README
¶
page_title: Docker Swarm discovery page_description: Swarm discovery page_keywords: docker, swarm, clustering, discovery
Discovery
Docker Swarm comes with multiple Discovery backends.
Backends
Hosted Discovery with Docker Hub
First we create a cluster.
# create a cluster
$ swarm create
6856663cdefdec325839a4b7e1de38e8 # <- this is your unique <cluster_id>
Then we create each node and join them to the cluster.
# on each of your nodes, start the swarm agent
# <node_ip> doesn't have to be public (eg. 192.168.0.X),
# as long as the swarm manager can access it.
$ swarm join --advertise=<node_ip:2375> token://<cluster_id>
Finally, we start the Swarm manager. This can be on any machine or even your laptop.
$ swarm manage -H tcp://<swarm_ip:swarm_port> token://<cluster_id>
You can then use regular Docker commands to interact with your swarm.
docker -H tcp://<swarm_ip:swarm_port> info
docker -H tcp://<swarm_ip:swarm_port> run ...
docker -H tcp://<swarm_ip:swarm_port> ps
docker -H tcp://<swarm_ip:swarm_port> logs ...
...
You can also list the nodes in your cluster.
swarm list token://<cluster_id>
<node_ip:2375>
Using a static file describing the cluster
For each of your nodes, add a line to a file. The node IP address doesn't need to be public as long the Swarm manager can access it.
echo <node_ip1:2375> >> /tmp/my_cluster
echo <node_ip2:2375> >> /tmp/my_cluster
echo <node_ip3:2375> >> /tmp/my_cluster
Then start the Swarm manager on any machine.
swarm manage -H tcp://<swarm_ip:swarm_port> file:///tmp/my_cluster
And then use the regular Docker commands.
docker -H tcp://<swarm_ip:swarm_port> info
docker -H tcp://<swarm_ip:swarm_port> run ...
docker -H tcp://<swarm_ip:swarm_port> ps
docker -H tcp://<swarm_ip:swarm_port> logs ...
...
You can list the nodes in your cluster.
$ swarm list file:///tmp/my_cluster
<node_ip1:2375>
<node_ip2:2375>
<node_ip3:2375>
Using etcd
On each of your nodes, start the Swarm agent. The node IP address doesn't have to be public as long as the swarm manager can access it.
swarm join --advertise=<node_ip:2375> etcd://<etcd_ip>/<path>
Start the manager on any machine or your laptop.
swarm manage -H tcp://<swarm_ip:swarm_port> etcd://<etcd_ip>/<path>
And then use the regular Docker commands.
docker -H tcp://<swarm_ip:swarm_port> info
docker -H tcp://<swarm_ip:swarm_port> run ...
docker -H tcp://<swarm_ip:swarm_port> ps
docker -H tcp://<swarm_ip:swarm_port> logs ...
...
You can list the nodes in your cluster.
swarm list etcd://<etcd_ip>/<path>
<node_ip:2375>
Using consul
On each of your nodes, start the Swarm agent. The node IP address doesn't need to be public as long as the Swarm manager can access it.
swarm join --advertise=<node_ip:2375> consul://<consul_addr>/<path>
Start the manager on any machine or your laptop.
swarm manage -H tcp://<swarm_ip:swarm_port> consul://<consul_addr>/<path>
And then use the regular Docker commands.
docker -H tcp://<swarm_ip:swarm_port> info
docker -H tcp://<swarm_ip:swarm_port> run ...
docker -H tcp://<swarm_ip:swarm_port> ps
docker -H tcp://<swarm_ip:swarm_port> logs ...
...
You can list the nodes in your cluster.
swarm list consul://<consul_addr>/<path>
<node_ip:2375>
Using zookeeper
On each of your nodes, start the Swarm agent. The node IP doesn't have to be public as long as the swarm manager can access it.
swarm join --advertise=<node_ip:2375> zk://<zookeeper_addr1>,<zookeeper_addr2>/<path>
Start the manager on any machine or your laptop.
swarm manage -H tcp://<swarm_ip:swarm_port> zk://<zookeeper_addr1>,<zookeeper_addr2>/<path>
You can then use the regular Docker commands.
docker -H tcp://<swarm_ip:swarm_port> info
docker -H tcp://<swarm_ip:swarm_port> run ...
docker -H tcp://<swarm_ip:swarm_port> ps
docker -H tcp://<swarm_ip:swarm_port> logs ...
...
You can list the nodes in the cluster.
swarm list zk://<zookeeper_addr1>,<zookeeper_addr2>/<path>
<node_ip:2375>
Using a static list of IP addresses
Start the manager on any machine or your laptop
swarm manage -H <swarm_ip:swarm_port> nodes://<node_ip1:2375>,<node_ip2:2375>
Or
swarm manage -H <swarm_ip:swarm_port> <node_ip1:2375>,<node_ip2:2375>
Then use the regular Docker commands.
docker -H <swarm_ip:swarm_port> info
docker -H <swarm_ip:swarm_port> run ...
docker -H <swarm_ip:swarm_port> ps
docker -H <swarm_ip:swarm_port> logs ...
...
Range pattern for IP addresses
The file and nodes discoveries support a range pattern to specify IP
addresses, i.e., 10.0.0.[10:200] will be a list of nodes starting from
10.0.0.10 to 10.0.0.200.
For example for the file discovery method.
$ echo "10.0.0.[11:100]:2375" >> /tmp/my_cluster
$ echo "10.0.1.[15:20]:2375" >> /tmp/my_cluster
$ echo "192.168.1.2:[2:20]375" >> /tmp/my_cluster
Then start the manager.
swarm manage -H tcp://<swarm_ip:swarm_port> file:///tmp/my_cluster
And for the nodes discovery method.
swarm manage -H <swarm_ip:swarm_port> "nodes://10.0.0.[10:200]:2375,10.0.1.[2:250]:2375"
Contributing a new discovery backend
Contributing a new discovery backend is easy, simply implement this interface:
type Discovery interface {
Initialize(string, int) error
Fetch() ([]string, error)
Watch(WatchCallback)
Register(string) error
}
Initialize
The parameters are discovery location without the scheme and a heartbeat (in seconds).
Fetch
Returns the list of all the nodes from the discovery.
Watch
Triggers an update (Fetch). This can happen either via a timer (like
token) or use backend specific features (like etcd).
Register
Add a new node to the discovery service.
Docker Swarm documentation index
Documentation
¶
Index ¶
Constants ¶
This section is empty.
Variables ¶
var ( // ErrNotSupported is returned when a discovery service is not supported. ErrNotSupported = errors.New("discovery service not supported") // ErrNotImplemented is returned when discovery feature is not implemented // by discovery backend. ErrNotImplemented = errors.New("not implemented in this discovery service") )
Functions ¶
Types ¶
type Discovery ¶
type Discovery interface {
// Initialize the discovery with URIs, a heartbeat and a ttl.
Initialize(string, time.Duration, time.Duration) error
// Watch the discovery for entry changes.
// Returns a channel that will receive changes or an error.
// Providing a non-nil stopCh can be used to stop watching.
Watch(stopCh <-chan struct{}) (<-chan Entries, <-chan error)
// Register to the discovery
Register(string) error
}
The Discovery interface is implemented by Discovery backends which manage swarm host entries.
type Entries ¶
type Entries []*Entry
Entries is a list of *Entry with some helpers.
func CreateEntries ¶
CreateEntries returns an array of entries based on the given addresses.
Source Files
Directories