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Pay2Gateway/lib/crypto-engine.ts

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TypeScript
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import { ethers } from 'ethers';
import { Connection, PublicKey, Keypair, Transaction, SystemProgram, clusterApiUrl, LAMPORTS_PER_SOL } from '@solana/web3.js';
import { getAssociatedTokenAddress, getAccount } from '@solana/spl-token';
import bs58 from 'bs58';
import cryptoConfig from './crypto-config.json';
const { TronWeb } = require('tronweb');
// ERC20 ABI for checking USDT/USDC balances
const ERC20_ABI = [
"function balanceOf(address owner) view returns (uint256)",
"function decimals() view returns (uint8)",
"function symbol() view returns (string)",
"function transfer(address to, uint256 value) public returns (bool)"
];
export class CryptoEngine {
private provider!: ethers.JsonRpcProvider;
private solConnection!: Connection;
private tronWeb: any;
private network: string;
private config: any;
constructor(networkId: string = 'POLYGON') {
this.network = networkId;
this.config = cryptoConfig.networks.find(n => n.id === networkId);
if (!this.config) throw new Error(`Network ${networkId} not found in config.`);
if (this.network === 'SOLANA') {
this.solConnection = new Connection(this.config.rpc, 'confirmed');
} else if (this.network === 'TRON') {
this.tronWeb = new TronWeb({
fullHost: this.config.rpc,
headers: { "TRON-PRO-API-KEY": process.env.TRON_GRID_API_KEY || "" }
});
} else if (this.network === 'BITCOIN') {
// Bitcoin usually handled via Electrum OR simple Public API
} else {
const options = this.config.chainId
? { chainId: this.config.chainId, name: this.config.name.toLowerCase() }
: undefined;
this.provider = new ethers.JsonRpcProvider(this.config.rpc, options, {
staticNetwork: !!this.config.chainId
});
}
}
/**
* Helper to get token config from JSON
*/
private getTokenConfig(symbol: string) {
return this.config.tokens.find((t: any) => t.symbol === symbol);
}
/**
* Generates a temporary wallet for a transaction.
*/
static async createTemporaryWallet(network: string = 'POLYGON'): Promise<{ address: string, privateKey: string }> {
if (network === 'SOLANA') {
const keypair = Keypair.generate();
return {
address: keypair.publicKey.toBase58(),
privateKey: bs58.encode(keypair.secretKey)
};
} else if (network === 'TRON') {
const tempTronWeb = new TronWeb({ fullHost: 'https://api.trongrid.io' });
const account = await tempTronWeb.createAccount();
return {
address: account.address.base58,
privateKey: account.privateKey
};
} else if (network === 'BITCOIN') {
// Mock SegWit address for logic
return {
address: `bc1q${Math.random().toString(36).substring(2, 12)}...MOCK`,
privateKey: 'MOCK_BTC_PRIVATE_KEY'
};
} else {
const wallet = ethers.Wallet.createRandom();
return {
address: wallet.address,
privateKey: wallet.privateKey
};
}
}
/**
* Sweeps funds from temporary wallet to Platform and Merchant
*/
async sweepFunds(
tempWalletPrivateKey: string,
platformAddress: string,
tokenSymbol: string = 'USDT'
) {
if (this.network === 'SOLANA') {
return this.sweepSolana(tempWalletPrivateKey, platformAddress, tokenSymbol);
} else if (this.network === 'TRON') {
return this.sweepTron(tempWalletPrivateKey, platformAddress, tokenSymbol);
} else if (this.network === 'BITCOIN') {
return this.sweepBitcoin(tempWalletPrivateKey, platformAddress, tokenSymbol);
} else {
return this.sweepEVM(tempWalletPrivateKey, platformAddress, tokenSymbol);
}
}
/**
* Send a specific amount from treasury to a destination address (for payouts)
*/
async sendPayout(
senderPrivateKey: string,
destinationAddress: string,
amount: string,
tokenSymbol: string = 'SOL'
): Promise<{ success: boolean; txHash: string | null; error?: string }> {
console.log(`[Payout] Sending ${amount} ${tokenSymbol} on ${this.network} to ${destinationAddress}`);
if (this.network === 'SOLANA') {
return this.sendSolanaPayout(senderPrivateKey, destinationAddress, amount, tokenSymbol);
} else {
// EVM / TRON / BTC - placeholder for now
console.warn(`[Payout] Real transfer not yet implemented for ${this.network}. Using mock.`);
return { success: true, txHash: `mock_${this.network}_${Date.now()}` };
}
}
private async sendSolanaPayout(
senderPrivateKey: string,
destinationAddress: string,
amount: string,
tokenSymbol: string
): Promise<{ success: boolean; txHash: string | null; error?: string }> {
try {
// Decode private key (support both base64 and base58)
let secretKey: Uint8Array;
try {
secretKey = Uint8Array.from(Buffer.from(senderPrivateKey, 'base64'));
if (secretKey.length !== 64) throw new Error('not base64');
} catch {
secretKey = bs58.decode(senderPrivateKey);
}
const senderKeypair = Keypair.fromSecretKey(secretKey);
const destPubKey = new PublicKey(destinationAddress);
const parsedAmount = parseFloat(amount);
console.log(`[Payout SOL] From: ${senderKeypair.publicKey.toBase58()} -> To: ${destinationAddress} | ${parsedAmount} ${tokenSymbol}`);
if (tokenSymbol === 'SOL' || tokenSymbol === 'NATIVE') {
const lamports = Math.floor(parsedAmount * LAMPORTS_PER_SOL);
const balance = await this.solConnection.getBalance(senderKeypair.publicKey);
if (balance < lamports + 5000) {
return { success: false, txHash: null, error: `Insufficient SOL. Have: ${balance / LAMPORTS_PER_SOL}, Need: ${parsedAmount}` };
}
const transaction = new Transaction().add(
SystemProgram.transfer({
fromPubkey: senderKeypair.publicKey,
toPubkey: destPubKey,
lamports
})
);
const { blockhash } = await this.solConnection.getLatestBlockhash();
transaction.recentBlockhash = blockhash;
transaction.feePayer = senderKeypair.publicKey;
transaction.sign(senderKeypair);
const txHash = await this.solConnection.sendRawTransaction(transaction.serialize());
await this.solConnection.confirmTransaction(txHash);
console.log(`[Payout SOL] ✅ Sent ${parsedAmount} SOL | TX: ${txHash}`);
return { success: true, txHash };
} else {
// SPL token payout
const tokenConfig = this.getTokenConfig(tokenSymbol);
if (!tokenConfig) return { success: false, txHash: null, error: `Token ${tokenSymbol} not found` };
const { createTransferInstruction, getAssociatedTokenAddress: getATA } = require('@solana/spl-token');
const mintPubKey = new PublicKey(tokenConfig.address);
const senderATA = await getATA(mintPubKey, senderKeypair.publicKey);
const destATA = await getATA(mintPubKey, destPubKey);
const tokenAmount = Math.floor(parsedAmount * Math.pow(10, tokenConfig.decimals));
const transaction = new Transaction().add(
createTransferInstruction(senderATA, destATA, senderKeypair.publicKey, tokenAmount)
);
const { blockhash } = await this.solConnection.getLatestBlockhash();
transaction.recentBlockhash = blockhash;
transaction.feePayer = senderKeypair.publicKey;
transaction.sign(senderKeypair);
const txHash = await this.solConnection.sendRawTransaction(transaction.serialize());
await this.solConnection.confirmTransaction(txHash);
console.log(`[Payout SOL] ✅ Sent ${parsedAmount} ${tokenSymbol} | TX: ${txHash}`);
return { success: true, txHash };
}
} catch (e: any) {
console.error(`[Payout SOL] ❌ Error:`, e.message);
return { success: false, txHash: null, error: e.message };
}
}
private async sweepEVM(
tempWalletPrivateKey: string,
platformAddress: string,
tokenSymbol: string
) {
const tempWallet = new ethers.Wallet(tempWalletPrivateKey, this.provider);
const tokenConfig = this.getTokenConfig(tokenSymbol);
if (!tokenConfig) throw new Error(`Unsupported token ${tokenSymbol} on ${this.network}`);
console.log(`[Sweep EVM] Sweeping 100% to Platform Treasury: ${platformAddress}`);
// Mocking the real transfer for demo
return {
success: true,
txHash: '0x' + Math.random().toString(16).slice(2, 66)
};
}
async fuelWallet(targetAddress: string, amount: string) {
const gasTankKey = process.env.CRYPTO_GAS_TANK_KEY;
if (!gasTankKey) {
console.warn("[CryptoEngine] No CRYPTO_GAS_TANK_KEY provided. Fueling skipped (Demo mode).");
return;
}
try {
const gasTank = new ethers.Wallet(gasTankKey, this.provider);
const tx = await gasTank.sendTransaction({
to: targetAddress,
value: ethers.parseEther(amount)
});
await tx.wait();
console.log(`[CryptoEngine] Fueled ${targetAddress} with ${amount} native currency. Hash: ${tx.hash}`);
} catch (error) {
console.error("[CryptoEngine] Fueling failed:", error);
}
}
private async sweepSolana(
senderPrivateKey: string,
destinationAddress: string,
tokenSymbol: string
) {
console.log(`[Sweep SOLANA] Sending ${tokenSymbol} to ${destinationAddress}`);
try {
// Decode private key (support both base64 and base58)
let secretKey: Uint8Array;
try {
secretKey = Uint8Array.from(Buffer.from(senderPrivateKey, 'base64'));
if (secretKey.length !== 64) throw new Error('not base64');
} catch {
secretKey = bs58.decode(senderPrivateKey);
}
const senderKeypair = Keypair.fromSecretKey(secretKey);
const destPubKey = new PublicKey(destinationAddress);
if (tokenSymbol === 'SOL' || tokenSymbol === 'NATIVE') {
// Get balance and send almost all (leave exactly 0 to avoid rent-exempt errors)
// A standard Solana signature costs exactly 5000 lamports
const balance = await this.solConnection.getBalance(senderKeypair.publicKey);
const fee = 5000;
const sendAmount = balance - fee;
if (sendAmount <= 0) {
return { success: false, txHash: null, error: 'Insufficient SOL balance' };
}
const transaction = new Transaction().add(
SystemProgram.transfer({
fromPubkey: senderKeypair.publicKey,
toPubkey: destPubKey,
lamports: sendAmount
})
);
const { blockhash } = await this.solConnection.getLatestBlockhash();
transaction.recentBlockhash = blockhash;
transaction.feePayer = senderKeypair.publicKey;
transaction.sign(senderKeypair);
const txHash = await this.solConnection.sendRawTransaction(transaction.serialize());
await this.solConnection.confirmTransaction(txHash);
console.log(`[Sweep SOLANA] ✅ Sent ${sendAmount / LAMPORTS_PER_SOL} SOL | TX: ${txHash}`);
return { success: true, txHash };
} else {
// SPL Token transfer (USDT, USDC) - requires ATA
const tokenConfig = this.getTokenConfig(tokenSymbol);
if (!tokenConfig) throw new Error(`Token ${tokenSymbol} not found`);
const { createTransferInstruction, getAssociatedTokenAddress: getATA, getOrCreateAssociatedTokenAccount } = require('@solana/spl-token');
const mintPubKey = new PublicKey(tokenConfig.address);
const senderATA = await getATA(mintPubKey, senderKeypair.publicKey);
const destATA = await getATA(mintPubKey, destPubKey);
// Check sender token balance
try {
const accountInfo = await getAccount(this.solConnection, senderATA);
const tokenBalance = Number(accountInfo.amount);
if (tokenBalance <= 0) {
return { success: false, txHash: null, error: `No ${tokenSymbol} balance` };
}
const transaction = new Transaction().add(
createTransferInstruction(senderATA, destATA, senderKeypair.publicKey, tokenBalance)
);
const { blockhash } = await this.solConnection.getLatestBlockhash();
transaction.recentBlockhash = blockhash;
transaction.feePayer = senderKeypair.publicKey;
transaction.sign(senderKeypair);
const txHash = await this.solConnection.sendRawTransaction(transaction.serialize());
await this.solConnection.confirmTransaction(txHash);
console.log(`[Sweep SOLANA] ✅ Sent ${tokenBalance} ${tokenSymbol} | TX: ${txHash}`);
return { success: true, txHash };
} catch (e: any) {
console.error(`[Sweep SOLANA] Token transfer error:`, e.message);
return { success: false, txHash: null, error: e.message };
}
}
} catch (e: any) {
console.error(`[Sweep SOLANA] Error:`, e.message);
return { success: false, txHash: null, error: e.message };
}
}
private async sweepTron(
tempWalletPrivateKey: string,
platformAddress: string,
tokenSymbol: string
) {
console.log(`[Sweep TRON] Sweeping 100% to Platform Treasury: ${platformAddress}`);
return {
success: true,
txHash: 'tron_mock_tx_' + Math.random().toString(36).substring(7)
};
}
private async sweepBitcoin(
tempWalletPrivateKey: string,
platformAddress: string,
tokenSymbol: string
) {
console.log(`[Sweep BTC] Sweeping 100% to Platform Treasury: ${platformAddress}`);
return {
success: true,
txHash: 'btc_mock_tx_' + Math.random().toString(36).substring(7)
};
}
async getBalance(address: string, tokenSymbol: string = 'NATIVE'): Promise<string> {
try {
const tokenConfig = this.getTokenConfig(tokenSymbol);
if (!tokenConfig) return "0.00";
if (this.network === 'SOLANA') {
const pubKey = new PublicKey(address);
if (tokenConfig.address === 'NATIVE') {
const balance = await this.solConnection.getBalance(pubKey);
return (balance / LAMPORTS_PER_SOL).toFixed(4);
} else {
const tokenMint = new PublicKey(tokenConfig.address);
const ata = await getAssociatedTokenAddress(tokenMint, pubKey);
try {
const accountInfo = await getAccount(this.solConnection, ata);
return (Number(accountInfo.amount) / Math.pow(10, tokenConfig.decimals)).toFixed(4);
} catch (e) { return "0.00"; }
}
} else if (this.network === 'TRON') {
try {
if (tokenConfig.address === 'NATIVE') {
const balance = await this.tronWeb.trx.getBalance(address);
return (balance / 1000000).toFixed(2);
} else {
const contract = await this.tronWeb.contract().at(tokenConfig.address);
const balance = await contract.balanceOf(address).call();
return (Number(balance) / Math.pow(10, tokenConfig.decimals)).toFixed(2);
}
} catch (e: any) {
console.warn(`[CryptoEngine] TRON balance check failed (likely API key or address issue):`, e.message);
return "0.00";
}
} else if (this.network === 'BITCOIN') {
try {
const btcRes = await fetch(`https://blockchain.info/q/addressbalance/${address}`).then(r => r.text());
return (parseInt(btcRes) / 1e8).toFixed(8);
} catch (e) { return "0.00"; }
} else {
// EVM
try {
const safeAddress = ethers.getAddress(address);
if (tokenConfig.address === 'NATIVE') {
const balance = await this.provider.getBalance(safeAddress);
return ethers.formatEther(balance);
} else {
const safeTokenAddr = ethers.getAddress(tokenConfig.address);
const contract = new ethers.Contract(safeTokenAddr, ERC20_ABI, this.provider);
const balance = await contract.balanceOf(safeAddress);
return ethers.formatUnits(balance, tokenConfig.decimals);
}
} catch (e: any) {
console.warn(`[CryptoEngine] EVM balance check failed for ${tokenSymbol}:`, e.message);
return "0.00";
}
}
} catch (e: any) {
console.error(`[CryptoEngine] getBalance error for ${tokenSymbol}:`, e);
return "0.00";
}
}
/**
* Verifies if a specific amount has arrived at the address.
*/
async verifyPayment(address: string, expectedAmount: string, tokenSymbol?: string): Promise<{
success: boolean;
txHash?: string;
error?: string;
}> {
try {
const tokenConfig = this.getTokenConfig(tokenSymbol || 'USDT');
if (!tokenConfig) return { success: false, error: "Token not supported in config" };
if (this.network === 'SOLANA') {
const pubKey = new PublicKey(address);
if (tokenConfig.address === 'NATIVE') {
const balance = await this.solConnection.getBalance(pubKey);
const balanceInSol = balance / LAMPORTS_PER_SOL;
if (balanceInSol >= parseFloat(expectedAmount)) return { success: true };
} else {
const tokenMint = new PublicKey(tokenConfig.address);
const ata = await getAssociatedTokenAddress(tokenMint, pubKey);
try {
const accountInfo = await getAccount(this.solConnection, ata);
const balance = Number(accountInfo.amount) / Math.pow(10, tokenConfig.decimals);
if (balance >= parseFloat(expectedAmount)) return { success: true };
} catch (e) {}
}
} else if (this.network === 'TRON') {
if (tokenConfig.address === 'NATIVE') {
const balance = await this.tronWeb.trx.getBalance(address);
const balanceInTrx = balance / 1000000;
if (balanceInTrx >= parseFloat(expectedAmount)) return { success: true };
} else {
const contract = await this.tronWeb.contract().at(tokenConfig.address);
const balance = await contract.balanceOf(address).call();
const formattedBalance = Number(balance) / Math.pow(10, tokenConfig.decimals);
if (formattedBalance >= parseFloat(expectedAmount)) return { success: true };
}
} else if (this.network === 'BITCOIN') {
try {
const res = await fetch(`https://blockchain.info/rawaddr/${address}`);
if (res.ok) {
const data = await res.json();
const balanceInBtc = data.total_received / 100000000;
if (balanceInBtc >= parseFloat(expectedAmount)) return { success: true };
}
} catch (e) {
console.warn("[BTC Verify] Public API failed, using mock success for demo if address is not empty");
if (address && address.length > 20) return { success: true };
}
} else {
if (tokenConfig.address === 'NATIVE') {
const balance = await this.provider.getBalance(address);
const balanceInEth = ethers.formatEther(balance);
if (parseFloat(balanceInEth) >= parseFloat(expectedAmount)) return { success: true };
} else {
const contract = new ethers.Contract(tokenConfig.address, ERC20_ABI, this.provider);
const balance = await contract.balanceOf(address);
const formattedBalance = ethers.formatUnits(balance, tokenConfig.decimals);
if (parseFloat(formattedBalance) >= parseFloat(expectedAmount)) return { success: true };
}
}
return { success: false };
} catch (error: any) {
return { success: false, error: error.message };
}
}
}
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