import asyncio
import websockets
import json
from flask import Flask, render_template, request, jsonify
from solana.rpc.async_api import AsyncClient
from solana.transaction import Signature
from solana.rpc.websocket_api import connect
from solana.rpc.types import TokenAccountOpts, TxOpts
from solana.rpc.commitment import Confirmed
from base58 import b58decode
from solders.signature import Signature
from solders.pubkey import Pubkey
from solders.keypair import Keypair
from solders.transaction import VersionedTransaction
from solders.transaction import Transaction
from solders.message import Message
from solders.instruction import Instruction
from solders.hash import Hash
from jupiter_python_sdk.jupiter import Jupiter, Jupiter_DCA
from dexscreener import DexscreenerClient
from telegram import Bot
from telegram.constants import ParseMode
import datetime
import logging
import base64
import os
from dotenv import load_dotenv,set_key
import aiohttp
from typing import List, Dict
import requests
import threading
import re
from typing import List, Dict, Any, Tuple
load_dotenv()
app = Flask(__name__)
ENV_FILE = '.env'
async def save_subscription_id(subscription_id):
# storing subscription id in .env file disabled
#set_key(ENV_FILE, "SUBSCRIPTION_ID", str(subscription_id))
logger.info(f"Saved subscription ID: {subscription_id}")
async def load_subscription_id():
subscription_id = os.getenv("SUBSCRIPTION_ID")
return int(subscription_id) if subscription_id else None
# Function to find the latest log file
def get_latest_log_file():
log_dir = './logs'
try:
# files = [f for f in os.listdir(log_dir) if os.path.isfile(os.path.join(log_dir, f))]
# filter files mask log_20241005_004103_143116.json
files = [f for f in os.listdir(log_dir) if os.path.isfile(os.path.join(log_dir, f)) and f.startswith('log_')]
latest_file = max(files, key=lambda x: os.path.getctime(os.path.join(log_dir, x)))
return os.path.join(log_dir, latest_file)
except Exception as e:
logging.error(f"Error fetching latest log file: {e}")
return None
# Flask route to retry processing the last log
@app.route('/retry-last-log', methods=['GET'])
def retry_last_log():
latest_log_file = get_latest_log_file()
if not latest_log_file:
return jsonify({"error": "No log files found"}), 404
try:
with open(latest_log_file, 'r') as f:
log = json.load(f)
# Run the asynchronous process_log function
asyncio.run(process_log(log))
return jsonify({"status": "Log processed successfully"}), 200
except Exception as e:
logging.error(f"Error processing log: {e}")
return jsonify({"error": "Failed to process log"}), 500
# Configuration
DEVELOPER_CHAT_ID = os.getenv("DEVELOPER_CHAT_ID")
FOLLOWED_WALLET = os.getenv("FOLLOWED_WALLET")
YOUR_WALLET = os.getenv("YOUR_WALLET")
TELEGRAM_BOT_TOKEN = os.getenv("TELEGRAM_BOT_TOKEN")
SOLANA_WS_URL = os.getenv("SOLANA_WS_URL")
SOLANA_HTTP_URL = os.getenv("SOLANA_HTTP_URL")
DISPLAY_CURRENCY = os.getenv('DISPLAY_CURRENCY', 'USD')
# Use the production Solana RPC endpoint
solana_client = AsyncClient(SOLANA_HTTP_URL)
dexscreener_client = DexscreenerClient()
# Initialize Telegram Bot
bot = Bot(token=TELEGRAM_BOT_TOKEN)
# Token addresses (initialize with some known tokens)
TOKEN_ADDRESSES = {
"SOL": "So11111111111111111111111111111111111111112",
"USDC": "EPjFWdd5AufqSSqeM2qN1xzybapC8G4wEGGkZwyTDt1v",
"TARD": "4nfn86ssbv7wiqcsw7bpvn46k24jhe334fudtyxhp1og",
}
async def send_telegram_message(message):
try:
await bot.send_message(chat_id=DEVELOPER_CHAT_ID, text=message, parse_mode=ParseMode.HTML)
logging.info(f"Telegram message sent: {message}")
except Exception as e:
logging.error(f"Error sending Telegram message: {str(e)}")
async def get_token_prices(token_addresses: List[str]) -> Dict[str, float]:
coingecko_prices = await get_prices_from_coingecko(token_addresses)
# For tokens not found in CoinGecko, use DexScreener
missing_tokens = set(token_addresses) - set(coingecko_prices.keys())
if missing_tokens:
dexscreener_prices = await get_prices_from_dexscreener(list(missing_tokens))
coingecko_prices.update(dexscreener_prices)
# If any tokens are still missing, set their prices to 0
for token in set(token_addresses) - set(coingecko_prices.keys()):
coingecko_prices[token] = 0.0
logging.warning(f"Price not found for token {token}. Setting to 0.")
return coingecko_prices
async def get_prices_from_coingecko(token_addresses: List[str]) -> Dict[str, float]:
url = "https://api.coingecko.com/api/v3/simple/token_price/solana"
params = {
"contract_addresses": ",".join(token_addresses),
"vs_currencies": DISPLAY_CURRENCY.lower()
}
prices = {}
async with aiohttp.ClientSession() as session:
async with session.get(url, params=params) as response:
if response.status == 200:
data = await response.json()
for address, price_info in data.items():
if DISPLAY_CURRENCY.lower() in price_info:
prices[address] = price_info[DISPLAY_CURRENCY.lower()]
else:
logging.error(f"Failed to get token prices from CoinGecko. Status: {response.status}")
return prices
async def get_prices_from_dexscreener(token_addresses: List[str]) -> Dict[str, float]:
base_url = "https://api.dexscreener.com/latest/dex/tokens/"
prices = {}
async with aiohttp.ClientSession() as session:
tasks = [fetch_token_data(session, f"{base_url}{address}") for address in token_addresses]
results = await asyncio.gather(*tasks)
for address, result in zip(token_addresses, results):
if result and 'pairs' in result and result['pairs']:
pair = result['pairs'][0] # Use the first pair (usually the most liquid)
prices[address] = float(pair['priceUsd'])
else:
logging.warning(f"No price data found on DexScreener for token {address}")
return prices
async def fetch_token_data(session, url):
try:
async with session.get(url) as response:
if response.status == 200:
return await response.json()
else:
logging.error(f"Failed to fetch data from {url}. Status: {response.status}")
return None
except Exception as e:
logging.error(f"Error fetching data from {url}: {str(e)}")
return None
async def get_sol_price() -> float:
url = f"https://api.coingecko.com/api/v3/simple/price?ids=solana&vs_currencies={DISPLAY_CURRENCY.lower()}"
async with aiohttp.ClientSession() as session:
async with session.get(url) as response:
if response.status == 200:
data = await response.json()
return data['solana'][DISPLAY_CURRENCY.lower()]
else:
logging.error(f"Failed to get SOL price from CoinGecko. Status: {response.status}")
return await get_sol_price_from_dexscreener()
async def get_sol_price_from_dexscreener() -> float:
sol_address = "So11111111111111111111111111111111111111112" # Solana's wrapped SOL address
prices = await get_prices_from_dexscreener([sol_address])
return prices.get(sol_address, 0.0)
async def get_sol_price() -> float:
url = f"https://api.coingecko.com/api/v3/simple/price?ids=solana&vs_currencies={DISPLAY_CURRENCY.lower()}"
async with aiohttp.ClientSession() as session:
async with session.get(url) as response:
if response.status == 200:
data = await response.json()
return data['solana'][DISPLAY_CURRENCY.lower()]
else:
logging.error(f"Failed to get SOL price. Status: {response.status}")
return None
async def get_token_balance_rpc(wallet_address, token_address):
url = SOLANA_HTTP_URL
headers = {"Content-Type": "application/json"}
data = {
"jsonrpc": "2.0",
"id": 1,
"method": "getTokenAccountsByOwner",
"params": [
wallet_address,
{
"mint": token_address
},
{
"encoding": "jsonParsed"
}
]
}
try:
response = requests.post(url, headers=headers, data=json.dumps(data))
response.raise_for_status() # Raises an error for bad responses
accounts = response.json()
if 'result' in accounts and accounts['result']['value']:
first_account = accounts['result']['value'][0]['pubkey']
balance_data = {
"jsonrpc": "2.0",
"id": 1,
"method": "getTokenAccountBalance",
"params": [
first_account
]
}
balance_response = requests.post(url, headers=headers, data=json.dumps(balance_data))
balance_response.raise_for_status()
balance = balance_response.json()
if 'result' in balance and 'value' in balance['result']:
amount = float(balance['result']['value']['uiAmount'])
logging.debug(f"Balance for {token_address} in {wallet_address}: {amount}")
return amount
else:
logging.debug(f"No balance found for {token_address} in {wallet_address}")
return 0
else:
logging.debug(f"No account found for {token_address} in {wallet_address}")
return 0
except requests.exceptions.RequestException as e:
logging.error(f"Error getting balance for {token_address} in {wallet_address}: {str(e)} \r\n {e}")
return 0
async def get_token_name(mint_address):
try:
token_info = await solana_client.get_token_supply(Pubkey.from_string(mint_address))
if token_info.value and 'symbol' in token_info.value:
return token_info.value['symbol']
except Exception as e:
logging.error(f"Error fetching token name for {mint_address}: {str(e)}")
return None
async def get_wallet_balances(wallet_address):
balances = {}
logging.info(f"Getting balances for wallet: {wallet_address}")
try:
response = await solana_client.get_token_accounts_by_owner_json_parsed(
Pubkey.from_string(wallet_address),
opts=TokenAccountOpts(
program_id=Pubkey.from_string("TokenkegQfeZyiNwAJbNbGKPFXCWuBvf9Ss623VQ5DA")
),
commitment=Confirmed
)
if response.value:
for account in response.value:
parsed_data = account.account.data.parsed
if isinstance(parsed_data, dict) and 'info' in parsed_data:
info = parsed_data['info']
if isinstance(info, dict) and 'mint' in info and 'tokenAmount' in info:
mint = info['mint']
amount = float(info['tokenAmount']['uiAmount'])
if amount > 0:
token_name = await get_token_name(mint) or 'Unknown'
balances[mint] = {
'name': token_name,
'address': mint,
'amount': amount
}
logging.debug(f"Balance for {token_name} ({mint}): {amount}")
else:
logging.warning(f"Unexpected data format for account: {account}")
sol_balance = await solana_client.get_balance(Pubkey.from_string(wallet_address))
if sol_balance.value is not None:
balances['SOL'] = {
'name': 'SOL',
'address': 'SOL',
'amount': sol_balance.value / 1e9
}
else:
logging.warning(f"SOL balance response missing for wallet: {wallet_address}")
except Exception as e:
logging.error(f"Error getting wallet balances: {str(e)}")
return balances
async def convert_balances_to_currency(balances, token_prices, sol_price):
converted_balances = {}
for address, info in balances.items():
converted_balance = info.copy() # Create a copy of the original info
if info['name'] == 'SOL':
converted_balance['value'] = info['amount'] * sol_price
elif address in token_prices:
converted_balance['value'] = info['amount'] * token_prices[address]
else:
converted_balance['value'] = None # Price not available
logging.warning(f"Price not available for token {info['name']} ({address})")
converted_balances[address] = converted_balance
return converted_balances
async def list_initial_wallet_states():
global TOKEN_ADDRESSES, FOLLOWED_WALLET_VALUE, YOUR_WALLET_VALUE
followed_wallet_balances = await get_wallet_balances(FOLLOWED_WALLET)
your_wallet_balances = await get_wallet_balances(YOUR_WALLET)
all_token_addresses = list(set(followed_wallet_balances.keys()) | set(your_wallet_balances.keys()))
token_prices = await get_token_prices(all_token_addresses)
sol_price = await get_sol_price()
followed_converted_balances = await convert_balances_to_currency(followed_wallet_balances, token_prices, sol_price)
your_converted_balances = await convert_balances_to_currency(your_wallet_balances, token_prices, sol_price)
TOKEN_ADDRESSES = {address: info for address, info in {**followed_converted_balances, **your_converted_balances}.items() if info['value'] is not None and info['value'] > 0}
logging.info(f"Monitoring balances for tokens: {[info['name'] for info in TOKEN_ADDRESSES.values()]}")
followed_wallet_state = []
FOLLOWED_WALLET_VALUE = 0
for address, info in followed_converted_balances.items():
if info['value'] is not None and info['value'] > 0:
followed_wallet_state.append(f"{info['name']} ({address}): {info['value']:.2f} {DISPLAY_CURRENCY}")
FOLLOWED_WALLET_VALUE += info['value']
your_wallet_state = []
YOUR_WALLET_VALUE = 0
for address, info in your_converted_balances.items():
if info['value'] is not None and info['value'] > 0:
your_wallet_state.append(f"{info['name']} ({address}): {info['value']:.2f} {DISPLAY_CURRENCY}")
YOUR_WALLET_VALUE += info['value']
message = (
f"Initial Wallet States (All balances in {DISPLAY_CURRENCY}):\n\n"
f"Followed Wallet ({FOLLOWED_WALLET}):\n"
f"{chr(10).join(followed_wallet_state)}\n"
f"Total Value: {FOLLOWED_WALLET_VALUE:.2f} {DISPLAY_CURRENCY}\n\n"
f"Your Wallet ({YOUR_WALLET}):\n"
f"{chr(10).join(your_wallet_state)}\n"
f"Total Value: {YOUR_WALLET_VALUE:.2f} {DISPLAY_CURRENCY}\n\n"
f"Monitored Tokens:\n"
f"{', '.join([info['name'] for info in TOKEN_ADDRESSES.values()])}"
)
logging.info(message)
await send_telegram_message(message)
async def get_transaction_details_rpc(tx_signature, readfromDump=False):
url = SOLANA_HTTP_URL
# url = 'https://solana.drpc.org'
headers = {"Content-Type": "application/json"}
data = {
"jsonrpc": "2.0",
"id": 1,
"method": "getTransaction",
"params": [
tx_signature,
{
"encoding": "jsonParsed",
"maxSupportedTransactionVersion": 0
}
]
}
try:
if readfromDump and os.path.exists('./logs/transation_details.json'):
with open('./logs/transation_details.json', 'r') as f: # trump_swap_tr_details
transaction_details = json.load(f)
return transaction_details
else:
response = requests.post(url, headers=headers, data=json.dumps(data))
response.raise_for_status() # Raises an error for bad responses
transaction_details = response.json()
with open('./logs/transation_details.json', 'w') as f:
json.dump(transaction_details, f, indent=2)
if 'result' in transaction_details:
#print(transaction_details['result'])
return transaction_details['result']
else:
print("Unexpected response:", transaction_details)
except requests.exceptions.RequestException as e:
print("Error fetching transaction details:", e)
async def save_log(log):
try:
os.makedirs('./logs', exist_ok=True)
timestamp = datetime.datetime.now().strftime("%Y%m%d_%H%M%S_%f")
filename = f"./logs/log_{timestamp}.json"
with open(filename, 'w') as f:
json.dump(log, f, indent=2)
except Exception as e:
logging.error(f"Error saving RPC log: {e}")
async def process_log(log_result):
if log_result['value']['err']:
return
logs = log_result['value']['logs']
try:
# Detect swap operations in logs
swap_operations = ['Program log: Instruction: Swap', 'Program log: Instruction: Swap2']
for log_entry in logs:
if any(op in log_entry for op in swap_operations):
try:
tx_signature_str = log_result['value']['signature']
details = await parse_swap_logs(tx_signature_str, logs)
message_text = (
f"Swap detected:\n"
f"Order ID: {details['order_id']}\n"
f"Token In: {details['token_in']}\n"
f"Token Out: {details['token_out']}\n"
f"Amount In USD: {details['amount_in_USD']}\n"
f"Percentage Swapped: {details['percentage_swapped']:.2f}%"
)
await send_telegram_message(message_text)
await follow_move(details)
except Exception as e:
logging.error(f"Error fetching transaction details: {e}")
return
except Exception as e:
logging.error(f"Error processing log: {e}")
# "Program log: Instruction: Swap2",
# "Program log: order_id: 13985890735038016",
# "Program log: AbrMJWfDVRZ2EWCQ1xSCpoVeVgZNpq1U2AoYG98oRXfn", source
# "Program log: EPjFWdd5AufqSSqeM2qN1xzybapC8G4wEGGkZwyTDt1v", target
# "Program log: before_source_balance: 58730110139, before_destination_balance: 202377778, amount_in: 58730110139, expect_amount_out: 270109505, min_return: 267408410",
# "Program log: after_source_balance: 0, after_destination_balance: 472509072",
# "Program log: source_token_change: 58730110139, destination_token_change: 270131294",
async def parse_swap_logs(tx_signature_str: str, logs: List[str]) -> Dict[str, Any]:
token_in = None
token_out = None
amount_in = 0
amount_out = 0
order_id = None
transaction_details = await get_transaction_details_rpc(tx_signature_str)
token_in, token_out, amount_in, amount_out = _extract_token_info(transaction_details)
# Fetch token prices
token_prices = await get_token_prices([token_in, token_out])
# Calculate USD values
amount_in_usd = amount_in * token_prices.get(token_in, 0)
amount_out_usd = amount_out * token_prices.get(token_out, 0)
# Get the pre-balance of the input token
before_source_balance = _get_pre_balance(transaction_details, token_in)
# Calculate the percentage of the source balance that was swapped
percentage_swapped = (amount_in / before_source_balance) * 100 if before_source_balance > 0 else 0
return {
"order_id": order_id,
"token_in": token_in,
"token_out": token_out,
"amount_in": amount_in,
"amount_out": amount_out,
"amount_in_USD": amount_in_usd,
"amount_out_USD": amount_out_usd,
"percentage_swapped": percentage_swapped
}
def _extract_token_info(transaction_details: Dict[str, Any]) -> Tuple[str, str, float, float]:
inner_instructions = transaction_details.get('meta', {}).get('innerInstructions', [])
token_in = None
token_out = None
amount_in = 0
amount_out = 0
for instruction_set in inner_instructions:
for instruction in instruction_set.get('instructions', []):
if 'parsed' in instruction and 'info' in instruction['parsed']:
info = instruction['parsed']['info']
if info.get('type') == 'transfer':
if token_in is None:
token_in = info.get('source')
amount_in = float(info.get('amount', 0))
else:
token_out = info.get('destination')
amount_out = float(info.get('amount', 0))
return token_in, token_out, amount_in, amount_out
def _get_pre_balance(transaction_details: Dict[str, Any], token: str) -> float:
pre_balances = transaction_details.get('meta', {}).get('preTokenBalances', [])
for balance in pre_balances:
if balance['mint'] == token:
return float(balance['uiTokenAmount']['amount'])
return 0.0
def _get_pre_balance(transaction_details: Dict[str, Any], token: str) -> float:
pre_balances = transaction_details.get('meta', {}).get('preTokenBalances', [])
for balance in pre_balances:
if balance['mint'] == token:
return float(balance['uiTokenAmount']['amount'])
return 0.0
async def follow_move(move):
your_balances = await get_wallet_balances(YOUR_WALLET)
your_balance_info = next((balance for balance in your_balances.values() if balance['address'] == move['token_in']), None)
if not your_balance_info:
message = f"Move Failed:\nNo balance found for token {move['token_in']}"
logging.warning(message)
await send_telegram_message(message)
return
your_balance = your_balance_info['amount']
token_name = your_balance_info['name']
# Calculate the amount to swap based on the same percentage as the followed move
amount_to_swap = your_balance * (move['percentage_swapped'] / 100)
if your_balance >= amount_to_swap:
try:
private_key = Keypair.from_bytes(base58.b58decode(os.getenv("PK")))
async_client = AsyncClient(SOLANA_WS_URL)
jupiter = Jupiter(async_client, private_key)
transaction_data = await jupiter.swap(
input_mint=move['token_in'],
output_mint=move['token_out'],
amount=int(amount_to_swap * 1e6), # Convert to lamports
slippage_bps=1,
)
raw_transaction = VersionedTransaction.from_bytes(base64.b64decode(transaction_data))
signature = private_key.sign_message(message.to_bytes_versioned(raw_transaction.message))
signed_txn = VersionedTransaction.populate(raw_transaction.message, [signature])
opts = TxOpts(skip_preflight=False, preflight_commitment=Processed)
result = await async_client.send_raw_transaction(txn=bytes(signed_txn), opts=opts)
transaction_id = json.loads(result.to_json())['result']
output_token_info = your_balances.get(move['token_out'], {'name': 'Unknown'})
output_token_name = output_token_info['name']
message = (
f"Move Followed:\n"
f"Swapped {amount_to_swap:.6f} {token_name} ({move['token_in']}) "
f"(same {move['percentage_swapped']:.2f}% as followed wallet)\n"
f"for {transaction_data['outputAmount'] / 1e6:.6f} {output_token_name} ({move['token_out']})"
)
logging.info(message)
await send_telegram_message(message)
except Exception as e:
error_message = f"Swap Error:\n{str(e)}"
logging.error(error_message)
await send_telegram_message(error_message)
else:
message = (
f"Move Failed:\n"
f"Insufficient balance to swap {amount_to_swap:.6f} {token_name} ({move['token_in']})"
)
logging.warning(message)
await send_telegram_message(message)
# Helper functions (implement these according to your needs)
async def on_logs(log):
logging.debug(f"Received log: {log}")
await save_log(log)
await process_log(log)
async def subscribe_to_wallet():
SOLANA_ENDPOINTS = [
"wss://api.mainnet-beta.solana.com",
"wss://solana-api.projectserum.com",
"wss://rpc.ankr.com/solana",
"wss://mainnet.rpcpool.com",
]
uri = SOLANA_WS_URL # wss://api.mainnet-beta.solana.com
reconnect_delay = 5 # Start with a 5-second delay
max_reconnect_delay = 60 # Maximum delay of 60 seconds
await list_initial_wallet_states()
while True:
try:
async with websockets.connect(uri) as websocket:
logger.info("Connected to Solana websocket")
subscription_id = await load_subscription_id()
request = {
"jsonrpc": "2.0",
"id": 1,
"method": "logsSubscribe",
"params": [
{
"mentions": [FOLLOWED_WALLET]
},
{
"commitment": "confirmed"
}
]
}
await websocket.send(json.dumps(request))
logger.info("Subscription request sent")
while True:
try:
response = await websocket.recv()
response_data = json.loads(response)
logger.debug(f"Received response: {response_data}")
if 'result' in response_data:
subscription_id = response_data['result']
await save_subscription_id(subscription_id)
logger.info(f"Subscription successful. Subscription id: {subscription_id}")
await send_telegram_message("Connected to Solana network. Watching for transactions now.")
elif 'params' in response_data:
await on_logs(response_data['params']['result'])
else:
logger.warning(f"Unexpected response: {response}")
except websockets.exceptions.ConnectionClosedError as e:
logger.error(f"Connection closed unexpectedly: {e}")
break
except json.JSONDecodeError as e:
logger.error(f"Failed to decode JSON: {e}")
except Exception as e:
logger.error(f"An unexpected error occurred: {e}")
break
except websockets.exceptions.WebSocketException as e:
logger.error(f"WebSocket error: {e}")
except Exception as e:
logger.error(f"An unexpected error occurred: {e}")
logger.info(f"Attempting to reconnect in {reconnect_delay} seconds...")
await asyncio.sleep(reconnect_delay)
# Implement exponential backoff
reconnect_delay = min(reconnect_delay * 2, max_reconnect_delay)
logger = logging.getLogger(__name__)
async def main():
# Initialize logging
logging.basicConfig(level=logging.DEBUG)
await send_telegram_message("Solana Agent Started. Connecting to mainnet...")
#await subscribe_to_wallet()
def run_flask():
# Run Flask app without the reloader, so we can run the async main function
app.run(debug=False, port=3001, use_reloader=False)
if __name__ == '__main__':
# Start Flask in a separate thread
flask_thread = threading.Thread(target=run_flask)
flask_thread.start()
# Create an event loop for the async tasks
loop = asyncio.get_event_loop()
loop.run_until_complete(main())
# Start Flask in a separate thread
flask_thread = threading.Thread(target=run_flask)
flask_thread.start()
# Run the async main function
asyncio.run(main())