AWS for Games Blog

From Challenge to Triumph: Gaggle’s Journey in Overcoming DDoS Attacks with AWS Shield Advanced

In this blog, we explore the challenges Gaggle Studios faced with DDoS attacks due to the success of their online game, ‘Goose Goose Duck.’ We’ll delve into how they navigated these challenges and implemented effective mitigation strategies.

‘Goose Goose Duck,’ a game of social deduction created by Gaggle Studios, stands out in the online gaming realm. Players in this voice-driven game must work together to complete missions while being wary of deceptive Mallards and other birds. Each vocal interaction is crucial, offering a unique and immersive experience.

However, as the game’s popularity soared on Steam, accommodating up to 16 players per game and attracting a million concurrent connections, Gaggle Studios encountered a significant challenge. The unprecedented voice data traffic, distinct from typical game logic data, exposed them to the risk of DDoS attacks.

Understanding DDoS and Its Impact on the Gaming Industry

Distributed Denial of Service (DDoS) attacks represent a significant threat in the digital landscape. At their core, these attacks involve overwhelming a network, server, or service with a flood of unwanted traffic, rendering it slow or entirely inaccessible.

Why Gaming Platforms are Prime Targets:

Online gaming platforms can become susceptible to DDoS attacks for several reasons:

  1. Real-time Interaction: Online games rely on real-time interactions. Even a slight delay or lag can disrupt gameplay, making these platforms attractive targets for attackers aiming to cause maximum disruption.
  2. High User Engagement: Popular games often have thousands, if not millions, of concurrent players. Disrupting a popular game can affect a large number of users simultaneously, amplifying the impact of the attack.
  3. Monetary Transactions: Many online games involve in-game purchases. DDoS attacks can disrupt these transactions, leading to financial losses and dissatisfied customers.
  4. Competitive Nature: Sometimes, the motive behind a DDoS attack on a gaming platform can be as trivial as a disgruntled player seeking revenge or competitors trying to tarnish a game’s reputation.

Consequences of DDoS Attacks on Gaming Platforms:

  1. Degraded Player Experience: A successful DDoS attack can introduce lags, delays, or even disconnect players from the game, leading to a frustrating experience.
  2. Financial Impact: Beyond the immediate loss from disrupted in-game transactions, prolonged downtimes can lead to a decline in player base and consequently, a drop in revenue. There’s also the cost involved in addressing the attack and implementing preventive measures.
  3. Damaged Reputation: Frequent downtimes and security issues can tarnish a game’s reputation, making players hesitant to invest time or money into the platform.
  4. Data Security Concerns: While DDoS attacks primarily aim to disrupt services, they can sometimes act as a smokescreen for more sinister attacks aimed at stealing user data.

Emerging Trends in DDoS Attacks:

With the evolution of technology, DDoS attacks have also evolved. Modern DDoS attacks often leverage serverless technologies and focus on the application layer (Layer 7). These attacks utilize features designed to enhance scalability and responsiveness, making them harder to detect and mitigate. The distributed nature of serverless technologies can obscure the originating point of attacks, further complicating defense efforts.

Gaggle Studios Reaches a Dilemma: How to Face the DDoS Onslaught?

Amidst the broader challenges posed by DDoS attacks in the gaming industry, Gaggle Studios found itself at a crossroads. Goose Goose Duck’s unique voice-driven gameplay, which had become a signature gameplay component, was now under threat. The game’s distinct feature of hosting 16 players simultaneously led to an influx of voice data traffic. This massive engagement, while a testament to the game’s popularity, also made it a prime target for DDoS attacks.

Many mitigation solutions in the market were ill-equipped to handle Goose Goose Duck’s unique traffic patterns. Initial attempts to secure the platform were met with challenges. Solutions from other providers misinterpreted legitimate voice data traffic as a UDP flood attack. These false positives not only failed to address the real threat, but also risked disrupting genuine gameplay interactions.

AWS Shield Advanced: Gaggle Studios’ Solution to DDoS

In their quest for a solution, Gaggle Studios turned to AWS Shield Advanced, a comprehensive DDoS protection service tailored for gaming platforms. Designed to combat a wide spectrum of DDoS attacks, AWS Shield Advanced offers protection against both traditional and emerging serverless-based threats, ensuring games such as Goose Goose Duck remain resilient in the face of evolving cyber challenges.

Central to AWS Shield Advanced’s efficacy is the Shield Response Team (SRT). This dedicated group of security experts is committed to understanding and mitigating DDoS threats. Recognizing the unique challenge Goose Goose Duck presented, the SRT embarked on a meticulous journey to decode the game’s traffic patterns. Their efforts culminated in the creation of a set of digital fingerprints that accurately represented valid player voice and game traffic, significantly reducing the risk of false positives.

Gaggle Studios’ Collaboration with AWS

Gaggle Studios and AWS collaborated by integrating EC2 with Amazon Shield, Gaggle Studios not only fortified its defenses against DDoS threats, but also optimized its network path. This strategic move eliminated an extra hop to an edge server, ensuring that the Goose Goose Duck’s hallmark vocal interactions remained real-time and uninterrupted.

Furthermore, the bespoke custom mitigation strategy crafted by AWS SRT, tailored specifically to address the unique challenges presented by Goose Goose Duck also helped fortified the game’s overall infrastructure. Even as popularity soared, leading to surges in legitimate traffic, Goose Goose Duck remained resilient against DDoS attacks, a testament to the effectiveness of the AWS solution.

Best Practices for DDoS Mitigation in Gaming

While Gaggle Studios’ transformation with AWS showcases the power of a tailored solution, it also underscores a broader truth: the gaming industry, given its interactive and real-time nature, remains a prime target for DDoS attacks. As such, it’s not just about reacting to threats but proactively implementing robust DDoS mitigation strategies. This proactive approach is pivotal in ensuring a seamless gaming experience and upholding a game’s reputation in the fiercely competitive gaming community.

In light of this, let’s delve into some common DDoS mitigation best practices. We’ll explore how AWS Shield Advanced represents these practices and provide actionable tips for gaming companies eager to fortify their defenses against DDoS threats.

Introduction to Common DDoS Mitigation Best Practices in the Gaming Industry:

  1. Understanding Traffic Patterns: Knowing the normal traffic patterns helps in early detection of anomalies which might indicate a DDoS attack.
  2. Utilizing Content Delivery Networks (CDNs): CDNs help in absorbing and dispersing DDoS traffic before it reaches the core infrastructure, thus reducing the attack’s impact.
  3. Implementing Load Balancers: They help in distributing network or application traffic across several servers, minimizing the risk of server overload.
  4. Configuring Access Control Lists (ACLs): ACLs are instrumental in controlling the traffic reaching the application, thus acting as the first line of defense against DDoS attacks.
  5. Deploying Rate Limiting: This practice helps in controlling the traffic rate, thus ensuring that servers remain available during traffic surges.
  6. Regularly Updating and Patching Systems: Keeping systems updated and patched minimizes areas that could be exploited during DDoS attacks.

How AWS Shield Advanced Embodies These Best Practices and Offers Additional Unique Advantages:

AWS Shield Advanced incorporates best practices in DDoS mitigation. Its automated threat intelligence and mitigation feature is paramount in understanding traffic patterns and early detection of DDoS attacks. By employing AWS’s robust CDN, Amazon CloudFront, and integrating with AWS’s Elastic Load Balancing, AWS Shield Advanced aligns with the industry’s best practices in managing traffic and distributing it effectively to minimize the impact of DDoS attacks. Moreover, the service provides an additional layer of security through AWS Web Application Firewall (WAF) integration, which can be configured to set up ACLs and rate limiting, further fortifying the gaming infrastructure against DDoS attacks.

Diagram showing how Shield Advanced tailors protection against DDoS events.

Image 1: Diagram showing how Shield Advanced tailors protection against DDoS events.

Tips on How Gaming Companies Can Develop a Robust DDoS Mitigation Strategy:

  • Engage in Thorough Planning: Understand the gaming platform’s traffic patterns, identify potential attack areas, and establish a comprehensive DDoS mitigation plan.
  • Leverage Advanced Technologies: Utilize modern DDoS mitigation technologies like AWS Shield Advanced to protect against both traditional and serverless-based DDoS attacks.
  • Educate and Train the Team: Ensure that the security team is well-versed with the latest DDoS mitigation strategies and technologies.
  • Collaborate with Experts: Engage with DDoS mitigation experts, like the AWS Shield Response Team, for customized solutions and round-the-clock support.
  • Regular Monitoring and Analysis: Continuously monitor traffic, analyze logs and stay updated with the latest threat intelligence to detect and respond to DDoS attacks promptly.
  • Review and Update the DDoS Mitigation Plan: Regularly review the DDoS mitigation plan, update it with new learnings, and ensure it aligns with the evolving threat landscape.

By adhering to these best practices, embracing the advanced features of AWS Shield Advanced, and fostering a culture of continuous learning and improvement, gaming companies can significantly enhance their resilience against DDoS attacks, ensuring a secure and enjoyable gaming experience for their community.

Conclusion

In the ever-evolving landscape of online gaming, the challenges posed by DDoS attacks are real and ever-present. Yet, as Gaggle Studios’ journey with AWS Shield Advanced illustrates, with the right strategies and partnerships, these challenges can be transformed into opportunities for growth and resilience. As we look to the future, the onus is on gaming studios to stay ahead of the curve, ensuring that the virtual experiences they create remain both enchanting and secure for their global communities.

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Attila Soos

Attila Soos

Shannon Brazil

Shannon Brazil