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DNSSEC Restoring trust in DNS Roland van Rijswijk roland.vanrijswijk [at] surfnet.nl

DNSSEC Restoring trust in DNS Roland van Rijswijk roland.vanrijswijk [at] surfnet.nl. In cooperation with:. About us. High quality and high bandwith network for higher education and research Shared ICT innovation centre for academia

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DNSSEC Restoring trust in DNS Roland van Rijswijk roland.vanrijswijk [at] surfnet.nl

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  1. DNSSECRestoring trust in DNSRoland van Rijswijkroland.vanrijswijk [at] surfnet.nl In cooperation with:

  2. About us High quality and high bandwith network for higher education and research Shared ICT innovation centre for academia Over 180 connected institutions (universities, polytechnics, vocational education, hospitals, research institutions) with 1 million end-users Independent consultancy company Cryptography expertise Internet security expertise SURFnet. We make innovation work

  3. Overview • First half: • Attacks on DNS • Second half: • DNSSEC in detail • Questions: please ask! SURFnet. We make innovation work

  4. DNS: Roadsigns for the net SURFnet. We make innovation work

  5. DNS: insecurity by design? • DNS was designed in the early Internet era • Everybody more or less knew everybody else • And everybody trusted everybody else • Bottom line: Security was not a design criterion SURFnet. We make innovation work

  6. Threats to DNS • Availability • If DNS is not available, the internet is broken (users think) • A typical DNS resolver services 100000+ end users • Some authoritative servers host over 8 million zones • Exploitation • On an exploited server availability and integrity are broken • Plus the attacker can gain access to all other software on the same server/client • Integrity • DNS gives the wrong answer and sends you the wrong way Slide content courtesy of Bert Hubert (PowerDNS) SURFnet. We make innovation work

  7. Why attack DNS? DNS is everywhere: In your phone, in your laptop, in your PC… But also in your car, in an ATM, in your elevator, … It is very hard to protect DNS against attacks (currently) It is very easy to attack a lot of users 6 SURFnet. We make innovation work

  8. www.piggybank.dom A? Referral to auth. www.piggybank.dom A? www.piggybank.dom A: 123.45.67.89 www.piggybank.domA: 123.45.67.89 www.piggybank.dom A? Answer: a man in the middle attack Let’s start simple Question: name a general attack model that is applicable to this setup

  9. Beyond M-i-t-M: spoofing

  10. www.piggybank.dom A? Referral to auth. www.piggybank.dom A? www.piggybank.dom A: 123.57.89.15 www.piggybank.domA: 123.57.89.15 www.piggybank.dom A? Cache poisoning Question: how can I target a specific name? Answer: introduce a rogue client

  11. So where do we go today? ;-) SURFnet. We make innovation work

  12. Is it really a threat? Yes because: Source port randomisation was not common practice before Kaminsky Query ID randomisation wasn’t common practice either No because: You can only attempt to poison a name a few times per day (why?) 11 SURFnet. We make innovation work

  13. Cache poisoning++ • Dan Kaminsky published an attack at last year’s Black Hat conference • No need to wait for a resolver to take initiative, no need to wait for TTL expiry… SURFnet. We make innovation work

  14. Preparing for Kaminsky

  15. QID=1234 12345.piggybank.dom A??? go to piggybank auth. 12345.piggybank.dom A??? 12345.piggybank.dom A??? 12345.piggybank.domA: 123.45.67.89 QID=1235 Additional: NS piggybank.dom Attack in action QID=1234 QID=1233 QID=1235 Success!

  16. Spoofed additional section ;; QUESTION SECTION: ;abcde.piggybank.dom. IN A ;; ANSWER SECTION: abcde.piggybank.dom. 582 IN A 123.45.67.89 ;; AUTHORITY SECTION: piggybank.dom. 3161 IN NS ns1.piggybank.dom. piggybank.dom. 3161 IN NS ns2.piggybank.dom. ;; ADDITIONAL SECTION: ns1.piggybank.dom. 604800 IN A 123.45.67.1 ns2.piggybank.dom. 604800 IN A 123.45.67.2 SURFnet. We make innovation work

  17. www.piggybank.dom A: 123.45.67.89 www.piggybank.dom A? www.piggybank.dom A? Attack in action www.piggybank.dom A: 123.45.67.89

  18. So it’s even worse! SURFnet. We make innovation work

  19. Impact on threat level (1) • Kaminsky is happening (we think, but is damn hard to detect): • Wide-scale patching has been rolled out • But research shows:Poisoning unpatched BIND: ±3 seconds Poisoning patched BIND: 1-11 hours (source: NIC.cz) SURFnet. We make innovation work

  20. Impact on threat level (2) • Kaminsky is happening on our network! SURFnet. We make innovation work

  21. Impact on threat level (3) • Kaminsky is happening on our network! SURFnet. We make innovation work

  22. Impact on threat level (4) • Kaminsky is happening on our network! SURFnet. We make innovation work

  23. The slow attack • Brute force attacks are easy to detect • But the slow attack is very insidious… research by Bert Hubert (PowerDNS) shows: Graph courtesy of Bert Hubert SURFnet. We make innovation work

  24. Summary

  25. Break time See you in 15 minutes

  26. What is DNSSEC? (1) • DNSSEC is an extension to DNS specified by the IETF in a number of RFCs • Actively developed since 1997 • According to RFC 4033: “The Domain Name System Security Extensions (DNSSEC) add data origin authentication and data integrity to the Domain Name System.” SURFnet. We make innovation work

  27. What is DNSSEC? (2) • DNSSEC makes it possible to check the authenticity of DNS records • This is accomplished using public key cryptography • What DNSSEC does not do: • Provide confidentiality • Protect against threats to the name server (DDoS, etc.) • Guarantee correctness of the DNS data (only authenticity) • Protect against phishing, typosquatting, etc. SURFnet. We make innovation work

  28. Cryptography in DNSSEC (1) • Public key cryptography • RSA, DSA, (Elliptic Curve) • All based on a common principle: the key-pair • Private Key is used to signwell protected, hidden from outsiders • Public Key is used to verifymust be widely published SURFnet. We make innovation work

  29. Cryptography in DNSSEC (2) • Signing takes place at zone level • 2-tiered key model: • Key Signing Key • Large key size (≥ 2048 bits RSA) • Long validity (≥ 1 year) • Used to sign Zone Signing Key • Zone Signing Key • Smaller key size (≥ 1024 bits RSA) • Short validity (± 1 month) • Used to sign the zone (resource records) SURFnet. We make innovation work

  30. Signing DNS zones • Additional resource records (RRs) • For public keys: • DNSKEY, DS • For signatures: • RRSIG • For authenticated denial-of-existence: • NSEC, NSEC3 • Zones become quite a bit larger SURFnet. We make innovation work

  31. Validating a response • Query “www.nist.gov” @ns1.nist.gov • IN A www.nist.gov 129.6.13.45 • IN RRSIG 156 0020502000151804A10 623C49E8D53CF7E6046E69 737403676F7600...  signature! • Validate this signature against the “nist.gov” zone public zone signing key • It’s the resolver’s job to do this! • How do I find and trust the “nist.gov” key? SURFnet. We make innovation work

  32. Current deployment • Deployed on several TLDs: • ccTLD’s: .bg, .br, .cz, .pr, .se • generic TLD’s: .org, .gov, .museum • Announced for more TLDs: • generic TLD’s: .com and .net (2011)(> 65% of all domains!) • Good news: root is likely to be signed before end of 2009 (bad news: politics…) • Many (cc)TLD’s still to announce strategy SURFnet. We make innovation work

  33. Trust chain

  34. Islands of trust SURFnet. We make innovation work

  35. Finding trust anchors • Managing trust anchors by hand is hard work • IANA has made the “Interim Trust Anchor Repository” (ITAR) availablehttps://itar.iana.org/ • ISC has introduced “DNSSEC look-a-side validation” (DLV) and made a repository available • No standard way to trust the trust anchors of these repositories • These are interim solutions SURFnet. We make innovation work

  36. DLV

  37. Key management (1) • Key Signing Key and Zone Signing Key have a limited validity; this requires regular roll-overs: SURFnet. We make innovation work

  38. Key management (2) • Keys need to be stored securely  off-line, smart card, Hardware Security Module (HSM), ... • Administrators need to plan for emergency key roll-over • The parent has to be notified of new keys for a domain (this needs to be automated) SURFnet. We make innovation work

  39. Future SURFnet. We make innovation work

  40. Criticism on DNSSEC The Top-10 Reasons Why DNSSEC Is the String Theory of the Internet 10. Adds many new dimensions to an already complex problem 9. Hogs all the research funds 8. Has many careers riding on it 7. Widely hailed by expert and layman alike as the next big thing 6. Responds to shortcomings by reinventing itself and doubling its complexity 5. On its third iteration to succes 4. Attracts the brightest minds of the industry 3. Cult-like following among believers 2. Always on the verge of solving a real world problem 1. Will be ready in 6 months! Bert Hubert (PowerDNS) • Even the critics agree that DNSSEC is the only available solution at the moment • That doesn’t mean that DNSSEC is perfect… far from it • DNSSEC is hard (especially compared to ‘ordinary’ DNS, which is very forgiving) • The (un)availability of easy-to-use tools is hindering deployment of signed zones SURFnet. We make innovation work

  41. DNSSEC software • But there is light on the tool horizon: • OpenDNSSEC (www.opendnssec.org) • Secure64 DNS Signer • Xelerance DNSX Signer • ZKT (Zone Key Tool, www.hznet.de/dns/zkt) • PowerDNS + DNSSEC = PowerDNSSEC • other vendors have announced products • For resolvers it’s a different matter, tools are widely available: • Unbound (by NLnetLabs) • BIND 9.x and up • Windows Server announced (2008 R2, Server 7) SURFnet. We make innovation work

  42. Alternatives (1) • Continue patching against attacks (keep using traditional DNS) • This is an arms race • The race is already being lost!(remember the 6 weeks attack that Bert Hubert talked about yesterday) • SSL/TLS • Too heavyweight to use on connections to DNS servers • Does not secure a domain against cache-poisoning; getting an SSL certificate is easy SURFnet. We make innovation work

  43. Alternatives (2) • TSIG/SIG(0) • TSIG is based on shared secrets (does not scale) • SIG(0) secures transactions (no authentication of records!) • DNScurve • Based on elliptic curve crypto • Can do much more than DNSSEC • Only proves authenticity online (forwarder based) • No widescale deployment/support SURFnet. We make innovation work

  44. Alternatives (3) • DNS 0x20 • Based on using capitalisation to introduce extra entropy into a query • Capitalise parts of the query at random and check that the capitalisation in the answer matches the query • Should be compatible with existing DNS infrastructure (RFC 4343) • But depends on all name server software to implement literal query copying (most do) • Criticism: it’s still an arms race • And it doesn’t protect ‘.’ SURFnet. We make innovation work

  45. Summary • What does DNSSEC do for you? • You can prove the authenticity of the records in your domain • You can check the authenticity of the records of others • You effectively protect yourself against attacks like Kaminsky’s SURFnet. We make innovation work

  46. What have we done? • SURFnet’s resolvers perform DNSSEC validation: SURFnet. We make innovation work

  47. What are we going to do? • Extend our managed DNS service with DNSSEC support • Testing DNSSEC appliances as they appear on the market • Keep supporting OpenDNSSEC • Give talks like this one :-) SURFnet. We make innovation work

  48. What can you do? • Gather knowledge on DNSSEC • SURFnet DNSSEC white paper (www.dnssec.nu) • Available at the end of this class • Update/reconfigure your resolvers to support DNSSEC validation and experiment with it • Work on an open source tool project! • Go to the OpenDNSSEC website and test the software SURFnet. We make innovation work

  49. Questions? ? Thank you for your attention! Roland van Rijswijk roland.vanrijswijk [at] surfnet.nl Rick van Rein rick [at] openfortress.nl Presentation released under Creative Commons(http://creativecommons.org/licenses/by-nc-sa/3.0/nl/deed.en) SURFnet. We make innovation work

  50. Lab work • You are going to perform the Kaminsky attack • Install BIND as a resolver • Download the code IMPORTANT: The code is provided under embargo, please discard it after the lab work is done • We’d like you to finish with a short presentation of your findings

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