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plugin on CoreDNS: DNS and Service Discovery

kubernetes log proxyproto rewrite forward clouddns errors grpc_server https https3 template docker auto geoip multisocket nomad dnstap import view ready etcd header loadbalance bind grpc file prometheus quic timeouts kubeforward JSON gslb autopath root tls fanout k8s_cache bufsize k8s_external reload gathersrv meship meshname multicluster acl cache recursor health trace tsig k8s_event redis route53 dns64 transfer finalize kubenodes ebpf rrl secondary mysql warnlist loop minimal sign azure git local any cancel debug erratic metadata nsid pprof alternate k8s_dns_chaos records k8s_gateway hosts netbox mdns wgsd alias chaos whoami lighthouse ens idetcd gravwell amazondns kubernetai redisc unbound on dump pdsql ipin demo example
dnssec
2024-11-22 · via plugin on CoreDNS: DNS and Service Discovery

Description

With dnssec, any reply that doesn’t (or can’t) do DNSSEC will get signed on the fly. Authenticated denial of existence is implemented with NSEC black lies. Using ECDSA as an algorithm is preferred as this leads to smaller signatures (compared to RSA). NSEC3 is not supported.

This plugin can only be used once per Server Block.

Syntax

dnssec [ZONES... ] {
    key file|aws_secretsmanager KEY...
    cache_capacity CAPACITY
}

The signing behavior depends on the keys specified. If multiple keys are specified of which there is at least one key with the SEP bit set and at least one key with the SEP bit unset, signing will happen in split ZSK/KSK mode. DNSKEY records will be signed with all keys that have the SEP bit set. All other records will be signed with all keys that do not have the SEP bit set.

In any other case, each specified key will be treated as a CSK (common signing key), forgoing the ZSK/KSK split. All signing operations are done online. Authenticated denial of existence is implemented with NSEC black lies. Using ECDSA as an algorithm is preferred as this leads to smaller signatures (compared to RSA). NSEC3 is not supported.

As the dnssec plugin can’t see the original TTL of the RRSets it signs, it will always use 3600s as the value.

If multiple dnssec plugins are specified in the same zone, the last one specified will be used.

  • ZONES zones that should be signed. If empty, the zones from the configuration block are used.

  • key file indicates that KEY file(s) should be read from disk. When multiple keys are specified, RRsets will be signed with all keys. Generating a key can be done with dnssec-keygen: dnssec-keygen -a ECDSAP256SHA256 <zonename>. A key created for zone A can be safely used for zone B. The name of the key file can be specified in one of the following formats

    • basename of the generated key Kexample.org+013+45330
    • generated public key Kexample.org+013+45330.key
    • generated private key Kexample.org+013+45330.private
  • key aws_secretsmanager indicates that KEY secret(s) should be read from AWS Secrets Manager. Secret names or ARNs may be used. After generating the keys as described in the key file section, you can store them in AWS Secrets Manager using the following AWS CLI v2 command:

    aws secretsmanager create-secret --name "Kexample.org.+013+45330" \
    --description "DNSSEC keys for example.org" \
    --secret-string "$(jq -n --arg key "$(cat Kexample.org.+013+45330.key)" \
    --arg private "$(cat Kexample.org.+013+45330.private)" \
    '{key: $key, private: $private}')"
    

    This command reads the contents of the .key and .private files, constructs a JSON object, and stores it as a new secret in AWS Secrets Manager with the specified name and description. CoreDNS will then fetch the key data from AWS Secrets Manager when using the key aws_secretsmanager directive.

    AWS SDK for Go V2 is used for authentication with AWS Secrets Manager. Make sure the provided AWS credentials have the necessary permissions (e.g., secretsmanager:GetSecretValue) to access the specified secrets in AWS Secrets Manager.

  • cache_capacity indicates the capacity of the cache. The dnssec plugin uses a cache to store RRSIGs. The default for CAPACITY is 10000.

Metrics

If monitoring is enabled (via the prometheus plugin) then the following metrics are exported:

  • coredns_dnssec_cache_entries{server, type} - total elements in the cache, type is “signature”.
  • coredns_dnssec_cache_hits_total{server} - Counter of cache hits.
  • coredns_dnssec_cache_misses_total{server} - Counter of cache misses.

The label server indicated the server handling the request, see the metrics plugin for details.

Examples

Sign responses for example.org with the key “Kexample.org.+013+45330.key”.

example.org {
    dnssec {
        key file Kexample.org.+013+45330
    }
    whoami
}

Sign responses for example.org with the key stored in AWS Secrets Manager under the secret name “Kexample.org.+013+45330”.

example.org {
    dnssec {
        key aws_secretsmanager Kexample.org.+013+45330
    }
    whoami
}

Sign responses for a kubernetes zone with the key “Kcluster.local+013+45129.key”.

cluster.local {
    kubernetes
    dnssec {
      key file Kcluster.local+013+45129
    }
}