def run_scenario(scenario, config_file):
"""
Run a test scenario:
* set up the virtualchain to use our mock UTXO provider and mock bitcoin blockchain
* seed it with the initial values in the wallet
* set the initial consensus hash
* run the scenario method
* run the check method
"""
# use mock bitcoind
virtualchain.setup_virtualchain(
blockstore_state_engine,
bitcoind_connection_factory=mock_bitcoind.connect_mock_bitcoind)
# set up blockstore
# NOTE: utxo_opts encodes the mock-bitcoind options
blockstore_opts, bitcoin_opts, utxo_opts, dht_opts = blockstore.lib.configure(
config_file=config_file, interactive=False)
# override multiprocessing options to ensure single-process behavior
utxo_opts['multiprocessing_num_procs'] = 1
utxo_opts['multiprocessing_num_blocks'] = 64
blockstored.set_bitcoin_opts(bitcoin_opts)
blockstored.set_utxo_opts(utxo_opts)
db = blockstored.get_state_engine()
bitcoind = mock_bitcoind.connect_mock_bitcoind(utxo_opts)
sync_virtualchain_upcall = lambda: virtualchain.sync_virtualchain(
utxo_opts, bitcoind.getblockcount(), db)
mock_utxo = blockstore.lib.connect_utxo_provider(utxo_opts)
working_dir = virtualchain.get_working_dir()
# set up test environment
testlib.set_utxo_client(mock_utxo)
testlib.set_bitcoind(bitcoind)
testlib.set_state_engine(db)
test_env = {
"sync_virtualchain_upcall": sync_virtualchain_upcall,
"working_dir": working_dir
}
# sync initial utxos
testlib.next_block(**test_env)
# load the scenario into the mock blockchain and mock utxo provider
try:
scenario.scenario(scenario.wallets, **test_env)
except Exception, e:
log.exception(e)
traceback.print_exc()
log.error("Failed to run scenario '%s'" % scenario.__name__)
return False
def run_scenario( scenario, config_file ):
"""
Run a test scenario:
* set up the virtualchain to use our mock UTXO provider and mock bitcoin blockchain
* seed it with the initial values in the wallet
* set the initial consensus hash
* run the scenario method
* run the check method
"""
# use mock bitcoind
virtualchain.setup_virtualchain( blockstore_state_engine, bitcoind_connection_factory=mock_bitcoind.connect_mock_bitcoind )
# set up blockstore
# NOTE: utxo_opts encodes the mock-bitcoind options
blockstore_opts, bitcoin_opts, utxo_opts, dht_opts = blockstore.lib.configure( config_file=config_file, interactive=False )
# override multiprocessing options to ensure single-process behavior
utxo_opts['multiprocessing_num_procs'] = 1
utxo_opts['multiprocessing_num_blocks'] = 64
blockstored.set_bitcoin_opts( bitcoin_opts )
blockstored.set_utxo_opts( utxo_opts )
db = blockstored.get_state_engine()
bitcoind = mock_bitcoind.connect_mock_bitcoind( utxo_opts )
sync_virtualchain_upcall = lambda: virtualchain.sync_virtualchain( utxo_opts, bitcoind.getblockcount(), db )
mock_utxo = blockstore.lib.connect_utxo_provider( utxo_opts )
working_dir = virtualchain.get_working_dir()
# set up test environment
testlib.set_utxo_client( mock_utxo )
testlib.set_bitcoind( bitcoind )
testlib.set_state_engine( db )
test_env = {
"sync_virtualchain_upcall": sync_virtualchain_upcall,
"working_dir": working_dir
}
# sync initial utxos
testlib.next_block( **test_env )
# load the scenario into the mock blockchain and mock utxo provider
try:
scenario.scenario( scenario.wallets, **test_env )
except Exception, e:
log.exception(e)
traceback.print_exc()
log.error("Failed to run scenario '%s'" % scenario.__name__)
return False
def run_scenario( scenario, config_file ):
"""
Run a test scenario:
* set up the virtualchain to use our mock UTXO provider and mock bitcoin blockchain
* seed it with the initial values in the wallet
* set the initial consensus hash
* run the scenario method
* run the check method
"""
# use mock bitcoind
virtualchain.setup_virtualchain( blockstore_state_engine, bitcoind_connection_factory=mock_bitcoind.connect_mock_bitcoind )
# set up blockstore
# NOTE: utxo_opts encodes the mock-bitcoind options
blockstore_opts, bitcoin_opts, utxo_opts, dht_opts = blockstore.lib.configure( config_file=config_file, interactive=False )
# override multiprocessing options to ensure single-process behavior
utxo_opts['multiprocessing_num_procs'] = 1
utxo_opts['multiprocessing_num_blocks'] = 64
blockstored.set_bitcoin_opts( bitcoin_opts )
blockstored.set_utxo_opts( utxo_opts )
db = blockstored.get_state_engine()
bitcoind = mock_bitcoind.connect_mock_bitcoind( utxo_opts )
# count blocks as given (needs to be by ref)
block_counter = {'count': virtualchain.get_first_block_id() }
# load the scenario into the mock blockchain and mock utxo provider
try:
scenario.scenario( scenario.wallets, bitcoind=bitcoind, block_counter=block_counter )
except Exception, e:
log.exception(e)
log.error("Failed to run scenario '%s'" % scenario.__name__)
return False
def run_scenario(scenario, config_file):
"""
Run a test scenario:
* set up the virtualchain to use our mock UTXO provider and mock bitcoin blockchain
* seed it with the initial values in the wallet
* set the initial consensus hash
* run the scenario method
* run the check method
"""
mock_bitcoind_save_path = "/tmp/mock_bitcoind.dat"
if os.path.exists(mock_bitcoind_save_path):
try:
os.unlink(mock_bitcoind_save_path)
except:
pass
# use mock bitcoind
worker_env = {
# use mock_bitcoind to connect to bitcoind (but it has to import it in order to use it)
"VIRTUALCHAIN_MOD_CONNECT_BLOCKCHAIN": mock_bitcoind.__file__,
"MOCK_BITCOIND_SAVE_PATH": mock_bitcoind_save_path,
"BLOCKSTORE_TEST": "1"
}
if os.environ.get("PYTHONPATH", None) is not None:
worker_env["PYTHONPATH"] = os.environ["PYTHONPATH"]
virtualchain.setup_virtualchain(
blockstore_state_engine,
bitcoind_connection_factory=mock_bitcoind.connect_mock_bitcoind,
index_worker_env=worker_env)
# set up blockstore
# NOTE: utxo_opts encodes the mock-bitcoind options
blockstore_opts, bitcoin_opts, utxo_opts, dht_opts = blockstore.lib.configure(
config_file=config_file, interactive=False)
# override multiprocessing options to ensure single-process behavior
utxo_opts['multiprocessing_num_procs'] = 1
utxo_opts['multiprocessing_num_blocks'] = 10
# pass along extra arguments
utxo_opts['save_file'] = mock_bitcoind_save_path
# save headers as well
utxo_opts['spv_headers_path'] = mock_bitcoind_save_path + ".spvheaders"
with open(utxo_opts['spv_headers_path'], "w") as f:
# write out "initial" headers, up to the first block
empty_header = ("00" * 81).decode('hex')
for i in xrange(0, blockstore.FIRST_BLOCK_MAINNET):
f.write(empty_header)
blockstored.set_bitcoin_opts(bitcoin_opts)
blockstored.set_utxo_opts(utxo_opts)
db = blockstored.get_state_engine()
bitcoind = mock_bitcoind.connect_mock_bitcoind(utxo_opts)
sync_virtualchain_upcall = lambda: virtualchain.sync_virtualchain(
utxo_opts, bitcoind.getblockcount(), db)
mock_utxo = blockstore.lib.connect_utxo_provider(utxo_opts)
working_dir = virtualchain.get_working_dir()
# set up test environment
testlib.set_utxo_opts(utxo_opts)
testlib.set_utxo_client(mock_utxo)
testlib.set_bitcoind(bitcoind)
testlib.set_state_engine(db)
test_env = {
"sync_virtualchain_upcall": sync_virtualchain_upcall,
"working_dir": working_dir,
"bitcoind": bitcoind,
"bitcoind_save_path": mock_bitcoind_save_path
}
# sync initial utxos
testlib.next_block(**test_env)
try:
os.unlink(mock_bitcoind_save_path)
except:
pass
# load the scenario into the mock blockchain and mock utxo provider
try:
scenario.scenario(scenario.wallets, **test_env)
except Exception, e:
log.exception(e)
traceback.print_exc()
log.error("Failed to run scenario '%s'" % scenario.__name__)
return False
def run_scenario(scenario, config_file):
"""
Run a test scenario:
* set up the virtualchain to use our mock UTXO provider and mock bitcoin blockchain
* seed it with the initial values in the wallet
* set the initial consensus hash
* run the scenario method
* run the check method
"""
mock_bitcoind_save_path = "/tmp/mock_bitcoind.dat"
if os.path.exists(mock_bitcoind_save_path):
try:
os.unlink(mock_bitcoind_save_path)
except:
pass
# use mock bitcoind
worker_env = {
# use mock_bitcoind to connect to bitcoind (but it has to import it in order to use it)
"VIRTUALCHAIN_MOD_CONNECT_BLOCKCHAIN": mock_bitcoind.__file__,
"MOCK_BITCOIND_SAVE_PATH": mock_bitcoind_save_path,
"BLOCKSTORE_TEST": "1",
}
if os.environ.get("PYTHONPATH", None) is not None:
worker_env["PYTHONPATH"] = os.environ["PYTHONPATH"]
virtualchain.setup_virtualchain(
blockstore_state_engine,
bitcoind_connection_factory=mock_bitcoind.connect_mock_bitcoind,
index_worker_env=worker_env,
)
# set up blockstore
# NOTE: utxo_opts encodes the mock-bitcoind options
blockstore_opts, bitcoin_opts, utxo_opts, dht_opts = blockstore.lib.configure(
config_file=config_file, interactive=False
)
# override multiprocessing options to ensure single-process behavior
utxo_opts["multiprocessing_num_procs"] = 1
utxo_opts["multiprocessing_num_blocks"] = 10
# pass along extra arguments
utxo_opts["save_file"] = mock_bitcoind_save_path
# save headers as well
utxo_opts["spv_headers_path"] = mock_bitcoind_save_path + ".spvheaders"
with open(utxo_opts["spv_headers_path"], "w") as f:
# write out "initial" headers, up to the first block
empty_header = ("00" * 81).decode("hex")
for i in xrange(0, blockstore.FIRST_BLOCK_MAINNET):
f.write(empty_header)
blockstored.set_bitcoin_opts(bitcoin_opts)
blockstored.set_utxo_opts(utxo_opts)
db = blockstored.get_state_engine()
bitcoind = mock_bitcoind.connect_mock_bitcoind(utxo_opts)
sync_virtualchain_upcall = lambda: virtualchain.sync_virtualchain(utxo_opts, bitcoind.getblockcount(), db)
mock_utxo = blockstore.lib.connect_utxo_provider(utxo_opts)
working_dir = virtualchain.get_working_dir()
# set up test environment
testlib.set_utxo_opts(utxo_opts)
testlib.set_utxo_client(mock_utxo)
testlib.set_bitcoind(bitcoind)
testlib.set_state_engine(db)
test_env = {
"sync_virtualchain_upcall": sync_virtualchain_upcall,
"working_dir": working_dir,
"bitcoind": bitcoind,
"bitcoind_save_path": mock_bitcoind_save_path,
}
# sync initial utxos
testlib.next_block(**test_env)
try:
os.unlink(mock_bitcoind_save_path)
except:
pass
# load the scenario into the mock blockchain and mock utxo provider
try:
scenario.scenario(scenario.wallets, **test_env)
except Exception, e:
log.exception(e)
traceback.print_exc()
log.error("Failed to run scenario '%s'" % scenario.__name__)
return False