In-depth analysis across large sample of networks globally fingerprints and traces origins of most DDoS attacks (by frequency and traffic volume); finds that majority of distributed denial-of-service (DDoS) attacks originate from fewer than 50 hosting companies and regional providers
Nokia Deepfield shares strategies for fingerprinting and tracing primary DDoS sources; makes recommendations for addressing DDoS security with networking community. Analysis shows more than 100% increase in daily DDoS peak traffic between January 2020 and May 2021
Identifies the threat potential for possible DDoS attacks over 10 Tbps – four to five times the scale of largest attacks reported so far (just above 2 Tbps) – due to rapidly growing number of open and insecure internet services and IoT devices
Delivers Nokia Deepfield Defender, specifically designed to safely, securely and efficiently orchestrate DDoS mitigation across multiple vendors, including next-generation IP routers such as the Nokia FP-based Service Routers enabling low-latency, high-scale, deterministic protection
Nokia Deepfield announced the results of its global distributed denial-of-service (DDoS) traffic analysis, which examined service provider network traffic encompassing thousands of routers on the internet between January 2020 and May 2021.
Among the findings, which were presented by Dr. Craig Labovitz, Nokia Deepfield CTO, at NANOG82: more than 100% increase in daily DDoS peak traffic in this time period; newly identified DDoS threat potential over 10 Tbps – four to five times higher than the largest current attacks reported – due to rapidly growing number of open and insecure internet services and IoT devices.
In an environment where attackers constantly leverage opportunistic resources to source their attacks, Nokia Deepfield found in the past 15 months accessibility of DDoS for hire services has increased the threat potential of the existing botnet, IoT and cloud-based attack models.
The results trace the origins of most of the high-bandwidth, high-intensity (volumetric) attacks to a limited number of internet domains, finding that most global DDoS attacks (by frequency and traffic volume) originate in less than 50 hosting companies and regional providers.
As Covid lockdown measures were implemented in 2020, Nokia Deepfield noticed a 40-50% increase in DDoS traffic. The continued increases in intensity, frequency and sophistication of DDoS attacks have resulted in a 100% increase in the “high watermark levels” of DDoS daily peaks – from 1.5 Tbps (January 2020) to over 3 Tbps (May 2021).
With broadband connectivity becoming an essential service, the fight against DDoS is critical. These large-scale DDoS attacks can inflict major damage on individual and large-scale connectivity and service availability, resulting in damages costing hundreds of thousands or even millions of dollars in production and operational losses.
Accurate DDoS detection and cost-effective, automated mitigation are becoming paramount requirements for service providers, cloud builders and network operators to protect their network infrastructures, services and users.
The newly enhanced Nokia Deepfield Defender provides fast and accurate DDoS detection and facilitates agile mitigation of volumetric DDoS attacks at the network edge. With its ability to scale to petabyte-levels and advanced features such as multi-layer protection and auto-mitigation, Deepfield Defender delivers an intelligent and automated approach to thwart and minimize the security risks associated with a new generation of DDoS threats and attacks.
Drawing DDoS security expertise from its global network deployments and insights from Deepfield Security Genome™, Nokia Deepfield Defender accurately and rapidly detects hosts, botnets and IoT devices involved in active attacks, and programs router-based mitigation with tens/hundreds of thousands of highly precise filters resulting in network-wide, cost-effective DDoS protection.
Nokia Deepfield Defender is a component of the Deepfield portfolio of IP network intelligence, analytics and security applications and uses network-based big data. The advanced analytics are combined with the embedded, multi-layer network security capabilities of Nokia 7750 Service Router and 7950 XRS routers to eliminate highly distributed, high-volume DDoS attacks from impacting service provider networks and customers.
Nokia Deepfield CTO Dr. Craig Labovitz said it is equally important for every participant in the network security ecosystem – end users, vendors, service providers, cloud builders, regulators and governments – to understand the dangers DDoS poses to the availability of internet content, applications and critical connectivity services.
“With this knowledge and a community commitment to solving the DDoS problem, we can go a long way towards making our networks, services and subscribers more secure,” said Dr. Craig Labovitz.
Dr. Craig Labovitz added that with the new Nokia Deepfield Defender solution, Nokia Deepfield takes a unique approach in leveraging the combined power of high-performance IP networks and big data analytics to protect the network on all fronts from all volumetric DDoS attacks, at petabit scale, without lifting a hand.
“It will allow network operators to make a big leap towards improving overall security and availability of their networks and services for all their customers,” said Dr. Craig Labovitz.
Nokia Deepfield’s DDoS traffic analysis is based on a large global sample of service providers, ranging from companies which provide global transit and residential broadband services, to regional providers, Content Delivery Networks (CDNs), webscale and hosting companies. The analysis examined overall changes in internet traffic pattern, with a specific focus on DDoS security.