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main.py
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from time import sleep, time
from web3 import Web3
import multiprocessing
from config import *
import requests
if WORK_MODE == 1: # ЕСЛИ ВЫБРАН СВАП НА 1INCH БЕРЁМ ТЕКУЩУЮ ЦЕНУ ЭФИРА (ЧТОБЫ ОГРАНИЧИТЬ ПРОДАЖУ ЕСЛИ ЦЕНА НЕ УСТРОИТ)
try:
eth_price = requests.get(
'https://api.coingecko.com/api/v3/coins/ethereum?localization=false&tickers=false&market_data=true&community_data=false&developer_data=false&sparkline=false')
eth_price = eth_price.json()['market_data']['current_price']['usd']
except:
eth_price = 1800
def transaction_verification(transaction_hash, w3):
try:
transaction_data = w3.eth.wait_for_transaction_receipt(transaction_hash)
if transaction_data.get('status') != None and transaction_data.get('status') == 1:
print(f'{transaction_data.get("from")} | Успешная транзакция: {SCAN}/{transaction_hash.hex()}')
return True
else:
print(f'{transaction_data.get("from")} | Ошибка транзакции: {transaction_data.get("transactionHash").hex()} {transaction_hash.hex()}')
return False
except Exception as e:
print(f'{transaction_hash.hex()} | Ошибка транзакции: {e}')
return False
def claim(private_key, w3):
account = w3.eth.account.from_key(private_key)
address = account.address
contract_address = w3.to_checksum_address(CLAIM_ADDRESS)
contract_data = w3.eth.contract(address=contract_address, abi=CLAIM_ABI)
nonce = w3.eth.get_transaction_count(address)
gas = contract_data.functions.claim().estimate_gas({'from': address, 'nonce': nonce, })
transaction = contract_data.functions.claim().build_transaction({
'from': address,
'value': 0,
'gas': gas,
'gasPrice': w3.eth.gas_price * GAS_PRICE_MULTIPLIER,
'nonce': nonce})
try:
signed_transaction = account.sign_transaction(transaction)
transaction_hash = w3.eth.send_raw_transaction(signed_transaction.rawTransaction)
status = transaction_verification(transaction_hash, w3)
return status
except:
return False
def get_balance(address, w3):
contract_address = w3.to_checksum_address(ARB_ADDRESS)
contract_data = w3.eth.contract(address=contract_address, abi=ARB_ABI)
arb_balance = contract_data.functions.balanceOf(address).call()
return arb_balance
def send_to_address(private_key, to_address, amount_to_send, w3): #ОТПРАВКА ARB НА АДРЕСС
account = w3.eth.account.from_key(private_key)
address = account.address
to_address = w3.to_checksum_address(to_address)
contract_address = w3.to_checksum_address(ARB_ADDRESS)
contract_data = w3.eth.contract(address=contract_address, abi=ARB_ABI)
nonce = w3.eth.get_transaction_count(address)
gas = contract_data.functions.transfer(w3.to_checksum_address(to_address), amount_to_send).estimate_gas({'from': address, 'nonce': nonce, })
transaction = contract_data.functions.transfer(to_address, int(amount_to_send)).build_transaction({
'from': address,
'value': 0,
'gas': gas,
'gasPrice': w3.eth.gas_price * GAS_PRICE_MULTIPLIER,
'nonce': nonce})
try:
signed_transaction = account.sign_transaction(transaction)
transaction_hash = w3.eth.send_raw_transaction(signed_transaction.rawTransaction)
status = transaction_verification(transaction_hash, w3)
return status, "sent"
except Exception as e:
error_message = str(e)
if "insufficient funds for gas * price + value" in error_message:
return address, "not_send"
print(e)
return False, "not_send"
def inch_swap(private_key, address, w3, amount_to_swap): #SWAP ARB НА A1INCH
if INCH_SWAP_TO == 'ETH':
to_token_address = ETH_ADDRESS
price = int(eth_price)
elif INCH_SWAP_TO == 'USDC':
to_token_address = USDC_ADDRESS
price = 1
else: #ЕСЛИ ТЫ НАКОСЯЧИЛ В КОНФИГЕ, ТО УВЫ БУДЕШЬ СВАПАТЬ НА ETH
to_token_address = ETH_ADDRESS
price = int(eth_price)
try:
nonce = w3.eth.get_transaction_count(address)
inch_url = f'https://api.1inch.io/v4.0/42161/swap?fromTokenAddress={ARB_ADDRESS}&toTokenAddress={to_token_address}&amount={amount_to_swap}&fromAddress={address}&slippage={SLIPAGE}'
for i in range(4):
json_data = requests.get(inch_url)
if json_data.status_code != 200:
pass
else:
break
json_data = json_data.json()
if json_data['statusCode'] != 200:
print(f'{address} | Ошибка свапа: {json_data["error"]} - {json_data["description"]}')
if SEND_IF_BAD_PRICE:
return 'send'
else:
return 'not_swapped'
#ПРОВЕРКА ЦЕНЫ 1INCH
if int(json_data.get('toTokenAmount')) / int(amount_to_swap) * price < MIN_PRICE:
print(f'{address} | Цена ARB меньше {MIN_PRICE}')
if SEND_IF_BAD_PRICE:
return 'send'
else:
return False
tx = json_data['tx']
tx['nonce'] = nonce
tx['to'] = Web3.to_checksum_address(tx['to'])
tx['gasPrice'] = int(tx['gasPrice'])
tx['value'] = int(tx['value'])
sign_transaction = w3.eth.account.sign_transaction(tx, private_key)
transaction_hash = w3.eth.send_raw_transaction(sign_transaction.rawTransaction)
status = transaction_verification(transaction_hash, w3)
return status
except Exception as e:
if SEND_IF_BAD_PRICE:
return 'send'
else:
return False
def main(data):
if RPC_URL == '':
_RPC_URL = data.split(';')[2]
else:
_RPC_URL = RPC_URL
w3 = Web3(Web3.HTTPProvider(_RPC_URL))
private_key = data.split(';')[0]
to_address = data.split(';')[1]
address = w3.eth.account.from_key(private_key).address
print(f'{address} | Клейм "ARB"')
while True:
try:
claim_status = claim(private_key, w3)
if claim_status:
break
except Exception as e:
error_message = str(e)
if "TokenDistributor: nothing to claim" in error_message or "can't execute this request" in error_message:
arb_balance = get_balance(address, w3) #НА ВСЯКИЙ СЛУЧАЙ ПРОБУЕМ ПРОВЕРИТЬ БАЛАНС
if arb_balance == 0:
print(f'{address} | Нечего клеймить, завершаю работу: {e}')
return address, "not_claimed"
else:
print(f'{address} | Заклеймил')
break
print(f'{address} | Ошибка клейма, пробую снова: {e}')
sleep(0.5)
print(f'{address} | Получаем баланс ARB')
while True:
arb_balance = get_balance(address, w3)
if arb_balance > 0:
break
print(f'{address} | Ошибка получения баланса ARB, пробую снова')
sleep(0.5)
if not WORK_MODE: #ЕСЛИ ОТПРАВЛЯЕМ НА АДРЕСА
print(f'{address} | Отправка "ARB" ({arb_balance/10**18}) на адрес {to_address}')
while True:
send_status, status_message = send_to_address(private_key, to_address, arb_balance, w3)
if send_status:
if status_message == "sent":
print(f'{address} | Успешно отправили "ARB" ({arb_balance / 10 ** 18}) на адрес {to_address}')
elif status_message == "not_send":
print(f'{address} | Не удалось отправить "ARB" из-за недостаточных средств для оплаты газа')
break
print(f'{address} | Ошибка отправки, пробую снова')
sleep(0.5)
else: #ЕСЛИ СВАПАЕМ НА ИНЧЕ
print(f'{address} | Свап ARB на {INCH_SWAP_TO} через 1INCH')
while True:
swap_status = inch_swap(private_key, address, w3, arb_balance)
if swap_status == True:
break
elif swap_status == 'send': # ЕСЛИ НАСТРОЙКА СТОЯЛА
print(f'{address} | На 1inch плохая цена (или другая ошибка), отправляю "ARB" ({arb_balance / 10 ** 18}) на адрес {to_address}')
loop_done_check = False
while True:
send_status, status_message = send_to_address(private_key, to_address, arb_balance, w3)
if send_status:
if status_message == "sent":
print(f'{address} | Успешно отправили "ARB" ({arb_balance / 10 ** 18}) на адрес {to_address}')
loop_done_check = True
break
elif status_message == "not_send":
print(f'{address} | Не удалось отправить "ARB" из-за недостаточных средств для оплаты газа')
print(f'{address} | Ошибка отправки, пробую снова')
sleep(0.5)
if loop_done_check:
break
elif swap_status == 'not_swapped':
return address, 'not_swapped'
else:
print(f'{address} | Ошибка свапа, пробую снова')
sleep(0.5)
print(f'{address} | Работа завершена!')
return address, "completed"
def get_l1_block_number():
w3 = Web3(Web3.HTTPProvider(CHECK_BLOCK_RPC))
try:
multicall_contract = w3.eth.contract(address=MULTICALL_ADDRESS, abi=MULTICALL_ABI)
return multicall_contract.functions.getL1BlockNumber().call()
except:
print('RPC не отвечает! Не могу получить текущий блок')
return 0
def wait_claim_block():
target_timestamp = 1679574000
target_block = 16890400
print('Начинаю ждать примерного времени начала клейма (-10 минут), после этого начну проверять блок')
while True:
if int(time()) >= target_timestamp:
break
sleep(1)
while True:
current_block = get_l1_block_number()
if current_block >= target_block:
break
print(f"Текущий блок: {current_block}, ждём блок: {target_block}")
sleep(2)
if __name__ == "__main__":
with open('data.txt', 'r') as f:
data = f.read().splitlines()
wait_claim_block() #ЖДЁМ НУЖНЫЙ БЛОК (ДЛЯ ПРОВЕРКИ В GOERLI НУЖНО ЗАКОММЕНТИТЬ)
max_processes = 50 #МАКС. КОЛ-ВО ПОТОКОВ, У МЕНЯ МАКСИМУМ ВЫШЛО 60, МОЖНО ПОПРОБОВАТЬ ПОМЕНЯТЬ
num_processes = min(len(data), max_processes)
with multiprocessing.Pool(num_processes) as p:
results = p.map(main, data)
completed_addresses = [result[0] for result in results if result[1] == "completed"]
not_claimed_addresses = [result[0] for result in results if result[1] == "not_claimed"]
not_send_addresses = [result[0] for result in results if result[1] == "not_send"]
not_swapped_addresses = [result[0] for result in results if result[1] == "not_swapped"]
with open('results/done.txt', 'a') as f:
f.write('\n'.join(completed_addresses) + '\n')
with open('results/not_claimed.txt', 'a') as f:
f.write('\n'.join(not_claimed_addresses) + '\n')
with open('results/not_send.txt', 'a') as f:
f.write('\n'.join(not_send_addresses) + '\n')
with open('results/not_swapped.txt', 'a') as f:
f.write('\n'.join(not_swapped_addresses) + '\n')
print(f'\nВсе аккаунты завершены!\n\nУспешных аккаунтов: {len(completed_addresses)}\nНе заклеймленых аккаунтов: {len(not_claimed_addresses)}\nНе отправленных аккаунтов : {len(not_send_addresses)}\nНе прошёл свап: {len(not_swapped_addresses)}')