# Using Ruby in InSpec The InSpec DSL is a Ruby based DSL for writing audit controls, which includes audit resources that you can invoke. Core and custom resources are written as regular Ruby classes which inherit from `Inspec.resource`. Assuming we have a JSON file like this on the node to be tested: ```json { "keys":[ {"username":"john", "key":"/opt/keys/johnd.key"}, {"username":"jane", "key":"/opt/keys/janed.key"}, {"username":"sunny ", "key":"/opt/keys/sunnym.key"} ] } ``` The following example shows how you can use pure Ruby code(variables, loops, conditionals, regular expressions, etc) to run a few tests against the above JSON file: ```ruby control 'check-interns' do # use the json inspec resource to get the file json_obj = json('/opt/keys/interns.json') describe json_obj do its('keys') { should_not eq nil } end if json_obj['keys'] # loop over the keys array json_obj['keys'].each do |intern| username = intern['username'].strip # check for white spaces chars in usernames describe username do it { should_not match(/\s/) } end # check key file owners and permissions describe file(intern['key']) do it { should be_owned_by username } its('mode') { should cmp '0600' } end end end end ``` ## Execution It's important to understand that Ruby code used in custom resources and controls DSL is executed on the system that runs InSpec. This allows InSpec to work without Ruby and rubygems being required on remote targets(servers or containers). For example, using `` `ls ``\` or `system('ls')` will result in the `ls` command being run locally and not on the target(remote) system. In order to process the output of `ls` executed on the target system, use `inspec.command('ls')` or `inspec.powershell('ls')` Similarly, use `inspec.file(PATH)` to access files or directories from remote systems in your tests or custom resources. ## Using rubygems Ruby gems are self-contained programs and libraries. If you create a custom resource please vendor gems into the library. This ensures that all resources are self-contained and complete and don't need any resolution at runtime. We vendor resources and requirements through dependency resolution, which is independent of programming languages and their resolver mechanisms. ## Interactive Debugging with Pry Here's a sample InSpec control that users Ruby variables to instantiate an 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::Plugins::ResourceCommon#methods: resource_skipped skip_resource 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 /home/gordon/git/inspec/docs').stdout => "ctl_inspec.rst\ndsl_inspec.rst\ndsl_resource.rst\n" inspec> command('ls').stdout.split("\n") => ["ctl_inspec.rst", "dsl_inspec.rst", "dsl_resource.rst"] 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 ``` ## Shelling out in tests When writing tests you can not use standard ruby methods to shellout as it tries to execute those commands locally. However, the `command` resource has a `.stdout` method that will allow you to manipulate the results. Using the above example, you could check the writes on several subdirectories. ### Example 1: ```ruby $ inspec shell Welcome to the interactive InSpec Shell To find out how to use it, type: help inspec> output=command('echo test').stdout => "test\n" inspec> describe command('echo test') do inspec> its('stdout') { should eq output } inspec> end Profile: inspec-shell Version: (not specified) Command echo ✔ test stdout should eq "test\n" Test Summary: 1 successful, 0 failures, 0 skipped ``` ### Example 2: ```ruby $ inspec shell Welcome to the interactive InSpec Shell To find out how to use it, type: help inspec> dirs = command('ls -d /home/gordon/git/inspec/docs').stdout.split("\n") => ["/home/gordon/git/inspec/docs"] inspec> dirs.each do |dir| inspec> describe directory(dir) do inspec> its('mode') { should cmp '0775' } inspec> end inspec> end Profile: inspec-shell Version: (not specified) File /home/gordon/git/inspec/docs/ ✔ mode should cmp == "0775" Test Summary: 1 successful, 0 failures, 0 skipped ```