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Cyber Security

Forescout Discloses OT:ICEFALL 56 Vulnerabilities Found in Thousands of Devices

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Forescout’s Vedere Labs, in collaboration with CISA’s vulnerability disclosure process, today is disclosing OT:ICEFALL, 56 vulnerabilities affecting devices from 10 OT (operational technology) vendors. This is one of the single largest vulnerability disclosures that impact OT devices and directly addresses insecure-by-design vulnerabilities.

It has been ten years since Project Basecamp, a research project conducted by Digital Bond, who investigated how critical OT devices and protocols were insecure by design. Since then, real-world OT malware including Industroyer, TRITON, Industroyer2, and INCONTROLLER, has been hugely impactful in the abuse of insecure-by-design functionality.

“The rapid expansion of the threat landscape is well documented at this stage. By connecting OT to IoT and IT devices, vulnerabilities that once were seen as insignificant due to their lack of connectivity are now high targets for bad actors.” said Daniel dos Santos, Head of Security Research, Forescout Vedere Labs.  “10 years on from BASECAMP and now ICEFALL, we have a very long way to go to reach the summit of these OT design practices. These types of vulnerabilities, and the proven desire for attackers to exploit them, demonstrate the need for robust, OT-aware network monitoring and deep-packet-inspection (DPI) capabilities.”

The 56 vulnerabilities, detailed in Forescout’s technical report, impact ten vendors, including Bently Nevada, Emerson, Honeywell, JTEKT, Motorola, Omron, Phoenix Contact, Siemens, and Yokogawa. Although the impact of each vulnerability is highly dependent on the functionality each device offers, they fall under the following categories:

  • Remote code execution (RCE): This allows an attacker to execute arbitrary code on the impacted device, but the code may be executed in different specialized processors and different contexts within a processor, so an RCE does not always mean full control of a device. This is usually achieved via insecure firmware/logic update functions that allow the attacker to supply arbitrary code.
  • Denial of service (DoS): This allows an attacker to either take a device completely offline or prevent access to some function.
  • File/firmware/configuration manipulation: This allows an attacker to change important aspects of a device such as files stored within it, the firmware running on it, or its specific configurations. This is usually achieved via critical functions lacking the proper authentication/authorization or integrity checking that would prevent attackers from tampering with the device.
  • Compromise of credentials: This allows an attacker to obtain credentials to device functions, usually either because they are stored or transmitted insecurely.
  • Authentication bypass: This allows an attacker to bypass existing authentication functions and invoke desired functionality on the target device.

The vulnerabilities and associated issues disclosed in this report range from persistent insecure-by-design practices in security-certified products to inadequate attempts to fix them. It is crucial for asset owners to understand how the opaque and proprietary nature of these systems, the suboptimal vulnerability management surrounding them, and the often-false sense of security offered by certifications complicate OT risk management efforts.

Cyber Security

Group-IB Unveils Unified Risk Platform

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Group-IB has today unveiled the Unified Risk Platform, an ecosystem of solutions that understands each organization’s threat profile and tailors defenses against them in real-time. Every product and service in Group-IB’s now consolidated security suite is enriched with information from a Single Data Lake, which contains 60 types of sources of adversary intelligence. The Unified Risk Platform automatically configures your Group-IB defenses with the precise insights needed to provide the best possible defense against targeted attacks on the infrastructure and endpoints, breaches, fraud, brand, and IP abuse.

“At the heart of the Unified Risk Platform is a Single Data Lake that has the most complete and detailed insight into threat actors. Group-IB has collected the industry’s broadest range of adversary intelligence, with 60 types of sources across 15 categories,” the company said in a statement.

The data is gathered by and exclusive to Group-IB, providing customers with unprecedented visibility of threat actors’ operations. The raw data is enriched with context, converted into actionable intelligence, and added to Group-IB’s Single Data Lake. The patented technology is continuously refined by state-of-the-art research, science, and modeling conducted by Group-IB’s dedicated analyst teams spanning 11 cybersecurity disciplines.

The modular architecture of the Unified Risk Platform allows additional capabilities to be easily activated, providing increased protection from cybercrime without friction. A range of out-of-the-box integrations and flexible APIs enable the Unified Risk Platform to easily enhance any existing security ecosystem. When organisations need specialist support, Group-IB’s comprehensive suite of services is available for any purpose, from one-off red teaming exercises or incident response to in-life managed detection and response.

In addition to the services, every Group-IB product is powered by the platform to provide complete coverage of the Cyber Response Chain:

  • Group-IB Threat Intelligence provides deep insight into adversary behaviors. Threat Intelligence was independently evaluated as creating a 10% increase in team efficiency over alternative vendors and in a case study generated a 339% return on investment.
  • Group-IB Managed XDR enables organizations to respond 20% faster to threats according to an analyst study.
  • Group-IB Digital Risk Protection allows organizations to reduce the risk of brand abuse, piracy, data leaks, and more with best-in-breed protection. Group-IB has been benchmarked as detecting pirated content in 30 min on average and taking down 80% of the content within 7 days.
  • Fraud Protection was calculated by consultants to reduce the rate of false-positive fraud cases by 20% and enable 10% to 20% more fraud attempts to be detected and prevented. Furthermore, Group-IB identified 30% more one-time password fraud.
  • Attack Surface Management continuously discovers external assets to identify shadow IT, forgotten infrastructure, misconfigurations, and other hidden risks. As part of the Unified Risk Platform, the solution provides a threat actor’s view of the attack surface so that weak spots can be quickly and proactively strengthened.
  • Business Email Protection defends corporate email from sophisticated attacks. The solution monitors for indicators of compromise identifies malicious behavioral markers and extracts artifacts to identify risky emails before they reach their destination.
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Cyber Security

Genetec Announces Availability of its Synergis Cloud Link PoE-Enabled IoT Gateway

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Genetec has announced the immediate availability of a new generation of its Synergis Cloud Link PoE-enabled IoT gateway for access control. Manufactured in North America to mitigate supply chain delays, Synergis Cloud Link addresses the increasing demand for non-proprietary access control solutions and provides a safe and secure gateway to a cloud or hybrid deployment.

“When modernizing an existing security system, Synergis Cloud Link’s open architecture allows organizations to leverage their current access control infrastructure and easily upgrade to a secure IP-based solution. Synergis Cloud Link provides a more efficient approach to multi-site deployments and replaces the need for servers, reducing the cost of ownership.  The Synergis Cloud Link IoT gateway has embedded functionalities that keep an organization’s access control running even when the connection to the server is down,” the company said in a statement.

“The new generation of Synergis Cloud Link provides more features, enhanced cybersecurity, and helps future-proof security installations. Synergis Cloud Link features enhanced cybersecurity such as encrypted user data, Secure Boot, and an EAL6+ industry gold standard Secure Element that stores cryptographic elements,” the company added.

“The need for non-proprietary access control solutions has never been greater,” said Thibault Louvet, Access Control Product Group Director, Genetec Inc. “Our new generation Synergis Cloud Link enables us to provide organizations with a powerful, secure, and intelligent gateway to the latest technology while allowing them to easily connect to hybrid or cloud access control environments and keep their existing security investment including hardware, wiring, and infrastructure.”

The device is compatible with non-proprietary access control modules from the industry’s most established manufacturers including HID Global, Axis Communications, ASSA ABLOY, Mercury Security, Allegion, SimonsVoss, STid, and others. A single Synergis Cloud Link device can support up to 256 readers and electronic locks, 600,000 cardholders, 150,000 offline events, as well as monitor hundreds of zones and alarms.

Synergis Cloud Link features a new firmware design, improving reliability and lifecycle management, and updates management. It also opens the door to containerized approach for operating software on the device, expanding its future capabilities.

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Cyber Security

Surge in Ransomware Attacks Has Made Effective Cyber Security and Defence a Top Priority

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Emad Fahmy, the Systems Engineering Manager for Middle East at NETSCOUT, speaks about the evolving threat landscape in the region

How has the security threat landscape evolved in recent months?
According to a 2021 survey by PwC, cybersecurity is a growing concern for organizations, with approximately 43% of Middle East CEOs planning to increase investments in cybersecurity and data privacy by 10% or more over the next three years. Moreover, 41% of these leaders think that their organization should be doing more to measure cybersecurity. The ever-evolving threat environment has made it increasingly necessary to be vigilant.

Cybercrimes continue to grow in terms of both complexity and frequency. Among the businesses that identify breaches or attacks, 21% lose money, data, or other assets, and 35% report being negatively impacted in other ways and suffering from wider business disruption. As such, it’s vital for enterprises to ensure the security of data, applications, networks, and critical business processes to stay competitive and thwart attackers. Depending on traditional security solutions and methodologies isn’t enough to combat the sophisticated attacks that target businesses today.

Is ransomware still an issue?
It is, unfortunately. The unprecedented surge in ransomware attacks has made effective cyber security and defence a top priority in today’s world. Every day, new ransomware attacks are reported by businesses and government authorities alike, not to mention the attacks that go unreported, and it seems like no one is immune.

Threat intelligence is vital to combat ransomware attacks. Threat intelligence is the study of the bad actors who perpetrate these attacks, along with the tactics and tools they use. This involves unveiling the bad actor’s attack methodologies and why they are targeting those victims. This knowledge is then turned into actionable insight that enterprises can access and comprehend. Empowered with this knowledge, enterprises can learn about their network’s vulnerabilities to actively defend against ransomware.

Companies have been trying to protect the endpoint for years. How can companies make sure endpoints are protected and monitored for attacks and mitigation?
As service providers increasingly focus on cloud services, edge computing, end-users, and endpoint devices, the traditional approach of utilizing distributed detection solutions in concert with centralized mitigation centres within the network is no longer enough. However, mitigation measures that are distributed out to the network edge necessitate both infrastructure and intelligent defence capabilities that are capable of working hand in hand across locations and platforms.

A more modern threat mitigation strategy involves distributing both detection and mitigation functions throughout the network to intercept threats nearer to the source. In this way, network operators can stop attacks upstream, instead of having to incur the cost of peering and transit link traffic that is only going to be discarded once it reaches a centralized scrubbing centre. By conducting the scrubbing as close as possible to the threat source, service providers can reduce any potential impact on traffic, helping to ensure high-quality service.

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