def test_reward_uncles(db):
"""
B0 B1 B2
B0 Uncle
We raise the block's coinbase account by Rb, the block reward,
and also add uncle and nephew rewards
"""
k, v, k2, v2 = accounts()
chain = Chain({}, difficulty=1)
blk0 = mine_on_chain(chain, coinbase=decode_hex('0' * 40))
local_coinbase = decode_hex('1' * 40)
uncle_coinbase = decode_hex('2' * 40)
# Mine the uncle
uncle = mine_on_chain(chain, blk0, coinbase=uncle_coinbase)
assert chain.state.get_balance(
uncle_coinbase) == 1 * chain.env.config['BLOCK_REWARD']
# Mine the first block in the "intended main chain"
blk1 = mine_on_chain(chain, blk0, coinbase=local_coinbase)
# next block should reward uncles
blk2 = mine_on_chain(chain, blk1, coinbase=local_coinbase)
# print [x.hash for x in chain.get_chain()], [blk0.hash, uncle.hash,
# blk1.hash, blk2.hash]
assert blk1.hash in chain
assert uncle.header.hash in [u.hash for u in blk2.uncles]
assert chain.head == blk2
assert chain.get_chain() == [blk0, blk1, blk2]
assert chain.state.get_balance(local_coinbase) == \
2 * chain.env.config['BLOCK_REWARD'] + \
chain.env.config['NEPHEW_REWARD']
assert chain.state.get_balance(
uncle_coinbase) == chain.env.config['BLOCK_REWARD'] * 7 // 8
def test_add_side_chain(db, alt_db):
""""
Local: L0, L1, L2
add
Remote: R0, R1
"""
k, v, k2, v2 = accounts()
# Remote: mine one block
chainR = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
tx0 = get_transaction(nonce=0)
R1 = mine_next_block(chainR, transactions=[tx0])
assert tx0.hash in [x.hash for x in R1.transactions]
# Local: mine two blocks
chainL = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
tx0 = get_transaction(nonce=0)
L1 = mine_next_block(chainL, transactions=[tx0])
tx1 = get_transaction(nonce=1)
L2 = mine_next_block(chainL, transactions=[tx1])
# receive serialized remote blocks, newest first
rlp_blocks = [rlp.encode(R1)]
for rlp_block in rlp_blocks:
block = rlp.decode(rlp_block, Block)
chainL.add_block(block)
assert L2.hash in chainL
assert chainL.head == L2
def test_add_longer_side_chain(db, alt_db):
""""
Local: L0, L1, L2
Remote: R0, R1, R2, R3
"""
k, v, k2, v2 = accounts()
# Remote: mine three blocks
chainR = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
remote_blocks = []
for i in range(3):
tx = get_transaction(nonce=i)
blk = mine_next_block(chainR, transactions=[tx])
remote_blocks.append(blk)
# Local: mine two blocks
chainL = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
tx0 = get_transaction(nonce=0)
L1 = mine_next_block(chainL, transactions=[tx0])
tx1 = get_transaction(nonce=1)
L2 = mine_next_block(chainL, transactions=[tx1])
# receive serialized remote blocks, newest first
rlp_blocks = [rlp.encode(x) for x in remote_blocks]
for rlp_block in rlp_blocks:
block = rlp.decode(rlp_block, Block)
chainL.add_block(block)
assert chainL.head == remote_blocks[-1]
def test_process_time_queue():
"""
Test Chain.process_time_queue
"""
# Arrange testing data blk0
k, v, k2, v2 = accounts()
chain = Chain({}, difficulty=1)
blk0 = mine_on_chain(chain, coinbase=decode_hex('0' * 40))
hash0 = chain.head.hash
blk1 = mine_on_chain(chain, coinbase=decode_hex('0' * 40))
hash1 = chain.head.hash
# Act on chain2
chain2 = Chain({}, difficulty=1)
chain2.time_queue.insert(0, blk0)
assert len(chain2.time_queue) == 1
# Not reach time threshold, process_time_queue doesn't call add_block
chain2.process_time_queue(new_time=0)
assert len(chain2.time_queue) == 1
assert chain2.head.hash != chain.head.hash
# Reach time threshold, process_time_queue calls add_block
chain2.process_time_queue(new_time=time.time() + 10)
assert len(chain2.time_queue) == 0
assert chain2.head.hash == hash0
# If new_time is None, use time.time()
chain2.time_queue.insert(1, blk1)
chain2.process_time_queue()
assert len(chain2.time_queue) == 0
assert chain2.head.hash == hash1
def test_mine_block_with_transaction2(db):
k, v, k2, v2 = accounts()
chain = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
genesis_hash = chain.state.prev_headers[0].hash
tx = get_transaction()
blk2 = mine_next_block(chain, coinbase=v, transactions=[tx])
assert tx in blk2.transactions
assert tx in blk2.transactions
assert chain.get_block(blk2.hash) == blk2
assert tx.gasprice == 0
assert chain.state.get_balance(
v) == chain.env.config['BLOCK_REWARD'] + chain.mk_poststate_of_blockhash(genesis_hash).get_balance(v) - tx.value
def test_mining(db):
chain = Chain({}, difficulty=1)
assert chain.state.block_number == 0
assert chain.state.block_difficulty == 1
for i in range(2):
blk = mine_next_block(chain)
assert blk.number == i + 1
def test_block_serialization_with_transaction_empty_genesis(db):
k, v, k2, v2 = accounts()
chain = Chain({}, difficulty=1)
tx = get_transaction(gasprice=10) # must fail, as there is no balance
a_blk2 = mine_next_block(chain, transactions=[tx])
assert tx.hash not in [x.hash for x in a_blk2.transactions]
assert len(a_blk2.transactions) == 0
def test_invalid_transaction(db):
k, v, k2, v2 = accounts()
chain = Chain({v2: {"balance": utils.denoms.ether * 1}}, difficulty=1)
tx = get_transaction()
blk = mine_next_block(chain, transactions=[tx])
assert chain.state.get_balance(v) == 0
assert chain.state.get_balance(v2) == utils.denoms.ether * 1
assert tx not in blk.transactions
def test_mine_block_with_transaction3(db):
k, v, k2, v2 = accounts()
chain = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
tx = get_transaction()
blk = mine_next_block(chain, transactions=[tx])
assert tx in blk.transactions
assert chain.state.get_balance(v) == utils.denoms.finney * 990
assert chain.state.get_balance(v2) == utils.denoms.finney * 10
def test_transaction(db):
k, v, k2, v2 = accounts()
chain = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
blk = mine_next_block(chain)
tx = get_transaction()
assert tx not in blk.transactions
messages.apply_transaction(chain.state, tx)
assert chain.state.get_balance(v) == utils.denoms.finney * 990
assert chain.state.get_balance(v2) == utils.denoms.finney * 10
def test_genesis_chain(db):
k, v, k2, v2 = accounts()
chain = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
blk = mine_on_chain(chain)
print('blook', blk)
assert chain.has_block(blk.hash)
assert blk.hash in chain
assert chain.get_block(blk.hash) == blk
assert chain.head == blk
assert chain.get_children(blk) == []
assert chain.get_chain() == [blk]
assert chain.get_block_by_number(1)
assert not chain.get_block_by_number(2)
assert chain.get_block_by_number(1) == blk
def test_transfer(db):
k, v, k2, v2 = accounts()
chain = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
b_v = chain.state.get_balance(v)
b_v2 = chain.state.get_balance(v2)
value = 42
success = chain.state.transfer_value(v, v2, value)
assert success
assert chain.state.get_balance(v) == b_v - value
assert chain.state.get_balance(v2) == b_v2 + value
def test_genesis_from_state_snapshot():
"""
Test if Chain could be initilaized from State snapshot
"""
# Customize a state
k, v, k2, v2 = accounts()
alloc = {v: {"balance": utils.denoms.ether * 1}}
state = mk_basic_state(alloc, None)
state.block_difficulty = 1
# Initialize another chain from state.to_snapshot()
genesis = state.to_snapshot()
new_chain = Chain(genesis=genesis)
assert new_chain.state.trie.root_hash == state.trie.root_hash
assert new_chain.state.block_difficulty == state.block_difficulty
assert new_chain.head.number == state.block_number
def test_simple_chain(db):
k, v, k2, v2 = accounts()
chain = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
tx = get_transaction()
blk2 = mine_next_block(chain, transactions=[tx])
blk3 = mine_next_block(chain)
assert blk2.hash in chain
assert blk3.hash in chain
assert chain.has_block(blk2.hash)
assert chain.has_block(blk3.hash)
assert chain.get_block(blk2.hash) == blk2
assert chain.get_block(blk3.hash) == blk3
assert chain.head == blk3
assert chain.get_children(blk2) == [blk3]
assert chain.get_chain() == [blk2, blk3]
assert chain.get_block_by_number(1) == blk2
assert chain.get_block_by_number(2) == blk3
assert not chain.get_block_by_number(3)
assert chain.get_tx_position(tx.hash) == (blk2.number, 0)
def test_mine_block(db):
k, v, k2, v2 = accounts()
chain = Chain({v: {"balance": utils.denoms.ether * 1}}, difficulty=1)
genesis_hash = chain.state.prev_headers[0].hash
blk2 = mine_next_block(chain, coinbase=v)
blk3 = mine_next_block(chain, coinbase=v)
blk4 = mine_next_block(chain, coinbase=v)
blk5 = mine_next_block(chain, coinbase=v)
assert chain.state.get_balance(
v) == chain.env.config['BLOCK_REWARD'] + chain.mk_poststate_of_blockhash(blk4.hash).get_balance(v)
assert chain.state.get_balance(
v) == chain.env.config['BLOCK_REWARD'] * 2 + chain.mk_poststate_of_blockhash(blk3.hash).get_balance(v)
assert chain.state.get_balance(
v) == chain.env.config['BLOCK_REWARD'] * 3 + chain.mk_poststate_of_blockhash(blk2.hash).get_balance(v)
assert chain.state.get_balance(
v) == chain.env.config['BLOCK_REWARD'] * 4 + chain.mk_poststate_of_blockhash(genesis_hash).get_balance(v)
assert blk2.prevhash == genesis_hash
def test_prevhash(db):
chain = Chain({}, difficulty=1)
L1 = mine_on_chain(chain)
assert chain.state.get_block_hash(0) != b'\x00' * 32
assert chain.state.get_block_hash(1) != b'\x00' * 32
assert chain.state.get_block_hash(2) == b'\x00' * 32
