Skip to content

Latest commit

 

History

History
122 lines (80 loc) · 4.23 KB

README.md

File metadata and controls

122 lines (80 loc) · 4.23 KB

🔐 eigenRPC

Introduction 🌐

Welcome to the eigenRPC project! This project leverages the power of Eigen Layer and Othentic Stack to create a robust and secure decentralized RPC network. By decentralizing the RPC, we help decentralize the blockchain space and provide a reliable connection to blockchain data, ensuring enhanced security, reliability, and trust in the network. 🌟

How It Works 🔍

Network Operators 🌟

Operators are the backbone of our network. Here's what they need to do:

  1. Join the Network: Operators must run an Ethereum node.
  2. Run Logic: They also need to implement Performer/Attestation operator logic.
  3. Expose Endpoints: The Ethereum node exposes RPC endpoints.
  4. Validation: Operators validate other operators' logic and results.

Process Overview 🛠️

The decentralized RPC process follows a structured approach to ensure the accuracy and validity of the data:

  1. Operator Selection: Every 10 blocks, a random operator is selected.
  2. Data Fetching: The selected operator retrieves the latest block from their end.
  3. Result Dissemination: The operator sends the block number and block hash to other operators.
  4. Validation: Other operators validate the block by comparing the provided block hash with their own, ensuring the block is not older than 10 blocks and verifying the operator's selection.
  5. Aggregation: The results are sent to an aggregator node. The aggregator sums the signatures.
  6. Consensus: If more than 66% of the operators agree that the result is valid, a true value is passed; otherwise, a false value is passed.
  7. Reputation Management: The aggregator's result is sent to a smart contract, which adjusts the user’s reputation score based on the validity of the result.

Architecture Overview 🏗️

Architecture

Built using Eigen Layer, Othentic Stack, Foundry, Viem, and TypeScript. 🛠️

Components 🧩

  • Ethereum Node: Runs the Ethereum blockchain and exposes RPC endpoints.
  • Performer/Attestation Logic: Custom logic that operators need to run for validation.
  • Aggregator Node: Collects and aggregates validation results from operators.
  • Smart Contract: Manages user reputation scores based on validation results.

Flow Diagram 🔄

  1. Join the Network: Operator sets up the Ethereum node and logic.
  2. Operator Selection: Random selection every 10 blocks.
  3. Data Fetching: Selected operator retrieves block data.
  4. Result Dissemination: Operator sends data to peers.
  5. Validation: Peers validate the data.
  6. Aggregation: Results sent to aggregator.
  7. Consensus: Aggregator determines validity.
  8. Reputation Update: Smart contract updates user scores.

Conclusion 🌟

By utilizing the Eigen Layer and Othentic Stack, this project provides a decentralized and secure RPC network. Operators work together to ensure the integrity and reliability of the network, and reputation scores keep the system honest and trustworthy. Join us in building a decentralized future! 🚀


Feel free to reach out if you have any questions or want to contribute! 🌐💬

Requirements

Before you begin, you need to install the following tools:

Quick start

Clone the Repository

git clone [email protected]:vaniiiii/othentic-drpc.git
cd othentic-drpc

Setup the environment

To set up the environment, create a .env file with the usual Othentic configurations (see the .env.example)

Setting Up the Frontend

  1. Install Dependencies
cd nextjs
npm install
  1. Run App
npx run dev

Setting Up Smart Contracts

  1. Setup the environment

Create a .env file (see the .env.example)

  1. Install Dependencies
cd contracts/
forge install
  1. Compile and Test Contracts
forge build
forge test
  1. Deploy contracts
forge script PRNGDeploy --rpc-url $L2_RPC --private-key $PRIVATE_KEY --broadcast -vvvv --verify --etherscan-api-key $L2_ETHERSCAN_API_KEY --chain $L2_CHAIN --verifier-url $L2_VERIFIER_URL --sig="run(address)" $ATTESTATION_CENTER_ADDRESS