GraphQL API Security Scanners

This project is a comprehensive cybersecurity tool collection designed to support security research, penetration testing, and vulnerability assessment. It functions as a unified penetration testing suite, providing a centralized environment where professionals can access a wide range of offensive security utilities to identify system weaknesses and study attack vectors. The platform distinguishes itself through a modular architecture that aggregates disparate security scripts into a single, hierarchical command-line interface. It simplifies the management of these utilities by integrating external repositories, allowing users to fetch and organize third-party tools directly into a structured local directory. By utilizing a categorized menu system and shell-based process execution, the suite enables efficient navigation and direct invocation of specialized tools for tasks ranging from forensic analysis and reverse engineering to exploit development. The toolkit covers a broad spectrum of security domains, including web and wireless attack vectors, cloud security, payload creation, and social media analysis. It also incorporates automated environment setup to handle the installation of necessary system packages and language runtimes, ensuring compatibility across its diverse collection of utilities.

Continue is an automated code review platform that integrates AI agents directly into the software development lifecycle. By executing custom validation rules against pull request diffs, it provides immediate feedback through repository status checks, allowing teams to enforce quality, security, and documentation standards before manual review begins. The system distinguishes itself through a file-based configuration model where validation logic is defined in version-controlled markdown files. These files act as system prompts that guide autonomous agents in evaluating code changes. This approach enables agentic task chaining, where specialized workflows—such as security scanning, test coverage validation, and UI rendering verification—are orchestrated to analyze code against project-specific criteria. Beyond automated reviews, the platform includes a local-first execution engine that allows developers to run and refine these checks from the command line before committing changes. The system also incorporates a feedback loop that tracks user acceptance and rejection of suggestions, enabling the refinement of check logic over time to reduce noise and improve the accuracy of automated findings. The project provides a command-line interface for managing these workflows and integrates with repository webhooks to trigger analysis automatically upon pull request submission.

Bruno is a local-first API client designed for building, testing, and managing network requests across a wide range of protocols. By storing all collections and configurations as plain-text files directly on the local filesystem, it enables native version control and offline access, ensuring that project data remains under user control without requiring cloud synchronization. The platform distinguishes itself through a declarative approach to API management, utilizing a domain-specific language to define request parameters and metadata. This architecture supports a robust testing environment where users can execute custom JavaScript-based validation scripts, perform complex assertions, and automate multi-step workflows. Its multi-protocol engine provides a unified interface for interacting with REST, GraphQL, gRPC, WebSocket, and SOAP services, while integrated environment-aware management allows for seamless switching between different deployment configurations. Beyond core request execution, the tool includes a comprehensive suite of utilities for documentation generation, secure authentication, and CI/CD integration. It supports advanced security workflows through various credential management protocols and secret providers, while its command-line interface facilitates parallel execution and data-driven testing within automated pipelines. Users can also leverage AI-driven automation to generate collections and test scripts, further streamlining the development process.

This project is a comprehensive educational resource and fullstack tutorial for GraphQL development. It provides instructional content and guides focused on designing schemas, implementing servers, and managing the end-to-end workflow of building production-ready applications. The material covers the conceptual differences between graph-based data structures and traditional API architectures. It includes a dedicated security course and guides for client integration, teaching users how to fetch data, manage application state, and apply protection measures to secure API endpoints. The scope of the content extends to server-side implementation, including the use of mutations, real-time subscriptions, and database integration. It also addresses the broader ecosystem of development tooling and advanced implementation patterns for both the backend and frontend.

This project is a comprehensive knowledge base and educational resource for JavaScript developers, focused on establishing industry-standard methodologies for automated software testing. It provides a structured collection of design patterns and actionable guidelines designed to improve code reliability, maintainability, and overall software quality across the development lifecycle. The repository distinguishes itself by offering a granular, pattern-based approach to testing that spans unit, integration, and end-to-end verification. It emphasizes specific architectural strategies such as component-level isolation, contract-based integration testing, and the use of mutation testing to validate the effectiveness of test suites. By advocating for practices like the Arrange-Act-Assert pattern and black-box testing, it helps teams standardize their workflows and reduce regressions. Beyond core testing strategies, the resource covers a broad capability surface including continuous integration optimization, static analysis integration, and frontend component validation. It provides guidance on managing test data, configuring production-like CI pipelines, and maintaining high standards through automated quality assurance and dependency management. The documentation is organized into categorized, actionable design patterns that serve as a centralized reference for engineering teams. It includes technical examples and best practices for handling asynchronous events, network interactions, and environment-specific configuration issues.

Yoga is a GraphQL server framework and runtime-agnostic HTTP handler used to build and deploy GraphQL APIs. It functions as a toolkit for managing schemas and resolvers, providing a spec-compliant environment for hosting APIs across diverse JavaScript runtimes, including Node.js, Deno, Bun, and serverless cloud environments. The project distinguishes itself through its ability to act as an Apollo Federation gateway, composing multiple subgraphs into a single unified supergraph. It also serves as a dedicated subscription server, delivering real-time data streaming via both WebSockets and Server-Sent Events over standard HTTP. The server includes a broad suite of capabilities covering API security, such as query complexity limiting and persisted operation enforcement, as well as performance optimizations like operation result caching and document parsing reuse. It provides a developer toolset featuring an interactive IDE, schema introspection, and mock data generation. Yoga uses a fetch-based request handling model and provides adapters for integration with web frameworks such as Express, Fastify, Next.js, and NestJS.

LeakCanary is a diagnostic tool designed to identify memory leaks by monitoring object lifecycles and analyzing heap snapshots. It automatically detects objects that fail to be garbage collected after their expected lifespan, providing developers with actionable insights to prevent performance degradation and application crashes. The project distinguishes itself by offloading memory-intensive heap parsing to a separate background process, which minimizes performance impact on the main application during runtime. It includes sophisticated deobfuscation capabilities that map obfuscated stack traces back to original source code, and it supports granular control through reference filtering and custom inspection logic to suppress known false positives. Beyond core detection, the tool offers comprehensive configuration options for managing analysis thresholds, build-specific behaviors, and environment-specific monitoring. It provides both deep heap analysis for development environments and lightweight instance tracking for production builds, ensuring memory health can be monitored across the entire application lifecycle.

The framework is a comprehensive penetration testing platform designed for the development, testing, and execution of security exploits. It serves as a research toolkit and automated assessment environment, enabling security professionals to identify and validate vulnerabilities within networked systems and infrastructure through repeatable, standardized procedures. The platform distinguishes itself through a modular architecture that supports reflective payload injection, allowing for the execution of code directly in memory without writing to disk. It utilizes an asynchronous event loop to manage high-performance, concurrent network connections and features a transport-agnostic communication layer that abstracts protocols to maintain persistent command and control. Users can extend the core functionality through a plugin system and define complex exploit logic using a domain-specific language. The framework provides robust capabilities for remote payload management, including the configuration of network settings like sleep intervals and timeout thresholds. It maintains state persistence across long-running sessions by storing discovered host information and vulnerability data in a relational database. The software is designed for cross-platform deployment, with installation support available for Linux, macOS, and Windows environments.

Testify is a comprehensive testing toolkit for Go that provides a suite of assertion libraries and mocking frameworks to validate code behavior. It enables developers to write automated tests by comparing actual results against expected outcomes, ensuring that functional requirements are met throughout the development process. The project distinguishes itself through its flexible failure propagation, which allows tests to either halt execution immediately upon a failed requirement or return boolean results for conditional logic. It includes deep-equality object comparison and JSON normalization to verify data consistency, alongside a robust mocking framework that supports interface-based dependency isolation, call expectation definition, and argument inspection. Beyond its core assertions and mocks, the toolkit offers structured test suite management. This includes lifecycle hooks for setup and teardown procedures, support for subtest execution, and specialized utilities for HTTP API integration testing. These features allow for the organization of complex test environments while maintaining compatibility with standard testing patterns.

Ruff is a high-performance static analysis and code formatting tool designed for Python. Built in Rust, it functions as a comprehensive engine that scans source code to detect programming errors, security vulnerabilities, and deviations from established coding standards. By parsing source code into a structured tree representation, it provides both automated linting and style enforcement across entire projects. The tool distinguishes itself through its speed and deep integration into the development lifecycle. It utilizes parallelized file processing to maximize throughput on large codebases and offers a configuration-driven rule engine that allows developers to customize or suppress specific checks. Beyond standard Python scripts, it provides native support for Jupyter notebooks, Markdown files, and documentation strings, ensuring consistent quality across diverse document formats. Ruff serves as a versatile utility for project maintenance, offering automated import management and the ability to apply safe, automatic corrections to identified code quality issues. It integrates directly into development environments via the Language Server Protocol, providing real-time diagnostic highlighting, code actions, and rule documentation hovers. These capabilities extend to continuous integration pipelines and pre-commit hooks, enabling automated quality enforcement throughout the development process.