Oracle Cloud Infrastructure provides a ton of useful services for automating and orchestrating behaviours in your cloud environment, and while they are often pretty handy on their own, leveraging them together gives almost complete flexibility on what you can achieve. Want to trigger a backup using a command in slack, then have a message get sent back when it completes? Sure! Want to periodically poll a log API and archive the results? Easy. Oracle Cloud Infrastructure provides a number of inbuilt capabilities, as well as the ability to jump into arbitrary code to build elaborate automation flows, and this blog post will focus upon the security constructs around this, looking at how services can be authorised to invoke one another, as well as how they authenticate themselves, while avoiding storing sensitive data in insecure ways. This post is intended as an overview of the concepts, and will be referenced in more concrete ways in future.Continue reading “Secure Inter-Service Communication in OCI”
Previously in this series we have examined what is required on an Access Management side in order to support a micro-services architecture, providing services for authentication, user management, assurance, etc. In this post, we expand the scope, looking at how to enable new services to easily implement access and authorisation appropriately, as well as a discussion about how they can authenticate to each other. Ultimately the creation of a secure system involves security of all parts, not just the access management services which facilitate it, and so this post focuses upon working towards enabling that. Security is also built upon organisational culture, and while it is a little difficult to instil that through a blog post, taking steps to create a technical foundation which allows the Access Management teams to be open and collaborative instead of being the team that says ‘no’ is unlikely hinder such cultural development.
Continuing from the previous post which dealt with the core concepts around performing authentication and authorisation in a distributed environment, this post expands upon those concepts, looking at additional factors for authorisation decisions, including supplementary information, authentication challenges and risk assessment. While basic authentication and authorisation requirements can be met through the use of JWTs and OAuth, this post shifts to tackling bespoke requirements, outlining potential services which could provide capabilities above and beyond what is captured in those standards.
In the previous post in this series we examined at a high-level how responsibilities for authentication and authorisation are distributed in a micro-services architecture. In this post, the strategies and technologies that underpin the implementation of authentication and authorisation will be explored further, with the core access management services providing authentication services, which support individual services performing authorisation. This discussion is actually split across two posts, as authentication and authorisation are core parts of the access management services, and require extensive discussion, with this post focusing upon the core capabilities, and the following post focussing upon more advanced authentication and authorisation requirements.