コード例 #1
0
def main():
    initialisation()

    while 1:
        serial = open_serial('auto')
        if serial == True:

            if data_driven():
                logging_device.info(constants.PASSED)
            else:
                logging_device.error(constants.FAIL)

            if flow_states():
                logging_device.info(constants.PASSED)
            else:
                logging_device.error(constants.FAIL)

            if robustness():
                logging_device.info(constants.PASSED)
            else:
                logging_device.error(constants.FAIL)

            close_serial()
            return True

        elif serial == constants.QUIT:
            print "...quit to main menu"
            return constants.QUIT

        else:
            logging_device.error("Selected serial port is open in another program\n\r")

    return True
コード例 #2
0
    def check_more_commands(command_argument_list, check_condition, visibility):
        response = True
        i = 0

        while i < len(command_argument_list):
            if "show" in visibility: logging_device.log("---> Send commands:" + command_argument_list[i])
            send_string_serial_wait(command_argument_list[i])
            if check_condition:
                received = receive_string_serial()
                if unwanted_response(received):
                    logging_device.debug("Unwanted response occurred. Received: %s" %received)
                    response = False
                if "show" in visibility: logging_device.log(" <-- Received response: %s" %received)
            elif not check_condition:
                received = receive_string_serial()
                if not unwanted_response(received):
                    logging_device.debug("Strange response occurred. Received: %s" %received)
                    response = False
                if "show" in visibility: logging_device.log(" <-- Received response: %s" %received)
            else:
                logging_device.error("Wrong input for check condition. Received: %s" %check_condition)
            i += 1

        return response
コード例 #3
0
    def check_buff(result):
        if int(result) == BUFFER_SIZE:
            logging_device.log("The Buffer is full. Number of readings is/are %s which is equal to buffer size.\n\r\tSUCCESSFULLY FILLED BUFFER" % result)
        elif int(result) < BUFFER_SIZE:
            logging_device.error("Number of readings is smaller than full MAX buffer size.")
        else:
            logging_device.error("Number of readings is bigger than full MAX buffer size.")

        if not parse_readings('CLEAR', "hide"):
            return_value = False
            logging_device.error("Return value is %s on READINGS CLEAR; command" %return_value)
コード例 #4
0
def flow_states():
    return_value = True
    
    logging_device.info("\n\r\t\t   Flow States Testing\n\r***************************************************************\n\r")
    while not set_wifi_parameters(constants.SSID, constants.AUTH, constants.PASS): pass
    while not protocol_parser('MOVEMENT', True, 'OFF', True): pass
    while not protocol_parser('ATMO', True, 'ON', True): pass
    while not protocol_parser('STATIC_IP', True, 'OFF', True): pass

    logging_device.info("\t\t---------------- Set WiFi Flow ----------------")
    logging_device.log("\t---True flow---")
    logging_device.info("\n\r\t\t-------- set Wifi with WPA2 secure --------")
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))
    '''
    logging_device.info("\n\r\t\t-------- set Wifi with WPA secure --------")
    if not set_wifi_parameters('WolkSensorWlan2', 'WPA', 'WolkSensorFabrication'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))

    logging_device.info("\n\r\t\t-------- set Wifi with WEP secure --------")
    if not set_wifi_parameters('WolkSensorWlan', 'WEP', '5FD6D8ED2087FEF502CDFE873F'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))

    logging_device.info("\n\r\t\t-------- set Wifi with OPEN secure --------")
    if not set_wifi_parameters('WolkSensorWlan1', 'NONE', 'NULL'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))
    '''
    logging_device.log("\t---False flow---")
    if not set_wifi_parameters('my0penwl4n', 'NONE', 'NULL'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    if test_now('', '') == True:
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.info("\n\r\t\t-------- read Readings --------")
    logging_device.log("\t---True flow---")
    wait_dev_state_idle()
    while not set_wifi_parameters('NULL', 'NONE', 'NULL'): pass
    test('MOVEMENT', ['OFF'],[])
    test('ATMO', ['ON'],[])
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.log("set ACQUISITION state")
    if not test('ACQUISITION', [], []):
        return_value = False
        logging_device.error("Return value is %s in send ACQUISITION" %return_value)

    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    logging_device.log("RELOAD WolkSensor \n\r..waiting for STATUS ACQUISITION;")
    send_string_serial_wait('RELOAD;')
    wait_dev_state_idle()
    if not parse_readings('', "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.log("CLEAR and OFF atmo measurements")
    test('ATMO', ['OFF'],[])
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    for i in reversed(range(0, 65)):
        time.sleep(1)
        print " | %s | ...wait 65sec to countdown ACQUISITION period \r" %i,
    if 'empty' != parse_readings('', "show"):
        return_value = False
        logging_device.error("READINGS message isn't empty. Expected to be. ATMO is OFF. Return value is %s" %return_value)

    logging_device.info("\n\r\t\t-------- Check OFFSET settings --------")
    def set_offset(pressure_offset, temperature_offset, humidity_offset):
        logging_device.debug( "\n\rP offset: %s\n\rT offset: %s\n\rH offset: %s" %(str(pressure_offset), str(temperature_offset), str(humidity_offset)) )
        if not test('PRESSURE_OFFSET', [str(pressure_offset)],[]):
            return False
        if not test('TEMP_OFFSET', [str(temperature_offset)],[]):
            return False
        if not test('HUMIDITY_OFFSET', [str(humidity_offset)],[]):
            return False

        return True

    logging_device.log("\t---True flow---")
    if not test('ATMO', ['ON'],[]):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    if not set_offset(0, 0, 0):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.log("set ACQUISITION state")
    if not test('ACQUISITION', [], []):
        return_value = False
        logging_device.error("Return value is %s in send ACQUISITION" %return_value)
    send_string_serial_wait("READINGS;")
    received_string = receive_string_serial()
    logging_device.debug("Received message readings: %s" %received_string)
    if len(received_string) > 9 :
        string_split = re.split(" ", received_string)
    logging_device.debug("string_split is/are %s" %string_split)
    pressure = test_readings_response(string_split[1], "show")[1]
    temp = test_readings_response(string_split[1], "show")[2]    
    humidity = test_readings_response(string_split[1], "show")[3]
    logging_device.log("%s, %s, %s" %(pressure, temp, humidity))

    logging_device.log("\tSET NEW OFFSET VALUES")
    if not set_offset(1, 2, 3):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.log("set ACQUISITION state")
    if not test('ACQUISITION', [], []):
        return_value = False
        logging_device.error("Return value is %s in send ACQUISITION" %return_value)
    send_string_serial_wait("READINGS;")
    received_string = receive_string_serial()
    logging_device.debug("Received message readings: %s" %received_string)
    if len(received_string) > 9 :
        string_split = re.split(" ", received_string)
    logging_device.debug("string_split is/are %s" %string_split)
    pressure_new = test_readings_response(string_split[1], "show")[1]
    temp_new = test_readings_response(string_split[1], "show")[2]    
    humidity_new = test_readings_response(string_split[1], "show")[3]
    logging_device.log("Sensors values with new offsets are: %s, %s, %s" %(pressure_new, temp_new, humidity_new))

    if not ((int(float(temp)*100) in range(int(float(temp_new)*100) - 25*10, int(float(temp_new)*100) - 15*10)) or (int(float(humidity)*100) in range(int(float(humidity_new)*100) - 35*10, int(float(humidity_new)*100) - 25*10)) or (int(float(pressure)*100) in range(int(float(pressure_new)*100) - 15*10, int(float(pressure_new)*100) - 5*10))):
        logging_device.error("Return value is %s \n\rSet new offset values failed" %return_value)
        return_value = False
    else:
        logging_device.log("\tSUCCESSFUL ARE SETS NEW OFFSET VALUES")

    logging_device.info("\n\r\t\t-------- read Movement --------")
    logging_device.log("\t---True flow---")
    wait_dev_state_idle()
    test('MOVEMENT', ['ON'],[])
    test('ATMO', ['OFF'],[])
    if not set_wifi_parameters('NULL', 'NONE', 'NULL'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.log("\t -->MOVE WolkSensor to continue testing<--")
    send_string_serial_wait("READINGS;")
    received_string = receive_string_serial()
    while ",M:1.0;" not in received_string:
        send_string_serial_wait("READINGS;")
        received_string = receive_string_serial()
    time.sleep(0.5)
    if not parse_readings('', "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    wait_dev_state_idle()
    test('MOVEMENT', ['OFF'],[])
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    logging_device.log("\t -->MOVE WolkSensor to continue testing<--")
    for i in reversed(range(0, 5)):
        time.sleep(1)
        print " | %s |...move WolkSensor in this time period \r" %i,
    if not parse_readings('', "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    test('ATMO', ['ON'],[])

    logging_device.info("\n\r\t\t-------- read System readings--------")
    logging_device.log("\t---True flow---")
    wait_dev_state_idle()
    if not set_wifi_parameters(constants.SSID, constants.AUTH, constants.PASS):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    if not parse_system_reading('CLEAR', 'show'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    logging_device.log("---NOW---")
    wait_dev_state_idle()
    while test_now('', '') != True:
        pass
    if not parse_system_reading('', 'show'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.log("\t---False flow---")
    wait_dev_state_idle()
    if not set_wifi_parameters('doesnotexist', 'WPA', 'doesnotexist'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    if not parse_system_reading('CLEAR', 'show'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    logging_device.log("---NOW---")
    wait_dev_state_idle()
    if test_now('', '') == True:
        return_value = False
        logging_device.error("Return value is %s. Received false from test_now('', '')" %return_value)

    wait_dev_state_idle()
    if not parse_system_reading('', 'show'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    '''
    logging_device.info("\n\r\t\t-------- set Static IP--------")
    while not protocol_parser('ATMO', True, 'OFF', True): pass

    logging_device.log("\t---True flow---")
    wait_dev_state_idle()
    if not set_wifi_parameters('wolkabout', 'WPA2', 'Walkm3int0'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    if not protocol_parser('STATIC_IP', False, '', True):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    i = 0
    list = ['STATIC_IP', '192.168.15.98', 'STATIC_GATEWAY', '192.168.15.1' , 'STATIC_MASK', '255.255.255.0', 'STATIC_DNS', '89.216.1.30']
    while( i < len(list)):
        if not protocol_parser(list[i], True, list[i+1], True):
            return_value = False
            logging_device.error("Return value is %s" %return_value)
        i += 2
    logging_device.log("---NOW---")
    wait_dev_state_idle()
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))

    if not protocol_parser('STATIC_IP', True, 'OFF', True):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    i = 0
    list = ['STATIC_IP' , 'STATIC_GATEWAY', 'STATIC_MASK', 'STATIC_DNS']
    while( i < len(list)):
        if not protocol_parser(list[i], False, '', True):
            return_value = False
            logging_device.error("Return value is %s" %return_value)
        i += 1
    logging_device.log("---NOW---")
    wait_dev_state_idle()
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))

    logging_device.log("\t---False flow---")
    wait_dev_state_idle()
    if not protocol_parser('STATIC_IP', False, '', True):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    i = 0
    list = ['STATIC_IP', '0.0.0.0', 'STATIC_GATEWAY', '0.0.0.0' , 'STATIC_MASK', '0.0.0.0', 'STATIC_DNS', '0.0.0.0']
    while( i < len(list)):
        if not protocol_parser(list[i], True, list[i+1], True):
            return_value = False
            logging_device.error("Return value is %s" %return_value)
        i += 2
    logging_device.log("---NOW---")
    wait_dev_state_idle()
    response = test_now('', '')
    if response == True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))

    if not protocol_parser('STATIC_IP', True, 'OFF', True):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    while not protocol_parser('ATMO', True, 'ON', True): pass
    '''
    logging_device.info("\n\r\t\t-------- Factory OFFSET settings --------")
    while not set_wifi_parameters('NULL', 'NONE', 'NULL'): pass
    wait_dev_state_idle()

    if not set_offset(-10, -2, 1.5):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    send_string_serial_wait('OFFSET_FACTORY' + ';')
    received_string = receive_string_serial()
    logging_device.debug(received_string)
    string_split = re.split(" |;", received_string)
    factory = string_split[1]
    logging_device.debug("Factory: %s" %factory)
    
    if not test('OFFSET_FACTORY', ['RESET'],[]):
        return_value = False
        logging_device.error("Return value is %s in OFFSET_FACTORY reset" %return_value)

    send_string_serial_wait('TEMP_OFFSET' + ';')
    received_string = receive_string_serial()
    logging_device.debug("TEMP_OFFSET: %s" %received_string)
    string_split = re.split(" |;", received_string)
    temp = string_split[1]
    logging_device.debug("temp: %s" %temp)

    send_string_serial_wait('HUMIDITY_OFFSET' + ';')
    received_string = receive_string_serial()
    logging_device.debug("HUMIDITY_OFFSET: %s" %received_string)
    string_split = re.split(" |;", received_string)
    humidity = string_split[1]
    logging_device.debug("humidity: %s" %humidity)

    send_string_serial_wait('PRESSURE_OFFSET' + ';')
    received_string = receive_string_serial()
    logging_device.debug("PRESSURE_OFFSET: %s" %received_string)
    string_split = re.split(" |;", received_string)
    pressure = string_split[1]
    logging_device.debug("pressure: %s" %pressure)

    offset = "P:%s,T:%s,H:%s" %(pressure, temp, humidity)
    logging_device.log(factory)
    logging_device.log(offset)
    if factory != offset:
        return_value = False
        logging_device.error("Return value is %s in compare offset from factory. Factory offset are: %s, New offset are: %s" %(return_value, factory, offset))
    else:
        logging_device.log("\tSUCCESSFUL RESET TO FACTORY OFFSET")

    logging_device.log("\n\r")
    return return_value
コード例 #5
0
def robustness():
    return_value = True
    
    def check_more_commands(command_argument_list, check_condition, visibility):
        response = True
        i = 0

        while i < len(command_argument_list):
            if "show" in visibility: logging_device.log("---> Send commands:" + command_argument_list[i])
            send_string_serial_wait(command_argument_list[i])
            if check_condition:
                received = receive_string_serial()
                if unwanted_response(received):
                    logging_device.debug("Unwanted response occurred. Received: %s" %received)
                    response = False
                if "show" in visibility: logging_device.log(" <-- Received response: %s" %received)
            elif not check_condition:
                received = receive_string_serial()
                if not unwanted_response(received):
                    logging_device.debug("Strange response occurred. Received: %s" %received)
                    response = False
                if "show" in visibility: logging_device.log(" <-- Received response: %s" %received)
            else:
                logging_device.error("Wrong input for check condition. Received: %s" %check_condition)
            i += 1

        return response


    logging_device.info("\n\r\t\t   Robustness Testing\n\r***************************************************************\n\r")
    wait_dev_state_idle()
    while not protocol_parser('MOVEMENT', True, 'OFF', True): pass

    logging_device.info("---------------- Send set of commands ----------------")
    logging_device.log("\t---True---")
    wait_dev_state_idle()
    if not check_more_commands(['SIGNATURE;STATIC_DNS;VERSION;PASS;MOVEMENT;SSID;STATIC_IP;READINGS;SYSTEM;URL;PORT;STATUS;'], True, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    logging_device.log("\n\r\t---False---")
    wait_dev_state_idle()
    if not check_more_commands(['PORT;;', 'PORT1;', 'qPORT;', 'PORT;ST4TIC_DNS;V3RS1ON;ATMO;HEARTBEATMAC;7422;MOVEMENT;SSID123SSID;STATIC_IP;STATUS;', \
    'PORT;ST4TIC_DNS;V3RS1ON;ATMO;HEARTBEATMAC;7422;MOVEMENT;SSID123SSID;STATIC_IP;STATUS;', 'everything;is;WRONG;here.;THIS;;TEST;will;pass;STATUS;'], False, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.info("---------------- Read/Write values during connection ----------------")
    logging_device.log("\t---True---")
    if not set_wifi_parameters('fakeargumentssid', 'NONE', 'fakeargumentpass'):
        return_value = False
    if not check_more_commands(['NOW;', 'SIGNATURE;STATIC_DNS;VERSION;PASS;MOVEMENT;SSID;STATIC_IP;MAC;HEARTBEAT;RTC;AUTH;PASS;TEMP_OFFSET;ID;STATUS;OFFSET_FACTORY'], True, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.log("\n\r\t---False---")
    wait_dev_state_idle()
    if not check_more_commands(['NOW;', 'STATIC_DNS 89.89.89.90;PASS mypassword;OFFSET_FACTORY RESET;SSID myssid;STATIC_IP 192.168.24.23;HEARTBEAT 35;RTC 12356789;AUTH NONE;'], True, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.log("\t---True---")
    if not set_wifi_parameters(constants.SSID, constants.AUTH, constants.PASS):
        logging_device.error("Writing new wifi parameters failed")
        return_value = False
    wait_dev_state_idle()
    if not check_more_commands(['NOW;'], True, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    if not check_more_commands(['SIGNATURE;STATIC_DNS;VERSION;PASS;MOVEMENT;SSID;STATIC_IP;MAC;HEARTBEAT;RTC;AUTH;PASS;ID;STATUS;'], True, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    '''
    logging_device.info("---------------- Read/Write during reload ----------------")
    logging_device.log("\n\r\t---False---")
    if not set_wifi_parameters('NULL', 'NONE', 'NULL'):
        return_value = False
    if not check_more_commands(['RELOAD;', 'SIGNATURE;STATIC_DNS;VERSION;PASS;OFFSET_FACTORY;MOVEMENT;SSID;STATIC_IP;MAC;HEARTBEAT;RTC;AUTH;PASS;ID;STATUS;'], False, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    wait_dev_state_idle()
    if not check_more_commands(['RELOAD;','PORT;ST4TIC_DNS;V3RS1ON;ATMO;HEARTBEATMAC;7422;MOVEMENT;SSID123SSID;STATIC_IP;STATUS;'], False, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    wait_dev_state_idle()
    if not check_more_commands(['RELOAD;', 'STATIC_DNS 89.89.89.90;PASS mypassword;PRESSURE_OFFSET 0;SSID myssid;STATIC_IP 192.168.24.23;HUMIDITY_OFFSET 0;HEARTBEAT 35;RTC 12356789;AUTH NONE;'], False, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    '''
    logging_device.info("---------------- Read during movement ----------------")
    logging_device.log("\t---True---")
    wait_dev_state_idle()
    if not set_wifi_parameters(constants.SSID, constants.AUTH, constants.PASS):
        return_value = False
    protocol_parser('MOVEMENT', True, 'ON', True)

    logging_device.log("\t -->MOVE WolkSensor to continue testing<--")
    while "STATUS CONNECTING_TO_AP;" not in receive_string_serial(): pass
    if not check_more_commands(['SIGNATURE;STATIC_DNS;VERSION;PRESSURE_OFFSET;PASS;MOVEMENT;SSID;STATIC_IP;MAC;HEARTBEAT;RTC;AUTH;OFFSET_FACTORY;PASS;ID;STATUS;'], True, "show"):
        return_value = False
    if not check_more_commands(['P0RT;ST4TIC_DNS;V3RS1ON;ATM0;HEARTBEATMAC;7422;MOVEMENTBRE;SSID123SSID;ST4TUS;'], False, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.log("\t---False---")
    wait_dev_state_idle()
    if not set_wifi_parameters('fakeargumentssid', 'WEP', 'FA7EA4603E27'):
        return_value = False
    protocol_parser('MOVEMENT', True, 'ON', True)

    logging_device.log("\t -->MOVE WolkSensor to continue testing<--")
    while "STATUS CONNECTING_TO_AP;" not in receive_string_serial(): pass
    if not check_more_commands(['SIGNATURE;STATIC_DNS;VERSION;PRESSURE_OFFSET;PASS;MOVEMENT;SSID;STATIC_IP;MAC;HEARTBEAT;RTC;AUTH;OFFSET_FACTORY;PASS;ID;STATUS;'], True, "show"):
        return_value = False
    if check_more_commands(['P0RT;ST4TIC_DNS;V3RS1ON;ATM0;HEARTBEATMAC;7422;MOVEMENTBRE;SSID123SSID;ST4TUS;'], False, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    wait_dev_state_idle()
    protocol_parser('MOVEMENT', True, 'OFF', True)
    while not set_wifi_parameters(constants.SSID, constants.AUTH, constants.PASS): pass
    if not check_more_commands(['NOW;'], True, "show"):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    logging_device.info("\n\r\t\t---------------- Buffer size test with ACQUISITION; ----------------")
    logging_device.log("\t---True---")
    BUFFER_SIZE = 150
    wait_dev_state_idle()
    while not set_wifi_parameters(constants.SSID, constants.AUTH, constants.PASS): pass
    check_more_commands(['ATMO ON;'],True, "show")
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s on READINGS CLEAR; command" %return_value)

    def check_buff(result):
        if int(result) == BUFFER_SIZE:
            logging_device.log("The Buffer is full. Number of readings is/are %s which is equal to buffer size.\n\r\tSUCCESSFULLY FILLED BUFFER" % result)
        elif int(result) < BUFFER_SIZE:
            logging_device.error("Number of readings is smaller than full MAX buffer size.")
        else:
            logging_device.error("Number of readings is bigger than full MAX buffer size.")

        if not parse_readings('CLEAR', "hide"):
            return_value = False
            logging_device.error("Return value is %s on READINGS CLEAR; command" %return_value)

    for counter in range(0, BUFFER_SIZE):
        if not check_more_commands(['ACQUISITION;'], True, "hide"):
            return_value = False
            logging_device.error("Return value is %s on ACQUISITION; action" %return_value)
            return
        sys.stdout.write("...sending ACQUISITION;\r")
        logging_device.debug("number of iteration is %d on ACQUISITION; action" %counter)

    wait_dev_state_idle()
    result = parse_readings('', "hide")
    if not result:
        return_value = False
        logging_device.error("Return value is %s on READINGS; command" %return_value)
    check_buff(result)

    logging_device.log("Made more[190] ACQUISITIONs than buffer can store[180]")
    for counter in range(0, BUFFER_SIZE+10):
        if not check_more_commands(['ACQUISITION;'], True, "hide"):
            return_value = False
            logging_device.error("Return value is %s on ACQUISITION; action" %return_value)
            return
        sys.stdout.write("...sending ACQUISITION;\r")
        logging_device.debug("number of iteration is %d on ACQUISITION; action" %counter)

    wait_dev_state_idle()
    result = parse_readings('', "hide")
    if not result:
        return_value = False
        logging_device.error("Return value is %s on READINGS; command" %return_value)
    check_buff(result)


    logging_device.info("\n\r\t\t---------------- Return WolkSensor to settings before the test was started ----------------")
    wait_dev_state_idle()
    while not set_wifi_parameters(constants.SSID, constants.AUTH, constants.PASS): pass
    while not protocol_parser('MOVEMENT', True, 'OFF', True): pass
    while not protocol_parser('ATMO', True, 'ON', True): pass

    logging_device.log("\n\r")
    return return_value
コード例 #6
0
def flow_states():
    return_value = True

    logging_device.info(
        "\n\r\t\t   Flow States Testing\n\r***************************************************************\n\r"
    )
    while not set_wifi_parameters(constants.SSID, constants.AUTH,
                                  constants.PASS):
        pass
    while not protocol_parser('MOVEMENT', True, 'OFF', True):
        pass
    while not protocol_parser('ATMO', True, 'ON', True):
        pass
    while not protocol_parser('STATIC_IP', True, 'OFF', True):
        pass

    logging_device.info("\t\t---------------- Set WiFi Flow ----------------")
    logging_device.log("\t---True flow---")
    logging_device.info("\n\r\t\t-------- set Wifi with WPA2 secure --------")
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error(
            "Return value is %s. Response from command NOW; is: %s" %
            (return_value, response))
    '''
    logging_device.info("\n\r\t\t-------- set Wifi with WPA secure --------")
    if not set_wifi_parameters('WolkSensorWlan2', 'WPA', 'WolkSensorFabrication'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))

    logging_device.info("\n\r\t\t-------- set Wifi with WEP secure --------")
    if not set_wifi_parameters('WolkSensorWlan', 'WEP', '5FD6D8ED2087FEF502CDFE873F'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))

    logging_device.info("\n\r\t\t-------- set Wifi with OPEN secure --------")
    if not set_wifi_parameters('WolkSensorWlan1', 'NONE', 'NULL'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))
    '''
    logging_device.log("\t---False flow---")
    if not set_wifi_parameters('my0penwl4n', 'NONE', 'NULL'):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    if test_now('', '') == True:
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    logging_device.info("\n\r\t\t-------- read Readings --------")
    logging_device.log("\t---True flow---")
    wait_dev_state_idle()
    while not set_wifi_parameters('NULL', 'NONE', 'NULL'):
        pass
    test('MOVEMENT', ['OFF'], [])
    test('ATMO', ['ON'], [])
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    logging_device.log("set ACQUISITION state")
    if not test('ACQUISITION', [], []):
        return_value = False
        logging_device.error("Return value is %s in send ACQUISITION" %
                             return_value)

    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    logging_device.log(
        "RELOAD WolkSensor \n\r..waiting for STATUS ACQUISITION;")
    send_string_serial_wait('RELOAD;')
    wait_dev_state_idle()
    if not parse_readings('', "show"):
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    logging_device.log("CLEAR and OFF atmo measurements")
    test('ATMO', ['OFF'], [])
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    for i in reversed(range(0, 65)):
        time.sleep(1)
        print " | %s | ...wait 65sec to countdown ACQUISITION period \r" % i,
    if 'empty' != parse_readings('', "show"):
        return_value = False
        logging_device.error(
            "READINGS message isn't empty. Expected to be. ATMO is OFF. Return value is %s"
            % return_value)

    logging_device.info("\n\r\t\t-------- Check OFFSET settings --------")

    def set_offset(pressure_offset, temperature_offset, humidity_offset):
        logging_device.debug(
            "\n\rP offset: %s\n\rT offset: %s\n\rH offset: %s" %
            (str(pressure_offset), str(temperature_offset),
             str(humidity_offset)))
        if not test('PRESSURE_OFFSET', [str(pressure_offset)], []):
            return False
        if not test('TEMP_OFFSET', [str(temperature_offset)], []):
            return False
        if not test('HUMIDITY_OFFSET', [str(humidity_offset)], []):
            return False

        return True

    logging_device.log("\t---True flow---")
    if not test('ATMO', ['ON'], []):
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    if not set_offset(0, 0, 0):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    logging_device.log("set ACQUISITION state")
    if not test('ACQUISITION', [], []):
        return_value = False
        logging_device.error("Return value is %s in send ACQUISITION" %
                             return_value)
    send_string_serial_wait("READINGS;")
    received_string = receive_string_serial()
    logging_device.debug("Received message readings: %s" % received_string)
    if len(received_string) > 9:
        string_split = re.split(" ", received_string)
    logging_device.debug("string_split is/are %s" % string_split)
    pressure = test_readings_response(string_split[1], "show")[1]
    temp = test_readings_response(string_split[1], "show")[2]
    humidity = test_readings_response(string_split[1], "show")[3]
    logging_device.log("%s, %s, %s" % (pressure, temp, humidity))

    logging_device.log("\tSET NEW OFFSET VALUES")
    if not set_offset(1, 2, 3):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    logging_device.log("set ACQUISITION state")
    if not test('ACQUISITION', [], []):
        return_value = False
        logging_device.error("Return value is %s in send ACQUISITION" %
                             return_value)
    send_string_serial_wait("READINGS;")
    received_string = receive_string_serial()
    logging_device.debug("Received message readings: %s" % received_string)
    if len(received_string) > 9:
        string_split = re.split(" ", received_string)
    logging_device.debug("string_split is/are %s" % string_split)
    pressure_new = test_readings_response(string_split[1], "show")[1]
    temp_new = test_readings_response(string_split[1], "show")[2]
    humidity_new = test_readings_response(string_split[1], "show")[3]
    logging_device.log("Sensors values with new offsets are: %s, %s, %s" %
                       (pressure_new, temp_new, humidity_new))

    if not ((int(float(temp) * 100) in range(
            int(float(temp_new) * 100) - 25 * 10,
            int(float(temp_new) * 100) - 15 * 10)) or
            (int(float(humidity) * 100) in range(
                int(float(humidity_new) * 100) - 35 * 10,
                int(float(humidity_new) * 100) - 25 * 10)) or
            (int(float(pressure) * 100) in range(
                int(float(pressure_new) * 100) - 15 * 10,
                int(float(pressure_new) * 100) - 5 * 10))):
        logging_device.error(
            "Return value is %s \n\rSet new offset values failed" %
            return_value)
        return_value = False
    else:
        logging_device.log("\tSUCCESSFUL ARE SETS NEW OFFSET VALUES")

    logging_device.info("\n\r\t\t-------- read Movement --------")
    logging_device.log("\t---True flow---")
    wait_dev_state_idle()
    test('MOVEMENT', ['ON'], [])
    test('ATMO', ['OFF'], [])
    if not set_wifi_parameters('NULL', 'NONE', 'NULL'):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    logging_device.log("\t -->MOVE WolkSensor to continue testing<--")
    send_string_serial_wait("READINGS;")
    received_string = receive_string_serial()
    while ",M:1.0;" not in received_string:
        send_string_serial_wait("READINGS;")
        received_string = receive_string_serial()
    time.sleep(0.5)
    if not parse_readings('', "show"):
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    wait_dev_state_idle()
    test('MOVEMENT', ['OFF'], [])
    if not parse_readings('CLEAR', "show"):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    logging_device.log("\t -->MOVE WolkSensor to continue testing<--")
    for i in reversed(range(0, 5)):
        time.sleep(1)
        print " | %s |...move WolkSensor in this time period \r" % i,
    if not parse_readings('', "show"):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    test('ATMO', ['ON'], [])

    logging_device.info("\n\r\t\t-------- read System readings--------")
    logging_device.log("\t---True flow---")
    wait_dev_state_idle()
    if not set_wifi_parameters(constants.SSID, constants.AUTH, constants.PASS):
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    if not parse_system_reading('CLEAR', 'show'):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    logging_device.log("---NOW---")
    wait_dev_state_idle()
    while test_now('', '') != True:
        pass
    if not parse_system_reading('', 'show'):
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    logging_device.log("\t---False flow---")
    wait_dev_state_idle()
    if not set_wifi_parameters('doesnotexist', 'WPA', 'doesnotexist'):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    if not parse_system_reading('CLEAR', 'show'):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    logging_device.log("---NOW---")
    wait_dev_state_idle()
    if test_now('', '') == True:
        return_value = False
        logging_device.error(
            "Return value is %s. Received false from test_now('', '')" %
            return_value)

    wait_dev_state_idle()
    if not parse_system_reading('', 'show'):
        return_value = False
        logging_device.error("Return value is %s" % return_value)
    '''
    logging_device.info("\n\r\t\t-------- set Static IP--------")
    while not protocol_parser('ATMO', True, 'OFF', True): pass

    logging_device.log("\t---True flow---")
    wait_dev_state_idle()
    if not set_wifi_parameters('wolkabout', 'WPA2', 'Walkm3int0'):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    if not protocol_parser('STATIC_IP', False, '', True):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    i = 0
    list = ['STATIC_IP', '192.168.15.98', 'STATIC_GATEWAY', '192.168.15.1' , 'STATIC_MASK', '255.255.255.0', 'STATIC_DNS', '89.216.1.30']
    while( i < len(list)):
        if not protocol_parser(list[i], True, list[i+1], True):
            return_value = False
            logging_device.error("Return value is %s" %return_value)
        i += 2
    logging_device.log("---NOW---")
    wait_dev_state_idle()
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))

    if not protocol_parser('STATIC_IP', True, 'OFF', True):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    i = 0
    list = ['STATIC_IP' , 'STATIC_GATEWAY', 'STATIC_MASK', 'STATIC_DNS']
    while( i < len(list)):
        if not protocol_parser(list[i], False, '', True):
            return_value = False
            logging_device.error("Return value is %s" %return_value)
        i += 1
    logging_device.log("---NOW---")
    wait_dev_state_idle()
    response = test_now('', '')
    if response != True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))

    logging_device.log("\t---False flow---")
    wait_dev_state_idle()
    if not protocol_parser('STATIC_IP', False, '', True):
        return_value = False
        logging_device.error("Return value is %s" %return_value)
    i = 0
    list = ['STATIC_IP', '0.0.0.0', 'STATIC_GATEWAY', '0.0.0.0' , 'STATIC_MASK', '0.0.0.0', 'STATIC_DNS', '0.0.0.0']
    while( i < len(list)):
        if not protocol_parser(list[i], True, list[i+1], True):
            return_value = False
            logging_device.error("Return value is %s" %return_value)
        i += 2
    logging_device.log("---NOW---")
    wait_dev_state_idle()
    response = test_now('', '')
    if response == True:
        return_value = False
        logging_device.error("Return value is %s. Response from command NOW; is: %s" %(return_value, response))

    if not protocol_parser('STATIC_IP', True, 'OFF', True):
        return_value = False
        logging_device.error("Return value is %s" %return_value)

    while not protocol_parser('ATMO', True, 'ON', True): pass
    '''
    logging_device.info("\n\r\t\t-------- Factory OFFSET settings --------")
    while not set_wifi_parameters('NULL', 'NONE', 'NULL'):
        pass
    wait_dev_state_idle()

    if not set_offset(-10, -2, 1.5):
        return_value = False
        logging_device.error("Return value is %s" % return_value)

    send_string_serial_wait('OFFSET_FACTORY' + ';')
    received_string = receive_string_serial()
    logging_device.debug(received_string)
    string_split = re.split(" |;", received_string)
    factory = string_split[1]
    logging_device.debug("Factory: %s" % factory)

    if not test('OFFSET_FACTORY', ['RESET'], []):
        return_value = False
        logging_device.error("Return value is %s in OFFSET_FACTORY reset" %
                             return_value)

    send_string_serial_wait('TEMP_OFFSET' + ';')
    received_string = receive_string_serial()
    logging_device.debug("TEMP_OFFSET: %s" % received_string)
    string_split = re.split(" |;", received_string)
    temp = string_split[1]
    logging_device.debug("temp: %s" % temp)

    send_string_serial_wait('HUMIDITY_OFFSET' + ';')
    received_string = receive_string_serial()
    logging_device.debug("HUMIDITY_OFFSET: %s" % received_string)
    string_split = re.split(" |;", received_string)
    humidity = string_split[1]
    logging_device.debug("humidity: %s" % humidity)

    send_string_serial_wait('PRESSURE_OFFSET' + ';')
    received_string = receive_string_serial()
    logging_device.debug("PRESSURE_OFFSET: %s" % received_string)
    string_split = re.split(" |;", received_string)
    pressure = string_split[1]
    logging_device.debug("pressure: %s" % pressure)

    offset = "P:%s,T:%s,H:%s" % (pressure, temp, humidity)
    logging_device.log(factory)
    logging_device.log(offset)
    if factory != offset:
        return_value = False
        logging_device.error(
            "Return value is %s in compare offset from factory. Factory offset are: %s, New offset are: %s"
            % (return_value, factory, offset))
    else:
        logging_device.log("\tSUCCESSFUL RESET TO FACTORY OFFSET")

    logging_device.log("\n\r")
    return return_value