AAP
2 TopicsF5 Automation with Ansible Tips and Tricks
Getting Started with Ansible and F5 In this article we are going to provide you with a simple set of videos that demonstrate step by step how to implement automation with Ansible. In the last video, however we will demonstrate how telemetry and automation may be used in combination to address potential performance bottlenecks and ensure application availability. To start, we will provide you with details on how to get started with Ansible automation using the Ansible Automation Platform®: Backing up your F5 device Once a user has installed and configured Ansible Automation Platform, we will now transition to a basic maintenance function – an automated backup of a BIG-IP hardware device or Virtual Edition (VE). This is always recommended before major changes are made to our BIG-IP devices Configuring a Virtual Server Next, we will use Ansible to configure a Virtual Server, a task that is most frequently performed via manual functions via the BIG-IP. When changes to a BIG-IP are infrequent, manual intervention may not be so cumbersome. However large enterprise customers may need to perform these tasks hundreds of times: Replace an SSL Certificate The next video will demonstrate how to use Ansible to replace an SSL certificate on a BIG-IP. It is important to note that this video will show the certificate being applied on a BIG-IP and then validated by browsing to the application website: Configure and Deploy an iRule The next administrative function will demonstrate how to configure and push an iRule using the Ansible Automation Platform® onto a BIG-IP device. Again this is a standard administrative task that can be simply automated via Ansible: Delete the Existing Virtual Server Ok so now we have to delete the above configuration to roll back to a steady state. This is a common administrative task when an application is retired. We again demonstrate how Ansible automation may be used to perform these simple administrative tasks: Telemetry and Automation: Using Threshold Triggers to Automate Tasks and Fix Performance Bottlenecks Now you have a clear demonstration as to how to utilize Ansible automation to perform routine tasks on a BIG-IP platform. Once you have become proficient with more routine Ansible tasks, we can explore more high-level, sophisticated automation tasks. In the below demonstration we show how BIG-IP administrators using SSL Orchestrator® (SSLO) can combine telemetry with automation to address performance bottlenecks in an application environment: Resources: So that is a short series of tutorials on how to perform routine tasks using automation plus a preview of a more sophisticated use of automation based upon telemetry and automatic thresholds. For more detail on our partnership, please visit our F5/Ansible page or visit the Red Hat Automation Hub for information on the F5 Ansible certified collections. https://www.f5.com/ansible https://www.ansible.com/products/automation-hub https://galaxy.ansible.com/f5networks/f5_modules5.7KViews2likes1CommentHow to customise Azure AD OIDC user ID token for APM integration
Overview A Service Provider (SP) such as the F5 APM can integrate with Azure AD (AAD) as an Identity Provider (IDP) for federated authentication using OpenID Connect (OIDC). Through this process, a user visiting APM (e.g., https://myapps.acme.corp ) is immediately redirected to AAD for authentication, once authenticated, AAD returns a code to the APM via the user browser. The APM grabs that code, adds additional information, sends them together to AAD, and finally receives an ‘access_token’ and ‘id_token’. This article takes a special focus around what is included in ‘id_token’ that AAD returns, as it is used by APM, and broadly speaking by any relying party SP, for the purpose of session creation. ‘id_token’ (part of OIDC) contains user identity information and is highly customizable. The customization of ‘id_token’ is completely done within AAD. The concept is simple, but not until it is well understood in my experience; especially with the AAD having a bunch of configuration items in the mix, such as ‘Token configuration’, ‘API permissions’ and ‘Expose an API’. This article hopes to cut all the clutter and un-muddy the water so to speak, around this topic. OIDC As a refresher, the difference between oAuth and OIDC lies in that OIDC is an identity piece laying on top of oAuth. Specifically, with oAuth, ‘access_token’ alone is returned, whereas with OIDC, ‘id_token’ is returned in addition to ‘access_token’. Scope To tell AAD we are using OIDC, the APM needs to include a scope named ‘openid’ in its outbound request to the AAD. This is achieved via the following setting. Within AAD, your application must include ‘openid’, as shown below. By default, the ‘openid’ scope comes with a list of claims that will be included in ‘id_token’. However, for certain claims to be available, additional scopes are also required. For example, if you want to have ‘preferred_username’and ‘name’ claims included, ‘profile’ scope needs to be added as well, as is depicted in the following. AAD also lets you add optional claims via ‘Token configuration’ as shown below. If these optional claims need additional scopes, AAD will add those scopes in for you under ‘API permissions’. On the APM ‘OAuth Client’ configuration, make sure to add those scopes in as highlighted below. Once the APM matches scope with AAD, AAD will include all claims in ‘id_token’ it sends back to the APM. The APM is then able to consume those claims based on the use case (e.g., create a session using email) I am hoping that this short article sheds some light around your integration work around this space.1.5KViews2likes0Comments