310 lines
7.9 KiB
Markdown
310 lines
7.9 KiB
Markdown
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# Task 3: Off-Chain Transaction Mirroring Service - Implementation Guide
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**Date**: 2025-01-18
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**Status**: ⏳ TEMPLATE CREATED
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**Priority**: 🔴 CRITICAL
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## Overview
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Off-chain service to monitor ChainID 138 transactions and mirror them to TransactionMirror contract on Ethereum Mainnet.
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## Architecture
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```
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┌─────────────────┐
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│ ChainID 138 RPC │
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│ (Blockchain) │
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└────────┬────────┘
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│
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│ Monitor transactions
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│ Extract transaction data
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│
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▼
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┌───────────────────────────┐
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│ Transaction Mirroring │
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│ Service │
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│ (Off-chain Service) │
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└────────┬──────────────────┘
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│
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│ Batch transactions
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│ Submit to Mainnet
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│
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▼
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┌─────────────────┐
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│ TransactionMirror│
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│ (Mainnet) │
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└─────────────────┘
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```
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## Service Requirements
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### 1. ChainID 138 Transaction Monitoring
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- Monitor new transactions on ChainID 138
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- Extract transaction data:
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- Transaction hash
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- From address
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- To address
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- Value transferred
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- Block number
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- Block timestamp
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- Gas used
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- Success status
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- Transaction data (if any)
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### 2. Transaction Batching
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- Collect transactions into batches
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- Respect `MAX_BATCH_SIZE = 100` limit
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- Batch transactions by block or time window
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- Prepare batch data for submission
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### 3. TransactionMirror Interaction
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- Submit `mirrorTransaction()` for single transactions
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- Submit `mirrorTransactionsBatch()` for batches
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- Handle batch size limits
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- Monitor transaction success/failure
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- Retry on failure with exponential backoff
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### 4. Replay Protection
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- Track which transactions have been mirrored
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- Check if transaction already mirrored
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- Skip already-mirrored transactions
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### 5. Monitoring and Logging
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- Log all transaction mirroring
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- Monitor submission success rate
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- Alert on failures
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- Track mirroring frequency
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## Contract Interface
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### TransactionMirror Contract
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**Address**: `0x4CF42c4F1dBa748601b8938be3E7ABD732E87cE9`
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**Function 1**: `mirrorTransaction(...)`
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```solidity
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function mirrorTransaction(
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bytes32 txHash,
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address from,
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address to,
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uint256 value,
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uint256 blockNumber,
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uint256 blockTimestamp,
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uint256 gasUsed,
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bool success,
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bytes memory data
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) external whenNotPaused
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```
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**Function 2**: `mirrorTransactionsBatch(...)`
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```solidity
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function mirrorTransactionsBatch(
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MirroredTransaction[] memory transactions
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) external whenNotPaused
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```
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**Maximum Batch Size**: 100 transactions
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## Implementation Template
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### Node.js/TypeScript Implementation
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```typescript
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import { ethers } from 'ethers';
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import { TransactionMirror__factory } from './contracts';
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interface MirroredTransaction {
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txHash: string;
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from: string;
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to: string;
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value: bigint;
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blockNumber: number;
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blockTimestamp: number;
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gasUsed: bigint;
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success: boolean;
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data: string;
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}
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class TransactionMirroringService {
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private chain138Provider: ethers.Provider;
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private mainnetProvider: ethers.Provider;
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private mainnetWallet: ethers.Wallet;
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private mirrorContract: TransactionMirror;
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private transactionQueue: MirroredTransaction[] = [];
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private readonly MAX_BATCH_SIZE = 100;
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constructor(
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chain138Rpc: string,
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mainnetRpc: string,
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privateKey: string
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) {
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this.chain138Provider = new ethers.JsonRpcProvider(chain138Rpc);
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this.mainnetProvider = new ethers.JsonRpcProvider(mainnetRpc);
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this.mainnetWallet = new ethers.Wallet(privateKey, this.mainnetProvider);
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this.mirrorContract = TransactionMirror__factory.connect(
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'0x4CF42c4F1dBa748601b8938be3E7ABD732E87cE9',
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this.mainnetWallet
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);
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}
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async monitorTransactions() {
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// Monitor new blocks
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this.chain138Provider.on('block', async (blockNumber) => {
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await this.processBlockTransactions(blockNumber);
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});
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}
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async processBlockTransactions(blockNumber: number) {
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const block = await this.chain138Provider.getBlock(blockNumber, true);
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if (!block.transactions || block.transactions.length === 0) {
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return;
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}
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for (const txHash of block.transactions) {
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await this.processTransaction(txHash.toString(), blockNumber, block.timestamp || 0n);
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}
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}
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async processTransaction(txHash: string, blockNumber: number, blockTimestamp: bigint) {
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// 1. Get transaction details
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const tx = await this.chain138Provider.getTransaction(txHash);
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const receipt = await this.chain138Provider.getTransactionReceipt(txHash);
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if (!tx || !receipt) {
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return;
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}
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// 2. Check if already mirrored (optional - can track in database)
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// const alreadyMirrored = await this.checkMirrored(txHash);
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// if (alreadyMirrored) return;
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// 3. Create mirrored transaction object
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const mirroredTx: MirroredTransaction = {
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txHash: txHash,
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from: tx.from,
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to: tx.to || '0x0000000000000000000000000000000000000000',
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value: tx.value,
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blockNumber: blockNumber,
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blockTimestamp: Number(blockTimestamp),
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gasUsed: receipt.gasUsed,
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success: receipt.status === 1,
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data: tx.data
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};
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// 4. Add to queue
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this.transactionQueue.push(mirroredTx);
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// 5. Submit batch if queue is full
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if (this.transactionQueue.length >= this.MAX_BATCH_SIZE) {
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await this.submitBatch();
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}
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}
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async submitBatch() {
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if (this.transactionQueue.length === 0) {
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return;
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}
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// Take up to MAX_BATCH_SIZE transactions
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const batch = this.transactionQueue.splice(0, this.MAX_BATCH_SIZE);
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try {
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const tx = await this.mirrorContract.mirrorTransactionsBatch(batch);
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await tx.wait();
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console.log(`Mirrored ${batch.length} transactions`);
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} catch (error) {
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console.error(`Failed to mirror batch: ${error}`);
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// Put transactions back in queue for retry
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this.transactionQueue.unshift(...batch);
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// Implement retry logic with exponential backoff
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}
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}
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// Periodic batch submission (if queue not full)
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async startPeriodicSubmission(intervalMs: number = 60000) {
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setInterval(async () => {
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if (this.transactionQueue.length > 0) {
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await this.submitBatch();
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}
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}, intervalMs);
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}
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}
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```
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## Deployment Steps
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1. **Set up service environment**:
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```bash
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npm install ethers@^6.0.0
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npm install dotenv
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```
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2. **Configure environment variables**:
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```bash
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CHAIN138_RPC_URL=https://rpc-http-pub.d-bis.org
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MAINNET_RPC_URL=https://eth.llamarpc.com
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PRIVATE_KEY=<wallet-private-key>
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MIRROR_ADDRESS=0x4CF42c4F1dBa748601b8938be3E7ABD732E87cE9
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BATCH_INTERVAL_MS=60000
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```
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3. **Implement replay protection** (optional - can use database)
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4. **Test service locally**:
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- Test transaction monitoring
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- Test batch creation
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- Test Mainnet submission
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5. **Deploy service**:
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- Deploy to server/container
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- Set up monitoring
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- Configure alerts
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## Alternative: Single Transaction Mirroring
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If batch processing is not needed, use `mirrorTransaction()` for individual transactions:
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```typescript
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async mirrorSingleTransaction(tx: MirroredTransaction) {
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try {
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const txResponse = await this.mirrorContract.mirrorTransaction(
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tx.txHash,
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tx.from,
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tx.to,
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tx.value,
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tx.blockNumber,
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tx.blockTimestamp,
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tx.gasUsed,
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tx.success,
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tx.data
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);
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await txResponse.wait();
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console.log(`Mirrored transaction: ${tx.txHash}`);
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} catch (error) {
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console.error(`Failed to mirror transaction: ${error}`);
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}
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}
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```
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## Next Steps
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1. **Set up ChainID 138 transaction monitoring**
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2. **Implement transaction data extraction**
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3. **Implement batching logic**
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4. **Set up service infrastructure**
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5. **Test with testnet/mainnet**
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6. **Deploy and monitor**
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---
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**Status**: ⏳ **TEMPLATE CREATED - AWAITING IMPLEMENTATION**
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