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CSI Driver

Enabling mTLS of Pods using the cert-manager CSI Driver

An experimental Container Storage Interface (CSI) driver has been created to facilitate mTLS of Pods running inside your cluster through use of cert-manager. Using this driver will ensure that the private key and corresponding signed certificate will be unique to each Pod and will be stored on disk to the node that the Pod is scheduled to. The life cycle of the certificate key pair matches that of the Pod meaning that they will be created at Pod creation, and destroyed during termination. This driver also handles renewal on live certificates on the fly.

A CSI driver is a storage plugin that is deployed into your Kubernetes cluster that can honor volume requests specified on Pods, just like those enabled by default such as the Secret, ConfigMap, or hostPath volume drivers. In the case of the cert-manager CSI driver, it makes use of the ephemeral volume type, made beta as of v1.16 and as such will only work from the Kubernetes version v1.16. An ephemeral volumes means that the volume is created and destroyed as the Pod is created and terminated, as well as specifying the volume attributes, without the need of a PersistentVolume. This gives the feature of not only having unique certificates and keys per Pod, where the private key never leaves the hosts node, but that the desired certificate for that Pod template can be defined in line with the deployment spec.

Warning: Use of the CSI driver is mostly intended for supporting a PKI of your cluster and facilitating mTLS, and as such, a private Certificate Authority issuer should be used - CA, Vault, and perhaps Venafi, or other external issuers. It is not recommended to use public Certificate Authorities, for example Let's Encrypt, which hold strict rate limits on the number of certificates that can be issued for a single domain. Like Pods, these certificate key pairs are designed to be non-immutable and can be created and destroyed at any time during normal operation.

How Does it Work?

The CSI specification is a protocol and standard for building storage drivers for container orchestration platforms with the intention that a single driver may be ported across multiple platforms and outlines a consistent specification to how drivers should behave from an infrastructure perspective. Since cert-manager is designed to only be run with a Kubernetes cluster, so too does the cert-manager CSI driver.

The driver should be deployed as a DaemonSet which means a single instance of the driver may be run on each node. The driver will not work when running multiple instances on a single node. The set of nodes that the driver runs on can be restricted using the nodeSelector in its Pod template.

When a Pod is scheduled to a node with a cert-manager CSI volume specified, the Kubelet running on that node will send a NodePublishVolume call to the driver on that node, containing that Pods information as well as the attributes detailed from the in-line volume attributes. From this, the driver will generate a private key as well as a certificate request based upon that key using information built from the volume attributes. The driver will create a CertificateRequest resource in the same namespace in the Pod that, if valid, cert-manager will return a signed certificate.

The resulting signed certificate and generated key will be written to that node's file system to be mounted to the Pods file system. Since the driver needs access to the nodes file system it must be made privileged. Once mounted, the Pod will begin execution with the unique private key and certificate available in its file system, as defined by its mount path.

By default, the driver will keep track of certificates created in order to monitor when they should be marked for renewal. When this happens, the driver will request for a new signed certificate, and when successful, will simply overwrite the existing certificate in path.

When the Pod is marked for termination, the NodeUnpublishVolume call is made to the node's driver which in turn destroys the certificate and key from the nodes file system.

The CSI driver is able to recover its full state in the event the its Pod being terminated.

Installation and Configuration

TODO (@joshvanl): add the installation guide once we are closer to a full release.

TODO (@joshvanl): add commands to verify installation

$ kubectl get csinodes
$ kubectl get csidrivers

The cert-manager CSI driver can be configured to write the key and certificate data that is to be mounted to Pods from anywhere in the host file system, but by default is at /tmp/cert-manager-csi. Each volume that is mounted will have their own directory created inside this directory.

To change this data directory location, change the hostPath.path location inside the driver DaemonSet.

Usage

Once the driver has been successfully installed, Pods are ready to request in-line ephemeral volumes. This is done by adding a number annotations to the volume attributes of the CSI volumes, as described in the volume spec. Below is a simple example of a deployment with 5 replicas that will each be mounted with their own unique key certificate pairs based upon the volume attributes.

apiVersion: apps/v1
kind: Deployment
metadata:
name: my-csi-app
namespace: sandbox
labels:
app: my-csi-app
spec:
replicas: 5
selector:
matchLabels:
app: my-csi-app
template:
metadata:
labels:
app: my-csi-app
spec:
containers:
- name: my-frontend
image: busybox
volumeMounts:
- mountPath: "/tls"
name: tls
command: [ "sleep", "1000000" ]
volumes:
- name: tls
csi:
driver: csi.cert-manager.io
volumeAttributes:
csi.cert-manager.io/issuer-name: ca-issuer
csi.cert-manager.io/dns-names: my-service.sandbox.svc.cluster.local

In this example, each Pod will receive a 2048 bit RSA private key with a certificate that is valid for the DNS name my-service.sandbox.svc.cluster.local which has been signed by the Issuer named ca-issuer that exists in the same namespace. The resulting key and certificate is available from the Pods file system at /tls/key.pem and /tls/cert.pem respectively.

Below is a full list of the available volume attributes to configure resulting key certificate pairs.

The full list of usage keys is available from code.

AttributeDescriptionDefaultExample
csi.cert-manager.io/issuer-nameThe Issuer name to sign the certificate request.ca-issuer
csi.cert-manager.io/issuer-kindThe Issuer kind to sign the certificate request.IssuerClusterIssuer
csi.cert-manager.io/issuer-groupThe group name the Issuer belongs to.cert-manager.ioexample.com
csi.cert-manager.io/common-nameCertificate common name.www.example.com
csi.cert-manager.io/key-usagesCertificate key usages.digital signature,key enciphermentsigning,timestamping
csi.cert-manager.io/dns-namesDNS names the certificate will be requested for. At least a DNS Name, IP or URI name must be present.a.example.com,b.example.com
csi.cert-manager.io/ip-sansIP addresses the certificate will be requested for.192.0.2.1,192.0.2.2
csi.cert-manager.io/uri-sansURI names the certificate will be requested for.spiffe://foo.bar.cluster.local
csi.cert-manager.io/durationRequested duration the signed certificate will be valid for.720h1880h
csi.cert-manager.io/is-caMark the certificate as a certificate authority.falsetrue
csi.cert-manager.io/certificate-fileFile name to store the certificate file at.crt.pembar/foo.crt
csi.cert-manager.io/privatekey-fileFile name to store the key file at.key.pembar/foo.key
csi.cert-manager.io/renew-beforeThe time to renew the certificate before expiry. Defaults to a third of the requested duration.$CERT_DURATION/372h
csi.cert-manager.io/disable-auto-renewDisable the CSI driver from renewing certificates that are mounted into the pod.falsetrue
csi.cert-manager.io/reuse-private-keyRe-use the same private when when renewing certificates.falsetrue