Click on "Install Server".
Wait a few minutes for the server to deploy. Once ready, it will show a "Started" state.
In the chat, type
@followed by the MCP server name and your instructions, e.g., "@DevContextretrieve context for the authentication flow and its dependencies"
That's it! The server will respond to your query, and you can continue using it as needed.
Here is a step-by-step guide with screenshots.
DevContext: Autonomous Context Awareness Model-Context-Protocol (MCP) Server
Empower your development workflow with intelligent context awareness - DevContext understands your codebase, conversations, and development patterns to provide relevant context exactly when you need it.
Introduction
DevContext is a cutting-edge Model Context Protocol (MCP) server designed to provide developers with continuous, project-centric context awareness. Unlike traditional context systems, DevContext continuously learns from and adapts to your development patterns. DevContext leverages sophisticated retrieval methods, focusing on keyword analysis, relationship graphs, and structured metadata to deliver highly relevant context during development, understanding both your conversations and your codebase at a deeper level.
The server operates with a database instance dedicated to a single project, eliminating cross-project complexity and ensuring performance with minimal resource requirements. DevContext builds a comprehensive understanding of your codebase - from repository structure down to individual functions - while continuously learning from and adapting to your development patterns.
The BEST way to use this MCP server is to follow the guide below on implementing the provided Cursor Rules system which in turn gives you:
Completely autonomous context management
Autonomous external documentation context and use
Complete task management workflow integration
Core Technologies
Node.js: Runtime environment (Node.js 18+)
TursoDB: SQL database optimized for edge deployment (compatible with SQLite)
Model Context Protocol SDK: For standardized communication with IDE clients
Cursor Rules: Autonomous development environment and workflow management
JavaScript/TypeScript: Pure JavaScript implementation with no external ML dependencies
Installation Guide
Prerequisites
Node.js 18.0.0 or higher
Cursor IDE with MCP support
TursoDB account (for database)
Step 1: Set up TursoDB Database
Sign up for TursoDB:
Visit Turso and create an account
The free tier is sufficient for most projects
Install Turso CLI (optional but recommended):
curl -sSfL https://get.turso.tech/install.sh | bashAuthenticate with Turso:
turso auth loginCreate a project database:
turso db create devcontextGet database credentials:
# Get database URL turso db show devcontext --url # Create auth token turso db tokens create devcontextSave both the URL and token for the next step.
Step 2: Configure MCP in Cursor (can be applied to other IDE's as well)
Create or edit .cursor/mcp.json in your project directory:
Replace your-turso-database-url and your-turso-auth-token with the values obtained in Step 1.
Cursor Rules Implementation
DevContext implements a sophisticated set of Cursor Rules that create an autonomous development environment. These rules guide Cursor's AI assistants in maintaining project scope alignment, incorporating up-to-date documentation, and implementing advanced task workflows.
Be on the lookout for the DevContext Project Generator which is coming very soon and will create a COMPLETE set up for your project to literally 10x your development workflow.
Key Rule Components
1. DevContext MCP Tools Usage Guide
The core rule defines a precise sequence for tool execution:
This workflow ensures comprehensive context management throughout the entire development session.
2. External Library Documentation Requirements
All external library usage must be preceded by proper documentation retrieval:
Two-Step Documentation Retrieval using Context7
Web Search Fallback for documentation not available through Context7
Multi-Source Documentation Synthesis for comprehensive understanding
This prevents common issues with incorrect API usage, incompatible versions, or missing dependencies.
3. Task Workflow System
The task workflow system enables:
Structured task management in
tasks.mdTask ID-based implementation order
Status tracking with completion metadata
Project blueprint integration for architectural context
Setting Up Cursor Rules
Create Rules Directory:
mkdir -p .cursor/rulesDownload/Copy and Paste Rules:
Download or copy and paste the .cursor/rules directory into your project. Next, copy and paste the contents of the .cursorrules file in your project root and paste it into your cursor settings rules (Cursor Settings -> Rules -> User Rules). You should also copy and paste the .cursorrules file into your main directory as well.
Customize Task Workflow (Optional): Once the cursor rules are implemented, restart Cursor and proceed to ask it to create tasks for you based on whatever project idea you may have.
Configuration Example
Below is a complete example of an mcp.json file that configures both DevContext and Context7 MCP servers:
Important Parameters
Parameter | Description | Default Value |
| URL of your TursoDB instance | None (Required) |
| Authentication token for TursoDB | None (Required) |
Table of Contents
System Overview
DevContext is a state-of-the-art context management system for software development, implementing the Model Context Protocol (MCP) with advanced context retrieval techniques.
The system operates as a Node.js application with a modular JavaScript codebase, bundled into a single .js file using esbuild. It leverages TursoDB (or similar SQL database) as the persistent store for all context, metadata, and optional logs for a specific project.
Key Differentiators:
Non-Vector Retrieval: Context retrieval uses sophisticated keyword analysis, relationship graphs, and structured metadata instead of vector embeddings
Project-Centric Design: Each server instance is dedicated to a single project, simplifying data management
Minimal Dependencies: Restricted to core essentials - MCP SDK, TursoDB client, and lightweight AST parsing
Hierarchical Understanding: Context is understood from repository structure down to function/variable levels
Intelligent Context Prioritization: Multi-factor relevance scoring based on recency, importance, relationships, and developer focus
Core Components
Text Processing
Language-aware tokenization with specialized handling for JavaScript/TypeScript, Python, Java, C#, Ruby, and Go
Keyword extraction with language-specific weighting
Semantic boundary respecting n-grams
Language-specific idiom detection
Context Management
Code entity indexing and relationship tracking
Conversation topic segmentation and purpose detection
Timeline event recording and milestone snapshots
Focus area prediction based on developer activity
Pattern Recognition
Code pattern identification and storage
Automatic pattern learning from examples
Cross-session pattern promotion
Design pattern detection
Intent & Relevance Analysis
Query intent prediction
Multi-factor context prioritization
Token budget management
Context integration across topic shifts
MCP Tools
DevContext implements the following MCP tools that can be invoked by Cursor IDE:
initialize_conversation_context
Initializes a new conversation session with comprehensive project context.
When to use: At the beginning of every conversation, exactly once.
Key parameters:
initialQuery: The user's first message or questioncontextDepth: Minimal, standard, or comprehensive context depthincludeArchitecture: Whether to include architectural contextfocusHint: Optional focus on specific code entity
Returns: Conversation ID and initial context summary
update_conversation_context
Updates the active context with new messages and code changes.
When to use: After code changes or new messages are exchanged.
Key parameters:
conversationId: ID from initialize_conversation_contextnewMessages: New messages exchanged since last updatecodeChanges: Code files created or modifiedpreserveContextOnTopicShift: Whether to maintain context during topic changes
Returns: Updated focus and context continuity information
retrieve_relevant_context
Retrieves context snippets relevant to a specific query.
When to use: When specific project context is needed.
Key parameters:
conversationId: ID from initialize_conversation_contextquery: Specific question about the projectconstraints: Optional filters for entity types, file paths, etc.weightingStrategy: How to prioritize results
Returns: Relevant context snippets with explanations
record_milestone_context
Records significant development milestones for future reference.
When to use: After completing important features, fixing critical bugs, or making architectural decisions.
Key parameters:
conversationId: ID from initialize_conversation_contextname: Short, descriptive milestone namedescription: Detailed explanationmilestoneCategory: Category (feature, bug fix, refactoring, etc.)assessImpact: Whether to analyze impact
Returns: Milestone ID and impact assessment
finalize_conversation_context
Concludes a conversation, extracting learnings and suggesting next steps.
When to use: At the end of every conversation, exactly once.
Key parameters:
conversationId: ID from initialize_conversation_contextextractLearnings: Whether to identify and extract learningspromotePatterns: Whether to promote patterns to global repositorygenerateNextSteps: Whether to suggest follow-up actions
Returns: Conversation summary, extracted learnings, and next steps
Data Architecture
DevContext uses a SQL database (TursoDB) with the following core tables:
code_entities: Stores indexed code from files, functions, classes, etc.
entity_keywords: Maps keywords to code entities for search
code_relationships: Tracks relationships between code entities
conversation_history: Stores conversation messages
conversation_topics: Segments conversations into coherent topics
timeline_events: Records significant development events
project_patterns: Stores identified code patterns
focus_areas: Tracks developer attention and intention
The database schema is automatically created and maintained by the server.
Technical Specifications
Node.js: Version 18.0.0 or higher required
Database: TursoDB (or compatible SQLite)
Bundling: ESBuild for single-file deployment
Protocol: Model Context Protocol via @modelcontextprotocol/sdk
Parsing: Lightweight JavaScript AST parsing (acorn)
Operating Systems: Cross-platform (Windows, macOS, Linux)
Performance Considerations
DevContext is optimized for performance with:
Efficient SQL queries with proper indexing
In-memory caching for frequently accessed data
Incremental updates to minimize processing
Asynchronous operations for non-blocking execution
Adaptive context retrieval based on token budget
Scheduled background tasks during idle periods
For large codebases (>100,000 LOC), initial indexing may take several minutes, but subsequent operations remain fast and responsive.
Security
Isolated Database: Each project uses a dedicated database instance
Secure Credentials: TursoDB credentials managed via environment variables
Input Validation: All inputs validated with Zod schemas
Parameterized Queries: SQL injection protection
No External APIs: All processing happens locally
Troubleshooting
Common issues and solutions:
Connection Errors: Verify TursoDB credentials and database URL
Slow Initial Startup: Normal for large codebases; subsequent startups are faster
Missing Context: Check token budget; increase if necessary
Tool Errors: Ensure proper conversation ID is being passed between tools
Performance Issues: Consider reducing scope of indexed files or increasing cache size
License
This project is licensed under the MIT License - see the LICENSE file for details.
DevContext: Continuous Context for Continuous Progress