#if !NET_DOTS using Unity.Burst.Intrinsics; using Unity.Collections.LowLevel.Unsafe; namespace Unity.Collections { [BurstCompatible] public static partial class xxHash3 { internal static unsafe void Avx2HashLongInternalLoop(ulong* acc, byte* input, byte* dest, long length, byte* secret, int isHash64) { if (X86.Avx2.IsAvx2Supported) { // Process packets of 512 bits var nb_blocks = (length-1) / BLOCK_LEN; for (int n = 0; n < nb_blocks; n++) { Avx2Accumulate(acc, input + n * BLOCK_LEN, dest == null ? null : dest + n * BLOCK_LEN, secret, NB_ROUNDS, isHash64); Avx2ScrambleAcc(acc, secret + SECRET_KEY_SIZE - STRIPE_LEN); } var nbStripes = ((length-1) - (BLOCK_LEN * nb_blocks)) / STRIPE_LEN; Avx2Accumulate(acc, input + nb_blocks * BLOCK_LEN, dest == null ? null : dest + nb_blocks * BLOCK_LEN, secret, nbStripes, isHash64); var p = input + length - STRIPE_LEN; Avx2Accumulate512(acc, p, null, secret + SECRET_KEY_SIZE - STRIPE_LEN - SECRET_LASTACC_START); if (dest != null) { var remaining = length % STRIPE_LEN; if (remaining != 0) { UnsafeUtility.MemCpy(dest + length - remaining, input + length - remaining, remaining); } } } } internal static unsafe void Avx2ScrambleAcc(ulong* acc, byte* secret) { if (X86.Avx2.IsAvx2Supported) { var xAcc = (v256*) acc; var xSecret = (v256*) secret; var prime32 = X86.Avx.mm256_set1_epi32(unchecked((int) PRIME32_1)); // First bank var acc_vec = xAcc[0]; var shifted = X86.Avx2.mm256_srli_epi64(acc_vec, 47); var data_vec = X86.Avx2.mm256_xor_si256(acc_vec, shifted); var key_vec = X86.Avx.mm256_loadu_si256(xSecret + 0); var data_key = X86.Avx2.mm256_xor_si256(data_vec, key_vec); var data_key_hi = X86.Avx2.mm256_shuffle_epi32(data_key, X86.Sse.SHUFFLE(0, 3, 0, 1)); var prod_lo = X86.Avx2.mm256_mul_epu32(data_key, prime32); var prod_hi = X86.Avx2.mm256_mul_epu32(data_key_hi, prime32); xAcc[0] = X86.Avx2.mm256_add_epi64(prod_lo, X86.Avx2.mm256_slli_epi64(prod_hi, 32)); // Second bank acc_vec = xAcc[1]; shifted = X86.Avx2.mm256_srli_epi64(acc_vec, 47); data_vec = X86.Avx2.mm256_xor_si256(acc_vec, shifted); key_vec = X86.Avx.mm256_loadu_si256(xSecret + 1); data_key = X86.Avx2.mm256_xor_si256(data_vec, key_vec); data_key_hi = X86.Avx2.mm256_shuffle_epi32(data_key, X86.Sse.SHUFFLE(0, 3, 0, 1)); prod_lo = X86.Avx2.mm256_mul_epu32(data_key, prime32); prod_hi = X86.Avx2.mm256_mul_epu32(data_key_hi, prime32); xAcc[1] = X86.Avx2.mm256_add_epi64(prod_lo, X86.Avx2.mm256_slli_epi64(prod_hi, 32)); } } internal static unsafe void Avx2Accumulate(ulong* acc, byte* input, byte* dest, byte* secret, long nbStripes, int isHash64) { if (X86.Avx2.IsAvx2Supported) { for (var n = 0; n < nbStripes; n++) { var xInput = input + n * STRIPE_LEN; Avx2Accumulate512(acc, xInput, dest == null ? null : dest + n * STRIPE_LEN, secret + n * SECRET_CONSUME_RATE); } } } internal static unsafe void Avx2Accumulate512(ulong* acc, byte* input, byte* dest, byte* secret) { if (X86.Avx2.IsAvx2Supported) { var xAcc = (v256*) acc; var xSecret = (v256*) secret; var xInput = (v256*) input; // First bank var data_vec = X86.Avx.mm256_loadu_si256(xInput + 0); var key_vec = X86.Avx.mm256_loadu_si256(xSecret + 0); var data_key = X86.Avx2.mm256_xor_si256(data_vec, key_vec); if (dest != null) { X86.Avx.mm256_storeu_si256(dest, data_vec); } var data_key_lo = X86.Avx2.mm256_shuffle_epi32(data_key, X86.Sse.SHUFFLE(0, 3, 0, 1)); var product = X86.Avx2.mm256_mul_epu32(data_key, data_key_lo); var data_swap= X86.Avx2.mm256_shuffle_epi32(data_vec, X86.Sse.SHUFFLE(1, 0, 3, 2)); var sum= X86.Avx2.mm256_add_epi64(xAcc[0], data_swap); xAcc[0] = X86.Avx2.mm256_add_epi64(product, sum); // Second bank data_vec = X86.Avx.mm256_loadu_si256(xInput + 1); key_vec = X86.Avx.mm256_loadu_si256(xSecret + 1); data_key = X86.Avx2.mm256_xor_si256(data_vec, key_vec); if (dest != null) { X86.Avx.mm256_storeu_si256(dest + 32, data_vec); } data_key_lo = X86.Avx2.mm256_shuffle_epi32(data_key, X86.Sse.SHUFFLE(0, 3, 0, 1)); product = X86.Avx2.mm256_mul_epu32(data_key, data_key_lo); data_swap = X86.Avx2.mm256_shuffle_epi32(data_vec, X86.Sse.SHUFFLE(1, 0, 3, 2)); sum = X86.Avx2.mm256_add_epi64(xAcc[1], data_swap); xAcc[1] = X86.Avx2.mm256_add_epi64(product, sum); } } } } #endif