github.com/slava-ustovytski/docker@v1.8.2-rc1/docs/examples/nodejs_web_app.md (about)

     1  <!--[metadata]>
     2  +++
     3  title = "Dockerizing a Node.js web app"
     4  description = "Installing and running a Node.js app with Docker"
     5  keywords = ["docker, example, package installation, node,  centos"]
     6  [menu.main]
     7  parent = "smn_applied"
     8  +++
     9  <![end-metadata]-->
    10  
    11  # Dockerizing a Node.js web app
    12  
    13  > **Note**: 
    14  > - **If you don't like sudo** then see [*Giving non-root
    15  >   access*](/installation/binaries/#giving-non-root-access)
    16  
    17  The goal of this example is to show you how you can build your own
    18  Docker images from a parent image using a `Dockerfile`
    19  . We will do that by making a simple Node.js hello world web
    20  application running on CentOS. You can get the full source code at
    21  [https://github.com/enokd/docker-node-hello/](https://github.com/enokd/docker-node-hello/).
    22  
    23  ## Create Node.js app
    24  
    25  First, create a directory `src` where all the files
    26  would live. Then create a `package.json` file that
    27  describes your app and its dependencies:
    28  
    29      {
    30        "name": "docker-centos-hello",
    31        "private": true,
    32        "version": "0.0.1",
    33        "description": "Node.js Hello world app on CentOS using docker",
    34        "author": "Daniel Gasienica <daniel@gasienica.ch>",
    35        "dependencies": {
    36          "express": "3.2.4"
    37        }
    38      }
    39  
    40  Then, create an `index.js` file that defines a web
    41  app using the [Express.js](http://expressjs.com/) framework:
    42  
    43      var express = require('express');
    44  
    45      // Constants
    46      var PORT = 8080;
    47  
    48      // App
    49      var app = express();
    50      app.get('/', function (req, res) {
    51        res.send('Hello world\n');
    52      });
    53  
    54      app.listen(PORT);
    55      console.log('Running on http://localhost:' + PORT);
    56  
    57  In the next steps, we'll look at how you can run this app inside a
    58  CentOS container using Docker. First, you'll need to build a Docker
    59  image of your app.
    60  
    61  ## Creating a Dockerfile
    62  
    63  Create an empty file called `Dockerfile`:
    64  
    65      touch Dockerfile
    66  
    67  Open the `Dockerfile` in your favorite text editor
    68  
    69  Define the parent image you want to use to build your own image on
    70  top of. Here, we'll use
    71  [CentOS](https://registry.hub.docker.com/_/centos/) (tag: `centos6`)
    72  available on the [Docker Hub](https://hub.docker.com/):
    73  
    74      FROM    centos:centos6
    75  
    76  Since we're building a Node.js app, you'll have to install Node.js as
    77  well as npm on your CentOS image. Node.js is required to run your app
    78  and npm to install your app's dependencies defined in
    79  `package.json`. To install the right package for
    80  CentOS, we'll use the instructions from the [Node.js wiki](
    81  https://github.com/joyent/node/wiki/Installing-Node.js-
    82  via-package-manager#rhelcentosscientific-linux-6):
    83  
    84      # Enable EPEL for Node.js
    85      RUN     rpm -Uvh http://download.fedoraproject.org/pub/epel/6/i386/epel-release-6-8.noarch.rpm
    86      # Install Node.js and npm
    87      RUN     yum install -y npm
    88  
    89  To bundle your app's source code inside the Docker image, use the `COPY`
    90  instruction:
    91  
    92      # Bundle app source
    93      COPY . /src
    94  
    95  Install your app dependencies using the `npm` binary:
    96  
    97      # Install app dependencies
    98      RUN cd /src; npm install
    99  
   100  Your app binds to port `8080` so you'll use the` EXPOSE` instruction to have
   101  it mapped by the `docker` daemon:
   102  
   103      EXPOSE  8080
   104  
   105  Last but not least, define the command to run your app using `CMD` which
   106  defines your runtime, i.e. `node`, and the path to our app, i.e. `src/index.js`
   107  (see the step where we added the source to the container):
   108  
   109      CMD ["node", "/src/index.js"]
   110  
   111  Your `Dockerfile` should now look like this:
   112  
   113      FROM    centos:centos6
   114  
   115      # Enable EPEL for Node.js
   116      RUN     rpm -Uvh http://download.fedoraproject.org/pub/epel/6/i386/epel-release-6-8.noarch.rpm
   117      # Install Node.js and npm
   118      RUN     yum install -y npm
   119  
   120      # Bundle app source
   121      COPY . /src
   122      # Install app dependencies
   123      RUN cd /src; npm install
   124  
   125      EXPOSE  8080
   126      CMD ["node", "/src/index.js"]
   127  
   128  ## Building your image
   129  
   130  Go to the directory that has your `Dockerfile` and run the following command
   131  to build a Docker image. The `-t` flag lets you tag your image so it's easier
   132  to find later using the `docker images` command:
   133  
   134      $ docker build -t <your username>/centos-node-hello .
   135  
   136  Your image will now be listed by Docker:
   137  
   138      $ docker images
   139  
   140      # Example
   141      REPOSITORY                          TAG        ID              CREATED
   142      centos                              centos6    539c0211cd76    8 weeks ago
   143      <your username>/centos-node-hello   latest     d64d3505b0d2    2 hours ago
   144  
   145  ## Run the image
   146  
   147  Running your image with `-d` runs the container in detached mode, leaving the
   148  container running in the background. The `-p` flag redirects a public port to
   149  a private port in the container. Run the image you previously built:
   150  
   151      $ docker run -p 49160:8080 -d <your username>/centos-node-hello
   152  
   153  Print the output of your app:
   154  
   155      # Get container ID
   156      $ docker ps
   157  
   158      # Print app output
   159      $ docker logs <container id>
   160  
   161      # Example
   162      Running on http://localhost:8080
   163  
   164  ## Test
   165  
   166  To test your app, get the port of your app that Docker mapped:
   167  
   168      $ docker ps
   169  
   170      # Example
   171      ID            IMAGE                                     COMMAND              ...   PORTS
   172      ecce33b30ebf  <your username>/centos-node-hello:latest  node /src/index.js         49160->8080
   173  
   174  In the example above, Docker mapped the `8080` port of the container to `49160`.
   175  
   176  Now you can call your app using `curl` (install if needed via:
   177  `sudo apt-get install curl`):
   178  
   179      $ curl -i localhost:49160
   180  
   181      HTTP/1.1 200 OK
   182      X-Powered-By: Express
   183      Content-Type: text/html; charset=utf-8
   184      Content-Length: 12
   185      Date: Sun, 02 Jun 2013 03:53:22 GMT
   186      Connection: keep-alive
   187  
   188      Hello world
   189  
   190  If you use Boot2docker on OS X, the port is actually mapped to the Docker host VM,
   191  and you should use the following command:
   192  
   193      $ curl $(boot2docker ip):49160
   194  
   195  We hope this tutorial helped you get up and running with Node.js and
   196  CentOS on Docker. You can get the full source code at
   197  [https://github.com/enokd/docker-node-hello/](https://github.com/enokd/docker-node-hello/).