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docs | docs-templates-post-processors | Post-Processors - Templates | The post-processor section within a template configures any post-processing that will be done to images built by the builders. Examples of post-processing would be compressing files, uploading artifacts, etc. |
Template Post-Processors
The post-processor section within a template configures any post-processing that will be done to images built by the builders. Examples of post-processing would be compressing files, uploading artifacts, etc.
Post-processors are optional. If no post-processors are defined within a template, then no post-processing will be done to the image. The resulting artifact of a build is just the image outputted by the builder.
This documentation page will cover how to configure a post-processor in a template. The specific configuration options available for each post-processor, however, must be referenced from the documentation for that specific post-processor.
Within a template, a section of post-processor definitions looks like this:
{
"post-processors": [
// ... one or more post-processor definitions here
]
}
For each post-processor definition, Packer will take the result of each of the defined builders and send it through the post-processors. This means that if you have one post-processor defined and two builders defined in a template, the post-processor will run twice (once for each builder), by default. There are ways, which will be covered later, to control what builders post-processors apply to, if you wish.
Post-Processor Definition
Within the post-processors
array in a template, there are three ways to define
a post-processor. There are simple definitions, detailed definitions, and
sequence definitions. Don't worry, they're all very easy to understand, and
the "simple" and "detailed" definitions are simply shortcuts for the "sequence"
definition.
A simple definition is just a string; the name of the post-processor. An example is shown below. Simple definitions are used when no additional configuration is needed for the post-processor.
{
"post-processors": ["compress"]
}
A detailed definition is a JSON object. It is very similar to a builder or
provisioner definition. It contains a type
field to denote the type of the
post-processor, but may also contain additional configuration for the
post-processor. A detailed definition is used when additional configuration is
needed beyond simply the type for the post-processor. An example is shown below.
{
"post-processors": [
{
"type": "compress",
"format": "tar.gz"
}
]
}
A sequence definition is a JSON array comprised of other simple or detailed definitions. The post-processors defined in the array are run in order, with the artifact of each feeding into the next, and any intermediary artifacts being discarded. A sequence definition may not contain another sequence definition. Sequence definitions are used to chain together multiple post-processors. An example is shown below, where the artifact of a build is compressed then uploaded, but the compressed result is not kept.
It is very important that any post processors that need to be run in order, be sequenced!
{
"post-processors": [
[
"compress",
{ "type": "upload", "endpoint": "http://example.com" }
]
]
}
As you may be able to imagine, the simple and detailed definitions are simply shortcuts for a sequence definition of only one element.
Creating Vagrant Boxes in Atlas
It is important to sequence post processors when creating and uploading vagrant boxes to Atlas via Packer. Using a sequence will ensure that the post processors are ran in order and creates the vagrant box prior to uploading the box to Atlas.
{
"post-processors": [
[
{
"type": "vagrant",
"keep_input_artifact": false
},
{
"type": "atlas",
"only": ["virtualbox-iso"],
"artifact": "dundlermifflin/dwight-schrute",
"artifact_type": "vagrant.box",
"metadata": {
"provider": "virtualbox",
"version": "0.0.1"
}
}
]
]
}
More documentation on the Atlas post-processor can be found here
Input Artifacts
When using post-processors, the input artifact (coming from a builder or another post-processor) is discarded by default after the post-processor runs. This is because generally, you don't want the intermediary artifacts on the way to the final artifact created.
In some cases, however, you may want to keep the intermediary artifacts. You can
tell Packer to keep these artifacts by setting the keep_input_artifact
configuration to true
. An example is shown below:
{
"post-processors": [
{
"type": "compress",
"keep_input_artifact": true
}
]
}
This setting will only keep the input artifact to that specific post-processor. If you're specifying a sequence of post-processors, then all intermediaries are discarded by default except for the input artifacts to post-processors that explicitly state to keep the input artifact.
-> Note: The intuitive reader may be wondering what happens if multiple post-processors are specified (not in a sequence). Does Packer require the configuration to keep the input artifact on all the post-processors? The answer is no, of course not. Packer is smart enough to figure out that at least one post-processor requested that the input be kept, so it will keep it around.
Run on Specific Builds
You can use the only
or except
configurations to run a post-processor only
with specific builds. These two configurations do what you expect: only
will
only run the post-processor on the specified builds and except
will run the
post-processor on anything other than the specified builds.
An example of only
being used is shown below, but the usage of except
is
effectively the same. only
and except
can only be specified on "detailed"
configurations. If you have a sequence of post-processors to run, only
and
except
will only affect that single post-processor in the sequence.
{
"type": "vagrant",
"only": ["virtualbox-iso"]
}
The values within only
or except
are build names, not builder types. If
you recall, build names by default are just their builder type, but if you
specify a custom name
parameter, then you should use that as the value instead
of the type.