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AMOCA Solana MCP Server

by manolaz
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TypeScript
MIT License
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remote-capable server

The server can be hosted and run remotely because it primarily relies on remote services or has no dependency on the local environment.

Integrations

  • Integrates Mermaid diagram support for visualizing system architecture and workflow components, as shown in the README flowchart of the AMOCA system.

  • Utilizes Shields.io badges in the documentation to display project status and compatibility information.

  • Provides comprehensive RPC tools for Solana blockchain development, including account operations, wallet management, transaction analysis, storage calculations, and on-chain validations.

AMOCA (Autonomous Merit On Chain Agent)

This repository demonstrates an implementation of an Autonomous Merit On Chain Agent (AMOCA) for Solana development, built on the Model Context Protocol (MCP).

Table of Contents

What is AMOCA?

AMOCA (Autonomous Merit On Chain Agent) is an intelligent agent that provides enhanced capabilities for Solana blockchain development through a standardized interface. This implementation showcases:

  1. Comprehensive RPC methods for Solana:
    • Basic account operations (getBalance, getAccountInfo, getTransaction)
    • On-chain storage calculations (getMinimumBalanceForRentExemption)
    • Wallet operations (createWallet, importWallet)
  2. DeFi Trading Capabilities:
    • Token balance checking (single tokens and full portfolio analysis)
    • Token value distribution visualization with USD-based histograms
    • Portfolio value tracking with price data from Jupiter API
    • Jupiter API integration for token swaps
    • Quote retrieval and swap execution
  3. Helpful autonomous workflows for Solana development:
    • Transaction analysis prompts (failure diagnosis, cost breakdown)
    • Storage cost calculations
    • Documentation access for Solana installation and clusters
  4. Merit-based validation and verification of on-chain operations

Features

  • Solana RPC Tools: Query account information, check balances, and analyze transactions
  • Wallet Management: Create and import Solana wallets
  • Trading Tools: Execute token swaps, check token prices, and analyze portfolios
  • Helius API Integration: Leverage Helius's powerful APIs for enhanced Solana data access

Solana Model Context Protocol (MCP)

This repository demonstrates a simple implementation of a Model Context Protocol (MCP) server for Solana development.

What is MCP?

The Model Context Protocol (MCP) is a standardized interface for AI models to interact with tools and resources. This demo showcases a simple MCP server implementation that provides:

  1. Basic RPC methods for Solana (getBalance, getAccountInfo, getTransaction)
  2. Some helpful prompts for Solana development

Prerequisites

  • Node.js (v16 or higher recommended)
  • pnpm package manager (v9.10.0 or compatible)
  • Solana CLI (optional but recommended)

Installation

Clone this repository and install dependencies:

git clone https://github.com/manolaz/amoca-solana-mcp-server.git cd solana-dev-mcp pnpm install

To run this server in the MCP inspector, use:

npx @modelcontextprotocol/inspector ts-node index.ts

Getting Started

  1. Set up environment variables: Create a .env file based on the .env.example template with your API keys.
cp .env.example .env # Edit .env with your API keys
  1. Explore the code: The main implementation is in index.ts, which sets up an MCP server with simple fetching tools and some prompts.
  2. Modify the server: You can extend the server by adding more tools, resources, and prompts.
  3. Test your implementation: Run the test suite to ensure everything is working properly.
pnpm test

Example Usage

This section explains how to use the Solana MCP server in Claude. Follow the same steps to use the Solana MCP server in Windsurf and Cursor.

Generate the configuration file

To use this Solana MCP server, you need to generate a configuration file that Claude can use to connect to the server. Run one of the following commands to generate the configuration file:

  • pnpm generate-config if you have ts-node installed globally
  • pnpm build && pnpm generate-config:js if you don't have ts-node installed globally

This will print a JSON config with the following content:

If you have ts-node:

{ "mcpServers": { "solana-dev": { "command": "ts-node", "args": ["<full-path-to-repo>/index.ts"] } } }

If you don't have ts-node installed globally:

{ "mcpServers": { "solana-dev": { "command": "node", "args": ["<full-path-to-repo>/dist/index.js"] } } }

Using AMOCA with Claude

Project Structure

  • index.ts - Main server implementation
  • package.json - Project dependencies and metadata
  • tsconfig.json - TypeScript configuration

Ideas Extending MCP for Solana Development

This MCP server implementation provides a foundation that you can extend or fork for your own Solana development needs. Here are some ideas to get you started:

Ideas for Extension

  1. Priority Fee Estimator: Add a tool that estimates optimal priority fees for Solana transactions based on recent network activity. This could help users optimize transaction costs while ensuring timely processing.
  2. Solana Verify Debugger: Create a tool that helps debug issues with solana-verify by providing more detailed information about the verification process.
  3. Solana Security.txt Inspector: Build a tool that extracts and displays the security.txt file information for a given Solana program, making it easier to contact the program's maintainers with security concerns.
  4. Squads Helper for Program Deployment: Create a tool that automates the process of deploying and upgrading Solana programs, making it easier to manage program state across multiple environments.
  5. Anchor-Error Explainer: Develop a tool that takes an error code and looks up the corresponding human-readable error message from the Anchor error code database.
  6. Enhanced Prompts: Expand the server's prompt capabilities to provide more context-aware suggestions for Solana development tasks. For example, add prompts for common transaction patterns, account creation, or token operations.
  7. Transaction Builder: Create tools that help construct complex transactions with multiple instructions, making it easier to interact with various Solana programs.
  8. Custom RPC Endpoints: Allow configuration of custom RPC endpoints, including support for private RPC providers or local validators.
  9. Program Deployment Helpers: Create tools that simplify the process of deploying and upgrading Solana programs.
  10. Account & Transaction Explorer: Add a tool that takes an account or transaction ID and displays the contents in a human-readable format, similar to an explorer view. This could be useful for inspecting transaction data or account state without needing to manually decode the data.
  11. Solana, Anchor, and Protocol Documentation: Add resources that load the Solana, Anchor, and Protocol documentation directly into the MCP editor, providing easy access to relevant information without needing to leave the editor. This could be implemented by fetching the documentation from the respective repositories and serving it as resources from the MCP server.

How to Contribute

If you've built an extension that might be useful to others, consider submitting a pull request to this repository. Make sure to follow these guidelines:

  1. Keep your code well-documented
  2. Include tests for new functionality
  3. Follow the existing code style
  4. Update the README with information about your addition

Helius API Tools

This project integrates various Helius API endpoints for powerful Solana data access:

Digital Asset Standard (DAS) API

ToolDescription
getAssetsByOwnerGet NFTs owned by a specific address
getAssetGet detailed information about a specific NFT by its ID
getAssetsByGroupGet assets that belong to a specific group (like collection)
searchAssetsSearch for assets using complex query parameters
getAssetProofGet the merkle proof for a compressed NFT
getAssetsByCreatorGet assets created by a specific creator address
getAssetsByAuthorityGet assets by update authority address
getNftEditionsGet all editions of a master edition NFT

Collection & Mint API

ToolDescription
getMintlistGet mintlist for a collection

Webhook Management

ToolDescription
getAllWebhooksGet all webhooks for your Helius API key
getWebhookByIDGet webhook details by webhook ID
createWebhookCreate a new webhook for address activity monitoring
createCollectionWebhookCreate a webhook to monitor NFT collections
deleteWebhookDelete a webhook by its ID

Network & Utility Tools

ToolDescription
getCurrentTPSGet current transactions per second on Solana
getTokenHoldersGet holders of a specific token by mint address
getPriorityFeeEstimateGet estimated priority fees for transactions
getStakeAccountsGet stake accounts by their owner address
getComputeUnitsSimulate a transaction to get the total compute units consumed

Enhanced Prompts

The server includes specialized prompts for common Helius-related tasks:

PromptDescription
collection-analysisGet a detailed analysis of an NFT collection
monitor-nft-collectionSet up a webhook to monitor NFT collection activity
network-statusGet Solana network status information

Usage Examples

Get NFTs Owned by an Address

const response = await server.tools.getAssetsByOwner({ ownerAddress: "GoodboiNft5iFNhbgKkf1RX2VdMqKvt5xYxyVh3zf9okx", });

Analyze an NFT Collection

const response = await server.prompts["collection-analysis"]({ collectionAddress: "J1S9H3QjnRtBbbuD4HjPV6RpRhwuk4zKbxsnCHuTgh9w", });

Monitor Network Status

const response = await server.prompts["network-status"]({});

License

MIT

This server cannot be installed

-
security - not tested
A
license - permissive license
-
quality - not tested

A Model Context Protocol server that enables AI models to interact with the Solana blockchain, providing RPC methods, wallet management, DeFi trading capabilities, and Helius API integration for enhanced Solana development.

  1. Table of Contents
    1. What is AMOCA?
      1. Features
        1. Solana Model Context Protocol (MCP)
          1. What is MCP?
        2. Prerequisites
          1. Installation
            1. Getting Started
              1. Example Usage
                1. Generate the configuration file
                2. Using AMOCA with Claude
              2. Project Structure
                1. Ideas Extending MCP for Solana Development
                  1. Ideas for Extension
                  2. How to Contribute
                2. Helius API Tools
                  1. Digital Asset Standard (DAS) API
                  2. Collection & Mint API
                  3. Webhook Management
                  4. Network & Utility Tools
                3. Enhanced Prompts
                  1. Usage Examples
                    1. Get NFTs Owned by an Address
                    2. Analyze an NFT Collection
                    3. Monitor Network Status
                  2. License