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README.md

docker-net-dhcp

docker-net-dhcp is a Docker plugin providing a network driver which allocates IP addresses (IPv4 and optionally IPv6) via an existing DHCP server (e.g. your router).

When configured correctly, this allows you to spin up a container (e.g. docker run ... or docker-compose up ...) and access it on your network as if it was any other machine!

Usage

Installation

$ docker plugin install devplayer0/net-dhcp
Plugin "devplayer0/net-dhcp" is requesting the following privileges:
 - network: [host]
 - host pid namespace: [true]
 - mount: [/var/run/docker.sock]
 - capabilities: [CAP_NET_ADMIN CAP_SYS_ADMIN]
Do you grant the above permissions? [y/N] y
latest: Pulling from devplayer0/net-dhcp
<some id>: Download complete 
Digest: sha256:<some hash>
Status: Downloaded newer image for devplayer0/net-dhcp:latest
Installed plugin devplayer0/net-dhcp
$

Network creation

In order to create a Docker network using net-dhcp, you'll need a pre-configured bridge interface on the host. How you set this up will depend on your system, but the following (manual) instructions should work on most Linux distros:

# Create the bridge
$ sudo ip link add my-bridge type bridge
$ sudo ip link set my-bridge up

# Assuming 'eth0' is connected to your LAN (where the DHCP server is)
$ sudo ip link set eth0 up
# Attach your network card to the bridge
$ sudo ip link set eth0 master my-bridge

# Get an IP for the host (will go out to the DHCP server since eth0 is attached to the bridge)
$ sudo dhcpcd my-bridge

Once the bridge is ready, you can create the network:

$ docker network create -d devplayer0/net-dhcp:latest --ipam-driver null -o bridge=my-bridge my-dhcp-net
<some network id>
$

# With IPv6 enabled
# Although `docker network create` has a `--ipv6` flag, it doesn't work with the null IPAM driver
$ docker network create -d devplayer0/net-dhcp:latest --ipam-driver null -o bridge=test -o ipv6=true my-dhcp-net
<some network id>
$

Note: The null IPAM driver must be used, or else Docker will try to allocate IP addresses from its choice of subnet - this can cause IP conflicts since the bridge is connected to your local network!

Container creation

Once you've created a network, you can create some containers:

$ docker run --rm -ti --network my-dhcp-net alpine
/ # ip address show
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN qlen 1000
    link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
    inet 127.0.0.1/8 scope host lo
       valid_lft forever preferred_lft forever
159: my-bridge0@if160: <BROADCAST,MULTICAST,UP,LOWER_UP,M-DOWN> mtu 1500 qdisc noqueue state UP qlen 1000
    link/ether 86:41:68:f8:85:b9 brd ff:ff:ff:ff:ff:ff
    inet 10.255.0.246/24 brd 10.255.0.255 scope global test0
       valid_lft forever preferred_lft forever
/ # ip route show
default via 10.255.0.123 dev my-bridge0 
10.255.0.0/24 dev my-bridge0 scope link  src 10.255.0.246 
/ #

Note:

  • It will take a bit longer than usual for the container to start, as a DHCP lease needs to be obtained before creating it
  • Once created, a persistent DHCP client will renew the DHCP lease (and then update the default gateway in the container) when necessary - this client runs separately from the container
  • Use --mac-address to specify a MAC address if you've configured reserved IP addresses on your DHCP server, or if you want a container to re-use an old lease

Implementation

Fundamentally, the same mechanism is used by net-dhcp as Docker's bridge driver to wire up networking to containers. That is, a bridge on the host is used as a switch so that containers can communicate with each other - veth pairs connect each container's network namespace to the bridge.

  • While Docker creates and manages its own bridges (and routes and filters traffic), net-dhcp uses an existing bridge on the host, bridged with the desired local network.
  • Instead of allocating IP addresses from a static pool stored on the Docker host, net-dhcp relies on an external DHCP server to provide IP addresses

Flow

  1. Container creation request is made
  2. A veth pair is created and the host end is connected to the bridge (at this point both interfaces are still in the host namespace)
  3. A DHCP client (BusyBox udhcpc) is started on the container end (still in the host namespace) - initial IP address is provided to Docker by the plugin
  4. Docker moves the container end of the veth pair into the container's network namespace and sets the IP address - at this point udhcpc must be stopped
  5. net-dhcp starts udhcpc on the container end of the veth pair in the container's network namespace (but still in the host / plugin PID namespace - this means that the container can't see the DHCP client)
  6. udhcpc continues to run, renewing the lease when required, until the container shuts down