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deploy_erc20.js
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deploy_erc20.js
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///////////////////////////
//
// ERC20 DEPLOYMENT AND INTERACTION
//
// The account we use here is already prefunded in the devnet.
//
// We shall deploy and call the OpenZeppelin ERC20 contract.
//
///////////////////////////
import fs from "fs";
// Install the latest version of starknet with npm install starknet@next and import starknet
import {
Account,
defaultProvider,
ec,
json,
SequencerProvider,
Contract,
stark,
number,
shortString
} from "starknet";
// SETUP
const provider = process.env.STARKNET_PROVIDER_BASE_URL === undefined ?
defaultProvider :
new SequencerProvider({ baseUrl: process.env.STARKNET_PROVIDER_BASE_URL });
console.log("Reading ERC20 Contract...");
const compiledErc20 = json.parse(
fs.readFileSync("./ERC20.json").toString("ascii")
);
// Note: cleanHex will be redundant with nevwer starknet.js version
const cleanHex = (hex) => hex.toLowerCase().replace(/^(0x)0+/, '$1');
// devnet private key from Account #0 if generated with --seed 0
const starkKeyPair = ec.getKeyPair("0xe3e70682c2094cac629f6fbed82c07cd");
const accountAddress = "0x7e00d496e324876bbc8531f2d9a82bf154d1a04a50218ee74cdd372f75a551a";
const recieverAddress = '0x69b49c2cc8b16e80e86bfc5b0614a59aa8c9b601569c7b80dde04d3f3151b79';
// Starknet.js currently doesn't have the functionality to calculate the class hash
const erc20ClassHash = '0x03f794a28472089a1a99b7969fc51cd5fbe22dd09e3f38d2bd6fa109cb3f4ecf';
const account = new Account(
provider,
accountAddress,
starkKeyPair
);
// 1. DECLARE CONTRACT
const erc20DeclareResponse = await account.declare({
classHash: erc20ClassHash,
contract: compiledErc20,
});
await provider.waitForTransaction(erc20DeclareResponse.transaction_hash);
console.log("erc20 contract declared");
console.log(erc20DeclareResponse);
// 2. DEPLOY CONTRACT
// Deploy an ERC20 contract and wait for it to be verified on StarkNet.
console.log("Deployment Tx - ERC20 Contract to StarkNet...");
const salt = '900080545022'; // use some random salt
const erc20Response = await account.deploy({
classHash: erc20ClassHash,
constructorCalldata: stark.compileCalldata({
name: shortString.encodeShortString('TestToken'),
symbol: shortString.encodeShortString('ERC20'),
decimals: 18,
initial_supply: ['1000'],
recipient: account.address,
}),
salt,
});
console.log("Waiting for Tx to be Accepted on Starknet - ERC20 Deployment...");
await provider.waitForTransaction(erc20Response.transaction_hash);
const txReceipt = await provider.getTransactionReceipt(erc20Response.transaction_hash);
///////////////////////////////
// Contract interaction
///////////////////////////////
// Get the erc20 contract address
const erc20Event = parseUDCEvent(txReceipt);
console.log("ERC20 Address: ", erc20Event.address);
const erc20Address = erc20Event.address
// Create a new erc20 contract object
const erc20 = new Contract(compiledErc20.abi, erc20Address, provider);
erc20.connect(account);
// OPTION 1 - call as contract object
console.log(`Invoke Tx - Sending 10 tokens to ${recieverAddress}...`);
const { transaction_hash: mintTxHash } = await erc20.transfer(
recieverAddress,
['0', '10'], // send 10 tokens as Uint256
);
// Wait for the invoke transaction to be accepted on StarkNet
console.log(`Waiting for Tx to be Accepted on Starknet - Transfer...`);
await provider.waitForTransaction(mintTxHash);
console.log(`Calling StarkNet for account balance...`);
const balanceBeforeTransfer = await erc20.balanceOf(account.address);
console.log(
`account Address ${account.address} has a balance of:`,
number.toBN(balanceBeforeTransfer[0].high).toString()
);
// OPTION 2 - call contract from Account
//Execute tx transfer of 10 tokens
console.log(`Invoke Tx - Transfer 10 tokens to ${recieverAddress}...`);
const executeHash = await account.execute(
{
contractAddress: erc20Address,
entrypoint: 'transfer',
calldata: stark.compileCalldata({
recipient: recieverAddress,
amount: ['10']
})
}
);
console.log(`Waiting for Tx to be Accepted on Starknet - Transfer...`);
await provider.waitForTransaction(executeHash.transaction_hash);
// Check balances
// Sender
console.log(`Calling StarkNet for Sender account balance...`);
const balanceAfterTransfer = await erc20.balanceOf(account.address);
console.log(
`account Sender ${account.address} has a balance of:`,
number.toBN(balanceAfterTransfer[0].high).toString()
);
// Reciever
console.log(`Calling StarkNet for Reciever account balance...`);
const recieverAfterTransfer = await erc20.balanceOf(recieverAddress);
console.log(
`account Reciever ${recieverAddress} has a balance of:`,
number.toBN(recieverAfterTransfer[0].high).toString()
);
// NOTE: parseUDCEvent will be redundant with nevwer starknet.js version
function parseUDCEvent(txReceipt) {
if (!txReceipt.events) {
throw new Error('UDC emited event is empty');
}
const event = txReceipt.events.find(
(it) => cleanHex(it.from_address) === cleanHex('0x041a78e741e5af2fec34b695679bc6891742439f7afb8484ecd7766661ad02bf') // UDC address
) || {
data: [],
};
return {
transaction_hash: txReceipt.transaction_hash,
contract_address: event.data[0],
address: event.data[0],
deployer: event.data[1],
unique: event.data[2],
classHash: event.data[3],
calldata_len: event.data[4],
calldata: event.data.slice(5, 5 + parseInt(event.data[4], 16)),
salt: event.data[event.data.length - 1],
};
}