MultiWii Serial Protocol (MSP) API for python3
Project description
MultiWii Serial Protocol (MSP)
Handles the MultiWii Serial Protocol to send/receive data from boards.
This is text-based / console, no GUI. It works by reading data from the multicopter and/or sending commands from a computer via a serial modem. I use this module for doing different request to my multicopters in order to control them wirelessly via a Raspberry Pi.
Caution
This code is still somewhat under development, if you found a bug or a improvement, please let me know!!
Installation
To install with pip run the following command from this directory,
pip install msp-python3
How?
Just create a MultiWii object that receives the serial port address as parameter and then you can ask for a MSP command by using the function getData, an explicit example looks like this:
from msp.multiwii import MultiWii
serialPort = "/dev/ttyS0"
board = MultiWii(serialPort)
MultiWii Serial Protocol
MSP is a protocol designed by the MultiWii community, with the idea to be light, generic, bit wire efficient, secure. The MSP data frames are structured as:
$<header>,<direction>,<size>,<command>,<crc>$
where:
- preamble: the ASCII characters
$M
- direction: the ASCII character
<
if the message goes to the MultiWii board or>
if the message is coming from the board - size: number of data bytes, binary. Can be zero as in the case of a data request to the board
- command: message id of MSP
- data: values to be sent. UINT16 values are LSB first
- crc: (cyclic redundancy check) checksum, XOR of
<size>,<command>
and each data byte into a zero sum
For a complete list of Protocols and responses that this project is based off of please visit MultiWii Serial Protocol - Web Archive.
Stack overflow example of MSP
Data Flow
There is basically three types of messages to interact with a MultiWii board. Those are command, request and response. Command is an incoming message without implicit outgoing response from the board, request is an incoming message with implicit outgoing response while response is the outgoing message resulting from an incoming request.
If, e.g., the orientation of the board is needed, then a message with type request and ID = 108 must be created and then sent to the board, after being sent, the board will reply with a response.
Performance
The entire implementation of this module does not include a sleep function, which means that is very fast and efficient, the rate of communication would then depend on the computer and the board capabilities.
The module is also designed to be extremely simple to use, the next code will request and print (to the host computer) the orientation of the a MultiWii board connected to a USB port:
import sys
from msp.multiwii import MultiWii
if __name__ == "__main__":
try:
print_debug = sys.argv[1].lower() == 'true'
fc = MultiWii("/dev/ttyS0", print_debug)
fc.start()
while True:
print(fc.get_attitude())
except Exception as error:
import traceback
print("Error on Main: " + str(error))
traceback.print_exc()
Boards update
8bit boards
When using an 8bit MultiWii board, please change the wakeup
time. The old boards need
more than 10 seconds to boot up in order to be ready to start asking for data. A safe time would be:
"""Time to wait until the board becomes operational"""
wakeup = 14
32bit boards
If you're using something similar to a naze32 using either baseflight or cleanflight you will be able to ask for
attitude and some other commands, but by default you will not be able to use the MSP_SET_RAW_RC to write pilot commands
to the multiwii. In order to do that you need to activate (via the baseflight/cleanflight GUI) the SerialRX
with
the specific type for MSP (MultiWii Serial Protocol). The instructions for doing that on baseflight are:
- Open the CLI (while on the baseflight configurator) and type:
feature SERIALRX
and then type the following lines:
set serialrx_type=4
This will activate "msp" in order to control the multiwii via that protocol. Important: when type=4 is active, standard radio will not work... (at least on the releases I'm using).
Then you can carefully test my example "test-arm-disarm.py"... You will see the motors spin for 3 seconds. ¡¡BE CAREFUL!!
Additional Links
Cleanflight Checklist is very helpful for ensuring that your drone has been configured correctly.
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