By 2018, Gartner predicts that 10 percent of enterprises will use deception tools and tactics, and actively participate in deception operations against attackers.
"Information security teams and infrastructure must adapt to support emerging digital business requirements, and simultaneously deal with the increasingly advanced threat environment," says Neil MacDonald, vice president at Gartner.
"Security and risk leaders need to fully engage with the latest technology trends if they are to define, achieve and maintain effective security and risk management programs that simultaneously enable digital business opportunities and manage risk."
MacDonald identifies these top 10 technology trends:
Cloud Access Security Brokers
Cloud access security brokers (CASBs) provide information security professionals with a critical control point for the secure and compliant use of cloud services across multiple cloud providers. Many software as a service (SaaS) apps have limited visibility and control options; however, SaaS adoption is becoming pervasive in enterprises, which exacerbates the frustration of security teams looking for visibility and control. CASB solutions fill many of the gaps in individual cloud services, and allow chief information security officers (CISOs) to do it simultaneously across a growing set of cloud services, including infrastructure as a service (IaaS) and platform as a service (PaaS) providers. As such, CASBs address a critical CISO requirement to set policy, monitor behaviour and manage risk across the entire set of enterprise cloud services being consumed.
Security needs to become an integral part of DevOps style workflows — DevSecOps
Endpoint Detection and Response
The market for endpoint detection and response (EDR) solutions is expanding quickly in response to the need for more effective endpoint protection and the emerging imperative to detect potential breaches and react faster. EDR tools typically record numerous endpoint and network events, and store this information either locally on the endpoint or in a centralized database. Databases of known indicators of compromise (IOC), behaviour analytics and machine-learning techniques are then used to continuously search the data for the early identification of breaches (including insider threats), and to rapidly respond to those attacks.
Nonsignature Approaches for Endpoint Prevention
Purely signature-based approaches for malware prevention are ineffective against advanced and targeted attacks. Multiple techniques are emerging that augment traditional signature-based approaches, including memory protection and exploit prevention that prevent the common ways that malware gets onto systems, and machine learning-based malware prevention using mathematical models as an alternative to signatures for malware identification and blocking.
User and Entity Behavioral Analytics
User and entity behavioural analytics (UEBA) enables broad-scope security analytics, much like security information and event management (SIEM) enables broad-scope security monitoring. UEBA provides user-centric analytics around user behaviour, but also around other entities such as endpoints, networks and applications. The correlation of the analyses across various entities makes the analytics' results more accurate and threat detection more effective.
Microsegmentation and Flow Visibility
Once attackers have gained a foothold in enterprise systems, they typically can move unimpeded laterally ("east/west") to other systems. To address this, there is an emerging requirement for "microsegmentation" (more granular segmentation) of east/west traffic in enterprise networks. In addition, several of the solutions provide visibility and monitoring of the communication flows. Visualisation tools enable operations and security administrators to understand flow patterns, set segmentation policies and monitor for deviations. Finally, several vendors offer optional encryption of the network traffic (typically, point-to-point IPsec tunnels) between workloads for the protection of data in motion, and provide cryptographic isolation between workloads.
Security Testing for DevOps (DevSecOps)
Security needs to become an integral part of DevOps style workflows — DevSecOps. DevSecOps operating models are emerging that use scripts, "recipes," blueprints and templates to drive the underlying configuration of security infrastructure — including security policies such as application testing during development or network connectivity at runtime. In addition, several solutions perform automatic security scanning for vulnerabilities during the development process looking for known vulnerabilities before the system is released into production. Whether security is driven from models, blueprints, templates or toolchains, the concept and the desired outcome are the same — an automated, transparent and compliant configuration of the underlying security infrastructure based on policy reflecting the currently deployed state of the workloads.
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Intelligence-Driven Security Operations Centre Orchestration Solutions
An intelligence-driven security operations centre (SOC) goes beyond preventative technologies and the perimeter, and events-based monitoring. An intelligence-driven SOC has to be built for intelligence, and used to inform every aspect of security operations. To meet the challenges of the new "detection and response" paradigm, an intelligence-driven SOC also needs to move beyond traditional defenses, with an adaptive architecture and context-aware components. To support these required changes in information security programs, the traditional SOC must evolve to become the intelligence-driven SOC (ISOC) with automation and orchestration of SOC processes being a key enabler.
Most attacks start by targeting end-users with malware delivered via email, URLs or malicious websites. An emerging approach to address this risk is to remotely present the browser session from a "browser server" (typically Linux based) running on-premises or delivered as a cloud-based service. By isolating the browsing function from the rest of the endpoint and corporate network, malware is kept off of the end-user's system and the enterprise has significantly reduced the surface area for attack by shifting the risk of attack to the server sessions, which can be reset to a known good state on every new browsing session, tab opened or URL accessed.
Deception technologies are defined by the use of deceits and/or tricks designed to thwart, or throw off, an attacker's cognitive processes, disrupt an attacker's automation tools, delay an attacker's activities or disrupt breach progression. For example, deception capabilities create fake vulnerabilities, systems, shares and cookies. If an attacker tries to attack these fake resources, it is a strong indicator that an attack is in progress, as a legitimate user should not see or try to access these resources. Deception technologies are emerging for network, application, endpoint and data, with the best systems combining multiple techniques. By 2018, Gartner predicts that 10 per cent of enterprises will use deception tools and tactics, and actively participate in deception operations against attackers.
Pervasive Trust Services
As enterprise security departments are asked to extend their protection capabilities to operational technology and the Internet of Things, new security models must emerge to provision and manage trust at scale. Trust services are designed to scale and support the needs of billions of devices, many with limited processing capability. Enterprises looking for larger-scale, distributed trust or consensus-based services should focus on trust services that include secure provisioning, data integrity, confidentiality, device identity and authentication. Some leading-edge approaches use distributed trust and blockchain-like architectures to manage distributed trust and data integrity at a large scale.
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