def get_block_size(self, block_hash):
if not self.is_connected():
return
self.request = proto.GetBlockSize(block_hash)
self.sock.sendall(self.request.buffer.raw)
req_term = proto.TerminatingBlock()
req_term.pack()
self.sock.sendall(req_term.buffer.raw)
self.response = proto.Header()
self.sock.recv_into(self.response.buffer, self.response.structure.size)
self.response.unpack()
if not self.response.check_cmd_num('SendBlockSize'):
return
r_block_hash = proto.BlockHash()
self.sock.recv_into(r_block_hash.buffer, r_block_hash.structure.size)
r_block_hash.unpack()
block_size = proto.BlockSize()
self.sock.recv_into(block_size.buffer, block_size.structure.size)
block_size.unpack()
resp_term = proto.TerminatingBlock()
self.sock.recv_into(resp_term.buffer, resp_term.structure.size)
resp_term.unpack()
block_size = block_size.values[0]
return block_size
def get_last_hash(self):
if not self.is_connected():
return
self.request = proto.GetLastHash()
self.sock.sendall(self.request.buffer.raw)
req_term = proto.TerminatingBlock()
req_term.pack()
self.sock.sendall(req_term.buffer.raw)
self.response = proto.Header()
self.sock.recv_into(self.response.buffer, self.response.structure.size)
self.response.unpack()
if not self.response.check_cmd_num('SendLastHash'):
return
r_block_hash = proto.BlockHash()
self.sock.recv_into(r_block_hash.buffer, r_block_hash.structure.size)
r_block_hash.unpack()
resp_term = proto.TerminatingBlock()
self.sock.recv_into(resp_term.buffer, resp_term.structure.size)
resp_term.unpack()
block = Block()
block.set_hash(r_block_hash.get_hash())
return block
def get_counters(self):
if not self.connected:
logging.error("no connection")
return
self.request = proto.GetCounters()
self.sock.sendall(self.request.buffer.raw)
req_term = proto.TerminatingBlock()
req_term.pack()
self.sock.sendall(req_term.buffer.raw)
self.response = proto.Header()
self.sock.recv_into(self.response.buffer, self.response.structure.size)
self.response.unpack()
if not self.response.check_cmd_num('SendCounters'):
return
r_counters = proto.Counters()
self.sock.recv_into(r_counters.buffer, r_counters.structure.size)
r_counters.unpack()
resp_term = proto.TerminatingBlock()
self.sock.recv_into(resp_term.buffer, resp_term.structure.size)
resp_term.unpack()
counters = Counters()
counters.set_vals(r_counters.blocks, r_counters.transactions)
return counters
def get_balance(self):
if not self.is_connected():
return
self.request = proto.GetBalance()
self.sock.sendall(self.request.buffer.raw)
req_term = proto.TerminatingBlock()
req_term.pack()
self.sock.sendall(req_term.buffer.raw)
self.response = proto.Header()
self.sock.recv_into(self.response.buffer, self.response.structure.size)
self.response.unpack()
if not self.response.check_cmd_num('SendBalance'):
return
balance = proto.Balance()
self.sock.recv_into(balance.buffer, balance.structure.size)
balance.unpack()
resp_term = proto.TerminatingBlock()
self.sock.recv_into(resp_term.buffer, resp_term.structure.size)
resp_term.unpack()
amount = Amount()
amount.set_amount(balance.integral, balance.fraction)
return amount
def get_transaction(self, b_hash, t_hash):
if not self.is_connected():
return
self.request = proto.GetTransaction(b_hash, t_hash)
self.sock.sendall(self.request.buffer.raw)
req_term = proto.TerminatingBlock()
req_term.pack()
self.sock.sendall(req_term.buffer.raw)
self.response = proto.Header()
self.sock.recv_into(self.response.buffer, self.response.structure.size)
self.response.unpack()
if not self.response.check_cmd_num('SendTransaction'):
return
block_hash = proto.BlockHash()
self.sock.recv_into(block_hash.buffer, block_hash.structure.size)
block_hash.unpack()
signature = proto.Signature()
self.sock.recv_into(signature.buffer, signature.structure.size)
signature.unpack()
pub_key = proto.PublicKey()
self.sock.recv_into(pub_key.buffer, pub_key.structure.size)
pub_key.unpack()
tx_data = proto.TransactionData()
self.sock.recv_into(tx_data.buffer, tx_data.structure.size)
tx_data.unpack()
pprint(tx_data.buffer.raw)
pprint(pub_key.buffer.raw)
pprint(signature.buffer.raw)
from racrypt import RaCryptLib
import racrypt
from os import path
lib = racrypt.RaCryptLib()
pprint(path.dirname(racrypt.__file__))
lib.load(path.dirname(racrypt.__file__))
res = lib.verify(data=tx_data.buffer.raw,
pub_key=pub_key.buffer.raw,
signature=signature.buffer.raw)
pprint(res)
# transaction = proto.Transaction()
# self.sock.recv_into(transaction.buffer, transaction.structure.size)
# transaction.unpack()
# pprint(transaction.values)
resp_term = proto.TerminatingBlock()
self.sock.recv_into(resp_term.buffer, resp_term.structure.size)
resp_term.unpack()
t = Transaction()
# t.parse(transaction.values)
return t
def send_transaction(self, target, amountIntegral, amountFraction):
if not self.is_connected():
logging.error("no connection")
return False
#TODO sign Transaction
import racrypt
from os import path
lib = racrypt.RaCryptLib()
pprint(path.dirname(racrypt.__file__))
lib.load(path.dirname(racrypt.__file__))
t = Transaction()
t.hash_hex = (
b'c1c02d12cdadbc73da73cbd9985b2a41ffdb8dba9de470eaab453cc3595'
b'eab31f84bbe0766aea98b7ab5487eb5f962fc9c3ed6b6119600428d55ba'
b'd383be5020')
t.sender_public = self.public_key
t.receiver_public = target
t.amount.integral = amountIntegral
t.amount.fraction = amountFraction
t.currency = b'RAS'
t.salt = bytearray(buffer_size)
for it in range(buffer_size):
target[it] = random.randint(0, 255)
lib.sign(0, 188, self.public_key, self.private_key)
#send
self.request = proto.SendTransaction(t)
self.sock.sendall(self.request.buffer.raw)
req_term = proto.TerminatingBlock()
req_term.pack()
self.sock.sendall(req_term.buffer.raw)
#receive
self.response = proto.Header()
self.sock.recv_into(self.response.buffer, self.response.structure.size)
self.response.unpack()
if not self.response.check_cmd_num('Error'):
logging.error("Node didnt getTransaction")
return False
resp_term = proto.TerminatingBlock()
self.sock.recv_into(resp_term.buffer, resp_term.structure.size)
resp_term.unpack()
return True
def get_blocks(self, offset, limit):
if not self.connected:
logging.error("no connection")
return
self.request = proto.GetBlocks(offset, limit)
self.sock.sendall(self.request.buffer.raw)
req_term = proto.TerminatingBlock()
req_term.pack()
self.sock.sendall(req_term.buffer.raw)
self.response = proto.Header()
self.sock.recv_into(self.response.buffer, self.response.structure.size)
self.response.unpack()
if not self.response.check_cmd_num('SendBlocks'):
return
blocks = []
if self.response.size == 0:
return blocks
block_size = proto.calcsize(proto.F_HASH)
if self.response.size % block_size > 0:
return blocks
blocks_count = int(self.response.size / block_size)
for b in range(0, blocks_count):
block_hash = proto.BlockHash()
self.sock.recv_into(block_hash.buffer, block_hash.structure.size)
block_hash.unpack()
block = Block()
block.set_hash(block_hash.get_hash())
blocks.append(block)
return blocks
def get_transactions(self, block_hash, offset, limit):
if not self.is_connected():
return
self.request = proto.GetTransactions(block_hash, offset, limit)
self.sock.sendall(self.request.buffer.raw)
req_term = proto.TerminatingBlock()
req_term.pack()
self.sock.sendall(req_term.buffer.raw)
self.response = proto.Header()
self.sock.recv_into(self.response.buffer, self.response.structure.size)
self.response.unpack()
txs = []
if not self.response.check_cmd_num('SendTransactions'):
return txs
if not self.response.check():
return txs
tx_size = proto.calcsize('=%s' % proto.F_TRANSACTION)
block_size = proto.calcsize('=%s' % proto.F_HASH)
txs_size = self.response.size - block_size
r_block_hash = proto.BlockHash()
self.sock.recv_into(r_block_hash.buffer, r_block_hash.structure.size)
r_block_hash.unpack()
if txs_size % tx_size > 0:
return txs
txs_count = int(txs_size / tx_size)
for i in range(0, txs_count):
tx = proto.Transaction()
self.sock.recv_into(tx.buffer, tx.structure.size)
tx.unpack()
# pprint(tx.values)
t = Transaction()
t.parse(tx.values)
txs.append(t)
return txs