South Africa’s mining and manufacturing sectors are under growing threat of cyberattack.
This is the word from Sean Duffy, executive: security solutions for MEA at Dimension Data, who writes that mining and manufacturing sectors are becoming increasingly vulnerable to cyberattack.
Dimension Data’s Global Threat Intelligence Report for 2017 reveals that the manufacturing sector was second only to the finance industry on the list of most attacked sectors in the Middle East and Africa region in 2016.
In fact, manufacturing featured amongst the top three targets for five out of the six global regions. Sectors like mining and manufacturing are fast becoming a favourite with cybercriminals and it’s not difficult to see why. Most manufacturing systems today were made to be productive, with funds traditionally spent on upgrades for productivity rather than cybersecurity.
Taking a closer look, mining and manufacturing plants are run by operational technology (OT) which controls the physical devices within the plant. These environments are generally operated by the engineering function, independent of the enterprise network run by IT in the organisation.
This is problematic, because historically manufacturers have traditionally not been security-focused. To complicate matters further, most operational technology was introduced into South Africa’s mines 20 or 30 years ago when there was little risk of a cyberattack.
The result is that the necessary IT systems to prevent cyberattacks simply weren’t put in place. This includes failing to introduce measures to authenticate the traffic between the various devices contained in the plant and the logical security application of segmenting networks.
This threat to the OT environment is being exacerbated by the proliferation of the Internet of Things (IoT). With digital transformation on the rise, organisations are deploying applications and devices that interact with business operations to enhance business outcomes.
For mining and manufacturing, this means connecting IT and OT systems securely into one enterprise network to enable boundless information flow for realtime, informed decisions. The move from isolated devices to internet-enabled platforms that can communicate with each other creates entirely new cybersecurity risks.
Critical systems are now exposed and vulnerable to information attacks and Denial of Service (DDoS) attacks.
It is estimated that by 2020 there will be more than 40-billion devices connected to the internet. And particularly concerning for South Africa is that 21% of all IoT attacks originated in the MEA region in 2016, according to the Global Threat Intelligence Report.
When connecting the digital and physical worlds, new data sources need to be considered as both a source and target of an attack.
While in the past cyberattacks have been largely focused on targeting confidentiality of information, we are now seeing a shift towards the availability and security aspect of IT.
This is particularly relevant in the OT environment, where an attack on the technology can bring an organisation to a standstill. Critical services are all controlled via automation and operational technologies, and the impact on their availability has an adverse effect on consumers of these services.
For example, if the power grid should be made unavailable because of a cyberattack, electricity would become unavailable to all consumers, ultimately impacting the economy of the country.
This requires a new approach to securing OT environments. A consultation process is needed to understand what the impact on the business would be should its OT environment come under attack as well as the cybersecurity requirements to prevent attacks.
These requirements include the discovery of elements that form part of the OT network, build and design based on security principles, controls for segregation, monitoring, access control and endpoint protection.
Penetration tests should also be run to uncover cybersecurity gaps, allowing for advice on technical solutions to cover those gaps, and assisting manufacturers to implement controls to manage their entire IT security.
It is critical that OT form part of an overall enterprise cybersecurity strategy. This will enable manufacturing organisations to take advantage of the benefits of the digital era, while still ensuring that they have invested in the required measures to protect their OT environment from becoming the soft target of a cybersecurity attack.