def __init__(self, crawler_queue, webserver_queue):
multiprocessing.Process.__init__(self)
# Create queue for crawler
self.crawler_queue = crawler_queue
# Create queue for webserver
self.webserver_queue = webserver_queue
# Create controller for status LED
self.led = LED(LED.MANAGER)
# Create logger
self.logger = Logger()
def __init__(self, manager_queue, dummy=True):
multiprocessing.Process.__init__(self)
self.manager_queue = manager_queue
self.dummy = dummy
self.led = LED(LED.CRAWLER)
self.logger = Logger()
class Crawler(multiprocessing.Process):
def __init__(self, manager_queue, dummy=True):
multiprocessing.Process.__init__(self)
self.manager_queue = manager_queue
self.dummy = dummy
self.led = LED(LED.CRAWLER)
self.logger = Logger()
def _notify(self, state, mac):
# print a pretty message
if state == '1':
self.logger.log(Logger.INFO, "New peer connected: " + str(mac))
elif state == '0':
self.logger.log(Logger.INFO, "New peer disconnected: " + str(mac))
# send new mac to manager
self.manager_queue.put([state, mac])
# toggle the status led for 100ms
self.led.toggle()
time.sleep(0.1)
self.led.toggle()
def run(self):
self.logger.log(Logger.INFO, "Running")
print("Logger running")
self.led.on()
# dummy mode, send addresses in random time slices
if self.dummy:
while True:
time.sleep(2)
self._notify('1', '00:80:41:ae:fd:7e')
time.sleep(2)
self._notify('1', '00:80:41:ae:fd:7d')
time.sleep(2)
self._notify('0', '00:80:41:ae:fd:7e')
time.sleep(2)
self._notify('0', '00:80:41:ae:fd:7d')
# listen of events from WIFI interface
else:
# regex pattern for iwevent messages
pattern = re.compile('(.*?)\s+(.*?)\s+([\w|\s]+):(.*)$')
# spaw new iwevent process and capture output
result = subprocess.Popen("/sbin/iwevent", shell=False, stdout=subprocess.PIPE)
# each line is a new event
while True:
line = result.stdout.readline()
if line == '':
break
# parse output
matcher = pattern.search(line.decode("utf-8"))
if matcher:
# new peer connected
if "Registered" in matcher.group(3):
self.logger.log(Logger.INFO, "New peer connected: " + matcher.group(4))
self.manager_queue.put(['1', matcher.group(4)])
# peer disconnected
elif "Expired" in matcher.group(3):
self.logger.log(Logger.INFO, "Peer disconnected: " + matcher.group(4))
self.manager_queue.put(['0', matcher.group(4)])
# toggle the status led for 100ms
self.led.toggle()
time.sleep(0.1)
self.led.toggle()
self.logger.log("Exited")
self.led.off()
class Manager(multiprocessing.Process):
def __init__(self, crawler_queue, webserver_queue):
multiprocessing.Process.__init__(self)
# Create queue for crawler
self.crawler_queue = crawler_queue
# Create queue for webserver
self.webserver_queue = webserver_queue
# Create controller for status LED
self.led = LED(LED.MANAGER)
# Create logger
self.logger = Logger()
def run(self):
self.logger.log(Logger.INFO, 'Running')
print("Manager running")
self.led.on()
# Control for sound and light
self.per = Periphery()
# Create the database connection
self.db = SQLiteWrapper()
current_users = np.array([])
# Boolean if the list was altered
altered = False
while True:
# Update users
users = self.db.retrieve_users()
# Receive new changes from crawler
changes = np.array(self.crawler_queue.get())
old_users = current_users
# Iterate over changes
for i in range(0, changes.size - 1):
# New user connected
if changes[0] == "1":
for user in users:
if user.mac.lower() == changes[1].lower():
# Signalise changes in user list for webserver
altered = True
# Add new user to user list
old_users = np.append(current_users, changes[1])
# Remove duplicates
current_users = np.unique(old_users)
# Get light and sound information for user
light_id = user.light_id
light_color = user.light_color
sound = user.sound
self.logger.log(Logger.INFO, "user " + changes[1] + " added")
# Turn on users light and play users sound
self.per.light_on(int(light_id), light_color)
self.per.play_sound(sound)
break
# User disconnected
elif changes[0] == "0":
for user in users:
if user.mac.lower() == changes[1].lower():
# Catch deletion of just added users
try:
del_index = np.where(current_users == changes[1])[0][0]
except IndexError:
break
# Signalise changes in user list for webserver
altered = True
# Delete user from user list
current_users = np.delete(current_users, del_index)
# Get light information for user
light_id = user.light_id
self.logger.log(Logger.INFO, "user " + changes[1] + " deleted")
# Turn off users light
self.per.light_off(int(light_id))
# Change in status light
elif changes[0] == "2":
# Set new colour of status light
self.per.set_status_light(changes[1])
# User list was altered
if altered:
altered = False
# Send new user list to webserver
self.webserver_queue.put(current_users.tolist())
# Turn off status LED
self.led.off()
