105 lines
4.7 KiB
Markdown
105 lines
4.7 KiB
Markdown
---
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layout: intro
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sidebar_current: intro-getting-started-provision
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page_title: Provision - Getting Started
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description: |-
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In the previous page of this guide, you created your first image with Packer.
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The image you just built, however, was basically just a repackaging of a
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previously existing base AMI. The real utility of Packer comes from being able
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to install and configure software into the images as well. This stage is also
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known as the *provision* step. Packer fully supports automated provisioning in
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order to install software onto the machines prior to turning them into images.
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---
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# Provision
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In the previous page of this guide, you created your first image with Packer.
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The image you just built, however, was basically just a repackaging of a
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previously existing base AMI. The real utility of Packer comes from being able
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to install and configure software into the images as well. This stage is also
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known as the *provision* step. Packer fully supports automated provisioning in
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order to install software onto the machines prior to turning them into images.
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In this section, we're going to complete our image by installing Redis on it.
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This way, the image we end up building actually contains Redis pre-installed.
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Although Redis is a small, simple example, this should give you an idea of what
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it may be like to install many more packages into the image.
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Historically, pre-baked images have been frowned upon because changing them has
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been so tedious and slow. Because Packer is completely automated, including
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provisioning, images can be changed quickly and integrated with modern
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configuration management tools such as Chef or Puppet.
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## Configuring Provisioners
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Provisioners are configured as part of the template. We'll use the built-in
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shell provisioner that comes with Packer to install Redis. Modify the
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`example.json` template we made previously and add the following. We'll explain
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the various parts of the new configuration following the code block below.
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```json
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{
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"variables": ["..."],
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"builders": ["..."],
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"provisioners": [{
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"type": "shell",
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"inline": [
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"sleep 30",
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"sudo apt-get update",
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"sudo apt-get install -y redis-server"
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]
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}]
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}
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```
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-> **Note:** The `sleep 30` in the example above is very important. Because
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Packer is able to detect and SSH into the instance as soon as SSH is available,
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Ubuntu actually doesn't get proper amounts of time to initialize. The sleep
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makes sure that the OS properly initializes.
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Hopefully it is obvious, but the `builders` section shouldn't actually contain
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"...", it should be the contents setup in the previous page of the getting
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started guide. Also note the comma after the `"builders": [...]` section, which
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was not present in the previous lesson.
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To configure the provisioners, we add a new section `provisioners` to the
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template, alongside the `builders` configuration. The provisioners section is an
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array of provisioners to run. If multiple provisioners are specified, they are
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run in the order given.
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By default, each provisioner is run for every builder defined. So if we had two
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builders defined in our template, such as both Amazon and DigitalOcean, then the
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shell script would run as part of both builds. There are ways to restrict
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provisioners to certain builds, but it is outside the scope of this getting
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started guide. It is covered in more detail in the complete
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[documentation](/docs/index.html).
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The one provisioner we defined has a type of `shell`. This provisioner ships
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with Packer and runs shell scripts on the running machine. In our case, we
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specify two inline commands to run in order to install Redis.
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## Build
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With the provisioner configured, give it a pass once again through
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`packer validate` to verify everything is okay, then build it using
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`packer build example.json`. The output should look similar to when you built
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your first image, except this time there will be a new step where the
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provisioning is run.
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The output from the provisioner is too verbose to include in this guide, since
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it contains all the output from the shell scripts. But you should see Redis
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successfully install. After that, Packer once again turns the machine into an
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AMI.
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If you were to launch this AMI, Redis would be pre-installed. Cool!
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This is just a basic example. In a real world use case, you may be provisioning
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an image with the entire stack necessary to run your application. Or maybe just
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the web stack so that you can have an image for web servers pre-built. This
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saves tons of time later as you launch these images since everything is
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pre-installed. Additionally, since everything is pre-installed, you can test the
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images as they're built and know that when they go into production, they'll be
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functional.
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[Continue to parallel builds](./parallel-builds.html) |