/* SPDX-License-Identifier: Apache-2.0 * Copyright(c) 2021 Cisco Systems, Inc. */ #ifndef included_vector_toeplitz_h #define included_vector_toeplitz_h #include typedef struct { u16 key_length; u16 gfni_offset; u8 data[]; } clib_toeplitz_hash_key_t; clib_toeplitz_hash_key_t *clib_toeplitz_hash_key_init (u8 *key, u32 keylen); void clib_toeplitz_hash_key_free (clib_toeplitz_hash_key_t *k); #ifdef CLIB_HAVE_VEC256 static_always_inline u32x8 toeplitz_hash_one_x8 (u32x8 hash, u64x4 v4, u8 data, u8 off) { u32x8 v8 = u32x8_shuffle2 (v4 << (off * 8), v4 << (off * 8 + 4), /*uppper 32 bits of each u64 in reverse order */ 15, 13, 11, 9, 7, 5, 3, 1); #ifdef CLIB_HAVE_VEC256_MASK_BITWISE_OPS return u32x8_mask_xor (hash, v8, data); #else static const u32x8 bits = { 1, 2, 4, 8, 16, 32, 64, 128 }; return hash ^ (((u32x8_splat (data) & bits) != u32x8_zero ()) & v8); #endif } #endif #if defined(__GFNI__) && defined(__AVX512F__) static const u8x64 __clib_toeplitz_hash_gfni_permute = { /* clang-format off */ 0x00, 0x01, 0x02, 0x03, 0x40, 0x41, 0x42, 0x43, 0x01, 0x02, 0x03, 0x04, 0x41, 0x42, 0x43, 0x44, 0x02, 0x03, 0x04, 0x05, 0x42, 0x43, 0x44, 0x45, 0x03, 0x04, 0x05, 0x06, 0x43, 0x44, 0x45, 0x46, 0x04, 0x05, 0x06, 0x07, 0x44, 0x45, 0x46, 0x47, 0x05, 0x06, 0x07, 0x08, 0x45, 0x46, 0x47, 0x48, 0x06, 0x07, 0x08, 0x09, 0x46, 0x47, 0x48, 0x49, 0x07, 0x08, 0x09, 0x0a, 0x47, 0x48, 0x49, 0x4a /* clang-format on */ }; static_always_inline u64x8 clib_toeplitz_hash_gfni_one (u8x64 d0, u64x8 m, int i) { d0 = i == 1 ? (u8x64) u64x8_align_right (d0, d0, 1) : d0; d0 = i == 2 ? (u8x64) u64x8_align_right (d0, d0, 2) : d0; d0 = i == 3 ? (u8x64) u64x8_align_right (d0, d0, 3) : d0; d0 = i == 4 ? (u8x64) u64x8_align_right (d0, d0, 4) : d0; d0 = i == 5 ? (u8x64) u64x8_align_right (d0, d0, 5) : d0; d0 = i == 6 ? (u8x64) u64x8_align_right (d0, d0, 6) : d0; d0 = u8x64_permute (__clib_toeplitz_hash_gfni_permute, d0); return (u64x8) _mm512_gf2p8affine_epi64_epi8 ((__m512i) d0, (__m512i) m, 0); } static_always_inline u64x8 clib_toeplitz_hash_gfni_two (u8x64 d0, u8x64 d1, u64x8 m, int i) { d0 = i == 1 ? (u8x64) u64x8_align_right (d0, d0, 1) : d0; d1 = i == 1 ? (u8x64) u64x8_align_right (d1, d1, 1) : d1; d0 = i == 2 ? (u8x64) u64x8_align_right (d0, d0, 2) : d0; d1 = i == 2 ? (u8x64) u64x8_align_right (d1, d1, 2) : d1; d0 = i == 3 ? (u8x64) u64x8_align_right (d0, d0, 3) : d0; d1 = i == 3 ? (u8x64) u64x8_align_right (d1, d1, 3) : d1; d0 = i == 4 ? (u8x64) u64x8_align_right (d0, d0, 4) : d0; d1 = i == 4 ? (u8x64) u64x8_align_right (d1, d1, 4) : d1; d0 = i == 5 ? (u8x64) u64x8_align_right (d0, d0, 5) : d0; d1 = i == 5 ? (u8x64) u64x8_align_right (d1, d1, 5) : d1; d0 = i == 6 ? (u8x64) u64x8_align_right (d0, d0, 6) : d0; d1 = i == 6 ? (u8x64) u64x8_align_right (d1, d1, 6) : d1; d0 = u8x64_permute2 (__clib_toeplitz_hash_gfni_permute, d0, d1); return (u64x8) _mm512_gf2p8affine_epi64_epi8 ((__m512i) d0, (__m512i) m, 0); } #endif static_always_inline u32 clib_toeplitz_hash (clib_toeplitz_hash_key_t *k, u8 *data, int n_bytes) { u8 *key = k->data; /* key must be 4 bytes longer than data */ ASSERT (k->key_length - n_bytes >= 4); #if defined(__GFNI__) && defined(__AVX512F__) u8x64 d0; u64x8 h0 = {}; u64x8u *m = (u64x8u *) ((u8 *) k + k->gfni_offset); /* move data ptr backwards for 3 byte so mask load "prepends" three zeros */ data -= 3; n_bytes += 3; if (n_bytes < 64) { d0 = u8x64_mask_load_zero ((u8 *) data, pow2_mask (n_bytes - 3) << 3); goto last8; } d0 = u8x64_mask_load_zero ((u8 *) data, -1ULL << 3); next56: h0 = u64x8_xor3 (h0, clib_toeplitz_hash_gfni_one (d0, m[0], 0), clib_toeplitz_hash_gfni_one (d0, m[1], 1)); h0 = u64x8_xor3 (h0, clib_toeplitz_hash_gfni_one (d0, m[2], 2), clib_toeplitz_hash_gfni_one (d0, m[3], 3)); h0 = u64x8_xor3 (h0, clib_toeplitz_hash_gfni_one (d0, m[4], 4), clib_toeplitz_hash_gfni_one (d0, m[5], 5)); h0 ^= clib_toeplitz_hash_gfni_one (d0, m[6], 6); n_bytes -= 56; data += 56; m += 7; if (n_bytes >= 64) { d0 = *(u8x64u *) data; goto next56; } if (n_bytes == 0) goto done; d0 = u8x64_mask_load_zero ((u8 *) data, pow2_mask (n_bytes)); last8: h0 ^= clib_toeplitz_hash_gfni_one (d0, m[0], 0); n_bytes -= 8; if (n_bytes > 0) { m += 1; d0 = (u8x64) u64x8_align_right (u64x8_zero (), d0, 1); goto last8; } done: return u64x8_hxor (h0); #elif defined(CLIB_HAVE_VEC256) u64x4 v4, shift = { 0, 1, 2, 3 }; u32x8 h0 = {}; while (n_bytes >= 4) { v4 = u64x4_splat (clib_net_to_host_u64 (*(u64u *) key)) << shift; h0 = toeplitz_hash_one_x8 (h0, v4, data[0], 0); h0 = toeplitz_hash_one_x8 (h0, v4, data[1], 1); h0 = toeplitz_hash_one_x8 (h0, v4, data[2], 2); h0 = toeplitz_hash_one_x8 (h0, v4, data[3], 3); data += 4; key += 4; n_bytes -= 4; } if (n_bytes) { u64 v = (u64) clib_net_to_host_u32 ((u64) (*(u32u *) key)) << 32; v |= (u64) key[4] << 24; if (n_bytes == 3) { v |= (u64) key[5] << 16; v |= (u64) key[6] << 8; v4 = u64x4_splat (v) << shift; h0 = toeplitz_hash_one_x8 (h0, v4, data[0], 0); h0 = toeplitz_hash_one_x8 (h0, v4, data[1], 1); h0 = toeplitz_hash_one_x8 (h0, v4, data[2], 2); } else if (n_bytes == 2) { v |= (u64) key[5] << 16; v4 = u64x4_splat (v) << shift; h0 = toeplitz_hash_one_x8 (h0, v4, data[0], 0); h0 = toeplitz_hash_one_x8 (h0, v4, data[1], 1); } else { v4 = u64x4_splat (v) << shift; h0 = toeplitz_hash_one_x8 (h0, v4, data[0], 0); } } return u32x8_hxor (h0); #endif u64 v, hash = 0; while (n_bytes >= 4) { v = clib_net_to_host_u64 (*(u64u *) key); for (u8 bit = 1 << 7, byte = data[0]; bit; bit >>= 1, v <<= 1) hash ^= byte & bit ? v : 0; for (u8 bit = 1 << 7, byte = data[1]; bit; bit >>= 1, v <<= 1) hash ^= byte & bit ? v : 0; for (u8 bit = 1 << 7, byte = data[2]; bit; bit >>= 1, v <<= 1) hash ^= byte & bit ? v : 0; for (u8 bit = 1 << 7, byte = data[3]; bit; bit >>= 1, v <<= 1) hash ^= byte & bit ? v : 0; data += 4; key += 4; n_bytes -= 4; } if (n_bytes) { v = (u64) clib_net_to_host_u32 ((u64) (*(u32u *) key)) << 32; v |= (u64) key[4] << 24; for (u8 bit = 1 << 7, byte = data[0]; bit; bit >>= 1, v <<= 1) hash ^= byte & bit ? v : 0; if (n_bytes > 1) { v |= (u64) key[5] << 24; for (u8 bit = 1 << 7, byte = data[1]; bit; bit >>= 1, v <<= 1) hash ^= byte & bit ? v : 0; } if (n_bytes > 2) { v |= (u64) key[6] << 24; for (u8 bit = 1 << 7, byte = data[2]; bit; bit >>= 1, v <<= 1) hash ^= byte & bit ? v : 0; } } return hash >> 32; } static_always_inline void clib_toeplitz_hash_x4 (clib_toeplitz_hash_key_t *k, u8 *data0, u8 *data1, u8 *data2, u8 *data3, u32 *hash0, u32 *hash1, u32 *hash2, u32 *hash3, int n_bytes) { /* key must be 4 bytes longer than data */ ASSERT (k->key_length - n_bytes >= 4); #if defined(__GFNI__) && defined(__AVX512F__) u64x8u *m = (u64x8u *) ((u8 *) k + k->gfni_offset); u8x64 d0, d1, d2, d3; u64x8 h0 = {}, h2 = {}; u64 h, mask; /* move data ptr backwards for 3 byte so mask load "prepends" three zeros */ data0 -= 3; data1 -= 3; data2 -= 3; data3 -= 3; n_bytes += 3; if (n_bytes < 64) { mask = pow2_mask (n_bytes - 3) << 3; d0 = u8x64_mask_load_zero ((u8 *) data0, mask); d1 = u8x64_mask_load_zero ((u8 *) data1, mask); d2 = u8x64_mask_load_zero ((u8 *) data2, mask); d3 = u8x64_mask_load_zero ((u8 *) data3, mask); goto last8; } mask = -1ULL << 3; d0 = u8x64_mask_load_zero ((u8 *) data0, mask); d1 = u8x64_mask_load_zero ((u8 *) data1, mask); d2 = u8x64_mask_load_zero ((u8 *) data2, mask); d3 = u8x64_mask_load_zero ((u8 *) data3, mask); next56: h0 = u64x8_xor3 (h0, clib_toeplitz_hash_gfni_two (d0, d1, m[0], 0), clib_toeplitz_hash_gfni_two (d0, d1, m[1], 1)); h2 = u64x8_xor3 (h2, clib_toeplitz_hash_gfni_two (d2, d3, m[0], 0), clib_toeplitz_hash_gfni_two (d2, d3, m[1], 1)); h0 = u64x8_xor3 (h0, clib_toeplitz_hash_gfni_two (d0, d1, m[2], 2), clib_toeplitz_hash_gfni_two (d0, d1, m[3], 3)); h2 = u64x8_xor3 (h2, clib_toeplitz_hash_gfni_two (d2, d3, m[2], 2), clib_toeplitz_hash_gfni_two (d2, d3, m[3], 3)); h0 = u64x8_xor3 (h0, clib_toeplitz_hash_gfni_two (d0, d1, m[4], 4), clib_toeplitz_hash_gfni_two (d0, d1, m[5], 5)); h2 = u64x8_xor3 (h2, clib_toeplitz_hash_gfni_two (d2, d3, m[4], 4), clib_toeplitz_hash_gfni_two (d2, d3, m[5], 5)); h0 ^= clib_toeplitz_hash_gfni_two (d0, d1, m[6], 6); h2 ^= clib_toeplitz_hash_gfni_two (d2, d3, m[6], 6); n_bytes -= 56; data0 += 56; data1 += 56; data2 += 56; data3 += 56; m += 7; if (n_bytes >= 64) { d0 = *(u8x64u *) data0; d1 = *(u8x64u *) data1; d2 = *(u8x64u *) data2; d3 = *(u8x64u *) data3; goto next56; } if (n_bytes == 0) goto done; mask = pow2_mask (n_bytes); d0 = u8x64_mask_load_zero ((u8 *) data0, mask); d1 = u8x64_mask_load_zero ((u8 *) data1, mask); d2 = u8x64_mask_load_zero ((u8 *) data2, mask); d3 = u8x64_mask_load_zero ((u8 *) data3, mask); last8: h0 ^= clib_toeplitz_hash_gfni_two (d0, d1, m[0], 0); h2 ^= clib_toeplitz_hash_gfni_two (d2, d3, m[0], 0); n_bytes -= 8; if (n_bytes > 0) { u64x8 zero = {}; m += 1; d0 = (u8x64) u64x8_align_right (zero, d0, 1); d1 = (u8x64) u64x8_align_right (zero, d1, 1); d2 = (u8x64) u64x8_align_right (zero, d2, 1); d3 = (u8x64) u64x8_align_right (zero, d3, 1); goto last8; } done: h = u64x8_hxor (h0); *hash0 = h; *hash1 = h >> 32; h = u64x8_hxor (h2); *hash2 = h; *hash3 = h >> 32; #elif defined(CLIB_HAVE_VEC256) u8 *key = k->data; u64x4 v4, shift = { 0, 1, 2, 3 }; u32x8 h0 = {}, h1 = {}, h2 = {}, h3 = {}; while (n_bytes >= 4) { v4 = u64x4_splat (clib_net_to_host_u64 (*(u64u *) key)) << shift; h0 = toeplitz_hash_one_x8 (h0, v4, data0[0], 0); h1 = toeplitz_hash_one_x8 (h1, v4, data1[0], 0); h2 = toeplitz_hash_one_x8 (h2, v4, data2[0], 0); h3 = toeplitz_hash_one_x8 (h3, v4, data3[0], 0); h0 = toeplitz_hash_one_x8 (h0, v4, data0[1], 1); h1 = toeplitz_hash_one_x8 (h1, v4, data1[1], 1); h2 = toeplitz_hash_one_x8 (h2, v4, data2[1], 1); h3 = toeplitz_hash_one_x8 (h3, v4, data3[1], 1); h0 = toeplitz_hash_one_x8 (h0, v4, data0[2], 2); h1 = toeplitz_hash_one_x8 (h1, v4, data1[2], 2); h2 = toeplitz_hash_one_x8 (h2, v4, data2[2], 2); h3 = toeplitz_hash_one_x8 (h3, v4, data3[2], 2); h0 = toeplitz_hash_one_x8 (h0, v4, data0[3], 3); h1 = toeplitz_hash_one_x8 (h1, v4, data1[3], 3); h2 = toeplitz_hash_one_x8 (h2, v4, data2[3], 3); h3 = toeplitz_hash_one_x8 (h3, v4, data3[3], 3); data0 += 4; data1 += 4; data2 += 4; data3 += 4; key += 4; n_bytes -= 4; } if (n_bytes) { u64 v = (u64) clib_net_to_host_u32 ((u64) (*(u32u *) key)) << 32; v |= (u64) key[4] << 24; if (n_bytes == 3) { v |= (u64) key[5] << 16; v |= (u64) key[6] << 8; v4 = u64x4_splat (v) << shift; h0 = toeplitz_hash_one_x8 (h0, v4, data0[0], 0); h1 = toeplitz_hash_one_x8 (h1, v4, data1[0], 0); h2 = toeplitz_hash_one_x8 (h2, v4, data2[0], 0); h3 = toeplitz_hash_one_x8 (h3, v4, data3[0], 0); h0 = toeplitz_hash_one_x8 (h0, v4, data0[1], 1); h1 = toeplitz_hash_one_x8 (h1, v4, data1[1], 1); h2 = toeplitz_hash_one_x8 (h2, v4, data2[1], 1); h3 = toeplitz_hash_one_x8 (h3, v4, data3[1], 1); h0 = toeplitz_hash_one_x8 (h0, v4, data0[2], 2); h1 = toeplitz_hash_one_x8 (h1, v4, data1[2], 2); h2 = toeplitz_hash_one_x8 (h2, v4, data2[2], 2); h3 = toeplitz_hash_one_x8 (h3, v4, data3[2], 2); } else if (n_bytes == 2) { v |= (u64) key[5] << 16; v4 = u64x4_splat (v) << shift; h0 = toeplitz_hash_one_x8 (h0, v4, data0[0], 0); h1 = toeplitz_hash_one_x8 (h1, v4, data1[0], 0); h2 = toeplitz_hash_one_x8 (h2, v4, data2[0], 0); h3 = toeplitz_hash_one_x8 (h3, v4, data3[0], 0); h0 = toeplitz_hash_one_x8 (h0, v4, data0[1], 1); h1 = toeplitz_hash_one_x8 (h1, v4, data1[1], 1); h2 = toeplitz_hash_one_x8 (h2, v4, data2[1], 1); h3 = toeplitz_hash_one_x8 (h3, v4, data3[1], 1); } else { v4 = u64x4_splat (v) << shift; h0 = toeplitz_hash_one_x8 (h0, v4, data0[0], 0); h1 = toeplitz_hash_one_x8 (h1, v4, data1[0], 0); h2 = toeplitz_hash_one_x8 (h2, v4, data2[0], 0); h3 = toeplitz_hash_one_x8 (h3, v4, data3[0], 0); } } *hash0 = u32x8_hxor (h0); *hash1 = u32x8_hxor (h1); *hash2 = u32x8_hxor (h2); *hash3 = u32x8_hxor (h3); #else u8 *key = k->data; u64 v, h0 = 0, h1 = 0, h2 = 0, h3 = 0; while (n_bytes >= 4) { v = clib_net_to_host_u64 (*(u64u *) key); for (u8 bit = 1 << 7; bit; bit >>= 1, v <<= 1) { h0 ^= data0[0] & bit ? v : 0; h1 ^= data1[0] & bit ? v : 0; h2 ^= data2[0] & bit ? v : 0; h3 ^= data3[0] & bit ? v : 0; } for (u8 bit = 1 << 7; bit; bit >>= 1, v <<= 1) { h0 ^= data0[1] & bit ? v : 0; h1 ^= data1[1] & bit ? v : 0; h2 ^= data2[1] & bit ? v : 0; h3 ^= data3[1] & bit ? v : 0; } for (u8 bit = 1 << 7; bit; bit >>= 1, v <<= 1) { h0 ^= data0[2] & bit ? v : 0; h1 ^= data1[2] & bit ? v : 0; h2 ^= data2[2] & bit ? v : 0; h3 ^= data3[2] & bit ? v : 0; } for (u8 bit = 1 << 7; bit; bit >>= 1, v <<= 1) { h0 ^= data0[3] & bit ? v : 0; h1 ^= data1[3] & bit ? v : 0; h2 ^= data2[3] & bit ? v : 0; h3 ^= data3[3] & bit ? v : 0; } data0 += 4; data1 += 4; data2 += 4; data3 += 4; key += 4; n_bytes -= 4; } if (n_bytes) { v = (u64) clib_net_to_host_u32 ((u64) (*(u32u *) key)) << 32; v |= (u64) key[4] << 24; for (u8 bit = 1 << 7; bit; bit >>= 1, v <<= 1) { h0 ^= data0[0] & bit ? v : 0; h1 ^= data1[0] & bit ? v : 0; h2 ^= data2[0] & bit ? v : 0; h3 ^= data3[0] & bit ? v : 0; } if (n_bytes > 1) { v |= (u64) key[5] << 24; for (u8 bit = 1 << 7; bit; bit >>= 1, v <<= 1) { h0 ^= data0[1] & bit ? v : 0; h1 ^= data1[1] & bit ? v : 0; h2 ^= data2[1] & bit ? v : 0; h3 ^= data3[1] & bit ? v : 0; } } if (n_bytes > 2) { v |= (u64) key[6] << 24; for (u8 bit = 1 << 7; bit; bit >>= 1, v <<= 1) { h0 ^= data0[2] & bit ? v : 0; h1 ^= data1[2] & bit ? v : 0; h2 ^= data2[2] & bit ? v : 0; h3 ^= data3[2] & bit ? v : 0; } } } *hash0 = h0 >> 32; *hash1 = h1 >> 32; *hash2 = h2 >> 32; *hash3 = h3 >> 32; #endif } #endif