How to send USDC from Ethereum to dYdX
Deployments
Deployment | USDC Native Chain | USDC_ERC20_ADDRESS | TOKEN_MESSENGER_CONTRACT_ADDRESS |
---|---|---|---|
DYDX token holders | Ethereum | 0xA0b86991c6218b36c1d19D4a2e9Eb0cE3606eB48 (opens in a new tab) | 0xBd3fa81B58Ba92a82136038B25aDec7066af3155 (opens in a new tab) |
Testnet | Sepolia Testnet | 0x1c7D4B196Cb0C7B01d743Fbc6116a902379C7238 (opens in a new tab) | 0x9f3B8679c73C2Fef8b59B4f3444d4e156fb70AA5 (opens in a new tab) |
Note: the example values in the steps below align with the deployment by DYDX token holders.
Requirements
- Your wallet is on the Ethereum network.
- You have sufficient ETH for gas and USDC.
Prerequisite USDC Approval
- First, go to
USDC_ERC20_ADDRESS
'swriteProxyContract
tab https://etherscan.io/token/0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48#writeProxyContract (opens in a new tab) - Click the “Connect to Web3” button
- Now it turns green.
- Click on the first line
1. Approve (0x095ea7b3)
to expand it, input0xbd3fa81b58ba92a82136038b25adec7066af3155
(theTOKEN_MESSENGER_CONTRACT_ADDRESS
) in the spender (address) box and115792089237316195423570985008687907853269984665640564039457584007913129639935
in the second box (value (uint256
)) for unlimited. You can specify a smaller number here as well. - Click the
Write
button.
Procedure
- Starting with code provided here: https://github.com/bd21/noble-tutorials/tree/master/tutorials/05-eth-noble-python (opens in a new tab), a few changes have been made to allow you to specify:
(1) a dYdX Chain address
, and(2) the USDC amount
. Here is a diff showing the differences: - Save the source code (last section of this document) as
deposit_for_burn.py
, create a directory calledabi/
, and downloadTokenMessengerWithMetadata.json
from theabi/
directory at github above, and save it intoabi/
. You now have the following files in the working directory.
./deposit_for_burn.py
./abi/TokenMessengerWithMetadata.json
- Run the program like this:
python3 deposit_for_burn.py <dydxaddress> <burnamount>
where <dydxaddress>
is your dYdX-Chain address and <burnamount>
is the amount of USDC. For example:
python3 deposit_for_burn.py dydx1gem4xs643fjhaqvphrvv0adpg4435j7xx9pp4z 100
- Be patient. It may take up to 30 minutes to see the funds show up on the Noble blockchain. After that you can connect your wallet to v4 and it will sweep the funds from Noble into v4.
Source Code
import hexbytes
from web3 import Web3
import bech32
from pprint import pprint
from sys import argv
TOKEN_MESSENGER_CONTRACT_ADDRESS = "0xbd3fa81b58ba92a82136038b25adec7066af3155"
USDC_ERC20_ADDRESS = "0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48"
########################## YOU FILL THIS OUT #################
private_key = '<FILL_THIS_OUT>'
RPC_URL = '<FILL_THIS_OUT>'
##############################################################
# requires a local file named 'private_key' with a hex encoded eth private key (no 0x prefix)
def deposit_for_burn(noble_address, dydx_address):
# initialize client
web3 = Web3(Web3.HTTPProvider(RPC_URL))
assert web3.is_connected()
# initialize account, smart contract
account = web3.eth.account.from_key(private_key)
file = open("abi/TokenMessenger.json")
abi = file.read()
contract_address = str(web3.to_checksum_address(TOKEN_MESSENGER_CONTRACT_ADDRESS))
contract = web3.eth.contract(address=contract_address, abi=abi)
print("Building Ethereum depositForBurn txn...")
mint_recipient = convert(noble_address) # intermediate noble minting address
print("Derived Noble address: " + noble_address)
burn_amount = int(burn_amount1) * 1000000
usdc_address = str(Web3.to_checksum_address(USDC_ERC20_ADDRESS))
print("Broadcasting...")
call_function = contract.functions.depositForBurn(
burn_amount,
4, # noble
mint_recipient,
usdc_address
).build_transaction({
"chainId": web3.eth.chain_id,
"from": account.address,
"nonce": web3.eth.get_transaction_count(account.address),
})
signed_tx = web3.eth.account.sign_transaction(call_function, private_key=private_key)
# Send the raw transaction:
tx_hash = web3.eth.send_raw_transaction(signed_tx.rawTransaction)
tx_receipt = web3.eth.wait_for_transaction_receipt(tx_hash)
# print("eth tx hash: https://etherscan.io/tx/" + tx_hash.hex())
print("eth tx hash: https://goerli.etherscan.io/tx/" + tx_hash.hex())
print("eth tx receipt: ")
pprint(tx_receipt)
# print("Minting to https://testnet.mintscan.io/noble-testnet/account/" + noble_address)
print("Minting to https://mintscan.io/noble/account/" + noble_address)
# Convert bech32 address to a format suited for CCTP
def convert(address) -> hexbytes.HexBytes:
result = bytearray(32)
decoded = bech32.convertbits(
data=bech32.bech32_decode(address)[1],
frombits=5,
tobits=8,
pad=False
)
result[32 - len(decoded):] = decoded
return hexbytes.HexBytes(result)
if len(argv) < 3:
print('Error: Please specify dydxaddress and burnamount')
exit()
dydx_address1 = argv[1]
burn_amount1 = argv[2]
noble_address1 = bech32.bech32_encode("noble", bech32.bech32_decode(dydx_address1)[1])
if __name__ == "__main__":
deposit_for_burn(
noble_address=noble_address1,
dydx_address=dydx_address1
)
# alternatively, you can derive the noble address
# deposit_for_burn(
# dydx_address="dydx1kgjgvl3xer7rwskp6tlynmjrd2juas6nqxn8yg",
# noble_address=bech32.bech32_encode("noble", bech32.bech32_decode("dydx1kgjgvl3xer7rwskp6tlynmjrd2juas6nqxn8yg")[1]),
# )