2013-06-11 01:15:06 -04:00
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---
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layout: "docs"
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---
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# Custom Builder Development
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Builders are the components of Packer responsible for creating a machine,
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bringing it to a point where it can be provisioned, and then turning
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that provisioned machine into some sort of machine image. Several builders
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are officially distributed with Packer itself, such as the AMI builder, the
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VMware builder, etc. However, it is possible to write custom builders using
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the Packer plugin interface, and this page documents how to do that.
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Prior to reading this page, it is assumed you have read the page on
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[plugin development basics](/docs/extend/developing-plugins.html).
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<div class="alert alert-block">
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<strong>Warning!</strong> This is an advanced topic. If you're new to Packer,
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we recommend getting a bit more comfortable before you dive into writing
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plugins.
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</div>
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## The Interface
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The interface that must be implemented for a builder is the `packer.Builder`
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interface. It is reproduced below for easy reference. The reference below
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also contains some basic documentatin of what each of the methods are
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supposed to do.
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<pre class="prettyprint">
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type Builder interface {
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// Prepare is responsible for reading in some configuration, in the raw form
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// of map[string]interface{}, and storing that state for use later. Any setup
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// should be done in this method. Note that NO side effects should really take
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// place in prepare. It is meant as a state setup step only.
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Prepare(config interface{}) error
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// Run is where the actual build should take place. It takes a Ui to
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// send messages to the user, Hook to execute hooks, and Cache in order
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// to save files across runs.
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Run(Ui, Hook, Cache) Artifact
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// Cancel cancels a possibly running Builder. This should block until
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// the builder actually cancels and cleans up after itself.
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Cancel()
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}
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</pre>
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### The "Prepare" Method
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The `Prepare` method for each builder is called prior to any runs with
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the configuration that was given in the template. This is passed in as
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an `interface{}` type, but is generally `map[string]interface{}`. The prepare
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method is responsible for translating this configuration into an internal
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structure, validating it, and returning any errors.
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For decoding the `interface{}` into a meaningful structure, the
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[mapstructure](https://github.com/mitchellh/mapstructure) library is recommended.
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Mapstructure will take an `interface{}` and decode it into an arbitrarily
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complex struct. If there are any errors, it generates very human friendly
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errors that can be returned directly from the prepare method.
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While it is not actively enforced, **no side effects** should occur from
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running the `Prepare` method. Specifically, don't create files, don't launch
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virtual machines, etc. Prepare's purpose is solely to configure the builder
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and validate the configuration.
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### The "Run" Method
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`Run` is where all the interesting stuff happens. Run is executed, often
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in parallel for multiple builders, to actually build the machine, provision
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it, and create the resulting machine image, which is returned as an
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implementation of the `packer.Artifact` interface.
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The `Run` method takes three parameters. These are all very useful. The
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`packer.Ui` object is used to send output to the console. `packer.Hook` is
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used to execute hooks, which are covered in more detail in the hook section
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below. And `packer.Cache` is used to store files between multiple Packer
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runs, and is covered in more detail in the cache section below.
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Because builder runs are typically a complex set of many steps, the
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[multistep](https://github.com/mitchellh/multistep) library is recommended
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to bring order to the complexity. Multistep is a library which allows you to
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separate your logic into multiple distinct "steps" and string them together.
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It fully supports cancellation mid-step and so on. Please check it out, it is
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how the built-in builders are all implemented.
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Finally, as a result of `Run`, an implementation of `packer.Artifact` should
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be returned. More details on creating a `packer.Artifact` are covered in the
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artifact section below.
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### The "Cancel" Method
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The `Run` method is often run in parallel. The `Cancel` method can be
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called at any time and requests cancellation of any builder run in progress.
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This method should block until the run actually stops.
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Cancels are most commonly triggered by external interrupts, such as the
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user pressing `Ctrl-C`. Packer will only exit once all the builders clean up,
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so it is important that you architect your builder in a way that it is quick
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to respond to these cancellations and clean up after itself.
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## Creating an Artifact
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2013-06-11 03:38:14 -04:00
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The `Run` method is expected to return an implementation of the
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`packer.Artifact` interface. Each builder must create their own
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implementation. The interface is very simple and the documentation on the
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interface is quite clear.
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The only part of an artifact that may be confusing is the `BuilderId`
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method. This method must return an absolutely unique ID for the builder.
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In general, I follow the practice of making the ID contain my GitHub username
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and then the platform it is building for. For example, the builder ID of
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the VMware builder is "mitchellh.vmware" or something similar.
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Post-processors use the builder ID value in order to make some assumptions
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about the artifact results, so it is important it never changes.
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Other than the builder ID, the rest should be self-explanatory by reading
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the [packer.Artifact interface documentation](#).
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2013-06-11 01:15:06 -04:00
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## Hooks
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2013-06-11 03:38:14 -04:00
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TODO: Hooks are still undergoing some thought...
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2013-06-11 01:15:06 -04:00
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## Provisioning
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2013-06-11 03:38:14 -04:00
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Packer has built-in support for provisioning, but the moment when provisioning
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runs must be invoked by the builder itself, since only the builder knows
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when the machine is running and ready for communication.
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2013-06-11 01:15:06 -04:00
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2013-06-11 03:38:14 -04:00
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When the machine is ready to be provisioned, run the `packer.HookProvision`
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hook, making sure the communicator is not nil, since this is required for
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provisioners. An example of calling the hook is shown below:
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2013-06-11 01:15:06 -04:00
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2013-06-11 03:38:14 -04:00
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<pre class="prettyprint">
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hook.Run(packer.HookProvision, ui, comm, nil)
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</pre>
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2013-06-11 01:15:06 -04:00
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2013-06-11 03:38:14 -04:00
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At this point, Packer will run the provisioners and no additional work
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is necessary.
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## Caching Files
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2013-06-11 01:15:06 -04:00
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2013-06-11 03:38:14 -04:00
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It is common for some builders to deal with very large files, or files that
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take a long time to generate. For example, the VMware builder has the capability
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to download the operating system ISO from the internet. This is timely process,
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so it would be convenient to cache the file. This sort of caching is a core
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part of Packer that is exposed to builders.
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The cache interface is `packer.Cache`. It behaves much like a Go
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[RWMutex](http://golang.org/pkg/sync/#RWMutex). The builder requests a "lock"
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on certain cache keys, and is given exclusive access to that key for the
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duration of the lock. This locking mechanism allows multiple builders to
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share cache data even though they're running in parallel.
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For example, both the VMware and VirtualBox support downloading an operating
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system ISO from the internet. Most of the time, this ISO is identical. The
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locking mechanisms of the cache allow one of the builders to download it
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only once, but allow both builders to share the downloaded file.
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The [documentation for packer.Cache](#) is
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very detailed in how it works.
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