2015-06-07 23:07:20 -04:00
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<!--[metadata]>
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+++
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title = "Linking containers together"
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description = "Learn how to connect Docker containers together."
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keywords = ["Examples, Usage, user guide, links, linking, docker, documentation, examples, names, name, container naming, port, map, network port, network"]
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[menu.main]
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parent = "smn_containers"
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weight = 4
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+++
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<![end-metadata]-->
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2015-04-21 11:50:09 -04:00
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# Linking containers together
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2014-07-25 19:22:41 -04:00
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In [the Using Docker section](/userguide/usingdocker), you saw how you can
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connect to a service running inside a Docker container via a network
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port. But a port connection is only one way you can interact with services and
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applications running inside Docker containers. In this section, we'll briefly revisit
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connecting via a network port and then we'll introduce you to another method of access:
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container linking.
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2015-04-21 11:50:09 -04:00
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## Connect using network port mapping
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In [the Using Docker section](/userguide/usingdocker), you created a
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container that ran a Python Flask application:
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$ docker run -d -P training/webapp python app.py
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> **Note:**
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> Containers have an internal network and an IP address
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> (as we saw when we used the `docker inspect` command to show the container's
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> IP address in the [Using Docker](/userguide/usingdocker/) section).
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> Docker can have a variety of network configurations. You can see more
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> information on Docker networking [here](/articles/networking/).
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When that container was created, the `-P` flag was used to automatically map
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any network port inside it to a random high port within an *ephemeral port
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range* on your Docker host. Next, when `docker ps` was run, you saw that port
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5000 in the container was bound to port 49155 on the host.
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$ docker ps nostalgic_morse
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CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
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bc533791f3f5 training/webapp:latest python app.py 5 seconds ago Up 2 seconds 0.0.0.0:49155->5000/tcp nostalgic_morse
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You also saw how you can bind a container's ports to a specific port using
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the `-p` flag. Here port 80 of the host is mapped to port 5000 of the
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container:
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$ docker run -d -p 80:5000 training/webapp python app.py
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And you saw why this isn't such a great idea because it constrains you to
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only one container on that specific port.
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There are also a few other ways you can configure the `-p` flag. By
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default the `-p` flag will bind the specified port to all interfaces on
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the host machine. But you can also specify a binding to a specific
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interface, for example only to the `localhost`.
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$ docker run -d -p 127.0.0.1:80:5000 training/webapp python app.py
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This would bind port 5000 inside the container to port 80 on the
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`localhost` or `127.0.0.1` interface on the host machine.
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Or, to bind port 5000 of the container to a dynamic port but only on the
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`localhost`, you could use:
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$ docker run -d -p 127.0.0.1::5000 training/webapp python app.py
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You can also bind UDP ports by adding a trailing `/udp`. For example:
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$ docker run -d -p 127.0.0.1:80:5000/udp training/webapp python app.py
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You also learned about the useful `docker port` shortcut which showed us the
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current port bindings. This is also useful for showing you specific port
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configurations. For example, if you've bound the container port to the
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`localhost` on the host machine, then the `docker port` output will reflect that.
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$ docker port nostalgic_morse 5000
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127.0.0.1:49155
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> **Note:**
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> The `-p` flag can be used multiple times to configure multiple ports.
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## Connect with the linking system
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Network port mappings are not the only way Docker containers can connect
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to one another. Docker also has a linking system that allows you to link
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multiple containers together and send connection information from one to another.
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When containers are linked, information about a source container can be sent to a
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recipient container. This allows the recipient to see selected data describing
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aspects of the source container.
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2015-03-05 08:50:43 -05:00
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### The importance of naming
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To establish links, Docker relies on the names of your containers.
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You've already seen that each container you create has an automatically
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created name; indeed you've become familiar with our old friend
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`nostalgic_morse` during this guide. You can also name containers
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yourself. This naming provides two useful functions:
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1. It can be useful to name containers that do specific functions in a way
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that makes it easier for you to remember them, for example naming a
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container containing a web application `web`.
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2. It provides Docker with a reference point that allows it to refer to other
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containers, for example, you can specify to link the container `web` to container `db`.
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You can name your container by using the `--name` flag, for example:
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$ docker run -d -P --name web training/webapp python app.py
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This launches a new container and uses the `--name` flag to
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name the container `web`. You can see the container's name using the
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`docker ps` command.
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$ docker ps -l
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CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
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aed84ee21bde training/webapp:latest python app.py 12 hours ago Up 2 seconds 0.0.0.0:49154->5000/tcp web
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You can also use `docker inspect` to return the container's name.
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2015-05-07 16:02:14 -04:00
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> **Note:**
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> Container names have to be unique. That means you can only call
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> one container `web`. If you want to re-use a container name you must delete
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> the old container (with `docker rm`) before you can create a new
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> container with the same name. As an alternative you can use the `--rm`
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> flag with the `docker run` command. This will delete the container
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> immediately after it is stopped.
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## Communication across links
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Links allow containers to discover each other and securely transfer information about one
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container to another container. When you set up a link, you create a conduit between a
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source container and a recipient container. The recipient can then access select data
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about the source. To create a link, you use the `--link` flag. First, create a new
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container, this time one containing a database.
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$ docker run -d --name db training/postgres
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This creates a new container called `db` from the `training/postgres`
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image, which contains a PostgreSQL database.
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Now, you need to delete the `web` container you created previously so you can replace it
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with a linked one:
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$ docker rm -f web
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Now, create a new `web` container and link it with your `db` container.
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$ docker run -d -P --name web --link db:db training/webapp python app.py
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This will link the new `web` container with the `db` container you created
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earlier. The `--link` flag takes the form:
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--link <name or id>:alias
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Where `name` is the name of the container we're linking to and `alias` is an
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alias for the link name. You'll see how that alias gets used shortly.
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The `--link` flag also takes the form:
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--link <name or id>
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In which case the alias will match the name. You could have written the previous
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example as:
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$ docker run -d -P --name web --link db training/webapp python app.py
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2014-10-21 14:17:20 -04:00
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Next, inspect your linked containers with `docker inspect`:
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$ docker inspect -f "{{ .HostConfig.Links }}" web
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[/db:/web/db]
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You can see that the `web` container is now linked to the `db` container
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`web/db`. Which allows it to access information about the `db` container.
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2014-10-31 09:00:59 -04:00
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So what does linking the containers actually do? You've learned that a link allows a
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source container to provide information about itself to a recipient container. In
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our example, the recipient, `web`, can access information about the source `db`. To do
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this, Docker creates a secure tunnel between the containers that doesn't need to
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expose any ports externally on the container; you'll note when we started the
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`db` container we did not use either the `-P` or `-p` flags. That's a big benefit of
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linking: we don't need to expose the source container, here the PostgreSQL database, to
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the network.
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Docker exposes connectivity information for the source container to the
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recipient container in two ways:
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* Environment variables,
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* Updating the `/etc/hosts` file.
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### Environment variables
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Docker creates several environment variables when you link containers. Docker
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automatically creates environment variables in the target container based on
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the `--link` parameters. It will also expose all environment variables
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originating from Docker from the source container. These include variables from:
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* the `ENV` commands in the source container's Dockerfile
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* the `-e`, `--env` and `--env-file` options on the `docker run`
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command when the source container is started
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These environment variables enable programmatic discovery from within the
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target container of information related to the source container.
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> **Warning**:
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> It is important to understand that *all* environment variables originating
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> from Docker within a container are made available to *any* container
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> that links to it. This could have serious security implications if sensitive
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> data is stored in them.
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Docker sets an `<alias>_NAME` environment variable for each target container
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listed in the `--link` parameter. For example, if a new container called
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`web` is linked to a database container called `db` via `--link db:webdb`,
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then Docker creates a `WEBDB_NAME=/web/webdb` variable in the `web` container.
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Docker also defines a set of environment variables for each port exposed by the
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source container. Each variable has a unique prefix in the form:
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`<name>_PORT_<port>_<protocol>`
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The components in this prefix are:
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* the alias `<name>` specified in the `--link` parameter (for example, `webdb`)
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* the `<port>` number exposed
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* a `<protocol>` which is either TCP or UDP
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Docker uses this prefix format to define three distinct environment variables:
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* The `prefix_ADDR` variable contains the IP Address from the URL, for
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example `WEBDB_PORT_5432_TCP_ADDR=172.17.0.82`.
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* The `prefix_PORT` variable contains just the port number from the URL for
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example `WEBDB_PORT_5432_TCP_PORT=5432`.
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* The `prefix_PROTO` variable contains just the protocol from the URL for
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example `WEBDB_PORT_5432_TCP_PROTO=tcp`.
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If the container exposes multiple ports, an environment variable set is
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defined for each one. This means, for example, if a container exposes 4 ports
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that Docker creates 12 environment variables, 3 for each port.
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Additionally, Docker creates an environment variable called `<alias>_PORT`.
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This variable contains the URL of the source container's first exposed port.
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The 'first' port is defined as the exposed port with the lowest number.
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For example, consider the `WEBDB_PORT=tcp://172.17.0.82:5432` variable. If
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that port is used for both tcp and udp, then the tcp one is specified.
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Finally, Docker also exposes each Docker originated environment variable
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from the source container as an environment variable in the target. For each
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variable Docker creates an `<alias>_ENV_<name>` variable in the target
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container. The variable's value is set to the value Docker used when it
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started the source container.
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Returning back to our database example, you can run the `env`
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command to list the specified container's environment variables.
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2014-06-25 03:59:10 -04:00
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```
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$ docker run --rm --name web2 --link db:db training/webapp env
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. . .
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DB_NAME=/web2/db
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DB_PORT=tcp://172.17.0.5:5432
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DB_PORT_5432_TCP=tcp://172.17.0.5:5432
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DB_PORT_5432_TCP_PROTO=tcp
|
|
|
|
DB_PORT_5432_TCP_PORT=5432
|
|
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|
DB_PORT_5432_TCP_ADDR=172.17.0.5
|
2014-05-21 17:05:19 -04:00
|
|
|
. . .
|
2014-06-25 03:59:10 -04:00
|
|
|
```
|
2014-05-21 17:05:19 -04:00
|
|
|
|
2014-07-25 19:22:41 -04:00
|
|
|
You can see that Docker has created a series of environment variables with
|
2015-03-05 08:50:43 -05:00
|
|
|
useful information about the source `db` container. Each variable is prefixed
|
|
|
|
with
|
2014-07-25 19:22:41 -04:00
|
|
|
`DB_`, which is populated from the `alias` you specified above. If the `alias`
|
|
|
|
were `db1`, the variables would be prefixed with `DB1_`. You can use these
|
2014-05-21 17:05:19 -04:00
|
|
|
environment variables to configure your applications to connect to the database
|
2014-07-25 19:22:41 -04:00
|
|
|
on the `db` container. The connection will be secure and private; only the
|
2014-05-21 17:05:19 -04:00
|
|
|
linked `web` container will be able to talk to the `db` container.
|
|
|
|
|
2015-03-05 08:50:43 -05:00
|
|
|
### Important notes on Docker environment variables
|
|
|
|
|
|
|
|
Unlike host entries in the [`/etc/hosts` file](#updating-the-etchosts-file),
|
|
|
|
IP addresses stored in the environment variables are not automatically updated
|
|
|
|
if the source container is restarted. We recommend using the host entries in
|
|
|
|
`/etc/hosts` to resolve the IP address of linked containers.
|
|
|
|
|
|
|
|
These environment variables are only set for the first process in the
|
|
|
|
container. Some daemons, such as `sshd`, will scrub them when spawning shells
|
|
|
|
for connection.
|
|
|
|
|
2014-10-11 12:15:54 -04:00
|
|
|
### Updating the `/etc/hosts` file
|
|
|
|
|
2014-07-25 19:22:41 -04:00
|
|
|
In addition to the environment variables, Docker adds a host entry for the
|
|
|
|
source container to the `/etc/hosts` file. Here's an entry for the `web`
|
|
|
|
container:
|
2014-05-21 17:05:19 -04:00
|
|
|
|
2015-03-26 14:12:37 -04:00
|
|
|
$ docker run -t -i --rm --link db:webdb training/webapp /bin/bash
|
2014-05-21 17:05:19 -04:00
|
|
|
root@aed84ee21bde:/opt/webapp# cat /etc/hosts
|
|
|
|
172.17.0.7 aed84ee21bde
|
|
|
|
. . .
|
2015-02-16 00:00:51 -05:00
|
|
|
172.17.0.5 webdb 6e5cdeb2d300 db
|
2014-05-21 17:05:19 -04:00
|
|
|
|
2014-07-25 19:22:41 -04:00
|
|
|
You can see two relevant host entries. The first is an entry for the `web`
|
2014-05-21 17:05:19 -04:00
|
|
|
container that uses the Container ID as a host name. The second entry uses the
|
2015-02-16 00:00:51 -05:00
|
|
|
link alias to reference the IP address of the `db` container. In addition to
|
|
|
|
the alias you provide, the linked container's name--if unique from the alias
|
|
|
|
provided to the `--link` parameter--and the linked container's hostname will
|
|
|
|
also be added in `/etc/hosts` for the linked container's IP address. You can ping
|
|
|
|
that host now via any of these entries:
|
2014-05-21 17:05:19 -04:00
|
|
|
|
|
|
|
root@aed84ee21bde:/opt/webapp# apt-get install -yqq inetutils-ping
|
2015-02-16 00:00:51 -05:00
|
|
|
root@aed84ee21bde:/opt/webapp# ping webdb
|
|
|
|
PING webdb (172.17.0.5): 48 data bytes
|
2014-05-21 17:05:19 -04:00
|
|
|
56 bytes from 172.17.0.5: icmp_seq=0 ttl=64 time=0.267 ms
|
|
|
|
56 bytes from 172.17.0.5: icmp_seq=1 ttl=64 time=0.250 ms
|
|
|
|
56 bytes from 172.17.0.5: icmp_seq=2 ttl=64 time=0.256 ms
|
|
|
|
|
|
|
|
> **Note:**
|
2014-07-25 19:22:41 -04:00
|
|
|
> In the example, you'll note you had to install `ping` because it was not included
|
|
|
|
> in the container initially.
|
2014-05-21 17:05:19 -04:00
|
|
|
|
2014-07-25 19:22:41 -04:00
|
|
|
Here, you used the `ping` command to ping the `db` container using its host entry,
|
|
|
|
which resolves to `172.17.0.5`. You can use this host entry to configure an application
|
|
|
|
to make use of your `db` container.
|
2014-05-21 17:05:19 -04:00
|
|
|
|
|
|
|
> **Note:**
|
2014-07-25 19:22:41 -04:00
|
|
|
> You can link multiple recipient containers to a single source. For
|
|
|
|
> example, you could have multiple (differently named) web containers attached to your
|
|
|
|
>`db` container.
|
2014-05-21 17:05:19 -04:00
|
|
|
|
2014-07-14 19:19:37 -04:00
|
|
|
If you restart the source container, the linked containers `/etc/hosts` files
|
|
|
|
will be automatically updated with the source container's new IP address,
|
|
|
|
allowing linked communication to continue.
|
|
|
|
|
2015-03-26 14:12:37 -04:00
|
|
|
$ docker restart db
|
2015-01-18 10:17:49 -05:00
|
|
|
db
|
2015-03-26 14:12:37 -04:00
|
|
|
$ docker run -t -i --rm --link db:db training/webapp /bin/bash
|
2014-07-14 19:19:37 -04:00
|
|
|
root@aed84ee21bde:/opt/webapp# cat /etc/hosts
|
|
|
|
172.17.0.7 aed84ee21bde
|
|
|
|
. . .
|
|
|
|
172.17.0.9 db
|
|
|
|
|
2014-05-21 17:05:19 -04:00
|
|
|
# Next step
|
|
|
|
|
2014-07-25 19:22:41 -04:00
|
|
|
Now that you know how to link Docker containers together, the next step is
|
|
|
|
learning how to manage data, volumes and mounts inside your containers.
|
2014-05-21 17:05:19 -04:00
|
|
|
|
|
|
|
Go to [Managing Data in Containers](/userguide/dockervolumes).
|
|
|
|
|