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Signed-off-by: lixiaobing10051267 <li.xiaobing1@zte.com.cn>
322 lines
11 KiB
Markdown
322 lines
11 KiB
Markdown
<!--[metadata]>
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+++
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aliases = [
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"/engine/userguide/containers/usingdocker/",
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]
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title = "Run a simple application"
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description = "Learn how to manage and operate Docker containers."
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keywords = ["docker, the docker guide, documentation, docker.io, monitoring containers, docker top, docker inspect, docker port, ports, docker logs, log, Logs"]
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[menu.main]
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parent = "engine_learn_menu"
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weight=-5
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+++
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<![end-metadata]-->
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# Run a simple application
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In the ["*Hello world in a container*"](dockerizing.md) you launched your
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first containers using the `docker run` command. You ran an *interactive container* that ran in the foreground. You also ran a *detached container* that ran in the background. In the process you learned about several Docker commands:
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* `docker ps` - Lists containers.
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* `docker logs` - Shows us the standard output of a container.
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* `docker stop` - Stops running containers.
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## Learn about the Docker client
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If you didn't realize it yet, you've been using the Docker client each time you
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typed `docker` in your Bash terminal. The client is a simple command line client
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also known as a command-line interface (CLI). Each action you can take with
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the client is a command and each command can take a series of flags and arguments.
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# Usage: [sudo] docker [subcommand] [flags] [arguments] ..
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# Example:
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$ docker run -i -t ubuntu /bin/bash
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You can see this in action by using the `docker version` command to return
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version information on the currently installed Docker client and daemon.
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$ docker version
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This command will not only provide you the version of Docker client and
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daemon you are using, but also the version of Go (the programming
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language powering Docker).
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Client:
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Version: 1.8.1
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API version: 1.20
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Go version: go1.4.2
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Git commit: d12ea79
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Built: Thu Aug 13 02:35:49 UTC 2015
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OS/Arch: linux/amd64
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Server:
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Version: 1.8.1
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API version: 1.20
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Go version: go1.4.2
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Git commit: d12ea79
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Built: Thu Aug 13 02:35:49 UTC 2015
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OS/Arch: linux/amd64
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## Get Docker command help
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You can display the help for specific Docker commands. The help details the
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options and their usage. To see a list of all the possible commands, use the
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following:
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$ docker --help
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To see usage for a specific command, specify the command with the `--help` flag:
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$ docker attach --help
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Usage: docker attach [OPTIONS] CONTAINER
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Attach to a running container
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Options:
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--detach-keys string Override the key sequence for detaching a container
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--help Print usage
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--no-stdin Do not attach STDIN
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--sig-proxy Proxy all received signals to the process (default true)
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> **Note:**
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> For further details and examples of each command, see the
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> [command reference](../reference/commandline/cli.md) in this guide.
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## Running a web application in Docker
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So now you've learned a bit more about the `docker` client you can move onto
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the important stuff: running more containers. So far none of the
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containers you've run did anything particularly useful, so you can
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change that by running an example web application in Docker.
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For our web application we're going to run a Python Flask application.
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Start with a `docker run` command.
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$ docker run -d -P training/webapp python app.py
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Review what the command did. You've specified two flags: `-d` and
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`-P`. You've already seen the `-d` flag which tells Docker to run the
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container in the background. The `-P` flag is new and tells Docker to
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map any required network ports inside our container to our host. This
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lets us view our web application.
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You've specified an image: `training/webapp`. This image is a
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pre-built image you've created that contains a simple Python Flask web
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application.
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Lastly, you've specified a command for our container to run: `python app.py`. This launches our web application.
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> **Note:**
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> You can see more detail on the `docker run` command in the [command
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> reference](../reference/commandline/run.md) and the [Docker Run
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> Reference](../reference/run.md).
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## Viewing our web application container
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Now you can see your running container using the `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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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 can see you've specified a new flag, `-l`, for the `docker ps`
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command. This tells the `docker ps` command to return the details of the
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*last* container started.
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> **Note:**
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> By default, the `docker ps` command only shows information about running
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> containers. If you want to see stopped containers too use the `-a` flag.
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We can see the same details we saw [when we first Dockerized a
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container](dockerizing.md) with one important addition in the `PORTS`
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column.
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PORTS
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0.0.0.0:49155->5000/tcp
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When we passed the `-P` flag to the `docker run` command Docker mapped any
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ports exposed in our image to our host.
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> **Note:**
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> We'll learn more about how to expose ports in Docker images when
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> [we learn how to build images](dockerimages.md).
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In this case Docker has exposed port 5000 (the default Python Flask
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port) on port 49155.
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Network port bindings are very configurable in Docker. In our last example the
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`-P` flag is a shortcut for `-p 5000` that maps port 5000 inside the container
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to a high port (from *ephemeral port range* which typically ranges from 32768
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to 61000) on the local Docker host. We can also bind Docker containers to
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specific ports using the `-p` flag, for example:
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$ docker run -d -p 80:5000 training/webapp python app.py
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This would map port 5000 inside our container to port 80 on our local
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host. You might be asking about now: why wouldn't we just want to always
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use 1:1 port mappings in Docker containers rather than mapping to high
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ports? Well 1:1 mappings have the constraint of only being able to map
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one of each port on your local host.
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Suppose you want to test two Python applications: both bound to port 5000 inside
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their own containers. Without Docker's port mapping you could only access one at
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a time on the Docker host.
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So you can now browse to port 49155 in a web browser to
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see the application.
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![Viewing the web application](webapp1.png).
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Our Python application is live!
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> **Note:**
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> If you have been using a virtual machine on OS X, Windows or Linux,
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> you'll need to get the IP of the virtual host instead of using localhost.
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> You can do this by running the `docker-machine ip your_vm_name` from your command line or terminal application, for example:
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>
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> $ docker-machine ip my-docker-vm
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> 192.168.99.100
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>
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> In this case you'd browse to `http://192.168.99.100:49155` for the above example.
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## A network port shortcut
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Using the `docker ps` command to return the mapped port is a bit clumsy so
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Docker has a useful shortcut we can use: `docker port`. To use `docker port` we
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specify the ID or name of our container and then the port for which we need the
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corresponding public-facing port.
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$ docker port nostalgic_morse 5000
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0.0.0.0:49155
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In this case you've looked up what port is mapped externally to port 5000 inside
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the container.
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## Viewing the web application's logs
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You can also find out a bit more about what's happening with our application and
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use another of the commands you've learned, `docker logs`.
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$ docker logs -f nostalgic_morse
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* Running on http://0.0.0.0:5000/
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10.0.2.2 - - [23/May/2014 20:16:31] "GET / HTTP/1.1" 200 -
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10.0.2.2 - - [23/May/2014 20:16:31] "GET /favicon.ico HTTP/1.1" 404 -
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This time though you've added a new flag, `-f`. This causes the `docker
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logs` command to act like the `tail -f` command and watch the
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container's standard out. We can see here the logs from Flask showing
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the application running on port 5000 and the access log entries for it.
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## Looking at our web application container's processes
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In addition to the container's logs we can also examine the processes
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running inside it using the `docker top` command.
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$ docker top nostalgic_morse
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PID USER COMMAND
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854 root python app.py
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Here we can see our `python app.py` command is the only process running inside
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the container.
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## Inspecting our web application container
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Lastly, we can take a low-level dive into our Docker container using the
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`docker inspect` command. It returns a JSON document containing useful
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configuration and status information for the specified container.
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$ docker inspect nostalgic_morse
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You can see a sample of that JSON output.
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[{
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"ID": "bc533791f3f500b280a9626688bc79e342e3ea0d528efe3a86a51ecb28ea20",
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"Created": "2014-05-26T05:52:40.808952951Z",
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"Path": "python",
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"Args": [
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"app.py"
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],
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"Config": {
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"Hostname": "bc533791f3f5",
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"Domainname": "",
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"User": "",
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. . .
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We can also narrow down the information we want to return by requesting a
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specific element, for example to return the container's IP address we would:
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$ docker inspect -f '{{range .NetworkSettings.Networks}}{{.IPAddress}}{{end}}' nostalgic_morse
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172.17.0.5
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## Stopping our web application container
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Okay you've seen web application working. Now you can stop it using the
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`docker stop` command and the name of our container: `nostalgic_morse`.
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$ docker stop nostalgic_morse
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nostalgic_morse
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We can now use the `docker ps` command to check if the container has
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been stopped.
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$ docker ps -l
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## Restarting our web application container
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Oops! Just after you stopped the container you get a call to say another
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developer needs the container back. From here you have two choices: you
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can create a new container or restart the old one. Look at
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starting your previous container back up.
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$ docker start nostalgic_morse
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nostalgic_morse
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Now quickly run `docker ps -l` again to see the running container is
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back up or browse to the container's URL to see if the application
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responds.
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> **Note:**
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> Also available is the `docker restart` command that runs a stop and
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> then start on the container.
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## Removing our web application container
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Your colleague has let you know that they've now finished with the container
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and won't need it again. Now, you can remove it using the `docker rm` command.
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$ docker rm nostalgic_morse
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Error: Impossible to remove a running container, please stop it first or use -f
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2014/05/24 08:12:56 Error: failed to remove one or more containers
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What happened? We can't actually remove a running container. This protects
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you from accidentally removing a running container you might need. You can try
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this again by stopping the container first.
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$ docker stop nostalgic_morse
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nostalgic_morse
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$ docker rm nostalgic_morse
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nostalgic_morse
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And now our container is stopped and deleted.
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> **Note:**
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> Always remember that removing a container is final!
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# Next steps
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Until now you've only used images that you've downloaded from Docker Hub. Next,
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you can get introduced to building and sharing our own images.
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Go to [Working with Docker Images](dockerimages.md).
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