After we discovered the first vulnerability in October 2024, wolfSSL challenged us to uncover additional issues in their library. Using AI-automated fuzzing, we identified two more vulnerabilities.| www.code-intelligence.com
Scope of the project If you recognize the benefits that fuzz testing can bring to your software security but are new to it, read on. In this blog post, you’ll learn what you need to consider before implementing fuzz testing in your company to ensure a smooth and successful adoption.| Code Intelligence Blog
Learn how fuzzing complements static analysis when testing automotive software| www.code-intelligence.com
Memory safety vulnerabilities remain among the most widespread and exploited security issues. They occur in C and C++ projects, which are widely used across embedded systems, including automotive, medical devices, and avionics. Read on to learn why they can happen and how to prevent them. Content What Are Memory Safety Issues Why Memory Safety Matters Real-World Examples of Memory Corruption Example of a Memory Safety Bug How to Detect Memory Corruption| Code Intelligence Blog
While the intent of MDR is clear—to raise the safety bar for medical devices across Europe—the implementation has left manufacturers with significant uncertainty. Cybersecurity isn't an exception. What standards should you follow? Is fuzz testing becoming a de facto requirement? Let’s break it down.| www.code-intelligence.com
A dynamic stack buffer overflow vulnerability in the Abseil C++ library (abseil-cpp) was autonomously identified through AI-enhanced fuzz testing using CI Fuzz’s AI Test Agent. Learn more in this blog.| www.code-intelligence.com
A critical heap buffer overflow vulnerability in the AWS C Common library was discovered autonomously through an AI-automated fuzz testing solution, CI Fuzz, and has been fully addressed with a patch. In this post, we explore the vulnerability and its potential impact on embedded systems.| Code Intelligence Blog
We examined the 2024 CWE Top 25 Most Dangerous Software Weaknesses list developed by Common Weakness Enumeration (CWE™) and identified weaknesses relevant to C/C++. These weaknesses can become vulnerabilities. We explained how they occur and how you can uncover them.| www.code-intelligence.com
We’re thrilled to announce the general availability of Spark, an AI Test Agent that lowers the entry barrier to white-box fuzz testing. In this blog, we explain how Spark works and share the main results from its beta testing that prove its effectiveness.| Code Intelligence Blog
Discover the top 5 fuzz testing tools and their main features in this blog.| www.code-intelligence.com
Fuzz testing is not only effective at securing memory corruptions in C/C++, but also at securing systems written in memory-safe languages. Find out why!| www.code-intelligence.com
The best security practice involves leveraging both static and dynamic testing. Learn in this article the benefits of adding fuzzing to your code-testing.| www.code-intelligence.com
Discover the role of fuzz testing in securing medical devices. Learn how it meets FDA & MDR guidelines and protects against cyber threats. Read more here!| www.code-intelligence.com
A long list of bugs and vulnerabilities that gets regularly updated.| www.code-intelligence.com