def __init__(self):
crypto = ECCrypto()
key_requester = crypto.generate_key(u"curve25519")
key_responder = crypto.generate_key(u"curve25519")
# Random payload but unique numbers.
sequence_number_requester = random.randint(50, 100)
sequence_number_responder = random.randint(101, 200)
up = random.randint(201, 220)
down = random.randint(221, 240)
total_up_requester = random.randint(241, 260)
total_down_requester = random.randint(261, 280)
total_up_responder = random.randint(281, 300)
total_down_responder = random.randint(301, 320)
# A random hash is generated for the previous hash. It is only used to test if a hash can be persisted.
previous_hash_requester = sha256(str(random.randint(0,
100000))).digest()
public_key_requester = crypto.key_to_bin(key_requester.pub())
signature_requester = crypto.create_signature(
key_requester,
encode_signing_format([
up, down, total_up_requester, total_down_requester,
sequence_number_requester, previous_hash_requester
]))
# A random hash is generated for the hash.
# TODO: Use the actual hash
hash_requester = sha256(str(random.randint(0, 100000))).digest()
# A random hash is generated for the previous hash. It is only used to test if a hash can be persisted.
previous_hash_responder = sha256(str(random.randint(100001,
200000))).digest()
public_key_responder = crypto.key_to_bin(key_responder.pub())
signature_responder = crypto.create_signature(
key_responder,
encode_signing_format([
up, down, total_up_requester, total_down_requester,
sequence_number_requester, previous_hash_requester,
total_up_responder, total_down_responder,
sequence_number_responder, previous_hash_responder
]))
# A random hash is generated for the hash.
# TODO: Use the actual hash
hash_responder = sha256(str(random.randint(0, 100000))).digest()
DatabaseBlock.__init__(
self, (public_key_requester, public_key_responder, up, down,
total_up_requester, total_down_requester,
sequence_number_requester, previous_hash_requester,
signature_requester, hash_requester, total_up_responder,
total_down_responder, sequence_number_responder,
previous_hash_responder, signature_responder,
hash_responder, None))
def sign(self, key):
"""
Signs this block with the given key
:param key: the key to sign this block with
"""
crypto = ECCrypto()
self.signature = crypto.create_signature(key, self.pack(signature=False))
def sign(self, member):
"""
Sign this tick using a private key.
:param member: The member that signs this tick
"""
crypto = ECCrypto()
self._public_key = member.public_key
self._signature = crypto.create_signature(member.private_key, self.get_sign_data())
