1010ff285SAaron LI /*-
2010ff285SAaron LI * Copyright (c) 2013 Andre Oppermann <andre@FreeBSD.org>
3010ff285SAaron LI * All rights reserved.
4010ff285SAaron LI *
5010ff285SAaron LI * Redistribution and use in source and binary forms, with or without
6010ff285SAaron LI * modification, are permitted provided that the following conditions
7010ff285SAaron LI * are met:
8010ff285SAaron LI * 1. Redistributions of source code must retain the above copyright
9010ff285SAaron LI * notice, this list of conditions and the following disclaimer.
10010ff285SAaron LI * 2. Redistributions in binary form must reproduce the above copyright
11010ff285SAaron LI * notice, this list of conditions and the following disclaimer in the
12010ff285SAaron LI * documentation and/or other materials provided with the distribution.
13010ff285SAaron LI * 3. The name of the author may not be used to endorse or promote
14010ff285SAaron LI * products derived from this software without specific prior written
15010ff285SAaron LI * permission.
16010ff285SAaron LI *
17010ff285SAaron LI * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
18010ff285SAaron LI * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
19010ff285SAaron LI * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
20010ff285SAaron LI * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
21010ff285SAaron LI * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
22010ff285SAaron LI * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
23010ff285SAaron LI * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
24010ff285SAaron LI * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
25010ff285SAaron LI * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
26010ff285SAaron LI * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
27010ff285SAaron LI * SUCH DAMAGE.
28010ff285SAaron LI */
29010ff285SAaron LI
30010ff285SAaron LI /*
31010ff285SAaron LI * SipHash is a family of PRFs SipHash-c-d where the integer parameters c and d
32010ff285SAaron LI * are the number of compression rounds and the number of finalization rounds.
33010ff285SAaron LI * A compression round is identical to a finalization round and this round
34010ff285SAaron LI * function is called SipRound. Given a 128-bit key k and a (possibly empty)
35010ff285SAaron LI * byte string m, SipHash-c-d returns a 64-bit value SipHash-c-d(k; m).
36010ff285SAaron LI *
37010ff285SAaron LI * Implemented from the paper "SipHash: a fast short-input PRF", 2012.09.18,
38010ff285SAaron LI * by Jean-Philippe Aumasson and Daniel J. Bernstein,
39010ff285SAaron LI * Permanent Document ID b9a943a805fbfc6fde808af9fc0ecdfa
40010ff285SAaron LI * https://131002.net/siphash/siphash.pdf
41010ff285SAaron LI * https://131002.net/siphash/
42010ff285SAaron LI */
43010ff285SAaron LI
44*025d8334SAaron LI #include <sys/param.h>
45010ff285SAaron LI #include <sys/systm.h>
46010ff285SAaron LI #include <sys/endian.h>
47010ff285SAaron LI
48010ff285SAaron LI #include <crypto/siphash/siphash.h>
49010ff285SAaron LI
50010ff285SAaron LI static void SipRounds(SIPHASH_CTX *ctx, int final);
51010ff285SAaron LI
52010ff285SAaron LI void
SipHash_InitX(SIPHASH_CTX * ctx,int rc,int rf)53010ff285SAaron LI SipHash_InitX(SIPHASH_CTX *ctx, int rc, int rf)
54010ff285SAaron LI {
55010ff285SAaron LI
56010ff285SAaron LI ctx->v[0] = 0x736f6d6570736575ull;
57010ff285SAaron LI ctx->v[1] = 0x646f72616e646f6dull;
58010ff285SAaron LI ctx->v[2] = 0x6c7967656e657261ull;
59010ff285SAaron LI ctx->v[3] = 0x7465646279746573ull;
60010ff285SAaron LI ctx->buf.b64 = 0;
61010ff285SAaron LI ctx->bytes = 0;
62010ff285SAaron LI ctx->buflen = 0;
63010ff285SAaron LI ctx->rounds_compr = rc;
64010ff285SAaron LI ctx->rounds_final = rf;
65010ff285SAaron LI ctx->initialized = 1;
66010ff285SAaron LI }
67010ff285SAaron LI
68010ff285SAaron LI void
SipHash_SetKey(SIPHASH_CTX * ctx,const uint8_t key[static SIPHASH_KEY_LENGTH])69010ff285SAaron LI SipHash_SetKey(SIPHASH_CTX *ctx, const uint8_t key[static SIPHASH_KEY_LENGTH])
70010ff285SAaron LI {
71010ff285SAaron LI uint64_t k[2];
72010ff285SAaron LI
73*025d8334SAaron LI KASSERT(ctx->v[0] == 0x736f6d6570736575ull && ctx->initialized == 1,
74010ff285SAaron LI ("%s: context %p not properly initialized", __func__, ctx));
75010ff285SAaron LI
76010ff285SAaron LI k[0] = le64dec(&key[0]);
77010ff285SAaron LI k[1] = le64dec(&key[8]);
78010ff285SAaron LI
79010ff285SAaron LI ctx->v[0] ^= k[0];
80010ff285SAaron LI ctx->v[1] ^= k[1];
81010ff285SAaron LI ctx->v[2] ^= k[0];
82010ff285SAaron LI ctx->v[3] ^= k[1];
83010ff285SAaron LI
84010ff285SAaron LI ctx->initialized = 2;
85010ff285SAaron LI }
86010ff285SAaron LI
87010ff285SAaron LI static size_t
SipBuf(SIPHASH_CTX * ctx,const uint8_t ** src,size_t len,int final)88010ff285SAaron LI SipBuf(SIPHASH_CTX *ctx, const uint8_t **src, size_t len, int final)
89010ff285SAaron LI {
90010ff285SAaron LI size_t x = 0;
91010ff285SAaron LI
92010ff285SAaron LI KASSERT((!final && len > 0) || (final && len == 0),
93010ff285SAaron LI ("%s: invalid parameters", __func__));
94010ff285SAaron LI
95010ff285SAaron LI if (!final) {
96010ff285SAaron LI x = MIN(len, sizeof(ctx->buf.b64) - ctx->buflen);
97010ff285SAaron LI bcopy(*src, &ctx->buf.b8[ctx->buflen], x);
98010ff285SAaron LI ctx->buflen += x;
99010ff285SAaron LI *src += x;
100010ff285SAaron LI } else
101010ff285SAaron LI ctx->buf.b8[7] = (uint8_t)ctx->bytes;
102010ff285SAaron LI
103010ff285SAaron LI if (ctx->buflen == 8 || final) {
104010ff285SAaron LI ctx->v[3] ^= le64toh(ctx->buf.b64);
105010ff285SAaron LI SipRounds(ctx, 0);
106010ff285SAaron LI ctx->v[0] ^= le64toh(ctx->buf.b64);
107010ff285SAaron LI ctx->buf.b64 = 0;
108010ff285SAaron LI ctx->buflen = 0;
109010ff285SAaron LI }
110010ff285SAaron LI return (x);
111010ff285SAaron LI }
112010ff285SAaron LI
113010ff285SAaron LI void
SipHash_Update(SIPHASH_CTX * ctx,const void * src,size_t len)114010ff285SAaron LI SipHash_Update(SIPHASH_CTX *ctx, const void *src, size_t len)
115010ff285SAaron LI {
116010ff285SAaron LI uint64_t m;
117010ff285SAaron LI const uint64_t *p;
118010ff285SAaron LI const uint8_t *s;
119010ff285SAaron LI size_t rem;
120010ff285SAaron LI
121010ff285SAaron LI KASSERT(ctx->initialized == 2,
122010ff285SAaron LI ("%s: context %p not properly initialized", __func__, ctx));
123010ff285SAaron LI
124010ff285SAaron LI s = src;
125010ff285SAaron LI ctx->bytes += len;
126010ff285SAaron LI
127010ff285SAaron LI /*
128010ff285SAaron LI * Push length smaller than block size into buffer or
129010ff285SAaron LI * fill up the buffer if there is already something
130010ff285SAaron LI * in it.
131010ff285SAaron LI */
132010ff285SAaron LI if (ctx->buflen > 0 || len < 8)
133010ff285SAaron LI len -= SipBuf(ctx, &s, len, 0);
134010ff285SAaron LI if (len == 0)
135010ff285SAaron LI return;
136010ff285SAaron LI
137010ff285SAaron LI rem = len & 0x7;
138010ff285SAaron LI len >>= 3;
139010ff285SAaron LI
140010ff285SAaron LI /* Optimze for 64bit aligned/unaligned access. */
141010ff285SAaron LI if (((uintptr_t)s & 0x7) == 0) {
142010ff285SAaron LI for (p = (const uint64_t *)s; len > 0; len--, p++) {
143010ff285SAaron LI m = le64toh(*p);
144010ff285SAaron LI ctx->v[3] ^= m;
145010ff285SAaron LI SipRounds(ctx, 0);
146010ff285SAaron LI ctx->v[0] ^= m;
147010ff285SAaron LI }
148010ff285SAaron LI s = (const uint8_t *)p;
149010ff285SAaron LI } else {
150010ff285SAaron LI for (; len > 0; len--, s += 8) {
151010ff285SAaron LI m = le64dec(s);
152010ff285SAaron LI ctx->v[3] ^= m;
153010ff285SAaron LI SipRounds(ctx, 0);
154010ff285SAaron LI ctx->v[0] ^= m;
155010ff285SAaron LI }
156010ff285SAaron LI }
157010ff285SAaron LI
158010ff285SAaron LI /* Push remainder into buffer. */
159010ff285SAaron LI if (rem > 0)
160010ff285SAaron LI (void)SipBuf(ctx, &s, rem, 0);
161010ff285SAaron LI }
162010ff285SAaron LI
163010ff285SAaron LI void
SipHash_Final(uint8_t dst[static SIPHASH_DIGEST_LENGTH],SIPHASH_CTX * ctx)164010ff285SAaron LI SipHash_Final(uint8_t dst[static SIPHASH_DIGEST_LENGTH], SIPHASH_CTX *ctx)
165010ff285SAaron LI {
166010ff285SAaron LI uint64_t r;
167010ff285SAaron LI
168010ff285SAaron LI KASSERT(ctx->initialized == 2,
169010ff285SAaron LI ("%s: context %p not properly initialized", __func__, ctx));
170010ff285SAaron LI
171010ff285SAaron LI r = SipHash_End(ctx);
172010ff285SAaron LI le64enc(dst, r);
173010ff285SAaron LI }
174010ff285SAaron LI
175010ff285SAaron LI uint64_t
SipHash_End(SIPHASH_CTX * ctx)176010ff285SAaron LI SipHash_End(SIPHASH_CTX *ctx)
177010ff285SAaron LI {
178010ff285SAaron LI uint64_t r;
179010ff285SAaron LI
180010ff285SAaron LI KASSERT(ctx->initialized == 2,
181010ff285SAaron LI ("%s: context %p not properly initialized", __func__, ctx));
182010ff285SAaron LI
183010ff285SAaron LI SipBuf(ctx, NULL, 0, 1);
184010ff285SAaron LI ctx->v[2] ^= 0xff;
185010ff285SAaron LI SipRounds(ctx, 1);
186010ff285SAaron LI r = (ctx->v[0] ^ ctx->v[1]) ^ (ctx->v[2] ^ ctx->v[3]);
187010ff285SAaron LI
188010ff285SAaron LI bzero(ctx, sizeof(*ctx));
189010ff285SAaron LI return (r);
190010ff285SAaron LI }
191010ff285SAaron LI
192010ff285SAaron LI uint64_t
SipHashX(SIPHASH_CTX * ctx,int rc,int rf,const uint8_t key[static SIPHASH_KEY_LENGTH],const void * src,size_t len)193010ff285SAaron LI SipHashX(SIPHASH_CTX *ctx, int rc, int rf,
194010ff285SAaron LI const uint8_t key[static SIPHASH_KEY_LENGTH], const void *src, size_t len)
195010ff285SAaron LI {
196010ff285SAaron LI
197010ff285SAaron LI SipHash_InitX(ctx, rc, rf);
198010ff285SAaron LI SipHash_SetKey(ctx, key);
199010ff285SAaron LI SipHash_Update(ctx, src, len);
200010ff285SAaron LI
201010ff285SAaron LI return (SipHash_End(ctx));
202010ff285SAaron LI }
203010ff285SAaron LI
204010ff285SAaron LI #define SIP_ROTL(x, b) (uint64_t)(((x) << (b)) | ( (x) >> (64 - (b))))
205010ff285SAaron LI
206010ff285SAaron LI static void
SipRounds(SIPHASH_CTX * ctx,int final)207010ff285SAaron LI SipRounds(SIPHASH_CTX *ctx, int final)
208010ff285SAaron LI {
209010ff285SAaron LI int rounds;
210010ff285SAaron LI
211010ff285SAaron LI if (!final)
212010ff285SAaron LI rounds = ctx->rounds_compr;
213010ff285SAaron LI else
214010ff285SAaron LI rounds = ctx->rounds_final;
215010ff285SAaron LI
216010ff285SAaron LI while (rounds--) {
217010ff285SAaron LI ctx->v[0] += ctx->v[1];
218010ff285SAaron LI ctx->v[2] += ctx->v[3];
219010ff285SAaron LI ctx->v[1] = SIP_ROTL(ctx->v[1], 13);
220010ff285SAaron LI ctx->v[3] = SIP_ROTL(ctx->v[3], 16);
221010ff285SAaron LI
222010ff285SAaron LI ctx->v[1] ^= ctx->v[0];
223010ff285SAaron LI ctx->v[3] ^= ctx->v[2];
224010ff285SAaron LI ctx->v[0] = SIP_ROTL(ctx->v[0], 32);
225010ff285SAaron LI
226010ff285SAaron LI ctx->v[2] += ctx->v[1];
227010ff285SAaron LI ctx->v[0] += ctx->v[3];
228010ff285SAaron LI ctx->v[1] = SIP_ROTL(ctx->v[1], 17);
229010ff285SAaron LI ctx->v[3] = SIP_ROTL(ctx->v[3], 21);
230010ff285SAaron LI
231010ff285SAaron LI ctx->v[1] ^= ctx->v[2];
232010ff285SAaron LI ctx->v[3] ^= ctx->v[0];
233010ff285SAaron LI ctx->v[2] = SIP_ROTL(ctx->v[2], 32);
234010ff285SAaron LI }
235010ff285SAaron LI }
236