--- title: Chef InSpec DSL --- # Chef InSpec DSL Chef InSpec is a run-time framework and rule language used to specify compliance, security, and policy requirements. It includes a collection of resources that help you write auditing controls quickly and easily. The syntax used by both open source and |chef compliance| auditing is the same. The open source |Chef InSpec resource| framework is compatible with |chef compliance|. The Chef InSpec DSL is a Ruby DSL for writing audit controls, which includes audit resources that you can invoke. The following sections describe the syntax and show some simple examples of using the Chef InSpec resources. ## Syntax The following resource tests |ssh| server configuration. For example, a simple control may described as: ```ruby describe sshd_config do its('Port') { should cmp 22 } end ``` In various use cases like implementing IT compliance across different departments, it becomes handy to extend the control with metadata. Each control may define an additional ``impact``, ``title`` or ``desc``. An example looks like: ```ruby control 'sshd-8' do impact 0.6 title 'Server: Configure the service port' desc 'Always specify which port the SSH server should listen.' desc 'rationale', 'This ensures that there are no unexpected settings' # Requires Chef InSpec >=2.3.4 tag 'ssh','sshd','openssh-server' tag cce: 'CCE-27072-8' ref 'NSA-RH6-STIG - Section 3.5.2.1', url: 'https://www.nsa.gov/ia/_files/os/redhat/rhel5-guide-i731.pdf' describe sshd_config do its('Port') { should cmp 22 } end end ``` where * `'sshd-8'` is the name of the control * `impact`, `title`, and `desc` define metadata that fully describes the importance of the control, its purpose, with a succinct and complete description * `desc` when given only one argument it sets the default description. As of Chef InSpec 2.3.4, when given 2 arguments (see: `'rationale'`) it will use the first argument as a header when rendering in Automate * `impact` is a string, or numeric that measures the importance of the compliance results. Valid strings for impact are `none`, `low`, `medium`, `high`, and `critical`. The values are based off CVSS 3.0. A numeric value must be between `0.0` and `1.0`. The value ranges are: * `0.0 to <0.01` these are controls with no impact, they only provide information * `0.01 to <0.4` these are controls with low impact * `0.4 to <0.7` these are controls with medium impact * `0.7 to <0.9` these are controls with high impact * `0.9 to 1.0` these are critical controls * `tag` is optional meta-information with with key or key-value pairs * `ref` is a reference to an external document * `describe` is a block that contains at least one test. A `control` block must contain at least one `describe` block, but may contain as many as required * `sshd_config` is a Chef InSpec resource. For the full list of Chef InSpec resources, see Chef InSpec resource documentation * `its('Port')` is the matcher; `{ should eq '22' }` is the test. A `describe` block must contain at least one matcher, but may contain as many as required ## Advanced concepts With Chef InSpec it is possible to check if at least one of a collection of checks is true. For example: If a setting is configured in two different locations, you may want to test if either configuration A or configuration B have been set. This is accomplished via `describe.one`. It defines a block of tests with at least one valid check. ```ruby describe.one do describe ConfigurationA do its('setting_1') { should eq true } end describe ConfigurationB do its('setting_2') { should eq true } end end ``` ### Sensitive resources In some scenarios, you may be writing checks involving resources with sensitive content (e.g. a file resource). In the case of failures, it may be desired to suppress output. This can be done by adding the `:sensitive` flag to the resource definition ```ruby describe file('/tmp/mysecretfile'), :sensitive do its('content') { should match /secret_info/ } end ``` ## Examples The following examples show simple compliance tests using a single `control` block. ## Test System Event Log The following test shows how to audit machines running Windows 2012 R2 that password complexity is enabled: ```ruby control 'windows-account-102' do impact 'critical' title 'Windows Password Complexity is Enabled' desc 'Password must meet complexity requirement' describe security_policy do its('PasswordComplexity') { should cmp 1 } end end ``` ## Test if PostgreSQL passwords are empty The following test shows how to audit machines running PostgreSQL to ensure that passwords are not empty. ```ruby control 'postgres-7' do impact 1.0 title "Don't allow empty passwords" describe postgres_session('user', 'pass').query("SELECT * FROM pg_shadow WHERE passwd IS NULL;") do its('output') { should cmp '' } end end ``` ## Test if MySQL passwords are in ENV The following test shows how to audit machines running MySQL to ensure that passwords are not stored in `ENV`: ```ruby control 'mysql-3' do impact 1.0 title 'Do not store your MySQL password in your ENV' desc ' Storing credentials in your ENV may easily expose them to an attacker. Prevent this at all costs. ' describe command('env') do its('stdout') { should_not match /^MYSQL_PWD=/ } end end ``` ## Test if `/etc/ssh` is a Directory The following test shows how to audit machines to ensure that `/etc/ssh` is a directory: ```ruby control 'basic-1' do impact 1.0 title '/etc/ssh should be a directory' desc ' In order for OpenSSH to function correctly, its configuration path must be a folder. ' describe file('/etc/ssh') do it { should be_directory } end end ``` ## Test if Apache running The following test shows how to audit machines to ensure that Apache is enabled and running: ```ruby control 'apache-1' do impact 'medium' title 'Apache2 should be configured and running' describe service(apache.service) do it { should be_enabled } it { should be_running } end end ``` ## Test if insecure packages are installed The following test shows how to audit machines for insecure packages: ```ruby control 'cis-os-services-5.1.3' do impact 0.7 title '5.1.3 Ensure rsh client is not installed' describe package('rsh') do it { should_not be_installed } end describe package('rsh-redone-client') do it { should_not be_installed } end end ``` ## Test Windows Registry Keys The following test shows how to audit machines to ensure Safe DLL Search Mode is enabled: ```ruby control 'windows-base-101' do impact 1.0 title 'Safe DLL Search Mode is Enabled' desc ' @link: https://msdn.microsoft.com/en-us/library/ms682586(v=vs.85).aspx ' describe registry_key('HKLM\\System\\CurrentControlSet\\Control\\Session Manager') do it { should exist } it { should_not have_property_value('SafeDllSearchMode', :type_dword, '0') } end end ``` ## Exclude specific test This shows how to allow skipping certain tests if conditions are not met, by using `only_if`. In this example the test will not be performed if `redis-cli` command does not exist. A optional message can say why it was skipped. ```ruby control 'nutcracker-connect-redis-001' do impact 'critical' title 'Check if nutcracker can pass commands to redis' desc 'execute redis-cli set key command, to check connectivity of the service' only_if('redis is not installed.') do command('redis-cli').exist? end describe command('redis-cli SET test_inspec "HELLO"') do its('stdout') { should match /OK/ } end end ``` Mixing this with other conditionals (like checking existence of the files etc.) can help to test different test paths using InSpec. This way you can skip certain tests which would 100% fail due to the way servers are prepared, but you know that the same test suites are reused later in different circumstances by different teams. ## Additional metadata for controls The following example illustrates various ways to add tags and references to `control` ```ruby control 'ssh-1' do impact 1.0 title 'Allow only SSH Protocol 2' desc ' Only SSH protocol version 2 connections should be permitted. The default setting in /etc/ssh/sshd_config is correct, and can be verified by ensuring that the following line appears: Protocol 2 ' tag 'production','development' tag 'ssh','sshd','openssh-server' tag cce: 'CCE-27072-8' tag disa: 'RHEL-06-000227' tag remediation: 'stig_rhel6/recipes/sshd-config.rb' tag remediation: 'https://supermarket.chef.io/cookbooks/ssh-hardening' ref 'NSA-RH6-STIG - Section 3.5.2.1', url: 'https://www.nsa.gov/ia/_files/os/redhat/rhel5-guide-i731.pdf' ref 'http://people.redhat.com/swells/scap-security-guide/RHEL/6/output/ssg-centos6-guide-C2S.html' describe ssh_config do its('Protocol') { should cmp 2 } end end ``` # Using Ruby in InSpec The Chef InSpec DSL is a Ruby based language. This allows you to be flexible with Ruby code in controls: ```ruby json_obj = json('/file.json') json_obj['keys'].each do |value| .. end ``` Ruby allows a lot of freedoms, but should be limited in controls so that they remain portable and easy to understand. Please see our [profile style guide](https://www.inspec.io/docs/reference/style/). Core and custom resources are written as regular Ruby classes which inherit from `Inspec.resource`. ## Interactive Debugging with Pry Here's a sample Chef InSpec control that uses Ruby variables to instantiate a Chef InSpec resource once and use the content in multiple tests. ```ruby control 'check-perl' do impact 0.3 title 'Check perl compiled options and permissions' perl_out = command('perl -V') #require 'pry'; binding.pry; describe perl_out do its('exit_status') { should eq 0 } its('stdout') { should match /USE_64_BIT_ALL/ } its('stdout') { should match /useposix=true/ } its('stdout') { should match /-fstack-protector/ } end # extract an array of include directories perl_inc = perl_out.stdout.partition('@INC:').last.strip.split("\n") # ensure include directories are only writable by 'owner' perl_inc.each do |path| describe directory(path.strip) do it { should_not be_writable.by 'group' } it { should_not be_writable.by 'other' } end end end ``` An **advanced** but very useful Ruby tip. In the previous example, I commented out the `require 'pry'; binding.pry;` line. If you remove the `#` prefix and run the control, the execution will stop at that line and give you a `pry` shell. Use that to troubleshoot, print variables, see methods available, etc. For the above example: ```ruby [1] pry> perl_out.exit_status => 0 [2] pry> perl_out.stderr => "" [3] pry> ls perl_out Inspec::Plugins::Resource#methods: inspect Inspec::Resources::Cmd#methods: command exist? exit_status result stderr stdout to_s Inspec::Resource::Registry::Command#methods: inspec instance variables: @__backend_runner__ @__resource_name__ @command @result [4] pry> perl_out.stdout.partition('@INC:').last.strip.split("\n") => ["/Library/Perl/5.18/darwin-thread-multi-2level", " /Library/Perl/5.18", ...REDACTED... [5] pry> exit # or abort ``` You can use `pry` inside both the controls DSL and resources. Similarly, for dev and test, you can use `inspec shell` which is based on `pry`, for example: ```ruby $ inspec shell Welcome to the interactive InSpec Shell To find out how to use it, type: help inspec> command('ls ~/projects/github/inspec/docs').stdout => "README.md\nconfig.md\ndev\ndsl_inspec.md\ndsl_resource.md\nglossary.md\nhabitat.md\ninputs.md\ninspec_and_friends.md\nmatchers.md\nmigration.md\nplatforms.md\nplugin_kitchen_inspec.md\nplugins.md\nprofiles.md\nreporters.md\nresources\nshared\nshell.md\nstyle.md\nwaivers.md\n" inspec> command('ls ~/projects/github/inspec/docs').stdout.split("\n").first => "README.md" inspec> help command Name: command Description: Use the command InSpec audit resource to test an arbitrary command that is run on the system. Example: describe command('ls -al /') do it { should exist } its('stdout') { should match /bin/ } its('stderr') { should eq '' } its('exit_status') { should eq 0 } end ```