I'm looking for an implementation of CRC32 in C or C++ that is explicitly licensed as being no cost or public domain. The implementation here seems nice, but the only thing it says about the license is "source code", which isn't good enough. I'd prefer non LGPL so I don't have to fool around with a DLL (my app is closed source). I saw the adler32 implementation in zlib, but I'm checking small chunks of data, which adler is not good for.
/* Copyright (C) 1986 Gary S. Brown. You may use this program, or code or tables extracted from it, as desired without restriction.*/
(Unfortunately, c.snippets.org seems to have died. Fortunately, the Wayback Machine has it archived.)
The only critical item in the header is this macro (which could just as easily go in CRC_32.c itself:
#define UPDC32(octet, crc) (crc_32_tab[((crc) ^ (octet)) & 0xff] ^ ((crc) >> 8))
#include <zlib.h> unsigned long crc = crc32(0L, Z_NULL, 0); crc = crc32(crc, (const unsigned char*)data_address, data_len);
pycrc is a Python script that generates C CRC code, with options to select the CRC size, algorithm and model.
It's released under the MIT licence. Is that acceptable for your purposes?
The most simple and straightforward C/C++ implementation that I found is in a link at the bottom of this page:
Code Download Link: https://barrgroup.com/code/crc.zip
It is a simple standalone implementation with one .h and one .c file. There is support for CRC32, CRC16 and CRC_CCITT thru the use of a define. Also, the code lets the user change parameter settings like the CRC polynomial, initial/final XOR value, and reflection options if you so desire.
The license is not explicitly defined ala LGPL or similar. However the site does say that they are placing the code in the public domain for any use. The actual code files also say this.
Hope it helps!
The mhash library works pretty good for me. It's fast enough, supports multiple types of hashing (crc32, MD5, SHA-1, HAVAL, RIPEMD128, RIPEMD160, TIGER, GOST, etc.). To get CRC32 of a string you would do something like this:
MHASH td = mhash_init(MHASH_CRC32); if (td == MHASH_FAILED) return -1; // handle failure mhash(td, s, strlen(s)); unsigned int digest = 0; // crc32 will be stored here mhash_deinit(td, &digest); // do endian swap here if desired
rurban's fork of SMHasher (the original SMHasher seems abandoned) has hardware CRC32 support. The changes were added before the initial commit, but try comparing the new CMakeLists.txt and the old one (which doesn't mention SSE at all).
If you don't need portability and you're on Linux, you can use the kernel's implementation (which is hardware accelerated if available): https://stackoverflow.com/a/11156040/309483