DDoS, short for "Distributed Denial-of-Service," is a form of cybercrime where attackers flood a server with massive internet traffic, rendering it inaccessible to legitimate users. These attacks can cause disruptions, financial losses, and damage a company's reputation.
DDoS attacks have various motives, and the perpetrators can range from disgruntled individuals to financially motivated criminals. Some attackers carry out DDoS attacks to make a statement, express disapproval or have fun by exploiting vulnerabilities. Others may target competitors, disrupting their online operations to gain a competitive advantage. In some cases, attackers resort to extortion, forcing companies to pay a hefty sum to reverse the damage caused by the attack.
The primary method employed in DDoS attacks is the use of botnets. Botnets are networks of compromised computers or devices controlled by the attacker. The attacker infects these devices with malware, turning them into bots. Once a botnet is established, the attacker can command it to flood the target's servers and devices with increased connection requests, surpassing their capacity to handle legitimate traffic.
Read more: What is a botnet?
Detecting a DDoS attack can be challenging due to the similarity of its symptoms to regular service issues. Users may experience slow upload or download speeds, inability to access websites, dropped internet connections, unusual media content, or excessive spam. Moreover, the duration and intensity of a DDoS attack can vary, lasting from a few hours to several months.
DDoS attacks can target different parts of a network and are classified based on the network connection layers they exploit. The Open Systems Interconnection (OSI) model, which defines seven different layers, provides a framework to understand these attacks.
Volume-based attacks aim to overwhelm the victim's bandwidth and internet connection. These attacks exploit vulnerabilities in the Domain Name System (DNS). In this scenario, the attacker spoofs the target's address and sends a DNS name lookup request to an open DNS server. The response from the server is sent to the target, amplifying the attacker's initial query and overwhelming the target's resources.
Protocol attacks target the network's layers 3 and 4, exploiting web server or firewall weaknesses. One example of a protocol attack is the SYN flood, where the attacker overwhelms the target with a flood of requests, using spoofed source IP addresses. The targeted servers attempt to respond to each request, overwhelming their capacity and rendering them inaccessible.
Application-layer attacks, also known as Layer 7 DDoS attacks, target the layer where web pages are generated in response to HTTP requests. These attacks exploit vulnerabilities in the server's ability to handle database queries and generate web pages.
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Although it may not be possible to completely prevent DDoS attacks, organizations can take steps to reduce their impact. Regular risk assessments and audits can help identify vulnerabilities and develop strategies to minimize the effects of an attack. This involves understanding the parts of the network that are most vulnerable and implementing appropriate mitigation techniques.
When faced with a suspected DDoS attack, organizations can use an Anycast network to scatter the malicious traffic across a distributed network of servers. This approach helps absorb the attack traffic, making it more manageable and reducing the impact on the target's resources.
Black hole routing is another defensive strategy where network administrators or internet service providers create a route that directs all traffic, both good and bad, into a black hole or null route. This effectively drops the traffic from the network, minimizing its impact on the target.
Implementing rate-limiting measures can help mitigate the impact of a DDoS attack by limiting the number of requests a server can accept within a specific time frame. While rate limiting alone may not be sufficient against sophisticated attacks, it can be a component of a mitigation strategy.
Organizations can deploy network firewalls to filter and block malicious traffic. A Web Application Firewall (WAF) acts as a reverse proxy for application-layer attacks, sitting between the internet and the organization's servers. A WAF can apply rules to filter requests and detect suspicious activity patterns, helping mitigate the impact of Layer 7 DDoS attacks.
See also: HIPAA Compliant Email: The Definitive Guide
In April 2024, French cloud computing company OVHcloud stopped a massive DDoS attack that hit a record 840 million packets per second (Mpps). This attack broke the previous record of 809 million Mpps set in 2020. The attackers used a combination of methods, flooding OVHcloud’s systems with traffic from 5,000 IP addresses and amplifying it through 15,000 DNS servers. Most of the attack traffic came from just four locations in the U.S.
OVHcloud has noticed a big increase in the size and frequency of DDoS attacks since 2023, with some attacks now happening almost daily. These attacks don’t just overload the internet connection but also overwhelm the packet processing systems of network devices.
Many of these attacks use compromised MikroTik routers with outdated software and security flaws. Hackers can take control of these routers and use them to send massive amounts of data in DDoS attacks. Even using a small number of these compromised routers, hackers could potentially create attacks that send billions of packets per second, making it very challenging for companies to defend against them.
A DDoS attack is a cyberattack where multiple compromised systems are used to overwhelm a target's network or servers with a flood of traffic, rendering them inaccessible. In healthcare, DDoS attacks can disrupt access to important systems and services, impacting patient care and operational efficiency.
DDoS attacks are a concern for HIPAA compliance because they can lead to service disruptions that prevent access to electronic health records (EHRs) and other main systems, potentially delaying patient care and compromising the availability and integrity of protected health information (PHI).
DDoS attacks can result in prolonged service outages, financial losses, and potential breaches of patient confidentiality if attackers exploit the disruption to launch additional attacks. These incidents can lead to violations of HIPAA’s requirements for ensuring the availability and integrity of PHI, with associated legal and financial penalties.
See also: HIPAA Compliant Email: The Definitive Guide