CrcEngine
A python library for CRC calculation providing table-based as well as bit-bashing implementations (for reference).
- Free software: GNU General Public License v3
- Documentation: https://crcengine.readthedocs.io.
Installing
CrcEngine can be installing using pip with
pip install crcengine
Usage
Pre-defined algorithms such as CRC32 are available. Tailored algorithms can be created by calling CrcEngine.create() and other related methods.
A calculation engine for a specific named algorithm can be obtained using CrcEngine.new(). Algorithms which are not pre-defined can be created using CrcEngine.create()
A list of pre-defined algorithms can be obtained using crcengine.algorithms_available()
>>> list(crcengine.algorithms_available())
['crc8', 'crc8-autosar', 'crc8-bluetooth', 'crc8-ccitt', 'crc8-gsm-b', 'crc8-sae-j1850', 'crc15-can', 'crc16-kermit', 'crc16-ccitt-true', 'crc16-xmodem', 'crc16-autosar', 'crc16-ccitt-false', 'crc16-cdma2000', 'crc16-ibm', 'crc16-modbus', 'crc16-profibus', 'crc24-flexray16-a', 'crc24-flexray16-b', 'crc32', 'crc32-bzip2', 'crc32-c', 'crc64-ecma']
Built-in algorithms
crc8, crc8-autosar, crc8-bluetooth, crc8-ccitt, crc8-gsm-b, crc8-sae-j1850, crc15-can, crc16-kermit, crc16-ccitt-true, crc16-xmodem, crc16-autosar, crc16-ccitt-false, crc16-cdma2000, crc16-ibm, crc16-modbus, crc16-profibus, crc24-flexray16-a, crc24-flexray16-b, crc32, crc32-bzip2, crc32-c, crc64-ecma
Examples
Using a pre-defined algorithm
import crcengine
crc_algorithm = crcengine.new('crc32-bzip2')
result = crc_algorithm(b'123456789')
print('CRC=0x{:08x}'.format(result))
Output: > CRC=0xfc891918
Defining an algorithm
import crcengine
crc_openpgp = crcengine.create(0x864cfb, 24, 0xb704ce, ref_in=False,
ref_out=False, xor_out=0,
name='crc-24-openpgp')
Code Generation
The library can generate C code for a given table-algorithm. The code produced is intended to be a reasonable compromise between size, complexity and speed without requiring allocation of memory for table generation at runtime.
Faster implementations of specific algorithms can be achieved in software which unroll loops and pipeline the operations different bytes to introduce parallelism in the calculation see intel_soft_src for example. Some processors also include instructions specifically for crc calculation.
Code Generation Example usage:
Generating code into a directory named "out" by passing CRC parameters
params = crcengine.get_algorithm_params('crc32')
crcengine.generate_code(params, 'out/')
or referencing the algorithm by name
crcengine.generate_code('crc16-xmodem', 'out/')
Downloading
- The source is available on github
- Git clone crcengine.git
- On pypi.org
Running the tests
Tests can be performed directly by executing pytest in the "tests" directory
Running the Codegen tests
The codegen tests make use of ceedling which is expected to be installed as a ruby gem. The unit tests are configured to compile with gcc.
With thanks to Greg Cook for providing such a thoroughly collated list of CRC definitions