From 3b9b6d0b8e7f798023c9d109c490449d528fde80 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 17:59:48 +0200 Subject: Adding upstream version 1:9.18.19. Signed-off-by: Daniel Baumann --- doc/dnssec-guide/commonly-asked-questions.rst | 172 ++++++++++++++++++++++++++ 1 file changed, 172 insertions(+) create mode 100644 doc/dnssec-guide/commonly-asked-questions.rst (limited to 'doc/dnssec-guide/commonly-asked-questions.rst') diff --git a/doc/dnssec-guide/commonly-asked-questions.rst b/doc/dnssec-guide/commonly-asked-questions.rst new file mode 100644 index 0000000..3f8c834 --- /dev/null +++ b/doc/dnssec-guide/commonly-asked-questions.rst @@ -0,0 +1,172 @@ +.. Copyright (C) Internet Systems Consortium, Inc. ("ISC") +.. +.. SPDX-License-Identifier: MPL-2.0 +.. +.. This Source Code Form is subject to the terms of the Mozilla Public +.. License, v. 2.0. If a copy of the MPL was not distributed with this +.. file, you can obtain one at https://mozilla.org/MPL/2.0/. +.. +.. See the COPYRIGHT file distributed with this work for additional +.. information regarding copyright ownership. + +.. _dnssec_commonly_asked_questions: + +Commonly Asked Questions +------------------------ + +Below are some common questions and (hopefully) some answers that +help. + +Do I need IPv6 to have DNSSEC? + No. DNSSEC can be deployed without IPv6. + +Does DNSSEC encrypt my DNS traffic, so others cannot eavesdrop on my DNS queries? + No. Although cryptographic keys and digital signatures + are used in DNSSEC, they only provide authenticity and integrity, not + privacy. Someone who sniffs network traffic can still see all the DNS + queries and answers in plain text; DNSSEC just makes it very difficult + for the eavesdropper to alter or spoof the DNS responses. + For protection against eavesdropping, the preferred protocol is DNS-over-TLS. + DNS-over-HTTPS can also do the job, but it is more complex. + +If I deploy DNS-over-TLS/HTTPS, can I skip deploying DNSSEC? + No. DNS-over-encrypted-transport stops eavesdroppers on a network, but it does + not protect against cache poisoning and answer manipulation in other parts + of the DNS resolution chain. In other words, these technologies offer protection + only for records when they are in transit between two machines; any + compromised server can still redirect traffic elsewhere (or simply eavesdrop). + However, DNSSEC provides integrity and authenticity for DNS + *records*, even when these records are stored in caches and on disks. + +Does DNSSEC protect the communication between my laptop and my name server? + Unfortunately, not at the moment. DNSSEC is designed to protect the + communication between end clients (laptop) and name servers; + however, there are few applications or stub resolver libraries as of + mid-2020 that take advantage of this capability. + +Does DNSSEC secure zone transfers? + No. You should consider using TSIG to secure zone transfers among your + name servers. + +Does DNSSEC protect my network from malicious websites? + DNSSEC makes it much more difficult for attackers to spoof DNS responses + or perform cache poisoning. It cannot protect against users who + visit a malicious website that an attacker owns and operates, or prevent users from + mistyping a domain name; it will just become less likely that an attacker can + hijack other domain names. + + In other words, DNSSEC is designed to provide confidence that when + a DNS response is received for www.company.com over port 53, it really came from + Company's name servers and the answers are authentic. But that does not mean + the web server a user visits over port 80 or port 443 is necessarily safe. + +If I enable DNSSEC validation, will it break DNS lookup, since most domain names do not yet use DNSSEC? + No, DNSSEC is backwards-compatible to "standard" DNS. A DNSSEC-enabled + validating resolver can still look up all of these domain names as it always + has under standard DNS. + + There are four (4) categories of responses (see :rfc:`4035`): + + .. glossary:: + + Secure + Domains that have DNSSEC deployed correctly. + + Insecure + Domains that have yet to deploy DNSSEC. + + Bogus + Domains that have deployed DNSSEC but have done it incorrectly. + + Indeterminate + Domains for which it is not possible to determine whether these domains use DNSSEC. + + A DNSSEC-enabled validating resolver still resolves :term:`Secure` and + :term:`Insecure`; only :term:`Bogus` and :term:`Indeterminate` result in a + SERVFAIL. + As of mid-2022, roughly one-third of users worldwide are using DNSSEC validation + on their recursive name servers. Google public DNS (8.8.8.8) also has + enabled DNSSEC validation. + +Do I need to have special client software to use DNSSEC? + No. DNSSEC only changes the communication + behavior among DNS servers, not between a DNS server (validating resolver) and + a client (stub resolver). With DNSSEC validation enabled on your recursive + server, if a domain name does not pass the checks, an error message + (typically SERVFAIL) is returned to clients; to most client + software today, it appears that the DNS query has failed or that the domain + name does not exist. + +Since DNSSEC uses public key cryptography, do I need Public Key Infrastructure (PKI) in order to use DNSSEC? + No, DNSSEC does not depend on an existing PKI. Public keys are stored within + the DNS hierarchy; the trustworthiness of each zone is guaranteed by + its parent zone, all the way back to the root zone. A copy of the trust + anchor for the root zone is distributed with BIND 9. + +Do I need to purchase SSL certificates from a Certificate Authority (CA) to use DNSSEC? + No. With DNSSEC, you generate and publish your own keys, and sign your own + data as well. There is no need to pay someone else to do it for you. + +My parent zone does not support DNSSEC; can I still sign my zone? + Technically, yes, but you will not get + the full benefit of DNSSEC, as other validating resolvers are not + able to validate your zone data. Without the DS record(s) in your parent + zone, other validating resolvers treat your zone as an insecure + (traditional) zone, and no actual verification is carried out. + To the rest of the world, your zone still appears to be + insecure, and it will continue to be insecure until your parent zone can + host the DS record(s) for you and tell the rest of the world + that your zone is signed. + +Is DNSSEC the same thing as TSIG? + No. TSIG is typically used + between primary and secondary name servers to secure zone transfers, + while DNSSEC secures DNS lookup by validating answers. Even if you enable + DNSSEC, zone transfers are still not validated; to + secure the communication between your primary and secondary name + servers, consider setting up TSIG or similar secure channels. + +How are keys copied from primary to secondary server(s)? + DNSSEC uses public cryptography, which results in two types of keys: public and + private. The public keys are part of the zone data, stored as DNSKEY + record types. Thus the public keys are synchronized from primary to + secondary server(s) as part of the zone transfer. The private keys are + not, and should not be, stored anywhere other than secured on the primary server. + See :ref:`advanced_discussions_key_storage` for + more information on key storage options and considerations. + +Can I use the same key for multiple zones? + Yes and no. Good security practice + suggests that you should use unique key pairs for each zone, just as + you should have different passwords for your email account, social + media login, and online banking credentials. On a technical level, it + is completely feasible to reuse a key, but multiple zones are at risk if one key + pair is compromised. However, if you have hundreds or thousands + of zones to administer, a single key pair for all might be + less error-prone to manage. You may choose to use the same approach as + with password management: use unique passwords for your bank accounts and + shopping sites, but use a standard password for your not-very-important + logins. First, categorize your zones: high-value zones (or zones that have + specific key rollover requirements) get their own key pairs, while other, + more "generic" zones can use a single key pair for easier management. Note that + at present (mid-2020), fully automatic signing (using the :any:`dnssec-policy` + clause in your :iscman:`named` configuration file) does not support reuse of keys + except when the same zone appears in multiple views (see next question). + To use the same key for multiple zones, sign your + zones using semi-automatic signing. Each zone wishing to use the key + should point to the same key directory. + +How do I sign the different instances of a zone that appears in multiple views? + Add a :any:`dnssec-policy` statement to each :any:`zone` definition in the + configuration file. To avoid problems when a single computer accesses + different instances of the zone while information is still in its cache + (e.g., a laptop moving from your office to a customer site), you + should sign all instances with the same key. This means setting the + same DNSSEC policy for all instances of the zone, and making sure that the + key directory is the same for all instances of the zone. + +Will there be any problems if I change the DNSSEC policy for a zone? + If you are using fully automatic signing, no. Just change the parameters in the + :any:`dnssec-policy` statement and reload the configuration file. :iscman:`named` + makes a smooth transition to the new policy, ensuring that your zone + remains valid at all times. -- cgit v1.2.3