def test_store_pre_commit_state_in_end_block(b, alice):
from bigchaindb import App
from bigchaindb.backend import query
from bigchaindb.models import Transaction
from bigchaindb.backend.query import PRE_COMMIT_ID
tx = Transaction.create([alice.public_key],
[([alice.public_key], 1)],
asset={'msg': 'live long and prosper'})\
.sign([alice.private_key])
app = App(b)
app.init_chain(['ignore'])
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
app.deliver_tx(encode_tx_to_bytes(tx))
app.end_block(RequestEndBlock(height=99))
resp = query.get_pre_commit_state(b.connection, PRE_COMMIT_ID)
assert resp['commit_id'] == PRE_COMMIT_ID
assert resp['height'] == 99
assert resp['transactions'] == [tx.id]
app.begin_block(begin_block)
app.deliver_tx(encode_tx_to_bytes(tx))
app.end_block(RequestEndBlock(height=100))
resp = query.get_pre_commit_state(b.connection, PRE_COMMIT_ID)
assert resp['commit_id'] == PRE_COMMIT_ID
assert resp['height'] == 100
assert resp['transactions'] == [tx.id]
def test_deliver_tx__double_spend_fails(b):
from bigchaindb import App
from bigchaindb.models import Transaction
from bigchaindb.common.crypto import generate_key_pair
alice = generate_key_pair()
bob = generate_key_pair()
tx = Transaction.create([alice.public_key],
[([bob.public_key], 1)])\
.sign([alice.private_key])
app = App(b)
app.init_chain(['ignore'])
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
result = app.deliver_tx(encode_tx_to_bytes(tx))
assert result.code == CodeTypeOk
app.end_block(RequestEndBlock(height=99))
app.commit()
assert b.get_transaction(tx.id).id == tx.id
result = app.deliver_tx(encode_tx_to_bytes(tx))
assert result.code == CodeTypeError
def test_deliver_tx__valid_create_updates_db_and_emits_event(
b, init_chain_request):
import multiprocessing as mp
from bigchaindb import App
from bigchaindb.models import Transaction
from bigchaindb.common.crypto import generate_key_pair
alice = generate_key_pair()
bob = generate_key_pair()
events = mp.Queue()
tx = Transaction.create([alice.public_key],
[([bob.public_key], 1)])\
.sign([alice.private_key])
app = App(b, events)
app.init_chain(init_chain_request)
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
result = app.deliver_tx(encode_tx_to_bytes(tx))
assert result.code == CodeTypeOk
app.end_block(RequestEndBlock(height=99))
app.commit()
assert b.get_transaction(tx.id).id == tx.id
block_event = events.get()
assert block_event.data['transactions'] == [tx]
def test_deliver_tx__double_spend_fails(b, init_chain_request):
from bigchaindb import App
from bigchaindb.models import Transaction
from bigchaindb.common.crypto import generate_key_pair
alice = generate_key_pair()
bob = generate_key_pair()
tx = Transaction.create([alice.public_key],
[([bob.public_key], 1)])\
.sign([alice.private_key])
app = App(b)
app.init_chain(init_chain_request)
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
result = app.deliver_tx(encode_tx_to_bytes(tx))
assert result.code == CodeTypeOk
app.end_block(RequestEndBlock(height=99))
app.commit()
assert b.get_transaction(tx.id).id == tx.id
result = app.deliver_tx(encode_tx_to_bytes(tx))
assert result.code == CodeTypeError
def test_deliver_tx__valid_create_updates_db_and_emits_event(b, init_chain_request):
import multiprocessing as mp
from bigchaindb import App
from bigchaindb.models import Transaction
from bigchaindb.common.crypto import generate_key_pair
alice = generate_key_pair()
bob = generate_key_pair()
events = mp.Queue()
tx = Transaction.create([alice.public_key],
[([bob.public_key], 1)])\
.sign([alice.private_key])
app = App(b, events)
app.init_chain(init_chain_request)
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
result = app.deliver_tx(encode_tx_to_bytes(tx))
assert result.code == CodeTypeOk
app.end_block(RequestEndBlock(height=99))
app.commit()
assert b.get_transaction(tx.id).id == tx.id
block_event = events.get()
assert block_event.data['transactions'] == [tx]
def test_end_block_return_validator_updates(b):
from bigchaindb import App
from bigchaindb.backend import query
from bigchaindb.core import encode_validator
from bigchaindb.backend.query import VALIDATOR_UPDATE_ID
app = App(b)
app.init_chain(['ignore'])
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
validator = {
'pub_key': {
'type':
'ed25519',
'data':
'B0E42D2589A455EAD339A035D6CE1C8C3E25863F268120AA0162AD7D003A4014'
},
'power': 10
}
validator_update = {
'validator': validator,
'update_id': VALIDATOR_UPDATE_ID
}
query.store_validator_update(b.connection, validator_update)
resp = app.end_block(RequestEndBlock(height=99))
assert resp.validator_updates[0] == encode_validator(validator)
updates = b.get_validator_update()
assert updates == []
def test_end_block_return_validator_updates(b, init_chain_request):
app = App(b)
app.init_chain(init_chain_request)
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
# generate a block containing a concluded validator election
validators = generate_validators([1] * 4)
b.store_validator_set(1, [v['storage'] for v in validators])
new_validator = generate_validators([1])[0]
public_key = validators[0]['public_key']
private_key = validators[0]['private_key']
voter_keys = [v['private_key'] for v in validators]
election, votes = generate_election(b, ValidatorElection, public_key,
private_key, new_validator['election'],
voter_keys)
b.store_block(
Block(height=1, transactions=[election.id], app_hash='')._asdict())
b.store_bulk_transactions([election])
Election.process_block(b, 1, [election])
app.block_transactions = votes
resp = app.end_block(RequestEndBlock(height=2))
assert resp.validator_updates[0].power == new_validator['election'][
'power']
expected = bytes.fromhex(new_validator['election']['public_key']['value'])
assert expected == resp.validator_updates[0].pub_key.data
def test_end_block_return_validator_updates(b, init_chain_request):
app = App(b)
app.init_chain(init_chain_request)
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
# generate a block containing a concluded validator election
validators = generate_validators([1] * 4)
b.store_validator_set(1, [v['storage'] for v in validators])
new_validator = generate_validators([1])[0]
public_key = validators[0]['public_key']
private_key = validators[0]['private_key']
voter_keys = [v['private_key'] for v in validators]
election, votes = generate_election(b,
ValidatorElection,
public_key, private_key,
new_validator['election'],
voter_keys)
b.store_block(Block(height=1, transactions=[election.id],
app_hash='')._asdict())
b.store_bulk_transactions([election])
Election.process_block(b, 1, [election])
app.block_transactions = votes
resp = app.end_block(RequestEndBlock(height=2))
assert resp.validator_updates[0].power == new_validator['election']['power']
expected = bytes.fromhex(new_validator['election']['public_key']['value'])
assert expected == resp.validator_updates[0].pub_key.data
def test_end_block_return_validator_updates(b, init_chain_request):
from bigchaindb import App
from bigchaindb.backend import query
from bigchaindb.core import encode_validator
from bigchaindb.backend.query import VALIDATOR_UPDATE_ID
app = App(b)
app.init_chain(init_chain_request)
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
validator = {'pub_key': {'type': 'ed25519',
'data': 'B0E42D2589A455EAD339A035D6CE1C8C3E25863F268120AA0162AD7D003A4014'},
'power': 10}
validator_update = {'validator': validator,
'update_id': VALIDATOR_UPDATE_ID}
query.store_validator_update(b.connection, validator_update)
resp = app.end_block(RequestEndBlock(height=99))
assert resp.validator_updates[0] == encode_validator(validator)
updates = b.approved_update()
assert not updates
def test_store_pre_commit_state_in_end_block(b, alice, init_chain_request):
from bigchaindb import App
from bigchaindb.backend import query
from bigchaindb.models import Transaction
from bigchaindb.backend.query import PRE_COMMIT_ID
tx = Transaction.create([alice.public_key],
[([alice.public_key], 1)],
asset={'msg': 'live long and prosper'})\
.sign([alice.private_key])
app = App(b)
app.init_chain(init_chain_request)
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
app.deliver_tx(encode_tx_to_bytes(tx))
app.end_block(RequestEndBlock(height=99))
resp = query.get_pre_commit_state(b.connection, PRE_COMMIT_ID)
assert resp['commit_id'] == PRE_COMMIT_ID
assert resp['height'] == 99
assert resp['transactions'] == [tx.id]
app.begin_block(begin_block)
app.deliver_tx(encode_tx_to_bytes(tx))
app.end_block(RequestEndBlock(height=100))
resp = query.get_pre_commit_state(b.connection, PRE_COMMIT_ID)
assert resp['commit_id'] == PRE_COMMIT_ID
assert resp['height'] == 100
assert resp['transactions'] == [tx.id]
# simulate a chain migration and assert the height is shifted
b.store_abci_chain(100, 'new-chain')
app = App(b)
app.begin_block(begin_block)
app.deliver_tx(encode_tx_to_bytes(tx))
app.end_block(RequestEndBlock(height=1))
resp = query.get_pre_commit_state(b.connection, PRE_COMMIT_ID)
assert resp['commit_id'] == PRE_COMMIT_ID
assert resp['height'] == 101
assert resp['transactions'] == [tx.id]
def test_store_pre_commit_state_in_end_block(b, alice, init_chain_request):
from bigchaindb import App
from bigchaindb.backend import query
from bigchaindb.models import Transaction
tx = Transaction.create([alice.public_key],
[([alice.public_key], 1)],
asset={'msg': 'live long and prosper'})\
.sign([alice.private_key])
app = App(b)
app.init_chain(init_chain_request)
begin_block = RequestBeginBlock()
app.begin_block(begin_block)
app.deliver_tx(encode_tx_to_bytes(tx))
app.end_block(RequestEndBlock(height=99))
resp = query.get_pre_commit_state(b.connection)
assert resp['height'] == 99
assert resp['transactions'] == [tx.id]
app.begin_block(begin_block)
app.deliver_tx(encode_tx_to_bytes(tx))
app.end_block(RequestEndBlock(height=100))
resp = query.get_pre_commit_state(b.connection)
assert resp['height'] == 100
assert resp['transactions'] == [tx.id]
# simulate a chain migration and assert the height is shifted
b.store_abci_chain(100, 'new-chain')
app = App(b)
app.begin_block(begin_block)
app.deliver_tx(encode_tx_to_bytes(tx))
app.end_block(RequestEndBlock(height=1))
resp = query.get_pre_commit_state(b.connection)
assert resp['height'] == 101
assert resp['transactions'] == [tx.id]
