Exemplo n.º 1
0
def main():
    from fabtotum.fabui.config import ConfigService
    dbus.mainloop.glib.DBusGMainLoop(set_as_default=True)

    # SETTING EXPECTED ARGUMENTS
    parser = argparse.ArgumentParser(
        formatter_class=argparse.ArgumentDefaultsHelpFormatter)
    parser.add_argument("-n", "--name", help="Look for name", default="PRISM")
    parser.add_argument("-m", "--mac", help="Mac address", default="")
    parser.add_argument("-v",
                        "--verbose",
                        action="store_true",
                        help="Show verbose")

    # GET ARGUMENTS
    args = parser.parse_args()
    name = args.name
    mac = args.mac
    verbose = args.verbose

    config = ConfigService()

    # Ensure bluetooth is enabled
    p = subprocess.Popen(['connmanctl', 'enable', 'bluetooth'],
                         stdout=subprocess.PIPE,
                         stderr=subprocess.PIPE)
    out, err = p.communicate()

    if 'Enabled bluetooth' == out.strip():
        # Give bluetoothd some time to bring up the hci device
        time.sleep(3)
        if (verbose):
            print "Bluetooth enabled"

    adapter = Adapter()
    if not adapter.Powered:
        if (verbose):
            print "Powering up bluetooth..."
        adapter.Powered = True

    master_bt_address = adapter.Address
    devices = adapter.discoverDevices(look_for_name=name,
                                      timeout=30,
                                      verbose=verbose)

    paired = False
    already_paired = False

    for addr in devices:
        dev = devices[addr]
        if (verbose):
            print addr, dev.Name, dev.Paired, dev.Trusted, dev.Adapter

        if not dev.Paired:
            if (verbose):
                print "Pairing..."
            dev.Pair()
            dev.Trusted = True
            paired = True
            mac = addr
            if (verbose):
                print "Paired"
            # Store PRISM bt mac address
            config.set('bluetooth', 'prism_bt_address', str(addr))
            config.save('bluetooth')
            # Make PRISM trust us ;)
            send_command('trust', [master_bt_address], addr, verbose=verbose)
        else:
            paired = True
            mac = addr
            already_paired = True
            send_command('trust', [master_bt_address], addr, verbose=verbose)
            if (verbose):
                print "Already paired"

    response = {
        'name': name,
        'mac': mac,
        'paired': paired,
        'already_paired': already_paired
    }
    print json.dumps(response)
class BTFactory():
    def __init__(self, verbose=False):

        ## init attr
        self.verbose = verbose
        self._adapter = None
        self.controller_address = None
        self.config = ConfigService()
        self.status = None

        ## init adapater
        self._init_adapter()

    #######################
    ## INIT BLUETOOTH ADAPTER
    #######################
    def _init_adapter(self):
        dbus.mainloop.glib.DBusGMainLoop(set_as_default=True)

        ## get bluetooth status
        self.status = bluetooth_status()

        ## enable bluetooth if is necessary
        if (self.status['powered'] == False):
            self.enable_bluetooth()

        self._adapter = Adapter(verbose=self.verbose)

        ## power adapter if necessary
        if not self._adapter.Powered:
            self._adapter.Powered = True

        self.controller_address = self._adapter.Address

    #######################
    ## ENABLE BLUETOOTH
    #######################
    def enable_bluetooth(self):
        if (self.verbose):
            print "Enabling bluetooth"
        enable_bluetooth()
        ## give time to bluetooth
        time.sleep(2)
        self.status = bluetooth_status()

    #######################
    ## PAIR
    #######################
    def pair(self, mac_address=None, look_for_name="PRISM"):

        if (self.status['paired'] != False):
            if (self.status['paired']['mac_address'] == mac_address
                    or self.status['paired']['name'] == look_for_name):
                if (self.verbose):
                    print "Already paired, skip pairing"
                return {
                    'paired': True,
                    'mac_address': self.status['paired']['mac_address'],
                    'name': self.status['paired']['name']
                }

        if (self.verbose):
            print "trying to pair with: {0} [{1}]".format(
                look_for_name, mac_address)

        if (self.status['powered'] == False):
            self.enable_bluetooth()

        paired = False

        ## start pairing
        devices = self._adapter.discoverDevices(look_for_address=mac_address,
                                                timeout=60,
                                                verbose=self.verbose)

        for addrees in devices:
            device = devices[addrees]
            paired = True
            # mac_address = addrees
            if (self.verbose):
                print addrees, device.Name, device.Paired, device.Trusted, device.Adapter
            # mac_address = addrees
            if not device.Paired:
                if (self.verbose):
                    print "Pairing.."
                device.Pair()
                device.Trusted = True

        if paired:
            if (self.verbose):
                print "Paired with {0} [{1}]".format(look_for_name,
                                                     mac_address)

            ## save to config file
            self.config.set('bluetooth', 'prism_bt_address', str(mac_address))
            self.config.set('bluetooth', 'prism_bt_name', str(look_for_name))
            self.config.save('bluetooth')

            ### trust us
            ## give time to bluetooth
            time.sleep(2)
            send_command('trust', [self.controller_address],
                         mac_address,
                         verbose=self.verbose)

        return {
            'paired': paired,
            'mac_address': mac_address,
            'name': look_for_name
        }

    #######################
    ## UNPAIR
    #######################
    def unpair(self, mac_address):
        try:
            self._adapter.RemoveDevice(mac_address)
            ### tell also device to unpair
            send_command('disconnect', [self.controller_address],
                         mac_address,
                         verbose=self.verbose)
            # send_command('unpair', [self.controller_address], mac_address, verbose=self.verbose)

            ## save to config file
            self.config.set('bluetooth', 'prism_bt_address', '')
            self.config.set('bluetooth', 'prism_bt_name', '')
            self.config.set('bluetooth', 'prism_bt_network_address', '')
            self.config.save('bluetooth')

        except Exception as e:
            pass
        return True

    #######################
    ## SCAN
    #######################
    def scan(self):
        if (self.verbose):
            print "Scan for devices..."

        return scan('list')

    ###################################
    ## AUTO PAIR AND CONNECT TO PRISM
    ###################################
    def auto_connection(self, name="PRISM", mac_address=None):

        if (self.status['paired'] == False):
            if (mac_address == None or mac_address == ""):
                devices = self.scan()
                for device in devices:
                    if (device['name'] == name):
                        mac_address = device['mac']
        else:
            if (mac_address == None or mac_address == ""):
                mac_address = self.status['paired']['mac_address']

        if (self.verbose):
            print "Autoconnection to {0} [{1}]".format(name, mac_address)

        pairing_result = self.pair(mac_address=mac_address, look_for_name=name)
        mac_address = pairing_result['mac_address']
        paired = pairing_result['paired']
        connection = None

        if (paired):
            connection = self.send_command('connect', [], mac_address)

        return {'connection': connection, 'paired': paired}

    ###################################
    ## SEN COMMAND TO PRISM
    ###################################
    def send_command(self, command, args=[], mac_address=None, port=0x1001):

        if (mac_address == None or mac_address == ""):

            if self.status['paired'] != False:
                if "mac_address" in self.status['paired']:
                    mac_address = self.status['paired']['mac_address']
                else:
                    return {'error': _("No connected device")}

        socket = bluetooth.BluetoothSocket(bluetooth.L2CAP)
        socket.settimeout(3)

        if (self.verbose):
            print "Trying to connect to {0} on port {1}".format(
                mac_address, port)

        try:
            socket.connect((mac_address, port))
            #bluetooth.set_packet_timeout(mac_address, 0)

            if command in ['connect', 'disconnect', 'trust', 'untrust']:
                args.append(self._adapter.Address)

            if command in ['connect', 'rpc']:
                tether_address = get_ip_address('tether')
                if (tether_address != 'n.a'):
                    args.append(tether_address)
                    args.append(self.config.get('xmlrpc', 'xmlrpc_port'))

            data = json.dumps({'cmd': command, 'args': args})

            if self.verbose:
                print "Data sent {0}".format(data)

            ## send data
            socket.send(data)

            # get data
            reply = socket.recv(1024)

            # close socket
            socket.close()

            if self.verbose:
                print "Data received:".format(reply)

            response = json.loads(reply)

            ## save network address
            if (command in ['connect', 'network-address']):
                self.config.set('bluetooth', 'prism_bt_network_address',
                                response['reply'])
                self.config.save('bluetooth')

            if (command == 'disconnect'):
                self.config.set('bluetooth', 'prism_bt_network_address', '')
                self.config.save('bluetooth')

            return {'command': command, 'response': response['reply']}

        except Exception as e:
            if self.verbose:
                print "Error: {0}".format(e)

            return {'error': str(e)}
Exemplo n.º 3
0
def hardwareBootstrap(gcs, config = None, logger = None):
    if not config:
        config = ConfigService()
    
    if logger:
        log = logger
    else:
        log = logging.getLogger('GCodeService')
        ch = logging.StreamHandler()
        ch.setLevel(logging.DEBUG)
        formatter = logging.Formatter("%(levelname)s : %(message)s")
        ch.setFormatter(formatter)
        log.addHandler(ch)

    config.reload()
    
        
    try:
        color = config.get('settings', 'color')
    except KeyError:
        color = {
            'r' : 255,
            'g' : 255,
            'b' : 255,
        }
    
    try:
        safety_door = config.get('settings', 'safety.door')
    except KeyError:
        safety_door = 0
    
    try:
        switch = config.get('settings', 'switch')
    except KeyError:
        switch = 0
    
    try:
        collision_warning = config.get('settings', 'safety.collision_warning')
    except KeyError:
        collision_warning = 0
    
      
    try:
        wire_end = config.get('settings', 'wire_end', 0)
    except KeyError:
        wire_end = 0
    
    probe = {}  
    probe['extend']  = config.get('settings', 'probe.e', 127)
    probe['retract'] = config.get('settings', 'probe.r', 25)
        
    ## MANDATORY - AFTER THAT LINE YOU CAN SEND COMMANDS
    gcs.atomic_begin(group='bootstrap')

    # read EEPROM
    eeprom = read_eeprom(gcs)
    
    # reset EEPROM (to prevent any mysterious bug)
    log.info("Reset EEPROM")
    gcs.send('M502', group='bootstrap')
    
    # read Factory settings
    factory = None
    if os.path.exists('/mnt/live/mnt/boot/factory/settings/settings.json'):
        try:
            with open('/mnt/live/mnt/boot/factory/settings/settings.json') as json_f:
                factory = json.load(json_f)
        except:
            # Continue if the file is not there
            pass
        
    try:
        hardwareID = eeprom['batch_number']
    except Exception as e:
        log.error("cannot read batch number")
        hardwareID = str(config.get('settings', 'hardware.id', 1))
        log.error("batch number set to {0}".format(hardwareID))
    
    
    if config.is_firstboot():
        log.info("First Boot")
        
        if factory:
            
            probe['extend']  = factory['probe']['e']
            probe['retract'] = factory['probe']['r']
            probe['length']  = factory['probe']['length']
            hardwareID = factory['hardware']['id']
            wire_end = factory['wire_end']
            log.info("Factory settings applied")
            
            config.set('settings', 'probe.e', probe['extend'])
            config.set('settings', 'probe.r', probe['retract'])
            config.set('settings', 'probe.length', probe['length'])
            config.set('settings', 'hardware.id', hardwareID)
            config.set('settings', 'wire_end', wire_end)
            config.save('settings')
    
    # Raise probe
    gcs.send('M402', group='bootstrap')
    # Send ALIVE
    gcs.send('M728', group='bootstrap')
    #enable homing check
    gcs.send('M733 S1', group='bootstrap')
    # Set ambient colors
    gcs.send("M701 S{0}".format(color['r']), group='bootstrap')
    gcs.send("M702 S{0}".format(color['g']), group='bootstrap')
    gcs.send("M703 S{0}".format(color['b']), group='bootstrap')
    # Set safety door open warnings: enabled/disabled
    gcs.send("M732 S{0}".format(safety_door), group='bootstrap')
    # Set collision warning: enabled/disabled
    gcs.send("M734 S{0}".format(collision_warning), group='bootstrap')
    # Set homing preferences
    gcs.send("M714 S{0}".format(switch), group='bootstrap')
    #set wire_end enabled/disabled
    gcs.send("M805 S{0}".format(wire_end), group='bootstrap')
    #set probe extend angle
    gcs.send("M711 S{0}".format(probe['extend']), group='bootstrap')
    #set probe retract angle
    gcs.send("M712 S{0}".format(probe['retract']), group='bootstrap')
    
    # Execute version specific intructions
    if config.get('settings', 'settings_type') == 'custom':
        PRESET_MAP["custom"](gcs, config, log, eeprom, factory)
    elif hardwareID in PRESET_MAP:
        PRESET_MAP[hardwareID](gcs, config, log, eeprom, factory)
    else:
        log.error("Unsupported hardware version: %s", hardwareID)
        log.error("Forced to hardware1")
        PRESET_MAP["1"](gcs, config, log, eeprom, factory)

    config.reload()
    
    configure_head(gcs, config, log)
    configure_feeder(gcs, config, log)
    configure_4thaxis(gcs, config, log)
    
    gcs.atomic_end()