How TLS Certificates Can Authenticate DNS TXT Records

Have you found a use case where you think DANE and DNSSEC might be helpful? For example, the discovery of some configuration associated with a domain? Since a practically useful DNSSEC deployment, which requires individual domains (ex: example.com) to adopt DNSSEC and for relevant clients to use a fully validating DNSSEC resolver, which has not happened yet at any reasonable scale, maybe consider using certificates to sign the values you place in DNS instead.

SXG certificates are, in essence, signing certificates tied to a domain, while you could use a regular TLS certificate, for today’s post let’s assume that SXG certificates were the path you chose.

You can enroll for SXG certificates for free through Google Trust Services. This would allow you to benefit from signed data in DNS that is verifiable and deployable today not only once DNSSEC gets broad deployment.

Assuming a short certificate chain, since DNS does have size restrictions, this could be done as simply as:

Get an SXG certificate that you can use for signing….

sudo certbot certonly \
  --server https://dv-sxg.acme-v02.api.pki.goog/directory \
  -d yourdomain.com \
  --manual \
  --eab-kid YOUR_EAB_KID \
  --eab-hmac-key YOUR_EAB_HMAC_KEY

Sign your data….

openssl smime -sign -in data.txt -out signeddata.pkcs7 -signer mycert.pem -inkey mykey.pem -certfile cacert.pem -outform PEM -nodetach

Then put the data into a DNS TXT record….

After which you could verify that using the Mozilla trust list using OpenSSL…

openssl smime -verify -in signeddata.pkcs7 -CAfile cacert.pem -inform PEM

In practice, due to DNS size constraints, you would likely use a simpler signature format, such as encoding just the signing certificate and the signature in Base64 as a type-length-value representation; with a 256-bit ECC certificate and its signature, this record would total around 1152 bytes, which would comfortably fit inside a DNS TXT record, thanks to EDNS which has a capacity of up to 4096 bytes.

While this does not provide the authoritative non-existence property that DNSSEC has, which exists to address downgrade attacks, which means relying parties could not detect if the record was removed, nor does it provide security to DNS overall, but if we are just talking about configuration data, it might be a viable approach to consider.

On the other hand, this form of signing a TXT record using a certificate is never going to take down your domain and DNSSEC adoption cannot say that!

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