How Vulnerable is your Operational Technology System?

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In recent times, there appears to be a shift in motive for cyber-attacks – along with common data theft, there is a proliferation of attacks aimed at the business interruption and physical incapacitation of business operations. We have witnessed an alarming increase in high-profile attacks on manufacturing businesses and critical infrastructure providers, globally.

This appears to be a global phenomenon. Honda manufacturing plants went offline in June after a cyber-attack compromised some of the Japanese automaker’s facilities. The same pattern emerged in a separate attack at the same time targeting Edesur S.A., a company belonging to the Enel Group that confirmed its internal IT network was disrupted due to a ransomware attack, which was caught by antivirus software before the malware could infect. Both companies had machines with Internet-accessible remote desktop servers, which is a favorite infection method among attackers nowadays. One of Australia’s largest brewers, Lion also faced a ransomware outbreak, last month. In Israel, it was reported that a cyber-attack very nearly poisoned the water supply with the attackers attempting to overload the water system with chlorine, and in recent days, a fire and explosion at an Iranian nuclear plant is suspected of being caused by cyber-attack.

These attacks highlight the need for appropriate investments in cybersecurity by companies and municipalities that own or operate critical infrastructure, properties (including places of public congregation, retailers and others) that are rapidly deploying a suite of operational technologies, and businesses in the manufacturing sector.

Operational Technology (OT) is the backbone of modern industrial operations and is a network of multiple computing systems that perform operations including production line management, operations control and industrial monitoring. OT can further include specific computing systems like industrial control systems (ICS) which is a collection of control systems used to operate and/or automate industrial processes. There are several types of ICSs, the most common of which are Supervisory Control and Data Acquisition (SCADA) systems, and Distributed Control Systems (DCS). With such industrial systems and smart end-user products connected by a common network, several vulnerabilities may appear.

In OT security, the focus is much less on information, but more on the industrial process that technology controls. Hence, availability and integrity are often more important than confidentiality. Any organisation employing OT should employ continual risk-based assessments of their cybersecurity posture to prioritise and tailor recommended guidelines and solutions to fit specific security, business, and operational requirements.

Why is OT More Vulnerable?

OT systems are versatile and can be found in all kinds of industrial settings and infrastructures like smart buildings, oil and gas, energy generation/distribution, mining, wastewater treatment/distribution, manufacturing, food production, consumer devices and transport. In fact, almost every business in 2020 has an element of IoT within their operations.

A big issue with OT is that a lot of the technology in place is over 20 years old and therefore was not designed to provide the security capabilities required to face cyber threats in 2020. Legacy technology often requires legacy hardware and software to support it – much of which is the end of life and unsupported by the vendors (for example, consider SCADA systems still reliant on Windows NT or older Unix based systems, which have not been supported by their vendors for many years).

OT systems have also been damaged as unintended side effects of problems starting in corporate networks that took advantage of increasing connectivity, proving clearly that the standard PCs that now form part of a typical organisation’s IT environment are in turn used to manage OT systems and become a major vector for such cyber-attacks.

When it comes to OT, safety and reliability are the primary concerns as attackers aim to disrupt the critical services industry and their customers rely upon them. Given the increasing propensity of connecting OT systems with corporate networks for ease of management and the growing use of IoT systems, the likelihood of such systems being affected by vulnerabilities exploitable over the network is increasing exponentially.

For almost every business – not just critical infrastructure providers – most technologies we deploy include connectivity to the internet. Not knowing what systems and external access to these systems that your business is introducing in its everyday technology investment create significant risks to the broader business operations.

Impact of COVID-19 on manufacturing businesses and infrastructure providers

Manufacturing businesses and critical infrastructure providers realise that there is need to re-evaluate their cybersecurity measures, in the wake of the COVID-19 crisis, according to the findings of the Ecosystm’s ongoing “Digital Priorities in the New Normal” study (Figure 1).

But these measures may not be sufficient, as indicated by the slew of cyber-attacks on these organisations.

Why are these attacks successful?

There are several reasons why OT attacks are successful:

  • Unauthorised access to internet-facing systems (e.g. deploying an IoT with the default username and password)
  • Introduction of a compromised device (e.g. USB stick) to the environment that infects the network (often employee action)
  • Exploitation of zero-day vulnerabilities in control devices and software
  • Propagated malware infections within isolated computer networks (i.e. The attacker can place a receiving device to make contact over a channel that can propagate across the isolated network)
  • SQL injection via exploitation of web application vulnerabilities
  • Network scanning and probing
  • Lateral movement (i.e. inadequate segmentation which results in attackers being able to move between systems, groups of systems, network zones and even geographical locations.)

How can they be prevented?

The mitigation cannot rely solely on the organisation building security around the deployment nor can it be a reactive approach to fixing vulnerabilities in production, as they are identified. It begins with the OT vendors building security within; however, as with most IT systems and applications, this will evolve over time. For example, there is an initiative in Australia – driven by the IoT Alliance Australia (IOTAA) – to introduce a ‘Trust Mark’ for IoT devices that pass a certification process for security and privacy in product development. This is targeted to launch in September 2020 but could take many years to gain real traction. Thus, for the foreseeable future, the best operational outcomes must be planned and managed by the consumers of the technologies.

Here are the best practices to reduce exploitable IoT weaknesses and attacks occurring in your business:

  • Maintain an accurate inventory of Operational Systems and eliminate any exposure of these systems to external networks
  • Establish clear roles and responsibilities for your organisation and your vendors, to ensure cybersecurity risk is being addressed and managed throughout the OT lifecycle
  • Implement network segmentation and apply firewalls between critical networks and systems.
  • Use secure remote access methods
  • Establish Role-Based Access Controls (RBAC) and implement system logging
  • Use only strong passwords, change default passwords, and consider other access controls (especially for any elevated privileges) such as multi-factor authentication, privileged access management solutions, etc.
  • Establish threat intelligence feeds from your OT vendors and security vendors to ensure you remain abreast of new vulnerabilities, software/firmware patches and threats targeting systems you employ
  • Develop and enforce policies on mobile devices, including strict device controls for any device connecting to OT systems or network zones
  • Implement an employee cybersecurity training program
  • Establish and maintain rigorous testing and patching program including vulnerability assessment and penetration testing
  • Implement measures for detecting compromises and develop a cybersecurity incident response plan with a specific focus on responding to a disruptive attack on your OT environment
  • Maintain an up-to-date Business Continuity Plan that can be deployed rapidly in response to a significant disruption

Ecosystm Cybersecurity Research

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