Exemple #1
0
    def __init__(self, path2device, channel, rxmac):
        self.ser = serialinterface.SerialInterface(path2device, 115200, 0)
        self.free = threading.Lock()
        self.queueslock = threading.Lock()
        self.packets = Queue.PriorityQueue()
        self.outpackets = Queue.Queue()
        self.crc = crcmod.predefined.mkCrcFun('crc-ccitt-false')
        self.queues = {}
        self.callbacks = []
        self.ctrs = {}

        self.reader = threading.Thread(target=self.readerThread)
        self.reader.daemon = True

        self.writer = threading.Thread(target=self.writerThread)
        self.writer.daemon = True

        self.writer.start()
        self.reader.start()

        self.packetlength = None
        self.txmac = None
        self.rxmac = None
        self.channel = None
        self.gameChannel = channel

        self.setPacketLength(0x20)
        self.setRxMAC(rxmac)
        self.setChannel(channel)

        self.ctr = 0
Exemple #2
0
    def __init__(self):
        threading.Thread.__init__(self)
        self.daemon = True
        self.interface = serialinterface.SerialInterface('/dev/ttyUSB0',
                115200, timeout = 5)
        
        self.pricelines = {1: {'cost': Decimal("1.5")}, 3: {'cost': Decimal("1.0")}}

        self.interface.create_channel('C')
        self.interface.create_channel('T')
        self.interface.start()
        self.start()
Exemple #3
0
    def __init__(self, device, autoUpdate=1.0):
        self._interface = serialinterface.SerialInterface(
            serial.Serial, device, 115200, 8, 'N', 2)
        log.debug("interface setup OK")
        self._ports = {}

        self.resetReboot()
        log.debug("reset reboot OK")
        self.updatePorts()
        log.debug("updated Ports")

        self._poller = None
        if autoUpdate is not None:
            log.info("starting auto-poller")
            self._poller = StatePoller(self, autoUpdate)
            self._poller.start()
Exemple #4
0
def createSerial(dev):
    ser = serialinterface.SerialInterface(dev, 115200, 1)
    # put the bridge into full drive mode
    # ser.write('\\F')
    return ser
Exemple #5
0
                      help="data to program to eeprom")

    #    parser.add_option("-d", "--data",
    #                    dest = "data",
    #                    default = "",
    #                    help = "data to write to eeprom")

    (options, args) = parser.parse_args()
    options.pagesize = int(options.pagesize)
    options.baudrate = int(options.baudrate)
    options.chunksize = int(options.chunksize)
    return options


options = parse()
serial = serialinterface.SerialInterface(options.serial, options.baudrate, .1)
"""
t = 0.001
n = 300
while 1:
    serial.write(    "\x5c\x30\x00\x43\xff\x12\x12\x5c\x31")
    time.sleep(t)
    for i in range(1,n):
        serial.write("\x5c\x30\x32\x43\x12\x12\x12\x5c\x31")
        time.sleep(t)
    print "."
    time.sleep(t)
    serial.write(    "\x5c\x30\x00\x43\x12\x12\x12\x5c\x31")
    for i in range(1,n):
        serial.write("\x5c\x30\x32\x43\x12\x12\x12\x5c\x31")
        time.sleep(t)
#!/usr/bin/python

import acabsl
import time
import serialinterface
import sys
import random

print sys.argv[1]

serial = serialinterface.SerialInterface(sys.argv[1], 115200, 1)

t = 1

acabsl.update()


def set_all(r, g, b):
    for w in range(acabsl.NOOFWALLS):
        for x in range(acabsl.WALLSIZEX):
            for y in range(acabsl.WALLSIZEY):
                acabsl.send(x, y, r, g, b, 0, w)


def set_pattern():
    set_all(0, 0, 0)
    r = random.random() * 127 + 127
    g = random.random() * 127 + 127
    b = random.random() * 127 + 127

    acabsl.send(5, 0, r, g, b)
def createBridge(dev):
    serial = serialinterface.SerialInterface(dev, 115200, 1)
    queue = Queue.Queue(130)
    updatequeue = Queue.Queue(1)
    updatequeues.append(updatequeue)
    return (queue, serial, updatequeue)
Exemple #8
0
def createSerial(dev):
    return serialinterface.SerialInterface(dev, 115200, 1)
Exemple #9
0
    def __init__(self, config):
        self.logger = logging.getLogger('logger')
        self.logger.info('Starting lockd')

        #add_custom_print_exception()

        serialdevice = config.get('Master Controller', 'serialdevice')
        baudrate = config.get('Master Controller', 'baudrate')

        self.serial_interface = serialinterface.SerialInterface(serialdevice, baudrate, timeout=.1)

        self.input_queue = Queue.Queue()

        udpcommand = UDPCommand('127.0.0.1', 2323, self.input_queue)

        self.doors = {}

        self.master = None

        display = None
        
        self.display_controller = None

        self.logic = DoorLogic()

        for section in config.sections():
            if config.has_option(section, 'type'):
                t = config.get(section, 'type')
                if t == 'door':
                    door_name = section
                    self.logger.debug('Adding door "%s"'%door_name)
                    buttons = {1: 'manual_control', 2: 'bell_code'}
                    door = Door(door_name, config, self.serial_interface, self.input_queue, buttons)
                    door_address = config.get(door_name, 'address')
                    self.doors[door_address] = door
                    self.logic.add_door(door)
                else:
                    self.logger.warning('Unknown entry type "%s"', t)
            elif section == 'Master Controller':
                #txseq = int(config.get(section, 'txsequence'))
                #rxseq = int(config.get(section, 'rxsequence'))
                #key = config.get(section, 'key')
                
                buttons_section = 'Master Controller Buttons'
                buttons = {}
                for button_name in config.options(buttons_section):
                    button_pin = int(config.get(buttons_section, button_name))
                    buttons[button_pin] = button_name

                leds_section = 'Master Controller LEDs'
                leds = {}
                for led_name in config.options(leds_section):
                    led_pin = int(config.get(leds_section, led_name))
                    leds[led_name] = led_pin
                
                self.master = MasterController(self.serial_interface, self.input_queue, buttons, leds) 
            
            elif section == 'Display':
                display_type = config.get(section, 'display_type') 
                max_update_rate = float(config.get(section, 'max_update_rate'))
                if display_type == "Nokia_1600":
                    from display import Display
                    display = Display(self.serial_interface)
                elif display_type == 'simulation':
                    from display_pygame import Display
                    display = Display()
                elif display_type == 'network':
                    from display_network import Display
                    display = Display()
                elif display_type == 'None':
                    display = None
                else:
                    self.logger.warning('Unknown display type "%s"', display_type)
            elif section == 'Status Receiver':
                host = config.get(section, 'host')
                port = int(config.get(section, 'port'))
                self.announcer = Announcer(host, port)
                self.logic.add_state_listener(self.announcer.update_state)
        
        if self.master == None:
            self.logger.error('Please specify a self.master controller')
            sys.exit(1)

        self.interface_logic = UserInterfaceLogic(self.master)
        self.logic.add_state_listener(self.interface_logic.update_state)
        
        if display != None:
            self.display_controller = DisplayController(display, max_update_rate)
            self.display_logic = DisplayLogic(self.display_controller)
            self.logic.add_state_listener(self.display_logic.update_state)
            for door in self.doors.values():
                self.display_logic.add_door(door)

        else:
            self.logger.warning('No display specified.')

        self.input_queue.put({'origin_name': 'init',
                        'origin_type': DoorLogic.Origin.INTERNAL,
                        'input_name': '',
                        'input_type': DoorLogic.Input.COMMAND,
                        'input_value': 'down'})
Exemple #10
0
                                         facility=19)

logger.addHandler(handler)

logger.info('Starting lockd')

#add_custom_print_exception()

try:
    #if 1:
    serialdevice = config.get('Master Controller', 'serialdevice')
    baudrate = config.get('Master Controller', 'baudrate')

    announcer = Announcer(False)

    ser = serialinterface.SerialInterface(serialdevice, baudrate, timeout=.1)
    command_queue = Queue.Queue()

    udpcommand = UDPCommand('127.0.0.1', 2323, command_queue)

    doors = {}

    master = None

    for section in config.sections():
        if config.has_option(section, 'type'):
            t = config.get(section, 'type')
            if t == 'door':
                name = section
                txseq = int(config.get(section, 'txsequence'))
                rxseq = int(config.get(section, 'rxsequence'))