This tool is able parse LIN Description Files, retrieve signal names and frames from them, as well as encoding messages using frame definitions and decoding them.
The library is still in a pre-release state, therefore features may break between minor versions. For this reason it's recommended that productive environments pin to the exact version of the library and do an integration test or review when updating the version. Breaking changes and how to migrate to the new version will be documented in the changelog and on the Github releases page.
The tool has been written according the LIN standards 1.3, 2.0, 2.1 and 2.2A, but due to errors in the documentation there's no guarantee that the library will be able to parse your LDF. In such cases if possible first verify the LDF with a commercial tool such as Vector LDF Explorer or the tool that was used to create the LDF. If the LDF seems to be correct then open a new issue. I also recommend trying the LDF to JSON conversion mechanism, see if that succeeds.
The LIN standard is now known as ISO 17987 which clears up some of the confusing parts in the 2.2A specification. Since this new standard is not freely available this library won't support the modifications present in ISO 17987. I don't think it's going to a huge problem because the LIN 2.2A released in 2010 has overall better adoption.
The LDF usually contains sensitive information, if you need to open an issue related to the parser then try to provide either an anonymized version with signals and frames obfuscated or just the relevant segments in an example LDF when opening issues.
You can install this library from PyPI using pip.
pip install ldfparser
import ldfparser
import binascii
# Load LDF
ldf = ldfparser.parse_ldf(path = "network.ldf")
frame = ldf.get_unconditional_frame('Frame_1')
# Get baudrate from LDF
print(ldf.get_baudrate())
# Encode signal values into frame
message = frame.encode_raw({"Signal_1": 123, "Signal_2": 0})
print(binascii.hexlify(message))
>>> 0x7B00
# Decode message into dictionary of signal names and values
received = bytearray([0x7B, 0x00])
print(frame.decode(received))
>>> {"Signal_1": 123, "Signal_2": 0}
# Encode signal values through converters
message = frame.encode({"MotorRPM": 100, "FanState": "ON"})
print(binascii.hexlify(message))
>>> 0xFE01
More examples can be found in the examples directory.
Documentation is published to Github Pages.
Semantic validation of LDF files
Retrieve header information (version, baudrate)
Retrieve Signal and Frame information
Retrieve Signal encoding types and use them to convert values
Retrieve Node attributes
Retrieve schedule table information
Command Line Interface
Capturing comments
Encode and decode standard diagnostic frames
Saving LDF object as an .ldf
file (experimental)
Certain parsing related errors are unintuitive
Checksum calculation for frames
Token information is not preserved
Install the library locally by running pip install -e .[dev]
Pytest is used for testing, to execute all tests run pytest -m 'not snapshot'
Flake8 is used for linting, run flake8
to print out all linting errors.
@c4deszes (Author)
Inspired by uCAN-LIN LinUSBConverter, specifically the LDF parsing mechanism via Lark. Previously the library included most of the lark file, parsing code and examples, since 0.5.0 they've been completely rewritten to better accomodate the different LIN standards.