Beispiel #1
0
Datei: Scan.py Projekt: HMTL/HMTL
def main():
    (options, args) = handle_args()

    client = HMTLClient(options)

    if options.scanevery:
        modules = scan_every(client)
    else:
        modules = scan_broadcast(client)

    client.close()

    print("\nFound %d modules:" % (len(modules)))
    print("  %s" % (HMTLprotocol.PollHdr.headers()))
    for m in modules:
        print("  %s" % (m.dump()))

    exit(0)
Beispiel #2
0
class Client:
    """
    This class controls a connection to a hmtl server as well as tracking
    the state of the devices it is connected to.
    """

    def __init__(self, address, verbose=False):
        self.address = address
        self.hmtl_client = None
        self.verbose = verbose
        self.cleared = False

    def connect(self, force_reconnect = False):
        if self.is_connected() and not force_reconnect:
            print("* Client is already connected")
            return True

        if self.is_connected() and force_reconnect:
            print("* Disconnecting client")
            self.hmtl_client.close()
            self.hmtl_client = None

        try:
            print("* Creating HMTL Client.  address=%s" % self.address)
            self.hmtl_client = HMTLClient(address=self.address,
                                          verbose=self.verbose)
            return True
        except Exception as e:
            print("ERROR: Failed to create client: %s" % e)
            self.hmtl_client = None
            return False

    def is_connected(self):
        return self.hmtl_client is not None

    def send_msg(self, msg, expect_response=False):
        if not self.is_connected():
            raise ClientDisconnectedException("Client is not connected")

        start_time = time.time()
        self.hmtl_client.send_and_ack(msg, expect_response)
        end_time = time.time()
        print("Client: sent and acked in %.6fs" % (end_time - start_time))
Beispiel #3
0
    def connect(self, force_reconnect = False):
        if self.is_connected() and not force_reconnect:
            print("* Client is already connected")
            return True

        if self.is_connected() and force_reconnect:
            print("* Disconnecting client")
            self.hmtl_client.close()
            self.hmtl_client = None

        try:
            print("* Creating HMTL Client.  address=%s" % self.address)
            self.hmtl_client = HMTLClient(address=self.address,
                                          verbose=self.verbose)
            return True
        except Exception as e:
            print("ERROR: Failed to create client: %s" % e)
            self.hmtl_client = None
            return False
Beispiel #4
0
def main():
    options = parse_options()

    client = HMTLClient(address=options.address,
                        port=options.port,
                        hmtladdress=options.hmtladdress,
                        verbose=options.verbose)

    msg = None
    expect_response = False

    if options.commandtype == "rgb":
        if not options.foreground:
            print("RGB command requires foreground color")
            exit(1)
        fg = [ int(x) for x in options.foreground.split(",") ]
        print("Sending RGB message.  Address=%d Output=%d fg=%s" %
              (options.hmtladdress, options.output, fg))
        msg = HMTLprotocol.get_rgb_msg(options.hmtladdress,
                                       options.output,
                                       fg[0], fg[1], fg[2])

    if options.commandtype == "static":
        if not options.foreground or not options.background or not options.period or (options.threshold == None):
            print("STATIC command requires foreground, background, period, and threshold")
            exit(1)
        fg = [ int(x) for x in options.foreground.split(",") ]
        bg = [ int(x) for x in options.background.split(",") ]
        print("Sending STATIC message.  Address=%d Output=%d period=%d fg=%s bg=%s threshold=%d" %
              (options.hmtladdress, options.output, options.period, fg, bg,
               options.threshold))
        static = TriangleStatic(options.period, fg, bg,
                                options.threshold)
        msg = static.msg(options.hmtladdress, options.output)

    elif options.commandtype == "snake":
        if not options.background or not options.period or \
                (options.colormode == None):
            print("SNAKE command requires background, colormode, and period")
            exit(1)
        bg = [ int(x) for x in options.background.split(",") ]
        print("Sending SNAKE message.  Address=%d Output=%d period=%d bg=%s colormode=%d" %
              (options.hmtladdress, options.output, options.period, bg,
               options.colormode))
        snake = TriangleSnake(options.period, bg, options.colormode)
        msg = snake.msg(options.hmtladdress, options.output)


    elif options.commandtype == "none":
        print("Sending NONE message.  Output=%d" % (options.output))
        msg = HMTLprotocol.get_program_none_msg(options.hmtladdress,
                                                options.output)

    if (msg != None):
        starttime = time.time()
        client.send_and_ack(msg, expect_response)
        endtime = time.time()
        print("Sent and acked in %.6fs" % (endtime - starttime))

    client.close()

    print("Done")
    exit(0)
Beispiel #5
0
def main():

    handle_args()

    client = HMTLClient(options)

    msg = None
    expect_response = False

    if (options.commandtype == "value"):
        print("Sending value message.  Address=%d Output=%d Value=%d" %
              (options.hmtladdress, options.output, int(options.commandvalue)))
        msg = HMTLprotocol.get_value_msg(options.hmtladdress,
                                         options.output,
                                         int(options.commandvalue))
    elif (options.commandtype == "rgb"):
        (r,g,b) = options.commandvalue.split(",")
        print("Sending RGB message.  Address=%d Output=%d Value=%d,%d,%d" %
              (options.hmtladdress, options.output, int(r), int(g), int(b)))
        msg = HMTLprotocol.get_rgb_msg(options.hmtladdress,
                                       options.output,
                                       int(r), int(g), int(b))

    elif (options.commandtype == "blink"):
        (a,b,c,d, e,f,g,h) = options.commandvalue.split(",")
        print("Sending BLINK message. Address=%d Output=%d on_period=%d on_value=%s off_period=%d off_values=%s" % (options.hmtladdress, options.output, int(a), [int(b),int(c),int(d)],
                                         int(e), [int(f),int(g),int(h)]))
        msg = HMTLprotocol.get_program_blink_msg(options.hmtladdress,
                                         options.output,
                                         int(a), [int(b),int(c),int(d)],
                                         int(e), [int(f),int(g),int(h)])
    elif (options.commandtype == "timedchange"):
        (a, b,c,d, e,f,g,) = options.commandvalue.split(",")
        print("Sending TIMED CHANGE message. Address=%d Output=%d change_period=%d start_value=%s stop_values=%s" % (options.hmtladdress, options.output, int(a), [int(b),int(c),int(d)],
                                                                                                          [int(e),int(f),int(g)]))
        msg = HMTLprotocol.get_program_timed_change_msg(options.hmtladdress,
                                        options.output,
                                        int(a),
                                        [int(b),int(c),int(d)],
                                        [int(e),int(f),int(g)])
    elif (options.commandtype == "levelvalue"):
        print("Sending LEVEL VALUE message. Address=%d Output=%d" % (options.hmtladdress, options.output))
        msg = HMTLprotocol.get_program_level_value_msg(options.hmtladdress,
                                                       options.output)
    elif (options.commandtype == "soundvalue"):
        print("Sending SOUND VALUE message. Address=%d Output=%d" % (options.hmtladdress, options.output))
        msg = HMTLprotocol.get_program_sound_value_msg(options.hmtladdress,
                                                       options.output)

    elif (options.commandtype == "none"):
        print("Sending NONE message.  Output=%d" % (options.output))
        msg = HMTLprotocol.get_program_none_msg(options.hmtladdress,
                                                options.output)
    elif (options.commandtype == "poll"):
        print("Sending poll message.  Address=%d" %
              (options.hmtladdress))
        msg = HMTLprotocol.get_poll_msg(options.hmtladdress)
        expect_response = True
    elif (options.commandtype == "setaddr"):
        (device_id, new_address) = options.commandvalue.split(",")
        print("Sending set address message.  Address=%d Device=%d NewAddress=%d" %
              (options.hmtladdress, int(device_id), int(new_address)))
        msg = HMTLprotocol.get_set_addr_msg(options.hmtladdress, 
                                            int(device_id), int(new_address))
    elif (options.commandtype == "fade"):
        (a, b,c,d, e,f,g,) = options.commandvalue.split(",")
        print("Sending FADE message. Address=%d Output=%d fade_period=%d start_value=%s stop_values=%s" % 
              (options.hmtladdress, options.output,
               int(a), 
               [int(b),int(c),int(d)],
               [int(e),int(f),int(g)]))
        msg = HMTLprotocol.get_program_fade_msg(options.hmtladdress,
                                        options.output,
                                        int(a),
                                        [int(b),int(c),int(d)],
                                        [int(e),int(f),int(g)])


    if (msg != None):
        starttime = time.time()
        client.send_and_ack(msg, expect_response)
        endtime = time.time()
        print("Sent and acked in %.6fs" % (endtime - starttime))

    if (options.killserver):
        # Send an exit message to the server
        print("Sending EXIT message to server")
        client.send_exit()

    client.close()

    print("Done.")
    exit(0)