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crc64-adler
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/* crc64.c -- compute CRC-64 | |
* Copyright (C) 2013 Mark Adler | |
* Version 1.4 16 Dec 2013 Mark Adler | |
*/ | |
/* | |
This software is provided 'as-is', without any express or implied | |
warranty. In no event will the author be held liable for any damages | |
arising from the use of this software. | |
Permission is granted to anyone to use this software for any purpose, | |
including commercial applications, and to alter it and redistribute it | |
freely, subject to the following restrictions: | |
1. The origin of this software must not be misrepresented; you must not | |
claim that you wrote the original software. If you use this software | |
in a product, an acknowledgment in the product documentation would be | |
appreciated but is not required. | |
2. Altered source versions must be plainly marked as such, and must not be | |
misrepresented as being the original software. | |
3. This notice may not be removed or altered from any source distribution. | |
Mark Adler | |
[email protected] | |
*/ | |
/* Compute CRC-64 in the manner of xz, using the ECMA-182 polynomial, | |
bit-reversed, with one's complement pre and post processing. Provide a | |
means to combine separately computed CRC-64's. */ | |
/* Version history: | |
1.0 13 Dec 2013 First version | |
1.1 13 Dec 2013 Fix comments in test code | |
1.2 14 Dec 2013 Determine endianess at run time | |
1.3 15 Dec 2013 Add eight-byte processing for big endian as well | |
Make use of the pthread library optional | |
1.4 16 Dec 2013 Make once variable volatile for limited thread protection | |
*/ | |
#include <stdio.h> | |
#include <inttypes.h> | |
#include <assert.h> | |
/* The include of pthread.h below can be commented out in order to not use the | |
pthread library for table initialization. In that case, the initialization | |
will not be thread-safe. That's fine, so long as it can be assured that | |
there is only one thread using crc64(). */ | |
#include <pthread.h> /* link with -lpthread */ | |
/* 64-bit CRC polynomial with these coefficients, but reversed: | |
64, 62, 57, 55, 54, 53, 52, 47, 46, 45, 40, 39, 38, 37, 35, 33, 32, | |
31, 29, 27, 24, 23, 22, 21, 19, 17, 13, 12, 10, 9, 7, 4, 1, 0 */ | |
#define POLY UINT64_C(0xc96c5795d7870f42) | |
/* Tables for CRC calculation -- filled in by initialization functions that are | |
called once. These could be replaced by constant tables generated in the | |
same way. There are two tables, one for each endianess. Since these are | |
static, i.e. local, one should be compiled out of existence if the compiler | |
can evaluate the endianess check in crc64() at compile time. */ | |
static uint64_t crc64_little_table[8][256]; | |
static uint64_t crc64_big_table[8][256]; | |
/* Fill in the CRC-64 constants table. */ | |
static void crc64_init(uint64_t table[][256]) | |
{ | |
unsigned n, k; | |
uint64_t crc; | |
/* generate CRC-64's for all single byte sequences */ | |
for (n = 0; n < 256; n++) { | |
crc = n; | |
for (k = 0; k < 8; k++) | |
crc = crc & 1 ? POLY ^ (crc >> 1) : crc >> 1; | |
table[0][n] = crc; | |
} | |
/* generate CRC-64's for those followed by 1 to 7 zeros */ | |
for (n = 0; n < 256; n++) { | |
crc = table[0][n]; | |
for (k = 1; k < 8; k++) { | |
crc = table[0][crc & 0xff] ^ (crc >> 8); | |
table[k][n] = crc; | |
} | |
} | |
} | |
/* This function is called once to initialize the CRC-64 table for use on a | |
little-endian architecture. */ | |
static void crc64_little_init(void) | |
{ | |
crc64_init(crc64_little_table); | |
} | |
/* Reverse the bytes in a 64-bit word. */ | |
static inline uint64_t rev8(uint64_t a) | |
{ | |
uint64_t m; | |
m = UINT64_C(0xff00ff00ff00ff); | |
a = ((a >> 8) & m) | (a & m) << 8; | |
m = UINT64_C(0xffff0000ffff); | |
a = ((a >> 16) & m) | (a & m) << 16; | |
return a >> 32 | a << 32; | |
} | |
/* This function is called once to initialize the CRC-64 table for use on a | |
big-endian architecture. */ | |
static void crc64_big_init(void) | |
{ | |
unsigned k, n; | |
crc64_init(crc64_big_table); | |
for (k = 0; k < 8; k++) | |
for (n = 0; n < 256; n++) | |
crc64_big_table[k][n] = rev8(crc64_big_table[k][n]); | |
} | |
/* Run the init() function exactly once. If pthread.h is not included, then | |
this macro will use a simple static state variable for the purpose, which is | |
not thread-safe. The init function must be of the type void init(void). */ | |
#ifdef PTHREAD_ONCE_INIT | |
# define ONCE(init) \ | |
do { \ | |
static pthread_once_t once = PTHREAD_ONCE_INIT; \ | |
pthread_once(&once, init); \ | |
} while (0) | |
#else | |
# define ONCE(init) \ | |
do { \ | |
static volatile int once = 1; \ | |
if (once) { \ | |
if (once++ == 1) { \ | |
init(); \ | |
once = 0; \ | |
} \ | |
else \ | |
while (once) \ | |
; \ | |
} \ | |
} while (0) | |
#endif | |
/* Calculate a CRC-64 eight bytes at a time on a little-endian architecture. */ | |
static inline uint64_t crc64_little(uint64_t crc, void *buf, size_t len) | |
{ | |
unsigned char *next = buf; | |
ONCE(crc64_little_init); | |
crc = ~crc; | |
while (len && ((uintptr_t)next & 7) != 0) { | |
crc = crc64_little_table[0][(crc ^ *next++) & 0xff] ^ (crc >> 8); | |
len--; | |
} | |
while (len >= 8) { | |
crc ^= *(uint64_t *)next; | |
crc = crc64_little_table[7][crc & 0xff] ^ | |
crc64_little_table[6][(crc >> 8) & 0xff] ^ | |
crc64_little_table[5][(crc >> 16) & 0xff] ^ | |
crc64_little_table[4][(crc >> 24) & 0xff] ^ | |
crc64_little_table[3][(crc >> 32) & 0xff] ^ | |
crc64_little_table[2][(crc >> 40) & 0xff] ^ | |
crc64_little_table[1][(crc >> 48) & 0xff] ^ | |
crc64_little_table[0][crc >> 56]; | |
next += 8; | |
len -= 8; | |
} | |
while (len) { | |
crc = crc64_little_table[0][(crc ^ *next++) & 0xff] ^ (crc >> 8); | |
len--; | |
} | |
return ~crc; | |
} | |
/* Calculate a CRC-64 eight bytes at a time on a big-endian architecture. */ | |
static inline uint64_t crc64_big(uint64_t crc, void *buf, size_t len) | |
{ | |
unsigned char *next = buf; | |
ONCE(crc64_big_init); | |
crc = ~rev8(crc); | |
while (len && ((uintptr_t)next & 7) != 0) { | |
crc = crc64_big_table[0][(crc >> 56) ^ *next++] ^ (crc << 8); | |
len--; | |
} | |
while (len >= 8) { | |
crc ^= *(uint64_t *)next; | |
crc = crc64_big_table[0][crc & 0xff] ^ | |
crc64_big_table[1][(crc >> 8) & 0xff] ^ | |
crc64_big_table[2][(crc >> 16) & 0xff] ^ | |
crc64_big_table[3][(crc >> 24) & 0xff] ^ | |
crc64_big_table[4][(crc >> 32) & 0xff] ^ | |
crc64_big_table[5][(crc >> 40) & 0xff] ^ | |
crc64_big_table[6][(crc >> 48) & 0xff] ^ | |
crc64_big_table[7][crc >> 56]; | |
next += 8; | |
len -= 8; | |
} | |
while (len) { | |
crc = crc64_big_table[0][(crc >> 56) ^ *next++] ^ (crc << 8); | |
len--; | |
} | |
return ~rev8(crc); | |
} | |
/* Return the CRC-64 of buf[0..len-1] with initial crc, processing eight bytes | |
at a time. This selects one of two routines depending on the endianess of | |
the architecture. A good optimizing compiler will determine the endianess | |
at compile time if it can, and get rid of the unused code and table. If the | |
endianess can be changed at run time, then this code will handle that as | |
well, initializing and using two tables, if called upon to do so. */ | |
uint64_t crc64(uint64_t crc, void *buf, size_t len) | |
{ | |
uint64_t n = 1; | |
return *(char *)&n ? crc64_little(crc, buf, len) : | |
crc64_big(crc, buf, len); | |
} | |
#define GF2_DIM 64 /* dimension of GF(2) vectors (length of CRC) */ | |
static uint64_t gf2_matrix_times(uint64_t *mat, uint64_t vec) | |
{ | |
uint64_t sum; | |
sum = 0; | |
while (vec) { | |
if (vec & 1) | |
sum ^= *mat; | |
vec >>= 1; | |
mat++; | |
} | |
return sum; | |
} | |
static void gf2_matrix_square(uint64_t *square, uint64_t *mat) | |
{ | |
unsigned n; | |
for (n = 0; n < GF2_DIM; n++) | |
square[n] = gf2_matrix_times(mat, mat[n]); | |
} | |
/* Return the CRC-64 of two sequential blocks, where crc1 is the CRC-64 of the | |
first block, crc2 is the CRC-64 of the second block, and len2 is the length | |
of the second block. */ | |
uint64_t crc64_combine(uint64_t crc1, uint64_t crc2, uintmax_t len2) | |
{ | |
unsigned n; | |
uint64_t row; | |
uint64_t even[GF2_DIM]; /* even-power-of-two zeros operator */ | |
uint64_t odd[GF2_DIM]; /* odd-power-of-two zeros operator */ | |
/* degenerate case */ | |
if (len2 == 0) | |
return crc1; | |
/* put operator for one zero bit in odd */ | |
odd[0] = POLY; /* CRC-64 polynomial */ | |
row = 1; | |
for (n = 1; n < GF2_DIM; n++) { | |
odd[n] = row; | |
row <<= 1; | |
} | |
/* put operator for two zero bits in even */ | |
gf2_matrix_square(even, odd); | |
/* put operator for four zero bits in odd */ | |
gf2_matrix_square(odd, even); | |
/* apply len2 zeros to crc1 (first square will put the operator for one | |
zero byte, eight zero bits, in even) */ | |
do { | |
/* apply zeros operator for this bit of len2 */ | |
gf2_matrix_square(even, odd); | |
if (len2 & 1) | |
crc1 = gf2_matrix_times(even, crc1); | |
len2 >>= 1; | |
/* if no more bits set, then done */ | |
if (len2 == 0) | |
break; | |
/* another iteration of the loop with odd and even swapped */ | |
gf2_matrix_square(odd, even); | |
if (len2 & 1) | |
crc1 = gf2_matrix_times(odd, crc1); | |
len2 >>= 1; | |
/* if no more bits set, then done */ | |
} while (len2 != 0); | |
/* return combined crc */ | |
crc1 ^= crc2; | |
return crc1; | |
} | |
/* Test crc64() on vector[0..len-1] which should have CRC-64 crc. Also test | |
crc64_combine() on vector[] split in two. */ | |
static void crc64_test(void *vector, size_t len, uint64_t crc) | |
{ | |
uint64_t crc1, crc2; | |
/* test crc64() */ | |
crc1 = crc64(0, vector, len); | |
if (crc1 ^ crc) | |
printf("mismatch: %" PRIx64 ", should be %" PRIx64 "\n", crc1, crc); | |
/* test crc64_combine() */ | |
crc1 = crc64(0, vector, (len + 1) >> 1); | |
crc2 = crc64(0, vector + ((len + 1) >> 1), len >> 1); | |
crc1 = crc64_combine(crc1, crc2, len >> 1); | |
if (crc1 ^ crc) | |
printf("mismatch: %" PRIx64 ", should be %" PRIx64 "\n", crc1, crc); | |
} | |
/* Test vectors. */ | |
#define TEST1 "123456789" | |
#define TESTLEN1 9 | |
#define TESTCRC1 UINT64_C(0x995dc9bbdf1939fa) | |
#define TEST2 "This is a test of the emergency broadcast system." | |
#define TESTLEN2 49 | |
#define TESTCRC2 UINT64_C(0x27db187fc15bbc72) | |
int main(void) | |
{ | |
crc64_test(TEST1, TESTLEN1, TESTCRC1); | |
crc64_test(TEST2, TESTLEN2, TESTCRC2); | |
return 0; | |
} |
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