def bft():
# Cryptographic Identities Generation
alice, bob = generate_keypair(), generate_keypair()
print(" ")
# Digital Asset Definition (e.g. bicycle)
asset = Asset(data={
"bicycle": {
"manufacturer": "bkfab",
"serial_number": "abcd1234"
}
})
# Metadata Definition
metadata = {'planet': 'earth'}
# create trnsaction TODO : owners_before might be node_pubkey in v0.8.0
tx = Transaction.create([alice.public_key], [([alice.public_key], 1)],
metadata=metadata,
asset=asset)
# sign with private key
tx = tx.sign([alice.private_key])
tx_id = tx.to_dict()['id']
print("tx_id : ", tx_id)
# create block
b = Bigchain()
block = b.create_block([tx])
print("valid block timestamp : ",
block.to_dict()['block']['timestamp'])
# tamper block
block.timestamp = '1'
print("tamper block.timestamp to 1 : ")
block_id = block.to_dict()['id']
block_voters = block.to_dict()['block']['voters']
print("invalid block timestamp : ",
block.to_dict()['block']['timestamp'])
print("tamper_block_id : ", block_id)
print("db response of block : ", b.write_block(block))
sleep(0)
last_voted_id = b.get_last_voted_block().id
vote = b.vote(block_id, last_voted_id, True)
print("crate vote 'True' : ", vote)
print("db response of vote : ", b.write_vote(vote))
print("tamper_block status : ",
b.block_election_status(block_id, block_voters))
print("blocks_status_containing_tx : ",
b.get_blocks_status_containing_tx(tx_id))
print("wait for 20 sec : ")
sleep(20)
print("blocks_status_containing_tx : ",
b.get_blocks_status_containing_tx(tx_id))
print(" ")
def tamper_block():
# Cryptographic Identities Generation
alice, bob = generate_keypair(), generate_keypair()
print(" ")
# Digital Asset Definition (e.g. bicycle)
asset = Asset(data={
"bicycle": {
"manufacturer": "bkfab",
"serial_number": "abcd1234"
}
})
# Metadata Definition
metadata = {'planet': 'earth'}
# create trnsaction TODO : owners_before might be node_pubkey in v0.8.0
tx = Transaction.create([alice.public_key], [([alice.public_key], 1)],
metadata=metadata,
asset=asset)
# sign with private key
tx = tx.sign([alice.private_key])
tx_id = tx.to_dict()['id']
print("tx_id : ", tx_id)
# create block
b = Bigchain()
block = b.create_block([tx])
block_id = block.to_dict()['id']
block_voters = block.to_dict()['block']['voters']
print("last_block_id sig : ", block_id, block.signature)
print(block.to_dict())
# tamper block sig
block.sign(alice.private_key)
block_dict = block.to_dict()
print("tamper_block_id sig : ", block_dict['id'],
block_dict['signature'])
print(block_dict)
print("db response : ",
b.backend.write_block(serialize(block_dict)))
sleep(delay)
print("tamper_block status : ",
b.block_election_status(block_dict['id'], block_voters))
print("blocks_status_containing_tx : ",
b.get_blocks_status_containing_tx(tx_id))
print(" ")
def create_double():
##################################################### 1.CREATE
# Cryptographic Identities Generation
alice, bob = generate_keypair(), generate_keypair()
# Digital Asset Definition (e.g. money)
asset = Asset(data={'money': 'RMB'},
data_id='20170628150000',
divisible=True)
# Metadata Definition
metadata = {'planet': 'earth'}
# create trnsaction TODO : owners_before might be node_pubkey in v0.8.0
tx = Transaction.create([alice.public_key], [([alice.public_key], 100),
([alice.public_key], 100)],
metadata=metadata,
asset=asset)
print(" ")
print("1.tx_create asset id : alice-----money(",
tx.to_dict()['transaction']['asset']['id'], ")----->alice")
print("1.tx_create tx id : ", tx.to_dict()['id'])
# sign with alice's private key
tx = tx.sign([alice.private_key])
tx_id = tx.to_dict()['id']
# write to backlog
b = Bigchain()
print("1.tx_create db response : ", b.write_transaction(tx))
# wait 2 sec
sleep(delay)
# get tx by id
tx = b.get_transaction(tx_id)
unspent = b.get_outputs_filtered_not_include_freeze(
alice.public_key, False)
print("1.tx_create query : ", tx)
print("1.tx_create unspent : ", unspent)
print(" ")
##################################################### 2.TRANSFER
# inputs and asset
cid = 0
condition = tx.to_dict()['transaction']['conditions'][cid]
inputs = Fulfillment.from_dict({
'fulfillment':
condition['condition']['details'],
'input': {
'cid': cid,
'txid': tx.to_dict()['id'],
},
'owners_before': [alice.public_key],
})
asset = Asset.from_dict(tx.to_dict()['transaction']['asset'])
# transfer
tx1 = Transaction.transfer([inputs], [([bob.public_key], 100)], asset)
print("2.tx_transfer asset id : alice-----money(",
tx1.to_dict()['transaction']['asset']['id'], ")----->bob")
print("2.tx_transfer tx id : ", tx1.to_dict()['id'])
# sign with alice's private key
tx1 = tx1.sign([alice.private_key])
tx1_id = tx1.to_dict()['id']
# write to backlog
b = Bigchain()
print("2.tx_transfer db response : ", b.write_transaction(tx1))
# wait 2 sec
sleep(delay)
# get tx by id
tx1 = b.get_transaction(tx1_id)
block = list(b.get_blocks_status_containing_tx(tx1_id).keys())[0]
votes = list(b.backend.get_votes_by_block_id(block))
votes_cast = [vote['vote']['is_block_valid'] for vote in votes]
election = b.get_blocks_status_containing_tx(tx1_id)
print("2.tx_transfer query : ", tx1)
print("2.tx_transfer block : ", block)
print("2. votes : ", votes)
print("2. votes_cast : ", votes_cast)
print("2. election : ", election)
print(" ")
##################################################### 3.INTERVAL
# Cryptographic Identities Generation
alice, bob = generate_keypair(), generate_keypair()
# Digital Asset Definition (e.g. money)
asset = Asset(data={'money': 'RMB'},
data_id='20170628150000',
divisible=True)
# Metadata Definition
metadata = {'planet': 'earth'}
# create trnsaction TODO : owners_before might be node_pubkey in v0.8.0
txi = Transaction.create([alice.public_key], [([alice.public_key], 100),
([alice.public_key], 100)],
metadata=metadata,
asset=asset)
print(" ")
print("1.tx_create asset id : alice-----money(",
tx.to_dict()['transaction']['asset']['id'], ")----->alice")
print("1.tx_create tx id : ", txi.to_dict()['id'])
# sign with alice's private key
txi = txi.sign([alice.private_key])
tx_id = txi.to_dict()['id']
# write to backlog
b = Bigchain()
print("1.tx_create db response : ", b.write_transaction(tx))
# wait 2 sec
sleep(delay)
##################################################### 3.TRANSFER
# inputs and asset [double spend]
cid = 1
condition = tx.to_dict()['transaction']['conditions'][cid]
inputs = Fulfillment.from_dict({
'fulfillment':
condition['condition']['details'],
'input': {
'cid': cid,
'txid': tx.to_dict()['id'],
},
'owners_before': [alice.public_key],
})
asset = Asset.from_dict(tx.to_dict()['transaction']['asset'])
# transfer
tx1 = Transaction.transfer([inputs], [([bob.public_key], 100)], asset)
print("3.tx_double asset id : alice-----money(",
tx1.to_dict()['transaction']['asset']['id'], ")----->bob")
print("3.tx_double tx id : ", tx1.to_dict()['id'])
# sign with alice's private key
tx1 = tx1.sign([alice.private_key])
tx1_id = tx1.to_dict()['id']
# write to backlog
b = Bigchain()
print("3.tx_double db response : ", b.write_transaction(tx1))
# wait 2 sec
sleep(delay)
# get tx by id
tx1 = b.get_transaction(tx1_id)
block = list(b.get_blocks_status_containing_tx(tx1_id).keys())[0]
votes = list(b.backend.get_votes_by_block_id(block))
votes_cast = [vote['vote']['is_block_valid'] for vote in votes]
election = b.get_blocks_status_containing_tx(tx1_id)
print("3.tx_transfer query : ", tx1)
print("3.tx_transfer block : ", block)
print("3. votes : ", votes)
print("3. votes_cast : ", votes_cast)
print("3. election : ", election)
print(" ")
