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212 строки
7.5 KiB
Markdown
212 строки
7.5 KiB
Markdown
<!--[metadata]>
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+++
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title = "Hello world in a container"
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description = "A simple 'Hello world' exercise that introduced you to Docker."
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keywords = ["docker guide, docker, docker platform, virtualization framework, how to, dockerize, dockerizing apps, dockerizing applications, container, containers"]
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[menu.main]
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parent="smn_containers"
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weight=-6
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+++
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<![end-metadata]-->
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# Hello world in a container
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*So what's this Docker thing all about?*
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Docker allows you to run applications, worlds you create, inside containers.
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Running an application inside a container takes a single command: `docker run`.
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>**Note**: Depending on your Docker system configuration, you may be required to
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>preface each `docker` command on this page with `sudo`. To avoid this behavior,
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>your system administrator can create a Unix group called `docker` and add users
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>to it.
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## Run a Hello world
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Let's try it now.
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$ docker run ubuntu:14.04 /bin/echo 'Hello world'
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Hello world
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And you just launched your first container!
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So what just happened? Let's step through what the `docker run` command
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did.
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First we specified the `docker` binary and the command we wanted to
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execute, `run`. The `docker run` combination *runs* containers.
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Next we specified an image: `ubuntu:14.04`. This is the source of the container
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we ran. Docker calls this an image. In this case we used an Ubuntu 14.04
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operating system image.
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When you specify an image, Docker looks first for the image on your
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Docker host. If it can't find it then it downloads the image from the public
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image registry: [Docker Hub](https://hub.docker.com).
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Next we told Docker what command to run inside our new container:
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/bin/echo 'Hello world'
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When our container was launched Docker created a new Ubuntu 14.04
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environment and then executed the `/bin/echo` command inside it. We saw
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the result on the command line:
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Hello world
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So what happened to our container after that? Well Docker containers
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only run as long as the command you specify is active. Here, as soon as
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`Hello world` was echoed, the container stopped.
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## An interactive container
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Let's try the `docker run` command again, this time specifying a new
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command to run in our container.
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$ docker run -t -i ubuntu:14.04 /bin/bash
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root@af8bae53bdd3:/#
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Here we've again specified the `docker run` command and launched an
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`ubuntu:14.04` image. But we've also passed in two flags: `-t` and `-i`.
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The `-t` flag assigns a pseudo-tty or terminal inside our new container
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and the `-i` flag allows us to make an interactive connection by
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grabbing the standard in (`STDIN`) of the container.
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We've also specified a new command for our container to run:
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`/bin/bash`. This will launch a Bash shell inside our container.
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So now when our container is launched we can see that we've got a
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command prompt inside it:
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root@af8bae53bdd3:/#
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Let's try running some commands inside our container:
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root@af8bae53bdd3:/# pwd
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/
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root@af8bae53bdd3:/# ls
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bin boot dev etc home lib lib64 media mnt opt proc root run sbin srv sys tmp usr var
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You can see we've run the `pwd` to show our current directory and can
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see we're in the `/` root directory. We've also done a directory listing
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of the root directory which shows us what looks like a typical Linux
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file system.
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You can play around inside this container and when you're done you can
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use the `exit` command or enter Ctrl-D to finish.
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root@af8bae53bdd3:/# exit
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As with our previous container, once the Bash shell process has
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finished, the container is stopped.
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## A daemonized Hello world
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Now a container that runs a command and then exits has some uses but
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it's not overly helpful. Let's create a container that runs as a daemon,
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like most of the applications we're probably going to run with Docker.
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Again we can do this with the `docker run` command:
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$ docker run -d ubuntu:14.04 /bin/sh -c "while true; do echo hello world; sleep 1; done"
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1e5535038e285177d5214659a068137486f96ee5c2e85a4ac52dc83f2ebe4147
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Wait, what? Where's our "hello world" output? Let's look at what we've run here.
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It should look pretty familiar. We ran `docker run` but this time we
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specified a flag: `-d`. The `-d` flag tells Docker to run the container
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and put it in the background, to daemonize it.
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We also specified the same image: `ubuntu:14.04`.
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Finally, we specified a command to run:
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/bin/sh -c "while true; do echo hello world; sleep 1; done"
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This is the (hello) world's silliest daemon: a shell script that echoes
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`hello world` forever.
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So why aren't we seeing any `hello world`'s? Instead Docker has returned
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a really long string:
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1e5535038e285177d5214659a068137486f96ee5c2e85a4ac52dc83f2ebe4147
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This really long string is called a *container ID*. It uniquely
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identifies a container so we can work with it.
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> **Note:**
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> The container ID is a bit long and unwieldy. A bit later,
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> we'll see a shorter ID and ways to name our containers to make
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> working with them easier.
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We can use this container ID to see what's happening with our `hello world` daemon.
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Firstly let's make sure our container is running. We can
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do that with the `docker ps` command. The `docker ps` command queries
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the Docker daemon for information about all the containers it knows
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about.
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$ docker ps
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CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
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1e5535038e28 ubuntu:14.04 /bin/sh -c 'while tr 2 minutes ago Up 1 minute insane_babbage
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Here we can see our daemonized container. The `docker ps` has returned some useful
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information about it, starting with a shorter variant of its container ID:
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`1e5535038e28`.
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We can also see the image we used to build it, `ubuntu:14.04`, the command it
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is running, its status and an automatically assigned name,
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`insane_babbage`.
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> **Note:**
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> Docker automatically generates names for any containers started.
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> We'll see how to specify your own names a bit later.
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Okay, so we now know it's running. But is it doing what we asked it to do? To
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see this we're going to look inside the container using the `docker logs`
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command. Let's use the container name Docker assigned.
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$ docker logs insane_babbage
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hello world
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hello world
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hello world
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. . .
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The `docker logs` command looks inside the container and returns its standard
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output: in this case the output of our command `hello world`.
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Awesome! Our daemon is working and we've just created our first
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Dockerized application!
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Now we've established we can create our own containers let's tidy up
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after ourselves and stop our detached container. To do this we use the
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`docker stop` command.
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$ docker stop insane_babbage
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insane_babbage
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The `docker stop` command tells Docker to politely stop the running
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container. If it succeeds it will return the name of the container it
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has just stopped.
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Let's check it worked with the `docker ps` command.
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$ docker ps
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CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
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Excellent. Our container has been stopped.
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# Next steps
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So far, you launched your first containers using the `docker run` command. You
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ran an *interactive container* that ran in the foreground. You also ran a
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*detached container* that ran in the background. In the process you learned
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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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Now, you have the basis learn more about Docker and how to do some more advanced
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tasks. Go to ["*Run a simple application*"](usingdocker.md) to actually build a
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web application with the Docker client.
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