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rpc_server.py
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rpc_server.py
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from flask import Flask, request, jsonify
import secrets
import sqlite3
from ethereum.transactions import Transaction
from ethereum.utils import decode_hex
import rlp
from web3 import Web3
app = Flask(__name__)
# Initialize eth_blockNumber
current_block_number = 0x2234
# Function to fetch balance from SQLite database
def validate_transaction(tx):
# Validate the transaction (this is a placeholder; your validation logic goes here)
return True
def broadcast_transaction(tx):
# Broadcast the transaction to the network (this is a placeholder; your broadcast logic goes here)
# Returning a fake hash for demonstration
return "0x" + tx.hash.hex()
# Function to update the account balances in the super_blocks table
def transfer(from_account, to_account, value):
try:
conn = sqlite3.connect("blocks.db")
cursor = conn.cursor()
# Check if the value is negative
if value < 0:
print("Transfer value cannot be negative.")
return
# Debug print
print(f"Initiating transfer of {value} from {from_account} to {to_account}")
# Add '0x' prefix if not present and convert accounts to lower case
from_account = from_account.lower() if from_account.startswith('0x') else '0x' + from_account.lower()
to_account = to_account.lower() if to_account.startswith('0x') else '0x' + to_account.lower()
# Check balance of the sender account
cursor.execute("SELECT super_block_count FROM super_blocks WHERE LOWER(account) = ?", (from_account,))
row = cursor.fetchone()
if row:
current_balance = row[0]
if current_balance < value:
print(f"Insufficient balance in account {from_account}. Transfer aborted.")
return
else:
print(f"Account {from_account} not found. Transfer aborted.")
return
# Deduct the value from the sender account
cursor.execute("""
UPDATE super_blocks
SET super_block_count = super_block_count - ?
WHERE LOWER(account) = ?;
""", (value, from_account))
affected_rows = cursor.rowcount
print(f"Deducted {value} from {from_account}. Rows affected: {affected_rows}")
# Add the value to the receiver account
cursor.execute("""
UPDATE super_blocks
SET super_block_count = super_block_count + ?
WHERE LOWER(account) = ?;
""", (value, to_account))
if cursor.rowcount == 0:
print(f"Account {to_account} not found. Inserting a new row.")
cursor.execute("INSERT INTO super_blocks (account, super_block_count) VALUES (?, ?)", (to_account, value))
# Commit and close
conn.commit()
conn.close()
except sqlite3.Error as e:
print("SQLite error occurred:", e)
if conn:
conn.rollback()
print("Transaction rolled back.")
raise
def get_balance_from_db(account):
try:
conn = sqlite3.connect("blocks.db")
cursor = conn.cursor()
query = "SELECT super_block_count FROM super_blocks WHERE LOWER(account) = LOWER(?)"
#print(f"Executing SQL query: {query} with account: {account}") # Print the query and account to standard output
cursor.execute("SELECT super_block_count FROM super_blocks WHERE LOWER(account) = LOWER(?)", (account,))
row = cursor.fetchone()
return row[0] if row else 0
except Exception as e:
print("Database error:", e)
return 0
finally:
if conn:
conn.close()
@app.route('/', methods=['POST'])
def index():
data = request.get_json()
global current_block_number
print("Received data:", data) # Print received queries to the screen
if data['jsonrpc'] != '2.0':
response = {'jsonrpc': '2.0', 'error': {'code': -32600, 'message': 'Invalid Request'}, 'id': None}
print("Sending response:", response) # Print response to the screen
return jsonify(response), 400
# Initialize the result variable
result = None
if data['method'] == 'eth_blockNumber':
result = hex(current_block_number)
current_block_number += 1 # Increment block number
elif data['method'] == 'eth_getBalance':
account = data['params'][0] # Convert account to lower case to ensure it matches
balance_decimal = get_balance_from_db(account) # Fetch balance from the database
result = hex(int(balance_decimal * 10**18)) # Convert to Wei
elif data['method'] == 'eth_estimateGas':
# Simulate gas estimation here. This is a simplified example and
# you would usually perform an actual gas estimation based on the
# transaction details.
result = '0x5208' # 21000 in hex, a common gas cost for simple transfers
elif data['method'] == 'eth_call':
result = '0x123456'
elif data['method'] == 'eth_chainId':
result = '0x1A5F0' # Mainnet
elif data['method'] == 'eth_getCode':
address = data['params'][0].lower() # Convert the address to lower case
block_number = data['params'][1] # The block number or tag; you may or may not use this depending on your implementation
# Example: Fetch the contract code from your database or some storage.
# In this example, it's hardcoded.
contract_code = {
'0xdadf7ac7d0622dedd7e58b4d85d3784cc0c9d0e7': '0x606060405260...'
}
result = contract_code.get(address, '0x') # return '0x' if the address is not a contract
elif data['method'] == 'eth_getTransactionReceipt':
tx_hash = data['params'][0]
print ("Entering eth_getTransactionReceipt");
receipt = {
'transactionHash': tx_hash,
'transactionIndex': '0x1',
'blockHash': '0x' + secrets.token_hex(32),
'blockNumber': '0x6',
'from': '0x' + secrets.token_hex(20),
'to': '0x' + secrets.token_hex(20),
'cumulativeGasUsed': '0xA',
'gasUsed': '0xA',
'contractAddress': None,
'logs': [],
'status': '0x1'
}
print ("Sending: ", receipt)
result = receipt
elif data['method'] == 'eth_getTransactionCount':
address = data['params'][0].lower()
block_number = data['params'][1] # May or may not use this depending on your needs
# Fetch the nonce from your database or however you're storing nonces
# For demonstration, we'll just use a hardcoded example
nonces = {
"0xc855fd5aa2829799dde83b43ac33651e46f610bb": 10
}
result = hex(nonces.get(address, 0))
elif data['method'] == 'eth_getBlockByNumber':
result = {
'number': '0x5BAD55',
'hash': '0x1234567890abcdef',
'transactions': []
}
elif data['method'] == 'net_version':
result = '1' # Mainnet
elif data['method'] == 'eth_getBlockByHash':
block_hash = data['params'][0]
full_tx = data['params'][1]
# Fetch block data by block hash.
# For demonstration purposes, let's use a mock block.
mock_block = {
'number': '0x1b4',
'hash': block_hash,
'transactions': ['0x123...', '0x124...'] if not full_tx else [
{
'hash': '0x123...',
'from': '0xabc...',
'to': '0xdef...',
'value': '0x1'
},
{
'hash': '0x124...',
'from': '0xghi...',
'to': '0xjkl...',
'value': '0x2'
}
]
# ... (other block fields)
}
result = mock_block
elif data['method'] == 'eth_gasPrice':
result = '0x3B9ACA00' # Example gas price, 1 Gwei in hexadecimal
elif data['method'] == 'eth_sendRawTransaction':
print (data)
raw_tx = data['params'][0]
print("Raw TX: ", raw_tx)
try:
handle_raw_transaction(raw_tx)
tx_hash = broadcast_transaction(raw_tx)
result = tx_hash
except Exception as e:
result = {'jsonrpc': '2.0', 'error': {'code': -32000, 'message': f'Exception: {e}'}, 'id': data['id']}
print("Sending response:", result) # Print response to the screen
return result
else:
response = {'jsonrpc': '2.0', 'error': {'code': -32601, 'message': 'Method not found'}, 'id': data.get('id', None)}
print("Sending response:", response) # Print response to the screen
return jsonify(response), 400
response = {
'jsonrpc': '2.0',
'id': data.get('id', None),
'result': result
}
print("Sending response:", response) # Print response to the screen
return jsonify(response)
def broadcast_transaction(raw_tx):
# Generate a 64-character long hex string as a fake Ethereum transaction hash
fake_tx_hash = '0x' + secrets.token_hex(32)
return fake_tx_hash
from Crypto.Hash import keccak
import rlp
from coincurve import PublicKey
def get_recovered_address(raw_tx):
w3 = Web3()
try:
# Recover the sender's address from the raw transaction
recovered_address = w3.eth.account.recover_transaction(raw_tx)
return recovered_address
except Exception as e:
print(f"An error occurred: {e}")
return None
def handle_raw_transaction(raw_tx):
# Decode the raw transaction
try:
# Decoding the hex-encoded transaction
decoded_tx = rlp.decode(bytes.fromhex(raw_tx[2:]), Transaction)
# Extract details
from_account = decoded_tx.sender # Or use another way to get sender address
to_account = decoded_tx.to
value = decoded_tx.value
gas = decoded_tx.startgas
gas_price = decoded_tx.gasprice
nonce = decoded_tx.nonce
input_data = decoded_tx.data
# Validate from address
validated_from = get_recovered_address(raw_tx)
transfer (validated_from, to_account.hex(), value/1e18)
# Print the decoded transaction details
print(f"From Account: {validated_from}")
print(f"To Account: {to_account.hex() if to_account else 'Contract Creation'}")
print(f"Value: {value} wei")
print(f"Gas: {gas}")
print(f"Gas Price: {gas_price} wei")
print(f"Nonce: {nonce}")
print(f"Input Data: {input_data.hex()}")
except Exception as e:
print(f"An error occurred: {e}")
if __name__ == '__main__':
app.run(host='0.0.0.0', port=5555, debug=True)