Imperva Application Security Integrates API Detection and Response, Setting A New Standard in API Security
First unified, single-pane-of-glass platform to deliver real-time detection and mitigation of API threats, including Broken Object Level Authorization (BOLA) and other advanced business logic threats.
Offers flexible deployment across cloud and on-premise environments, with a privacy-forward design to secure APIs at scale.
Thales today announced new detection and response capabilities in the Imperva Application Security platform to protect against business logic attacks, such as Broken Object Level Authorization (BOLA) – the leading threat in the OWASP API Security Top 10. By integrating real-time detection with automated mitigation of risky APIs, BOLA attacks, unauthenticated APIs, and deprecated APIs, Imperva Application Security platform delivers comprehensive protection against unauthorized data exposure and other complex business logic vulnerabilities across cloud and on-premises environments.
APIs have become the backbone of modern applications, enabling businesses to seamlessly connect services, optimize operations, and deliver personalized experiences at scale. According to Imperva Threat Research, APIs accounted for 71% of all web traffic . More recently, the team observed a sharp rise in API-directed attacks, with 44% of advanced bot traffic targeting APIs , compared to just 10% targeting web applications. This shift underscores how attackers are increasingly exploiting API endpoints that manage sensitive and high-value data.
Why BOLA is a Critical Business Risk
BOLA occurs when APIs fail to properly verify whether users are authorized to access specific data objects. This allows attackers to manipulate requests and gain unauthorized access to sensitive information. As the leading OWASP Top 10 API threat, BOLA exposes businesses to significant risks, including data breaches, compliance failures, and loss of customer trust.
'API security is no longer optional – it's fundamental to maintaining business continuity and trust,' said Tim Chang, Global Vice President and General Manager of Application Securityat Thales. 'Imperva Application Security bridges the gap by delivering a fully unified platform that identifies business logic threats and actively blocks malicious sessions, setting a new benchmark for API protection.'
Empowering Enterprises with a Unified, Flexible, and Privacy-First Solution
Imperva Application Security integrates advanced threat detection engines with automated inline responses and flexible deployment options, enabling security teams to detect and respond to API attacks like BOLA without slowing development or disrupting the user experience. For customers who want to protect their API infrastructure, Imperva Application Security delivers the following benefits: Unified Platform Architecture: Manage API discovery, risk assessment, detection, and mitigation in a single console, eliminating tool sprawl and operational friction across cloud and on-premises environments.
Manage API discovery, risk assessment, detection, and mitigation in a single console, eliminating tool sprawl and operational friction across cloud and on-premises environments. Real-Time BOLA Detection : Hybrid behavioral and rule-based engines analyze API request patterns, scoring anomalies, and flagging endpoints for immediate action.
: Hybrid behavioral and rule-based engines analyze API request patterns, scoring anomalies, and flagging endpoints for immediate action. Automated Response and Remediation: Integration with Imperva Cloud WAF and WAF Gateway enables a variety of response actions, including inline mitigation actions such as automatically blocking malicious API traffic in real-time. Integration with security automation tools ensures rapid incident orchestration.
Advancing the Imperva Security Anywhere Vision
The integration of API detection and response into Imperva Application Security is foundational to the Imperva Security Anywhere vision, which provides scalable, end-to-end protection for applications and APIs across any environment. This unified solution provides enterprises with a comprehensive view of automated threats targeting APIs and the necessary tools to protect those APIs.
Detection and response to deprecated APIs, unauthenticated APIs, and BOLA attacks are now available as part of Imperva Application Security.
About Thales
Thales (Euronext Paris: HO) is a global leader in advanced technologies for the Defence, Aerospace, and Cyber & Digital sectors. Its portfolio of innovative products and services addresses several major challenges: sovereignty, security, sustainability and inclusion.
The Group invests more than €4 billion per year in Research & Development in key areas, particularly for critical environments, such as Artificial Intelligence, cybersecurity, quantum and cloud technologies.
Thales has more than 83,000 employees in 68 countries. In 2024, the Group generated sales of €20.6 billion.
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When asked what type of real-world scenarios are most challenging to simulate at AstaZero and how they overcome them, Janevik described the complexity of multiple testing domains with a future scenario: An automated drone providing safety surveillance is deployed over an accident scene by a rescue crew upon arrival. The footage is used by both the rescue crew to assess and follow the situation, but also by central management, which needs to make decisions on things such as rerouting of traffic and the deployment of further teams and other authorities like police and medical teams. Then imagine that the drone also creates a local map update with static objects such as a crashed vehicle or cones for traffic redirection and dynamic ones such as personnel or fires. Imagine that this map is also used for warnings and rerouting of automated as well as manually driven vehicles. Heads-up displays may be the latest step in this direction, with emergency information scrolling along the lower edge of the windshield and not on overhead traffic signs or infotainment screens. To ensure such a complex system works, the testing and design teams need to factor in elements like connectivity disruption and technology integration across numerous manufacturers and telecom companies, which is what AstaZero offers. Beyond roads and intersections, AstaZero's proving ground is designed to test limitless scenarios. Whether cyclists swerving through traffic or simulated pedestrians crossing at unpredictable times, the site can orchestrate complex environments. Janevik says, 'We test collision avoidance technology to auto-brake vehicles for different scenarios, but more importantly, the site provides robust testing to ensure highly repeatable results in a wider spectrum of conditions.' By using AI, drones, and robotic systems—like digital twins and virtual modeling—for advanced scenario computations and simulations, the site assists engineers in pursuing advances in chip manufacturing, so designs keep track with forthcoming technologies. Janevik believes in the impact of this approach on 'unique testing scenarios for smaller machine learning models with AI-based decision-making to prove that these can make the right decisions with ongoing updates.' The RISE facility's goal is to test components in a hardware loop in the vehicle in real-world scenarios. Testing also accounts for degraded conditions—such as lost connectivity—to prepare for actual challenges. The only limits are what the engineers can imagine, and Janevik sees this as their goal—to live their vision and help societies accelerate into safe, sustainable, and automated transportation systems of the future. This is especially critical in Europe, where road fatality statistics have stagnated. 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