config/ubuntu.common.conf

# Container specific configuration
lxc.rootfs = /var/lib/lxc/web/rootfs
lxc.mount = /var/lib/lxc/web/fstab
lxc.utsname = web
lxc.arch = amd64

# Network configuration
 
# macvlan for external IP
lxc.network.type = macvlan	
lxc.network.macvlan.mode = bridge
lxc.network.flags = up
lxc.network.link = mvlan0
lxc.network.hwaddr = 00:16:3e:8d:4f:51
lxc.network.name = eth0
 
# Interface using LXC dhcp to communicate with other containers
lxc.network.type = veth
lxc.network.flags = up
lxc.network.link = lxcbr0
lxc.network.hwaddr = 00:16:3e:a2:7d:54
lxc.network.name = eth1

...

Note

There is probably a way to setup the static ip address here in this config file for the container. I am pretty sure I saw an option. However, in the vein of individual container control, I would rather set that at the container level using steps outlined below.

Next, modify the interfaces file within the container to your selected static IP address. I find the fastest is from within the Host OS using root, /var/lib/lxc/<container name>/rootfs/etc/network/interfaces which in this case would be, /var/lib/lxc/web/rootfs/etc/network/interfaces,

Code Block
languagebash
# This file describes the network interfaces available on your system
# and how to activate them. For more information, see interfaces(5).

# The loopback network interface
auto lo
iface lo inet loopback

auto eth0
iface eth0 inet static
address 64.73.220.117
gateway 64.73.220.1
netmask 255.255.255.0
dns-nameservers 216.15.129.205 216.15.129.206
 
auto eth1
iface eth1 inet dhcp

Above we now have to two interfaces. That The static interface is the public IP address purchased called eth0 and second is the internal LXC assigned address. The other entries can be obtained from Add Additional IP Addresses to Ubuntu Server.

Update dnsmasq

Make sure to check your dnsmasq and make modifications accordingly. Using the example since we modified a container that was already using dnsmasq we needed to change the original /etc/lxc/dnsmasq.conf,

Code Block
languagebash
# Specify static IPs per container name or mac address.
# Addresses should be outside of range in /etc/default/lxc-net (10.0.3.100 to 10.0.3.254)


dhcp-host=web,10.0.3.10
dhcp-host=app,10.0.3.20
dhcp-host=database,10.0.3.30

...

Code Block
languagebash
# Specify static IPs per container name or mac address.
# Addresses should be outside of range in /etc/default/lxc-net (10.0.3.100 to 10.0.3.254)

# Container t01web uses macvlan for both a public and internal ip address requiring reference by MAC Address.
dhcp-host=00:16:3e:a2:7d:54,10.0.3.10
dhcp-host=app,10.0.3.20
dhcp-host=database,10.0.3.30

Because the container called "web" now has two interfaces. 1 static, 1 we still want to assign through dnsmasq. In order for dnsmasq to know which interface to use you, must now specify by using the mac address contained in the /var/lib/lxc/[container]/config.

You need to shutdown containers and restart the host or flush the DNS Masq,

Include Page
Flush DNS Mask to Apply Changes
Flush DNS Mask to Apply Changes

Multiple Interfaces

In most cases you will want multiple interfaces. In this example, we built a front-end container called "web", gave it a public IP address using mavlan. In addition, we create an "app" container which has an lxc internal IP address. In order for web and app to communicate, web must have a second interface that also uses an lxc provided internal IP address.

...

I got this all working, but need to document.

Firewall

UFW does not work inside of LXC because it is run at kernel level. UFW does not work with LXC well because I can't port forward easily and IP Tables seems the way to got for now. Should make a request to UFW to fix that... in any event, need to figure out how to firewall Host and containers.

macvtap

This looks promising... The most prominent user of macvtap interfaces seems to be libvirt/KVM, which allows guests to be connected to macvtap interfaces. Doing so allows for (almost) bridged-like behaviour of guests but without the need to have a real bridge on the host, as a regular ethernet interface can be used as the macvtap's lower device.

References

Networking - https://help.ubuntu.com/lts/serverguide/lxc.html#lxc-network

...

Generate mac address same way lxc does - http://giantdorks.org/alain/how-to-generate-a-unique-mac-address/sudo iptables -t nat -L -n -vChain PREROUTING (policy ACCEPT 15 packets, 957 bytes) pkts bytes target     prot opt in     out     source               destination             1    64 DNAT       tcp  --  eth0   *       0.0.0.0/0            0.0.0.0/0            tcp dpt:23 to:10.0.3.11:22
Chain INPUT (policy ACCEPT 1 packets, 229 bytes) pkts bytes target     prot opt in     out     source               destination         
Chain OUTPUT (policy ACCEPT 0 packets, 0 bytes) pkts bytes target     prot opt in     out     source               destination         
Chain POSTROUTING (policy ACCEPT 0 packets, 0 bytes) pkts bytes target     prot opt in     out     source               destination          695K   53M

MASQUERADE  all  --  *      *       10.0.3.0/24         !10.0.3.0/24         More in depth and discusses outbound NAT so containers can communicate to other container public IPs -http://blog.codeaholics.org/2013/giving-dockerlxc-containers-a-routable-ip-address/

Bridge versus Macvlan - http://hicu.be/bridge-vs-macvlan