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buy.py
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buy.py
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import asyncio
import json
import base64
import struct
import base58
import hashlib
import websockets
import time
from solana.rpc.async_api import AsyncClient
from solana.transaction import Transaction
from solana.rpc.commitment import Confirmed
from solana.rpc.types import TxOpts
from solders.pubkey import Pubkey
from solders.keypair import Keypair
from solders.instruction import Instruction, AccountMeta
from solders.system_program import TransferParams, transfer
from solders.transaction import VersionedTransaction
from spl.token.instructions import get_associated_token_address
import spl.token.instructions as spl_token
from config import *
from construct import Struct, Int64ul, Flag
# Here and later all the discriminators are precalculated. See learning-examples/discriminator.py
EXPECTED_DISCRIMINATOR = struct.pack("<Q", 6966180631402821399)
TOKEN_DECIMALS = 6
class BondingCurveState:
_STRUCT = Struct(
"virtual_token_reserves" / Int64ul,
"virtual_sol_reserves" / Int64ul,
"real_token_reserves" / Int64ul,
"real_sol_reserves" / Int64ul,
"token_total_supply" / Int64ul,
"complete" / Flag
)
def __init__(self, data: bytes) -> None:
parsed = self._STRUCT.parse(data[8:])
self.__dict__.update(parsed)
async def get_pump_curve_state(conn: AsyncClient, curve_address: Pubkey) -> BondingCurveState:
response = await conn.get_account_info(curve_address)
if not response.value or not response.value.data:
raise ValueError("Invalid curve state: No data")
data = response.value.data
if data[:8] != EXPECTED_DISCRIMINATOR:
raise ValueError("Invalid curve state discriminator")
return BondingCurveState(data)
def calculate_pump_curve_price(curve_state: BondingCurveState) -> float:
if curve_state.virtual_token_reserves <= 0 or curve_state.virtual_sol_reserves <= 0:
raise ValueError("Invalid reserve state")
return (curve_state.virtual_sol_reserves / LAMPORTS_PER_SOL) / (curve_state.virtual_token_reserves / 10 ** TOKEN_DECIMALS)
async def buy_token(mint: Pubkey, bonding_curve: Pubkey, associated_bonding_curve: Pubkey, amount: float, slippage: float = 0.01, max_retries=5):
private_key = base58.b58decode(PRIVATE_KEY)
payer = Keypair.from_bytes(private_key)
async with AsyncClient(RPC_ENDPOINT) as client:
associated_token_account = get_associated_token_address(payer.pubkey(), mint)
amount_lamports = int(amount * LAMPORTS_PER_SOL)
# Fetch the token price
curve_state = await get_pump_curve_state(client, bonding_curve)
token_price_sol = calculate_pump_curve_price(curve_state)
token_amount = amount / token_price_sol
# Calculate maximum SOL to spend with slippage
max_amount_lamports = int(amount_lamports * (1 + slippage))
# Create associated token account with retries
for ata_attempt in range(max_retries):
try:
account_info = await client.get_account_info(associated_token_account)
if account_info.value is None:
print(f"Creating associated token account (Attempt {ata_attempt + 1})...")
create_ata_ix = spl_token.create_associated_token_account(
payer=payer.pubkey(),
owner=payer.pubkey(),
mint=mint
)
create_ata_tx = Transaction()
create_ata_tx.add(create_ata_ix)
recent_blockhash = await client.get_latest_blockhash()
create_ata_tx.recent_blockhash = recent_blockhash.value.blockhash
await client.send_transaction(create_ata_tx, payer)
print("Associated token account created.")
print(f"Associated token account address: {associated_token_account}")
break
else:
print("Associated token account already exists.")
print(f"Associated token account address: {associated_token_account}")
break
except Exception as e:
print(f"Attempt {ata_attempt + 1} to create associated token account failed: {str(e)}")
if ata_attempt < max_retries - 1:
wait_time = 2 ** ata_attempt
print(f"Retrying in {wait_time} seconds...")
await asyncio.sleep(wait_time)
else:
print("Max retries reached. Unable to create associated token account.")
return
# Continue with the buy transaction
for attempt in range(max_retries):
try:
accounts = [
AccountMeta(pubkey=PUMP_GLOBAL, is_signer=False, is_writable=False),
AccountMeta(pubkey=PUMP_FEE, is_signer=False, is_writable=True),
AccountMeta(pubkey=mint, is_signer=False, is_writable=False),
AccountMeta(pubkey=bonding_curve, is_signer=False, is_writable=True),
AccountMeta(pubkey=associated_bonding_curve, is_signer=False, is_writable=True),
AccountMeta(pubkey=associated_token_account, is_signer=False, is_writable=True),
AccountMeta(pubkey=payer.pubkey(), is_signer=True, is_writable=True),
AccountMeta(pubkey=SYSTEM_PROGRAM, is_signer=False, is_writable=False),
AccountMeta(pubkey=SYSTEM_TOKEN_PROGRAM, is_signer=False, is_writable=False),
AccountMeta(pubkey=SYSTEM_RENT, is_signer=False, is_writable=False),
AccountMeta(pubkey=PUMP_EVENT_AUTHORITY, is_signer=False, is_writable=False),
AccountMeta(pubkey=PUMP_PROGRAM, is_signer=False, is_writable=False),
]
discriminator = struct.pack("<Q", 16927863322537952870)
data = discriminator + struct.pack("<Q", int(token_amount * 10**6)) + struct.pack("<Q", max_amount_lamports)
buy_ix = Instruction(PUMP_PROGRAM, data, accounts)
recent_blockhash = await client.get_latest_blockhash()
transaction = Transaction()
transaction.add(buy_ix)
transaction.recent_blockhash = recent_blockhash.value.blockhash
tx = await client.send_transaction(
transaction,
payer,
opts=TxOpts(skip_preflight=True, preflight_commitment=Confirmed),
)
print(f"Transaction sent: https://explorer.solana.com/tx/{tx.value}")
await client.confirm_transaction(tx.value, commitment="confirmed")
print("Transaction confirmed")
return tx.value
except Exception as e:
print(f"Attempt {attempt + 1} failed: {str(e)}")
if attempt < max_retries - 1:
wait_time = 2 ** attempt
print(f"Retrying in {wait_time} seconds...")
await asyncio.sleep(wait_time)
else:
print("Max retries reached. Unable to complete the transaction.")
def load_idl(file_path):
with open(file_path, 'r') as f:
return json.load(f)
def decode_create_instruction(ix_data, ix_def, accounts):
args = {}
offset = 8 # Skip 8-byte discriminator
for arg in ix_def['args']:
if arg['type'] == 'string':
length = struct.unpack_from('<I', ix_data, offset)[0]
offset += 4
value = ix_data[offset:offset+length].decode('utf-8')
offset += length
elif arg['type'] == 'publicKey':
value = base64.b64encode(ix_data[offset:offset+32]).decode('utf-8')
offset += 32
else:
raise ValueError(f"Unsupported type: {arg['type']}")
args[arg['name']] = value
# Add accounts
args['mint'] = str(accounts[0])
args['bondingCurve'] = str(accounts[2])
args['associatedBondingCurve'] = str(accounts[3])
args['user'] = str(accounts[7])
return args
async def listen_for_create_transaction(websocket):
idl = load_idl('idl/pump_fun_idl.json')
create_discriminator = 8576854823835016728
subscription_message = json.dumps({
"jsonrpc": "2.0",
"id": 1,
"method": "blockSubscribe",
"params": [
{"mentionsAccountOrProgram": str(PUMP_PROGRAM)},
{
"commitment": "confirmed",
"encoding": "base64",
"showRewards": False,
"transactionDetails": "full",
"maxSupportedTransactionVersion": 0
}
]
})
await websocket.send(subscription_message)
print(f"Subscribed to blocks mentioning program: {PUMP_PROGRAM}")
ping_interval = 20
last_ping_time = time.time()
while True:
try:
current_time = time.time()
if current_time - last_ping_time > ping_interval:
await websocket.ping()
last_ping_time = current_time
response = await asyncio.wait_for(websocket.recv(), timeout=30)
data = json.loads(response)
if 'method' in data and data['method'] == 'blockNotification':
if 'params' in data and 'result' in data['params']:
block_data = data['params']['result']
if 'value' in block_data and 'block' in block_data['value']:
block = block_data['value']['block']
if 'transactions' in block:
for tx in block['transactions']:
if isinstance(tx, dict) and 'transaction' in tx:
tx_data_decoded = base64.b64decode(tx['transaction'][0])
transaction = VersionedTransaction.from_bytes(tx_data_decoded)
for ix in transaction.message.instructions:
if str(transaction.message.account_keys[ix.program_id_index]) == str(PUMP_PROGRAM):
ix_data = bytes(ix.data)
discriminator = struct.unpack('<Q', ix_data[:8])[0]
if discriminator == create_discriminator:
create_ix = next(instr for instr in idl['instructions'] if instr['name'] == 'create')
account_keys = [str(transaction.message.account_keys[index]) for index in ix.accounts]
decoded_args = decode_create_instruction(ix_data, create_ix, account_keys)
return decoded_args
except asyncio.TimeoutError:
print("No data received for 30 seconds, sending ping...")
await websocket.ping()
last_ping_time = time.time()
except websockets.exceptions.ConnectionClosed:
print("WebSocket connection closed. Reconnecting...")
raise
async def main(yolo_mode=False):
if yolo_mode:
while True:
try:
async with websockets.connect(WSS_ENDPOINT) as websocket:
while True:
try:
await trade(websocket)
except websockets.exceptions.ConnectionClosed:
print("WebSocket connection closed. Reconnecting...")
break
except Exception as e:
print(f"An error occurred: {e}")
print("Waiting for 5 seconds before looking for the next token...")
await asyncio.sleep(5)
except Exception as e:
print(f"Connection error: {e}")
print("Reconnecting in 5 seconds...")
await asyncio.sleep(5)
else:
await trade()
if __name__ == "__main__":
asyncio.run(main())