Systems Security Certified Practitioner Training Course

Android serves as an open platform for mobile devices, including smartphones and tablets. While it offers a wide array of security features to facilitate the development of secure software, it lacks certain security aspects found in other handheld platforms. This course provides a comprehensive overview of these features, highlighting critical shortcomings related to the underlying Linux system, the file system, the general environment, and the use of permissions and other Android software development components.

The course describes typical security pitfalls and vulnerabilities for both native code and Java applications, along with recommendations and best practices to avoid and mitigate them. Many of the issues discussed are supported by real-life examples and case studies. Finally, the course provides a brief overview on how to utilize security testing tools to identify any security-related programming bugs.

Participants attending this course will

• Understand basic concepts of security, IT security, and secure coding
• Learn about the security solutions available on Android
• Learn to utilize various security features of the Android platform
• Gain information about recent vulnerabilities in Java on Android
• Learn about typical coding mistakes and how to avoid them
• Gain understanding of native code vulnerabilities on Android
• Realize the severe consequences of unsecure buffer handling in native code
• Understand architectural protection techniques and their weaknesses
• Access sources and further readings on secure coding practices

Audience

Professionals

Developing a secure networked application can be challenging, even for developers who have prior experience with cryptographic building blocks such as encryption and digital signatures. To help participants grasp the role and application of these cryptographic primitives, this course first establishes a solid foundation regarding the core requirements of secure communication—namely, secure acknowledgment, integrity, confidentiality, remote identification, and anonymity. It also addresses common threats that compromise these requirements, alongside practical real-world solutions.

Given that cryptography is a critical component of network security, the course covers essential algorithms in symmetric cryptography, hashing, asymmetric cryptography, and key agreement. Rather than focusing on complex mathematical theories, these topics are examined from a developer’s perspective, highlighting typical use cases and practical considerations, such as the implementation of public key infrastructures. The course also introduces security protocols across various domains of secure communication, with detailed discussions on widely used protocol families like IPsec and SSL/TLS.

Typical cryptographic vulnerabilities associated with specific algorithms and protocols are explored, including BEAST, CRIME, TIME, BREACH, FREAK, Logjam, Padding oracle, Lucky Thirteen, POODLE, and RSA timing attacks. For each issue, the practical implications and potential consequences are outlined, avoiding deep mathematical derivations.

Finally, since XML technology is central to data exchange in networked applications, the security aspects of XML are thoroughly described. This includes the use of XML in web services and SOAP messages, along with protective measures like XML Signature and XML Encryption. The course also covers weaknesses in these protection mechanisms and XML-specific security issues, such as XML injection, XML External Entity (XXE) attacks, XML bombs, and XPath injection.

Participants attending this course will

• Understand basic concepts of security, IT security, and secure coding
• Understand the requirements of secure communication
• Learn about network attacks and defenses at different OSI layers
• Have a practical understanding of cryptography
• Understand essential security protocols
• Understand some recent attacks against cryptosystems
• Get information about some recent related vulnerabilities
• Understand security concepts of Web services
• Get sources and further readings on secure coding practices

Audience

Developers, Professionals

This three-day course provides an introduction to securing C/C++ code against malicious exploitation, focusing on vulnerabilities related to memory management and input handling. It also explores the core principles of writing secure code.

Even seasoned Java developers do not necessarily master every security service provided by Java, nor are they always aware of the various vulnerabilities affecting web applications built in Java.

This course not only introduces the security components of Standard Java Edition but also addresses security issues related to Java Enterprise Edition (JEE) and web services. The discussion of specific services is grounded in the fundamentals of cryptography and secure communication. Through various exercises, participants explore declarative and programmatic security techniques in JEE, along with both transport-layer and end-to-end security for web services. Practical exercises demonstrate the use of all components, allowing participants to experiment with the discussed APIs and tools firsthand.

The course also examines and explains the most common and severe programming flaws in the Java language and platform, as well as web-related vulnerabilities. In addition to typical bugs made by Java programmers, the covered security vulnerabilities include language-specific issues and problems arising from the runtime environment. All vulnerabilities and their associated attacks are illustrated through easy-to-understand exercises, followed by recommended coding guidelines and potential mitigation techniques.

Participants attending this course will

• Understand fundamental concepts of security, IT security, and secure coding
• Learn about web vulnerabilities beyond the OWASP Top Ten and know how to avoid them
• Understand security concepts of web services
• Learn to utilize various security features of the Java development environment
• Gain a practical understanding of cryptography
• Understand security solutions within Java EE
• Learn about typical coding mistakes and how to prevent them
• Receive information on recent vulnerabilities in the Java framework
• Acquire practical knowledge in using security testing tools
• Access sources and further readings on secure coding practices

Audience

Developers

Description

The Java language and Runtime Environment (JRE) were engineered to eliminate many of the critical security vulnerabilities often found in languages like C and C++. However, software developers and architects must do more than just leverage the positive security features of the Java ecosystem; they must also recognize and mitigate the negative security aspects, specifically the numerous vulnerabilities that remain relevant in modern Java development.

Before introducing security services, the course provides a concise overview of cryptography fundamentals, establishing a common baseline to understand the purpose and functionality of the relevant components. Participants will explore the application of these components through practical exercises, allowing them to directly test and utilize the discussed APIs.

The curriculum also examines the most frequent and severe programming flaws within the Java language and platform, addressing both common mistakes made by Java developers and issues specific to the language and its environment. All vulnerabilities and associated attack vectors are demonstrated through accessible exercises, followed by recommended coding guidelines and effective mitigation techniques.

Participants attending this course will

• Grasp fundamental concepts of security, IT security, and secure coding principles
• Explore web vulnerabilities extending beyond the OWASP Top Ten and learn strategies to avoid them
• Acquire the skills to utilize various security features within the Java development environment
• Gain a practical understanding of cryptography
• Identify typical coding errors and understand how to prevent them
• Receive information regarding recent vulnerabilities in the Java framework
• Access resources and further reading materials on secure coding practices

Audience

Developers

Today, numerous programming languages can compile code for the .NET and ASP.NET frameworks. While this environment offers powerful tools for security development, developers must understand how to apply architectural and coding-level techniques to implement desired security features, prevent vulnerabilities, and limit their potential exploitation.

This course aims to equip developers with the skills to prevent untrusted code from executing privileged actions, secure resources via robust authentication and authorization, manage remote procedure calls, handle sessions, and explore various implementation strategies through extensive hands-on exercises.

The course introduces various vulnerabilities by highlighting common programming pitfalls in .NET. It also examines ASP.NET vulnerabilities, discussing how different environment settings impact security. Additionally, it covers ASP.NET-specific challenges, including general web application security issues and specialized attack vectors such as ViewState attacks and string termination exploits.

Participants attending this course will

• Grasp the fundamental concepts of security, IT security, and secure coding practices
• Identify web vulnerabilities beyond the OWASP Top Ten and learn how to mitigate them
• Utilize the security features available within the .NET development environment
• Gain practical experience with security testing tools
• Recognize common coding errors and learn strategies to avoid them
• Stay informed about recent .NET and ASP.NET vulnerabilities
• Access resources and further reading materials on secure coding practices

Audience

Developers

This course provides an introduction to fundamental security principles, offering a broad perspective on vulnerabilities irrespective of the programming languages or platforms employed. It outlines strategies for managing software security risks throughout the various stages of the software development lifecycle. By avoiding deep technical intricacies, the curriculum emphasizes notable and prevalent vulnerabilities across different development technologies. Furthermore, it addresses the complexities of security testing, showcasing practical techniques and tools to help identify and resolve issues within existing codebases.

Participants attending this course will

• Comprehend the foundational concepts of security, IT security, and secure coding practices
• Gain insight into web vulnerabilities affecting both server-side and client-side environments
• Recognize the critical implications of improper buffer handling
• Stay informed about recent vulnerabilities found in development environments and frameworks
• Learn to identify typical coding errors and implement methods to prevent them
• Understand various security testing approaches and methodologies

Audience

Managers

This course equips PHP developers with the critical skills needed to harden applications against modern internet-based threats. The curriculum explores web vulnerabilities through practical PHP examples that extend beyond the OWASP Top Ten, addressing various injection attacks, script injections, weaknesses in session handling, insecure direct object references, file upload issues, and more. PHP-specific vulnerabilities are categorized into standard risk types, including inadequate or absent input validation, flawed error and exception handling, misuse of security features, and timing/state-related flaws. Specific attacks covered include open_basedir bypass, denial-of-service via magic floats, and hash table collision attacks. Participants will learn the essential techniques and functions required to mitigate these risks.

A significant emphasis is placed on client-side security, addressing issues related to JavaScript, Ajax, and HTML5. The course introduces key PHP extensions such as Hash, MCrypt, and OpenSSL for cryptography, as well as Ctype, ext/filter, and HTML Purifier for robust input validation. Best practices for hardening are provided, covering PHP configuration (php.ini), Apache, and general server settings. Additionally, the course offers an overview of security testing tools and methodologies available to developers and testers, including security scanners, penetration testing tools, exploit kits, sniffers, proxy servers, fuzzing tools, and static source code analyzers.

Both vulnerability concepts and configuration practices are reinforced with hands-on exercises. These exercises demonstrate the impact of successful attacks, guide participants in applying mitigation strategies, and introduce the practical use of various extensions and tools.

Participants attending this course will

• Grasp fundamental concepts of security, IT security, and secure coding
• Identify web vulnerabilities beyond the OWASP Top Ten and learn how to prevent them
• Understand client-side vulnerabilities and secure coding practices
• Gain a practical understanding of cryptography
• Learn to leverage various PHP security features
• Recognize common coding mistakes and know how to avoid them
• Stay informed about recent vulnerabilities within the PHP framework
• Acquire practical experience using security testing tools
• Receive resources and further reading materials on secure coding practices

Audience

Developers

This comprehensive Core SDL training offers an in-depth look at secure software design, development, and testing methodologies through the lens of the Microsoft Secure Development Lifecycle (SDL). The course begins with a level 100 overview of the fundamental pillars of SDL, progressing to specific design techniques aimed at identifying and resolving vulnerabilities during the early stages of the development cycle.

Focusing on the development phase, the curriculum provides a broad overview of common security-related programming errors found in both managed and native code environments. Participants will explore attack vectors associated with these vulnerabilities, alongside the corresponding mitigation strategies. These concepts are reinforced through numerous hands-on exercises that offer practical, live hacking experiences. The training also introduces various security testing methodologies and demonstrates the efficacy of different testing tools, allowing participants to grasp their operations through practical application on previously discussed vulnerable code samples.

Upon completion, participants will be able to

Comprehend the foundational concepts of security, IT security, and secure coding practices

Familiarize themselves with the essential steps of the Microsoft Secure Development Lifecycle

Master secure design and development practices

Gain insight into the principles of secure implementation

Understand the methodology behind security testing

• Access resources and further reading materials on secure coding practices

Target Audience

Developers, Managers

Upon becoming familiar with vulnerabilities and attack vectors, participants gain insight into the general methodology and approach for security testing, along with the techniques used to uncover specific vulnerabilities. The process begins with information gathering about the system (Target of Evaluation, or ToC), followed by comprehensive threat modeling to identify and rate all threats, ultimately leading to a risk analysis-driven test plan.

Security evaluations can be conducted at various stages of the SDLC. This course covers design and code reviews, reconnaissance and information gathering, implementation testing, and environment hardening for secure deployment. Detailed techniques such as taint analysis, heuristics-based code review, static code analysis, dynamic web vulnerability testing, and fuzzing are explored. Participants are introduced to various tools that automate the security evaluation of software products. These concepts are reinforced through exercises where tools are executed to analyze previously discussed vulnerable code, supported by real-life case studies to deepen understanding of different vulnerabilities.

This course equips testers and QA staff with the skills to effectively plan and execute security tests, select appropriate tools and techniques to identify hidden flaws, and apply these practical skills immediately in their professional work.

Participants attending this course will

• Grasp fundamental concepts of security, IT security, and secure coding
• Explore web vulnerabilities beyond the OWASP Top Ten and learn preventive strategies
• Understand client-side vulnerabilities and secure coding practices
• Comprehend security testing approaches and methodologies
• Acquire practical knowledge in utilizing security testing techniques and tools
• Access resources and further readings on secure coding practices

Audience

Developers, Testers

Protecting web-accessible applications demands security professionals who are constantly up-to-date with the latest attack methods and trends. A wide array of technologies and environments facilitates the comfortable development of web applications. It is crucial to not only be aware of the security issues specific to these platforms but also of general vulnerabilities that apply regardless of the development tools used.

This course provides an overview of applicable security solutions in web applications, with a special focus on understanding the most important cryptographic solutions to be implemented. Various web application vulnerabilities are presented on both the server side (following the OWASP Top Ten) and the client side, demonstrated through relevant attacks, and followed by recommended coding techniques and mitigation methods to avoid the associated problems. The topic of secure coding is concluded by discussing some typical security-relevant programming mistakes in the areas of input validation, improper use of security features, and code quality.

Testing plays a very important role in ensuring the security and robustness of web applications. Various approaches – from high-level auditing through penetration testing to ethical hacking – can be applied to find vulnerabilities of different types. However, if you want to go beyond the easily found low-hanging fruits, security testing should be well planned and properly executed. Remember: security testers should ideally find all bugs to protect a system, while for adversaries it is enough to find one exploitable vulnerability to penetrate into it.

Practical exercises will help you understand web application vulnerabilities, programming mistakes, and most importantly, mitigation techniques. Combined with hands-on trials of various testing tools – from security scanners and sniffers to proxy servers, fuzzing tools, and static source code analyzers – this course provides the essential practical skills that can be applied immediately in the workplace.

Participants attending this course will

• Understand basic concepts of security, IT security, and secure coding
• Learn about web vulnerabilities beyond the OWASP Top Ten and know how to avoid them
• Learn about client-side vulnerabilities and secure coding practices
• Have a practical understanding of cryptography
• Understand security testing approaches and methodologies
• Gain practical knowledge in using security testing techniques and tools
• Be informed about recent vulnerabilities in various platforms, frameworks, and libraries
• Receive sources and further readings on secure coding practices

Audience

Developers, Testers

In this instructor-led live course, participants will learn how to formulate a robust security strategy to tackle the DevOps security challenge.

The EC-Council Certified DevSecOps Engineer (ECDE) is a practical, hands-on program designed to empower professionals with the expertise needed to embed security throughout the entire DevOps lifecycle. This ensures that software development remains secure from the initial planning stages right through to deployment.

This live, instructor-led training, available both online and on-site, targets intermediate-level software engineers and DevOps specialists who aim to integrate robust security practices into their CI/CD pipelines, guaranteeing the delivery of compliant and secure code.

Upon completing this training, participants will be capable of:

• Gaining a solid understanding of DevSecOps principles and best practices.
• Securing each phase of the CI/CD pipeline using automated security tools.
• Executing secure coding standards and vulnerability scanning techniques.
• Preparing effectively for the ECDE certification through practical lab exercises and review sessions.

Course Format

• Interactive lectures and group discussions.
• Hands-on experimentation with DevSecOps tools within simulated pipeline environments.
• Guided exercises centered on secure development and deployment strategies.

Customization Options

• For teams seeking a tailored training experience aligned with specific workflows or toolchains, please reach out to us to arrange a customized session.

This Course in Argentina aims to help in the following:

1. Help Developers to master the techniques of writing Secure Code
2. Help Software Testers to test the security of the application before publishing to the production environment
3. Help Software Architects to understand the risks surrounding the applications
4. Help Team Leaders to set the security base lines for the developers
5. Help Web Masters to configure the Servers to avoid miss-configurations

This course explores secure coding principles and practices in Java, leveraging the testing methodologies of the Open Web Application Security Project (OWASP). The Open Web Application Security Project is a global community dedicated to producing freely accessible articles, methodologies, documentation, tools, and technologies focused on web application security.