def test_process_new_block_cleans_nbn(self):
blocks = generate_blocks(2)
driver = ContractDriver(driver=InMemDriver())
node = base.Node(
socket_base='tcp://127.0.0.1:18002',
ctx=self.ctx,
wallet=Wallet(),
constitution={
'masternodes': [Wallet().verifying_key],
'delegates': [Wallet().verifying_key]
},
driver=driver,
store=True,
blocks=self.blocks,
)
# Add one old and one new block.
# Function should only delete the old one
node.new_block_processor.q.append(blocks[0])
node.new_block_processor.q.append(blocks[1])
node.process_new_block(blocks[0])
block = node.new_block_processor.q[0]
self.assertEqual(block, blocks[1])
self.assertEqual(len(node.new_block_processor.q), 1)
def test_get_masternode_peers_gets_masternodes(self):
mn_wallet = Wallet()
dl_wallet = Wallet()
mn_bootnode = 'tcp://127.0.0.1:18001'
dl_bootnode = 'tcp://127.0.0.1:18002'
constitution = {
'masternodes': [mn_wallet.verifying_key],
'delegates': [dl_wallet.verifying_key]
}
bootnodes = {
mn_wallet.verifying_key: mn_bootnode,
dl_wallet.verifying_key: dl_bootnode
}
node_w = Wallet()
driver = ContractDriver(driver=InMemDriver())
node = base.Node(socket_base='tcp://127.0.0.1:18003',
ctx=self.ctx,
wallet=node_w,
constitution=constitution,
driver=driver,
store=False,
bootnodes=bootnodes)
# Assume caught up state
node.network.peers = bootnodes
m = node.get_masternode_peers()
self.assertEqual(m, {mn_wallet.verifying_key: mn_bootnode})
def test_should_process_block_true_if_expected_block_equal_to_block(self):
block = canonical.block_from_subblocks(subblocks=[],
previous_hash='0' * 64,
block_num=1)
driver = ContractDriver(driver=InMemDriver())
node = base.Node(socket_base='tcp://127.0.0.1:18002',
ctx=self.ctx,
wallet=Wallet(),
constitution={
'masternodes': [Wallet().verifying_key],
'delegates': [Wallet().verifying_key]
},
driver=driver)
self.assertTrue(node.should_process(block))
def test_catchup_with_nbn_added(self):
driver = ContractDriver(driver=InMemDriver())
mn_bootnode = 'tcp://127.0.0.1:18001'
mn_wallet = Wallet()
mn_router = router.Router(socket_id=mn_bootnode,
ctx=self.ctx,
secure=True,
wallet=mn_wallet)
mn_router.add_service(base.BLOCK_SERVICE, self.b)
nw = Wallet()
dlw = Wallet()
node = base.Node(socket_base='tcp://127.0.0.1:18002',
ctx=self.ctx,
wallet=nw,
constitution={
'masternodes': [mn_wallet.verifying_key],
'delegates': [dlw.verifying_key]
},
driver=driver)
self.authenticator.add_verifying_key(mn_wallet.verifying_key)
self.authenticator.add_verifying_key(nw.verifying_key)
self.authenticator.add_verifying_key(dlw.verifying_key)
self.authenticator.configure()
blocks = generate_blocks(4)
self.blocks.store_block(blocks[0])
self.blocks.store_block(blocks[1])
self.blocks.store_block(blocks[2])
storage.set_latest_block_height(3, self.driver)
node.new_block_processor.q.append(blocks[3])
tasks = asyncio.gather(
mn_router.serve(),
node.catchup('tcp://127.0.0.1:18001', mn_wallet.verifying_key),
stop_server(mn_router, 1))
self.loop.run_until_complete(tasks)
self.assertEqual(storage.get_latest_block_height(node.driver), 4)
def test_should_process_block_false_if_previous_if_not_current_hash(self):
block = {
'hash': 'a' * 64,
'number': 1,
'previous': 'b' * 64,
'subblocks': []
}
driver = ContractDriver(driver=InMemDriver())
node = base.Node(socket_base='tcp://127.0.0.1:18002',
ctx=self.ctx,
wallet=Wallet(),
constitution={
'masternodes': [Wallet().verifying_key],
'delegates': [Wallet().verifying_key]
},
driver=driver)
self.assertFalse(node.should_process(block))
def test_process_new_block_updates_state(self):
block = canonical.block_from_subblocks(subblocks=[],
previous_hash='0' * 64,
block_num=1)
driver = ContractDriver(driver=InMemDriver())
node = base.Node(socket_base='tcp://127.0.0.1:18002',
ctx=self.ctx,
wallet=Wallet(),
constitution={
'masternodes': [Wallet().verifying_key],
'delegates': [Wallet().verifying_key]
},
driver=driver)
node.process_new_block(block)
self.assertEqual(storage.get_latest_block_height(node.driver), 1)
self.assertEqual(storage.get_latest_block_hash(node.driver),
block['hash'])
def test_process_new_block_clears_cache(self):
block = canonical.block_from_subblocks(subblocks=[],
previous_hash='0' * 64,
block_num=1)
driver = ContractDriver(driver=InMemDriver())
node = base.Node(
socket_base='tcp://127.0.0.1:18002',
ctx=self.ctx,
wallet=Wallet(),
constitution={
'masternodes': [Wallet().verifying_key],
'delegates': [Wallet().verifying_key]
},
driver=driver,
store=True,
blocks=self.blocks,
)
node.driver.cache['test'] = 123
node.process_new_block(block)
self.assertIsNone(node.driver.cache.get('test'))
def test_process_new_block_stores_block_if_should_store(self):
block = canonical.block_from_subblocks(subblocks=[],
previous_hash='0' * 64,
block_num=1)
driver = ContractDriver(driver=InMemDriver())
node = base.Node(
socket_base='tcp://127.0.0.1:18002',
ctx=self.ctx,
wallet=Wallet(),
constitution={
'masternodes': [Wallet().verifying_key],
'delegates': [Wallet().verifying_key]
},
driver=driver,
store=True,
blocks=self.blocks,
)
node.process_new_block(block)
b = node.blocks.get_block(1)
self.assertEqual(b, block)
def test_start_boots_up_normally(self):
# This MN will also provide 'catch up' services
mn_bootnode = 'tcp://127.0.0.1:18001'
mn_wallet = Wallet()
mn_router = router.Router(socket_id=mn_bootnode,
ctx=self.ctx,
secure=True,
wallet=mn_wallet)
mn_network = network.Network(wallet=mn_wallet,
ip_string=mn_bootnode,
ctx=self.ctx,
router=mn_router)
blocks = generate_blocks(4)
self.blocks.store_block(blocks[0])
self.blocks.store_block(blocks[1])
self.blocks.store_block(blocks[2])
storage.set_latest_block_height(3, self.driver)
mn_router.add_service(
base.BLOCK_SERVICE,
masternode.BlockService(self.blocks, self.driver))
dl_bootnode = 'tcp://127.0.0.1:18002'
dl_wallet = Wallet()
dl_router = router.Router(socket_id=dl_bootnode,
ctx=self.ctx,
secure=True,
wallet=dl_wallet)
dl_network = network.Network(wallet=dl_wallet,
ip_string=dl_bootnode,
ctx=self.ctx,
router=dl_router)
constitution = {
'masternodes': [mn_wallet.verifying_key],
'delegates': [dl_wallet.verifying_key]
}
bootnodes = {
mn_wallet.verifying_key: mn_bootnode,
dl_wallet.verifying_key: dl_bootnode
}
node_w = Wallet()
driver = ContractDriver(driver=InMemDriver())
node = base.Node(socket_base='tcp://127.0.0.1:18003',
ctx=self.ctx,
wallet=node_w,
constitution=constitution,
driver=driver,
store=False,
bootnodes=bootnodes)
self.authenticator.add_verifying_key(mn_wallet.verifying_key)
self.authenticator.add_verifying_key(dl_wallet.verifying_key)
self.authenticator.add_verifying_key(node_w.verifying_key)
self.authenticator.configure()
vks = [mn_wallet.verifying_key, dl_wallet.verifying_key]
tasks = asyncio.gather(
mn_router.serve(),
dl_router.serve(),
mn_network.start(bootnodes, vks),
dl_network.start(bootnodes, vks),
stop_server(mn_router, 0.2),
stop_server(dl_router, 0.2),
)
self.loop.run_until_complete(tasks)
tasks = asyncio.gather(mn_router.serve(), dl_router.serve(),
node.start(), stop_server(mn_router, 1),
stop_server(dl_router, 1),
stop_server(node.router, 1))
self.loop.run_until_complete(tasks)
self.assertEqual(storage.get_latest_block_height(node.driver), 3)
self.assertEqual(storage.get_latest_block_hash(node.driver),
blocks[2]['hash'])
