Pipework lets you connect together containers in arbitrarily complex scenarios.
Pipework works with "plain" LXC containers (created with lxc-start
),
and therefore, it also works with the awesome Docker.
Before using Pipework, please ask on the docker-user mailing list if there is a "native" way to achieve what you want to do without Pipework.
In the long run, Docker will allow complex scenarios, and Pipework should become obsolete.
If there is really no other way to plumb your containers together with the current version of Docker, then okay, let's see how we can help you!
The following examples show what Pipework can do for you and your containers.
Let's create two containers, running the web tier and the database tier:
APACHE=$(docker run -d apache /usr/sbin/httpd -D FOREGROUND)
MYSQL=$(docker run -d mysql /usr/sbin/mysqld_safe)
Now, bring superpowers to the web tier:
pipework br1 $APACHE 192.168.1.1/24
This will:
- create a bridge named
br1
in the docker host; - add an interface named
eth1
to the$APACHE
container; - assign IP address 192.168.1.1 to this interface,
- connect said interface to
br1
.
Now (drum roll), let's do this:
pipework br1 $MYSQL 192.168.1.2/24
This will:
- not create a bridge named
br1
, since it already exists; - add an interface named
eth1
to the$MYSQL
container; - assign IP address 192.168.1.2 to this interface,
- connect said interface to
br1
.
Now, both containers can ping each other on the 192.168.1.0/24 subnet.
Want to connect to those containers using their private addresses? Easy:
ip addr add 192.168.1.254/24 dev br1
Voilà!
The IP addresses given to pipework
are directly passed to the ip addr
tool; so you can append a subnet size using traditional CIDR notation.
I.e.:
pipework br1 $CONTAINERID 192.168.4.25/20
Don't forget that all containers should use the same subnet size; pipework is not clever enough to use your specified subnet size for the first container, and retain it to use it for the other containers.
If you want outbound traffic (i.e. when the containers connects to the outside world) to go through the interface managed by Pipework, you need to change the default route of the container.
This can be useful in some usecases, like traffic shaping, or if you want the container to use a specific outbound IP address.
This can be automated by Pipework, by adding the gateway address after the IP address and subnet mask:
pipework br1 $CONTAINERID 192.168.4.25/[email protected]
Let's pretend that you want to run two Hipache instances, listening on real interfaces eth2 and eth3, using specific (public) IP addresses. Easy!
pipework eth2 $(docker run -d hipache /usr/sbin/hipache) 50.19.169.157
pipework eth3 $(docker run -d hipache /usr/sbin/hipache) 107.22.140.5
Note that this will use macvlan
subinterfaces, so you can actually put
multiple containers on the same physical interface.
Sometimes, you want the extra network interface to be up and running before
starting your service. A dirty (and unreliable) solution would be to add
a sleep
command before starting your service; but that could break in
"interesting" ways if the server happens to be a bit slower at one point.
There is a better option: add the pipework
script to your Docker image,
and before starting the service, call pipework --wait
. It will wait
until the eth1
interface is present and in UP
operational state,
then exit gracefully.
If for some reason you want to set the IP address from within the
container, you can use 0/0
as the IP address. The interface will
be created, connected to the network, and assigned to the container,
but without configuring an IP address:
pipework br1 $CONTAINERID 0/0
You can use DHCP to obtain the IP address of the new interface. Just
specify dhcp
instead of an IP address; for instance:
pipework eth1 $CONTAINERID dhcp
You need three things for this to work correctly:
- obviously, a DHCP server (in the example above, a DHCP server should
be listening on the network to which we are connected on
eth1
); - the
dhclient
DHCP client must be installed on your Docker host (you don't have to install it in your containers, but it must be present on the host); - the underlying network must support bridged frames.
The last item might be particularly relevant if you are trying to bridge your containers with a WPA-protected WiFi network. I'm not 100% sure about this, but I think that the WiFi access point will drop frames originating from unknown MAC addresses; meaning that you have to go through extra hoops if you want it to work properly.
It works fine on plain old wired Ethernet, though.
If you need to specify the MAC address to be used (either by the macvlan
subinterface, or the veth
interface), no problem. Just add it as the
command-line, as the last argument:
pipework eth0 $(docker run -d haproxy) 192.168.1.2 26:2e:71:98:60:8f
This can be useful if your network environment requires whitelisting your hardware addresses (some hosting providers do that), or if you want to obtain a specific address from your DHCP server. Also, some projects like Orchestrator rely on static MAC-IPv6 bindings for DHCPv6:
pipework br0 $(docker run -d zerorpcworker) dhcp fa:de:b0:99:52:1c
Note: if you generate your own MAC addresses, try remember those two simple rules:
- the lowest bit of the first byte should be
0
, otherwise, you are defining a multicast address; - the second lowest bit of the first byte should be
1
, otherwise, you are using a globally unique (OUI enforced) address.
In other words, if your MAC address is ?X:??:??:??:??:??
, X
should
be 2
, 6
, a
, or e
. You can check Wikipedia if you want even more details.
Using a network firewall is always good practice, especially so if you provide any remote access services or allow public access to a container. You can now use iptables rules with pipework! Start by exporting your host's firewall to a file:
iptables-save > ipv4-firewall
Make a copy of the ipv4-firewall file and edit it according to your service requirements. Don't remove the comments, we need those to identify the file as an iptables ruleset. Once you're finished, simply provide the file through stdin when you launch pipework:
pipework eth0 $(docker run -d hadoop) 10.4.138.1/20 < hadoop-firewall
Note that ip6tables rules will work, too (though you can't currently use both concurrently).
When a container is terminated (the last process of the net namespace exits), the network interfaces are garbage collected. The interface in the container is automatically destroyed, and the interface in the docker host (part of the bridge) is then destroyed as well.