Understanding Cyberattacks and Fourteen Discrete Links in an Attack Chain.

Rajesh Maurya, Fortinet

 



 

 

 

Understanding the entire length of the attack chain and how vulnerabilities in each of its links can compromise the security of your network.

By Rajesh Maurya, Regional Vice President, India & SAARC, Fortinet.

Effectively defending against cyberattacks today requires security teams to work smarter rather than harder. Cybercriminal strategies target every link in an attack chain, from gathering information and gaining access, to moving laterally across the network to discover resources to target, to evading detection while exfiltrating data. Traditional security strategies, however, tend to only focus on a handful of attack components, which gives criminals a significant advantage.

To address today’s challenges, security teams need a combination of tools, strategy, automation, and skilled professionals to monitor the entire attack chain and automate as much of the process as possible so that human resources can be used to focus on higher order analysis and response. Choosing such tools, however, requires understanding the entire length of the attack chain and how vulnerabilities in each of its links can compromise the security of your network.

To assist with this, MITRE has mapped the attack chain into Fourteen discrete links, along with examples of the types of attacks that target each link in that chain. To effectively counter today’s advanced threats, security teams need to familiarize themselves with each link in the chain and map them directly to functional areas and tools within their own networks.

Reconnaissance: This is the adversary’s planning phase for future attacks.  The activities focus on information gathering which could be performed actively or passively depending on the requirement. Specifically, the actor is looking to learn more about the organization including its infrastructure and employees.  The more information the adversary knows about the target the better chance of a successful attack.

Resource Development: Before an attacker can start their cyber mission, they need to make sure they have the right resources to execute the mission.  The attacker will need to determine what they will create, purchase, steal or compromise and the right resources to support the mission. Examples could be things like domains, web services, VPNs, infrastructure, accounts/emails, malware and exploits.

Initial Access: Exploiting known vulnerabilities in servers, compromising websites or applications, or taking advantage of successful spear phishing attacks allow attackers to wedge a foothold into the edge of the network.

Execution: This is the point where an attacker executes a binary, command, or script to begin their network reconnaissance and exploitation process.

Persistence: Once an attacker has established a foothold, the next goal is to avoid detection. Creating or manipulating accounts, applying rootkits, using run keys or exploiting tools like application shimming enable attackers to persist in place while the explore the network for potential targets.

Privilege Escalation: Basic access does not allow an attacker much opportunity to explore the network. To move around the network and access resources worth stealing, an attacker needs higher network privileges.

Defense Evasion: To move through a network undetected, especially when exfiltrating data, attacks need to avoid detection by things like behavioural analytics and IPS tools. Techniques such as clearing files, learning and mimicking normal traffic behaviours, or disabling security tools are just a few of the full range of tools available to today’s hackers.

Credential Access: In many organizations, critical data and other resources are protected behind a wall of security that require appropriate credentials for access. Unfortunately, gaining access to credentials isn’t always that difficult. They are stored in files or in a registry that attackers can exploit, techniques like hooking allow cybercriminals to intercept traffic to uncover credentials, and account manipulation can involve things like adding or modifying the permissions to the account being used to access the network.

Discovery and Lateral Movement: Not all data exists in the segment of the network that was broken into. Many of the same techniques used to this point are used again to determine where valuable resources exist and to then allow an attacker to move laterally between network segments, whether they are local to the breach or at some remote physical or virtual data center.

Collection and Exfiltration: Once an attacker has identified a payload, they need to collect that data needs and extract it from the network without being detected. This is often the trickiest part of the process, as this may involve massive amounts of data. But if a cybercriminal has carefully crafted each attack element to this point, they are often able to remain inside a compromised network for months, slowly moving data to other resources that are under less scrutiny, and eventually out of the network.

Command and Control: The final step is for attackers to cover their tracks completely. Multi-hop proxies, data obfuscation, and multi-stage exfiltration are just a few of the techniques cybercriminals use to ensure that stolen data cannot be tracked and traced back to them.

Impact: This link in the chain helps understand the overall impact the attacker will create if the attack is successful.  The adversary could be trying to manipulate or destroy your data and or systems.  They could also try to interrupt your business processes.

Working Smarter by Understanding the MITRE Attack Chain

Addressing the entire attack chain needs to be combined with understanding how the network functions, including the impact that future business requirements will have on the network. Mapping those functions to the attack chain allows security teams to think comprehensively about security threats.

Approaching Security Strategically 

A strategic approach may require radically rethinking your security deployment. Tools have to be fully integrated so that the network can identify and address security threats as a unified system. A self-healing network requires security devices to share and correlate threat intelligence to identify and monitor every device, track applications, detect malware, isolate infected devices, and coordinate responses across a wide variety of network ecosystems, —from multi-cloud infrastructures, platforms, and applications, to remote workers and IoT devices, to next-gen branch offices connected to cloud and physical resources through Secure SD-WAN. Threat intelligence and response also needs to be driven into each link in the MITRE attack chain. And where possible, AI and machine learning need to be applied so that your integrated security can respond to threats at digital speeds and human resources can provide critical supervision.

A breach resulting in the loss of data can occur in minutes or hours. And yet, it can take weeks or months for most security breaches to be detected. By that time, the perpetrators and your data are long gone. The only way to get out in front of this challenge is to change from a traditional tactical approach that relies on isolated legacy security tools to an integrated strategy that enables you to see and control your entire networked environment, link by link, to identify anomalous behaviour and automatically thwart attackers before they have managed to escalate themselves up the attack chain.

 

 



 

 

 

 




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