Inputs are the "knobs" you can use to customize the behavior of Chef InSpec profiles. If a profile supports inputs, you can set the inputs in a variety of ways, allowing flexibility. Profiles that include other profiles can set inputs in the included profile, enabling a multi-layered approach to configuring profiles.
The best way for a profile to indicate it supports inputs is to list them in the metadata file, `inspec.yml`. Any profile that has an `inputs` (or the deprecated `attributes`) section in its `inspec.yml` metadata file is [configuring](#configuring-inputs-in-profile-metadata) inputs.
That said, any profile that uses the DSL keyword `input()` (or the deprecated `attribute()`) in the control source code supports inputs. These profiles are *reading* (and possibly setting) input values and using them to make decisions.
Whenever an input provider sets a value on an input, a *priority value* is assigned to the operation. Over the life of the input, multiple assignments with varying priority values may occur. When the input is evaluated, the current value is determined by finding the setting event with the highest priority.
Note that this approach does not rely on execution order, nor does it rely on multiple named precedence levels. Each setting operation is preserved and this allows the user to [debug](#debugging-inputs-with-the-event-log) the history of the input values.
Support for using the DSL keyword `attribute()`, the metadata field `attributes:`, and the corresponding kitchen-inspec and audit cookbook values are anticipated to continue through Chef InSpec v5.
When you write `input('some_name', value: 'some_value')`, you are *setting* an input value in the DSL. Because the `value:` option is present, a new value will be set. You may also pass any other option listed in the [input option reference](#input-options-reference).
When you call `input('some_name')`, with or without additional options, the value of the input will be resolved and returned. Note that this process may involve sourcing the value from another provider, using the value set in DSL, or overriding the value provided in the same call.
Each Chef InSpec profile has a metadata file at the top level named `inspec.yml`. In that file, you may add a section for inputs. You may define inputs there, clearly setting options including values, type checking, and whether the input is required.
There are two major advantages to defining inputs in profile metadata:
1. The inputs and their configuration are listed explicitly in simple YAML in one place - a consumer of your profile does not need to read through the control code to find the inputs.
2. You can set inputs in other profiles that you depend on using profile inheritance.
When your profile relies on another profile using the `depends` key in the metadata file, you can set — that is, override — the value of the input in the dependent profile by including the `profile` option and naming the dependent profile.
In Chef InSpec 4+, every input is namespaced. For example, you could have an input named `wrapper/favorite_food` and one named `child/favorite_food`. If no explicit profile option is set within the `wrapper` profile metadata file, then `wrapper` is assumed to be the profile.
1. No [input options](#input-options-reference) may be set - only the name and value.
2. Because the CLI is outside the scope of any individual profile and the inputs don't take options, the inputs are clumsily copied into every profile, effectively making the CLI mechanism global.
As of Chef InSpec 4.12, this mechanism has the following limitations:
1. No [input options](#input-options-reference) may be set - only the name and value.
2. Because the CLI is outside the scope of any individual profile and the inputs don't take options, the inputs are clumsily copied into every profile, effectively making the CLI mechanism global.
Allowed in: All. When used in DSL and Metadata, the name is unique within the current profile. When used in CLI input files, audit cookbook, and kitchen-inspec, the input is copied across all profiles using the same name.
Optional, any Ruby or YAML type. This is the value that will be available when you read the input. See the [Reading Inputs](#reading-inputs-in-control-dsl) section for more information.
Optional, `String`. This value must be one of `String`, `Numeric`, `Regexp`, `Array`, `Hash`, `Boolean`, or `Any`. If provided, the value of the input will be checked to see if it is of the corresponding type. Note that `Regexp` indicates that the input value itself should be a regular expression, not that it should match any particular regular expression.
Optional, `true` or `false`. If `true`, a control using the input will be failed if it [reads](#reading-inputs-in-control-dsl) the value when none has been set.
First, use the `input_object()` DSL method. This method is like `input()` in that it looks up an input, but instead of evaluating the current value, it returns the underlying `Inspec::Input` object.
`diagnostic_string` assembles the Event Log into a printable log message for convenience.
The Event Log contains entries for every time that the value changed, as well as one for when the input was first created. When possible, stack probing is used to determine file and line numbers. Most importantly, you will see priority numbers; remember that highest priority wins; order only matters to break a tie.