Signed-off-by: Sebastiaan van Stijn <github@gone.nl>
13 KiB
Get started with multi-host networking
This article uses an example to explain the basics of creating a multi-host
network. Docker Engine supports multi-host networking out-of-the-box through the
overlay
network driver. Unlike bridge
networks, overlay networks require
some pre-existing conditions before you can create one. These conditions are:
- Access to a key-value store. Docker supports Consul, Etcd, and ZooKeeper (Distributed store) key-value stores.
- A cluster of hosts with connectivity to the key-value store.
- A properly configured Engine
daemon
on each host in the cluster. - Hosts within the cluster must have unique hostnames because the key-value store uses the hostnames to identify cluster members.
Though Docker Machine and Docker Swarm are not mandatory to experience Docker multi-host networking, this example uses them to illustrate how they are integrated. You'll use Machine to create both the key-value store server and the host cluster. This example creates a Swarm cluster.
Prerequisites
Before you begin, make sure you have a system on your network with the latest version of Docker Engine and Docker Machine installed. The example also relies on VirtualBox. If you installed on a Mac or Windows with Docker Toolbox, you have all of these installed already.
If you have not already done so, make sure you upgrade Docker Engine and Docker Machine to the latest versions.
Step 1: Set up a key-value store
An overlay network requires a key-value store. The key-value store holds information about the network state which includes discovery, networks, endpoints, IP addresses, and more. Docker supports Consul, Etcd, and ZooKeeper key-value stores. This example uses Consul.
-
Log into a system prepared with the prerequisite Docker Engine, Docker Machine, and VirtualBox software.
-
Provision a VirtualBox machine called
mh-keystore
.$ docker-machine create -d virtualbox mh-keystore
When you provision a new machine, the process adds Docker Engine to the host. This means rather than installing Consul manually, you can create an instance using the consul image from Docker Hub. You'll do this in the next step.
-
Set your local environment to the
mh-keystore
machine.$ eval "$(docker-machine env mh-keystore)"
-
Start a
progrium/consul
container running on themh-keystore
machine.$ docker run -d \ -p "8500:8500" \ -h "consul" \ progrium/consul -server -bootstrap
The client starts a
progrium/consul
image running in themh-keystore
machine. The server is calledconsul
and is listening on port8500
. -
Run the
docker ps
command to see theconsul
container.$ docker ps CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES 4d51392253b3 progrium/consul "/bin/start -server -" 25 minutes ago Up 25 minutes 53/tcp, 53/udp, 8300-8302/tcp, 0.0.0.0:8500->8500/tcp, 8400/tcp, 8301-8302/udp admiring_panini
Keep your terminal open and move onto the next step.
Step 2: Create a Swarm cluster
In this step, you use docker-machine
to provision the hosts for your network.
At this point, you won't actually create the network. You'll create several
machines in VirtualBox. One of the machines will act as the Swarm master;
you'll create that first. As you create each host, you'll pass the Engine on
that machine options that are needed by the overlay
network driver.
-
Create a Swarm master.
$ docker-machine create \ -d virtualbox \ --swarm --swarm-master \ --swarm-discovery="consul://$(docker-machine ip mh-keystore):8500" \ --engine-opt="cluster-store=consul://$(docker-machine ip mh-keystore):8500" \ --engine-opt="cluster-advertise=eth1:2376" \ mhs-demo0
At creation time, you supply the Engine
daemon
with the--cluster-store
option. This option tells the Engine the location of the key-value store for theoverlay
network. The bash expansion$(docker-machine ip mh-keystore)
resolves to the IP address of the Consul server you created in "STEP 1". The--cluster-advertise
option advertises the machine on the network. -
Create another host and add it to the Swarm cluster.
$ docker-machine create -d virtualbox \ --swarm \ --swarm-discovery="consul://$(docker-machine ip mh-keystore):8500" \ --engine-opt="cluster-store=consul://$(docker-machine ip mh-keystore):8500" \ --engine-opt="cluster-advertise=eth1:2376" \ mhs-demo1
-
List your machines to confirm they are all up and running.
$ docker-machine ls NAME ACTIVE DRIVER STATE URL SWARM default - virtualbox Running tcp://192.168.99.100:2376 mh-keystore * virtualbox Running tcp://192.168.99.103:2376 mhs-demo0 - virtualbox Running tcp://192.168.99.104:2376 mhs-demo0 (master) mhs-demo1 - virtualbox Running tcp://192.168.99.105:2376 mhs-demo0
At this point you have a set of hosts running on your network. You are ready to create a multi-host network for containers using these hosts.
Leave your terminal open and go onto the next step.
Step 3: Create the overlay Network
To create an overlay network
-
Set your docker environment to the Swarm master.
$ eval $(docker-machine env --swarm mhs-demo0)
Using the
--swarm
flag withdocker-machine
restricts thedocker
commands to Swarm information alone. -
Use the
docker info
command to view the Swarm.$ docker info Containers: 3 Images: 2 Role: primary Strategy: spread Filters: affinity, health, constraint, port, dependency Nodes: 2 mhs-demo0: 192.168.99.104:2376 └ Containers: 2 └ Reserved CPUs: 0 / 1 └ Reserved Memory: 0 B / 1.021 GiB └ Labels: executiondriver=native-0.2, kernelversion=4.1.10-boot2docker, operatingsystem=Boot2Docker 1.9.0 (TCL 6.4); master : 4187d2c - Wed Oct 14 14:00:28 UTC 2015, provider=virtualbox, storagedriver=aufs mhs-demo1: 192.168.99.105:2376 └ Containers: 1 └ Reserved CPUs: 0 / 1 └ Reserved Memory: 0 B / 1.021 GiB └ Labels: executiondriver=native-0.2, kernelversion=4.1.10-boot2docker, operatingsystem=Boot2Docker 1.9.0 (TCL 6.4); master : 4187d2c - Wed Oct 14 14:00:28 UTC 2015, provider=virtualbox, storagedriver=aufs CPUs: 2 Total Memory: 2.043 GiB Name: 30438ece0915
From this information, you can see that you are running three containers and two images on the Master.
-
Create your
overlay
network.$ docker network create --driver overlay --subnet=10.0.9.0/24 my-net
You only need to create the network on a single host in the cluster. In this case, you used the Swarm master but you could easily have run it on any host in the cluster.
Note
: It is highly recommended to use the
--subnet
option when creating a network. If the--subnet
is not specified, the docker daemon automatically chooses and assigns a subnet for the network and it could overlap with another subnet in your infrastructure that is not managed by docker. Such overlaps can cause connectivity issues or failures when containers are connected to that network.
-
Check that the network is running:
$ docker network ls NETWORK ID NAME DRIVER 412c2496d0eb mhs-demo1/host host dd51763e6dd2 mhs-demo0/bridge bridge 6b07d0be843f my-net overlay b4234109bd9b mhs-demo0/none null 1aeead6dd890 mhs-demo0/host host d0bb78cbe7bd mhs-demo1/bridge bridge 1c0eb8f69ebb mhs-demo1/none null
As you are in the Swarm master environment, you see all the networks on all the Swarm agents: the default networks on each engine and the single overlay network. Notice that each
NETWORK ID
is unique. -
Switch to each Swarm agent in turn and list the networks.
$ eval $(docker-machine env mhs-demo0) $ docker network ls NETWORK ID NAME DRIVER 6b07d0be843f my-net overlay dd51763e6dd2 bridge bridge b4234109bd9b none null 1aeead6dd890 host host $ eval $(docker-machine env mhs-demo1) $ docker network ls NETWORK ID NAME DRIVER d0bb78cbe7bd bridge bridge 1c0eb8f69ebb none null 412c2496d0eb host host 6b07d0be843f my-net overlay
Both agents report they have the my-net
network with the 6b07d0be843f
ID.
You now have a multi-host container network running!
Step 4: Run an application on your Network
Once your network is created, you can start a container on any of the hosts and it automatically is part of the network.
-
Point your environment to the Swarm master.
$ eval $(docker-machine env --swarm mhs-demo0)
-
Start an Nginx web server on the
mhs-demo0
instance.$ docker run -itd --name=web --network=my-net --env="constraint:node==mhs-demo0" nginx
-
Run a BusyBox instance on the
mhs-demo1
instance and get the contents of the Nginx server's home page.$ docker run -it --rm --network=my-net --env="constraint:node==mhs-demo1" busybox wget -O- http://web Unable to find image 'busybox:latest' locally latest: Pulling from library/busybox ab2b8a86ca6c: Pull complete 2c5ac3f849df: Pull complete Digest: sha256:5551dbdfc48d66734d0f01cafee0952cb6e8eeecd1e2492240bf2fd9640c2279 Status: Downloaded newer image for busybox:latest Connecting to web (10.0.0.2:80) <!DOCTYPE html> <html> <head> <title>Welcome to nginx!</title> <style> body { width: 35em; margin: 0 auto; font-family: Tahoma, Verdana, Arial, sans-serif; } </style> </head> <body> <h1>Welcome to nginx!</h1> <p>If you see this page, the nginx web server is successfully installed and working. Further configuration is required.</p> <p>For online documentation and support please refer to <a href="http://nginx.org/">nginx.org</a>.<br/> Commercial support is available at <a href="http://nginx.com/">nginx.com</a>.</p> <p><em>Thank you for using nginx.</em></p> </body> </html> - 100% |*******************************| 612 0:00:00 ETA
Step 5: Check external connectivity
As you've seen, Docker's built-in overlay network driver provides out-of-the-box
connectivity between the containers on multiple hosts within the same network.
Additionally, containers connected to the multi-host network are automatically
connected to the docker_gwbridge
network. This network allows the containers
to have external connectivity outside of their cluster.
-
Change your environment to the Swarm agent.
$ eval $(docker-machine env mhs-demo1)
-
View the
docker_gwbridge
network, by listing the networks.$ docker network ls NETWORK ID NAME DRIVER 6b07d0be843f my-net overlay dd51763e6dd2 bridge bridge b4234109bd9b none null 1aeead6dd890 host host e1dbd5dff8be docker_gwbridge bridge
-
Repeat steps 1 and 2 on the Swarm master.
$ eval $(docker-machine env mhs-demo0) $ docker network ls NETWORK ID NAME DRIVER 6b07d0be843f my-net overlay d0bb78cbe7bd bridge bridge 1c0eb8f69ebb none null 412c2496d0eb host host 97102a22e8d2 docker_gwbridge bridge
-
Check the Nginx container's network interfaces.
$ docker exec web ip addr 1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN group default 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 inet6 ::1/128 scope host valid_lft forever preferred_lft forever 22: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1450 qdisc noqueue state UP group default link/ether 02:42:0a:00:09:03 brd ff:ff:ff:ff:ff:ff inet 10.0.9.3/24 scope global eth0 valid_lft forever preferred_lft forever inet6 fe80::42:aff:fe00:903/64 scope link valid_lft forever preferred_lft forever 24: eth1: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc noqueue state UP group default link/ether 02:42:ac:12:00:02 brd ff:ff:ff:ff:ff:ff inet 172.18.0.2/16 scope global eth1 valid_lft forever preferred_lft forever inet6 fe80::42:acff:fe12:2/64 scope link valid_lft forever preferred_lft forever
The
eth0
interface represents the container interface that is connected to themy-net
overlay network. While theeth1
interface represents the container interface that is connected to thedocker_gwbridge
network.
Step 6: Extra Credit with Docker Compose
Please refer to the Networking feature introduced in [Compose V2 format] (https://docs.docker.com/compose/networking/) and execute the multi-host networking scenario in the Swarm cluster used above.