def main():
g = gpio.gpio()
w = watchdog.watchdog(gpio=g)
while True:
w.pet()
common.msleep(10 * 1000)
def reminder(self):
eveInfo = watchdog.watchdog()
responseSet = eveInfo.subscriberStatus
for row in responseSet:
sinceLastCheck = getLastTimeChecked(row['last_checked'])
if row['hoursLeft'] < 24 and sinceLastCheck < 8:
acc.send_pager('sip:{0}'.format(row['owner']), 'Dear {0} your character {1} has last {2} hours left in skill queue'.format(row['owner'], row['characterName'], row['hoursLeft']))
eveInfo.setCheckedTime(row['characterID'])
def getStatus(self, subscriber):
subscriber = truncateSubscriberName(subscriber)
eveInfo = watchdog.watchdog(subscriber)
responseSet = eveInfo.subscriberStatus
if not responseSet:
response='You are not registered.\nPlease register by sending message in format: REGISTER {keyID} {vCode}'
self.acc.send_pager('sip:{0}'.format(subscriber), response)
return
response = 'Dear {0}, '.format(subscriber)
for row in responseSet:
if 'Error' in row.keys():
self.acc.send_pager('sip:{0}'.format(subscriber), 'Error fetching information from API')
return
response += 'Your cahracter {0} has {1} hours left in skill queue. Skillqueue ends at {2}\n'.format(row['characterName'], row['hoursLeft'], row['endTime'])
self.acc.send_pager('sip:{0}'.format(subscriber), response)
def __init__(self, port):
#telnet communication to lecroy
self.com = lecroy_com(port)
#number of boards and channels per board
self.nbd = 1
self.nchan = 8
#offset in board numbering
self.bdofs = 12
#list of board objects
self.bdlist = []
for ibd in range(self.nbd):
self.bdlist.append(board(ibd, self.nchan, self.bdofs, self.com))
#configuration file
self.confnam = "config.csv"
self.cframe = pandas.read_csv(self.confnam)
#watchdog timer with 10 sec timeout
self.wdt = watchdog(10, self.bdlist)
self.wdt.start()
#mainframe PVs
self.hvstat_pv = builder.boolIn("hvstat", ZNAM="OFF", ONAM="ON")
self.hvon_pv = builder.boolOut("hvon", ZNAM=0, ONAM=1, HIGH=0.1, initial_value=0, on_update=self.do_on)
self.hvoff_pv = builder.boolOut("hvoff", ZNAM=0, ONAM=1, HIGH=0.1, initial_value=0, on_update=self.do_off)
self.link_pv = builder.boolOut("link", ZNAM=0, ONAM=1, HIGH=0.7, initial_value=0)
def __init__(self, pvname, desc, mail):
self.mail = mail
self.desc = desc
self.pvname = pvname
self.initialized = False
self.sevr_val = 0
self.alarm_flag = False
self.msg_counter = 0
self.max_msg = 4
self.max_msg_reached = False
self.is_masked = False
self.stat_pv = PV(self.pvname + ".STAT")
self.val_pv = PV(self.pvname + ".VAL")
self.sevr_pv = PV(self.pvname + ".SEVR",
callback=self.on_sevr_change,
connection_callback=self.on_connection_change)
if self.sevr_pv.status is None:
self.initialized = True
self.on_connection_change(False)
self.wdt = watchdog(3600, self.reset_max_msg)
self.tid = threading.Thread(target=self.monit_loop)
self.tid.daemon = True
self.tid.start()
npp = 12
ntile = 31
elist = []
#east/west loop
for ew in range(0, 2):
elist.append([])
#PP loop
for ipp in range(0, npp + 1):
elist[ew].append([])
#tile loop
for itile in range(ntile + 1):
#PP starts at 1, handled in epdchan constructor
elist[ew][ipp].append(epdchan(ew, ipp, itile))
#watchdog timer for 60 seconds
wdt = watchdog(60, elist)
#file holding alarm limit values
csvlim = "limits.csv"
lframe = pd.read_csv(csvlim)
#set initial alarm values
elist[0][0][0].limits.imon_max = lframe['imon_max'][0]
elist[0][0][0].limits.rmon_min = lframe['rmon_min'][0]
elist[0][0][0].limits.rmon_max = lframe['rmon_max'][0]
elist[0][0][0].limits.temp_max = lframe['temp_max'][0]
#functions to show alarm limits
#_____________________________________________________________________________
def get_imon_max():
return elist[0][0][0].limits.imon_max
npp = 12
ntile = 31
elist = []
#east/west loop
for ew in range(0,2):
elist.append([])
#PP loop
for ipp in range(0,npp+1):
elist[ew].append([])
#tile loop
for itile in range(ntile+1):
#PP starts at 1, handled in epdchan constructor
elist[ew][ipp].append( epdchan(ew, ipp, itile) )
#watchdog timer for 60 seconds
wdt = watchdog(60, elist)
#file holding alarm limit values
csvlim = "limits.csv"
lframe = pd.read_csv(csvlim)
#set initial alarm values
elist[0][0][0].limits.imon_max = lframe['imon_max'][0]
elist[0][0][0].limits.rmon_min = lframe['rmon_min'][0]
elist[0][0][0].limits.rmon_max = lframe['rmon_max'][0]
elist[0][0][0].limits.temp_max = lframe['temp_max'][0]
#functions to show alarm limits
#_____________________________________________________________________________
def get_imon_max():
return elist[0][0][0].limits.imon_max
cashier = Cashier(session, accountant, bitcoinrpc, compropago,
cold_wallet_period=cold_wallet_period,
sendmail=sendmail,
minimum_confirmations=minimum_confirmations,
alerts=alerts_proxy,
bitgo=bitgo,
bitgo_private_key_file=bitgo_private_key_file,
testnet=config.getboolean("cashier", "testnet"),
)
administrator_export = AdministratorExport(cashier)
accountant_export = AccountantExport(cashier)
webserver_export = WebserverExport(cashier)
watchdog(config.get("watchdog", "cashier"))
router_share_async(administrator_export,
config.get("cashier", "administrator_export"))
pull_share_async(accountant_export,
config.get("cashier", "accountant_export"))
router_share_async(webserver_export,
config.get("cashier", "webserver_export"))
public_server = Resource()
public_server.putChild('compropago', CompropagoHook(cashier))
private_server = Resource()
private_server.putChild('bitcoin', BitcoinNotify(cashier))
if config.getboolean("webserver", "ssl"):
key = config.get("webserver", "ssl_key")
# a remote sysadmin to fix the system between reboots
TTL = 120
usage = f'''{sys.argv[0]} [username] [password]
This program monitors connection state via ICMP messages. If it can ping the default gateway but not an external
address, it will reboot your modem.
'''
if __name__ == "__main__":
parser = argparse.ArgumentParser(description='This program monitors connection state via ICMP messages. If it can '
'ping the default gateway but not an external address, it will reboot '
'your modem.')
parser.add_argument('username', metavar='username', type=str, nargs=1, help='user to log in as')
parser.add_argument('password', metavar='password', type=str, nargs=1, help='password to use when logging in')
parser.add_argument('--modem-url', dest='modem_url', type=str, default='http://192.168.100.1',
help='modem address')
parser.add_argument('--check-address', dest='check_address', type=str, help='internal address to ping as a check')
args = parser.parse_args()
logging.basicConfig(level=logging.INFO)
try:
modem = modems.NetgearCM1100(args.username, args.password, url=args.modem_url)
except IndexError:
print(usage)
print('ERROR: must provide username and password as arguments')
exit(1)
else:
watchdog.watchdog(modem, internal_addr=args.check_address)
class AccountantExport(ComponentExport):
def __init__(self, ledger):
self.ledger = ledger
ComponentExport.__init__(self, ledger)
@export
@schema("rpc/ledger.json#post")
def post(self, *postings):
return self.ledger.post(list(postings))
def create_posting(type, username, contract, quantity, direction, note=None, timestamp=None):
if timestamp is None:
timestamp = util.dt_to_timestamp(datetime.datetime.utcnow())
return {"username":username, "contract":contract, "quantity":quantity,
"direction":direction, "note": note, "type": type, "timestamp": timestamp}
if __name__ == "__main__":
fo = log.startLogging(sys.stdout)
fo.formatTime = lambda x: datetime.datetime.fromtimestamp(x).strftime("%Y-%m-%d %H:%M:%S.%f")
engine = database.make_engine()
timeout = config.getint("ledger", "timeout")
ledger = Ledger(engine, timeout)
accountant_export = AccountantExport(ledger)
watchdog(config.get("watchdog", "ledger"))
router_share_async(accountant_export,
config.get("ledger", "accountant_export"))
reactor.run()
administrator_export = AdministratorExport(engine)
accountant_port = config.getint("engine", "accountant_base_port") + contract.id
administrator_port = config.getint("engine", "administrator_base_port") + contract.id
router_share_async(administrator_export, "tcp://127.0.0.1:%d" % administrator_port)
logger = LoggingListener(engine, contract)
accountant = accountant.AccountantProxy("push",
config.get("accountant", "engine_export"),
config.getint("accountant", "engine_export_base_port"))
accountant_notifier = AccountantNotifier(engine, accountant, contract)
webserver = push_proxy_async(config.get("webserver", "engine_export"))
webserver_notifier = WebserverNotifier(engine, webserver, contract)
watchdog(config.get("watchdog", "engine") %
(config.getint("watchdog", "engine_base_port") + contract.id))
forwarder = connect_publisher(config.get("safe_price_forwarder", "zmq_frontend_address"))
safe_price_notifier = SafePriceNotifier(session, engine, accountant, webserver, forwarder, contract)
accountant_export = AccountantExport(engine, safe_price_notifier, webserver_notifier)
router_share_async(accountant_export, "tcp://127.0.0.1:%d" % accountant_port)
engine.add_listener(logger)
engine.add_listener(accountant_notifier)
engine.add_listener(webserver_notifier)
engine.add_listener(safe_price_notifier)
# Cancel all orders with some quantity_left that have been dispatched but not cancelled
try:
for order in session.query(models.Order).filter_by(
def openwatchdog(self):
if self.gpio is not None:
self.watchdog = watchdog.watchdog(gpio=self.gpio)
else:
self.logger.log.error("Cannot open watchdog interface before GPIO")
bitcoinrpc,
compropago,
cold_wallet_period=cold_wallet_period,
sendmail=sendmail,
minimum_confirmations=minimum_confirmations,
alerts=alerts_proxy,
bitgo=bitgo,
bitgo_private_key_file=bitgo_private_key_file,
testnet=config.getboolean("cashier", "testnet"),
)
administrator_export = AdministratorExport(cashier)
accountant_export = AccountantExport(cashier)
webserver_export = WebserverExport(cashier)
watchdog(config.get("watchdog", "cashier"))
router_share_async(administrator_export,
config.get("cashier", "administrator_export"))
pull_share_async(accountant_export,
config.get("cashier", "accountant_export"))
router_share_async(webserver_export,
config.get("cashier", "webserver_export"))
public_server = Resource()
public_server.putChild('compropago', CompropagoHook(cashier))
private_server = Resource()
private_server.putChild('bitcoin', BitcoinNotify(cashier))
if config.getboolean("webserver", "ssl"):
key = config.get("webserver", "ssl_key")
cert = config.get("webserver", "ssl_cert")
quantity,
direction,
note=None,
timestamp=None):
if timestamp is None:
timestamp = util.dt_to_timestamp(datetime.datetime.utcnow())
return {
"username": username,
"contract": contract,
"quantity": quantity,
"direction": direction,
"note": note,
"type": type,
"timestamp": timestamp
}
if __name__ == "__main__":
fo = log.startLogging(sys.stdout)
fo.formatTime = lambda x: datetime.datetime.fromtimestamp(x).strftime(
"%Y-%m-%d %H:%M:%S.%f")
engine = database.make_engine()
timeout = config.getint("ledger", "timeout")
ledger = Ledger(engine, timeout)
accountant_export = AccountantExport(ledger)
watchdog(config.get("watchdog", "ledger"))
router_share_async(accountant_export,
config.get("ledger", "accountant_export"))
reactor.run()
def test_watchdog_context_raises(self): try: with watchdog(3): time.sleep(4) except Timeout, e: pass;
def test_watchdog_context_does_not_raise(self):
try:
with watchdog(3):
time.sleep(2);
except Timeout, e:
self.fail("sleep(2) shoud not raise under a 3 second watchdog");
def __init__(self, CFG):
self.CFG = CFG
if CFG.has_section('net') and CFG.has_option('net', 'host'):
self.host = CFG.get('net', 'host')
else:
self.host = '' #socket.getsockname()
if CFG.has_section('net') and CFG.has_option('net', 'port'):
self.port = int(CFG.get('net', 'port'))
else:
self.port = 8568
#the maximum number of waiting socket connections
if CFG.has_section('net') and CFG.has_option('net', 'backlog'):
self.backlog = int(CFG.get('net', 'backlog'))
else:
self.backlog = 100
if CFG.has_section('net') and CFG.has_option('net', 'socketBufferSize'):
self.socketBufferSize = int(CFG.get('net', 'socketBufferSize'))
else:
self.socketBufferSize = 4096
if CFG.has_section('all') and CFG.has_option('all', 'workspace'):
self.home = CFG.get('all', 'workspace')
else:
print 'Value not provided for workspace. Aborting...';
sys.exit(1);
self.logfile = open(self.home + 'logs/server.log', 'ab')
if CFG.has_section('server') and CFG.has_option('server', 'numSingleProcesses'):
self.numSingleProcesses = int(CFG.get('server', 'numSingleProcesses'))
else:
self.numSingleProcesses = 1
if CFG.has_section('server') and CFG.has_option('server', 'maxJobAge'):
self.maxJobAge = int(CFG.get('server', 'maxJobAge'))
else:
self.maxJobAge = 7
if CFG.has_section('net') and CFG.has_option('net', 'serverSocketRetry'):
self.serverSocketRetry = int(CFG.get('net', 'serverSocketRetry'))
else:
self.serverSocketRetry = 15
if CFG.has_section('net') and CFG.has_option('net', 'serverSelectTimeout'):
self.serverSelectTimeout = int(CFG.get('net', 'serverSelectTimeout'))
else:
self.serverSelectTimeout = 30
self.logMutex = threading.Lock()
self.log("Starting server")
self.server = None
self.jobQueue = Queue()
#this keeps track of which thread has which job
self.singleProcesses = {}
self.running = True
self.input = []
self.watchdog = watchdog(self)
self.waitMutex = threading.Lock()
self.log("Starting " + str(self.numSingleProcesses) + " singleProcess instances.")
#Create numsingleProcesses singleProcess's, indexed by an id.
for i in range(self.numSingleProcesses):
i = str(i)
self.log("Starting thread 'singleProcess" + i + "'.")
self.watchdog.addThread(i)
self.singleProcesses[i] = singleProcess( i, self)
self.singleProcesses[i].start()
self.log("Starting thread 'watchdog'.")
self.watchdog.start()
