Security testing C# Web applications

CYDWebCsTst3d
3 days
On-site or online
Hands-on
C#
Developer
Tester
Instructor-led
labs

27 Labs

case_study

8 Case Studies

Platform

Web

Audience

C# developers and testers working on Web applications

Preparedness

General C# and Web development, testing and QA

Standards and references

OWASP, CWE and Fortify Taxonomy

Group size

12 participants

Outline

  • Cyber security basics
  • The OWASP Top Ten 2021
  • Security testing
  • Wrap up

What you will learn

  • Getting familiar with essential cyber security concepts
  • Understanding Web application security issues
  • Detailed analysis of the OWASP Top Ten elements
  • Putting Web application security in the context of C#
  • Going beyond the low hanging fruits
  • Input validation approaches and principles
  • Understanding security testing methodology and approaches
  • Getting familiar with security testing techniques and tools

Description

Your Web application written in C# is tested functionally, so you are done, right? But did you consider feeding in incorrect values? 16Gbs of data? A null? An apostrophe? Negative numbers, or specifically -1 or -2^31? Because that’s what the bad guys will do – and the list is far from complete.

Testing for security needs a remarkable software security expertise and a healthy level of paranoia, and this is what this course provides: a strong emotional engagement by lots of hands-on labs and stories from real life.

The curriculum goes through the common Web application security issues following the OWASP Top Ten but goes far beyond it both in coverage and the details.A special focus is given to finding all discussed issues during testing, and an overview is provided on security testing methodology, techniques and tools.

So that you are prepared for the forces of the dark side.

So that nothing unexpected happens.

Nothing.

They said about us

A deep-going class

Everything very professional. Mighty set of curriculum, covered with a good space. Instructor able to handle difficult participants too.

Employee at a Global Accounting company , November, 2020

Oslo, Norway

Table of contents

  • Cyber security basics
  • The OWASP Top Ten 2021
    • The OWASP Top 10 2021
    • A01 – Broken Access Control
      • Access control basics
      • Testing for authorization issues
      • Confused deputy
        • Insecure direct object reference (IDOR)
        • Path traversal
        • Lab – Insecure Direct Object Reference
        • Path traversal best practices
        • Authorization bypass through user-controlled keys
        • Case study – Authorization bypass on Facebook
        • Lab – Horizontal authorization
        • Testing for confused deputy weaknesses
      • File upload
        • Unrestricted file upload
        • Good practices
        • Lab – Unrestricted file upload
        • Testing for file upload vulnerabilities
      • Cross-site Request Forgery (CSRF)
        • Lab – Cross-site Request Forgery
        • CSRF best practices
        • Lab – CSRF protection with tokens
        • Testing for CSRF
    • A03 – Injection
      • Injection principles
      • Injection attacks
      • SQL injection
        • SQL injection basics
        • Lab – SQL injection
        • Attack techniques
        • Content-based blind SQL injection
        • Time-based blind SQL injection
      • SQL injection best practices
        • Input validation
        • Parameterized queries
        • Lab – Using prepared statements
        • Case study – Hacking Fortnite accounts
        • Testing for SQL injection
      • Code injection
        • OS command injection
          • Lab – Command injection
          • OS command injection best practices
          • Avoiding command injection with the right APIs
          • Lab – Command injection best practices
          • Case study – Command injection via ping
          • Testing for command injection
  • The OWASP Top Ten 2021
    • A03 – Injection (continued)
      • Input validation
        • Input validation principles
        • Denylists and allowlists
        • What to validate – the attack surface
        • Where to validate – defense in depth
        • When to validate – validation vs transformations
        • Output sanitization
        • Encoding challenges
        • Unicode challenges
        • Lab – Encoding challenges
        • Reflection without validation
        • Lab – Unsafe reflection
      • HTML injection – Cross-site scripting (XSS)
        • Cross-site scripting basics
        • Cross-site scripting types
          • Persistent cross-site scripting
          • Reflected cross-site scripting
          • Client-side (DOM-based) cross-site scripting
        • Lab – Stored XSS
        • Lab – Reflected XSS
        • Case study – XSS in Fortnite accounts
        • XSS protection best practices
          • Protection principles – escaping
          • XSS protection APIs
          • Further XSS protection techniques
          • Lab – XSS fix / stored
          • Lab – XSS fix / reflected
          • Client-side protection principles
          • Additional protection layers – defense in depth
        • Testing for XSS
  • Security testing
    • Security testing vs functional testing
    • Manual and automated methods
    • Security testing methodology
      • Security testing – goals and methodologies
      • Overview of security testing processes
      • Identifying and rating assets
        • Preparation
        • Identifying assets
        • Identifying the attack surface
        • Assigning security requirements
        • Lab – Identifying and rating assets
      • Threat modeling
        • SDL threat modeling
        • Mapping STRIDE to DFD
        • DFD example
        • Attack trees
        • Attack tree example
        • Lab – Crafting an attack tree
        • Misuse cases
        • Misuse case examples
        • Risk analysis
        • Lab – Risk analysis
        • Reporting, recommendations, and review
  • The OWASP Top Ten 2021
    • A04 – Insecure Design
      • Client-side security
        • Frame sandboxing
          • Cross-Frame Scripting (XFS) attacks
          • Lab – Clickjacking
          • Clickjacking protection best practices
          • Lab – Using CSP to prevent clickjacking
        • Testing for client-side security weaknesses
    • A07 – Identification and Authentication Failures
      • Authentication
        • Authentication basics
        • Multi-factor authentication
        • Authentication weaknesses
        • Case study – PayPal 2FA bypass
      • Testing for weak authentication
      • Session management
        • Session management essentials
        • Why do we protect session IDs – Session hijacking
        • Session fixation
        • Session ID best practices
        • Testing for session management issues
      • Password management
        • Inbound password management
          • Storing account passwords
          • Password in transit
          • Lab – Is just hashing passwords enough?
          • Dictionary attacks and brute forcing
          • Salting
          • Adaptive hash functions for password storage
          • Lab – Using adaptive hash functions in C#
          • Password policy
          • Case study – The Ashley Madison data breach
            • The dictionary attack
            • The ultimate crack
            • Exploitation and the lessons learned
          • Password database migration
            • (Mis)handling null passwords
            • Testing for password management issues
    • A08 – Software and Data Integrity Failures
      • Subresource integrity
        • Importing JavaScript
        • Lab – Importing JavaScript
        • Case study – The British Airways data breach
      • Insecure deserialization
        • Serialization and deserialization challenges
        • Integrity – deserializing untrusted streams
        • Integrity – deserialization best practices
        • Testing for insecure deserialization
        • Property Oriented Programming (POP)
          • Creating a POP payload
          • Lab – Creating a POP payload
          • Lab – Using the POP payload
    • A10 – Server-Side Request Forgery (SSRF)
      • Server-side Request Forgery (SSRF)
      • Case study – SSRF and the Capital One breach
  • Security testing
    • Security testing techniques and tools
      • Code analysis
        • Static Application Security Testing (SAST)
        • Lab – Using static analysis tools
      • Dynamic analysis
        • Security testing at runtime
        • Penetration testing
        • Stress testing
        • Dynamic analysis tools
          • Dynamic Application Security Testing (DAST)
          • Web vulnerability scanners
          • Lab – Using web vulnerability scanners
          • SQL injection tools
        • Fuzzing
  • Wrap up
    • Secure coding principles
      • Principles of robust programming by Matt Bishop
    • And now what?
      • Software security sources and further reading
      • .NET and C# resources
      • Security testing resources

Pricing

3 days Session Price

2250 EUR / person

  • Live, instructor led classroom training
  • Discussion and insight into the hacker’s mindset
  • Hands-on practice using case studies based on high-profile hacks and live lab exercises
Customized course

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