Kubelet TLS Bootstrap, an exciting and highly-anticipated feature in Kubernetes 1.12, is graduating to general availability. As you know, the Kubernetes orchestration system provides such key benefits as service discovery, load balancing, rolling restarts, and the ability to maintain container counts by replacing failed containers. And by using Kubernetes-compliant extensions, you can seamlessly enhance system functionality. This is similar to how Istio (with Kubernetes) provides added benefits such as robust tracing/monitoring, traffic management, and so on.
Until now, however, Kubernetes did not provide similar automation features for security best practices, such as mutually-authenticated TLS connections (mutual-TLS or mTLS). These connections enable developers to use simple certificate directives that limit nodes to communicate with predetermined services—all without writing a single line of additional code. Even though the use of TLS 1.2 certificates for service-to-service communication is a known best-practice, very few companies use mutual-TLS to deploy their systems. This lack of adoption is due mostly to greater deployment difficulties in creating and managing public key infrastructures (PKI). This is why the new TLS Bootstrap module in Kubernetes 1.12 is so exciting: It provides features for adding authentication and authorization to each service at the application level.
The Power of mTLS
Mutual-TLS mandates that both the client and server must authenticate themselves by exchanging identities (certificates). mTLS is made possible by provisioning a TLS certificate to each Kubelet. The client and server use the TLS handshake protocol to negotiate and set up a secure encryption channel. As part of this negotiation, each party checks the validity of the other party’s certificate. Optionally, they can add more verification, such as authorization (the principle of least privilege). Hence, mTLS will provide added security to your application and data. Even if malicious software has taken over a container or host, it cannot connect to any service without providing a valid identity/authorization.
In addition, the Kubelet certificate rotation feature (currently in beta) has an automated way to get a signed certificate from the cluster API server. The Kubelet process accepts an argument, -rotate-certificates, which controls whether the kubelet will automatically request a new certificate as the current one nears expiration. The kube-controller-manager process accepts the argument –experimental-cluster-signing-duration, which controls the length of time each certificate will be in use.
When a kubelet starts up, it uses its initial certificate to connect to the Kubernetes API and issue a certificate-signing request. Upon approval (which can be automated with a few checks), the controller manager signs a certificate issued for a time period specified by the duration parameter. This certificate is then attached to the Certificate Signing Request. The kubelet uses an API call to retrieve the signed certificate, which it uses to connect to the Kubernetes API. As the current certificate nears expiration, the kubelet will use the same process described above to get a new certificate.
Since this process is fully automated, certificates can be created with a very short expiry time. For example, if the expiration time is one hour, even if a malicious agent gets hold of the certificate, the compromised certificate will still expire in an hour.
Robust Security and the Strength of APM
Mutual-TLS and automated certificate rotation give organizations robust security without having to spend heavily on firewalls or intrusion-detection services. mTLS is also the first step towards eliminating the distinction of trusted and non-trusted connections. In this new paradigm, connections coming from inside the firewall or corporate network are treated exactly the same as those from the internet. Every client must identify itself and receive authorization to access a resource, regardless of the originating host’s location. This approach safeguards resources, even if a host inside the corporate firewall is compromised.
AppDynamics fully supports mutually-authenticated TLS connections between its agents and the controller. Our agents running inside a container can communicate with the controller in much the same way as microservices connect to each other. In hybrid environments, where server authentication is available only for some agents and mutual authentication for others, it’s possible to set up and configure multiple HTTP listeners in Glassfish—one for server authentication only, another for both server and client authentication. The agent and controller connections can be configured to use the TLS 2 protocol as well.
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