Пример #1
0
def _create_uart_object():
    ret_value = True
    for bus_name, bus in Profile.get_buses().iteritems():
        try:
            if bus['bus'] == 'uart':
                device_path = bus['path']
                if utility.mount_on_fpga(device_path):
                    class_name = 'Axi4Uart'
                    createok = XObject.create_object(bus_name, class_name,
                                                     device_path)
                else:
                    class_name = 'UartBus'
                    createok = XObject.create_object(bus_name, class_name,
                                                     device_path)

                if createok:
                    logger.boot("create the %s uart object %s" %
                                (bus_name, class_name))
                else:
                    logger.boot(
                        "warning: can not find the %s uart class %s in this project code"
                        % (bus_name, class_name))
                    ret_value = False
        except Exception as e:
            logger.boot("error: create %s uart object fail:\n%s" %
                        (bus_name, traceback.format_exc()))
            ret_value = False
    return ret_value
Пример #2
0
    def _parse_chips(self, module):
        chipname = module['id']
        partno = module['partno']
        method_name = 'parse_' + partno.lower()

        try:
            XObject.get_classes()[partno].parse_chip_profile(
                module, self._base_board_name)
        except AttributeError:
            logger.boot(
                'warning: unable to parser the %s partno of the %s chip: has no the method %s'
                % (partno, chipname, method_name))
            raise
Пример #3
0
def test_read_profile(jsonfile):
    classes = globals()
    XObject.set_classes(classes)
    parser = ProfileParser()
    parser.read_profile(jsonfile)

    boards = Profile.get_boards()
    boards[power_profile['id']] = power_profile

    assert len(Profile.get_extendio()) == 1
    assert len(Profile.get_busswitch()) == 9
    assert len(Profile.get_eeprom()) == 8
    assert len(Profile.get_boards()) == 5
    assert len(Profile.get_buses()) == 8
    assert len(Profile.get_chips()) == 12
Пример #4
0
def uart_param_config(name, baud_rate, data_bits, parity, stop_bits,
                      timestamp):
    """ Set uart bus parameter
            
            Args:
                baud_rate(int)   : UART baud rate
                data_bits(int)   : Data width 5/6/7/8
                parity_type(str) : parity type. "ODD"/"EVNE"/"NONE"
                stop_bits(float) : stop bit width. 1/2
                time_insert(str) : PL UART Insert timestamp Control, "TS"/"NONE"
            Returns:
                bool: True | False, True for success, False for adc read failed
    """
    try:
        uart = XObject.get_object(name)
        isok = True
        if utility.mount_on_fpga(uart.name):
            uart.disable()
            uart.enable()
            uart.config(baud_rate, data_bits, parity, stop_bits, timestamp)
        else:
            isok = uart.config(baud_rate, data_bits, parity, stop_bits)

        return isok
    except Exception as e:
        logger.error("the %s uart param config execute error:%s" %
                     (name, repr(e)))
        return False
Пример #5
0
 def _parse_boards(self, board):
     initconfig = Profile.get_initconfig()
     initconfig['boards'] = initconfig.setdefault('boards', list())
     board_name = board['id']
     partno = board['partno']
     partno_list = partno.replace('-', '_')
     method_name = 'parse_' + partno_list.lower()
     class_name = partno.replace('-', '')
     try:
         XObject.get_classes()[class_name].parse_board_profile(board)
         initconfig['boards'].append(board_name)
     except AttributeError:
         logger.boot(
             'warning: unable to parser the %s partno of the %s board: has no the method %s'
             % (partno, board_name, method_name))
         raise
Пример #6
0
def chip_dir_get_from_dev(name):
    chip = XObject.get_chip_object(name)
    if chip is not None:
        return chip.read_dir_config()
        # state = utility.list_convert_number(input_output_status)
        # return state
    else:
        return False
Пример #7
0
 def __init__(self, uartname, port):
     super(UartServer, self).__init__()
     self._uartname = uartname
     self._port = port
     self._connect_socket = None
     self._uart_device = XObject.get_object(uartname)
     self._inputs = []
     self._total_net_size = 0
     self._total_uart_size = 0
     self._uart_stop = False
Пример #8
0
def uart_close(uart_id):
    try:
        uart = XObject.get_object(uart_id)
        if utility.mount_on_fpga(uart.name):
            uart.disable()
        else:
            uart.close()

        return True
    except Exception as e:
        logger.error("close  the %s uart error:%s" % (uart_id, repr(e)))
        return False
Пример #9
0
    def eval(self, name, method, *args, **kwargs):
        try:
            obj = XObject.get_object(name)
            func = getattr(obj, method)
            if args:
                result = func(*args)
            elif kwargs:
                result = func(**kwargs)
            else:
                result = func()
        except Exception:
            logger.warning("%s" % (traceback.format_exc()))

        return result
Пример #10
0
def read(profile, addr, length):
    """ read  data  by the defined profile
        
        Args:
            profile: Dictionary of the hardware profile.
            addr: which  addr will be write data in. 
            length: Want to get the length of the data.
            
        Returns:
            list: success  return datas which beed  saved in a list. False otherwise.
            
        Raises:
            KeyError: If the key is invalid.
    """
    eeprom = XObject.get_object(profile['partno'], profile)
    return eeprom.read(addr, length)
Пример #11
0
def write(profile, addr, data):
    """ write  a list data  by the defined profile
        
        Args:
            profile: Dictionary of the hardware profile.
            addr: which  addr will be write data in. 
            data: data type is list.
            
        Returns:
            bool: The return value. True for success, False otherwise.
            
        Raises:
            KeyError: If the key is invalid.
    """
    eeprom = XObject.get_object(profile['partno'], profile)
    return eeprom.write(addr, data)
Пример #12
0
def _create_board_object():
    ret_value = True
    for board_name, board_profile in Profile.get_boards().iteritems():
        try:
            class_name = board_profile['partno'].replace('-', '')
            if XObject.create_object(board_name, class_name, board_profile):
                logger.boot('create the %s board object %s' %
                            (board_name, class_name))
            else:
                logger.boot(
                    'warning: can not find the %s board class %s in this project code'
                    % (board_name, class_name))
                ret_value = False
        except Exception as e:
            logger.boot("error: create %s board object fail:\n%s" %
                        (board_name, traceback.format_exc()))
            ret_value = False
    return ret_value
Пример #13
0
def _create_chip_object():
    ret_value = True
    for chip_name, profile in Profile.get_chips().iteritems():
        try:
            partno = profile['partno']
            if XObject.create_object(chip_name, partno, profile):
                logger.boot('create the %s chip object %s' %
                            (chip_name, partno))
            else:
                logger.boot(
                    'warning: can not find the %s chip class %s in this project code'
                    % (chip_name, partno))
                ret_value = False
        except Exception as e:
            logger.boot('error: create %s chip object fail:\n%s' %
                        (chip_name, traceback.format_exc()))
            ret_value = False
    return ret_value
Пример #14
0
def measure_path_set(name, measurepath):
    '''Set the dmm board measure range
    Args:
        name:the dmm board's name
        measurepath:{"channel":channel,"range":range}
            channel:["current","voltage"]
            range:
                channel="current": range=("100uA","2mA") 
                channel="voltage": range=("5V")
    Returns:
        bool: True | False, True for success, False for adc read failed
    '''
    try:
        dmm = XObject.get_board_object(name)
        return dmm.measure_path_set(measurepath)
    except Exception as e:
        logger.error(
            "the %s board measure_path_set() measurepath:%s execute error: %s"
            % (name, str(measurepath), repr(e)))
        return False
Пример #15
0
def current_measure(name, measure_path=None):
    '''Get current measure channel result
    Args:
        name:the dmm board's name
        measure_path: default is None
    Returns:
        if success:
            result:(value,unit)
                value: current measure value
                unit: ('uA','mA','A')
        if fail:
            return False
    '''
    try:
        dmm = XObject.get_board_object(name)
        return dmm.current_measure()
    except Exception as e:
        logger.error("the %s board current_measure() execute error: %s" %
                     (name, repr(e)))
        return False
Пример #16
0
def calibration_work_mode_close(name):
    """The board work in normal mode,out of the calibration mode
        
        You need to out of the calibration mode,
        when you want to the result use the calibration parameters.
        The measure results of the return after calibration.

        Args:
            name: the dmm board's name
        Returns:
            bool: True | False, True for success, False for adc read failed
    """
    try:
        dmm = XObject.get_board_object(name)
        dmm.calibration_work_mode_close()
        return True
    except Exception as e:
        logger.error(
            "the %s board calibration_work_mode_close() execute error: %s" %
            (name, repr(e)))
        return False
Пример #17
0
def measure_path_record(name, measure_path):
    """select board measure channel path,Just record

        Args:
            name: the dmm board's name
            measure_path:{"channle":channel,"range":range}
                channel:["current","voltage"]
                range:
                    channel="current": range=("100uA","2mA") 
                    channel="voltage": range=("5V")

        Returns:
            bool: True | False, True for success, False for adc read failed
    """
    try:
        dmm = XObject.get_board_object(name)
        return dmm.measure_path_record(measure_path)
    except Exception as e:
        logger.error("the %s board measure_path_record() execute error: %s" %
                     (name, repr(e)))
        return False
Пример #18
0
def select_channel(channel_name):
    """ select which channel to operate
        
        Args:
        channel_name: which channel   will be select, check it in profile. for example:'back-light
            
        Returns:
            object:  return  switch object.
                    
        Raises:
            KeyError: If the key is invalid.    
            ValueError: If the parameter is invalid
    """
    busswitch = Profile.get_busswitch()
    chipname = busswitch[channel_name]['chip']
    channel = busswitch[channel_name]['channel']

    switcher = XObject.get_chip_object(chipname)
    if switcher.select_channel(channel) is False:
        logger.warning("select %s channel %s fail" % (chipname, channel_name))

    return switcher
Пример #19
0
def measure_path_get(name):
    '''Get the dmm board measure range
    Args:
        name:the dmm board's name

    Returns:
        if success:
            dict: {"channel":value,"range":value}
                channel:["current","voltage"]
                range:
                    channel="current": range=("100uA","2mA") 
                    channel="voltage": range=("5V")
        if fail:
            return False
    '''
    try:
        dmm = XObject.get_board_object(name)
        return dmm.measure_path_get()
    except Exception as e:
        logger.error("the %s board measure_path_get() execute error: %s" %
                     (name, repr(e)))
        return False
Пример #20
0
def calibration_work_mode_open(name):
    """ The board work in the calibration mode
        
        You need to enter the calibration mode,
        when you want to calibrate you results by other tools.
        The measure results of the return is original results,
        than you can use it to calculate the calibration parameters.

        Args:
            name: the dmm board's name
        Returns:
            bool: True | False, True for success, False for adc read failed
    """
    try:
        dmm = XObject.get_board_object(name)
        dmm.calibration_work_mode_open()
        return True
    except Exception as e:
        logger.error(
            "the %s board calibration_work_mode_open() execute error: %s" %
            (name, repr(e)))
        return False
Пример #21
0
def _init_board():
    ret_value = True
    initconfig = Profile.get_initconfig()

    for board_name in initconfig['boards']:
        try:
            obj = XObject.get_board_object(board_name)
            if obj is None:
                logger.boot('warning: can not find the %s object' %
                            (board_name))
                continue

            if obj.board_initial():
                logger.boot('init the %s board success' % (board_name))
            else:
                logger.boot('error: init the %s board fail' % (board_name))
                ret_value = False
        except Exception:
            logger.boot('error: %s _init_board execute error:\n%s' %
                        (board_name, traceback.format_exc()))
            ret_value = False

    return ret_value
Пример #22
0
def _init_uart():
    ret_value = True
    initconfig = Profile.get_initconfig()

    for name, param in initconfig['uart'].iteritems():
        try:
            obj = XObject.get_object(name)
            if obj is None:
                logger.boot("warning: can not find the %s uart object" %
                            (name))
                continue

            baudrate = int(param['baudrate'])
            databits = int(param['databits'])
            stopbits = int(param['stopbits'])
            parity = param['parity'].upper()
            if utility.mount_on_fpga(obj.name):
                timestamp = param['timestamp'].upper()
                obj.disable()
                obj.enable()
                ret = obj.config(baudrate, databits, parity, stopbits,
                                 timestamp)
            else:
                ret = obj.config(baudrate, databits, parity, stopbits)
            if ret is False:
                logger.boot("error: init the %s uart param:%s fail" %
                            (name, param))
                ret_value = False
            else:
                logger.boot("init the %s uart success, param:%s" %
                            (name, param))
        except Exception as e:
            logger.boot("error: %s _init_uart execute error:\n%s" %
                        (name, traceback.format_exc()))
            ret_value = False

    return ret_value
Пример #23
0
        time.sleep(1)
        gpio.write_value(0)
        time.sleep(1)


if __name__ == '__main__':
    utility.register_signal_handle()
    ee_daemon = daemon.Daemon("ee")
    ee_daemon.start()
    logger.init("ee.log")
    logger.setLevel('WARNING')
    '''
    解决在xobj模块中引用chip和board类导致相互引用错误
    '''
    classes = globals()
    XObject.set_classes(classes)

    jsonfile = utility.get_profile_path() + "/Hardware_Function_Profile.json"
    parser = ProfileParser()
    ret = parser.read_profile(jsonfile)
    if ret is False:
        #print 'error parser profile fail'
        os._exit(ret)

    ret = ee.initializer.init()
    if ret is False:
        logger.boot("init project fail")
        #os._exit(ret)
    ee = EmbeddedEngine()

    led = Thread(target=led_flicker)
Пример #24
0
def test_get_class():
    from ee.profile.xobj import XObject
    #assert len(XObject._objects.keys()) == 24

    assert str(type(
        XObject.get_object("cp1"))) == "<class 'ee.chip.cat9555.CAT9555'>"
    assert str(type(
        XObject.get_object("cp2"))) == "<class 'ee.chip.cat9555.CAT9555'>"
    assert str(type(
        XObject.get_object("cp3"))) == "<class 'ee.chip.cat9555.CAT9555'>"
    assert str(type(
        XObject.get_object("cp4"))) == "<class 'ee.chip.cat9555.CAT9555'>"
    assert str(type(
        XObject.get_object("cp5"))) == "<class 'ee.chip.cat9555.CAT9555'>"
    assert str(type(
        XObject.get_object("cp6"))) == "<class 'ee.chip.cat9555.CAT9555'>"
    assert str(type(
        XObject.get_object("cp7"))) == "<class 'ee.chip.cat9555.CAT9555'>"
    assert str(type(
        XObject.get_object("cp8"))) == "<class 'ee.chip.cat9555.CAT9555'>"

    assert str(type(XObject.get_object(
        "dmm"))) == "<class 'ee.board.dmm001.dmm001001.Dmm001001'>"
    assert str(type(XObject.get_object("datalogger"))
               ) == "<class 'ee.board.scope002.scope002001A.Scope002001A'>"
    assert str(type(XObject.get_object(
        "freq"))) == "<class 'ee.board.vfreq001.vfreq001001.Vfreq001001'>"
    assert str(type(XObject.get_object(
        "voltage_output"))) == "<class 'ee.board.ins001.vvo001001.Vvo001001'>"
Пример #25
0
def chip_dir_set_to_dev(name, value):
    chip = XObject.get_chip_object(name)
    if chip is not None:
        return chip.write_dir_config(value)
    else:
        return False
Пример #26
0
def chip_set_to_dev(name, value):
    chip = XObject.get_chip_object(name)
    if chip is not None:
        return chip.write_outport(value)
    else:
        return False