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90 lines
4.9 KiB
90 lines
4.9 KiB
# Support CA Certificate Renewal / Rotation, Signing by External Root
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Date: 2022-12-19
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## Status
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Accepted
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## Context
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On the first startup of a new cluster, K3s currently autogenerates a number of self-signed cluster CAs and keys:
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* Cluster Server CA + Key (used to sign server certificates)
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* Cluster Client CA + Key (used to sign client certificates)
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* Request Header CA + Key (used to sign certificates for apiserver aggregation)
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* etcd Peer CA + Key (used to sign certificates for authentication between etcd peer servers)
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* etcd Client CA + Key (used to sign certificates for etcd clients, ie the apiserver)
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* ServiceAccount Token Signing Key (used to sign ServiceAccount JSON Web Tokens)
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These CAs are all self-signed, without any cross-signing or common root or intermediates, and are valid for 10
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years. When any of these certs expire, any certificates issued will be invalid, causing a significant outage
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to the cluster.
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### Server CA Pinning
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The Cluster Server CA is used in node bootstrapping. The full `K10` format token includes a SHA265 sum of the
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Cluster Server CA file's on-disk PEM representation. Nodes that join the cluster using a full token perform a
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set of checks when starting up:
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1. Download the cluster server CA bundle from `/v1-k3s/cacert` on the server they are joining.
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2. Validate that the hash of the bytes in the CA bundle match the hash string following the `K10` prefix in the
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token.
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3. Validate that the certificate presented by the server they are joining can be validated using the roots and
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intermediates present in the CA bundle.
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Realistically, this hash should have instead been derived from the DER encoding of the root certificate in
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that bundle, as PEM format allows for variable padding, line lengths, and so on. Only DER format is guaranteed
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to be stable, and hashing only the root of the chain would have allowed for rotating or renewing intermediate
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CAs without breaking trust between cluster nodes.
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### Bootstrap Data Immutability
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There is not currently any way to write new certificates to the datastore. The certificates and keys are
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written to disk once on initial startup, and from there written to the cluster datastore. From that point on,
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the files in the datastore are considered authoritative; replacing the files on disk will result in either
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replacement, or error, depending on whether or not the files on disk are newer than those in the datastore.
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The `secrets-encrypt` subcommand does currently mutate the bootstrap data, but it only touches the secrets
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encryption configuration, not the CA certs or keys.
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### Summary
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For both of the above reasons (hash pinning, and lack of rewriteability) it is not currently possible to
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renew or replace the cluster CA certs or keys.
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### Additional Considerations
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#### Aggressive Certificate Rotation
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Some users (particularly government or financial customers) attempt to implement the guidance from [NIST SP 800-57
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Part 1 Rev. 5](https://csrc.nist.gov/publications/detail/sp/800-57-part-1/rev-5/final). This document would
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see users signing cluster CAs with a set of organizational root and intermediate certificates, and rotating
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both the intermediate and cluster CA certificates and keys on at least a yearly basis.
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#### ServiceAccount Signing Key Rolling Replacement
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While the ServiceAccount signing key is not signed by any CA, rotation of the key must be done carefully so
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as to avoid causing an outage. The apiserver and controller-manager must be updated to use a new key, while
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still trusting the old key for a period of time. The old key can then be removed at a later date, once all
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clients using tokens signed by the old key have received new tokens.
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## Decision
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* K3s will allow for use of CA certificates signed by an arbitrary set of external root/intermediate CAs.
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* K3s will allow for non-disruptive[^1] renewal or replacement of the CA certificates and keys, if the cluster was
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originally started using user-provided certificates signed by an external CA.
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* K3s will allow for disruptive[^2] renewal or replacement of cluster CA certificates and keys, if the cluster was
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originally started with autogenerated self-signed CAs.
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* K3s will provide example tooling to allow users to generate cluster CA certificates and keys prior to initial
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cluster startup, and provide tooling and process documentation to update the bootstrap data and prepare agents
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to trust the new certificates (if necessary)
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[^1]: Non-disruptive renewal requires no change to node configuration. The service only needs to be restarted.
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[^2]: Disruptive renewal requires changes to the K3s CLI flags, configuration file, or environment variables
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prior to restarting the service. Additionally, the cluster may experience a temporary outage while the
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configuration change has been affected to all nodes, due to cluster nodes temporary not sharing a common
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root of trust.
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## Consequences
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This will require additional documentation, CLI subcommands, and QA work to validate the process steps.
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