s0md3v/be-a-hacker

Features

• Curriculum Frameworks - Provides a structured pedagogical framework for organizing security and hacking education into modular learning paths.
• Cybersecurity Paths - Maps out the complete foundational and specialized path required to become a professional security engineer.
• Foundational Security Concepts - Provides introductory modules on essential security principles and research methodologies that apply across all hacking domains.
• Operating Systems And Low Level - Provides foundational knowledge on hardware, assembly, and kernel-level programming to enable deeper analysis of system behavior.
• Technical Learning Roadmaps - Provides structured sequences of learning paths to transition beginners into proficient security practitioners.
• Learning Roadmaps - Provides a structured sequence of topics to guide learners from basics to professional proficiency.
• Productivity and Wellness Strategies - Implements a productivity and wellness framework specifically tailored for engineers to avoid burnout.
• Self-Paced Learning - Provides a framework for structuring self-paced study, balancing technical growth with mental well-being.
• Progressive Skill Sequences - Utilizes a progression model where foundational computer science is mastered before advancing to specialized domains.
• Skill Development Guides - Offers a set of structured pathways for building professional portfolios and monetizing security expertise.
• System Internals Guides - Provides educational content on exploring inner system workings to identify unintended uses and create novel attack techniques.
• Computer Science Fundamentals - Provides a curriculum of core theoretical concepts and foundations in computer science, networking, and terminal usage.
• Internet Fundamentals - Covers essential internet functions and protocols including IP, DNS, and encryption.
• Terminal and Command-Line Environments - Trains users in the use of terminal environments and shell interaction for full system control and remote server management.
• Technique Mapping - Covers the practice and mapping of foundational attack vectors such as phishing and man-in-the-middle attacks.
• Security Tool Development - Guides users in creating original security tools and automation scripts to implement novel attack techniques.
• Linux System Administration - Teaches the use of Linux operating systems and command-line interfaces to achieve total control over the computing environment.
• Knowledge Sharing - Promotes the practice of publishing technical insights to build a professional reputation.
• Task Management - Implements task management strategies specifically designed to overcome procrastination via small, manageable steps.
• Specialized Security Domains - Guides the process of identifying and categorizing specialized security domains like web hacking and digital forensics.
• Daily Work Planning - Includes methods for daily work and activity planning to maintain steady progress.
• Productivity and Task Management - Provides a productivity system focused on managing daily tasks to build momentum and combat procrastination.
• Time Blocking - Implements a routine based on time blocking to balance work, learning, and recreation.
• Productivity Routines - Provides productivity routines focused on preventing burnout through balanced daily segments.
• Specialization Analyses - Provides comparative guides and methods for choosing a focused security specialization after mastering the basics.
• Programming Language Mastery Guides - Includes guides for acquiring programming languages, starting with Python, to understand software internals and build tools.
• Study Scheduling - Provides a framework for scheduling self-study that balances formal education with practical skill development.
• Public Work Showcases - Offers strategies for building a professional portfolio through public project sharing and knowledge dissemination.
• Recursive Learning Methods - Teaches a recursive research methodology to build multi-perspective understanding of complex technical topics.
• Recursive Research Techniques - Implements a recursive research methodology to help learners develop a multi-perspective understanding of complex technical topics.
• Technical Foundation Reviews - Ships a comprehensive review of fundamental machine and network topics to establish groundwork for technical specialization.
• Security Skill Monetization - Offers strategies for monetizing security expertise through bug bounties and vulnerability submissions.
• Custom Tool Engineering - Guides users in building original software and automation scripts to solve technical problems and implement attack techniques.
• Experimental Project Development - Encourages the development of original technical projects and tools through a practice of hands-on experimentation.

Star history