.. _developing_modules_general_windows: Windows Ansible Module Development Walkthrough ============================================== In this section, we will walk through developing, testing, and debugging an Ansible Windows module. Because Windows modules are written in Powershell and need to be run on a Windows host, this guide differs from the usual development walkthrough guide. What's covered in this section: .. contents:: Topics Windows environment setup ========================= Unlike Python module development which can be run on the host that runs Ansible, Windows modules need to be written and tested for Windows hosts. While evaluation editions of Windows can be downloaded from Microsoft, these images are usually not ready to be used by Ansible without further modification. The easiest way to set up a Windows host so that it is ready to by used by Ansible is to set up a virtual machine using Vagrant. Vagrant can be used to download existing OS images called *boxes* that are then deployed to a hypervisor like VirtualBox. These boxes can either be created and stored offline or they can be downloaded from a central repository called Vagrant Cloud. This guide will use the Vagrant boxes created by the `packer-windoze `_ repository which have also been uploaded to `Vagrant Cloud `_. To find out more info on how these images are created, please go to the Github repo and look at the ``README`` file. Before you can get started, the following programs must be installed (please consult the Vagrant and VirtualBox documentation for installation instructions): - Vagrant - VirtualBox Create a Windows Server in a VM =============================== To create a single Windows Server 2016 instance, run the following: .. code-block:: shell vagrant init jborean93/WindowsServer2016 vagrant up This will download the Vagrant box from Vagrant Cloud and add it to the local boxes on your host and then start up that instance in VirtualBox. When starting for the first time, the Windows VM will run through the sysprep process and then create a HTTP and HTTPS WinRM listener automatically. Vagrant will finish its process once the listeners are onlinem, after which the VM can be used by Ansible. Create an Ansible Inventory =========================== The following Ansible inventory file can be used to connect to the newly created Windows VM: .. code-block:: ini [windows] WindowsServer ansible_host=127.0.0.1 [windows:vars] ansible_user=vagrant ansible_password=vagrant ansible_port=55986 ansible_connection=winrm ansible_winrm_transport=ntlm ansible_winrm_server_cert_validation=ignore .. note:: The port ``55986`` is automatically forwarded by Vagrant to the Windows host that was created, if this conflicts with an existing local port then Vagrant will automatically use another one at random and display show that in the output. The OS that is created is based on the image set. The following images can be used: - `jborean93/WindowsServer2008-x86 `_ - `jborean93/WindowsServer2008-x64 `_ - `jborean93/WindowsServer2008R2 `_ - `jborean93/WindowsServer2012 `_ - `jborean93/WindowsServer2012R2 `_ - `jborean93/WindowsServer2016 `_ When the host is online, it can accessible by RDP on ``127.0.0.1:3389`` but the port may differ depending if there was a conflict. To get rid of the host, run ``vagrant destroy --force`` and Vagrant will automatically remove the VM and any other files associated with that VM. While this is useful when testing modules on a single Windows instance, these host won't work without modification with domain based modules. The Vagrantfile at `ansible-windows `_ can be used to create a test domain environment to be used in Ansible. This repo contains three files which are used by both Ansible and Vagrant to create multiple Windows hosts in a domain environment. These files are: - ``Vagrantfile``: The Vagrant file that reads the inventory setup of ``inventory.yml`` and provisions the hosts that are required - ``inventory.yml``: Contains the hosts that are required and other connection information such as IP addresses and forwarded ports - ``main.yml``: Ansible playbook called by Vagrant to provision the domain controller and join the child hosts to the domain By default, these files will create the following environment: - A single domain controller running on Windows Server 2016 - Five child hosts for each major Windows Server version joined to that domain - A domain with the DNS name ``domain.local`` - A local administrator account on each host with the username ``vagrant`` and password ``vagrant`` - A domain admin account ``vagrant-domain@domain.local`` with the password ``VagrantPass1`` The domain name and accounts can be modified by changing the variables ``domain_*`` in the ``inventory.yml`` file if it is required. The inventory file can also be modified to provision more or less servers by changing the hosts that are defined under the ``domain_children`` key. The host variable ``ansible_host`` is the private IP that will be assigned to the VirtualBox host only network adapter while ``vagrant_box`` is the box that will be used to create the VM. Provisioning the Environment ============================ To provision the environment as is, run the following: .. code-block:: shell git clone https://github.com/jborean93/ansible-windows.git cd vagrant vagrant up .. note:: Vagrant provisions each host sequentially so this can take some time to complete. If any errors occur during the Ansible phase of setting up the domain, run ``vagrant provision`` to rerun just that step. Unlike setting up a single Windows instance with Vagrant, these hosts can also be accessed using the IP address directly as well as through the forwarded ports. It is easier to access it over the host only network adapter as the normal protocol ports are used, e.g. RDP is still over ``3389``. In cases where the host cannot be resolved using the host only network IP, the following protocols can be access over ``127.0.0.1`` using these forwarded ports: - ``RDP``: 295xx - ``SSH``: 296xx - ``WinRM HTTP``: 297xx - ``WinRM HTTPS``: 298xx - ``SMB``: 299xx Replace ``xx`` with the entry number in the inventory file where the domain controller started with ``00`` and is incremented from there. For example, in the default ``inventory.yml`` file, WinRM over HTTPS for ``SERVER2012R2`` is forwarded over port ``29804`` as it's the fourth entry in ``domain_children``. .. note:: While an SSH server is available on all Windows hosts but Server 2008 (non R2), it is not a support connection for Ansible managing Windows hosts and should not be used with Ansible. Windows new module development ============================== When creating a new module there are a few things to keep in mind: - Module code is in Powershell (.ps1) files while the documentation is contained in Python (.py) files of the same name - Avoid using ``Write-Host/Debug/Verbose/Error`` in the module and add what needs to be returned to the ``$result`` variable - When trying an exception use ``Fail-Json -obj $result -message "exception message here"`` instead - Most new modules require check mode and integration tests before they are merged into the main Ansible codebase - Avoid using try/catch statements over a large code block, rather use them for individual calls so the error message can be more descriptive - Try and catch specific exceptions when using try/catch statements - Avoid using PSCustomObjects unless necessary - Look for common functions in ``./lib/ansible/module_utils/powershell/`` and use the code there instead of duplicating work. These can be imported by adding the line ``#Requires -Module *`` where * is the filename to import, and will be automatically included with the module code sent to the Windows target when run via Ansible - Ensure the code runs under Powershell v3 and higher on Windows Server 2008 and higher; if higher minimum Powershell or OS versions are required, ensure the documentation reflects this clearly - Ansible runs modules under strictmode version 2.0. Be sure to test with that enabled by putting ``Set-StrictMode -Version 2.0`` at the top of your dev script - Favour native Powershell cmdlets over executable calls if possible - If adding an object to ``$result``, ensure any trailing slashes are removed or escaped, as ``ConvertTo-Json`` will fail to convert it - Use the full cmdlet name instead of aliases, e.g. ``Remove-Item`` over ``rm`` - Use named parameters with cmdlets, e.g. ``Remove-Item -Path C:\temp`` over ``Remove-Item C:\temp`` A very basic powershell module `win_environment `_ is included below. It demonstrates how to implement check-mode and diff-support, and also shows a warning to the user when a specific condition is met. .. .. include:: ../../../../lib/ansible/modules/windows/win_environment.ps1 .. :code: powershell .. literalinclude:: ../../../../lib/ansible/modules/windows/win_environment.ps1 :language: powershell A slightly more advanced module is `win_uri `_ which additionally shows how to use different parameter types (bool, str, int, list, dict, path) and a selection of choices for parameters, how to fail a module and how to handle exceptions. When in doubt, look at some of the other core modules and see how things have been implemented there. Sometimes there are multiple ways that Windows offers to complete a task; this is the order to favour when writing modules: - Native Powershell cmdlets like ``Remove-Item -Path C:\temp -Recurse`` - .NET classes like ``[System.IO.Path]::GetRandomFileName()`` - WMI objects through the ``New-CimInstance`` cmdlet - COM objects through ``New-Object -ComObject`` cmdlet - Calls to native executables like ``Secedit.exe`` PowerShell modules support a small subset of the ``#Requires`` options built into PowerShell as well as some Ansible-specific requirements specified by ``#AnsibleRequires``. These statements can be placed at any point in the script, but are most commonly near the top. They are used to make it easier to state the requirements of the module without writing any of the checks. Each ``requires`` statement must be on its own line, but there can be multiple requires statements in one script. These are the checks that can be used within Ansible modules: - ``#Requires -Module Ansible.ModuleUtils.``: Added in Ansible 2.4, specifies a module_util to load in for the module execution. - ``#Requires -Version x.y``: Added in Ansible 2.5, specifies the version of PowerShell that is required by the module. The module will fail if this requirement is not met. - ``#AnsibleRequires -OSVersion x.y``: Added in Ansible 2.5, specifies the OS build version that is required by the module and will fail if this requirement is not met. The actual OS version is derived from ``[Environment]::OSVersion.Version``. - ``#AnsibleRequires -Become``: Added in Ansible 2.5, forces the exec runner to run the module with ``become``, which is primarily used to bypass WinRM restrictions. If ``ansible_become_user`` is not specified then the ``SYSTEM`` account is used instead. Windows module utilities ======================== Like Python modules, PowerShell modules also provide a number of module utilities that provide helper functions within PowerShell. These module_utils can be imported by adding the following line to a PowerShell module: .. code-block:: powershell #Requires -Module Ansible.ModuleUtils.Legacy This will import the module_util at ``./lib/ansible/module_utils/powershell/Ansible.ModuleUtils.Legacy.psm1`` and enable calling all of its functions. The following is a list of module_utils that are packaged with Ansible and a general description of what they do: - ArgvParser: Utiliy used to convert a list of arguments to an escaped string compliant with the Windows argument parsing rules. - CamelConversion: Utility used to convert camelCase strings/lists/dicts to snake_case. - CommandUtil: Utility used to execute a Windows process and return the stdout/stderr and rc as separate objects. - FileUtil: Utility that expands on the ``Get-ChildItem`` and ``Test-Path`` to work with special files like ``C:\pagefile.sys``. - Legacy: General definitions and helper utilities for Ansible module. - LinkUtil: Utility to create, remove, and get information about symbolic links, junction points and hard inks. - SID: Utilities used to convert a user or group to a Windows SID and vice versa. For more details on any specific module utility and their requirements, please see the `Ansible module utilities source code `_. PowerShell module utilities can be stored outside of the standard Ansible distribution for use with custom modules. Custom module_utils are placed in a folder called ``module_utils`` located in the root folder of the playbook or role directory. The below example is a role structure that contains two custom module_utils called ``Ansible.ModuleUtils.ModuleUtil1`` and ``Ansible.ModuleUtils.ModuleUtil2``:: meta/ main.yml defaults/ main.yml module_utils/ Ansible.ModuleUtils.ModuleUtil1.psm1 Ansible.ModuleUtils.ModuleUtil2.psm1 tasks/ main.yml Each module_util must contain at least one function, and a list of functions, aliases and cmdlets to export for use in a module. This can be a blanket export by using ``*``. For example: .. code-block:: powershell Export-ModuleMember -Alias * -Function * -Cmdlet * Windows playbook module testing =============================== You can test a module with an Ansible playbook. For example: - Create a playbook in any directory ``touch testmodule.yml``. - Create an inventory file in the same directory ``touch hosts``. - Populate the inventory file with the variables required to connect to a Windows host(s). - Add the following to the new playbook file:: --- - name: test out windows module hosts: windows tasks: - name: test out module win_module: name: test name - Run the playbook ``ansible-playbook -i hosts testmodule.yml`` This can be useful for seeing how Ansible runs with the new module end to end. Other possible ways to test the module are shown below. Windows debugging ================= Debugging a module currently can only be done on a Windows host. This can be useful when developing a new module or implementing bug fixes. These are some steps that need to be followed to set this up: - Copy the module script to the Windows server - Copy ``./lib/ansible/module_utils/powershell/Ansible.ModuleUtils.Legacy.psm1`` to the same directory as the script above - To stop the script from exiting the editor on a successful run, in ``Ansible.ModuleUtils.Legacy.psm1`` under the function ``Exit-Json``, replace the last two lines of the function with:: ConvertTo-Json -InputObject $obj -Depth 99 - To stop the script from exiting the editor on a failed run, in ``Ansible.ModuleUtils.Legacy.psm1`` under the function ``Fail-Json``, replace the last two lines of the function with:: Write-Error -Message (ConvertTo-Json -InputObject $obj -Depth 99) - Add the following to the start of the module script that was copied to the server:: ### start setup code $complex_args = @{ "_ansible_check_mode" = $false "_ansible_diff" = $false "path" = "C:\temp" "state" = "present" } Import-Module -Name .\Ansible.ModuleUtils.Legacy.psm1 ### end setup code You can add more args to ``$complex_args`` as required by the module. The module can now be run on the Windows host either directly through Powershell or through an IDE. There are multiple IDEs that can be used to debug a Powershell script, two of the most popular are - `Powershell ISE`_ - `Visual Studio Code`_ .. _Powershell ISE: https://msdn.microsoft.com/en-us/powershell/scripting/core-powershell/ise/how-to-debug-scripts-in-windows-powershell-ise .. _Visual Studio Code: https://blogs.technet.microsoft.com/heyscriptingguy/2017/02/06/debugging-powershell-script-in-visual-studio-code-part-1/ To be able to view the arguments as passed by Ansible to the module follow these steps. - Prefix the Ansible command with :envvar:`ANSIBLE_KEEP_REMOTE_FILES=1` to specify that Ansible should keep the exec files on the server. - Log onto the Windows server using the same user account that Ansible used to execute the module. - Navigate to ``%TEMP%\..``. It should contain a folder starting with ``ansible-tmp-``. - Inside this folder, open the PowerShell script for the module. - In this script is a raw JSON script under ``$json_raw`` which contains the module arguments under ``module_args``. These args can be assigned manually to the ``$complex_args`` variable that is defined on your debug script. Windows unit testing ==================== Currently there is no mechanism to run unit tests for Powershell modules under Ansible CI. Windows integration testing =========================== Integration tests for Ansible modules are typically written as Ansible roles. These test roles are located in ``./test/integration/targets``. You must first set up your testing environment, and configure a test inventory for Ansible to connect to. In this example we will set up a test inventory to connect to two hosts and run the integration tests for win_stat: - Create a copy of ``./test/integration/inventory.winrm.template`` and name it ``inventory.winrm``. - Fill in entries under ``[windows]`` and set the required variables that are needed to connect to the host. - To execute the integration tests, run ``ansible-test windows-integration win_stat``; you can replace ``win_stat`` with the role you wish to test. This will execute all the tests currently defined for that role. You can set the verbosity level using the ``-v`` argument just as you would with ansible-playbook. When developing tests for a new module, it is recommended to test a scenario once in check mode and twice not in check mode. This ensures that check mode does not make any changes but reports a change, as well as that the second run is idempotent and does not report changes. For example: .. code-block:: yaml - name: remove a file (check mode) win_file: path: C:\temp state: absent register: remove_file_check check_mode: yes - name: get result of remove a file (check mode) win_command: powershell.exe "if (Test-Path -Path 'C:\temp') { 'true' } else { 'false' }" register: remove_file_actual_check - name: assert remove a file (check mode) assert: that: - remove_file_check is changed - remove_file_actual_check.stdout == 'true\r\n' - name: remove a file win_file: path: C:\temp state: absent register: remove_file - name: get result of remove a file win_command: powershell.exe "if (Test-Path -Path 'C:\temp') { 'true' } else { 'false' }" register: remove_file_actual - name: assert remove a file assert: that: - remove_file is changed - remove_file_actual.stdout == 'false\r\n' - name: remove a file (idempotent) win_file: path: C:\temp state: absent register: remove_file_again - name: assert remove a file (idempotent) assert: that: - not remove_file_again is changed Windows communication and development support ============================================= Join the IRC channel ``#ansible-devel`` or ``#ansible-windows`` on freenode for discussions about Ansible development for Windows. For questions and discussions pertaining to using the Ansible product, use the ``#ansible`` channel.