def test_echo_console():
"""
Test EchoConsoleDoer class
Must run in WindIDE with Debug I/O configured as external console
"""
port = os.ctermid() # default to console
try: # check to see if running in external console
fd = os.open(port, os.O_NONBLOCK | os.O_RDWR | os.O_NOCTTY)
except OSError as ex:
# maybe complain here
return # not in external console
else:
os.close(fd) # cleanup
tock = 0.03125
ticks = 16
limit = 0.0
# limit = ticks * tock
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == 0.0
# assert doist.limit == limit == 0.5
assert doist.doers == []
console = serialing.Console()
echoer = serialing.EchoConsoleDoer(console=console)
doers = [echoer]
doist.do(doers=doers)
# assert doist.tyme == limit
assert console.opened == False
def runController(doers, expire=0.0):
"""
Utiitity Function to create doist to run doers
"""
tock = 0.03125
doist = doing.Doist(limit=expire, tock=tock, real=True)
doist.do(doers=doers)
def test_wirelog_doer():
"""
Test WireLogDoer class
"""
tock = 0.03125
ticks = 4
limit = ticks * tock
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit == 0.125
assert doist.doers == []
wl = wiring.WireLog(samed=True, temp=True)
wiredoer = wiring.WireLogDoer(tymth=doist.tymen(), wl=wl)
assert wiredoer.wl == wl
assert wiredoer.tock == 0.0 # ASAP
doers = [wiredoer]
doist.do(doers=doers)
assert doist.tyme == limit
assert wiredoer.wl.opened == False
"""End Test """
def test_keeperdoer():
"""
KeeperDoer
"""
keep0 = keeping.Keeper(name='test0', temp=True, reopen=False)
assert keep0.opened == False
assert keep0.path == None
assert keep0.env == None
kpDoer0 = keeping.KeeperDoer(keeper=keep0)
assert kpDoer0.keeper == keep0
assert kpDoer0.keeper.opened == False
keep1 = keeping.Keeper(name='test1', temp=True, reopen=False)
assert keep1.opened == False
assert keep1.path == None
assert keep1.env == None
kpDoer1 = keeping.KeeperDoer(keeper=keep1)
assert kpDoer1.keeper == keep1
assert kpDoer1.keeper.opened == False
limit = 0.25
tock = 0.03125
doist = doing.Doist(limit=limit, tock=tock)
doers = [kpDoer0, kpDoer1]
dogs = doist.ready(doers=doers)
assert len(dogs) == 2
assert [val[1] for val in dogs] == [0.0, 0.0] # retymes
for doer in doers:
assert doer._tymist == doist
assert doer.keeper.opened
assert "_test/keri/keep/test" in doer.keeper.path
doist.once(dogs)
assert doist.tyme == 0.03125 # on next cycle
assert len(dogs) == 2
for doer in doers:
assert doer.keeper.opened == True
for dog, retyme, index in dogs:
dog.close()
for doer in doers:
assert doer.keeper.opened == False
assert doer.keeper.env == None
assert not os.path.exists(doer.keeper.path)
#start over
doist.tyme = 0.0
doist.do(doers=doers)
assert doist.tyme == limit
for doer in doers:
assert doer.keeper.opened == False
assert doer.keeper.env == None
assert not os.path.exists(doer.keeper.path)
"""End Test"""
def test_consoler():
"""
Test Consoler class
Must run in WindIDE with Debug I/O configured as external console
This test really is only meant for manual testing.
For automated unit tests we will have to mock the serial port interface
with a string or file of command lines for the input.
"""
tock = 0.03125
ticks = 8
limit = tock * ticks
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit
assert doist.doers == []
doer = apping.Consoler()
doers = [doer]
try:
doist.do(doers=doers)
assert doist.tyme == limit
except IOError: # pytest runner blocks opening of console have to test manually
pass
assert doer.console.opened == False
def runController(doers, limit=0.0):
"""
run the doers for limit time. 0.0 means no limit.
"""
# run components
tock = 0.03125
doist = doing.Doist(limit=limit, tock=tock, real=True, doers=doers)
doist.do()
def runAgent(controller,
name="agent",
httpPort=5620,
tcp=5621,
adminHttpPort=5623,
adminTcpPort=5624,
expire=0.0):
"""
Setup and run one agent
"""
logger = help.ogler.getLogger()
ks = keeping.Keeper(name=name,
temp=False) # not opened by default, doer opens
ksDoer = keeping.KeeperDoer(
keeper=ks) # doer do reopens if not opened and closes
db = basing.Baser(name=name, temp=False,
reload=True) # not opened by default, doer opens
dbDoer = basing.BaserDoer(
baser=db) # doer do reopens if not opened and closes
# setup habitat
hab = habbing.Habitat(name=name, ks=ks, db=db, temp=False, create=False)
habDoer = habbing.HabitatDoer(habitat=hab) # setup doer
# kvy = eventing.Kevery(db=hab.db, local=False)
# setup doers
server = tcpServing.Server(host="", port=tcp)
tcpServerDoer = tcpServing.ServerDoer(server=server)
directant = directing.Directant(hab=hab, server=server)
wallet = walleting.Wallet(hab=hab, name=name)
jsonSchema = scheming.JSONSchema(resolver=scheming.jsonSchemaCache)
issueHandler = handling.IssueHandler(wallet=wallet, typ=jsonSchema)
requestHandler = handling.RequestHandler(wallet=wallet, typ=jsonSchema)
exchanger = exchanging.Exchanger(hab=hab,
handlers=[issueHandler, requestHandler])
app = falcon.App()
exnServer = httping.AgentExnServer(exc=exchanger, app=app)
httpKelServer = httping.AgentKelServer(hab=hab, app=app)
server = http.Server(port=httpPort, app=exnServer.app)
httpServerDoer = http.ServerDoer(server=server)
doers = [
ksDoer, dbDoer, habDoer, exchanger, directant, tcpServerDoer,
exnServer, httpServerDoer, httpKelServer
]
doers.extend(adminInterface(controller, hab, adminHttpPort, adminTcpPort))
try:
tock = 0.03125
doist = doing.Doist(limit=expire, tock=tock, real=True)
doist.do(doers=doers)
except kering.ConfigurationError:
print(f"prefix for {name} does not exist, incept must be run first", )
def runController(doers, limit=0.0):
"""
Utility function to run the doers that comprise a controller for limit time.
0.0 means no limit, run forever until cntl-C or all doers exit.
Parameters:
doers is list of doist compatible generators. Either Doer generator
instances or doified or doized generator functions
limit is maximum run time in seconds. Useful for testing.
"""
# run components
tock = 0.03125
doist = doing.Doist(limit=limit, tock=tock, real=True, doers=doers)
doist.do()
def test_doist():
"""
Test basic doist
"""
doist = doing.Doist()
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == 0.03125
assert doist.real == False
assert doist.limit == None
assert doist.doers == []
assert doist.timer.duration == doist.tock
doist.do() # defaults make sure no exceptions
"""End Test """
def launch(args):
app = falcon.App()
server = http.Server(port=args.http, app=app)
httpServerDoer = http.ServerDoer(server=server)
serving.loadEnds(app,
schemaDir=args.schemaDir,
credDir=args.credDir,
oobiDir=args.oobiDir)
doers = [httpServerDoer]
tock = 0.03125
doist = doing.Doist(limit=0.0, tock=tock, real=True)
doist.do(doers=doers)
def test_echo_server_client():
"""
Test EchoServerDoer ClientDoer classes
"""
tock = 0.03125
ticks = 16
limit = ticks * tock
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit == 0.5
assert doist.doers == []
port = 6120
server = serving.Server(host="", port=port)
client = clienting.Client(tymth=doist.tymen(), host="localhost", port=port)
serdoer = doing.EchoServerDoer(tymth=doist.tymen(), server=server)
assert serdoer.server == server
assert serdoer.tyme == serdoer.server.tyme == doist.tyme
clidoer = doing.ClientDoer(tymth=doist.tymen(), client=client)
assert clidoer.client == client
assert clidoer.tyme == clidoer.client.tyme == doist.tyme
assert serdoer.tock == 0.0 # ASAP
assert clidoer.tock == 0.0 # ASAP
doers = [serdoer, clidoer]
msgTx = b"Hello me maties!"
clidoer.client.tx(msgTx)
doist.do(doers=doers)
assert doist.tyme == limit
assert server.opened == False
assert client.opened == False
assert not client.txbs
msgEx = bytes(client.rxbs) # echoed back message
assert msgEx == msgTx
ca, ix = list(server.ixes.items())[0]
assert bytes(ix.rxbs) == b"" # empty server rxbs becaue echoed
"""End Test """
def main():
args = parseArgs()
help.ogler.level = logging.INFO
help.ogler.reopen(name=args.name, temp=True, clear=True)
logger = help.ogler.getLogger()
logger.info("\n******* Starting Demo ******")
conDoer = apping.Consoler()
tock = 1.03125
doist = doing.Doist(limit=0.0, tock=tock, real=True)
doist.do(doers=[conDoer])
return
def test_server_client():
"""
Test ServerDoer ClientDoer classes
"""
tock = 0.03125
ticks = 16
limit = ticks * tock
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit == 0.5
assert doist.doers == []
port = 6120
server = serving.Server(host="", port=port)
# client needs tymth in order to init its .tymer
client = clienting.Client(tymth=doist.tymen(), host="localhost", port=port)
assert client.tyme == doist.tyme
serdoer = doing.ServerDoer(tymth=doist.tymen(), server=server)
assert serdoer.server == server
assert serdoer.tyme == serdoer.server.tyme == doist.tyme
clidoer = doing.ClientDoer(tymth=doist.tymen(), client=client)
assert clidoer.client == client
assert clidoer.tyme == clidoer.client.tyme == doist.tyme
assert serdoer.tock == 0.0 # ASAP
assert clidoer.tock == 0.0 # ASAP
doers = [serdoer, clidoer]
msgTx = b"Hello me maties!"
clidoer.client.tx(msgTx)
doist.do(doers=doers)
assert doist.tyme == limit
assert server.opened == False
assert client.opened == False
assert not client.txbs
ca, ix = list(server.ixes.items())[0]
msgRx = bytes(ix.rxbs)
assert msgRx == msgTx
"""End Test """
def handle(args):
print(args)
hab = habbing.Habitat(name='kli', temp=False)
tock = 0.03125
host = '127.0.0.1'
port = args.port
klis = koming.Komer(db=hab.db, schema=KLIRecord, subkey='kli.')
klis.put((hab.pre, ), KLIRecord(
host=host,
port=port,
))
# doist = doing.Doist(tock=tock, real=True)
# print("client", host, port)
# client = clienting.Client(host=host, port=port, tymth=doist.tymen())
# clientDoer = clienting.ClientDoer(client=client)
# initDoer = InitDoer(client=client, tymth=doist.tymen())
#
# doist.doers = [clientDoer, initDoer]
# doist.do()
doist = doing.Doist(tock=tock, real=True)
server = serving.Server(host='127.0.0.1', port=5678)
serverDoer = serving.ServerDoer(server=server)
servingDoDoer = Serving(server=server, doers=doist.doers)
doist.extend([serverDoer, servingDoDoer])
daemon = daemonocle.Daemon(
worker=doist.do,
# update to use pidPath serving.getPIDPath()
pid_file='/tmp/klid.pid',
# detach=detach,
)
daemon.do_action('start')
def runController(secrets,
name="who",
role="initiator",
remotePort=5621,
localPort=5620,
limit=0.0):
"""
Setup and run the demo for name
"""
print("Direct Mode demo of {} as {} on TCP port {} to port {}.\n\n"
"".format(name, role, localPort, remotePort))
with dbing.openLogger(name=name) as db:
# setup components
kevers = dict()
hab = Habitat(secrets=secrets, kevers=kevers, db=db)
client = clienting.Client(host='127.0.0.1', port=remotePort)
clientDoer = doing.ClientDoer(client=client)
if role == "initiator":
director = BobDirector(hab=hab, client=client, tock=0.125)
elif role == "other":
director = SamDirector(hab=hab, client=client, tock=0.125)
else:
director = EveDirector(hab=hab, client=client, tock=0.125)
reactor = Reactor(hab=hab, client=client)
server = serving.Server(host="", port=localPort)
serverDoer = doing.ServerDoer(server=server)
directant = Directant(hab=hab, server=server)
# Reactants created on demand
# run components
tock = 0.03125
doist = doing.Doist(limit=limit, tock=tock, real=True)
doers = [clientDoer, director, reactor, serverDoer, directant]
doist.do(doers=doers)
def test_console_doer():
"""
Test ConsoleDoer class
Must run in WindIDE with Debug I/O configured as external console
"""
tock = 0.03125
ticks = 8
limit = tock * ticks
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit
assert doist.doers == []
console = serialing.Console()
doer = serialing.ConsoleDoer(console=console)
doers = [doer]
doist.do(doers=doers)
assert doist.tyme == limit
assert console.opened == False
def test_run_sam_eve_demo():
"""
Test demo setupController and run with DoDoers and Doist
"""
help.ogler.resetLevel(level=logging.DEBUG)
tock = 0.03125
expire = 2.0
doist = doing.Doist(limit=expire, tock=tock, real=True)
name = "sam"
remote = 5621
local = 5620
secrets = [
'ArwXoACJgOleVZ2PY7kXn7rA0II0mHYDhc6WrBH8fDAc',
'A6zz7M08-HQSFq92sJ8KJOT2cZ47x7pXFQLPB0pckB3Q',
'AcwFTk-wgk3ZT2buPRIbK-zxgPx-TKbaegQvPEivN90Y',
'Alntkt3u6dDgiQxTATr01dy8M72uuaZEf9eTdM-70Gk8',
'A1-QxDkso9-MR1A8rZz_Naw6fgaAtayda8hrbkRVVu1E',
'AKuYMe09COczwf2nIoD5AE119n7GLFOVFlNLxZcKuswc',
'AxFfJTcSuEE11FINfXMqWttkZGnUZ8KaREhrnyAXTsjw',
'ALq-w1UKkdrppwZzGTtz4PWYEeWm0-sDHzOv5sq96xJY'
]
# sams is list of Doers
sams = demoing.setupDemoController(secrets=secrets,
name=name,
remotePort=remote,
localPort=local)
name = "eve"
remote = 5620
local = 5621
# set of secrets (seeds for private keys)
secrets = [
'AgjD4nRlycmM5cPcAkfOATAp8wVldRsnc9f1tiwctXlw',
'AKUotEE0eAheKdDJh9QvNmSEmO_bjIav8V_GmctGpuCQ',
'AK-nVhMMJciMPvmF5VZE_9H-nhrgng9aJWf7_UHPtRNM',
'AT2cx-P5YUjIw_SLCHQ0pqoBWGk9s4N1brD-4pD_ANbs',
'Ap5waegfnuP6ezC18w7jQiPyQwYYsp9Yv9rYMlKAYL8k',
'Aqlc_FWWrxpxCo7R12uIz_Y2pHUH2prHx1kjghPa8jT8',
'AagumsL8FeGES7tYcnr_5oN6qcwJzZfLKxoniKUpG4qc',
'ADW3o9m3udwEf0aoOdZLLJdf1aylokP0lwwI_M2J9h0s'
]
eves = demoing.setupDemoController(secrets=secrets,
name=name,
remotePort=remote,
localPort=local)
samDoer = doing.DoDoer(doers=sams)
eveDoer = doing.DoDoer(doers=eves)
# run components
# doist = doing.Doist(limit=expire, tock=tock, real=True, doers=[eveDoer, samDoer])
doist.do(doers=[eveDoer, samDoer])
help.ogler.resetLevel(level=help.ogler.level)
"""End Test"""
def test_direct_mode_bob_eve_demo():
"""
Test direct mode bob and eve
"""
help.ogler.resetLevel(level=logging.DEBUG)
# set of secrets (seeds for private keys)
bobSecrets = [
'ArwXoACJgOleVZ2PY7kXn7rA0II0mHYDhc6WrBH8fDAc',
'A6zz7M08-HQSFq92sJ8KJOT2cZ47x7pXFQLPB0pckB3Q',
'AcwFTk-wgk3ZT2buPRIbK-zxgPx-TKbaegQvPEivN90Y',
'Alntkt3u6dDgiQxTATr01dy8M72uuaZEf9eTdM-70Gk8',
'A1-QxDkso9-MR1A8rZz_Naw6fgaAtayda8hrbkRVVu1E',
'AKuYMe09COczwf2nIoD5AE119n7GLFOVFlNLxZcKuswc',
'AxFfJTcSuEE11FINfXMqWttkZGnUZ8KaREhrnyAXTsjw',
'ALq-w1UKkdrppwZzGTtz4PWYEeWm0-sDHzOv5sq96xJY'
]
bobSecrecies = []
for secret in bobSecrets: # convert secrets to secrecies
bobSecrecies.append([secret])
# create bob signers
bobSigners = [coring.Signer(qb64=secret) for secret in bobSecrets]
assert [signer.qb64 for signer in bobSigners] == bobSecrets
# bob inception transferable (nxt digest not empty)
bobSerder = eventing.incept(
keys=[bobSigners[0].verfer.qb64],
nxt=coring.Nexter(keys=[bobSigners[1].verfer.qb64]).qb64,
code=coring.MtrDex.Blake3_256)
bob = bobSerder.ked["i"]
assert bob == 'EH7Oq9oxCgYa-nnNLvwhp9sFZpALILlRYyB-6n4WDi7w'
# set of secrets (seeds for private keys)
eveSecrets = [
'AgjD4nRlycmM5cPcAkfOATAp8wVldRsnc9f1tiwctXlw',
'AKUotEE0eAheKdDJh9QvNmSEmO_bjIav8V_GmctGpuCQ',
'AK-nVhMMJciMPvmF5VZE_9H-nhrgng9aJWf7_UHPtRNM',
'AT2cx-P5YUjIw_SLCHQ0pqoBWGk9s4N1brD-4pD_ANbs',
'Ap5waegfnuP6ezC18w7jQiPyQwYYsp9Yv9rYMlKAYL8k',
'Aqlc_FWWrxpxCo7R12uIz_Y2pHUH2prHx1kjghPa8jT8',
'AagumsL8FeGES7tYcnr_5oN6qcwJzZfLKxoniKUpG4qc',
'ADW3o9m3udwEf0aoOdZLLJdf1aylokP0lwwI_M2J9h0s'
]
eveSecrecies = []
for secret in eveSecrets: # convert secrets to secrecies
eveSecrecies.append([secret])
# create eve signers
eveSigners = [coring.Signer(qb64=secret) for secret in eveSecrets]
assert [signer.qb64 for signer in eveSigners] == eveSecrets
# eve inception transferable (nxt digest not empty)
eveSerder = eventing.incept(
keys=[eveSigners[0].verfer.qb64],
nxt=coring.Nexter(keys=[eveSigners[1].verfer.qb64]).qb64,
code=coring.MtrDex.Blake3_256)
eve = eveSerder.ked["i"]
assert eve == 'EpDA1n-WiBA0A8YOqnKrB-wWQYYC49i5zY_qrIZIicQg'
with dbing.openDB(name="eve") as eveDB, keeping.openKS(name="eve") as eveKS, \
dbing.openDB(name="bob") as bobDB, keeping.openKS(name="bob") as bobKS:
limit = 1.0
tock = 0.03125
doist = doing.Doist(limit=limit, tock=tock)
bobPort = 5620 # bob's TCP listening port for server
evePort = 5621 # eve's TCP listneing port for server
bobKevers = dict()
eveKevers = dict()
# setup bob
bobHab = directing.Habitat(name='Bob',
ks=bobKS,
db=bobDB,
kevers=bobKevers,
secrecies=bobSecrecies,
temp=True)
assert bobHab.ks == bobKS
assert bobHab.db == bobDB
assert bobHab.iserder.dig == bobSerder.dig
assert bobHab.pre == bob
bobClient = clienting.Client(tymth=doist.tymen(),
host='127.0.0.1',
port=evePort)
bobClientDoer = doing.ClientDoer(client=bobClient)
bobDirector = demoing.BobDirector(hab=bobHab,
client=bobClient,
tock=0.125)
assert bobDirector.hab == bobHab
assert bobDirector.client == bobClient
assert bobDirector.hab.kvy.kevers == bobKevers
assert bobDirector.hab.kvy.db == bobDB
assert bobDirector.tock == 0.125
bobReactor = directing.Reactor(hab=bobHab, client=bobClient)
assert bobReactor.hab == bobHab
assert bobReactor.client == bobClient
assert bobReactor.hab.kvy.kevers == bobKevers
assert bobReactor.hab.kvy.db == bobDB
assert bobReactor.hab.kvy.ims == bobReactor.client.rxbs
bobServer = serving.Server(host="", port=bobPort)
bobServerDoer = doing.ServerDoer(server=bobServer)
bobDirectant = directing.Directant(hab=bobHab, server=bobServer)
assert bobDirectant.hab == bobHab
assert bobDirectant.server == bobServer
# Bob's Reactants created on demand
# setup eve
eveHab = directing.Habitat(name='Eve',
ks=eveKS,
db=eveDB,
kevers=eveKevers,
secrecies=eveSecrecies,
temp=True)
assert eveHab.ks == eveKS
assert eveHab.db == eveDB
assert eveHab.iserder.dig == eveSerder.dig
assert eveHab.pre == eve
eveClient = clienting.Client(tymth=doist.tymen(),
host='127.0.0.1',
port=bobPort)
eveClientDoer = doing.ClientDoer(client=eveClient)
eveDirector = demoing.EveDirector(hab=eveHab,
client=eveClient,
tock=0.125)
assert eveDirector.hab == eveHab
assert eveDirector.client == eveClient
assert eveDirector.hab.kvy.kevers == eveKevers
assert eveDirector.hab.kvy.db == eveDB
eveReactor = directing.Reactor(hab=eveHab, client=eveClient)
assert eveReactor.hab == eveHab
assert eveReactor.client == eveClient
assert eveReactor.hab.kvy.kevers == eveKevers
assert eveReactor.hab.kvy.db == eveDB
assert eveReactor.hab.kvy.ims == eveReactor.client.rxbs
eveServer = serving.Server(host="", port=evePort)
eveServerDoer = doing.ServerDoer(server=eveServer)
eveDirectant = directing.Directant(hab=eveHab, server=eveServer)
assert eveDirectant.hab == eveHab
assert eveDirectant.server == eveServer
# Eve's Reactants created on demand
doers = [
bobClientDoer, bobDirector, bobReactor, bobServerDoer,
bobDirectant, eveClientDoer, eveDirector, eveReactor,
eveServerDoer, eveDirectant
]
doist.do(doers=doers)
assert doist.tyme == limit
assert bobClient.opened == False
assert bobServer.opened == False
assert eveClient.opened == False
assert eveServer.opened == False
assert bobHab.pre in bobHab.kevers
assert eveHab.pre in eveHab.kevers
assert not bobClient.txbs
assert bobHab.pre in eveHab.kevers
# verify final event states
assert not os.path.exists(eveDB.path)
assert not os.path.exists(bobDB.path)
help.ogler.resetLevel(level=help.ogler.level)
"""End Test"""
def test_doist_remove():
"""
Test Doist.remove of doers
"""
tock = 1.0
limit = 5.0
# start over with full set to test remove
doer0 = TryDoer(stop=1)
doer1 = TryDoer(stop=2)
doer2 = TryDoer(stop=3)
doer3 = TryDoer(stop=2)
doer4 = TryDoer(stop=3)
doers = [doer0, doer1, doer2, doer3, doer4]
doist = doing.Doist(tock=tock, doers=list(doers), always=True)
assert doist.tock == tock == 1.0
assert doist.tyme == 0.0
assert doist.doers == doers
for doer in doist.doers:
assert doer.done == None
assert doist.done == None
assert not doist.deeds
doist.enter()
assert doist.done == None # did not call .do so stays None not False
doist.recur()
doist.recur()
assert doist.tyme == 2.0
assert not doist.done # doist not done
assert doer0.done
assert not doer1.done
assert not doer2.done
assert not doer3.done
assert not doer4.done
assert len(doist.deeds) == 4 # deeds still there
doers = [doer for dog, retyme, doer in doist.deeds]
assert doers == [doer1, doer2, doer3, doer4] # doer0 is removed
for dog, retyme, doer in doist.deeds:
assert not doer.done
doist.remove(doers=[doer0, doer1, doer3])
assert doist.doers == [doer2, doer4]
assert len(doist.deeds) == 2
doers = [doer for dog, retyme, doer in doist.deeds]
assert doers == [doer2, doer4] # others are removed
for dog, retyme, doer in doist.deeds:
assert not doer.done
assert not doer1.done # forced exit
assert not doer3.done # forced exit
doist.recur()
doist.recur()
assert doist.tyme == 4.0
assert doist.done == None # never called .do
assert len(doist.deeds) == 0 # all done
assert len(doist.doers) == 2 # not removed but completed
for doer in doist.doers:
assert doer.done
assert doer0.done # already clean done before remove
assert not doer1.done # forced exit upon remove before done
assert doer2.done # clean done
assert not doer3.done # forced exit upon remove before done
assert doer4.done # clean done
doist.recur()
doist.recur() # does not complete because always == True
"""Done Test"""
def test_doist_remove_own_doer():
"""
Test .remove method of Doist called by a doer of Doist that removes all
doers including itself.
"""
tock = 1.0
limit = 5.0
# create doist first so can inject it into removeDo
doist = doing.Doist(tock=tock, limit=limit)
# create doized function that removes doers
@doing.doize(tock=0.0, doist=doist)
def removeDo(tymth=None, tock=0.0, doist=None, **opts):
"""
Returns generator function (doer dog) to process
to remove all doers of doist but itself
Parameters:
tymth is injected function wrapper closure returned by .tymen() of
Tymist instance (e.e. Doist/DoDoer). Calling tymth() returns
associated Tymist .tyme.
tock is injected initial tock value from doer.tock
opts is dict of injected optional additional parameters from doer.opts
Injected attributes by doize decorator as parameters to this method:
gf.tock = tock # default tock attribute for doer
gf.opts = {} # default opts for doer
Usage:
add to doers list
"""
yield # enter context also makes generator method
# recur context
doist.remove(list(
doist.doers)) # attept to remove all doers including itself
yield # extra yield for testing so does a couple of passes after removed
yield # extra yield for testing so does a couple of passes after removed
return True # once removed then return to remove itself as doer
# create other doers to remove
doer0 = TryDoer(stop=1)
doer1 = TryDoer(stop=2)
doer2 = TryDoer(stop=3)
doer3 = TryDoer(stop=2)
doer4 = TryDoer(stop=3)
doers = [doer0, doer1, doer2, doer3, doer4, removeDo]
doist.doers = list(doers) # make copy
assert doist.tock == tock == 1.0
assert doist.tyme == 0.0
assert doist.limit == limit == 5.0
assert doist.doers == doers
assert removeDo in doist.doers
for doer in doist.doers:
assert doer.done == None
assert doist.done == None
assert not doist.deeds
doist.enter()
assert not doist.done
doist.recur() # should run removeDo and remove all but itself
assert doist.tyme == 1.0
assert doist.deeds # doer removed by not deed.
assert not doist.done # doist not done
assert not doist.doers
assert not removeDo in doist.doers
# force exited so not done
assert not doer0.done
assert not doer1.done
assert not doer2.done
assert not doer3.done
assert not doer4.done
assert not removeDo.done
doist.recur()
assert doist.tyme == 2.0
assert doist.deeds
assert not doist.done # dodoer not done
assert doist.deeds
assert not doist.doers
doist.recur()
assert doist.tyme == 3.0
assert not doist.deeds
assert not doist.done
assert removeDo.done # finished on it own
"""Done Test"""
def test_doist_dos():
"""
Test doist.do with dos generator functions not generator methods
"""
tock = 0.03125
doist = doing.Doist(tock=tock)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == False
assert doist.limit == None
assert doist.doers == []
doer0 = doing.doify(doing.doifyExDo, name='gf0', tock=tock, states=None)
assert inspect.isgeneratorfunction(doer0)
assert doer0.opts["states"] == None
doer0.opts['states'] = []
assert doer0.tock == tock
assert doer0.done == None
doer1 = doing.doify(doing.doifyExDo, name='gf1', tock=tock*2)
assert inspect.isgeneratorfunction(doer1)
assert not doer1.opts
doer1.opts['states'] = []
assert doer1.tock == tock * 2
assert doer1.done == None
assert doer0 is not doer1
doer2 = doing.doizeExDo
assert inspect.isgeneratorfunction(doer2)
assert doer2.opts["states"] == None
doer2.opts["states"] = []
doer2.tock = tock * 2
assert doer2.done == None
doers = [doer0, doer1, doer2]
for doer in doers:
assert doer.opts['states'] == []
ticks = 4
limit = tock * ticks
doist.do(doers=doers, limit=limit)
assert doist.tyme == limit == 0.125
assert doer0.opts["states"] == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='recur', feed=0.0625, count=3),
State(tyme=0.09375, context='recur', feed=0.09375, count=4),
State(tyme=0.09375, context='exit', feed=None, count=5)]
assert doer0.done == True
assert doer1.opts["states"] == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.0625, context='recur', feed=0.0625, count=2),
State(tyme=0.125, context='close', feed=None, count=3),
State(tyme=0.125, context='exit', feed=None, count=4)]
assert doer1.done == False
assert doer2.opts["states"] == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.0625, context='recur', feed=0.0625, count=2),
State(tyme=0.125, context='close', feed=None, count=3),
State(tyme=0.125, context='exit', feed=None, count=4)]
assert doer2.done == False
# repeat but real time
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit == 0.125
assert doist.doers == []
for doer in doers:
doer.opts['states'] = []
assert doer.opts['states'] == []
doer.done = None
doist.do(doers=doers)
assert doist.tyme == limit == 0.125
assert doer0.opts["states"] == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='recur', feed=0.0625, count=3),
State(tyme=0.09375, context='recur', feed=0.09375, count=4),
State(tyme=0.09375, context='exit', feed=None, count=5)]
assert doer1.opts["states"] == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.0625, context='recur', feed=0.0625, count=2),
State(tyme=0.125, context='close', feed=None, count=3),
State(tyme=0.125, context='exit', feed=None, count=4)]
assert doer2.opts["states"] == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.0625, context='recur', feed=0.0625, count=2),
State(tyme=0.125, context='close', feed=None, count=3),
State(tyme=0.125, context='exit', feed=None, count=4)]
# Low limit force close
ticks = 2
limit = tock * ticks
doist = doing.Doist(tock=tock, real=False, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == False
assert doist.limit == limit == 0.0625
assert doist.doers == []
for doer in doers:
doer.opts['states'] = []
assert doer.opts['states'] == []
doer.tock = 0.0 # run asap
doist.do(doers=doers)
assert doist.tyme == limit
assert doer0.opts["states"] == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='close', feed=None, count=3),
State(tyme=0.0625, context='exit', feed=None, count=4)]
assert doer0.opts["states"] == doer1.opts["states"] == doer2.opts["states"]
# low limit force close real time
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit == 0.0625
assert doist.doers == []
for doer in doers:
doer.opts['states'] = []
assert doer.opts['states'] == []
doer.tock = 0.0 # run asap
doist.do(doers=doers)
assert doist.tyme == limit
assert doer0.opts["states"] == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='close', feed=None, count=3),
State(tyme=0.0625, context='exit', feed=None, count=4)]
assert doer0.opts["states"] == doer1.opts["states"] == doer2.opts["states"]
"""End Test """
def test_nested_doers():
"""
Test Doist running nested DoDoers and Doers
"""
tock = 0.03125
doist = doing.Doist(tock=tock)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == False
assert doist.limit == None
assert doist.doers == []
doer0 = doing.ExDoer(tock=0.0, tymth=doist.tymen())
doer1 = doing.ExDoer(tock=tock*2, tymth=doist.tymen())
assert doer0.tock == 0.0
assert doer1.tock == tock * 2
aDoers = [doer0, doer1]
for doer in aDoers:
assert doer.states == []
assert doer.count == None
assert doer.done == None
aDoer = doing.DoDoer(tock=0.0, tymth=doist.tymen(), doers=aDoers)
assert aDoer.doers == aDoers
assert aDoer.done == None
doer2 = doing.ExDoer(tock=0.0, tymth=doist.tymen())
doer3 = doing.ExDoer(tock=tock*4, tymth=doist.tymen())
assert doer2.tock == 0.0
assert doer3.tock == tock * 4
bDoers = [doer2, doer3]
for doer in bDoers:
assert doer.states == []
assert doer.count == None
assert doer.done == None
bDoer = doing.DoDoer(tock=tock*2, tymth=doist.tymen(), doers=bDoers)
assert bDoer.doers == bDoers
assert bDoer.done == None
doers = [aDoer, bDoer]
ticks = 8
limit = tock * ticks
doist.do(doers=doers, limit=limit) # run em all
assert doist.tyme == limit == 0.25
assert aDoer.done == True
assert bDoer.done == False
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='recur', feed=0.0625, count=3),
State(tyme=0.09375, context='recur', feed=0.09375, count=4),
State(tyme=0.09375, context='exit', feed=None, count=5)]
assert doer1.done == True
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.0625, context='recur', feed=0.0625, count=2),
State(tyme=0.125, context='recur', feed=0.125, count=3),
State(tyme=0.1875, context='recur', feed=0.1875, count=4),
State(tyme=0.1875, context='exit', feed=None, count=5)]
assert doer1.done == True
assert doer2.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.0625, context='recur', feed=0.0625, count=2),
State(tyme=0.125, context='recur', feed=0.125, count=3),
State(tyme=0.1875, context='recur', feed=0.1875, count=4),
State(tyme=0.1875, context='exit', feed=None, count=5)]
assert doer2.done == True
assert doer3.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.125, context='recur', feed=0.125, count=2),
State(tyme=0.25, context='close', feed=None, count=3),
State(tyme=0.25, context='exit', feed=None, count=4)]
assert doer3.done == False
"""End Test """
def test_doist_once():
"""
Test doist.once with deeds
"""
doist = doing.Doist(tock=0.25)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == 0.25
assert doist.real == False
assert doist.limit == None
assert doist.doers == []
doer0 = doing.ExDoer(tock=0.25, tymth=doist.tymen())
doer1 = doing.ExDoer(tock=0.5, tymth=doist.tymen())
doers = [doer0, doer1]
doist.doers = doers
deeds = doist.ready()
assert len(deeds) == 2
assert [val[1] for val in deeds] == [0.0, 0.0]
for doer in doers:
assert doer.states == [State(tyme=0.0, context='enter', feed=0.0, count=0)]
assert doer.done == False
doist.once(deeds)
assert doist.tyme == 0.25 # on next cycle
assert len(deeds) == 2
assert [val[1] for val in deeds] == [0.25, 0.5]
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1)]
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1)]
doist.once(deeds)
assert doist.tyme == 0.5 # on next cycle
assert len(deeds) == 2
assert [val[1] for val in deeds] == [0.5, 0.5]
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.25, context='recur', feed=0.25, count=2)]
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1)]
doist.once(deeds)
assert doist.tyme == 0.75 # on next cycle
assert len(deeds) == 2
assert [val[1] for val in deeds] == [0.75, 1.0]
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.25, context='recur', feed=0.25, count=2),
State(tyme=0.5, context='recur', feed=0.5, count=3)]
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.5, context='recur', feed=0.5, count=2)]
doist.once(deeds)
assert doist.tyme == 1.0 # on next cycle
assert len(deeds) == 1
assert [val[1] for val in deeds] == [1.0]
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.25, context='recur', feed=0.25, count=2),
State(tyme=0.5, context='recur', feed=0.5, count=3),
State(tyme=0.75, context='recur', feed=0.75, count=4),
State(tyme=0.75, context='exit', feed=None, count=5)]
assert doer0.done == True
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.5, context='recur', feed=0.5, count=2)]
doist.once(deeds)
assert doist.tyme == 1.25 # on next cycle
assert len(deeds) == 1
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.25, context='recur', feed=0.25, count=2),
State(tyme=0.5, context='recur', feed=0.5, count=3),
State(tyme=0.75, context='recur', feed=0.75, count=4),
State(tyme=0.75, context='exit', feed=None, count=5)]
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.5, context='recur', feed=0.5, count=2),
State(tyme=1.0, context='recur', feed=1.0, count=3)]
doist.once(deeds)
assert doist.tyme == 1.50 # on next cycle
assert len(deeds) == 1
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.25, context='recur', feed=0.25, count=2),
State(tyme=0.5, context='recur', feed=0.5, count=3),
State(tyme=0.75, context='recur', feed=0.75, count=4),
State(tyme=0.75, context='exit', feed=None, count=5)]
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.5, context='recur', feed=0.5, count=2),
State(tyme=1.0, context='recur', feed=1.0, count=3)]
doist.once(deeds)
assert doist.tyme == 1.75 # on next cycle
assert len(deeds) == 0
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.25, context='recur', feed=0.25, count=2),
State(tyme=0.5, context='recur', feed=0.5, count=3),
State(tyme=0.75, context='recur', feed=0.75, count=4),
State(tyme=0.75, context='exit', feed=None, count=5)]
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.5, context='recur', feed=0.5, count=2),
State(tyme=1.0, context='recur', feed=1.0, count=3),
State(tyme=1.5, context='recur', feed=1.5, count=4),
State(tyme=1.5, context='exit', feed=None, count=5)]
assert doer1.done == True
"""End Test """
def test_doist_doers():
"""
Test doist.do with .close of deeds
"""
tock = 0.03125
doist = doing.Doist(tock=tock)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == False
assert doist.limit == None
assert doist.doers == []
doer0 = doing.ExDoer(tock=tock, tymth=doist.tymen())
doer1 = doing.ExDoer(tock=tock*2, tymth=doist.tymen())
assert doer0.tock == tock
assert doer1.tock == tock * 2
doers = [doer0, doer1]
for doer in doers:
assert doer.states == []
assert doer.count == None
assert doer.done == None
ticks = 4
limit = tock * ticks
doist.do(doers=doers, limit=limit)
assert doist.tyme == limit == 0.125
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='recur', feed=0.0625, count=3),
State(tyme=0.09375, context='recur', feed=0.09375, count=4),
State(tyme=0.09375, context='exit', feed=None, count=5)]
assert doer0.done == True
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.0625, context='recur', feed=0.0625, count=2),
State(tyme=0.125, context='close', feed=None, count=3),
State(tyme=0.125, context='exit', feed=None, count=4)]
assert doer1.done == False
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit == 0.125
assert doist.doers == []
for doer in doers:
doer.states = []
assert doer.states == []
doist.do(doers=doers)
assert doist.tyme == limit == 0.125
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='recur', feed=0.0625, count=3),
State(tyme=0.09375, context='recur', feed=0.09375, count=4),
State(tyme=0.09375, context='exit', feed=None, count=5)]
assert doer0.done == True
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.0625, context='recur', feed=0.0625, count=2),
State(tyme=0.125, context='close', feed=None, count=3),
State(tyme=0.125, context='exit', feed=None, count=4)]
assert doer1.done == False
# doers passed to Doist init
doist = doing.Doist(tock=tock, real=True, limit=limit, doers=doers)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit == 0.125
assert doist.doers == doers
for doer in doers:
doer.states = []
assert doer.states == []
doist.do()
assert doist.tyme == limit == 0.125
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='recur', feed=0.0625, count=3),
State(tyme=0.09375, context='recur', feed=0.09375, count=4),
State(tyme=0.09375, context='exit', feed=None, count=5)]
assert doer0.done == True
assert doer1.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.0625, context='recur', feed=0.0625, count=2),
State(tyme=0.125, context='close', feed=None, count=3),
State(tyme=0.125, context='exit', feed=None, count=4)]
assert doer1.done == False
# Run ASAP
doist = doing.Doist(tock=tock, real=False, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == False
assert doist.limit == limit == 0.125
assert doist.doers == []
for doer in doers:
doer.states = []
assert doer.states == []
doer.tock = 0.0 # run asap
assert doer.tock == 0.0
doist.do(doers=doers)
assert doist.tyme == limit
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='recur', feed=0.0625, count=3),
State(tyme=0.09375, context='recur', feed=0.09375, count=4),
State(tyme=0.09375, context='exit', feed=None, count=5)]
assert doer0.done == doer1.done == True
assert doer1.states == doer0.states
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit == 0.125
assert doist.doers == []
for doer in doers:
doer.states = []
assert doer.states == []
doer.tock = 0.0 # run asap
assert doer.tock == 0.0
doist.do(doers=doers)
assert doist.tyme == limit
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='recur', feed=0.0625, count=3),
State(tyme=0.09375, context='recur', feed=0.09375, count=4),
State(tyme=0.09375, context='exit', feed=None, count=5)]
assert doer0.done == doer1.done == True
assert doer1.states == doer0.states
# Low limit force close
ticks = 2
limit = tock * ticks
doist = doing.Doist(tock=tock, real=False, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == False
assert doist.limit == limit == 0.0625
assert doist.doers == []
for doer in doers:
doer.states = []
assert doer.states == []
doer.tock = 0.0 # run asap
assert doer.tock == 0.0
doist.do(doers=doers)
assert doist.tyme == limit
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='close', feed=None, count=3),
State(tyme=0.0625, context='exit', feed=None, count=4)]
assert doer0.done == doer1.done == False
assert doer1.states == doer0.states
# low limit force close real time
doist = doing.Doist(tock=tock, real=True, limit=limit)
assert doist.tyme == 0.0 # on next cycle
assert doist.tock == tock == 0.03125
assert doist.real == True
assert doist.limit == limit == 0.0625
assert doist.doers == []
for doer in doers:
doer.states = []
assert doer.states == []
doer.tock = 0.0 # run asap
assert doer.tock == 0.0
doist.do(doers=doers)
assert doist.tyme == limit
assert doer0.states == [State(tyme=0.0, context='enter', feed=0.0, count=0),
State(tyme=0.0, context='recur', feed=0.0, count=1),
State(tyme=0.03125, context='recur', feed=0.03125, count=2),
State(tyme=0.0625, context='close', feed=None, count=3),
State(tyme=0.0625, context='exit', feed=None, count=4)]
assert doer0.done == doer1.done == False
assert doer1.states == doer0.states
"""End Test """
def test_filer_doer():
"""
Test FilerDoer
"""
filer0 = filing.Filer(name='test0', temp=True, reopen=False)
assert filer0.opened == False
assert filer0.path == None
assert filer0.file == None
filerDoer0 = filing.FilerDoer(filer=filer0)
assert filerDoer0.filer == filer0
assert filerDoer0.filer.opened == False
filer1 = filing.Filer(name='test1', temp=True, reopen=False)
assert filer1.opened == False
assert filer1.path == None
assert filer0.file == None
filerDoer1 = filing.FilerDoer(filer=filer1)
assert filerDoer1.filer == filer1
assert filerDoer1.filer.opened == False
limit = 0.25
tock = 0.03125
doist = doing.Doist(limit=limit, tock=tock)
doers = [filerDoer0, filerDoer1]
doist.doers = doers
doist.enter()
assert len(doist.deeds) == 2
assert [val[1] for val in doist.deeds] == [0.0, 0.0] # retymes
for doer in doers:
assert doer.filer.opened
assert "_test/hio/test" in doer.filer.path
doist.recur()
assert doist.tyme == 0.03125 # on next cycle
assert len(doist.deeds) == 2
for doer in doers:
assert doer.filer.opened == True
for dog, retyme, index in doist.deeds:
dog.close()
for doer in doers:
assert doer.filer.opened == False
assert not os.path.exists(doer.filer.path)
# start over
doist.tyme = 0.0
doist.do(doers=doers)
assert doist.tyme == limit
for doer in doers:
assert doer.filer.opened == False
assert not os.path.exists(doer.filer.path)
# test with filed == True
filer0 = filing.Filer(name='test0', temp=True, reopen=False, filed=True)
assert filer0.opened == False
assert filer0.path == None
assert filer0.file == None
filerDoer0 = filing.FilerDoer(filer=filer0)
assert filerDoer0.filer == filer0
assert filerDoer0.filer.opened == False
filer1 = filing.Filer(name='test1', temp=True, reopen=False, filed=True)
assert filer1.opened == False
assert filer1.path == None
assert filer0.file == None
filerDoer1 = filing.FilerDoer(filer=filer1)
assert filerDoer1.filer == filer1
assert filerDoer1.filer.opened == False
limit = 0.25
tock = 0.03125
doist = doing.Doist(limit=limit, tock=tock)
doers = [filerDoer0, filerDoer1]
doist.doers = doers
doist.enter()
assert len(doist.deeds) == 2
assert [val[1] for val in doist.deeds] == [0.0, 0.0] # retymes
for doer in doers:
assert doer.filer.opened
assert "_test/hio/test" in doer.filer.path
assert doer.filer.path.endswith(".text")
assert doer.filer.file is not None
assert not doer.filer.file.closed
doist.recur()
assert doist.tyme == 0.03125 # on next cycle
assert len(doist.deeds) == 2
for doer in doers:
assert doer.filer.opened
assert doer.filer.file is not None
assert not doer.filer.file.closed
for dog, retyme, index in doist.deeds:
dog.close()
for doer in doers:
assert doer.filer.opened == False
assert not os.path.exists(doer.filer.path)
assert doer.filer.file is None
# start over
doist.tyme = 0.0
doist.do(doers=doers)
assert doist.tyme == limit
for doer in doers:
assert doer.filer.opened == False
assert not os.path.exists(doer.filer.path)
assert doer.filer.file is None
"""End Test"""
def test_proving():
sidSalt = coring.Salter(raw=b'0123456789abcdef').qb64
hanSalt = coring.Salter(raw=b'abcdef0123456789').qb64
vicSalt = coring.Salter(raw=b'fedcba9876543210').qb64
with basing.openDB(name="sid") as sidDB, \
keeping.openKS(name="sid") as sidKS, \
basing.openDB(name="vic") as vicDB, \
keeping.openKS(name="vic") as vicKS, \
basing.openDB(name="han") as hanDB, \
keeping.openKS(name="han") as hanKS, \
openPocket(name="han") as hanPDB:
limit = 1.0
tock = 1.0
doist = doing.Doist(limit=limit, tock=tock)
sidHab = habbing.Habitat(ks=sidKS, db=sidDB, salt=sidSalt, temp=True)
assert sidHab.pre == "E4YPqsEOaPNaZxVIbY-Gx2bJgP-c7AH_K7pEE-YfcI9E"
sidIcpMsg = sidHab.makeOwnInception()
hanKvy = eventing.Kevery(db=hanDB)
parsing.Parser().parse(ims=bytearray(sidIcpMsg), kvy=hanKvy)
assert hanKvy.kevers[sidHab.pre].sn == 0 # accepted event
hanHab = habbing.Habitat(ks=hanKS, db=hanDB, salt=hanSalt, temp=True)
assert hanHab.pre == "EKDWzykRd45o5UQyprm_9e8UcltXGo1tZCrdfGBTA8tc"
hanIcpMsg = hanHab.makeOwnInception()
vicKvy = eventing.Kevery(db=vicDB)
parsing.Parser().parse(ims=bytearray(hanIcpMsg), kvy=vicKvy)
assert vicKvy.kevers[hanHab.pre].sn == 0 # accepted event
vicHab = habbing.Habitat(ks=vicKS, db=vicDB, salt=vicSalt, temp=True)
assert vicHab.pre == "E8HQASAgOnZnQ4T7rv3dcvj0-UydrTTtyCprhEASk__o"
vicIcpMsg = vicHab.makeOwnInception()
parsing.Parser().parse(ims=bytearray(vicIcpMsg), kvy=hanKvy)
assert hanKvy.kevers[vicHab.pre].sn == 0 # accepted event
sed = dict()
sed["$id"] = ""
sed["$schema"] = "http://json-schema.org/draft-07/schema#"
sed.update(
dict(type="object",
properties=dict(id=dict(type="string"),
lei=dict(type="string"))))
schemer = scheming.Schemer(sed=sed,
typ=scheming.JSONSchema(),
code=coring.MtrDex.Blake3_256)
cache = CacheResolver()
cache.add(schemer.said, schemer.raw)
jsonSchema = JSONSchema(resolver=cache)
credSubject = dict(
id=
"did:keri:Efaavv0oadfghasdfn443fhbyyr4v", # this needs to be generated from a KEL
lei="254900OPPU84GM83MG36",
issuanceDate="2021-06-27T21:26:21.233257+00:00",
)
creder = credential(issuer=sidHab.pre,
schema=schemer.said,
subject=credSubject,
typ=JSONSchema(resolver=cache))
assert creder.said == "EgaaYOPdG7vootT99cmClvwOoM-hjUIpv5Xl6hFuTcyM"
msg = sidHab.endorse(serder=creder)
hanWallet = Wallet(hab=hanHab, db=hanPDB)
parseCredential(ims=msg,
wallet=hanWallet,
typ=JSONSchema(resolver=cache))
# verify we can load serialized VC by SAID
key = creder.said.encode("utf-8")
assert hanPDB.getSers(key) is not None
# Create Red's wallet and Issue Handler for receiving the credential
hanRequestHandler = RequestHandler(wallet=hanWallet, typ=jsonSchema)
hanExc = exchanging.Exchanger(hab=hanHab,
tymth=doist.tymen(),
handlers=[hanRequestHandler])
# Create the issue credential payload
pl = dict(input_descriptors=[dict(x=schemer.said)])
# Create the `exn` message for presentation request
vicExcSrdr = exchanging.exchange(route="/presentation/request",
payload=pl)
excMsg = vicHab.sanction(vicExcSrdr)
# Parse the exn presentation request message on Han's side
parsing.Parser().parse(ims=bytearray(excMsg), kvy=hanKvy, exc=hanExc)
doist.do(doers=[hanExc])
assert doist.tyme == limit
resp = hanRequestHandler.cues.popleft()
assert resp is not None
respSer = coring.Serder(raw=resp.raw)
assert respSer.ked['t'] == coring.Ilks.exn
assert respSer.ked['r'] == "/presentation/proof"
data = respSer.ked['q']
assert "presentation_submission" in data
pe = data["presentation_submission"]
assert "descriptor_map" in pe
dm = pe["descriptor_map"]
assert len(dm) == 1
assert dm[0]["id"] == schemer.said
assert "verifiableCredential" in data
vcs = data["verifiableCredential"]
assert len(vcs) == 1
proof = (
"-FABE4YPqsEOaPNaZxVIbY-Gx2bJgP-c7AH_K7pEE-YfcI9E0AAAAAAAAAAAAAAAAAAAAAAAElHzHwX3V6itsD2Ksg_CNBbUNTBYzLYw"
"-AxDNI7_ZmaI-AABAA0pXbQllgzXr88IczAnsPrdhgFKs9wNQvfSfzyrtcvbTwq-U1DmBluAklntCqH1AbBL6TWLZIDGi83BHLWJ82CA"
)
assert vcs[0]["proof"] == proof
def test_dodoer_always():
"""
Test DoDoer class with tryDoer and always
"""
# create some TryDoers for doers
doer0 = TryDoer(stop=1)
doer1 = TryDoer(stop=2)
doer2 = TryDoer(stop=3)
doers = [doer0, doer1, doer2]
tock = 1.0
dodoer = doing.DoDoer(tock=tock, doers=list(doers))
assert dodoer.tock == tock == 1.0
assert dodoer.doers == doers
for doer in dodoer.doers:
assert doer.done == None
assert dodoer.always == False
limit = 5.0
doist = doing.Doist(tock=tock, limit=limit, doers=[dodoer])
assert doist.tock == tock == 1.0
assert doist.limit == limit == 5.0
assert doist.doers == [dodoer]
assert dodoer.done == None
assert dodoer.always == False
assert not dodoer.deeds
# limit = 5 is long enough that all TryDoers complete
doist.do()
assert doist.tyme == 4.0
assert dodoer.done
assert dodoer.tyme == doist.tyme
assert dodoer.always == False
for doer in dodoer.doers:
assert doer.done
assert doer.tyme == dodoer.tyme == doist.tyme
assert not dodoer.deeds
# redo but with limit == so not all complete
doist.do(limit=2)
assert doist.tyme == 6.0
assert not dodoer.done
assert dodoer.always == False
assert doer0.done
assert not doer1.done
assert not doer2.done
assert not dodoer.deeds
# redo but with ddoer.always == True but limit enough to complete
dodoer.always = True
assert dodoer.always == True
doist.do(limit=5)
assert doist.tyme == 11.0
assert not dodoer.done # dodoer not done
assert dodoer.always == True
for doer in dodoer.doers: # but all its doers are done
assert doer.done
assert not dodoer.deeds
# redo but with ddoer.always == True but limit not enought to complete
assert dodoer.always == True
doist.do(limit=2)
assert doist.tyme == 13.0
assert not dodoer.done # dodoer not done
assert dodoer.always == True
assert doer0.done
assert not doer1.done
assert not doer2.done
assert not dodoer.deeds
# redo but with ddoer.always == True but manual run doist so does not
# force complete doers
assert dodoer.always == True
assert doist.tyme == 13.0
deeds = doist.ready(doers=[dodoer])
doist.once(deeds)
doist.once(deeds)
assert doist.tyme == 15.0
assert not dodoer.done # dodoer not done
assert dodoer.always == True
assert doer0.done
assert not doer1.done
assert not doer2.done
assert len(dodoer.deeds) == 2 # deeds still there
# now extend deeds
doer3 = TryDoer(stop=1)
doer4 = TryDoer(stop=2)
moredoers = [doer3, doer4]
dodoer.extend(doers=list(moredoers))
assert dodoer.doers == doers + moredoers
assert len(dodoer.deeds) == 4
indices = [index for dog, retyme, index in dodoer.deeds]
assert indices == [1, 2, 3, 4]
doist.once(deeds)
doist.once(deeds)
assert doist.tyme == 17.0
assert not dodoer.done # dodoer not done
assert dodoer.always == True
assert doer0.done
assert doer1.done
assert doer2.done
assert doer3.done
assert not doer4.done
assert len(dodoer.deeds) == 1 # deeds still there
doist.close(deeds)
assert dodoer.done == False # forced close so not done
assert doer0.done
assert doer1.done
assert doer2.done
assert doer3.done
assert not doer4.done # forced close so not done
assert not deeds
# start over with full set to test remove
doer0 = TryDoer(stop=1)
doer1 = TryDoer(stop=2)
doer2 = TryDoer(stop=3)
doer3 = TryDoer(stop=2)
doer4 = TryDoer(stop=3)
doers = [doer0, doer1, doer2, doer3, doer4]
dodoer = doing.DoDoer(tock=tock, doers=list(doers), always=True)
assert dodoer.tock == tock == 1.0
assert dodoer.doers ==doers
for doer in dodoer.doers:
assert doer.done == None
assert dodoer.always == True
limit = 5.0
doist = doing.Doist(tock=tock, limit=limit, doers=[dodoer])
assert doist.tock == tock == 1.0
assert doist.limit == limit == 5.0
assert doist.doers == [dodoer]
assert dodoer.done == None
assert dodoer.always == True
assert not dodoer.deeds
deeds = doist.ready(doers=[dodoer])
assert not dodoer.done
doist.once(deeds)
doist.once(deeds)
assert doist.tyme == 2.0
assert not dodoer.done # dodoer not done
assert dodoer.always == True
assert doer0.done
assert not doer1.done
assert not doer2.done
assert not doer3.done
assert not doer4.done
assert len(dodoer.deeds) == 4 # deeds still there
dodoer.remove(doers=[doer0, doer1, doer3])
assert dodoer.doers == [doer2, doer4]
assert len(dodoer.deeds) == 2
"""End Test """
def test_doize_dodoer_with_bound_method():
"""
Test decorator @doize with bound method returning generator
"""
# run until complete normal exit so done==True
class A():
def __init__(self):
self.x = 1
@doing.doize(tock=0.25)
def myDo(self, tymth=None, tock=0.0, **opts):
while self.x <= 3:
tyme = yield(tock)
self.x += 1
return True
a = A()
assert a.x == 1
assert inspect.ismethod(a.myDo)
assert inspect.isgeneratorfunction(a.myDo)
# read of bound method attribute is allowed
assert a.myDo.__func__.tock == a.myDo.tock == 0.25
assert a.myDo.__func__.done == a.myDo.done == None
assert a.myDo.__func__.opts == a.myDo.opts == dict()
with pytest.raises(AttributeError):
a.myDo.tock = 0.2 # can't write to bound method attribute
a.myDo.__func__.tock = 0.2 # can write to bound method.__func__ attribute
assert a.myDo.tock == 0.2
doist = doing.Doist(limit=1.0)
myGen = a.myDo(tymth=doist.tymen(), tock=a.myDo.tock, **a.myDo.opts)
assert inspect.isgenerator(myGen)
doist.do(doers=[a.myDo])
assert a.myDo.done
assert a.x == 4
a.x = 1
assert a.x == 1
doist.tyme = 0.0
dodoer = doing.DoDoer(doers=[a.myDo])
doist.do(doers=[dodoer])
assert a.myDo.done
assert a.x == 4
# run forever so forced complete done == False
class B():
def __init__(self):
self.x = 1
@doing.doize(tock=0.25)
def myDo(self, tymth=None, tock=0.0, **opts):
while True:
tyme = yield(tock)
self.x += 1
return True
b = B()
assert b.x == 1
assert inspect.ismethod(b.myDo)
assert inspect.isgeneratorfunction(b.myDo)
# read of bound method attribute is allowed
assert b.myDo.__func__.tock == b.myDo.tock == 0.25
assert b.myDo.__func__.done == b.myDo.done == None
assert b.myDo.__func__.opts == b.myDo.opts == dict()
with pytest.raises(AttributeError):
b.myDo.tock = 0.2 # can't write to bound method attribute
b.myDo.__func__.tock = 0.2 # can write to bound method.__func__ attribute
assert b.myDo.tock == 0.2
doist = doing.Doist(limit=1.0)
myGen = b.myDo(tymth=doist.tymen(), tock=b.myDo.tock, **b.myDo.opts)
assert inspect.isgenerator(myGen)
doist.do(doers=[b.myDo])
assert b.myDo.done == False
assert b.x == 6
b.x = 1
assert b.x == 1
doist.tyme = 0.0
dodoer = doing.DoDoer(doers=[b.myDo])
doist.do(doers=[dodoer])
assert b.myDo.done == False
assert b.x == 6
"""End Test"""
def test_issuing():
sidSalt = coring.Salter(raw=b'0123456789abcdef').qb64
with basing.openDB(name="sid") as sidDB, \
keeping.openKS(name="sid") as sidKS, \
basing.openDB(name="red") as redDB, \
openPocket(name="red") as redPDB:
limit = 1.0
tock = 1.0
doist = doing.Doist(limit=limit, tock=tock)
sidHab = habbing.Habitat(ks=sidKS, db=sidDB, salt=sidSalt, temp=True)
sidPre = sidHab.pre
assert sidPre == "E4YPqsEOaPNaZxVIbY-Gx2bJgP-c7AH_K7pEE-YfcI9E"
sidIcpMsg = sidHab.makeOwnInception()
redKvy = eventing.Kevery(db=redDB)
parsing.Parser().parse(ims=bytearray(sidIcpMsg), kvy=redKvy)
assert redKvy.kevers[sidPre].sn == 0 # accepted event
sed = dict()
sed["$id"] = ""
sed["$schema"] = "http://json-schema.org/draft-07/schema#"
sed.update(
dict(type="object",
properties=dict(id=dict(type="string"),
lei=dict(type="string"))))
schemer = scheming.Schemer(sed=sed, code=coring.MtrDex.Blake3_256)
assert schemer.said == "EeCCZi1R5xHUlhsyQNm_7NrUQTEKZH5P9vBomnc9AihY"
cache = scheming.CacheResolver()
cache.add(schemer.said, schemer.raw)
jsonSchema = JSONSchema(resolver=cache)
# Create Red's wallet and Issue Handler for receiving the credential
redWallet = Wallet(hab=sidHab, db=redPDB)
redIssueHandler = IssueHandler(wallet=redWallet, typ=jsonSchema)
redExc = exchanging.Exchanger(hab=sidHab,
tymth=doist.tymen(),
handlers=[redIssueHandler])
# Build the credential subject and then the Credentialer for the full credential
credSubject = dict(
id=
"did:keri:Efaavv0oadfghasdfn443fhbyyr4v", # this needs to be generated from a KEL
lei="254900OPPU84GM83MG36",
issuanceDate="2021-06-27T21:26:21.233257+00:00",
)
creder = credential(issuer=sidHab.pre,
schema=schemer.said,
subject=credSubject,
typ=jsonSchema)
assert creder.said == "EgaaYOPdG7vootT99cmClvwOoM-hjUIpv5Xl6hFuTcyM"
msg = sidHab.endorse(serder=creder)
assert msg == (
b'{"v":"KERI10JSON000136_","i":"EgaaYOPdG7vootT99cmClvwOoM-hjUIpv5Xl6hFuTcyM",'
b'"x":"EeCCZi1R5xHUlhsyQNm_7NrUQTEKZH5P9vBomnc9AihY","ti":"E4YPqsEOaPNaZxVIbY-Gx2bJgP-c7AH_K7pEE-YfcI9E",'
b'"d":{"id":"did:keri:Efaavv0oadfghasdfn443fhbyyr4v","lei":"254900OPPU84GM83MG36",'
b'"issuanceDate":"2021-06-27T21:26:21.233257+00:00"}}-VA0-FABE4YPqsEOaPNaZxVIbY-Gx2bJgP-c7AH_K7pEE'
b'-YfcI9E0AAAAAAAAAAAAAAAAAAAAAAAElHzHwX3V6itsD2Ksg_CNBbUNTBYzLYw-AxDNI7_ZmaI'
b'-AABAA0pXbQllgzXr88IczAnsPrdhgFKs9wNQvfSfzyrtcvbTwq-U1DmBluAklntCqH1AbBL6TWLZIDGi83BHLWJ82CA'
)
# Create the issue credential payload
pl = dict(vc=[envelope(msg, typ=jsonSchema)])
# Create the `exn` message for issue credential
sidExcSrdr = exchanging.exchange(route="/credential/issue", payload=pl)
excMsg = sidHab.sanction(sidExcSrdr)
# Parse the exn issue credential message on Red's side
parsing.Parser().parse(ims=bytearray(excMsg), kvy=redKvy, exc=redExc)
doist.do(doers=[redExc])
assert doist.tyme == limit
ser = (
b'{"v":"KERI10JSON000136_","i":"EgaaYOPdG7vootT99cmClvwOoM-hjUIpv5Xl6hFuTcyM",'
b'"x":"EeCCZi1R5xHUlhsyQNm_7NrUQTEKZH5P9vBomnc9AihY","ti":"E4YPqsEOaPNaZxVIbY-Gx2bJgP-c7AH_K7pEE-YfcI9E",'
b'"d":{"id":"did:keri:Efaavv0oadfghasdfn443fhbyyr4v","lei":"254900OPPU84GM83MG36",'
b'"issuanceDate":"2021-06-27T21:26:21.233257+00:00"}}')
sig0 = (
b'AA0pXbQllgzXr88IczAnsPrdhgFKs9wNQvfSfzyrtcvbTwq-U1DmBluAklntCqH1AbBL6TWLZIDGi83BHLWJ82CA'
)
# verify we can load serialized VC by SAID
key = creder.said.encode("utf-8")
assert redPDB.getSers(key) == ser
# verify the signature
sigs = redPDB.getSigs(key)
assert len(sigs) == 1
assert sigs[0] == sig0
# verify we can look up credential by Schema SAID
schema = redPDB.getSchms(schemer.saider.qb64b)
assert len(schema) == 1
assert schema[0] == key
def test_directing_basic():
"""
Test directing
"""
help.ogler.resetLevel(level=logging.DEBUG)
# set of secrets (seeds for private keys)
bobSecrets = [
'ArwXoACJgOleVZ2PY7kXn7rA0II0mHYDhc6WrBH8fDAc',
'A6zz7M08-HQSFq92sJ8KJOT2cZ47x7pXFQLPB0pckB3Q',
'AcwFTk-wgk3ZT2buPRIbK-zxgPx-TKbaegQvPEivN90Y',
'Alntkt3u6dDgiQxTATr01dy8M72uuaZEf9eTdM-70Gk8',
'A1-QxDkso9-MR1A8rZz_Naw6fgaAtayda8hrbkRVVu1E',
'AKuYMe09COczwf2nIoD5AE119n7GLFOVFlNLxZcKuswc',
'AxFfJTcSuEE11FINfXMqWttkZGnUZ8KaREhrnyAXTsjw',
'ALq-w1UKkdrppwZzGTtz4PWYEeWm0-sDHzOv5sq96xJY'
]
bobSecrecies = []
for secret in bobSecrets: # convert secrets to secrecies
bobSecrecies.append([secret])
# create bob signers
bobSigners = [coring.Signer(qb64=secret) for secret in bobSecrets]
assert [signer.qb64 for signer in bobSigners] == bobSecrets
# bob inception transferable (nxt digest not empty)
bobSerder = eventing.incept(
keys=[bobSigners[0].verfer.qb64],
nxt=coring.Nexter(keys=[bobSigners[1].verfer.qb64]).qb64,
code=coring.MtrDex.Blake3_256)
bob = bobSerder.ked["i"]
assert bob == 'EQf1hzB6s5saaQPdDAsEzSMEFoQx_WLsq93bjPu5wuqA'
# set of secrets (seeds for private keys)
eveSecrets = [
'AgjD4nRlycmM5cPcAkfOATAp8wVldRsnc9f1tiwctXlw',
'AKUotEE0eAheKdDJh9QvNmSEmO_bjIav8V_GmctGpuCQ',
'AK-nVhMMJciMPvmF5VZE_9H-nhrgng9aJWf7_UHPtRNM',
'AT2cx-P5YUjIw_SLCHQ0pqoBWGk9s4N1brD-4pD_ANbs',
'Ap5waegfnuP6ezC18w7jQiPyQwYYsp9Yv9rYMlKAYL8k',
'Aqlc_FWWrxpxCo7R12uIz_Y2pHUH2prHx1kjghPa8jT8',
'AagumsL8FeGES7tYcnr_5oN6qcwJzZfLKxoniKUpG4qc',
'ADW3o9m3udwEf0aoOdZLLJdf1aylokP0lwwI_M2J9h0s'
]
eveSecrecies = []
for secret in eveSecrets: # convert secrets to secrecies
eveSecrecies.append([secret])
# create eve signers
eveSigners = [coring.Signer(qb64=secret) for secret in eveSecrets]
assert [signer.qb64 for signer in eveSigners] == eveSecrets
# eve inception transferable (nxt digest not empty)
eveSerder = eventing.incept(
keys=[eveSigners[0].verfer.qb64],
nxt=coring.Nexter(keys=[eveSigners[1].verfer.qb64]).qb64,
code=coring.MtrDex.Blake3_256)
eve = eveSerder.ked["i"]
assert eve == 'ED9EB3sA5u2vCPOEmX3d7bEyHiSh7Xi8fjew2KMl3FQM'
with dbing.openDB(name="eve") as eveDB, keeping.openKS(name="eve") as eveKS, \
dbing.openDB(name="bob") as bobDB, keeping.openKS(name="bob") as bobKS:
limit = 0.125
tock = 0.03125
doist = doing.Doist(limit=limit, tock=tock)
bobPort = 5620 # bob's TCP listening port for server
evePort = 5621 # eve's TCP listneing port for server
bobKevers = dict()
eveKevers = dict()
# setup bob
bobHab = directing.Habitat(ks=bobKS,
db=bobDB,
kevers=bobKevers,
secrecies=bobSecrecies,
temp=True)
assert bobHab.ks == bobKS
assert bobHab.db == bobDB
assert bobHab.iserder.dig == bobSerder.dig
assert bobHab.pre == bob
bobClient = clienting.Client(tymth=doist.tymen(),
host='127.0.0.1',
port=evePort)
bobClientDoer = doing.ClientDoer(tymth=doist.tymen(), client=bobClient)
bobDirector = directing.Director(hab=bobHab, client=bobClient)
assert bobDirector.hab == bobHab
assert bobDirector.client == bobClient
assert id(bobDirector.hab.kvy.kevers) == id(bobKevers)
assert bobDirector.hab.kvy.db == bobDB
bobReactor = directing.Reactor(hab=bobHab, client=bobClient)
assert bobReactor.hab == bobHab
assert bobReactor.client == bobClient
assert id(bobReactor.hab.kvy.kevers) == id(bobKevers)
assert bobReactor.hab.kvy.db == bobDB
assert id(bobReactor.kevery.ims) == id(bobReactor.client.rxbs)
assert id(bobReactor.client.rxbs) == id(bobDirector.client.rxbs)
bobServer = serving.Server(host="", port=bobPort)
bobServerDoer = doing.ServerDoer(server=bobServer)
bobDirectant = directing.Directant(hab=bobHab, server=bobServer)
assert bobDirectant.hab == bobHab
assert bobDirectant.server == bobServer
# Bob's Reactants created on demand
# setup eve
eveHab = directing.Habitat(ks=eveKS,
db=eveDB,
kevers=eveKevers,
secrecies=eveSecrecies,
temp=True)
assert eveHab.ks == eveKS
assert eveHab.db == eveDB
assert eveHab.iserder.dig == eveSerder.dig
assert eveHab.pre == eve
eveClient = clienting.Client(tymth=doist.tymen(),
host='127.0.0.1',
port=bobPort)
eveClientDoer = doing.ClientDoer(tymth=doist.tymen(), client=eveClient)
eveDirector = directing.Director(hab=eveHab, client=eveClient)
assert eveDirector.hab == eveHab
assert eveDirector.client == eveClient
assert id(eveDirector.hab.kvy.kevers) == id(eveKevers)
assert eveDirector.hab.kvy.db == eveDB
eveReactor = directing.Reactor(hab=eveHab, client=eveClient)
assert eveReactor.hab == eveHab
assert eveReactor.client == eveClient
assert id(eveReactor.hab.kvy.kevers) == id(eveKevers)
assert eveReactor.hab.kvy.db == eveDB
assert id(eveReactor.kevery.ims) == id(eveReactor.client.rxbs)
assert id(eveReactor.client.rxbs) == id(eveDirector.client.rxbs)
eveServer = serving.Server(host="", port=evePort)
eveServerDoer = doing.ServerDoer(server=eveServer)
eveDirectant = directing.Directant(hab=eveHab, server=eveServer)
assert eveDirectant.hab == eveHab
assert eveDirectant.server == eveServer
# Eve's Reactants created on demand
bobMsgTx = b"Hi Eve I am Bob"
bobDirector.client.tx(bobMsgTx)
eveMsgTx = b"Hi Bob its me Eve"
eveDirector.client.tx(eveMsgTx)
doers = [
bobClientDoer, bobDirector, bobReactor, bobServerDoer,
bobDirectant, eveClientDoer, eveDirector, eveReactor,
eveServerDoer, eveDirectant
]
doist.do(doers=doers)
assert doist.tyme == limit
assert bobClient.opened == False
assert bobServer.opened == False
assert eveClient.opened == False
assert eveServer.opened == False
assert not bobClient.txbs
ca, ix = list(eveServer.ixes.items())[0]
eveMsgRx = bytes(ix.rxbs) # ColdStart Error fluhes buffer
assert eveMsgRx == b''
# assert eveMsgRx == bobMsgTx
assert not eveClient.txbs
ca, ix = list(bobServer.ixes.items())[0]
bobMsgRx = bytes(ix.rxbs) # ColdStart Error fluhes buffer
assert bobMsgRx == b''
# assert bobMsgRx == eveMsgTx
assert not os.path.exists(eveDB.path)
assert not os.path.exists(bobDB.path)
help.ogler.resetLevel(level=help.ogler.level)
"""End Test"""
