//go:build !noasm && !appengine && !gccgo // +build !noasm,!appengine,!gccgo // Copyright 2015, Klaus Post, see LICENSE for details. // Copyright 2018, Minio, Inc. package reedsolomon //go:noescape func galMulPpc(low, high, in, out []byte) //go:noescape func galMulPpcXor(low, high, in, out []byte) // This is what the assembler routines do in blocks of 16 bytes: /* func galMulPpc(low, high, in, out []byte) { for n, input := range in { l := input & 0xf h := input >> 4 out[n] = low[l] ^ high[h] } } func galMulPpcXor(low, high, in, out []byte) { for n, input := range in { l := input & 0xf h := input >> 4 out[n] ^= low[l] ^ high[h] } } */ func galMulSlice(c byte, in, out []byte, o *options) { if c == 1 { copy(out, in) return } done := (len(in) >> 4) << 4 if done > 0 { galMulPpc(mulTableLow[c][:], mulTableHigh[c][:], in[:done], out) } remain := len(in) - done if remain > 0 { mt := mulTable[c][:256] for i := done; i < len(in); i++ { out[i] = mt[in[i]] } } } func galMulSliceXor(c byte, in, out []byte, o *options) { if c == 1 { sliceXor(in, out, o) return } done := (len(in) >> 4) << 4 if done > 0 { galMulPpcXor(mulTableLow[c][:], mulTableHigh[c][:], in[:done], out) } remain := len(in) - done if remain > 0 { mt := mulTable[c][:256] for i := done; i < len(in); i++ { out[i] ^= mt[in[i]] } } } // slice galois add func sliceXor(in, out []byte, o *options) { for n, input := range in { out[n] ^= input } } // 4-way butterfly func ifftDIT4(work [][]byte, dist int, log_m01, log_m23, log_m02 ffe, o *options) { ifftDIT4Ref(work, dist, log_m01, log_m23, log_m02, o) } // 4-way butterfly func fftDIT4(work [][]byte, dist int, log_m01, log_m23, log_m02 ffe, o *options) { fftDIT4Ref(work, dist, log_m01, log_m23, log_m02, o) } // 2-way butterfly forward func fftDIT2(x, y []byte, log_m ffe, o *options) { // Reference version: refMulAdd(x, y, log_m) sliceXor(x, y, o) } // 2-way butterfly inverse func ifftDIT2(x, y []byte, log_m ffe, o *options) { // Reference version: sliceXor(x, y, o) refMulAdd(x, y, log_m) } func mulgf16(x, y []byte, log_m ffe, o *options) { refMul(x, y, log_m) }