Kotlin Green Belt pathway is created for developers that are coding in Kotlin. It includes our standard 13 Green Belt Secure Development lesson with the addition of 11 mobile security and Kotlin learning modules. Each of our lessons are short and conclude with a brief ten question assessment. The learning module length is purposeful – they are perfect for filling gaps in a developer’s day while code is deploying
Secure Development Core Lesson Modules
Intro to Secure Development
The definition of secure development and it’s pieces. Each developer has secure development responsibilities. Secure development starts and ends with the developer. Your software, hardware, and infrastructure are only as safe as you make them. Developers are the first line of defense.
The need for secure coding, what are secure coding standards and how does a developer use them, and the potential dangers of Stack Overflow. Languages are complex. Secure coding is about creating code that is correct and secure.
Secure Coding Best Practices: Part 1
Explore the OWASP Proactive Controls, including Define Security Requirements, Leverage Security Frameworks and Libraries, Secure Database Access, Encode and Escape Data, and Validate All Inputs. OWASP Proactive Controls is security information written for developers, by developers.
Secure Coding Best Practices: Part 2
Explore the OWASP Proactive Controls, including Enforce Access Control, Protect Data Everywhere, Implement Security Logging and Monitoring, and Handle All Errors and Exceptions. OWASP Proactive Controls is security information written for developers, by developers.
In this module, we explain how a languages type system is categorized and what the main categories are. We discuss the difference between static and dynamic languages as well as weak and strongly typed languages.
Securing the Development Environment
The threats that your development environment faces, how to reduce development environment risk, and the ten tips to secure your development environment. Development environment threats are real and following simple tips to secure your development environment can significantly reduce your exposure.
Protecting your Code Repository
Why you need to protect your code repository, the security challenges in choosing a repository, the impact of not protecting access credentials and separating secrets in the source code. Your code is your product or application. If it is left unsecured, it could fall into the hands of a competitor.
Producing a Clean, Maintainable, & Secure Code Culture
The sources of complexity in software that led to security vulnerabilities and the twelve laws that act as the foundation for a clean, maintainable, and secure code culture. Developers must strive for secure code. Secure code is both clean and maintainable.
Potential security threats are impacting your release and deployment process and ways to improve the security of your release and deployment process. The release and deployment process is how our code gets delivered to our customers. The introduction of an unauthorized piece of code by an attacker could be devastating.
Designing a Secure App or Product
The four pillars of a secure application or product, secure application or product decisions, and the categories of the design of a secure application or product. A new application or product deserves a secure design. Security becomes a reality through careful design choices.
Thinking Like A Penetration Tester
The tools and methodologies to help a developer think like a penetration tester, how penetration testers use browsers and intercepting proxies, testing, fuzzing, and reverse engineering, and applying the knowledge of these topics to your world as a developer. Developers generally focus on the build; to better secure your applications, products, and systems, think like one who breaks.
Secure Design Principles in Action: Part 1
The economy of mechanism, secure the weakest link, establish trust boundaries, defense in-depth, don’t reinvent the wheel, usable security and default deny. Secure design principles require action to achieve “secure by design.”
Secure Design Principles in Action: Part 2
In this module, we explore secure design principles such as minimizing the attack surface, fail securely, least privileged, separation of duties, do not trust services/ infrastructure, and secure defaults. Employing a common understanding of secure design principles encourages secure design, and secure design equals fewer vulnerabilities.
Introduction to Mobile Security
In this module, we explain the various security concerns for mobile applications, define the attack vectors, and describe the threats to mobile application development.
Mobile Application Threat Landscape
In this module, we explain the impact of a security breach, list the common threats and different approaches _attackers can take to exploit a mobile application.
Mobile Application Security _
In this module, we list the levels of the MASVS, describe the different security requirements for mobile applications, and explain application resilience._
OWASP Mobile Top 10 | Part 1
In this module, we explain improper platform usage, insecure _data storage, insecure communications, and insecure authentication.
OWASP Mobile Top 10 | Part 2
In this module, explain insufficient cryptography, insecure authorization, client code quality vulnerabilities.
OWASP Mobile Top 10 | Part 3
In this module, we list the OWASP Mobile Top 10 vulnerabilities, explain insufficient code tampering, reverse engineering, extraneous functionality and their mitigations.
This module covers the categories of storage threats for mobile devices and standard strategies for mitigating those threats.
Introduction to Kotlin Security
In this module, you will discover the key differences between Kotlin and Java, and the security advantages and weaknesses of Kotlin.
Secure coding with Kotlin | Part 1
In this module, we cover secure coding principles, null safety, immutability, and Kotlin idioms that bolster security.
Secure coding with Kotlin | Part 2
In this module, we explore "use", DSLs, input validation, secure HTTP requests, and error handling.
Secure Concurrency with Kotlin
In this module, we explain concurrency, co-routine cancellation, data flows, and the criteria for secure concurrency optimization.