4 Tips for an Airtight Kubernetes Security Policy

By Saad Nizam, Cloud Security Architect at Check Point Software Technologies, Middle East

Kubernetes gives developers a lot of power in terms of automating the deployment, management, scalability, and availability of containerized apps. According to data from 2021, the industry’s preferred container orchestration engine is now used by over 5.6 million developers.

Kubernetes and containerization, on the other hand, present additional complexities that pose new security challenges. Security remains the top concern in container strategy, according to Red Hat’s 2021 State of Kubernetes Security study, with 94 percent of respondents reporting at least one security incident in their Kubernetes settings in the previous 12 months.

It’s vital to employ Kubernetes within the framework of an appropriate security strategy to retain the agility obtained by containerized development and to ensure security issues don’t creep into production environments. But how would such a policy be implemented? Read on to get four top tips for ensuring airtight Kubernetes security.

What are Kubernetes’ most common security concerns?
Returning to the Red Hat report mentioned earlier, real-world data sheds light on the most prevalent security risks with Kubernetes. The four most prominent security issues with Kubernetes environments mentioned by DevOps, engineering, and security experts were:

  1. Detected misconfiguration
    The declarative nature of container orchestration lends to significant misconfiguration risks that opportunistic threat actors could exploit. These risks may increase the attack surface for your cloud-native applications or even expose sensitive data. The prevalence of this concern mirrors the fact that human error is the number one modern cybersecurity threat to businesses.
    Default Kubernetes settings don’t provide the security you need. It’s all too easy to get so caught up in the race for agility that you let these defaults go unchecked into production environments. Whether it’s unnecessarily running a container as root or allowing scripts/shell commands inside containers, vulnerable deployments are just one misconfiguration away.
  2. Security incident during runtime
    The second most prominent concern makes sense given that many of the misconfiguration errors in the build phase will only become evident during runtime after containers have been deployed. The security incidents during runtime could include hidden malware activating inside container images, privilege escalation attacks, or weak access controls allowing unauthorized containers to run. While it’s clearly important to build security into all stages of the development and orchestration pipeline, neglecting runtime security removes a last layer of defense to deal with security threats in Kubernetes environments.
  3. Major vulnerability to remediate
    This concern is somewhat self-explanatory. Major vulnerabilities are severe flaws that could lead to the worst business outcomes, such as data loss/breach or extended application downtime. Remediating major vulnerabilities quickly goes to the top of the priority list which can delay feature upgrades or application rollout.
  4. Failed audit
    Businesses today need to comply with a veritable alphabet soup of data privacy regulations. Breaches of these regulations can lead to hefty fines and reputational damage. An audit of Kubernetes logs can uncover compliance issues in your container ecosystems. Such a finding is clearly concerning because it highlights compliance failures in your development environments.

Why you should care about Kubernetes security
The first reason to be concerned about Kubernetes security is that it directly influences your work as a developer. When security concerns start interfering with build and deployment procedures, the agility promised by container orchestration soon diminishes.


Another broader business reason is that security weaknesses left unaddressed in production environments can lead to serious data breaches. In a world where the average data breach costs $4.24 million, this is not a tolerable outcome for most businesses. And this cost doesn’t even account for the reputational damage inflicted by media spotlights that highlight any insecure development practices that led to the breach.

4 tips to strengthen Kubernetes security
There is a lot to cover when it comes to Kubernetes security, but nailing down these four tips provides an excellent foundation for a more secure container ecosystem:

Tip 1: Build security into the development phase
Somewhat of a paradox emerges when developers ignore security in favor of agility. The traditional perception of security is that it hampers development agility. But the emergence and detection of security issues during Kubernetes app deployment ultimately slows everything down and delays rollout as issues that could’ve been found and remediated earlier are only found later.
The answer lies in adopting a DevSecOps approach that incorporates security as a fundamental aspect of all stages in the application development life cycle. Actually implementing DevSecOps calls for automating early and often because efficiently finding security issues as early as possible is the ideal approach. Automated code security tools can prove invaluable by finding harmful security errors in code, Kubernetes configurations, and other artifacts in real-time throughout the development life cycle.

Tip 2: Watch out for misconfigurations
Whether you’re tweaking something in the control plane, worker nodes, or building a container image from your own code, the components of Kubernetes architecture are susceptible to a slew of different misconfiguration risks. These risks include insecure ports and excessive permissions.
Once again, reliance on manual human intervention to find misconfiguration issues across the complex ecosystem of a Kubernetes application is not a very practical approach. A single workload may have multiple configurations; multiply this by dozens of workloads and manually hunting for security risks this way will quickly stretch your resources, no matter how many people you have handling application security. A better way to watch for misconfigurations is to have AI do it for you. Ideally, you’ll use an AI-powered scanning engine that monitors for and detects security misconfigurations.

Tip 3: Use Kubernetes secrets
Kubernetes secrets provide the authorization, authentication credentials, and keys that allow access to the resources that your applications need to run properly. These resources could include sensitive databases, other applications, or surrounding infrastructure. Since the secrets are decoupled from the application’s code and stored as objects, the application doesn’t need to keep the contents of the secret. This decoupling makes the required resources accessible without needing to store secret contents in container images or pod definitions and expose them to unnecessary visibility. While Kubernetes secrets can prove extremely useful, you should still scan for authorization, authentication credentials, and keys that might accidentally make it into source code repositories, containers, and pods. For more detail on using Kubernetes secrets, including how to set them up, check out this resource.

Tip 4: Invest in security strategies and tooling
The adoption of Kubernetes looks set to continue as more organizations seek to reduce IT costs by over 20 percent. Other more technical Kubernetes benefits are well-known to developers, but this bottom-line impact often grabs the attention of key decision-makers. What also needs to capture attention is that blind adoption without corresponding investments in security tools and strategies that strengthen Kubernetes security is likely to prove costly in the long run.

Some relevant tool types and strategies to better secure Kubernetes environments include:

• Automated code security engines that work quickly to detect security risks in real-time throughout the development pipeline.
• Scanning and verifying container images to flag vulnerabilities and remove malicious images.
• A comprehensive data management platform that provides data protection, disaster recovery, and data security capabilities.
• Focus on an effective network separation and hardening process to prevent escalation and lateral movement.
• Follow the principle of least privilege when managing role-based access control.

Fuelling Secure Digital Transformation Strategies
Whether you orchestrate container workloads in Kubernetes for internal enterprise use or customer-facing apps, an overarching strategic benefit underpinning this type of development is to fuel modern digital transformation strategies. But without adequately integrating security into your workflows, security issues will hamper the success of these efforts.
Start strengthening your Kubernetes security policy and ship software without worry by leveraging SpectralOps’ developer-first automated code security scanner. Eliminate common security threats, such as data leakage, misconfigurations, and exposed secrets.

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