--- title: About InSpec Profiles --- # InSpec Profiles InSpec supports the creation of complex test and compliance profiles, which organize controls to support dependency management and code reuse. Each profile is a standalone structure with its own distribution and execution flow. # Profile Structure A profile should have the following structure:: ```YAML examples/profile ├── README.md ├── controls │ ├── example.rb │ └── control_etc.rb ├── libraries │ └── extension.rb |── files │ └── extras.conf └── inspec.yml ``` where: * `inspec.yml` includes the profile description (required) * `controls` is the directory in which all tests are located (required) * `libraries` is the directory in which all InSpec resource extensions are located (optional) * `files` is the directory with additional files that a profile can access (optional) * `README.md` should be used to explain the profile, its scope, and usage See a complete example profile in the InSpec open source repository: [Example InSpec Profile](https://github.com/chef/inspec/tree/master/examples/profile) Also check out [Explore InSpec resources](https://learn.chef.io/modules/explore-inspec-resources#/) on Learn Chef Rally to learn more about how profiles are structured with hands-on examples. ## inspec.yml Each profile must have an `inspec.yml` file that defines the following information: * Use `name` to specify a unique name for the profile. Required. * Use `title` to specify a human-readable name for the profile. * Use `maintainer` to specify the profile maintainer. * Use `copyright` to specify the copyright holder. * Use `copyright_email` to specify support contact information for the profile, typically an email address. * Use `license` to specify the license for the profile. * Use `summary` to specify a one line summary for the profile. * Use `description` to specify a multiple line description of the profile. * Use `version` to specify the profile version. * Use `inspec_version` to place SemVer constraints on the version of InSpec that the profile can run under. * Use `supports` to specify a list of supported platform targets. * Use `depends` to define a list of profiles on which this profile depends. `name` is required; all other profile settings are optional. For example: ```YAML name: ssh title: Basic SSH maintainer: Chef Software, Inc. copyright: Chef Software, Inc. copyright_email: support@chef.io license: Proprietary, All rights reserved summary: Verify that SSH Server and SSH Client are configured securely version: 1.0.0 supports: - os-family: linux depends: - name: profile path: ../path/to/profile inspec_version: "~> 2.1" ``` The `inspec.yml` also supports embedded ERB in the file. For example: ```YAML name: dummy title: InSpec Profile maintainer: The Authors copyright: The Authors copyright_email: you@example.com license: Apache-2.0 summary: An InSpec Compliance Profile version: 0.1.0 depends: - name: inherit url: "https://artifactory.com/artifactory/example-repo-local/inspec/0.4.1.tar.gz" username: <%= ENV['USERNAME'] %> password: <%= ENV['API_KEY'] %> ``` ## Verify Profiles Use the `inspec check` command to verify the implementation of a profile: ```bash $ inspec check examples/profile ``` # Platform Support Use the `supports` setting in the `inspec.yml` file to specify one (or more) platforms for which a profile is targeting. The list of supported platforms may contain the following: * Use `platform-family` to restrict to a specific platform family. * Use `platform-name` to restrict on a specific platform name. * Use `release` to restrict to a specific platform version (used with platform-name). * Use `platform` to restrict on either platform-name or platform-family. For compatibility we support `os-name` and `os-family`. We recommend all users to change `os-name` to `platform-name` and `os-family` to `platform-family`. With InSpec 2.0, we introduced new families to help distinguish the cloud platforms. The new families can restrict the platform family to `os`, `aws`, `azure` or `gcp`. For example, to target anything running Debian Linux: ```YAML name: ssh supports: - platform-name: debian ``` and to target only Ubuntu version 14.04 ```YAML name: ssh supports: - platform-name: ubuntu release: 14.04 ``` and to target the entire RedHat platform (including CentOS and Oracle Linux): ```YAML name: ssh supports: - platform-family: redhat ``` and to target anything running on Amazon AWS: ```YAML name: ssh supports: - platform: aws ``` and to target all of these examples in a single `inspec.yml` file: ```YAML name: ssh supports: - platform-name: debian - platform-name: ubuntu release: 14.04 - platform-family: redhat - platform: aws ``` # Profile Dependencies An InSpec profile can bring in the controls and custom resources from another InSpec profile. Additionally, when inheriting the controls of another profile, a profile can skip or even modify those included controls. For hands-on examples, check out [Create a custom InSpec profile](https://learn.chef.io/modules/create-a-custom-profile#/) on Learn Chef Rally. ## Defining the Dependencies Before a profile can use controls from another profile, the to-be-included profile needs to be specified in the including profile’s `inspec.yml` file in the `depends` section. For each profile to be included, a location for the profile from where to be fetched and a name for the profile should be included. For example: ```YAML depends: - name: linux-baseline url: https://github.com/dev-sec/linux-baseline/archive/master.tar.gz - name: ssh-baseline url: https://github.com/dev-sec/ssh-baseline/archive/master.tar.gz ``` InSpec supports a number of dependency sources. ### path The `path` setting defines a profile that is located on disk. This setting is typically used during development of profiles and when debugging profiles. ```YAML depends: - name: my-profile path: /absolute/path - name: another path: ../relative/path ``` ### url The `url` setting specifies a profile that is located at an HTTP- or HTTPS-based URL. The profile must be accessible via a HTTP GET operation and must be a valid profile archive (zip, tar, or tar.gz format). ```YAML depends: - name: my-profile url: https://my.domain/path/to/profile.tgz - name: profile-via-git url: https://github.com/myusername/myprofile-repo/archive/master.tar.gz ``` ### git A `git` setting specifies a profile that is located in a git repository, with optional settings for branch, tag, commit, and version. The source location is translated into a URL upon resolution. This type of dependency supports version constraints via semantic versioning as git tags. For example: ```YAML depends: - name: git-profile git: http://url/to/repo branch: desired_branch tag: desired_version commit: pinned_commit version: semver_via_tags ``` ### supermarket A `supermarket` setting specifies a profile that is located in a cookbook hosted on Chef Supermarket. The source location is translated into a URL upon resolution. For example: ```YAML depends: - name: supermarket-profile supermarket: supermarket-username/supermarket-profile ``` Available Supermarket profiles can be listed with `inspec supermarket profiles`. ### compliance A `compliance` setting specifies a profile that is located on the Chef Automate or Chef Compliance server. For example: ```YAML depends: - name: linux compliance: base/linux ``` ## Vendoring Dependencies When you execute a local profile, the `inspec.yml` file will be read in order to source any profile dependencies. It will then cache the dependencies locally and generate an `inspec.lock` file. If you add or update dependencies in `inspec.yml`, dependencies may be re-vendored and the lockfile updated with `inspec vendor --overwrite` ## Using Controls from an Included Profile Once defined in the `inspec.yml`, controls from the included profiles can be used! Let’s look at some examples. ### Including All Controls from a Profile With the `include_controls` command in a profile, all controls from the named profile will be executed every time the including profile is executed. ![Include Controls](/images/profile_inheritance/include_controls.png) In the example above, every time `my-app-profile` is executed, all the controls from `my-baseline` are also executed. Therefore, the following controls would be executed: * myapp-1 * myapp-2 * myapp-3 * baseline-1 * baseline-2 This is a great reminder that having a good naming convention for your controls is helpful to avoid confusion when including controls from other profiles! ### Skipping a Control from a Profile What if one of the controls from the included profile does not apply to your environment? Luckily, it is not necessary to maintain a slightly-modified copy of the included profile just to delete a control. The `skip_control` command tells InSpec to not run a particular control. ![Include Controls with Skip](/images/profile_inheritance/include_controls_with_skip.png) In the above example, all controls from `my-app-profile` and `my-baseline` profile will be executed every time `my-app-profile` is executed **except** for control `baseline-2` from the `my-baseline` profile. ### Modifying a Control Let's say a particular control from an included profile should still be run, but the impact isn't appropriate? Perhaps the test should still run, but if it fails, it should be treated as low severity instead of high severity? When a control is included, it can also be modified! ![Include Controls with Modification](/images/profile_inheritance/include_controls_with_mod.png) In the above example, all controls from `my-baseline` are executed along with all the controls from the including profile, `my-app-profile`. However, should control `baseline-1` fail, it will be raised with an impact of `0.5` instead of the originally-intended impact of `1.0`. ### Selectively Including Controls from a Profile If there are only a handful of controls that should be executed from an included profile, it's not necessarily to skip all the unneeded controls, or worse, copy/paste those controls bit-for-bit into your profile. Instead, use the `require_controls` command. ![Require Controls](/images/profile_inheritance/require_controls.png) Whenever `my-app-profile` is executed, in addition to its own controls, it will run only the controls specified in the `require_controls` block. In the case, the following controls would be executed: * myapp-1 * myapp-2 * myapp-3 * baseline-2 * baseline-4 Controls `baseline-1`, `baseline-3`, and `baseline-5` would not be run, just as if they were manually skipped. This method of including specific controls ensures only the controls specified are executed; if new controls are added to a later version of `my-baseline`, they would not be run. And, just the way its possible to modify controls when using `include_controls`, controls can be modified as well. ![Require Controls with Modification](/images/profile_inheritance/require_controls_with_mod.png) As with the prior example, only `baseline-2` and `baseline-4` are executed, but if `baseline-2` fails, it will report with an impact of `0.5` instead of the originally-intended `1.0` impact. ## Using Resources from an Included Profile By default, all of the custom resources from a listed dependency are available for use in your profile. If two of your dependencies provide a resource with the same name, you can use the `require_resource` DSL function to disambiguate the two: ```YAML require_resource(profile: 'my_dep', resource: 'my_res', as: 'my_res2') ``` This will allow you to reference the resource `my_res` from the profile `my_dep` using the name `my_res2`. # Profile Attributes Attributes may be used in profiles to define secrets, such as user names and passwords, that should not otherwise be stored in plain-text in a cookbook. First specify a variable in the control for each secret, then add the secret to a YAML file located on the local machine, and then run `inspec exec` and specify the path to that Yaml file using the `--attrs` attribute. For example, a control: ```Ruby # define these attributes on the top-level of your file and re-use them across all tests! val_user = attribute('user', default: 'alice', description: 'An identification for the user') val_password = attribute('password', description: 'A value for the password') control 'system-users' do impact 0.8 desc ' This test assures that the user "Bob" has a user installed on the system, along with a specified password. ' val_user do it { should eq 'bob' } end describe val_password do it { should eq 'secret' } end end ``` And a YAML file named `profile-attribute.yml`: ```YAML user: bob password: secret ``` The following command runs the tests and applies the secrets specified in `profile-attribute.yml`: ```bash $ inspec exec examples/profile-attribute --attrs examples/profile-attribute.yml ``` See the full example in the InSpec open source repository: [Example InSpec Profile with Attributes](https://github.com/chef/inspec/tree/master/examples/profile-attribute) # Profile files An InSpec profile may contain additional files that can be accessed during tests. A profile file enables you to separate the logic of your tests from the data your tests check for, for example, the list of ports you require to be open. To access these files, they must be stored in the `files` directory at the root of a profile. They are accessed by their name relative to this folder with `inspec.profile.file(...)`. Here is an example for reading and testing a list of ports. The folder structure is: ```YAML examples/profile ├── controls │ ├── example.rb │── files │ └── services.yml └── inspec.yml ``` With `services.yml` containing: ```YAML - service_name: httpd-alpha port: 80 - service_name: httpd-beta port: 8080 ``` The tests in `example.rb` can now access this file: ```Ruby my_services = yaml(content: inspec.profile.file('services.yml')).params my_services.each do |s| describe service(s['service_name']) do it { should be_running } end describe port(s['port']) do it { should be_listening } end end ``` For a more complete example that uses a profile file, see [Explore InSpec resources](https://learn.chef.io/modules/explore-inspec-resources#/) on Learn Chef Rally. # "should" vs. "expect" syntax Users familiar with the RSpec testing framework may know that there are two ways to write test statements: `should` and `expect`. The RSpec community decided that `expect` is the preferred syntax. However, InSpec recommends the `should` syntax as it tends to read more easily to those users who are not as technical. InSpec will continue to support both methods of writing tests. Consider this `file` test: ```Ruby describe file('/tmp/test.txt') do it { should be_file } end ``` This can be re-written with `expect` syntax ```Ruby describe file('/tmp/test.txt') do it 'should be a file' do expect(subject).to(be_file) end end ``` The output of both of the above examples looks like this: ```text File /tmp/test.txt ✔ should be a file ``` In addition, you can make use of the `subject` keyword to further control your output if you choose: ```Ruby describe 'test file' do subject { file('/tmp/test.txt') } it 'should be a file' do expect(subject).to(be_file) end end ``` ... which will render the following output: ```text test file ✔ should be a file ```