DNS is an essential substrate of the Internet, responsible for translating user-friendly Internet names into machine-friendly IP addresses. Without DNS, it would be an impossible mission for us to navigate through the Internet. As we have seen in recent years, DNS-based attacks launched by adversaries remain a constant lethal threat in various forms. The record-breaking 300gbps DNS amplification DDoS attack against Spamhaus presented by Cloudflare at Black Hat 2013 is still vivid in our minds. Since then (in the last 3 years), thanks to the dark force's continuous innovations, the dark side of the DNS force is getting much more pernicious. Today, the dark side is capable of assembling an unprecedented massive attacking force of an unimaginable scale and magnitude. As an example, leveraging up to 10X of the Internet domain names, a modern DNS-based attack can easily take down any powerful online service, disrupt well-guarded critical infrastructure, and cripple the Internet, despite all the existing security postures and hardening techniques we have developed and deployed.
In this talk, we will present and discuss an array of new secret weapons behind the emerging DNS-based attacks from the dark side. We will analyze the root causes for the recent surges of the Internet domain counts from 300-million a year ago to over 2-billion. Some real use cases will be shown to illustrate the domain surges' impact on the Internet's availability and stability, especially with spikes up to 5-billion domains. We will focus on the evolution of random subdomain weapon which can generate a large number of queries to nonexistent fully qualified domain names such as 01mp5u89.arkhamnetwork.org and 01k5jj4u.arkhamnetwork.org to overload and knock down both authoritative name servers and cache servers along the query paths. Starting as a simple primitive tool used to disrupt competitors' gaming sites in order to win more users among the Chinese online gaming community about five years ago, random subdomain has become one of the most powerful disruptive weapons nowadays. As the attack targets move towards more high- profile and top level domains, the random subdomain weapon also becomes much sophisticated by blending attacking traffic with legitimate operations. It is a challenge for the cyber security community to distinguish bad traffic from benign ones in a cost-effective manner.
We will address this challenge by dissecting the core techniques and mechanisms used to boost attack strength and to evade detection. We will discuss techniques such as multiple level of random domains, mix use of constant names and random strings, innovative use of timestamps as unique domain names, as well as local and global escalations. We will demonstrate and compare different solutions for the accurate detection and effective mitigation of random subdomain and other active ongoing DNS-based attacks including DNS tunneling of data exfiltration on some most restricted networks due to the pervasiveness of DNS.
Dr. Erik Wu recently joined a stealth deception startup, working on the next-generation active defense technologies. Prior to his new endeavor, he built anInternet-scale platform for emerging threats collection, analysis, andenforcement at Nominum. Dr. Wu is one of the main brains behind severalcurrent technologies being widely-deployed to protect against DNS-basedattacks. He brings many years' experience in the cyber security industryincluding chief scientist at Damballa, principal scientist/researcher atMcAfee, and head of advanced threat research at Trend Micro. Dr Wu has a PhDfrom Royal Institute of Technology, Sweden and was a visiting scientist at MITComputer Science Lab.