/* $Id: hamsi.c 251 2010-10-19 14:31:51Z tp $ */ /* * Hamsi implementation. * * ==========================(LICENSE BEGIN)============================ * * Copyright (c) 2007-2010 Projet RNRT SAPHIR * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * ===========================(LICENSE END)============================= * * @author Thomas Pornin */ #if SPH_SMALL_FOOTPRINT && !defined SPH_SMALL_FOOTPRINT_HAMSI #define SPH_SMALL_FOOTPRINT_HAMSI 1 #endif /* * The SPH_HAMSI_EXPAND_* define how many input bits we handle in one * table lookup during message expansion (1 to 8, inclusive). If we note * w the number of bits per message word (w=32 for Hamsi-224/256, w=64 * for Hamsi-384/512), r the size of a "row" in 32-bit words (r=8 for * Hamsi-224/256, r=16 for Hamsi-384/512), and n the expansion level, * then we will get t tables (where t=ceil(w/n)) of individual size * 2^n*r*4 (in bytes). The last table may be shorter (e.g. with w=32 and * n=5, there are 7 tables, but the last one uses only two bits on * input, not five). * * Also, we read t rows of r words from RAM. Words in a given row are * concatenated in RAM in that order, so most of the cost is about * reading the first row word; comparatively, cache misses are thus * less expensive with Hamsi-512 (r=16) than with Hamsi-256 (r=8). * * When n=1, tables are "special" in that we omit the first entry of * each table (which always contains 0), so that total table size is * halved. * * We thus have the following (size1 is the cumulative table size of * Hamsi-224/256; size2 is for Hamsi-384/512; similarly, t1 and t2 * are for Hamsi-224/256 and Hamsi-384/512, respectively). * * n size1 size2 t1 t2 * --------------------------------------- * 1 1024 4096 32 64 * 2 2048 8192 16 32 * 3 2688 10880 11 22 * 4 4096 16384 8 16 * 5 6272 25600 7 13 * 6 10368 41984 6 11 * 7 16896 73856 5 10 * 8 32768 131072 4 8 * * So there is a trade-off: a lower n makes the tables fit better in * L1 cache, but increases the number of memory accesses. The optimal * value depends on the amount of available L1 cache and the relative * impact of a cache miss. * * Experimentally, in ideal benchmark conditions (which are not necessarily * realistic with regards to L1 cache contention), it seems that n=8 is * the best value on "big" architectures (those with 32 kB or more of L1 * cache), while n=4 is better on "small" architectures. This was tested * on an Intel Core2 Q6600 (both 32-bit and 64-bit mode), a PowerPC G3 * (32 kB L1 cache, hence "big"), and a MIPS-compatible Broadcom BCM3302 * (8 kB L1 cache). * * Note: with n=1, the 32 tables (actually implemented as one big table) * are read entirely and sequentially, regardless of the input data, * thus avoiding any data-dependent table access pattern. */ #if !defined SPH_HAMSI_EXPAND_SMALL #if SPH_SMALL_FOOTPRINT_HAMSI #define SPH_HAMSI_EXPAND_SMALL 4 #else #define SPH_HAMSI_EXPAND_SMALL 8 #endif #endif #if !defined SPH_HAMSI_EXPAND_BIG #define SPH_HAMSI_EXPAND_BIG 8 #endif #ifdef _MSC_VER #pragma warning (disable: 4146) #endif #include "hamsi_helper_old.cl" __constant static const sph_u32 HAMSI_IV224[] = { SPH_C32(0xc3967a67), SPH_C32(0xc3bc6c20), SPH_C32(0x4bc3bcc3), SPH_C32(0xa7c3bc6b), SPH_C32(0x2c204b61), SPH_C32(0x74686f6c), SPH_C32(0x69656b65), SPH_C32(0x20556e69) }; /* * This version is the one used in the Hamsi submission package for * round 2 of the SHA-3 competition; the UTF-8 encoding is wrong and * shall soon be corrected in the official Hamsi specification. * __constant static const sph_u32 HAMSI_IV224[] = { SPH_C32(0x3c967a67), SPH_C32(0x3cbc6c20), SPH_C32(0xb4c343c3), SPH_C32(0xa73cbc6b), SPH_C32(0x2c204b61), SPH_C32(0x74686f6c), SPH_C32(0x69656b65), SPH_C32(0x20556e69) }; */ __constant static const sph_u32 HAMSI_IV256[] = { SPH_C32(0x76657273), SPH_C32(0x69746569), SPH_C32(0x74204c65), SPH_C32(0x7576656e), SPH_C32(0x2c204465), SPH_C32(0x70617274), SPH_C32(0x656d656e), SPH_C32(0x7420456c) }; __constant static const sph_u32 HAMSI_IV384[] = { SPH_C32(0x656b7472), SPH_C32(0x6f746563), SPH_C32(0x686e6965), SPH_C32(0x6b2c2043), SPH_C32(0x6f6d7075), SPH_C32(0x74657220), SPH_C32(0x53656375), SPH_C32(0x72697479), SPH_C32(0x20616e64), SPH_C32(0x20496e64), SPH_C32(0x75737472), SPH_C32(0x69616c20), SPH_C32(0x43727970), SPH_C32(0x746f6772), SPH_C32(0x61706879), SPH_C32(0x2c204b61) }; __constant static const sph_u32 HAMSI_IV512[] = { SPH_C32(0x73746565), SPH_C32(0x6c706172), SPH_C32(0x6b204172), SPH_C32(0x656e6265), SPH_C32(0x72672031), SPH_C32(0x302c2062), SPH_C32(0x75732032), SPH_C32(0x3434362c), SPH_C32(0x20422d33), SPH_C32(0x30303120), SPH_C32(0x4c657576), SPH_C32(0x656e2d48), SPH_C32(0x65766572), SPH_C32(0x6c65652c), SPH_C32(0x2042656c), SPH_C32(0x6769756d) }; __constant static const sph_u32 alpha_n[] = { SPH_C32(0xff00f0f0), SPH_C32(0xccccaaaa), SPH_C32(0xf0f0cccc), SPH_C32(0xff00aaaa), SPH_C32(0xccccaaaa), SPH_C32(0xf0f0ff00), SPH_C32(0xaaaacccc), SPH_C32(0xf0f0ff00), SPH_C32(0xf0f0cccc), SPH_C32(0xaaaaff00), SPH_C32(0xccccff00), SPH_C32(0xaaaaf0f0), SPH_C32(0xaaaaf0f0), SPH_C32(0xff00cccc), SPH_C32(0xccccf0f0), SPH_C32(0xff00aaaa), SPH_C32(0xccccaaaa), SPH_C32(0xff00f0f0), SPH_C32(0xff00aaaa), SPH_C32(0xf0f0cccc), SPH_C32(0xf0f0ff00), SPH_C32(0xccccaaaa), SPH_C32(0xf0f0ff00), SPH_C32(0xaaaacccc), SPH_C32(0xaaaaff00), SPH_C32(0xf0f0cccc), SPH_C32(0xaaaaf0f0), SPH_C32(0xccccff00), SPH_C32(0xff00cccc), SPH_C32(0xaaaaf0f0), SPH_C32(0xff00aaaa), SPH_C32(0xccccf0f0) }; __constant static const sph_u32 alpha_f[] = { SPH_C32(0xcaf9639c), SPH_C32(0x0ff0f9c0), SPH_C32(0x639c0ff0), SPH_C32(0xcaf9f9c0), SPH_C32(0x0ff0f9c0), SPH_C32(0x639ccaf9), SPH_C32(0xf9c00ff0), SPH_C32(0x639ccaf9), SPH_C32(0x639c0ff0), SPH_C32(0xf9c0caf9), SPH_C32(0x0ff0caf9), SPH_C32(0xf9c0639c), SPH_C32(0xf9c0639c), SPH_C32(0xcaf90ff0), SPH_C32(0x0ff0639c), SPH_C32(0xcaf9f9c0), SPH_C32(0x0ff0f9c0), SPH_C32(0xcaf9639c), SPH_C32(0xcaf9f9c0), SPH_C32(0x639c0ff0), SPH_C32(0x639ccaf9), SPH_C32(0x0ff0f9c0), SPH_C32(0x639ccaf9), SPH_C32(0xf9c00ff0), SPH_C32(0xf9c0caf9), SPH_C32(0x639c0ff0), SPH_C32(0xf9c0639c), SPH_C32(0x0ff0caf9), SPH_C32(0xcaf90ff0), SPH_C32(0xf9c0639c), SPH_C32(0xcaf9f9c0), SPH_C32(0x0ff0639c) }; #define HAMSI_DECL_STATE_SMALL \ sph_u32 c0, c1, c2, c3, c4, c5, c6, c7; #define HAMSI_READ_STATE_SMALL(sc) do { \ c0 = h[0x0]; \ c1 = h[0x1]; \ c2 = h[0x2]; \ c3 = h[0x3]; \ c4 = h[0x4]; \ c5 = h[0x5]; \ c6 = h[0x6]; \ c7 = h[0x7]; \ } while (0) #define HAMSI_WRITE_STATE_SMALL(sc) do { \ h[0x0] = c0; \ h[0x1] = c1; \ h[0x2] = c2; \ h[0x3] = c3; \ h[0x4] = c4; \ h[0x5] = c5; \ h[0x6] = c6; \ h[0x7] = c7; \ } while (0) #define hamsi_s0 m0 #define hamsi_s1 m1 #define hamsi_s2 c0 #define hamsi_s3 c1 #define hamsi_s4 c2 #define hamsi_s5 c3 #define hamsi_s6 m2 #define hamsi_s7 m3 #define hamsi_s8 m4 #define hamsi_s9 m5 #define hamsi_sA c4 #define hamsi_sB c5 #define hamsi_sC c6 #define hamsi_sD c7 #define hamsi_sE m6 #define hamsi_sF m7 #define SBOX(a, b, c, d) do { \ sph_u32 t; \ t = (a); \ (a) &= (c); \ (a) ^= (d); \ (c) ^= (b); \ (c) ^= (a); \ (d) |= t; \ (d) ^= (b); \ t ^= (c); \ (b) = (d); \ (d) |= t; \ (d) ^= (a); \ (a) &= (b); \ t ^= (a); \ (b) ^= (d); \ (b) ^= t; \ (a) = (c); \ (c) = (b); \ (b) = (d); \ (d) = SPH_T32(~t); \ } while (0) #define HAMSI_L(a, b, c, d) do { \ (a) = SPH_ROTL32(a, 13); \ (c) = SPH_ROTL32(c, 3); \ (b) ^= (a) ^ (c); \ (d) ^= (c) ^ SPH_T32((a) << 3); \ (b) = SPH_ROTL32(b, 1); \ (d) = SPH_ROTL32(d, 7); \ (a) ^= (b) ^ (d); \ (c) ^= (d) ^ SPH_T32((b) << 7); \ (a) = SPH_ROTL32(a, 5); \ (c) = SPH_ROTL32(c, 22); \ } while (0) #define ROUND_SMALL(rc, alpha) do { \ hamsi_s0 ^= alpha[0x00]; \ hamsi_s1 ^= alpha[0x01] ^ (sph_u32)(rc); \ hamsi_s2 ^= alpha[0x02]; \ hamsi_s3 ^= alpha[0x03]; \ hamsi_s4 ^= alpha[0x08]; \ hamsi_s5 ^= alpha[0x09]; \ hamsi_s6 ^= alpha[0x0A]; \ hamsi_s7 ^= alpha[0x0B]; \ hamsi_s8 ^= alpha[0x10]; \ hamsi_s9 ^= alpha[0x11]; \ hamsi_sA ^= alpha[0x12]; \ hamsi_sB ^= alpha[0x13]; \ hamsi_sC ^= alpha[0x18]; \ hamsi_sD ^= alpha[0x19]; \ hamsi_sE ^= alpha[0x1A]; \ hamsi_sF ^= alpha[0x1B]; \ SBOX(hamsi_s0, hamsi_s4, hamsi_s8, hamsi_sC); \ SBOX(hamsi_s1, hamsi_s5, hamsi_s9, hamsi_sD); \ SBOX(hamsi_s2, hamsi_s6, hamsi_sA, hamsi_sE); \ SBOX(hamsi_s3, hamsi_s7, hamsi_sB, hamsi_sF); \ HAMSI_L(hamsi_s0, hamsi_s5, hamsi_sA, hamsi_sF); \ HAMSI_L(hamsi_s1, hamsi_s6, hamsi_sB, hamsi_sC); \ HAMSI_L(hamsi_s2, hamsi_s7, hamsi_s8, hamsi_sD); \ HAMSI_L(hamsi_s3, hamsi_s4, hamsi_s9, hamsi_sE); \ } while (0) #define P_SMALL do { \ ROUND_SMALL(0, alpha_n); \ ROUND_SMALL(1, alpha_n); \ ROUND_SMALL(2, alpha_n); \ } while (0) #define PF_SMALL do { \ ROUND_SMALL(0, alpha_f); \ ROUND_SMALL(1, alpha_f); \ ROUND_SMALL(2, alpha_f); \ ROUND_SMALL(3, alpha_f); \ ROUND_SMALL(4, alpha_f); \ ROUND_SMALL(5, alpha_f); \ } while (0) #define T_SMALL do { \ /* order is important */ \ c7 = (h[7] ^= hamsi_sB); \ c6 = (h[6] ^= hamsi_sA); \ c5 = (h[5] ^= hamsi_s9); \ c4 = (h[4] ^= hamsi_s8); \ c3 = (h[3] ^= hamsi_s3); \ c2 = (h[2] ^= hamsi_s2); \ c1 = (h[1] ^= hamsi_s1); \ c0 = (h[0] ^= hamsi_s0); \ } while (0) #define hamsi_s00 m0 #define hamsi_s01 m1 #define hamsi_s02 c0 #define hamsi_s03 c1 #define hamsi_s04 m2 #define hamsi_s05 m3 #define hamsi_s06 c2 #define hamsi_s07 c3 #define hamsi_s08 c4 #define hamsi_s09 c5 #define hamsi_s0A m4 #define hamsi_s0B m5 #define hamsi_s0C c6 #define hamsi_s0D c7 #define hamsi_s0E m6 #define hamsi_s0F m7 #define hamsi_s10 m8 #define hamsi_s11 m9 #define hamsi_s12 c8 #define hamsi_s13 c9 #define hamsi_s14 mA #define hamsi_s15 mB #define hamsi_s16 cA #define hamsi_s17 cB #define hamsi_s18 cC #define hamsi_s19 cD #define hamsi_s1A mC #define hamsi_s1B mD #define hamsi_s1C cE #define hamsi_s1D cF #define hamsi_s1E mE #define hamsi_s1F mF #define ROUND_BIG(rc, alpha) do { \ hamsi_s00 ^= alpha[0x00]; \ hamsi_s01 ^= alpha[0x01] ^ (sph_u32)(rc); \ hamsi_s02 ^= alpha[0x02]; \ hamsi_s03 ^= alpha[0x03]; \ hamsi_s04 ^= alpha[0x04]; \ hamsi_s05 ^= alpha[0x05]; \ hamsi_s06 ^= alpha[0x06]; \ hamsi_s07 ^= alpha[0x07]; \ hamsi_s08 ^= alpha[0x08]; \ hamsi_s09 ^= alpha[0x09]; \ hamsi_s0A ^= alpha[0x0A]; \ hamsi_s0B ^= alpha[0x0B]; \ hamsi_s0C ^= alpha[0x0C]; \ hamsi_s0D ^= alpha[0x0D]; \ hamsi_s0E ^= alpha[0x0E]; \ hamsi_s0F ^= alpha[0x0F]; \ hamsi_s10 ^= alpha[0x10]; \ hamsi_s11 ^= alpha[0x11]; \ hamsi_s12 ^= alpha[0x12]; \ hamsi_s13 ^= alpha[0x13]; \ hamsi_s14 ^= alpha[0x14]; \ hamsi_s15 ^= alpha[0x15]; \ hamsi_s16 ^= alpha[0x16]; \ hamsi_s17 ^= alpha[0x17]; \ hamsi_s18 ^= alpha[0x18]; \ hamsi_s19 ^= alpha[0x19]; \ hamsi_s1A ^= alpha[0x1A]; \ hamsi_s1B ^= alpha[0x1B]; \ hamsi_s1C ^= alpha[0x1C]; \ hamsi_s1D ^= alpha[0x1D]; \ hamsi_s1E ^= alpha[0x1E]; \ hamsi_s1F ^= alpha[0x1F]; \ SBOX(hamsi_s00, hamsi_s08, hamsi_s10, hamsi_s18); \ SBOX(hamsi_s01, hamsi_s09, hamsi_s11, hamsi_s19); \ SBOX(hamsi_s02, hamsi_s0A, hamsi_s12, hamsi_s1A); \ SBOX(hamsi_s03, hamsi_s0B, hamsi_s13, hamsi_s1B); \ SBOX(hamsi_s04, hamsi_s0C, hamsi_s14, hamsi_s1C); \ SBOX(hamsi_s05, hamsi_s0D, hamsi_s15, hamsi_s1D); \ SBOX(hamsi_s06, hamsi_s0E, hamsi_s16, hamsi_s1E); \ SBOX(hamsi_s07, hamsi_s0F, hamsi_s17, hamsi_s1F); \ HAMSI_L(hamsi_s00, hamsi_s09, hamsi_s12, hamsi_s1B); \ HAMSI_L(hamsi_s01, hamsi_s0A, hamsi_s13, hamsi_s1C); \ HAMSI_L(hamsi_s02, hamsi_s0B, hamsi_s14, hamsi_s1D); \ HAMSI_L(hamsi_s03, hamsi_s0C, hamsi_s15, hamsi_s1E); \ HAMSI_L(hamsi_s04, hamsi_s0D, hamsi_s16, hamsi_s1F); \ HAMSI_L(hamsi_s05, hamsi_s0E, hamsi_s17, hamsi_s18); \ HAMSI_L(hamsi_s06, hamsi_s0F, hamsi_s10, hamsi_s19); \ HAMSI_L(hamsi_s07, hamsi_s08, hamsi_s11, hamsi_s1A); \ HAMSI_L(hamsi_s00, hamsi_s02, hamsi_s05, hamsi_s07); \ HAMSI_L(hamsi_s10, hamsi_s13, hamsi_s15, hamsi_s16); \ HAMSI_L(hamsi_s09, hamsi_s0B, hamsi_s0C, hamsi_s0E); \ HAMSI_L(hamsi_s19, hamsi_s1A, hamsi_s1C, hamsi_s1F); \ } while (0) #define P_BIG do { \ ROUND_BIG(0, alpha_n); \ ROUND_BIG(1, alpha_n); \ ROUND_BIG(2, alpha_n); \ ROUND_BIG(3, alpha_n); \ ROUND_BIG(4, alpha_n); \ ROUND_BIG(5, alpha_n); \ } while (0) #define PF_BIG do { \ ROUND_BIG(0, alpha_f); \ ROUND_BIG(1, alpha_f); \ ROUND_BIG(2, alpha_f); \ ROUND_BIG(3, alpha_f); \ ROUND_BIG(4, alpha_f); \ ROUND_BIG(5, alpha_f); \ ROUND_BIG(6, alpha_f); \ ROUND_BIG(7, alpha_f); \ ROUND_BIG(8, alpha_f); \ ROUND_BIG(9, alpha_f); \ ROUND_BIG(10, alpha_f); \ ROUND_BIG(11, alpha_f); \ } while (0) #define T_BIG do { \ /* order is important */ \ cF = (h[0xF] ^= hamsi_s17); \ cE = (h[0xE] ^= hamsi_s16); \ cD = (h[0xD] ^= hamsi_s15); \ cC = (h[0xC] ^= hamsi_s14); \ cB = (h[0xB] ^= hamsi_s13); \ cA = (h[0xA] ^= hamsi_s12); \ c9 = (h[0x9] ^= hamsi_s11); \ c8 = (h[0x8] ^= hamsi_s10); \ c7 = (h[0x7] ^= hamsi_s07); \ c6 = (h[0x6] ^= hamsi_s06); \ c5 = (h[0x5] ^= hamsi_s05); \ c4 = (h[0x4] ^= hamsi_s04); \ c3 = (h[0x3] ^= hamsi_s03); \ c2 = (h[0x2] ^= hamsi_s02); \ c1 = (h[0x1] ^= hamsi_s01); \ c0 = (h[0x0] ^= hamsi_s00); \ } while (0)