Executing Custom Commands¶
To communicate with SHDLC devices, usually you won’t use this base driver directly since it doesn’t provide device specific commands. Instead, you use a dedicated Python driver created for a specific device type, like sensirion-shdlc-sensorbridge for the Sensirion SEK-SensorBridge.
But if there is no Python driver available (yet) for a particular SHDLC device, this base driver could still be used to communicate with that device. There are two different ways how to execute custom SHDLC commands with this driver.
Using ShdlcCommand Directly¶
The simplest way is to pass an
ShdlcCommand
object to the
execute()
method of the
device:
from sensirion_shdlc_driver import ShdlcSerialPort, ShdlcConnection, ShdlcDevice
from sensirion_shdlc_driver.command import ShdlcCommand
from struct import unpack
with ShdlcSerialPort(port='COM1', baudrate=115200) as port:
device = ShdlcDevice(ShdlcConnection(port), slave_address=0)
# Execute custom command
raw_response = device.execute(ShdlcCommand(
id=0xD2, # The command ID as specified in the device documentation
data=b"\x01", # The payload data to send
max_response_time=0.2, # Maximum response time in Seconds
))
print("Raw Response: {}".format(raw_response))
# Convert raw response to proper data types
uint32, uint8 = unpack('>IB', raw_response)
print("Response: {}, {}".format(uint32, uint8))
For more options and detailed information, please take a look at the
documentation of ShdlcCommand
.
Deriving from ShdlcCommand¶
Another, more powerful way to implement custom commands is to create separate
classes for each command. Especially if the raw response bytes need to be
converted to other data types this is handy since it will make the
execute()
method
returning the converted response.
from sensirion_shdlc_driver import ShdlcSerialPort, ShdlcConnection, ShdlcDevice
from sensirion_shdlc_driver.command import ShdlcCommand
from struct import pack, unpack
class MyCustomCommand(ShdlcCommand):
def __init__(self, bool_parameter):
super(MyCustomCommand, self).__init__(
id=0xD2, # Command ID as specified in the device documentation
data=pack(">B", bool_parameter), # Payload data
max_response_time=0.2, # Maximum response time in Seconds
)
def interpret_response(self, data):
# Convert the received raw bytes to the proper data types
uint32, uint8 = unpack('>IB', data)
return uint32, uint8
with ShdlcSerialPort(port='COM1', baudrate=115200) as port:
device = ShdlcDevice(ShdlcConnection(port), slave_address=0)
uint32, uint8 = device.execute(MyCustomCommand(bool_parameter=True))
print("Response: {}, {}".format(uint32, uint8))
Creating a Device Class¶
To create a more convenient API, it might make sense to wrap the custom
commands in a new device class. When inheriting from
ShdlcDevice
, you even get a class
providing all the common SHDLC commands in addition to your custom commands:
from sensirion_shdlc_driver import ShdlcSerialPort, ShdlcConnection, ShdlcDevice
from sensirion_shdlc_driver.command import ShdlcCommand
from struct import pack, unpack
class MyCustomCommand(ShdlcCommand):
def __init__(self, bool_parameter):
super(MyCustomCommand, self).__init__(
id=0xD2, # Command ID as specified in the device documentation
data=pack(">B", bool_parameter), # Payload data
max_response_time=0.2, # Maximum response time in Seconds
)
def interpret_response(self, data):
# Convert the received raw bytes to the proper data types
uint32, uint8 = unpack('>IB', data)
return uint32, uint8
class MyCustomShdlcDevice(ShdlcDevice):
def __init__(self, connection, slave_address):
super(MyCustomShdlcDevice, self).__init__(connection, slave_address)
def my_custom_command(self, bool_parameter):
return self.execute(MyCustomCommand(bool_parameter))
with ShdlcSerialPort(port='COM1', baudrate=115200) as port:
device = MyCustomShdlcDevice(ShdlcConnection(port), slave_address=0)
print("Version: {}".format(device.get_version()))
uint32, uint8 = device.my_custom_command(bool_parameter=True)
print("Response: {}, {}".format(uint32, uint8))