Source: https://carnegieendowment.org/2018/12/06/governing-private-sector-self-help-in-cyberspace-analogies-from-physical-world-pub-77832
Timestamp: 2019-04-22 15:20:10+00:00

Document:
Summary: How far are private actors allowed, expected, or even obligated to go when protecting themselves against cyber attacks and other malicious internet activity?
Increasingly frequent and costly cyber attacks targeting the private sector routinely surmount basic cybersecurity measures. To counter this threat, private actors globally are contemplating or engaging in risky activities, including hacking back into the computer networks of their attackers to punish them or disrupt their activities. The absence of clear international rules of the road for private actors in cyberspace threatens to create a serious gap in global governance enabling potentially destabilizing private sector activities. There is an urgent need to consider the emerging norms and desirable boundaries of self-help in cyberspace.
Unlocking the significant capacities of the private sector through a properly circumscribed self-help policy approach could offer an essential part of the solution to a deteriorating cybersecurity landscape. This is a growing strategic imperative for the United States and others struggling to manage the private sector’s exposure to incessant cyber attacks by state and nonstate actors alike.
This study attempts to help navigate the risks and opportunities presented by private self-help in cyberspace. It aims to foster serious consideration of the realistic boundaries of self-help and its potential role in private sector cyber defense.
Self-help in cyberspace includes a wide range of activities, from basic measures securing assets (for example, firewalls and encryption) to more assertive defenses designed to thwart attacks and even retaliatory cyber operations against attackers’ computer networks. The focus here is primarily on those activities that exceed the limits of purely passive defenses—activities that could be perceived as similar to the use of force in the physical world. Such activities are the subject of growing contention and raise significant concerns, including risks of collateral damage to innocent third parties and the consequences of measures with transnational impacts.
The aim here is not to resolve the complex dilemmas for law and policy presented by these measures. Before such legal and policy debates can be resolved, more fundamental questions need to be addressed: What principles should define reasonable defensive behavior, and how should governance be approached in a transnational market of security services? This study outlines the contours of a pragmatic approach to answering these questions with a focus on minimizing risks and incentivizing responsible conduct.
Cyberspace presents novel complexities and dilemmas. But the challenges of governing private actors undertaking security roles are not unprecedented. Historically, there has always been a need to strike a balance between the roles of the state and private actors that places some burden of risk on the latter and allows for some extent of self-help. The emergence of unique roles and capacities of the private sector in cybersecurity is in many ways an extension of deeper trends in the physical world that characterize the currently shifting relationship between states and private actors.
This study draws from historical and contemporary experiences with various manifestations of self-help in the physical world analogous to cyber activities. It examines analogies from the U.S. domestic context and from international governance efforts. The examples range from electric fences and other measures individuals take to defend their property to the quasi-military activities found in the global industry of private security contractors.
Analogies have inherent limitations but offer useful heuristics for thinking through the dilemmas posed by self-help in cyberspace. They capture different facets of this challenge that blurs traditional distinctions—foreign and domestic, public and private. The analysis here focuses on both where and how self-help should be realistically circumscribed. The insights from these analogies include specific principles and distinctions for governing defensive activities, complementary mechanisms for managing risks and incentivizing behavior, and lessons from processes of governance in similarly complex, global domains of activity.
Creating space for legitimate and responsible self-help practices could begin to arrest negative trends in cybersecurity and reduce the pressure on governments to escalate their responses to cyber threats. Such space may even be necessary to forestall corporations’ resort to riskier, destabilizing activities and vigilantism, or avert an equally undesirable trajectory toward an untenable situation for private sector cybersecurity.
Certain measures and practices clearly should be off the table for private actors. But within those constraints, there is significant space to explore a spectrum of defensive measures whose risks appear to be manageable and justified in some circumstances. Many of these defy traditional frameworks for forceful activities. They can be employed in ways tailored and proportional to threats, limited in impacts (for example, temporary or reversible), and conditional upon technical safeguards or certain defensive contexts.
This spectrum of cyber measures affords unique opportunities for self-help, but many such measures carry complex risks. They call for a nuanced approach to governing the behavior of private actors. Such an approach should examine, holistically, the incentive structure shaping private sector behavior, including competing and complementary forces such as regulation, liability, insurance, and market forces. Efforts to shape this incentive structure should be calibrated to the realistic limits of government control in this space and consider flexible, stopgap solutions. Finally, states’ domestic approaches must correspond to the global nature of these activities. At a minimum, an attempt to foster a common understanding of rules of the road among like-minded states is needed. But the irresolution of fundamentally diverging views among states toward the legitimacy and legality of self-help activities should not impede practical measures to improve behavior.
Solidify absolute boundaries of legitimate self-help to exclude those activities that would clearly be destabilizing internationally (that is, destructive hack backs). This calls for some convergence internationally upon norms that would build a firewall between legitimate self-defense and activities exclusively in the domain of state actors or oversight.
Raise the bar for basic cybersecurity practices to limit the circumstances that would require more assertive defenses. If the vast majority of cyber attacks can be mitigated through basic cyber hygiene, then making more assertive measures conditional upon basic due diligence would immediately narrow the circumstances of their employment.
Clear the way for self-help activities that would be broadly beneficial and relatively low risk, including a range of measures like digital beacons. Promoting more effective and less predictable defenses can create a broader deterrent effect that extends even to those not employing them.
Create the conditions to motivate responsible conduct for those activities whose risks could be managed or mitigated. This includes a range of complementary approaches: leveraging key stakeholders in positions to shape norms and conduct (the insurance industry, financial sector, and so on), raising barriers to entry in the form of licensing or certification requirements, imposing liability for negative consequences, and creating incentives to guide behavior in a transnational market of security services.
Clear roles and responsibilities in cyberspace have yet to be negotiated. Yet de facto norms of self-help behavior are already emerging—driven largely by individual corporations’ initiative and growing demands for aggressive cyber defense. Serious attention is needed to think through how to proactively shape the trajectory of this space of private sector activity. This requires moving beyond the false dichotomies that have dominated discussions (such as whether or not to allow hacking back). There are inevitable risks with any path forward regarding the role of the private sector. And in the current transient state of the domain, it is more important to identify feasible stopgap measures to manage these risks rather than attempt to define an ideal end-state. This study thus hopes to both help ground this debate in experience and stimulate further consideration of these questions.
The cyber risk landscape has deteriorated in recent years. Massive ransomware attacks, large-scale data breaches, and discoveries of pervasive cyber vulnerabilities and aggressive, persistent intrusions into critical infrastructure and other sensitive targets all demonstrate an expansion and escalation of cyber threats. This trend appears likely to accelerate as sophisticated cyber capabilities proliferate further to globally dispersed malicious actors and the scope and scale of opportunities to launch attacks continue to expand. Meanwhile, the potential grows for systemic cyber risks to impact public safety, economic prosperity, and national security.
Far from protecting the private sector from cyber threats, many states are exacerbating the problem. Most governments are preoccupied with securing their own networks and critical infrastructure and lack the resources necessary to defend the private sector in any comprehensive manner. Many have strong aversions to assuming responsibility for private sector cyber risks. Even when they do seek to respond to and can attribute malicious activity, their responses are often impaired by concerns of escalation, retaliation, and other unintended consequences. Moreover, states remain largely focused on exploiting cyberspace—often for legitimate national and international security purposes. Yet offensive cyber capabilities deployed or accidentally leaked have been reverse engineered and redeployed by malicious actors, further undermining the private sector’s security.
By exposing private entities to the malicious activities of foreign nation-state hackers, criminals, and terrorists, cyberspace has weakened the buffer that states traditionally provide between their citizens and external security threats. This is not to say that governments are doing nothing; many have assisted the private sector with cybersecurity.1 But their efforts have largely been outpaced by the escalation of cyber threats that the private sector generally cannot rely on law enforcement to protect it from. Cyber threats thus pose a fundamental challenge to the state’s role as the ultimate guarantor of its citizens’ security.
But increasingly sophisticated and costly cyber attacks that surmount basic cyber defenses have motivated some private entities to engage in more assertive forms of self-help. This includes companies undertaking, contracting, or offering a spectrum of measures often referred to as active cyber defense (ACD).4 Some such measures are potentially beneficial not only for companies’ defense but also for deterring cyber threats more broadly. Yet many entail significant risks, including potentially disrupting or damaging networks of innocent third parties (particularly if a cyber attack is misattributed).
Inconsistencies among national approaches contribute to a fragmented regulatory environment internationally. The absence in many states of clear legal limits on such activities in cyberspace encourages aggressive practices that blur the line between defense and offense, such as hacking back into the networks of attackers.7 Furthermore, offshore activities or contracting make it possible to circumvent the constraints that do exist. With a nascent transnational market for aggressive defensive and even offensive measures, a gap in governance is emerging globally that cannot be addressed by national regulatory approaches alone.
The scope of appropriate private sector self-help is ill-defined because there is little clarity regarding both minimal expectations for corporations to undertake basic cybersecurity and maximal limits on aggressive defenses. This results in corporations taking divergent strategies to manage their growing exposure to cyber risks. Some react with relative complacency, doing the minimal amount necessary to meet expectations or requirements. Others adopt a more aggressive defensive posture, resorting to self-help practices that come with their own set of risks.
These pressures on the private sector lead many companies to directly or inadvertently channel cyber risks—toward subcontractors, consumers and shareholders, governments, a nascent insurance market, or outward to attackers and potentially innocent third parties (through collateral damage). The burden of risk often falls to those with less ability to understand or manage it, sometimes without them even knowing—for example, innocent third parties. Even those companies that are proactive and effective at mitigating cyber risks may find it increasingly hard to do so in the face of escalating threats.
This state of affairs presents a precarious situation for policymakers. Attempting to shape private sector behavior in one area may have ripple effects by incentivizing companies to channel risks elsewhere. These effects can be difficult to anticipate, and cyber risks are often inscrutable even to the companies themselves. Further, these risks and activities are not contained by national boundaries. Countries are trying to set domestic rules for activities that have transnational externalities. The lack of global norms creates the potential for a gap in governance of private sector behavior that could destabilize cyberspace in unprecedented ways. Policymakers are under increasing pressure to address cyber risk but lack an effective formula to balance these factors.
This study examines the emerging boundaries of private sector self-help in cyberspace to help navigate these policy challenges. It explores the role that self-help might play in combating malicious activity and contributing to order in a rapidly evolving domain that challenges traditional assumptions and approaches to security, with a focus on how to circumscribe and govern self-help. But the scope of this study is pragmatic, starting with an appreciation of the limits of law and regulation as well as the inevitable risk trade-offs, and concentrating on realistic approaches to motivating responsible behavior.
The approach here draws from historical experience. The process of fostering rules and norms of behavior is often iterative and can be difficult to navigate in an emerging domain of activity. When considering the desirable and realistic boundaries of self-help behavior, it is useful to reference examples from the physical world. This study examines a range of activities from the physical world analogous to specific cyber measures and the frameworks and mechanisms that evolved to govern these activities. Examples include the use of electric fences or mantraps to protect private property or the employment of private armed guards.
Self-help in cyberspace could take many forms, from basic measures to secure assets to retaliatory cyber operations against malicious actors. This study focuses primarily on those actions near, or in some cases transgress, the upper limits of defensive behavior—measures that appear similar to force in the physical world. These measures comprise much of the current ambiguous space and pose the most difficult dilemmas (in contrast to the more innocuous basic cybersecurity measures).
The diverse range of technical phenomena this entails cannot be captured by any single analogy. Thus the first half of this paper catalogues various frameworks for governing specific self-help activities in the physical world in the U.S. domestic context. The second half focuses on the governance of private self-help activities in the international context through various state-centric and multistakeholder approaches. The study concludes with an examination of the individual and collective insights from these analogies for governing self-help in cyberspace.
Each analogy demonstrates a dynamic balance struck between the legitimate interests of private actors to defend their property and the negative consequences of self-help behavior. How this balance emerges and evolves can offer valuable insights: principles to govern forceful measures; lessons for weighing and balancing the competing equities at stake; mechanisms to incentivize and shape the behavior of private actors; and approaches to resolving the challenges of governance in a transnational domain of private activity. Individually, the analogies may vary in how readily their principles and precedents translate to the cyberspace context. For this reason, this study does not dwell on any single analogy but focuses on the collective insights from a broad survey of manifestations of self-help.
The objective of this study is not to resolve the complex legal, policy, and strategic dilemmas posed by these activities. More modestly, it seeks to provide useful heuristics for understanding and navigating these dilemmas by grounding them in historical experience. There is steadily growing pressure in the United States and elsewhere to revisit legal constraints on aggressive private sector cyber defenses.8 Before the legal questions surrounding these activities can be answered, some fundamentals must be considered, including the principles that should govern this arena of private sector activity and how law and regulation play a role within the broader incentive structure shaping behavior. While any path forward regarding self-help needs to be reconciled with existing law, a discussion of whether and how to amend the Computer Fraud and Abuse Act in the United States or other relevant laws is beyond the immediate focus here.
This study, therefore, does not offer legal opinions on the applicability of existing law to actions in cyberspace. The examination of legal precedents from real-world activities is not to suggest that these precedents can or should necessarily apply as a legal defense for cyber activities. Rather, the focus is on how those precedents reflect an effective balance struck through similar dynamics as those at play in cyberspace, and their usefulness in thinking through cyber analogs. Any reference to possible liability or legality of a particular action in cyberspace is offered merely as a normative consideration rather than a legal opinion.
Current debates over private entities’ use of controversial defensive cyber measures tend to fixate on their technical and legal dimensions: What limits should be placed on technical measures employed by defenders? Should defenders be allowed to engage in unauthorized access for the purposes of self-defense? However, underlying these disagreements are more fundamental, unresolved questions: What constitutes force in cyberspace? Should the government maintain a monopoly over the legitimate use of force in cyberspace—and is it even possible to do so? Placing these questions in the broader context of self-help draws attention to some of the assumptions that undergird these debates.
There is a temptation to view self-help, generally speaking, as antagonistic to state sovereignty and authority. This flows from a familiar narrative: the modern state evolved to supplant self-help as a guarantor of security; private actors agree to largely forego self-reliance for their defense. It follows that self-help in cyber could be atavistic—a return to a more primitive, lawless state of affairs. Indeed, debates over whether to allow more aggressive cyber defenses frequently invoke the Wild West as an admonition against ceding any ground to the private sector.9 Allowing self-help is seen as an irresponsible retreat by the state from the cyber domain and a weakening of its sovereignty.
Rather than a linear trajectory toward the gradual elimination of self-help, these scholars argue that there has been a sustained trend since the end of the Cold War in developing and developed states alike toward the empowerment of the private sector in security functions—from technologies for surveillance and home security to private military contractors. This is in part a result of globalization and evolving technology creating risks that demand increasingly specialized, on-demand, and rapidly adaptable security services. Global business risks fueled the rapid growth of the security services industry, with specialized businesses offering comprehensive security and risk management services tailored to multinational corporations.
Often it is commercial activity that generates demands for risk management that are not easily met by states, as they are focused on traditional policing functions and typically resistant to assuming responsibility for private activities. The business risks of multinational corporations, which often divert profits away from states and blur distinctions of nationality, are even less politically legitimate for governments to assume responsibility for.
In this light, the emergence of self-help in cyberspace appears less of a novel phenomenon than an extension of a sustained trend in the physical world: transnational commercial activities driven by evolving technology and a global operating environment are generating new risks that exceed the capacity or willingness of governments to assume responsibility for. Companies and private individuals are largely left—and in many cases encouraged—to secure themselves. As in the physical world, growing awareness of risk in cyberspace is contributing to a rapidly expanding market for managed cybersecurity services and the outsourcing of more aggressive self-help services. The cybersecurity industry appears to be on the same trajectory toward globally operable, integrated security solutions that have characterized private security in the physical world.11 States contribute to the demand as they often turn to private companies for both defensive and offensive capabilities and services.
Self-help in cyberspace, therefore, should not be viewed inherently as an aberration even as it presents unique considerations. Central to the new economic and security environment is the fact that the private information and communications technology (ICT) industry constructs and maintains much of the physical and logical infrastructure that comprises cyberspace. Malicious actors are constantly operating within and through private sector assets. As Lucas Kello put it: “In the past, the enemy’s presence in essential domestic terrains signaled the failure of security policy; today it is a starting axiom.”12 Consequently, companies making routine decisions in the development, production, and distribution of ICTs and their incorporation into other products are simultaneously shaping the range of possibilities for cyber operations, whether or not there is awareness or weighing of these security implications. In some cases, these decisions can have systemic impacts, given the interdependence of ICTs and widespread reliance on common platforms and services. Questions surrounding the scope and limits of private sector self-help should thus be viewed in the context of the private sector’s central role in this environment.
The ability of the private sector to directly and inevitably shape the risk landscape contributes to a core policy dilemma. If states attempt to preclude self-help and undertake responsibility for the security and defense of the private sector, they may create a moral hazard; companies will feel less inhibition to take actions that expand cyber risk since the responsibility and costs for managing it will fall to the state. Yet an overly permissive environment for self-help potentially encourages companies to channel risk toward third parties by engaging in aggressive defensive (or offensive) activities that may have collateral damage. The fact that these risks transcend national boundaries adds an additional level of complexity because they may incentivize jurisdiction shopping, offshore contracting for services, and the like.
This dilemma is only beginning to emerge on a global scale. But as basic, passive cyber defenses become increasingly insufficient to contend with sophisticated threats, the dilemma seems destined to become more pronounced. Of course, this is not to suggest that private actors should disregard basic cybersecurity practices, which can mitigate the vast majority of malicious activity. Rather, the current trajectory suggests that reliance upon passive defenses alone will become untenable. This may necessitate a balance between public and private roles that allows for effective self-help while incentivizing responsible behavior in this unique environment.
Prohibit—The state both formally prohibits an activity and actively undertakes to monopolize its practice, whether by punishing private actors for engaging in the activity or simply by exercising control over the capabilities necessary to do so.
Tolerate—The state expresses formal disapproval of an activity while falling short of directly intervening to prevent its practice. It may create barriers to entry or other constraints to limit engagement, such as through licensing requirements. Or it may take a more passive approach, creating disincentives, such as leveraging market pressures to shape behavior.
Encourage—The state demonstrates its approval of certain activities but largely leaves it to other forces, such as market pressures, to induce them. It may remove barriers to action or create incentives to nudge private actors to undertake an activity. More assertively, it may actively facilitate certain practices and empower private actors by providing legal authorization, building private sector capacities through training or public-private partnerships, or offering other forms of assistance.
Require—The state mandates an activity and may even punish actors for failing to undertake it. This may occur for entities whose failure to exercise basic self-help could be broadly detrimental to the public (for example, the security of nuclear facilities).
This spectrum is useful for underscoring several distinctions relevant to a policy approach to any form of self-help: tacit versus explicit positions and rules; direct regulation versus indirect influence; nominal policy versus action to realize some desired outcome; among others. At the extreme ends are the most assertive forms of governmental action, while in between is a continuum of approaches. The categories represent mere demarcations along this spectrum rather than discrete points. In reality, a state’s position may be ambivalent or even incoherent and difficult to place in any one category. It may have contradictory policies if different actors or agencies within the government push in different directions. Moreover, its approach may shift over time, with formal changes in policy lagging behind changes in practice. The government may simply remain ambiguous toward an area of activity, or leave it to be addressed by publicly initiated civil litigation.
It is reasonable to expect that for the foreseeable future self-help will play a relatively significant role in cybersecurity. Cyber threats are incessant and constantly evolving. The speed of cyber attacks in many cases vastly outpaces law enforcement action. Corporations’ cybersecurity needs are even more esoteric, specialized, and concentrated in private sector expertise than the physical security needs that have fueled the private security industry. Moreover, the private sector faces business risks that defy the application of traditional distinctions such as geographic location or legal jurisdiction. These risks can vary widely across industries or even among individual companies in the same industry. There is a growing recognition that these factors necessitate a high baseline level of constant risk management, including preparation for, resilience against, and recovery from attacks, rather than achieving some steady state of security—whether provided by the state or otherwise.
At the same time, the need to circumscribe self-help is ever greater in cyberspace, where individual corporations have capabilities that rival (or even exceed) some nation-states. A single company’s defensive action could spark an international incident or result in significant collateral damage that spills across national boundaries.
These observations serve as the starting point for the following survey of analogies that examines where and how various forms of self-help have been circumscribed historically, and what this suggests for navigating the questions posed by emerging and evolving forms of self-help. Insofar as past experiences with self-help in a variety of forms have been shaped by the same dynamics currently at play in cyber, these experiences can provide important and useful insights and a foundation for defining the rough contours of a framework for governing self-help in cyberspace.
The U.S. domestic context demonstrates the extent to which private actors undertake the protection of their assets in the physical world and how boundaries emerge and evolve to govern such activities. These boundaries are often formed by complementary incentives and mechanisms shaping behavior. The government sets absolute limits through criminal liability, ruling out activities deemed illegitimate for private actors due to their disproportionate impacts on third parties or even attackers. Within these limits, the space of reasonable and legitimate conduct is often defined by civil liability—the potential to be sued for monetary damages resulting from harmful effects of self-help.
Civil liability plays a key role in balancing the competing equities at stake with self-help—the legitimate interests of the defender and the risk of harm to third parties. The discussion here thus focuses heavily on the role of civil liability in circumscribing self-help activities that pose risks to third parties, frequently in combination with formal and informal regulatory mechanisms.
Historically, the evolution of domestic civil liability has followed a consistent path. First, certain actions are deemed unacceptably destabilizing or harmful to society, typically due to a successful lawsuit on behalf of an injured party. Then, the resolution of that lawsuit adds to an ever-growing body of civil law that draws boundaries for acceptable behavior.
Such a body of law is now gradually accumulating to address self-help actions in cyberspace. Through both successful and failed lawsuits, the expectations and limitations across a range of self-help behaviors are being loosely outlined. However, for many cyber measures, there is a lack of both jurisprudence and practical experience with their use and consequences. This makes it difficult to try and proactively address the legal ambiguities that exist. Referencing historical examples of self-help in the physical world is useful when considering the potential boundaries of self-help activities in cyberspace.
This section begins by exploring a range of activities in the physical world analogous to specific defensive activities in cyberspace. Here it is useful to distinguish those forms of self-help analogous to preemptive or preventive acts outside of a home network prior to an intrusion from those closer to mitigation and retaliatory action during and after an intrusion. After laying out this spectrum of activities, this section then examines different frameworks for selectively authorizing self-help activities or actors.
Security cameras demonstrate a compromise between competing equities of privacy and security, allowing for activities of limited intrusiveness for the benefit of combating crime. Applying this principle to cyberspace, defensive measures outside of a home network whose impacts are limited to information gathering could be justified, provided their information gathering was confined to areas where there is no reasonable expectation of privacy. When considering what such a compromise might look like in practice, it is pertinent to reflect on how these precedents have extended from the physical space to other domains—namely communication technologies.
Precisely where and how privacy rights extend to cyberspace is a subject for a much broader discussion. But there is a need to strike a balance between privacy and security as in other domains. A reasonable expectation of privacy has already been extended to protect the explicit content of communications in cyberspace under U.S. law.18 However, it does not appear to extend to certain types of data like bandwidth usage or data from internet service providers (ISPs), or even individual traffic data.19 Thus, when considering the legitimacy of measures that collect such kinds of data, it is important to weigh their limited impacts on privacy against their contribution to security.
This framework is potentially relevant to a range of measures and network monitoring activities that raise potential privacy concerns.20 “Traceroutes” or “tracebacks” used to track potentially dangerous traffic provide an illustrative example. Traceroutes are a tool to track packets sent along an internet protocol (IP) network, originating from the home network that employs the traceroute. Meanwhile, tracebacks are an attempt to properly attribute the source and path of incoming packets.21 Often, traceback methods rely on packets being marked by public routers as they pass through the internet, in a manner similar to public observation by security cameras, or tracking by private investigators (who also do not have legal access to information where owners have a reasonable expectation of privacy).22 Thus, traceroute and traceback techniques do not typically incur civil liability. However, if tracking were to become overly intrusive, and reach into areas where citizens are ruled to have a reasonable expectation of privacy, such as the content of their communications, the result would likely be some form of injunction against such behavior, as well as either a fine or monetary settlement. In keeping with the development over time of the reasonable expectation of privacy standard, the dispositive factor in whether intrusive activity may incur liability is whether that activity exposes private information of the individual, not necessarily the methodology used to get such information.
The challenge of balancing privacy and security in cyberspace is complicated in part because the appropriate level of privacy protection in this landscape remains a moving target. The salience of particular kinds of digital information to privacy rights is still unsettled. However, situational awareness and intelligence gathering in the environment outside of home networks appear to be increasingly necessary for effective defense against sophisticated cyber attacks. While it is important to draw lines to protect privacy, it may be necessary to create space for such measures provided their impacts fall below a certain level of intrusiveness.
Electric fences on property borders use force against intruders, which inevitably carries some risk of harmful impacts to innocent parties that come in contact with them. U.S. laws governing electric fence placement and voltage operate on a state-by-state basis, but there is a national prohibition against mantraps that use deadly force.23 According to U.S. law, reasonable force is permitted to protect against the theft of property if the force reasonably appears to be necessary to prevent or terminate an intrusion into, or interference with, an individual’s property—and doesn’t violate any other explicit law (like damaging a neighbor’s property).24 However, automated deadly force in the defense of property is never acceptable. Thus, a fence with enough voltage to kill someone is illegal, while a stun fence (or barbed wire) is not.
This distinction arises from a focus upon human life and safety over the value of any property when determining legally acceptable uses of force. The prohibition against mantraps that use deadly force was famously exemplified in Katko v. Briney,25 in 1971, when the court explicitly stated, “The law has always placed a higher value upon human safety than upon mere rights in property” and justified a thief successfully suing their would-be victim for booby-trapping his barn with a tripwire shotgun.
By extension of this logic, in the cyberspace context, if a network intrusion or data theft is initiated, then automated reasonable force could be used to counter such a threat. Importantly, any actions that result in bodily harm, death to individuals, or damage to a third party’s property may not be reasonable and can create liability for the entity engaging in these techniques—just as traditional booby traps would.
The limits of acceptable forceful perimeter defenses in the physical world are a function of their impacts, not just their location. This presents a complication for thinking through what an electric fence in cyberspace looks like. IP blocking is a common technique used for network defense at the enterprise level. The technique filters and blocks connections and packets from specific source IP addresses (where packets are sent from), or a range of IP addresses that are considered malicious.26 However, this is more analogous to a fence or gateway that is not electrified or dangerous.
Alternatively, a network may employ techniques to deflect traffic, treating incoming packets based on their source IP address and presumed threat level.27 If that network then automatically responds to certain IP ranges with aggressive action external to the network (like responding with packets that freeze or damage systems—logic bombs—directed at the purported source IP addresses), liability can result if people are harmed when those systems fail, or if the source IP address is misattributed and third party systems are impacted. Yet more limited, temporary, or reversible disruptions of an attack infrastructure could arguably constitute a reasonable response, even though the impacts would technically be outside of the defender’s network perimeter.
Precedents from the physical world need to be adapted to the unique geography of cyberspace. The location of an effect should not be the only consideration in defining a reasonable response to a cyber attack. The scope, scale, and severity of impacts from the defensive measure should be weighed against the offensive threat. Causality is a key factor in determining liability for self-help techniques that are in any way tied to bodily harm or death. Specifically, the automated technique must be both the cause in fact and the proximate cause of an injury.28 If an automated measure misattributes the source of an intrusion, and launches a logic bomb that takes down an external server as a response, would a court find any resulting physical harm to an individual had been a reasonably foreseeable result? What if the measure impeded hospital or critical infrastructure server function? Ultimately, by enacting aggressive self-help measures that reach outside their home network, a defender risks harming individuals. Given the higher value that U.S. law places upon human safety over rights to property, as exemplified in Katko v. Briney, courts may be likely to hold the defender responsible for the harm in such cases.
In the case of automated, indiscriminate measures with potential collateral damage, strict limits to prevent physical harm are necessary. But the same physical world precedent suggests it is worth exploring how to define the technical and circumstantial parameters that would define a reasonable, justified defensive response subject to the same principles as forceful activities in the physical world.
In many jurisdictions, an individual has a legal duty to retreat in the face of violence before using self-defense. However, the Castle Doctrine is a legal framework (adopted on a state-by-state basis) whereby an individual in their home has no such duty, and can immediately use force in self-defense (often up to and including deadly force). This, however, is exclusively for self-defense of a person (not of property), and, moreover, a corporation’s headquarters (or servers) do not qualify as a legal “dwelling.” As a result, this has very limited applicability in the cyberspace context. This would be confined to extreme cases where there is a reasonable expectation that failure to arrest the cyber attack could ultimately result in physical harm directly or perhaps indirectly, such as by endangering the performance of a life support or an essential ventilation system. Similarly, defensive action to disrupt an attacker might seem justified to prevent an attempt to spoof some instrumentation to provide a false reading that could, in turn, result in misguided and life-threatening corrective action and/or cause panic (for example, by tinkering with the vital control systems of an operating nuclear power plant).
Similarly, multiple states have Stand Your Ground (SYG) laws, which abolish an individual’s duty to retreat before using self-defense. While the specifics vary from state to state, all such laws require that the individual standing their ground must be faced with some level of physical threat to their person (not to their property). Often, confusion arises because SYG laws apply to robbery attempts (which is theft via threat or use of force) but not to larceny or theft (which is simply theft without any implied danger to a person’s safety). Stand Your Ground laws are exclusively for the self-defense of a person, and are rooted in legal protections of human life as opposed to property.
The jurisprudential prioritization of human safety over property remains relevant to self-help in cyberspace: in cases where a private entity’s data or services are crucial to human safety, the imperative of defending their integrity and availability may justify measures that risk disruption or even, in extreme cases, damage to the networks of third parties. However, these two frameworks are mentioned here primarily to address their inclusion in conversations regarding self-help in cyberspace. Neither are properly applied to the protection of property, and thus their insights are limited to specific scenarios of threats to human safety, as described above.
As noted previously, mantraps that use deadly force are not an acceptable means of protecting property. Booby traps that use exclusively nonlethal force, however, are potentially defensible. Automated pepper spray, deterrent alarms, and similar systems may fall under the category of reasonable force in defense of property if they do not cause excessive injury to persons, but rather deter and/or track intruders. This includes passive measures like internal security cameras that document the behavior of intruders. However, any automated defense cannot exceed what would be legally permissible in person if a threat to property (but not to life) existed.29 Additionally, if nonlethal booby traps result in grievous harm (even to an intruder), or ensnare someone with a right to be on the property, such as a police officer with a warrant, then civil and potentially criminal liability could result.
In the cyberspace context, setting virtual and automated booby traps for network intruders, including methods of tracking their intrusion, only exposes a company to liability if any form of physical harm comes to the intruder, third parties, or third party property, or if retributive measures reach externally into private networks as a response. This is an instance in which the legal focus on bodily integrity, and lack of corporeal presence in cyberspace, works in favor of the defending network. By logical extension, it seems reasonable to put in place an extensive home network of cyber booby traps as long as they do not have impacts outside of the network borders (as compared with physical booby traps, which must be very limited in capacity).
Two methods of setting cyber traps in a home network are called honeypots and tarpits.30 Honeypots are decoy systems that appear attractive to intruders, and have mechanisms that log the attackers’ behavior once they are inside to gain information about their tactics and motivations.31 A similar practice on a smaller scale is called a honey token. Attractive, but false, information is created as a lure for intruders. In a perfectly secure system, nobody should interact with that data. If someone does, then they can be identified and their motivations potentially exposed.32 Often, a padded cell approach is used to trap intruders into a honeypot system by indicating that their intrusion has been successful, supplying false data, and notifying administrators of the intrusion details while the intruder remains within the fake system. This is analogous to a silent alarm alerting the police while an intruder remains inside the premises. Tarpits are a tool commonly used to address direct denial of service (DDoS) attacks.33 Tarpitting identifies incoming malicious traffic (typically based on attributed source IP address) and slows it to the greatest extent possible, to disincentivize attackers from connecting to the network and limit the potential for a DDoS attack to overwhelm a network or server. Both honeypotting and tarpitting use no force against the attacker, and are entirely within the home network, so would not likely be subject to liability.
The most salient takeaway from this analogy is that any self-help actions within an enterprise network’s borders are acceptable, so long as no physical harm results. But here again the geography of cyberspace impedes the straightforward application of precedents from the physical world. It may be possible in some cases for defenders to set traps in their networks that combine measures like honeypots with code that could be used to gather information from attackers’ systems or even disrupt or damage them.
In extreme cases where aggressive external action is taken based on the information gleaned from honeypotting, such as malware implantation on adversarial networks, civil and potentially even criminal liability is highly likely to result. This constitutes a hack-back and is illegal. Such an act would be analogous to deterring an intruder with nonlethal booby traps, following them home, and intruding into their dwelling and setting fire to it as a response. However, implementing a narrowly tailored defensive measure activated by the intruder with limited impacts to disrupt attack infrastructure might be more akin to slashing the tires of a getaway car. At its core, this is a question of whether and how the use of a computer or network for malicious purposes should affect the owner’s rights against intrusion or disruption. This question will be explored further in other examples below.
Translated to cyberspace, if a cybersecurity company (as a private actor) has identified live threat activity on its corporate network, that company may identify and attempt to ensure the network intruder is detained within the network when they reasonably believe the attacker is in the process of stealing intellectual property. Detention may encompass temporary incapacitation or even reasonable damage to systems or computers involved in the attack so long as that damage is necessary to stop the ongoing theft and is in preparation for the involvement of law enforcement. Ostensibly, if such disruption or damage is limited to what is reasonable and necessary, its impact would be reversible and temporary (as opposed to permanently disabling). However, given the wide latitude of interpretation in physical citizen’s arrest cases, such a limitation may not be practically enforced.
It is vital to differentiate this method of detention of attacking systems from the hack-back scenario, based solely on the fact that data theft is in-process and must be stopped immediately. Such imminent theft may create an implied license to act with reasonable force based on the citizen’s arrest jurisprudence. Interestingly, if the theft of the data in question has any implication of physical harm to others (or if the theft involved such harm in any way), an even greater license of aggressive action may be warranted. This is based on an extrapolation of the citizen’s arrest allowance for deadly force in physical circumstances where the suspect committed a violent felony. At any rate, the potential damage of the cyber attack should serve as a differentiating factor for justifying certain defensive measures that risk harm to third parties.
Reasonable force may not be an effective means of halting an ongoing cyberspace intrusion or attack. One common tactic used to repel intrusions and ongoing thefts is called session disruption.37 This simply severs the network connection that is facilitating a theft; it is a measure internal to a network that does not use force and can fairly be considered highly reasonable. However, this does not stop the attacker from switching IP addresses, attacking again (almost instantaneously), and continuing with an already partially completed data theft. So, while this may be a reasonably harmless defensive measure, it may not be effective enough to be meaningful.
In the physical world, it might be considered reasonable for a citizen to slash the tires of a getaway car if it was being used in the commission of a felony—harming property but not causing injury or death. Is it, by proxy, reasonable to impact or freeze an attacker’s server, network, or access terminal? What if the attacker is stealing information that could harm people, or conducting the theft in a manner dangerous to third parties?
One recently developed active defense technique is known as poisoning the RAT (remote access tool). This method identifies a malicious intrusion, traces it back to its source, and uses security flaws in the ongoing connection between the source and the intrusion to penetrate the attacker’s home system, gather data, and affect damage.38 Again, this approach is temporally limited—it can only be applied if a data theft is verifiably in-process, not after it has completed. Ascertaining risk to other services or tenants on a machine that is owned by a third party, where the attack has emanated from, is also important to consider. The application of a citizen’s arrest paradigm to cyberspace has less settled jurisprudence than any other rationale discussed in this paper, especially since poisoning the RAT is a fairly new technique. However, given the extent of force that has been labeled reasonable in felony citizen arrest cases, it is potentially an acceptable and appealing virtual practice.
Fresh pursuit developed as a method of addressing crimes in which the suspect crossed jurisdictional boundaries—ensuring that the officers in initial pursuit would still be able to follow through with their arrest. It is very important to note but nonetheless unsurprising that the trespass exception for private parties has not developed as clearly as for police officers. Actions by private individuals that constitute a trespass are only speculatively protected by this common law framework. Thus, a private party risks criminal or civil liability by pursuing a fleeing thief onto private property.
After a cyberspace theft, retrieval of data may be able to proceed following the fresh pursuit framework. This speculatively allows private actors to identify, pursue, and use reasonable force against individuals/systems they reasonably believe to have committed a crime, in order to reclaim or at least disable their stolen property. The practical methods for doing so in cyberspace are limited, but hypothetically a client could track the data theft across public servers, or ask public server and router administrators to freeze or corrupt the data transfer before it reaches its home network.
If the stolen data has already been stored in a private location, then immediacy could warrant intrusion of a private network based upon a reasonable suspicion that stolen data resides therein. However, if this is an intrusion into the wrong network (due to a misattribution of IP) or unnecessarily damages the network while intruding, the private actor in pursuit risks civil and criminal liability. It is therefore necessary to obtain both sufficient verification that the stolen data is there, as well as authorization of some kind to retrieve it. Such authorization can be either contractual or based on government authority, as will be discussed. But perhaps techniques that merely corrupt or otherwise deny unauthorized use of this stolen data without causing collateral damage should be considered a legitimate interpretation of fresh pursuit. In any event, there is a very fine line between ongoing data theft that potentially authorizes techniques like poisoning the RAT and taking aggressive action when the theft and ensuing flight is already complete, after which the legitimacy of taking the law into one’s hands is increasingly questionable. This distinction is highly important in domestic U.S. law.
Of course, pursuit of an attacker outside of the defender’s network might entail reaching across international boundaries and violating the domestic laws of another state. The acceptability of fresh pursuit across international borders in the physical world is limited by nation-to-nation agreements concerning the operation of foreign forces on sovereign territory. If the stolen data is stored in an area of questionable international jurisdiction, then any government authority should be either cooperative between nations or unilateral to support cross-border intrusions. Similarly, any contractual authority must be valid in the country where the network intrusion would take place.
There are many devices that act as tracking systems,41 and clients can legally install them on their car to automatically report the vehicle’s location and allow law enforcement to retrieve it if stolen.42 Importantly, these systems report the location of a car if it has entered onto private property, and can even disable the engine starter. Only the starter can be remotely disabled, not a running engine. This is because disabling an engine on a highway may result in serious accidents and loss of life (along with a high likelihood of civil liability for damages, or criminal liability for recklessness or negligence).
A historical, low-tech understanding of the legal principles involved in this analogy can be derived from the probable cause standard and exigent circumstances exemptions to the Fourth Amendment. If a police officer has probable cause to believe that illegal activity is taking place within a private residence (like hearing a scream from outside), they can present that probable cause to a judge and retrieve a warrant to search the premises in short order. However, if the need is immediate, that officer can prevail upon exigent circumstances to avoid the warrant requirement. Exigent circumstances are “circumstances that would cause a reasonable person to believe that entry (or other relevant prompt action) was necessary to prevent physical harm . . . the destruction of relevant evidence, the escape of the suspect, or some other consequence improperly frustrating legitimate law enforcement efforts.”43 A scream would certainly qualify. Arguably, knowledge that the car is on private property would qualify as well, given that it might be dismantled.
While these actions technically involve the manipulation of data on a separate private network, they do not necessarily entail active manipulation by the defender and could follow the same legal framework as physical anti-theft systems. Importantly, just as only the engine’s starter can be remotely disabled, if these mechanisms have any sort of automated virus or harmful effects to third parties (not necessarily the thief’s network), it is possible for liability to result. Similar to the previous discussion of electric fences, the prioritization of human safety suggests both that careful limits should be placed on measures to ensure they do not pose significant risks to humans. Such measures, however, may be justified by the need to defend data critical to human safety.
If credit card information is stolen and a fraudulent transaction takes place, it is common for the card issuer to block additional purchases immediately, or even cancel transactions that are already being processed based on the suspicion of fraud. This is done on a remote basis, sometimes without the direction of the actual card holder, under the auspices of account security (occasionally, it is even done improperly). This practice began as a response to rampant credit card fraud and expensive losses for both individuals and creditors—in 2014, global card fraud losses reached $16.31 billion.46 Unfortunately, since it costs more to involve manpower, police, or investigation of the fraud, it is commonplace for issuers to simply write off the loss, cancel the card, and notify the owner.
Similarly, banks commonly insert dye packs into their money for use during robberies. These dye packs are meant to explode, leaving red dye on both the thief and the money, marking it as stolen and unusable. They may also release tear gas and/or ignite their surroundings, burning exceptionally hot, to make the thief drop their stolen goods.47 It is important to note that these measures would incur liability if the thief faced grievous harm as a result (being blinded or excessively burned). Again, this is exemplary of a greater focus upon human life than protection of property.
The commonality between each of these analogies is the disabling of, or rendering useless, a stolen asset. A strategy could be employed that renders stolen data useless in a manner similar to credit card deactivation or dye packs, by corrupting or marking the stolen data. This corruption could be facilitated in one of two ways: either by actively reaching into private networks where the stolen data is stored (which would require some measure of authorization or immediate urgency, and would face complications in cross-border virtual thefts, as discussed) or through an automatic mechanism in the data itself that responds to unauthorized extraction from the home network (like an exploding dye pack)—a practice that would neither require knowledge of where the data is going nor authorization to implement (as it is an activity taking place on the home network, albeit the border). This is similar to the disabled starter analogy previously discussed.
Again, there is potential for embedding viruses or malware in the data file itself, to be triggered automatically upon its theft. White-hat ransomware exfiltrated from a defender’s network could lock down an attacker’s computer and require the user to contact law enforcement to regain access. If this were to harm third party systems or individuals or cause excessive damage to the individuals committing the theft, liability would result. However, if there were limited impacts contained to the thieving party’s systems and networks then there exists some potential for this measure to proactively and aggressively safeguard intellectual property.
Across the spectrum of defensive measures discussed above, there are numerous ones that could be extremely useful in combating malicious activity but carry significant risks due to their potential impacts on external networks that, in many circumstances, would offset their benefits. Opening up these measures for engagement by any private actor could be extremely risky. However, there may be specific circumstances in which they could be undertaken responsibly as a legitimate response to malicious activity. It is worth exploring, then, how to create and define space for these measures without opening the floodgates.
There are alternative and complementary approaches to minimizing the risks of those self-help measures that are on the table. The analogies above have focused on the technical and circumstantial parameters of the defensive activities themselves as the primary constraints. It is equally important to consider approaches and mechanisms to limit the range of actors able to engage in defensive activities and the degree of autonomy and operational discretion given to those actors.
This section thus examines the legal frameworks and incentive structures within which private actors undertake roles complementary to government actors, or with some level of government authority, yet often without government immunity. In such circumstances, private actors expose themselves to physical and legal risk by undertaking these roles as contractors or subcontractors. This gives rise to demand for liability insurance to limit their exposure, which is provided subject to some conditions and exceptions that comprise a form of soft regulation. Examining these frameworks of authorization and liability guidelines is highly relevant for a cybersecurity industry in which the limits of private action and government involvement are yet to be determined, and both civil and criminal liability could result from conscious choices, as well as unintentional missteps.
A bounty hunter is a private party that contracts to apprehend fugitives who posted bail but failed to appear in court. In the Wild West, bounty hunters were hired by local authorities to apprehend fugitives when the latter did not possess enough resources to find or pursue wrongdoers over hundreds of miles of open terrain.48 This practice was first formally authorized in the United States in 1872, when the Supreme Court ruled that bounty hunters could act as the authorized agents of bail bondsmen, and gave them wide latitude.49 The actions of a bounty hunter are empowered primarily by the contract that the fugitive signed to secure bail, which includes forfeiture of rights against intrusion or uses of force (this is why bounty hunters often face fewer restrictions than police officers in their actions).
With such permissive regulation, it is common for bounty hunters to receive civil lawsuits. The professional liability policy of the Professional Bail Agents of the United States is an example of bounty hunter insurance. It includes coverage for claims of assault, battery, false imprisonment, wrongful entry, and defamation.53 These correspond with the expanded mandate of bounty hunters vis-à-vis law enforcement. Insurance companies can mitigate the risks of bounty hunters’ activities by placing additional requirements on their coverage. The professional liability policy, for example, refuses to cover any claim arising out of the use of a firearm.
The key to this analogy is the legal mechanism for authorizing private activity that would otherwise be illegal. Bounty hunters offer a model for how contractual authorization can be used to selectively allow for certain defensive measures to be undertaken by qualified private actors. To be clear, this does not necessarily entail the cyber equivalent of knocking down doors and taking criminals into custody, but it could be applied selectively to enable limited action to attribute, disrupt, or mitigate ongoing malicious activity. Constraints on such activities through requirements imposed by the contractual relationship between service providers and end users, in combination with barriers to entry in the form of licensing authority granted by the government to able parties, could help mitigate some of the risks of their employment.
To establish a similar right to intrude upon private networks and confiscate data, companies might add a clause to their End User License Agreement (EULA) that allows for impositions on systems used in cyber attacks by malicious actors.54 In other words, abusing a product for criminal purposes would to some extent forfeit the actor’s right against some form of intrusion or disruption of their own systems by the vendor. In this approach, third party systems being utilized by malicious actors may, by necessity, also be subject to limited intrusion or disruption. Such impacts may be justified by some measure of negligence in maintaining the security of systems (lack of patching, insecure practices, and so on). Of course, it would be egregious to allow every company with a EULA to exercise such a right. Similar to bounty hunters, this space could be limited to certain actors with sufficient capacity and, moreover, to only those whose location in the broader ecosystem gives them a unique capacity to mitigate malicious activity. For instance, cloud service providers are able to leverage some of the most sophisticated defensive measures (particularly with the incorporation of machine learning and artificial intelligence into defensive capabilities) and are increasingly critical to the security of a vast range of their customers’ assets. Further, companies acting in this role would still be liable for damages from exceeding narrowly defined parameters.
Such contractual backing, combined with a verified theft (through beacon use similar to anti-theft devices), reference to the fresh pursuit framework, and insurance best practices (along with civil liability coverage for oversteps), could address concerns regarding self-help intrusions to retrieve stolen intellectual property. Contractual acceptance of impositions on systems used in cyber attacks may qualify a company acting in that capacity as authorized to enter a private network.57 This may, in turn, motivate those operating such networks to ensure they are not abused for malicious purposes. Finally, it is worth considering whether this discretion given to vendors makes it more feasible and reasonable to hold them to a higher degree of accountability for preventing the abuse of their products (potentially through some degree of liability for failure to do so).
Like bounty hunters, this analogy offers a potential model of how to create barriers to entry for certain measures through a combination of licensing and liability. Private investigators operate in a space parallel to law enforcement. They also, again, hold no additional legal powers or exemptions. This framework could be applied to actors engaging in cybersecurity measures that are preventative or investigative/anticipative in nature, similar to the security camera analogy and traceback techniques that use public routers. Behaviors of this type will likely yield high levels of civil liability from the general populace if they are not passive in nature, and as a result will require strict insurance policy requirements (similar to a PI’s coverage for bodily harm or property damage). This would, in turn, empower insurers to constrain behavior by defining the necessary precautions and limits to engage in such measures.
Private security contractors (PSCs) typically are not corporate employees or state agents but rather specialized subcontractors that provide comprehensive or ad-hoc security services on a contractual basis. Importantly, if a PSC is operating in the United States and employed by a private organization, then the legally permissible extent of their actions is far more limited than actual government forces. PSCs are only authorized to use reasonable force in the protection of property and apprehension of a perpetrator. Their mandate may be slightly increased by preexisting arrangements deputizing the contractor with police authority, however even in those situations lethal force is only authorized when a life is at risk, not property.
Cybersecurity service providers offering specialized defensive services may operate similarly to private contractors who provide physical security. It is worth contemplating the circumstances in which such services might include measures impacting external networks that could harm third parties. When these measures are deemed necessary, some level of government authorization could help offset civil liability concerns. But as in the physical world, it will be critical to define an appropriate level of discretion given to defenders.
This demonstrates the inevitable trade-off of risks associated with self-help—constraining the defender’s freedom of action may limit potential third party harm but exposes the defender and its clients to greater risk. Reasonable force has emerged in the physical realm to determine the permissible level of action a PSC may use directly against a threat actor. However, in the cyberspace context such a proposition is complicated by the potential for threat actors to be intertwined with third parties whose networks they use to perpetrate malicious activity. A reasonable force standard in cyberspace necessitates contemplating what level of harm to third parties is normatively acceptable.
This analogy underscores the role that insurance can play in resolving this challenge presented by the countervailing risks of aggressive self-help activities. Insurance can enable a balance that allows for viable defense while redressing the negative consequences for third parties when defenders cross the line of reasonable conduct. Moreover, when empowered to undertake this role, insurers can directly motivate contractors (through premiums and policy exclusions) to take necessary precautions and risk management measures that they calculate as necessary to minimize risks associated with their activities.
The potential transnational impacts present a significant complicating factor that makes it difficult to formulate insurance policies that cover such aggressive representation. The impacts of such measures across state borders might expose companies to legal ramifications or other forms of retribution internationally. Consequently, the consideration of appropriate boundaries of reasonable conduct for contractors in this domain must go hand in hand with the discussion in the next section of international systems of self-help governance in cyberspace.
This approach has more recently been legally applied to botnet domain takedown efforts.67 Specifically, Microsoft has sought ex parte temporary restraining orders to remove access to domains that are known to control botnets.68 Similar to the clothing counterfeiting analogy, any notice to the controllers of these domains would allow them to create new and unknown access points to their botnet; thus an ex parte injunction is appropriate. In its takedown of the Citadel botnet, Microsoft went so far as to secure permission to send configuration files to infected computers without users’ explicit consent and temporarily block internet access for some users in order to motivate them to remove the infection.69 However, this operation was conducted under specific, court-approved parameters and in coordination with the U.S. Federal Bureau of Investigation and foreign counterparts.
This is a systematic approach that could potentially be applied to a range of defensive activities whose success depends upon their immediacy but that cannot be undertaken without express government authority. Certain ICT companies occupy unique positions to take action on behalf of themselves and the wider public, and they could be given limited authorization to do so when the circumstances do not allow for an effective law-enforcement-driven response.
This framework can be calibrated to account for a number of thresholds that narrow the space for engagement in such activity. As seen in the arguments put forth by Microsoft in various cases of botnet takedowns, authorization could be contingent upon demonstrating the benefit to broader public interest of mitigating malicious activity, the necessity for an immediate response, and the efficacy of the response, including that capabilities are properly tested and controlled.70 Moreover, this allows for varying levels of law enforcement oversight and the imposition of liability for harmful impacts to third parties.
Analogies from the U.S. domestic context illustrate boundaries that emerged and solidified to guide reasonable self-help and govern private actors undertaking roles complementary or supplementary to law enforcement. Yet cyberspace introduces unique complications for traditional approaches to domestic governance. Behavioral norms are being negotiated and asserted in an international context. Decisions to set domestic rules for self-help in cyberspace have inevitable international ramifications. Domestic policy dilemmas are thus compounded by the lack of clear international rules and norms and, more fundamentally, diverging views of the proper role of states and private actors in the provision of security.
In this respect, self-help in cyberspace presents similar challenges to navigate as private physical security services in the international context. Private actors operate across state lines, often in semi- or ungoverned spaces. Global market forces and threats shape industry behavior in ways that can subvert national regulations. These factors generate tensions between states with diverging views and within states’ domestic and foreign policy imperatives. The experience with private violence in the international context is thus invaluable for anticipating and navigating the emerging challenges associated with global cyber activities. However, for reasons described above, the focus here is not on international law pertaining to private self-help activities in cyberspace. Others have made strides in exploring this subject.71 Rather, this section explores insights from the processes and mechanisms that emerged through unilateral and multilateral efforts to shape the reality on the ground regarding the behavior of private actors in security capacities.
Any approach to governance needs to appreciate that cyberspace remains in a transient state. Before exploring the context of the modern, globalized private security industry, it is useful to briefly consider the roots of current norms and practices in the formative experiences with states’ approach to private violence in the international context. This includes the practices of privateering and charter companies.
The rise of chartered companies around the sixteenth century has had lasting significance in both the precedents it set for private sector governance and the pivotal role it played in European imperial expansion, and thus in shaping the contemporary international order.73 Examples include the English East India Company, Dutch West India Company, and Hudson Bay Company.
The mercantilist character of geopolitical competition among European states was crucial in shaping these practices. War and commerce were considered inseparable, and thus promoting commercial activities was not simply economically beneficial to states but a crucial element of interstate competition.75 Charters offered an easy way to leverage private financial incentives and capacity under state auspices at a time when few other mechanisms existed to do so. They also were an attempt to place the burdens and risks of overseas expansion upon private capacities rather than sparse state resources.
Chartered companies grew to become tremendously powerful. Hudson Bay Company alone was, at its peak, “the largest landowner in the world,” with close to 3 million square miles of North America under its control.76 They relied almost exclusively upon their own means of security and commanded private police and military forces that in some cases rivaled or exceeded those of states. The English East India Company, for instance, commanded a force larger than the British Army in the late eighteenth century.77 By empowering companies to engage in self-help, states absolved themselves of the burden of securing expansive commercial activities and could (to some degree) dissociate themselves from the violence required to do so.
Suffice it to say that there are obviously vast differences between charter companies and contemporary corporations. But it is worth considering the parallels in these formative experiences. Cyberspace is in the midst of a “frontier era,” argue Chris Demchak and Peter Dombrowski, in which “the underlying technological layer is itself changing as are the social structures depending upon cyberspace.”78 Individual companies maintain and control large swaths of territory at each layer of cyberspace79—from physical infrastructure to software platforms and content. States have largely encouraged this unimpeded expansion into the domain—indeed, ICT companies’ commercial success has often been a matter of national interest. At the same time, states are struggling to protect their own assets and find their authority attenuated by the inability to sustain a presence throughout this frontier. Consequently, corporations have enjoyed the benefits of autonomy but have largely been left to their own devices to manage their risks.
Given this state of affairs, the experience with chartered companies serves as an admonition against granting the private sector complete leeway to exercise self-help in cyberspace. But the deeper insight is seen in the circumstances that gave rise to self-help and the challenges states faced when attempting to reassert their authority over the space. As perceptions of the advantages and liabilities of chartered companies shifted and states sought to bring them under more direct control, they were forced to devote significant resources to their protection and at times provide a financial lifeline to companies for “ill-conceived and profit-less colonial adventures.”80 States’ assumption of responsibility for the vast possessions of these companies translated into a dramatic expansion in their imperialistic behavior. This was at some level unavoidable given how far the companies had expanded into this new frontier.
What would it entail for states to similarly assert their authority over governance in cyberspace and attempt to monopolize force? And in a domain dominated by major multinational corporations, how would states begin to demarcate the extent of their responsibility for the provision of security?
Privateers were privately owned and operated ships that were given a limited authorization by a state to effectively commit acts of war at sea and reap financial benefits. The practice of privateering emerged as early as the thirteenth century at a time when the maritime domain was a largely ungoverned space, state capacity was weak relative to private actors, and threats to commercial entities were proliferating. Merchant ships armed themselves to undertake their own protection—and retaliation. Authorization of privateering came in the form of a letter of marque and reprisal, which generally allowed a privateer to attack and seize the property of any vessel of the adversary nation to compensate for losses.81 Such letters were also issued in peacetime to provide for limited authorization for a privateer to hunt down a pirate after being attacked.82 In doing so, letters of marque provided a mechanism for states to empower private actors to engage in self-help while advancing their own strategic and economic objectives.
At a time when states’ navies were nascent, letters of marque were a tool to harness and direct privately held capabilities toward state ends—enriching the state and conducting warfare without drawing upon state resources. At times, privateers even functioned as reserve navies, as was the case when the United States called upon privateers to help defeat the British siege on New Orleans in 1815. Privateers were a product of a period characterized by mercantilism, when such attacks on commercial entities were accepted as legitimate tools of statecraft. The interests of the state and of its commercial entities were blurred, and enabling this kind of self-help advanced both.
However, the potential pitfalls of this approach need to be seriously examined. If used to authorize aggressive defenses (or even offensive measures such as hacking back), they would contribute to perceptions that states are employing proxies toward their own ends. Moreover, the justification of the necessity of some aggressive measures would be questionable in any case. As critics of hacking back have pointed out, if an attack has successfully exfiltrated data it takes very little time for that data to then be copied or distributed. Outside of a narrow window of opportunity to respond to mitigate damages, hacking back has dubious benefits for the defender. Thus the challenge of an approach based on letters of marque would be how to tailor it specifically to contexts of defensive necessity while at the same time making the process itself rapid enough to deal effectively with threats.
Finally, cyberspace is not the high seas, and letters of marque offer no solution to the problems of defensive measures that violate the domestic laws of another country. Moreover, the historical experience with letters of marque offers an admonition against purely unilateral solutions. In the absence of any international understanding of the scope of legitimate self-help measures or mechanisms to resolve disputes regarding violations of domestic laws, cyber letters of marque would exacerbate tensions in a domain already characterized by behavior reminiscent of mercantilism, including widespread commercial espionage. States will have diverging views on the legitimacy and legality of certain actions. If each state chooses where it draws the line for its own companies, the potential for systemic escalation could be high. Thus, significant multistakeholder dialogue and convergence upon international norms would be needed to contain the risks of a dramatic expansion of these activities, in order to prevent destabilizing consequences.
Nevertheless, a modern day version of letters of marque tailored to the context of cyberspace might offer an effective, temporary solution by which states could allow for self-help within narrowly defined parameters while retaining the ability to rein in such behavior. Albeit this is a solution more to the problem posed by states’ own domestic laws, not to the trade-offs and risks posed by the activities themselves. The potential flexibility and adaptability of this tool is attractive for overcoming two significant policy challenges regarding self-help in cyberspace: The need for evidence of the efficacy of many potential measures that could be employed and the need to condition self-help to some degree upon the capacity of a defender to undertake responsible conduct. Any blanket approach to self-help in cyberspace would be problematic. Specific kinds of entities like ISPs and cloud service providers will have unique opportunities and responsibilities to defend themselves and others, and letters of marque could be tailored to these unique circumstances.
Whether or not it is desirable to have a global industry of cybersecurity providers engaging in measures equivalent to use of force in cyberspace, the challenges and potential solutions for governing such an industry must be considered. The parallels between PMSCs and the rapidly expanding and consolidating industry of managed cybersecurity services90—including growing evidence of a transnational market for aggressive self-help services—suggest that the historical and contemporary experience with PMSC governance holds valuable insights for both anticipating the trajectory of these services and finding practical solutions to shape that trajectory.
The resurgent role of private actors in the provision of security since the end of the Cold War has been driven by a diverse range of factors. States themselves have actively fueled the rapid expansion of a global industry of PMSCs from a variety of motives.91 Some states turn to private capacities to supplement thinly spread public resources. Others see the benefit of using contractors to enable militaries to maintain a light footprint in theater or allowing officials to distance themselves from controversial practices. In some cases, PMSCs operate under more relaxed rules of engagement than military forces precisely for this reason. While states’ employment of PMSCs is distinct from private self-help, it has direct bearing on legitimizing and empowering contractors to provide self-help services. Moreover, the close relationship between states and PMSCs in many cases blurs the lines between states’ and private actors’ interests in protecting private assets.
The Montreux Document set forth voluntary guidelines for how states should manage their relationships with PMSCs to ensure their compliance with international law, including international humanitarian law (IHL) and human rights law, and minimize the risks of negative consequences from their activities. This included a set of best practices for the employment of PMSCs. These range from criteria for vetting and selecting contractors to procedures for authorizing their conduct to monitoring compliance and responding to misconduct.
The Montreux Document offers a model for state accountability for private actors building on states’ commitments under international law. There is a growing consensus that states are responsible for nonstate activities occurring in or through ICTs in their territory,96 but fundamentally conflicting views have impeded any progress toward an understanding of what this entails in practice. The Montreux Document provides a useful conceptual starting point underscoring a number of questions regarding states’ responsibilities for private self-help activities: What kinds of cyber operations should be the exclusive domain of agents of the state (akin to “nontransferable responsibilities of the state”)? Should territorial states be further separated into those where cybersecurity service providers are physically operating and those states whose ICT infrastructure is being used for cyberspace operations? What level of authorization should be required for private entities operating from or through a state? In any case, what kinds of mechanisms and precautions should be taken to prevent or remediate misuse of a state’s ICT infrastructure?
The Montreux Document also demonstrates various mechanisms states can employ to ensure responsible conduct within the space of activity considered legitimate. For instance, it includes PMSC selection criteria that is aimed at discouraging states from hiring contractors likely to engage in risky behavior—contractors’ past records of criminal activity, financial capacity for liabilities, and the status of licenses and registrations, among other factors.
The PMSC experience underscores the importance of addressing the asymmetries in states’ approaches that allow for gaps in governance to emerge. Converging upon an international understanding of the boundaries of legitimate employment of private contractors and the responsibility of states for their actions could begin to address the broader issues surrounding states’ use of proxies for cyber operations. Setting forth specific requirements that states ensure that contractors are not engaging in activities in violation of laws or exceeding the authority granted to them would make it harder for states to turn a blind eye to private entities conducting illegal activities.
As in the case of PMSCs, successful governance of cybersecurity services will depend on engaging those in the industry providing such services to help craft effective and realistic rules.99 The ICoC offers a corporate social responsibility (CSR) model for exploring the proper precautions, rules of engagement (ROEs), and other risk-management measures that could be directly applied to the emerging industry of cybersecurity service providers.100 Some of the specific provisions are readily translatable to the context of managed cybersecurity service providers: Ensuring that contractors are following applicable international and national laws, properly vetting personnel, and establishing procedures for incident reporting and disciplinary action. Similar requirements could be established to ensure that certain capabilities are controlled and the personnel employing them are thoroughly trained.
In other cases, the ICoC offers principles that could be adapted to the unique circumstances of self-help in cyberspace. The requirement that all reasonable steps should be taken to avoid having to resort to aggressive defense would entail robust passive defense before more assertive measures are taken. Capabilities that pose any risk should be limited to situations of necessity and proportionate to the threat facing the defender. Such guidelines could factor in thresholds for attribution required to undertake certain measures. Further exploration of how these principles would apply to specific scenarios of self-help in cyberspace is needed.
The Montreux Document and ICoC were complementary in attempting to shape industry behavior through both directly within the security sector and indirectly through governments. But equally influential in shaping PMSC behavior are the private industries that contract for security services. They were the focus of a separate initiative that actually preceded the Montreux Document and ICoC. Established in 2000, the Voluntary Principles on Security and Human Rights (referred to as Voluntary Principles) were a joint initiative of the UK Foreign and Commonwealth Office and the U.S. Department of State aimed at the practice of security contracting by extractive industries.
If the ICoC offers a potential CSR template for cybersecurity service providers, the Voluntary Principles offer a complementary template for those driving the demand for cybersecurity—in particular, the financial, ICT, energy, and other relevant sectors—to shape responsible self-help practices. The Voluntary Principles underscore the critical importance of the demand side of the equation in shaping the behavior of security providers and managing the risks of their activities.
Those entities driving the demand for security are in a unique position to enforce behavioral norms because they contribute significantly to the capacity and legitimacy of security service providers. As Rita Abrahamsen and Michael Williams argue, the private security industry “derives considerable power from its connection to clients and from their view of the provision of private security as a legitimate and necessary aspect of their operations and daily life.”106 In other words, the legitimacy of private contractors’ services flows from the legitimacy of their clients’ property rights, which governments are increasingly unable to protect in the context of global commercial activities. If these stakeholders determine certain activities are out of bounds, they can use their market power to motivate security providers to abide by such norms. And through their contractual arrangements, procurers of services can directly apply constraints to self-help conduct and hold contractors accountable for misconduct.
Moreover, those entities whose property is the focal point of both offensive and defensive efforts have significant ability to proactively shape the risk landscape. This includes properly assessing and minimizing risk exposure in the first place. The Voluntary Principles’ guidance on risk assessment aimed to shift behavior toward minimizing risk rather than simply channeling it outward. Cyber risk management should likewise begin with preventive measures corporations can take to protect crucial data, mitigate vulnerabilities and attack vectors, and secure their networks that may obviate the need to resort to defense.
The fact that cyberspace is to a significant degree owned and operated by private companies creates an inescapable dilemma for governments that value both property rights and their control over the use of force in cyberspace. Governments cannot undertake cyber defense in any comprehensive manner without intruding deeply into private property that is itself increasingly incongruent with national boundaries. Private actors thus enjoy relative advantages in their capacity to provide for cybersecurity not just from their technical capabilities but also from the extension of legitimacy to their activities via property rights and contractual agreements (for example, EULAs). This makes it essential to consider how to leverage the key industries whose networks will be the key battlegrounds to establish and enforce norms for self-help.
When the proper financial incentives for risk management are in place, self-regulation can partially fill the gap left by the absence of state efforts, and norms can emerge organically as outcomes of the forces acting upon the private sector. Here, an instructive experience is the evolution of norms for the employment of armed guards by the maritime shipping industry in response to the escalating threat from Somali pirates in the late 2000s.
The rise of Somali piracy affected roughly one-quarter of global maritime trade. While security of the contemporary maritime shipping industry had been viewed by governments and industry alike as the responsibility of states, this consensus began to erode as huge naval deployments proved unable—and partially because of their rules of engagement, unwilling—to ameliorate the deteriorating situation in the Gulf of Aden. Between early 2008 and early 2009, the number of attacks increased about 300 percent.107 Facing a growing existential threat to business from hijackings and a lack of viable alternative measures, the shipping industry turned increasingly to armed guards for defense against pirates.
A thriving market of private maritime security contractors filled the demand for security, initially with almost complete absence of government oversight. What regulations were in place could be circumvented by the ability of ships to sail under flags of convenience (that is, they were registered to those states with minimal regulations) and operate in international waters.
Naturally, many states were ambivalent about the growing practice. Even those less averse to the privatization of force in general had significant concerns over violent self-help measures, including the potential for escalation and collateral damage. Yet precluding this form of self-help required more than a simple prohibition of the practice. It would have required addressing the forces driving the practice—namely through either far more aggressive and sustained naval action or, in its absence, some means of offsetting the massive costs to industry.
However, despite serious concerns of a race to the bottom in the industry, with contractors resorting to risky and reckless behavior in a bid to offer the most successful anti-piracy services, norms of responsible conduct emerged to govern contractors’ behavior. This was driven in part by the insurance industry, which recognized both the benefits of armed guards (no ship with armed guards had ever been hijacked) and the need to constrain the potential risks of their activities. The insurance industry worked with the Security Association for the Maritime Industry (SAMI), established in 2011, to promote a set of standards for armed guards that it could incentivize through the cost of insurance premiums. This was complemented by broader industry guidance on best practices for the employment of contractors, such as that issued by the International Maritime Organization.
These standards were aimed at minimizing the risks of the use of potentially lethal force, which had become an unfortunate necessity. This included specific precautions to prevent escalation and collateral damage such as ROEs, including adopting a “graduated level of deterrence, at a distance.”108 Thus, while lethal interactions could not be ruled out entirely, standards guided behavior toward minimizing the negative consequences, such as by disabling an attacking ship’s engine rather than firing directly at pirates. The complementary incentive structures within industry helped prevent systemic escalation; in the long run, the adoption of armed guards did not produce a vast increase in the human costs of piracy, but instead created a deterrent that contributed to piracy’s dramatic reduction in the region.
The maritime security analogy offers practical insights into how the cyber insurance industry, by itself or in partnership with industry associations, can play a crucial role as a proxy regulator of self-help activities. The growing cyber insurance industry has both the analytical potential to determine responsible self-help conduct (as data from experience is accumulated) and the ability to motivate corporations to remain within such boundaries.109 This would include determining and ruling out those cyber measures that would be too risky to underwrite (such as those that could cause physical harm) while predicating engagement in other measures upon steps to minimize their risks.
Each analogy examined here illuminates a point at which state responsibility ends and private actors turn to their own means for security or contribute more broadly to ordering an environment. Collectively, they reveal the extent to which states’ monopoly on the legitimate use of force in the physical world has been historically and remains qualified in practice. The extension of this trend into cyberspace presents novel dilemmas for policy. However, the core challenge of striking a balance between the roles of government and the private sector is a perennial one for states in the modern era.
There are benefits and pitfalls with these analogies. A study focusing primarily on the U.S. domestic context as well as a handful of salient international examples has obvious limits to its generalizability. A more important caveat is the difficulty with the very conceptualization of force in cyberspace. The character of many of these cyber measures does not lend itself to simple comparisons with physical force. Finally, any single analogy captures only part of the broader challenge. The rules governing these cyber activities must address both the domestic and international dimensions of the space. For these reasons, rather than dwelling on any one, a broad survey of analogies has been drawn upon to explore individual and collective insights.
Despite their inherent limits, these analogies have heuristic value for considering the boundaries of self-help in cyberspace within a broader understanding of how states govern forceful self-help activities. It is useful to start by mapping the varying approaches to governance along the rough gradation laid out previously in Figure 1.
States restrict certain activities considered unequivocally outside the remit of legitimate self-help. Most notably in the domestic context, this includes lethal defenses and other measures that pose inordinate risks to human safety. Within those absolute limits, however, lie many cases in the middle of the spectrum—activities tolerated, tacitly condoned, or explicitly encouraged and supported by the government. In the international context, states often exercise loose oversight of private actors and the distinction between state and private roles often becomes blurred.
States desire to harness unique private sector capacities: States may look favorably upon private activities that fill a unique role in combating malicious activity or alleviate the demand placed upon public resources. Private actors’ physical and temporal proximity to malicious activity creates fleeting opportunities to intervene that justify their immediate response, as in cases of citizen’s arrest or fresh pursuit. Private entities can also exercise control over their property to minimize exposure, reassure themselves of their security, raise the costs and risks of criminal activity (possibly through perimeter defenses), or interfere directly with criminal acts (for example, through booby traps).
This rationale can be even stronger when private actors enjoy significant advantages in expertise and capacity relative to states. In such cases, the private sector may enjoy far greater leeway, including even the employment of lethal capabilities. The most extreme example was the use of letters of marque by states to take advantage of private capacities to wage economic warfare. More recently, states have embraced the specialized services of private military contractors to deal with complex security challenges like piracy.
Globally, states often eschew responsibility for securing the transnational activities of corporations in extractive industries, among others, and instead turn to private capacities. Even countries, like China, that are traditionally averse to privatization have come to rely increasingly on private security contractors for the protection of global commercial activities.115 The reluctant acceptance of these activities often comes with constraints placed upon behavior short of proscribing it. For instance, states may raise barriers to entry in the form of licensing and insurance requirements for security contractors.
States find their authority or control over a space limited: The inability of states to actualize a monopoly over force often serves to legitimize self-help. This was most evident in formative experiences with chartered companies and privateers featuring states’ encouragement and facilitation of private violence in part because of the sheer disparity between those companies’ and states’ own nascent capabilities.
In other cases, states are simply unable to prevent self-help they are otherwise averse to. Some states have been reluctantly dragged along by trends outside of their control such as the use of armed guards in the maritime context. For the same reasons they couldn’t simply disarm pirates, states couldn’t easily dissuade corporations from using armed guards in international waters.
States may be inclined to allow conflicts between legitimate private interests to work themselves out: Self-help often entails a clash between the legitimate interests of both defenders and third parties impacted by their defensive measures. Whether an action to protect property or personal safety is perceived as reasonable or justified often depends not only upon values and ideology but also on the expediency and legitimacy of its application in the particular circumstances of a given malicious attack—the perceived threat to a security contractor or the immediate need of a citizen to incapacitate another or trespass onto property.
As Douglas Lichtman argues, self-help allows for “diverse, individuated judgments” of how best to remedy malicious activity compared to blunter tools of governmental intervention.116 Rather than attempt to set hard rules defining legitimate conduct in every circumstance, states may leave the space of reasonable behavior to civil litigation to shape. Criminal and civil liability play complementary roles in moderating behavior across shifting circumstances of self-help.
In practice, these four rationales shaping states’ approaches to self-help are often difficult to distinguish. And of course, the frameworks that emerge to govern self-help cannot simply be accounted for by utility-based decisions. They are shaped by historical contingencies, societal values, political dynamics, and in some cases random events that produce broader shifts in perceptions. The reining in of military contractors after the Blackwater incident is a case in point. Even within the United States, there is variance at the state level attributable to these different circumstances. These competing forces often produce indecision and equivocation rather than coherent policy.
First, between the roles and responsibilities of public and private actors in the provision of security. Lines often emerge to demarcate where state responsibility for property begins and ends—though they do not always correspond with physical property lines.
Second, between the protection of property and the risks of self-help, including, most importantly, to human safety. Bodily harm is often the point at which the leeway given to private actors becomes significantly curtailed (as in the case of perimeter defenses or PSCs).
And third, between the rules imposed by a state domestically and those arrived at through international efforts. Limitations on state authority and control over transnational activities often necessitate some attempt to harmonize domestic rules with international norms.
These rationales are each visible in cyberspace to some extent. It seems reasonable to suggest that a similar balance along these dimensions is both likely and desirable from the standpoint of addressing the broader cybersecurity challenge for states and the private sector. But before turning to the insights from analogies for where and how to strike such a balance, the unique challenges of the cyberspace context must be noted.
Moreover, the character of cyberspace as constructed and maintained largely by the private sector places inherent limitations on state control. This parallels numerous historical experiences in which private entities have largely been responsible for generating risk and, consequently, left to their own devices to manage it. This reality raises a fundamental question: Is it even possible (at this point) for states to assert sovereignty, monopolize force, and order cyberspace to the degree they do their domestic territory?
In the past, the ambitions of states to assert control over chartered companies that had extended far into distant frontiers translated into imperial expansion. It seems that the sort of presence in cyberspace that would be required to monopolize force would similarly entail some dramatic expansion of state control, or colonization, of the domain. What this would even look like in a globalized domain where multinational corporations may have systems and data in dozens of countries is unclear. But in any case, the current distribution of capacities in favor of the private sector suggests that this remains a distant possibility.
Consequently, private sector cyber activities may present states with similar challenges as the global security sector in the physical world has—not only to their foreign policy but to their aspirations to order cyberspace domestically. This should serve as an admonition against any unilateral approach toward this global governance challenge. One state’s attempt to impose order of what it considers its cyber territory may interfere with others’, particularly if this translates to tolerating or encouraging self-help activities with transnational impacts. An ultimate resolution to the issues presented by assertive self-help activities will require some convergence upon a conception of reasonable self-defense in cyberspace and state responsibility for private actors.
However, here it is essential to identify where the similarities between physical force and actions in cyberspace begin to break down. The various frameworks governing self-help in these analogies often reflect the unique characteristics of force in the physical world—in particular the risks of harm to humans. A lethal booby trap cannot easily be made to discriminate between intruders, abort or reverse its effects, or tailor its impacts to the minimal necessary to disrupt an intrusion. Yet such possibilities do exist in the case of certain cyber measures that are reversible or temporary, and they are worth exploring further in addition to the traditional mechanisms for moderating behavior and holding actors accountable.
Few scenarios involving the defensive measures discussed here include any risks to human safety. These risks could be addressed as they have been in the physical world (that is, through a combination of technical and circumstantial limitations and liability). Lumping the full spectrum of potential impacts on external networks into the category of “hitting back” vastly inflates the conception of force in cyberspace. More importantly, it may unnecessarily stigmatize measures that could not only benefit defenders but contribute to the broader stability of cyberspace. It seems conceivable to distinguish the characteristics and circumstances of reasonable from unreasonable employment of various active defenses and other measures. This suggests there is room to explore for international norms for responsible self-help.
specific mechanisms or approaches for creating barriers to entry and governing behavior.
The international analogies offer similar precedents that could be applied to the employment of specific measures: principles for risk management, rules of engagement, and so on. But their more salient contribution may be in illuminating the hallmarks of a successful process for governance in the context of an ever-changing security landscape and transnational markets for security services.
First, there needs to be some effort toward harmonization of states’ approaches to governance. Much can be done by states unilaterally to govern self-help. Mechanisms like letters of marque offer potentially useful tools to unlock private capacities and address the immediate demand for security. However, early experiences with chartered companies and privateers demonstrate the pitfalls of such unilateral solutions. Some basis of common understanding and remediation is needed, beginning with those activities that should be considered equivalent to “non-transferrable responsibilities of the State” as discussed in the Montreux Document. And given the fraught state of cyber norm-building efforts at the United Nations and elsewhere, a more modest initiative akin to the Swiss-led process may be more promising for making progress on answering such questions. Multistakeholder initiatives can have intrinsic value simply by creating “pragmatic networks” of stakeholders that can circumvent the barriers that often stall more formal institutional efforts and find practical solutions.120 With greater clarity on absolute boundaries of self-help, the potential tensions from asymmetries in states’ approaches can at least be contained.
Second, private sector buy-in will be crucial to establish and enforce rules of the road. The ICoC and Voluntary Principles offer models of CSR initiatives that created intrinsic incentives within the private sector to exercise certain precautions and moderate behavior. These initiatives addressed the supply and demand sides of the equation, respectively. Both are essential to incentivize realistic and effective standards for minimizing cumulative risk exposure.
Third, flexibility and adaptability are needed to keep up with the rapid evolution of technology, threats, and security practices. Self-regulation (like SAMI) and insurance proved more effective at governing behavior amid the shifting maritime security landscape and helped ameliorate the deficiencies of national regulation. As experience with self-help in cyberspace accumulates, insurance and industry associations can adapt their approaches. Moreover, these mechanisms are better-suited to address the varying circumstances across the range of private sector actors in cyberspace. Entities occupying different positions within the ICT ecosystem have different opportunities to ensure their own and others’ security. The boundaries of permissible behavior should not be rigidly set nor uniform across the private sector.
The individual insights from these analogies are merely pieces to a larger puzzle. The aim of this paper is to suggest where and how they might fit into a broader framework that starts with the gradation of policy approaches and focuses on the interacting forces shaping this space. The proper upper and lower boundaries of self-help should not be treated as unrelated policy questions.
Action in one area will have inevitable ripple effects in others due to the interdependence of cyberspace and the unique extent to which the private sector can inadvertently (or deliberately) channel risk. Allowing private actors to engage in aggressive self-help in the absence of incentives to undertake basic cybersecurity could motivate corporations to adopt an aggressive posture rather than a more cautious approach to risk minimization. However, creating space for properly circumscribed self-help that can more effectively contend with cyber threats and assist law enforcement could forestall corporations’ resort to more aggressive measures—or a situation in which states are forced to intervene dramatically on behalf of the private sector.
Solidify absolute boundaries of assertive self-help behavior. This should include, at a minimum, prohibiting measures or activities that pose a direct and significant risk to human safety (comparable to the hard limits on lethal defenses in the physical world). Most obviously, this includes destructive forms of hacking back. Preventing behavior detrimental to human safety can serve as a starting point for convergence upon international norms for activities exclusively in the domain of state actors.
This assertion may not be controversial. But the more counterintuitive finding of this study is that the objective of ruling out inordinately risky practices may be better served by creating space for legitimate self-help within those limits. As seen in the experience with PMSCs, building a firewall between activities that could be effectively managed and those widely considered illegitimate appears more promising—and likely more desirable—than attempting to prohibit assertive self-help altogether.
It is worth exploring, then, the various mechanisms by which states can exercise oversight while restricting the space for action: Selective forms of authorization could define narrow circumstances for defensive activities like letters of marque or—as have already been applied to cyber measures—ex parte temporary restraining orders. Private actors could also be deputized directly by states for certain defensive functions.
Raise the bar for basic cybersecurity practices. To be clear, the focus of this study on more assertive manifestations of self-help is not to suggest these should be a first resort or that their employment would be more effective than efforts to improve basic cybersecurity and risk management, which have been thoroughly examined elsewhere.121 A higher baseline for standard cybersecurity practices in the private sector would in many cases obviate the need to resort to more assertive defenses. So, too, would systematic efforts by corporations to preclude cyber attacks in the first place by ensuring the secure development of products and promoting an appropriately cautious approach to building new features and adding to the complexity of systems. Further, minimizing the consequences of successful attacks through systemic risk-channeling mechanisms would ameliorate the pressure on the private sector and government.
Clear the way for self-help activities that would be broadly beneficial and relatively low risk. This includes those low-risk measures that have significant potential to improve defense or assist law enforcement, and that are less like force in the physical world. Some, like honeypots, are already relatively uncontroversial. These could be encouraged and supported directly by the government through efforts to build capacity and develop capabilities. Others, like digital beacons or dye packs, would benefit from greater clarity with respect to their legality (at least in places, like the United States, where there is some ambiguity). Basic technical safeguards could be required for such measures, as in the case of measures akin to anti-theft devices.
Compared to more aggressive defenses, these forms of self-help could have significant positive externalities. Simply raising the possibility that a defender will employ more sophisticated, unpredictable defenses or attribution measures creates uncertainty regarding the risks and payoffs of malicious activity. This deterrent effect would extend even to private actors that are not employing these measures.
Create the conditions for responsible conduct for those activities that can be tolerated. Certain measures, like white-hat ransomware, occupy the ambiguous space between those that are relatively innocuous and those that would be unequivocally detrimental. Clearly the private sector should not be given carte blanche to employ such measures with significant potential to cause disruption to third party networks. At the same time, it seems reasonable to conclude—based on both historical precedent and the unique considerations of cyberspace—that these measures could be justified and beneficial in certain circumstances, such as in the defense of critical infrastructure by professional cybersecurity providers.
It is therefore worth exploring how to define such circumstances through the full range of mechanisms available. Barriers to entry in the form of contractual-based authorization, licensing, or certification can limit engagement to qualified defenders. Carefully stipulated technical limitations can ensure the proportionality and reversibility of effects. Such safeguards could potentially be incorporated into certification or training requirements for operators or capabilities. Following the logic of citizen’s arrest, specific circumstances such as an imminent threat to human safety could serve to authorize measures that would otherwise be off the table. Liability for the negative impacts of excessive behavior would induce further caution.
The cyber insurance industry could drive industry standards and take on a far more substantial role as a transnational proxy regulator, similar to the role it has played historically in other domains, including maritime risk.123 The combination of liability and requirements for insurance coverage can empower insurers to enforce standards of responsible conduct, including the necessary precautions and steps for risk minimization prior to any engagement in defensive activity. Insurance can create de facto barriers to entry that would limit the space of engagement to qualified actors.
These complementary mechanisms for incentivizing responsible conduct can begin to carve out space in which even some of the more controversial measures might become feasible. Of course, the underlying question of which measures fit into this category of potentially viable self-help activities needs further study. But precedents from the physical world suggest it is worth considering measures like white-hat ransomware or poisoning the RAT. A blanket approach to such practices would be inordinately risky. But in the context of a holistic approach beginning with clear upper limits on behavior, an elevated baseline level of cybersecurity, and available low-risk, effective practices that can alleviate the demand for defense, it becomes realistic to consider a limited space for these practices in the toolkit of qualified defenders.
There is no clear end in sight to the current volatility of the cyber domain. A deteriorating cybersecurity landscape leaves the status quo increasingly untenable, yet any effort to improve upon it presents a range of dilemmas. These dilemmas reflect the underlying, fundamental struggle to reach a stable and sustainable balance between the roles and responsibilities of governments and private actors in the management of cyber risk. However, this struggle is not unique to cyberspace. It is recurrent throughout past experiences with evolving technology and new domains of human activity. Such experiences offer important insights and point to potential solutions.
Some role for self-help in a broader solution to the cyber risk challenge seems both necessary and inevitable, particularly in light of historical experience. Risk is necessary for innovation, and it would be undesirable to create an overly risk-averse atmosphere within the private sector. Yet the incentives for corporations to expand risk exposure must be contained by expectations and obligations to effectively manage risk. A balance must be struck that unlocks the vast potential in the private sector to more effectively manage cyber threats while ensuring the government’s proper role in addressing the most severe threats, such as attacks on critical infrastructure.
This study has sought to outline the contours of a framework by which such a balance could be struck. It has generated individual and collective insights with immediate relevance to policy while identifying several clear directions for future efforts.
First, take stock of the full range of existing and potential mechanisms for incentivizing private actors in cyberspace. This study has described some of these: insurance, certification or licensing, regulation, and CSR. Follow up work should map out this incentive structure more thoroughly and consider options specific to different private sector entities (like ISPs and cloud service providers).
Second, further develop the salient distinctions that can differentiate activities across the spectrum of defensive measures. The focus of present debates has been primarily on the location of effects (that is, whether or not the defender is going outside of their network). But there are a range of distinctions relevant to defining reasonable conduct: the impacts of measures, qualifications of the actor employing them, the circumstances justifying or authorizing a measure, and more. Of course, any definition of reasonable conduct must be informed by research and analysis of the efficacy of defensive measures to increase costs and reduce the payoff for malicious actors without creating offsetting risks of collateral damage.
Third, explore international and multistakeholder processes through which to begin fostering a consensus around what legitimate self-help in cyberspace looks like and developing mechanisms to discourage illegitimate behavior. Numerous international and private-sector-led initiatives already exist or are emerging that could provide platforms for discussion within industry on appropriate conduct. Even attempting to address these issues will not be without contention, but in the long run may prove far more desirable than leaving them to the combination of evolving threats and the demand for security services to define de facto norms in this space.
Progress toward defining the roles and responsibilities of private actors in the absence of robust data or experience poses a challenge. Policymakers face a kind of chicken-and-egg problem: It is hazardous to try to create boundaries for activities for which there is little collective experience with their practice. Yet it is impossible to cultivate experience and figure out what works without creating some space for legitimate practices. Nevertheless, with a cautious approach to opening up space for their employment, the risks involved appear to be manageable—especially in comparison to historical cases where self-help carried lethal consequences. Governments can begin to experiment with modes of self-help governance while being able to contain the scope, scale, and duration of activities and rein in behavior that becomes detrimental. Fostering an environment for responsible self-help may be necessary to head off far worse potential outcomes: an untenable security landscape for the private sector or a descent into vigilantism and lawlessness.
Wyatt Hoffman is a senior research analyst with the Cyber Policy Initiative and the Nuclear Policy Program at the Carnegie Endowment for International Peace.
Steven Nyikos is General Counsel for DayBlink Consulting and a nonresident research analyst with the Cyber Policy Initiative at the Carnegie Endowment for International Peace.
This work is the product of continuous feedback and support from colleagues through multiple revisions over time. We gratefully thank our colleagues in Carnegie’s Cyber Policy Initiative, Ariel Levite, Tim Maurer, and George Perkovich, for their invaluable and encouraging editorial contributions. Additionally, we want to especially thank a number of colleagues for their advice, insights, and ideas received throughout the writing process, including Irv Lachow, Theodore Christakis, Cristin Goodwin, Michael Gadbaw, Chris Hart, Beth George, Joel Brenner, Scott Kannry, Michael Gadbaw, Gare Smith, Shavana Musa, and Deborah Avant.
1 Notable among such efforts is the UK’s National Cyber Security Centre. See Ian Levy, Active Cyber Defense - One Year On. UK National Cyber Security Centre. February 5, 2018.
2 See Henry Gitter, “Self-Help Remedies for Software Vendors,” Santa Clara High Technology Law Journal 9, no. 2 (1993)Note that the focus here is on self-help for the purposes of defense against malicious threats; other issues such as self-help remedies for commercial disputes are set aside.
3 See, for instance, Jeff Stone, “Basic ‘Cyber Hygiene’ Will Help Industry Stay Ahead of Nation-State Hacking,” The Wall Street Journal, December 13, 2017. https://blogs.wsj.com/cio/2017/12/13/basic-cyber-hygiene-will-help-industry-stay-ahead-of-nation-state-hacking/.
4 Various definitions of active cyber defense have been supplied by technical and policy experts, with no consensus on the scope of measures included. For the purpose of examining the full spectrum of phenomena, we use ACD to refer broadly to the full range of technical measures and practices from internal-network defenses to “hacking back.” For further detail on the spectrum of ACD see Wyatt Hoffman and Ariel E. Levite, Private Sector Cyber Defense: Can Active Measures Help Stabilize Cyberspace? Carnegie Endowment for International Peace, 2017. https://carnegieendowment.org/files/Cyber_Defense_INT_final_full.pdf.
5 The Computer Fraud and Abuse Act (CFAA, 18 U.S.C. 1030) in the United States and similar laws in other countries prohibit unauthorized access of any computer or network, regardless of whether the computer is used for malicious activity. However, in many cases the specific applicability of such laws to a range of self-help measures and their practical enforcement remain vague propositions.
7 While often anecdotal, evidence of engagement in active cyber defense and hacking back by the private sector is growing; see, for instance, Joseph Cox, “Revenge Hacking is Hitting the Big Time.” The Daily Beast, September 19, 2017. https://www.thedailybeast.com/inside-the-shadowy-world-of-revenge-hackers.
8 For a discussion of this debate in the United States see Nicholas Schmidle, “The Digital Vigilantes Who Hack Back,” The New Yorker, May 7, 2018. https://www.newyorker.com/magazine/2018/05/07/the-digital-vigilantes-who-hack-back.
9 See for instance, Tim Starks, “Scoop: ‘Hack back’ bill gets version 2.0.” Politico, May 25, 2017. https://www.politico.com/tipsheets/morning-cybersecurity/2017/05/25/scoop-hack-back-bill-gets-version-20-220506.
10 Rita Abrahamsen and Michael C. Williams, Security Beyond the State: Private Security in International Politics (Cambridge: Cambridge University Press, 2011).
11 Abrahamsen and Williams 2011, page 49.
12 Lucas Kello. 2017. The Virtual Weapon and International Order. Cambridge: Cambridge University Press.
13 Katz v. United States, 389 U.S. 347 (1967)—this case established the “reasonable expectation of privacy” guideline for Fourth Amendment purposes, yet the standard has also been used as a litmus test in tort actions for “intrusion upon seclusion,” which has the requirement that such an intrusion upon an individual’s privacy be “highly offensive to a reasonable man” according to the Restatement of the Law, 2nd, Torts (1977).
17 Winn, Peter A., “Katz and the Origins of the 'Reasonable Expectation of Privacy' Test,” McGeorge Law Review 40 (2009): 1-13.
19 United States v. Maxwell, 45 MJ 406 (U.S. Armed Forces Ct. App. 1996).
20 The lack of legal clarity surrounding the application of privacy laws engenders caution in the implementation of a range of measures for network monitoring and information gathering. See “CSIS/DOJ Active Cyber Defense Experts Roundtable” March 10, 2015. https://csis-prod.s3.amazonaws.com/s3fs-public/legacy_files/files/publication/150519_CountermeasuresDOJ.pdf.
21 Packets are a form of data sent along an IP network, comprising control data (source and destination IP addresses and other pertinent details) and the payload (the user data or code which is distributed or applied at the end destination). Packets are typically the source of an intrusion or cyber attack. Traceroutes are a very common diagnostic tool that shows both the path a packet takes through the network as well as the time delay for transmission between each node in the network—but only for packets that originate from the home network. Tracebacks, in contrast, attempt to determine the path and source of incoming packets and are highly useful in active cyber defense for both detection and attribution. IP protocol, however, is not ‘authenticated,’ meaning the source address can be ‘spoofed,’ or misrepresented. Traceback techniques are not foolproof or 100% certain.
22 Gong, Chao and Kamil Sarac. IP Traceback based on Packet Marking and Logging. University of Texas at Dallas: Department of Computer Science. http://www.utdallas.edu/~ksarac/research/publications/ICC05.pdf.
26 Techopedia. IP Address Blocking. Accessed May 29, 2017. For an overview see Technopedia, “IP Address Blocking,” https://www.techopedia.com/definition/3991/ip-address-blocking.
27 Erik Kline, Alexander Afanasyev, and Peter Reiher. Shield: DoS Filtering Using Traffic Deflection. UCLA: October 2017. http://perso.telecom-paristech.fr/~hecker/FIST2011/Program_files/fist2011-s3-i2.pdf.
28 “Cause in fact” is classically defined as the “but-for” test: would the injury have happened “but for” the automated technique? (also referred to as “sine qua non” causation). If the answer is no, then the automated technique is the cause in fact of the injury. “Proximate cause” is also called “legal cause”—meaning that the cause in fact must be reasonably foreseeable (that is, an objectively reasonable individual could have foreseen that the injury may happen).
31 Even, Loras R. Honey Pot Systems Explained. SANS: July 12, 2000. https://www.sans.org/security-resources/idfaq/what-is-a-honeypot/1/9.
33 DDoS means Distributed Denial of Service. A Denial of Service (DoS) attack is a method whereby the malicious actor attempts to overload a network or server’s capabilities to the point of unavailability based on sheer volume of access requests. It is the most common cyber attack by far, and typically uses a network of compromised computers (“botnets”) to create the problematic traffic, which is the Distributed Denial of Service (DDoS) method. See ST04-015: Understanding Denial-of-Service Attacks. United States Computer Emergency Readiness Team (US-CERT). Feb. 6, 2013. https://www.us-cert.gov/ncas/tips/ST04-015.
34 The practice of citizen’s arrest is under the common law, and not codified uniformly nationwide. An example can be found in the California Penal Code Section 837: “A private person may arrest another: 1. For a public offense committed or attempted in his presence. 2. When the person arrested has committed a felony, although not in his presence, 3. When a felony has in fact been committed, and he has reasonable cause for believing the person arrested to have committed it.” http://leginfo.legislature.ca.gov/faces/codes_displaySection.xhtml?lawCode=PEN&sectionNum=837.
35 South Carolina State Law, 17-13-20: Additional circumstances when citizens may arrest; means to be used. http://www.scstatehouse.gov/code/t17c013.php.
37 SANS IDFAQ: What is Active Response? https://www.sans.org/security-resources/idfaq/what-is-active-response/5/8.
38 The Hackback Debate,” Steptoe Cyberblog, November 2, 2012. http://www.steptoecyberblog.com/2012/11/02/the-hackback-debate/.
39 “Hot Pursuit” can also mean the right of naval vessels to cross international jurisdictional boundaries while pursuing vessels that violated national law within their borders.
40 Garner, Bryan A. (ed.) Black’s Law Dictionary: Seventh Edition. West Group: St Paul, MN. 1999. (See page 677).
41 Two commonly referenced devices are LoJack and ITURAN systems. Both have the same capabilities.
42 Jeremy Laukkonen, “What is LoJack, and How Does It Work?” Lifewire, October 18, 2016. https://www.lifewire.com/what-is-lojack-534878.
44 Tony Lee, “Testing Your Defenses – Beaconing,” Open Security Research, December 11, 2012. http://blog.opensecurityresearch.com/2012/12/testing-your-defenses-beaconing.html.
45 For a description of white-hat ransomware, along with other measures, see Center for Cyber & Homeland Security, Into the Gray Zone: The Private Sector and Active Defense against Cyber Threats, George Washington University, October 2016. https://cchs.gwu.edu/sites/g/files/zaxdzs2371/f/downloads/CCHS-ActiveDefenseReportFINAL.pdf.
46 Business Wire, “Global Card Fraud Losses Reach $16.31 Billion – Will Exceed $34 Billion in 2020 According to the Nilson Report.” August 4, 2015. http://www.businesswire.com/news/home/20150804007054/en/Global-Card-Fraud-Losses-Reach-16.31-Billion#.VcJZlvlVhBc.
47 3SI Security Systems. SecurityPac Brochure. Accessed May 30, 2017. https://s3.amazonaws.com/cdn.3sisecurity.com/downloads/SecurityPac_Brochure_EN.pdf?mtime=1493210214.
50 Katie B. Williams, “Does the Bounty-Hunting Industry Need Reform?” The Atlantic, July 23, 2015. http://www.theatlantic.com/politics/archive/2015/07/does-the-bounty-hunting-industry-need-reform/399224/.
51 Taylor v. Taintor, 83 U.S. 366 (1872)—in Lugar v. Edmondson, 457 U.S. 922 (1982) it was established that constitutional restrictions in the Fourth Amendment (search and seizure requiring a warrant) and Fifth Amendment (right against self-incrimination) are in place whenever a bounty hunter receives “significant aid” from or “act(s) together” with law enforcement officers—because they become an instrument of the state, whose actions are limited by the Constitution.
52 Gerald D. Robin, “Trial Practice: Reining in Bounty Hunters” GPSolo Magazine, March 2007. http://www.americanbar.org/content/newsletter/publications/gp_solo_magazine_home/gp_solo_magazine_index/reininginbountyhunters.html.
53 PBUS is a members-only professional bail agent association. The details of their liability insurance plans can be found here: http://www.pbus.com/page/210/Liability-Insurance-Policies.htm.
54 Admittedly, in the bounty hunter scenario the contract is signed with the tortfeasor (the individual who has committed a malicious act), and in the EULA analogy a contract is signed with a third party system owner. However, the act of contractually waiving rights against intrusion is valid in either case, and thus is the key takeaway from this analogy: it is possible for actors to obtain a contractual waiver of rights against intrusions committed for the purpose of defensive measures.
55 “Microsoft Software License Terms: Security Essentials.” https://support.microsoft.com/en-us/help/13752/windows-security-essentials-eula.
56 Tim Greene, “Inside Microsoft botnet takedowns,” Network World, Sept. 25, 2012. https://www.networkworld.com/article/2160165/security/inside-microsoft-botnet-takedowns.html.
57 This may avoid criminal liability under the CFAA, which relies on ‘unauthorized’ access.
58 In this way the Pinkerton Agency was not only a private investigator agency but also a private security agency, authorized to use force by the government agencies with which it contracted.
59 Thomas Lonardo, Doug White, and Alan Rea, “To License or Not to License: An Examination of State Statutes Regarding Private Investigators and Digital Examiners.” The Journal of Digital Forensics, Security and Law, 3, no. 3 (2014). (See page 76). http://ojs.jdfsl.org/index.php/jdfsl/article/view/176/100.
60 The Gramm-Leach-Bliley Act (Pub. L. 106-102, Nov. 12, 1999); Impersonating an officer or employee of the United States is federally illegal under 18 U.S.C. § 912. The Federal Wiretap Act (18 U.S.C. § 2511) forbids recording as described.
61 Guidelines for PIs that are regulated on the state level can be found in national industry associations like the United States Association of Professional Investigators (USAPI). http://www.usapi.org/about.asp.
62 An example of private Investigator insurance plan details can be found here: http://www.ermunro.com/insurance/business/private-investigator-liability/.
63 “Private Investigator Fact Sheet.” Department of Consumer Affairs, Bureau of Security & Investigative Services. http://www.bsis.ca.gov/forms_pubs/pi_fact.shtml .
64 Brownguard Security Professionals Liability Plan. See details here: http://brownyard.com/insurance-programs/security-guard-insurance/.
65 See “Battling Botnets for Control of Computers” Microsoft Security Intelligence Report, 2010. http://download.microsoft.com/download/8/1/B/81B3A25C-95A1-4BCD-88A42D3D0406CDEF/Microsoft_Security_Intelligence_Report_volume_9_Battling_Botnets_English.pdf; Referencing “FRCP Rule 65: Injunctions and Restraining Orders.” https://www.law.cornell.edu/rules/frcp/rule_65.
66 In re Louis Vuitton Et Fils S.A., 606 F.2d 1 (2d Cir. 1979).
67 A botnet is a network of computers that have been compromised and are remotely controllable to some extent. Typically, such control is organized through an obscure online domain, where the malicious actor logs on and directs the botnet’s activity. It is common to create multiple domains to control the same botnet, in case one or more are taken down. See FTC v. Pricewert LLC et al., Case No. 09-2407 (N.D. Cal. Whyte J., June 2, 2009).
68 “Battling Botnets for Control of Computers” Microsoft Security Intelligence Report, 2010. http://download.microsoft.com/download/8/1/B/81B3A25C-95A1-4BCD-88A42D3D0406CDEF/Microsoft_Security_Intelligence_Report_volume_9_Battling_Botnets_English.pdf.
69 Janine Hiller, “Civil Cyberconflict: Microsoft, Cybercrime, and Botnets,” Santa Clara High Technology Law Journal 31, no. 2 (2014).
71 See, for instance, Paul Rosenzweig, “International Law and Private Actor Active Cyber Defensive Measures,” Stanford Journal of International Law 50, no. 1 (Winter 2014): 2. Karine Bannelier and Theodore Christakis, “Cyber-Attacks Prevention-Reactions: The Role of States and Private Actors,” Les Cahiers de la Revue Défense Nationale, 2017.
72 Florian Egloff, “Cybersecurity and the Age of Privateering” in Understanding Cyber Conflict: 14 Analogies, eds. George Perkovich and Ariel E. Levite (Washington DC: Georgetown University Press, 2017).
73 Abrahamsen and Williams 2011. 2011. Security Beyond the State: Private Security in International Politics. Cambridge: Cambridge University Press.
74 Andrew Phillips, “Company Sovereigns, Private Violence and Colonialism” in Routledge Handbook of Private Security Studies, eds. Rita Abrahamsen and Anna Leander (New York, NY: Routledge 2016).
75 Bryan Mabee, “Pirates, privateers and the political economy of private violence,” Global Change, Peace & Security 21, no. 2 (2009).
76 Phillips 2016, page 42.
77 Abrahamsen and Williams 2011, page 11.
78 Chris Demchak and Peter Dombrowski, “Cyber Westphalia: Asserting State Prerogatives in Cyberspace,” Georgetown Journal of International Affairs, 2013.
79 Martin Libicki, Cyberspace in Peace and War (Annapolis, MD: Naval Institute Press, 2016). (See page 21).
80 Phillips 2016, page 44.
82 Janice Thomson (1994). Mercenaries, Pirates, and Sovereigns: State-Building and Extraterritorial Violence in Early Modern Europe. Princeton, NJ: Princeton University Press. (See page 22).
83 Francis R. Stark, “The Abolition of Privateering and the Declaration of Paris” in Studies in History, Economics and Public Law, ed. Faculty of Political Science of Columbia University (New York, NY: Columbia University, 1897).
85 For instance, see Dave Aitel, “Cyber Deterrence ‘At Scale’,” Lawfare, June 10, 2016. https://www.lawfareblog.com/cyber-deterrence-scale.
86 Dave Aitel, “Cyber Deterrence ‘At Scale’,” Lawfare, June 10, 2016. https://www.lawfareblog.com/cyber-deterrence-scale.
87 Amanda N. Craig, Scott J. Shackelford, and Janine S. Hiller, “Proactive Cybersecurity: A Comparative Industry and Regulatory Analysis,” American Business Law Journal 52, no. 4 (Winter 2015).
88 Tim Maurer, Cyber Mercenaries: The State, Hackers, and Power (New York, NY: Cambridge University Press, 2018); Irving Lachow, “The Private Sector Role in Offensive Cyber Operations: Benefits, Issues and Challenges,” 2016. http://dx.doi.org/10.2139/ssrn.2836201.
89 Andrew Nusca, “Hayden: 'Digital Blackwater' May be Necessary for Private Sector to Fight Cyber Threats,” ZDNet, August 1, 2011. http://www.zdnet.com/blog/btl/hayden-digital-blackwater-may-be-necessary-for-private-sector-to-fight-cyber-threats/53639; Matt Apuzzo, “Ex-Blackwater Guards Given Long Terms for Killing Iraqis,” The New York Times, April 13, 2015. https://www.nytimes.com/2015/04/14/us/ex-blackwater-guards-sentenced-to-prison-in-2007-killings-of-iraqi-civilians.html?smid=tw-share&_r=0#story-continues-6.
90 For instance, see Alec Ross, “Want Job Security? Try Online Security,” Wired, April 25, 2016, http://www.wired.co.uk/ article/job-security-cybersecurity-alec-ross.
91 For an in-depth discussion of these factors see Deborah Avant, The Market for Force: The Consequences of Privatizing Security (New York, NY: Cambridge University Press, 2005); and Peter Singer, Corporate Warriors: The Rise of the Privatized Military Industry (Ithaca, NY: Cornell University Press, 2003).
92 Deborah Avant, “Pragmatic Networks and Transnational Governance of Private Military and Security Services,” International Studies Quarterly 60, no. 2 (2016).
93 “The Montruex Document” International Committee of the Red Cross. https://www.icrc.org/eng/assets/files/other/icrc_002_0996.pdf .
94 “Participating States of the Montreux Document” Switzerland Federal Departmnet of Foreign Affairs. https://www.eda.admin.ch/eda/en/home/foreign-policy/international-law/international-humanitarian-law/private-military-security-companies/participating-states.html.
95 “The Montruex Document” International Committee of the Red Cross. https://www.icrc.org/eng/assets/files/other/icrc_002_0996.pdf.
96 See Karine Bannelier and Theodore Christakis, “Cyber-Attacks Prevention-Reactions: The Role of States and Private Actors,” Les Cahiers de la Revue Défense Nationale, 2017; United Nations General Assembly, A/70/174, “Group of Governmental Experts on Developments in the Field of Information and Telecommunications in the Context of International Security,” July 22, 2015, https://documents-dds-ny.un.org/doc/UNDOC/GEN/N15/228/35/PDF/N1522835.pdf?OpenElement.
97 “The International Code of Conduct for Private Security Service Providers,” Swiss Federal Department of Foreign Affairs, October 8, 2010, http://www.state.gov/documents/organization/150711.pdf .
98 “International Code of Conduct for Private Security Service Providers – consensus on oversight mechanism” https://www.admin.ch/gov/en/start/dokumentation/medienmitteilungen.msg-id-47889.html.
99 Scott Shackelford, “Human Rights and Cybersecurity Due Diligence: A Comparative Study,” University of Michigan Journal of Law Reform 50, no. 4 (2017).
100 For further discussion of how the ICoC could be applied to ACD, see Wyatt Hoffman and Ariel E. Levite, Private Sector Cyber Defense: Can Active Measures Help Stabilize Cyberspace? Carnegie Endowment for International Peace, 2017. https://carnegieendowment.org/files/Cyber_Defense_INT_final_full.pdf.
101 Daphne Richemond-Barak, “Can Self-Regulation Work? Lessons from the Private Security and Military Industry,” Michigan Journal of International Law 35, no. 4 (2014). (See page 819).
102 Small Arms Survey, Small Arms Survey 2011: States of Security (New York: Cambridge University Press, 2011).
103 Charles Clover, “Chinese private security companies go global.” Financial Times, February 26, 2017. https://www.ft.com/content/2a1ce1c8-fa7c-11e6-9516-2d969e0d3b65.
104 Small Arms Survey, Small Arms Survey 2011: States of Security (New York: Cambridge University Press, 2011).
105 “Voluntary Principles on Security and Human Rights” http://www.voluntaryprinciples.org/.
106 Abrahamsen and Williams 2011, page 107.
107 David Axe, “Why the Somali Pirates Are Winning,” The Guardian, April 9, 2009, http://www.theguardian.com/commentisfree/cifamerica/2009/apr/09/piracy-somalia-alabama-us-navy.
108 International Maritime Organization. “Revised Interim Guidance to Shipowners, Ship Operators, and Shipmasters on the Use of Privately Contracted Armed Security Personnel on Board Ships in the High Risk Area,” International Maritime Organization, September 16, 2011.
109 For an in-depth examination of the role of cyber insurance and how collaborative governmental and private sector efforts can unlock its full potential, see Ariel E. Levite, Scott Kannry, and Wyatt Hoffman, “Addressing the Private Sector Cybersecurity Predicament: The Indispensable Role of Insurance.” Carnegie Endowment for International Peace, November 2018. http://carnegieendowment.org/2018/11/07/addressing-private-sector-cybersecurity-predicament-indispensable-role-of-insurance-pub-77622.
110 See BIMCO, “GUARDCON: Standards Contract for the Employment of Security Guards on Vessels.” https://www.bimco.org/-/media/bimco/news-and-trends/news/press-releases/2017/guardcon-explanatory-notes-v14--2017-update.ashx.
111 Nelleke van Amstel, “The ICoC and Regulation of Private Maritime Security Companies” (report on a meeting held in Geneva, July 2014), Geneva Center for the Democratic Control of Armed Forces, 2014. http://www.ppps.dcaf.ch/sites/default/files/uploads/Report_ICoC_Regulation_Private_Maritime_Security_Companies.pdf.
112 The German experience with PMSCs offers an illustrative example. In 2011, the German government caved to pressure to allow armed guards out of necessity and subsequently implemented licensing procedures to re-establish authority over the practice. See Annina Bürgin and Patricia Schneider, “Regulation of Private Maritime Security Companies in Germany and Spain: A Comparative Study,” Ocean Development & International Law 46, no. 2 (2015): 123–37.
113 See Douglas Lichtman, “How the Law Responds to Self-Help,” John M. Olin Law & Economics Working Paper No. 232, 2001. (See page 23).
114 Niall McCarthy. “Private Security Outnumbers the Police In Most Countries Worldwide [Infographic],” Forbes August 31, 2017. https://www.forbes.com/sites/niallmccarthy/2017/08/31/private-security-outnumbers-the-police-in-most-countries-worldwide-infographic/#418bebae210f.
115 Charles Clover “Chinese private security companies go global.” Financial Times, February 26, 2017. https://www.ft.com/content/2a1ce1c8-fa7c-11e6-9516-2d969e0d3b65.
116 See Douglas Lichtman, “How the Law Responds to Self-Help,” John M. Olin Law & Economics Working Paper No. 232, 2001. (See page 23).
117 David Betz and Tim Stevens, Cyberspace and the State: Toward a Strategy for Cyber-Power (Oxon: Routledge, 2011). (See page 107); Paul Cornish, “Governing Cyberspace through Constructive Ambiguity,” Survival, 57, no. 3 (2015).
118 New York Cyber Task Force, Building a Defensible Cyberspace, Columbia School of International and Public Affairs, 2017. https://sipa.columbia.edu/sites/default/files/3668_SIPA%20Defensible%20Cyberspace-WEB.PDF.
119 For example, companies are already taking advantage of permissive environments in certain states to sell products or offer services that include various active defense measures. See Joseph Cox, “This UK Company Is Making It Easier for Private Companies to ‘Hack Back,’” Motherboard, June 12, 2017. https://motherboard.vice.com/en_us/article/newd88/this-uk-company-is-making-it-easier-for-private-companies-to-hack-back.
120 Deborah Avant, “Pragmatic Networks and Transnational Governance of Private Military and Security Services,” International Studies Quarterly 60, no. 2 (2016).
121 For a thorough discussion of the various widely available and scalable cyber risk management solutions that corporations can employ, see New York Cyber Task Force, Building a Defensible Cyberspace, Columbia School of International and Public Affairs, 2017. https://sipa.columbia.edu/sites/default/files/3668_SIPA%20Defensible%20Cyberspace-WEB.PDF.
122 Ian Levy, Active Cyber Defense - One Year On. UK National Cyber Security Centre. February 5, 2018. (See page 66).
123 See Ariel E. Levite, Scott Kannry, and Wyatt Hoffman, “Addressing the Private Sector Cybersecurity Predicament: The Indispensable Role of Insurance.” Carnegie Endowment for International Peace, November 2018. http://carnegieendowment.org/2018/11/07/addressing-private-sector-cybersecurity-predicament-indispensable-role-of-insurance-pub-77622.
124 It is by now a common refrain that the vast majority of cyber attacks could be prevented by basic security practices and cyber hygiene. See, for instance, Anna Eshoo, “Promoting cyber hygiene,” The Hill, Sept. 30, 2015. https://thehill.com/special-reports/data-security-october-1-2015/255565-promoting-cyber-hygiene.
125 See, for instance, Oliver Ralph and Ralph Atkins, “Swiss Re chief urges governments to back cyber insurers.” Financial Times, December 28, 2017. https://www.ft.com/content/0212ad0e-e72d-11e7-8b99-0191e45377ec.

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