src/basic/siphash24.c - systemd - Git at Google

 /* SPDX-License-Identifier: CC0-1.0 */

 /*
    SipHash reference C implementation

    Written in 2012 by
    Jean-Philippe Aumasson <jeanphilippe.aumasson@gmail.com>
    Daniel J. Bernstein <djb@cr.yp.to>

    To the extent possible under law, the author(s) have dedicated all copyright
    and related and neighboring rights to this software to the public domain
    worldwide. This software is distributed without any warranty.

    You should have received a copy of the CC0 Public Domain Dedication along with
    this software. If not, see <https://creativecommons.org/publicdomain/zero/1.0/>.

    (Minimal changes made by Lennart Poettering, to make clean for inclusion in systemd)
    (Refactored by Tom Gundersen to split up in several functions and follow systemd
     coding style)
 */

 #include <stdio.h>

 #include "macro.h"
 #include "siphash24.h"
 #include "unaligned.h"

 static uint64_t rotate_left(uint64_t x, uint8_t b) {
         assert(b < 64);

         return (x << b) | (x >> (64 - b));
 }

 static void sipround(struct siphash *state) {
         assert(state);

         state->v0 += state->v1;
         state->v1 = rotate_left(state->v1, 13);
         state->v1 ^= state->v0;
         state->v0 = rotate_left(state->v0, 32);
         state->v2 += state->v3;
         state->v3 = rotate_left(state->v3, 16);
         state->v3 ^= state->v2;
         state->v0 += state->v3;
         state->v3 = rotate_left(state->v3, 21);
         state->v3 ^= state->v0;
         state->v2 += state->v1;
         state->v1 = rotate_left(state->v1, 17);
         state->v1 ^= state->v2;
         state->v2 = rotate_left(state->v2, 32);
 }

 void siphash24_init(struct siphash *state, const uint8_t k[static 16]) {
         uint64_t k0, k1;

         assert(state);
         assert(k);

         k0 = unaligned_read_le64(k);
         k1 = unaligned_read_le64(k + 8);

         *state = (struct siphash) {
                 /* "somepseudorandomlygeneratedbytes" */
                 .v0 = 0x736f6d6570736575ULL ^ k0,
                 .v1 = 0x646f72616e646f6dULL ^ k1,
                 .v2 = 0x6c7967656e657261ULL ^ k0,
                 .v3 = 0x7465646279746573ULL ^ k1,
                 .padding = 0,
                 .inlen = 0,
         };
 }

 void siphash24_compress(const void *_in, size_t inlen, struct siphash *state) {

         const uint8_t *in = ASSERT_PTR(_in);
         const uint8_t *end = in + inlen;
         size_t left = state->inlen & 7;
         uint64_t m;

         assert(state);

         /* Update total length */
         state->inlen += inlen;

         /* If padding exists, fill it out */
         if (left > 0) {
                 for ( ; in < end && left < 8; in ++, left ++)
                         state->padding |= ((uint64_t) *in) << (left * 8);

                 if (in == end && left < 8)
                         /* We did not have enough input to fill out the padding completely */
                         return;

 #if ENABLE_DEBUG_SIPHASH
                 printf("(%3zu) v0 %08x %08x\n", state->inlen, (uint32_t) (state->v0 >> 32), (uint32_t) state->v0);
                 printf("(%3zu) v1 %08x %08x\n", state->inlen, (uint32_t) (state->v1 >> 32), (uint32_t) state->v1);
                 printf("(%3zu) v2 %08x %08x\n", state->inlen, (uint32_t) (state->v2 >> 32), (uint32_t) state->v2);
                 printf("(%3zu) v3 %08x %08x\n", state->inlen, (uint32_t) (state->v3 >> 32), (uint32_t) state->v3);
                 printf("(%3zu) compress padding %08x %08x\n", state->inlen, (uint32_t) (state->padding >> 32), (uint32_t)state->padding);
 #endif

                 state->v3 ^= state->padding;
                 sipround(state);
                 sipround(state);
                 state->v0 ^= state->padding;

                 state->padding = 0;
         }

         end -= (state->inlen % sizeof(uint64_t));

         for ( ; in < end; in += 8) {
                 m = unaligned_read_le64(in);
 #if ENABLE_DEBUG_SIPHASH
                 printf("(%3zu) v0 %08x %08x\n", state->inlen, (uint32_t) (state->v0 >> 32), (uint32_t) state->v0);
                 printf("(%3zu) v1 %08x %08x\n", state->inlen, (uint32_t) (state->v1 >> 32), (uint32_t) state->v1);
                 printf("(%3zu) v2 %08x %08x\n", state->inlen, (uint32_t) (state->v2 >> 32), (uint32_t) state->v2);
                 printf("(%3zu) v3 %08x %08x\n", state->inlen, (uint32_t) (state->v3 >> 32), (uint32_t) state->v3);
                 printf("(%3zu) compress %08x %08x\n", state->inlen, (uint32_t) (m >> 32), (uint32_t) m);
 #endif
                 state->v3 ^= m;
                 sipround(state);
                 sipround(state);
                 state->v0 ^= m;
         }

         left = state->inlen & 7;
         switch (left) {
                 case 7:
                         state->padding |= ((uint64_t) in[6]) << 48;
                         _fallthrough_;
                 case 6:
                         state->padding |= ((uint64_t) in[5]) << 40;
                         _fallthrough_;
                 case 5:
                         state->padding |= ((uint64_t) in[4]) << 32;
                         _fallthrough_;
                 case 4:
                         state->padding |= ((uint64_t) in[3]) << 24;
                         _fallthrough_;
                 case 3:
                         state->padding |= ((uint64_t) in[2]) << 16;
                         _fallthrough_;
                 case 2:
                         state->padding |= ((uint64_t) in[1]) <<  8;
                         _fallthrough_;
                 case 1:
                         state->padding |= ((uint64_t) in[0]);
                         _fallthrough_;
                 case 0:
                         break;
         }
 }

 uint64_t siphash24_finalize(struct siphash *state) {
         uint64_t b;

         assert(state);

         b = state->padding | (((uint64_t) state->inlen) << 56);

 #if ENABLE_DEBUG_SIPHASH
         printf("(%3zu) v0 %08x %08x\n", state->inlen, (uint32_t) (state->v0 >> 32), (uint32_t) state->v0);
         printf("(%3zu) v1 %08x %08x\n", state->inlen, (uint32_t) (state->v1 >> 32), (uint32_t) state->v1);
         printf("(%3zu) v2 %08x %08x\n", state->inlen, (uint32_t) (state->v2 >> 32), (uint32_t) state->v2);
         printf("(%3zu) v3 %08x %08x\n", state->inlen, (uint32_t) (state->v3 >> 32), (uint32_t) state->v3);
         printf("(%3zu) padding   %08x %08x\n", state->inlen, (uint32_t) (state->padding >> 32), (uint32_t) state->padding);
 #endif

         state->v3 ^= b;
         sipround(state);
         sipround(state);
         state->v0 ^= b;

 #if ENABLE_DEBUG_SIPHASH
         printf("(%3zu) v0 %08x %08x\n", state->inlen, (uint32_t) (state->v0 >> 32), (uint32_t) state->v0);
         printf("(%3zu) v1 %08x %08x\n", state->inlen, (uint32_t) (state->v1 >> 32), (uint32_t) state->v1);
         printf("(%3zu) v2 %08x %08x\n", state->inlen, (uint32_t) (state->v2 >> 32), (uint32_t) state->v2);
         printf("(%3zu) v3 %08x %08x\n", state->inlen, (uint32_t) (state->v3 >> 32), (uint32_t) state->v3);
 #endif
         state->v2 ^= 0xff;

         sipround(state);
         sipround(state);
         sipround(state);
         sipround(state);

         return state->v0 ^ state->v1 ^ state->v2  ^ state->v3;
 }

 uint64_t siphash24(const void *in, size_t inlen, const uint8_t k[static 16]) {
         struct siphash state;

         assert(in);
         assert(k);

         siphash24_init(&state, k);
         siphash24_compress(in, inlen, &state);

         return siphash24_finalize(&state);
 }
	/* SPDX-License-Identifier: CC0-1.0 */

	/*
	SipHash reference C implementation

	Written in 2012 by
	Jean-Philippe Aumasson <jeanphilippe.aumasson@gmail.com>
	Daniel J. Bernstein <djb@cr.yp.to>

	To the extent possible under law, the author(s) have dedicated all copyright
	and related and neighboring rights to this software to the public domain
	worldwide. This software is distributed without any warranty.

	You should have received a copy of the CC0 Public Domain Dedication along with
	this software. If not, see <https://creativecommons.org/publicdomain/zero/1.0/>.

	(Minimal changes made by Lennart Poettering, to make clean for inclusion in systemd)
	(Refactored by Tom Gundersen to split up in several functions and follow systemd
	coding style)
	*/

	#include <stdio.h>

	#include "macro.h"
	#include "siphash24.h"
	#include "unaligned.h"

	static uint64_t rotate_left(uint64_t x, uint8_t b) {
	assert(b < 64);

	return (x << b) \| (x >> (64 - b));
	}

	static void sipround(struct siphash *state) {
	assert(state);

	state->v0 += state->v1;
	state->v1 = rotate_left(state->v1, 13);
	state->v1 ^= state->v0;
	state->v0 = rotate_left(state->v0, 32);
	state->v2 += state->v3;
	state->v3 = rotate_left(state->v3, 16);
	state->v3 ^= state->v2;
	state->v0 += state->v3;
	state->v3 = rotate_left(state->v3, 21);
	state->v3 ^= state->v0;
	state->v2 += state->v1;
	state->v1 = rotate_left(state->v1, 17);
	state->v1 ^= state->v2;
	state->v2 = rotate_left(state->v2, 32);
	}

	void siphash24_init(struct siphash *state, const uint8_t k[static 16]) {
	uint64_t k0, k1;

	assert(state);
	assert(k);

	k0 = unaligned_read_le64(k);
	k1 = unaligned_read_le64(k + 8);

	*state = (struct siphash) {
	/* "somepseudorandomlygeneratedbytes" */
	.v0 = 0x736f6d6570736575ULL ^ k0,
	.v1 = 0x646f72616e646f6dULL ^ k1,
	.v2 = 0x6c7967656e657261ULL ^ k0,
	.v3 = 0x7465646279746573ULL ^ k1,
	.padding = 0,
	.inlen = 0,
	};
	}

	void siphash24_compress(const void _in, size_t inlen, struct siphash state) {

	const uint8_t *in = ASSERT_PTR(_in);
	const uint8_t *end = in + inlen;
	size_t left = state->inlen & 7;
	uint64_t m;

	assert(state);

	/* Update total length */
	state->inlen += inlen;

	/* If padding exists, fill it out */
	if (left > 0) {
	for ( ; in < end && left < 8; in ++, left ++)
	state->padding \|= ((uint64_t) in) << (left 8);

	if (in == end && left < 8)
	/* We did not have enough input to fill out the padding completely */
	return;

	#if ENABLE_DEBUG_SIPHASH
	printf("(%3zu) v0 %08x %08x\n", state->inlen, (uint32_t) (state->v0 >> 32), (uint32_t) state->v0);
	printf("(%3zu) v1 %08x %08x\n", state->inlen, (uint32_t) (state->v1 >> 32), (uint32_t) state->v1);
	printf("(%3zu) v2 %08x %08x\n", state->inlen, (uint32_t) (state->v2 >> 32), (uint32_t) state->v2);
	printf("(%3zu) v3 %08x %08x\n", state->inlen, (uint32_t) (state->v3 >> 32), (uint32_t) state->v3);
	printf("(%3zu) compress padding %08x %08x\n", state->inlen, (uint32_t) (state->padding >> 32), (uint32_t)state->padding);
	#endif

	state->v3 ^= state->padding;
	sipround(state);
	sipround(state);
	state->v0 ^= state->padding;

	state->padding = 0;
	}

	end -= (state->inlen % sizeof(uint64_t));

	for ( ; in < end; in += 8) {
	m = unaligned_read_le64(in);
	#if ENABLE_DEBUG_SIPHASH
	printf("(%3zu) v0 %08x %08x\n", state->inlen, (uint32_t) (state->v0 >> 32), (uint32_t) state->v0);
	printf("(%3zu) v1 %08x %08x\n", state->inlen, (uint32_t) (state->v1 >> 32), (uint32_t) state->v1);
	printf("(%3zu) v2 %08x %08x\n", state->inlen, (uint32_t) (state->v2 >> 32), (uint32_t) state->v2);
	printf("(%3zu) v3 %08x %08x\n", state->inlen, (uint32_t) (state->v3 >> 32), (uint32_t) state->v3);
	printf("(%3zu) compress %08x %08x\n", state->inlen, (uint32_t) (m >> 32), (uint32_t) m);
	#endif
	state->v3 ^= m;
	sipround(state);
	sipround(state);
	state->v0 ^= m;
	}

	left = state->inlen & 7;
	switch (left) {
	case 7:
	state->padding \|= ((uint64_t) in[6]) << 48;
	_fallthrough_;
	case 6:
	state->padding \|= ((uint64_t) in[5]) << 40;
	_fallthrough_;
	case 5:
	state->padding \|= ((uint64_t) in[4]) << 32;
	_fallthrough_;
	case 4:
	state->padding \|= ((uint64_t) in[3]) << 24;
	_fallthrough_;
	case 3:
	state->padding \|= ((uint64_t) in[2]) << 16;
	_fallthrough_;
	case 2:
	state->padding \|= ((uint64_t) in[1]) << 8;
	_fallthrough_;
	case 1:
	state->padding \|= ((uint64_t) in[0]);
	_fallthrough_;
	case 0:
	break;
	}
	}

	uint64_t siphash24_finalize(struct siphash *state) {
	uint64_t b;

	assert(state);

	b = state->padding \| (((uint64_t) state->inlen) << 56);

	#if ENABLE_DEBUG_SIPHASH
	printf("(%3zu) v0 %08x %08x\n", state->inlen, (uint32_t) (state->v0 >> 32), (uint32_t) state->v0);
	printf("(%3zu) v1 %08x %08x\n", state->inlen, (uint32_t) (state->v1 >> 32), (uint32_t) state->v1);
	printf("(%3zu) v2 %08x %08x\n", state->inlen, (uint32_t) (state->v2 >> 32), (uint32_t) state->v2);
	printf("(%3zu) v3 %08x %08x\n", state->inlen, (uint32_t) (state->v3 >> 32), (uint32_t) state->v3);
	printf("(%3zu) padding %08x %08x\n", state->inlen, (uint32_t) (state->padding >> 32), (uint32_t) state->padding);
	#endif

	state->v3 ^= b;
	sipround(state);
	sipround(state);
	state->v0 ^= b;

	#if ENABLE_DEBUG_SIPHASH
	printf("(%3zu) v0 %08x %08x\n", state->inlen, (uint32_t) (state->v0 >> 32), (uint32_t) state->v0);
	printf("(%3zu) v1 %08x %08x\n", state->inlen, (uint32_t) (state->v1 >> 32), (uint32_t) state->v1);
	printf("(%3zu) v2 %08x %08x\n", state->inlen, (uint32_t) (state->v2 >> 32), (uint32_t) state->v2);
	printf("(%3zu) v3 %08x %08x\n", state->inlen, (uint32_t) (state->v3 >> 32), (uint32_t) state->v3);
	#endif
	state->v2 ^= 0xff;

	sipround(state);
	sipround(state);
	sipround(state);
	sipround(state);

	return state->v0 ^ state->v1 ^ state->v2 ^ state->v3;
	}

	uint64_t siphash24(const void *in, size_t inlen, const uint8_t k[static 16]) {
	struct siphash state;

	assert(in);
	assert(k);

	siphash24_init(&state, k);
	siphash24_compress(in, inlen, &state);

	return siphash24_finalize(&state);
	}