While the question, Is cyber risk systemic?, is simple in form, we believe that the details are highly nuanced. Can a single attack affect tens, hundreds, or even thousands of institutions at the same time? Is the event size inversely proportional to the likelihood that it will occur? Are certain industries more exposed to systemic risk than others? These questions and more frame the research presented in this paper. The data may be useful for sizing up systemic cyber risk and preparing for systemic attacks, important topics for all companies living in the cyber security ecosystem. Moreover, for cyber insurers, answers to these questions are essential for proper modeling and management of accumulation risk.
While our research question, Is cyber risk systemic?, is simple in form, we believe that the details are highly nuanced.
More than 90 percent of respondents believe that cyber risk is systemic, i.e., capable of impacting many companies at the same time. This has widespread implications for everything from cyber security and insurance to risk management practices. Businesses, cities, and people need to start thinking differently about their cyber security vulnerabilities as hiring vendors, placing data on the cloud, and using interconnected machinery and devices may materially change their risk profile. At the same time, insurance carriers, brokers, and service providers need to work together to improve the physical, virtual, and financial protection and support provided to clients to help mitigate this expanding risk.
More than 90 percent of respondents believe that cyber risk is systemic, i.e., capable of impacting many companies at the same time.
Identifying systemic risk potential is a start. Yet, it is also important to understand the likelihood and scale of a systemic attack. When asked to rank the likelihood of different-sized attacks occurring within the next twelve months, a large majority of respondents replied that they believe a systemic cyber event impacting between five and ten companies is more likely to occur than one impacting 100 or significantly more companies. Nevertheless, recent incidents, e.g. the MongoDB ransom, Dyn distributed denial-of-service (DDoS), and SWIFT banking attacks highlight the very real threat of larger systemic events. In the DDoS attack against Dyn, a web traffic manager, hackers targeted an Internet infrastructure
service, causing intermittent delays to high-traffic websites across multiple industries.
In late 2016 and early 2017, hackers launched an extortion campaign on customers of a widely used open-source database platform, MongoDB. Apparently the hackers targeted older versions with default security settings that made it easier to access, view, edit, or delete data. Security researchers suggest that between 50,000 and 100,000 databases were exposed globally. Flashpoint, a cyber security firm, estimates that at least 20,000 databases were perhaps permanently deleted.¹
An ethical hacker investigating the issue has reported that companies across many sectors may have been impacted, including healthcare, financial services, education, and travel.² The fallout from lost databases is difficult to quantify, but likely quite large. One prominent healthcare institution is reported to have lost three years of research data when its database was deleted in the attack.
When asked to weigh the likelihood of the most severe scenarios (e.g., single events impacting 500 or more companies) respondents ranked a mass distributed Denial-of-Service (DDoS) attack on a major cloud provider as the most likely cross-sector mega event. This is particularly important in light of brisk cloud computing growth and the proliferation of IoT devices which have been used to launch large DDoS attacks. The scenario ranking also suggested that systemic financial services, healthcare, and retail incidents are viewed as most likely. In data theft or destruction scenarios, flaws in hardware or software widely used by the industry were most concerning.
Attacks on critical infrastructure that could cause significant loss of life and bodily injury ranked lowest on the list of scenarios. Executing large-scale attacks on infrastructure (e.g., utilities, aviation, or transportation) would likely require a high degree of sophistication that may limit the pool of capable actors, though the specter of such a threat remains.
Respondents ranked a mass distributed Denial-of-Service (DDoS) attack on a major cloud provider as the most likely cross-sector mega event.
Technological progress moves societies forward. Vaccination, electricity, mass transit, and advanced chemistry have all fundamentally changed the world for the better. With each change however, comes risk and the potential to deviate from our established norms and expectations. Electronic commerce – possibly more than any other social factor – is shaping the risk profile of our modern economy.
But, as previous examples demonstrate, the risk can be managed as the majority of respondents largely agreed that systemic cyber exposure can be mitigated with proper cyber security investments. Along with security software and hardware, investments should include careful vendor vetting and management, training on proper security practices (e.g., back-ups of mission-critical data), and insurance to help mitigate the impact of a systemic cyber event. While cyber threats will continue to advance and expand, defenses must
To collect data for this survey, in December 2016, AIG sent electronic surveys to over 100 cyber security, technology, and insurance professionals in the United States, United Kingdom, and Continental Europe. Recipients included chief information security officers, technology experts, and forensic investigators as well as cyber researchers, academics, insurance brokers, underwriters, and risk modelers.
Respondents considered a wide range of scenarios that ‘scare them most,’ from cyber war games to casualty causing attacks on critical infrastructure. Below are some specific scenarios cited: