//+build !noasm !appengine // Copyright 2015, Klaus Post, see LICENSE for details. // Based on http://www.snia.org/sites/default/files2/SDC2013/presentations/NewThinking/EthanMiller_Screaming_Fast_Galois_Field%20Arithmetic_SIMD%20Instructions.pdf // and http://jerasure.org/jerasure/gf-complete/tree/master // func galMulSSSE3Xor(low, high, in, out []byte) TEXT ·galMulSSSE3Xor(SB), 7, $0 MOVQ low+0(FP), SI // SI: &low MOVQ high+24(FP), DX // DX: &high MOVOU (SI), X6 // X6 low MOVOU (DX), X7 // X7: high MOVQ $15, BX // BX: low mask MOVQ BX, X8 PXOR X5, X5 MOVQ in+48(FP), SI // R11: &in MOVQ in_len+56(FP), R9 // R9: len(in) MOVQ out+72(FP), DX // DX: &out PSHUFB X5, X8 // X8: lomask (unpacked) SHRQ $4, R9 // len(in) / 16 CMPQ R9, $0 JEQ done_xor loopback_xor: MOVOU (SI), X0 // in[x] MOVOU (DX), X4 // out[x] MOVOU X0, X1 // in[x] MOVOU X6, X2 // low copy MOVOU X7, X3 // high copy PSRLQ $4, X1 // X1: high input PAND X8, X0 // X0: low input PAND X8, X1 // X0: high input PSHUFB X0, X2 // X2: mul low part PSHUFB X1, X3 // X3: mul high part PXOR X2, X3 // X3: Result PXOR X4, X3 // X3: Result xor existing out MOVOU X3, (DX) // Store ADDQ $16, SI // in+=16 ADDQ $16, DX // out+=16 SUBQ $1, R9 JNZ loopback_xor done_xor: RET // func galMulSSSE3(low, high, in, out []byte) TEXT ·galMulSSSE3(SB), 7, $0 MOVQ low+0(FP), SI // SI: &low MOVQ high+24(FP), DX // DX: &high MOVOU (SI), X6 // X6 low MOVOU (DX), X7 // X7: high MOVQ $15, BX // BX: low mask MOVQ BX, X8 PXOR X5, X5 MOVQ in+48(FP), SI // R11: &in MOVQ in_len+56(FP), R9 // R9: len(in) MOVQ out+72(FP), DX // DX: &out PSHUFB X5, X8 // X8: lomask (unpacked) SHRQ $4, R9 // len(in) / 16 CMPQ R9, $0 JEQ done loopback: MOVOU (SI), X0 // in[x] MOVOU X0, X1 // in[x] MOVOU X6, X2 // low copy MOVOU X7, X3 // high copy PSRLQ $4, X1 // X1: high input PAND X8, X0 // X0: low input PAND X8, X1 // X0: high input PSHUFB X0, X2 // X2: mul low part PSHUFB X1, X3 // X3: mul high part PXOR X2, X3 // X3: Result MOVOU X3, (DX) // Store ADDQ $16, SI // in+=16 ADDQ $16, DX // out+=16 SUBQ $1, R9 JNZ loopback done: RET // func galMulAVX2Xor(low, high, in, out []byte) TEXT ·galMulAVX2Xor(SB), 7, $0 MOVQ low+0(FP), SI // SI: &low MOVQ high+24(FP), DX // DX: &high MOVQ $15, BX // BX: low mask MOVQ BX, X5 MOVOU (SI), X6 // X6 low MOVOU (DX), X7 // X7: high MOVQ in_len+56(FP), R9 // R9: len(in) LONG $0x384de3c4; WORD $0x01f6 // VINSERTI128 YMM6, YMM6, XMM6, 1 ; low LONG $0x3845e3c4; WORD $0x01ff // VINSERTI128 YMM7, YMM7, XMM7, 1 ; high LONG $0x787d62c4; BYTE $0xc5 // VPBROADCASTB YMM8, XMM5 ; X8: lomask (unpacked) SHRQ $5, R9 // len(in) /32 MOVQ out+72(FP), DX // DX: &out MOVQ in+48(FP), SI // R11: &in TESTQ R9, R9 JZ done_xor_avx2 loopback_xor_avx2: LONG $0x066ffec5 // VMOVDQU YMM0, [rsi] LONG $0x226ffec5 // VMOVDQU YMM4, [rdx] LONG $0xd073f5c5; BYTE $0x04 // VPSRLQ YMM1, YMM0, 4 ; X1: high input LONG $0xdb7dc1c4; BYTE $0xc0 // VPAND YMM0, YMM0, YMM8 ; X0: low input LONG $0xdb75c1c4; BYTE $0xc8 // VPAND YMM1, YMM1, YMM8 ; X1: high input LONG $0x004de2c4; BYTE $0xd0 // VPSHUFB YMM2, YMM6, YMM0 ; X2: mul low part LONG $0x0045e2c4; BYTE $0xd9 // VPSHUFB YMM3, YMM7, YMM1 ; X2: mul high part LONG $0xdbefedc5 // VPXOR YMM3, YMM2, YMM3 ; X3: Result LONG $0xe4efe5c5 // VPXOR YMM4, YMM3, YMM4 ; X4: Result LONG $0x227ffec5 // VMOVDQU [rdx], YMM4 ADDQ $32, SI // in+=32 ADDQ $32, DX // out+=32 SUBQ $1, R9 JNZ loopback_xor_avx2 done_xor_avx2: // VZEROUPPER BYTE $0xc5; BYTE $0xf8; BYTE $0x77 RET // func galMulAVX2(low, high, in, out []byte) TEXT ·galMulAVX2(SB), 7, $0 MOVQ low+0(FP), SI // SI: &low MOVQ high+24(FP), DX // DX: &high MOVQ $15, BX // BX: low mask MOVQ BX, X5 MOVOU (SI), X6 // X6 low MOVOU (DX), X7 // X7: high MOVQ in_len+56(FP), R9 // R9: len(in) LONG $0x384de3c4; WORD $0x01f6 // VINSERTI128 YMM6, YMM6, XMM6, 1 ; low LONG $0x3845e3c4; WORD $0x01ff // VINSERTI128 YMM7, YMM7, XMM7, 1 ; high LONG $0x787d62c4; BYTE $0xc5 // VPBROADCASTB YMM8, XMM5 ; X8: lomask (unpacked) SHRQ $5, R9 // len(in) /32 MOVQ out+72(FP), DX // DX: &out MOVQ in+48(FP), SI // R11: &in TESTQ R9, R9 JZ done_avx2 loopback_avx2: LONG $0x066ffec5 // VMOVDQU YMM0, [rsi] LONG $0xd073f5c5; BYTE $0x04 // VPSRLQ YMM1, YMM0, 4 ; X1: high input LONG $0xdb7dc1c4; BYTE $0xc0 // VPAND YMM0, YMM0, YMM8 ; X0: low input LONG $0xdb75c1c4; BYTE $0xc8 // VPAND YMM1, YMM1, YMM8 ; X1: high input LONG $0x004de2c4; BYTE $0xd0 // VPSHUFB YMM2, YMM6, YMM0 ; X2: mul low part LONG $0x0045e2c4; BYTE $0xd9 // VPSHUFB YMM3, YMM7, YMM1 ; X2: mul high part LONG $0xe3efedc5 // VPXOR YMM4, YMM2, YMM3 ; X4: Result LONG $0x227ffec5 // VMOVDQU [rdx], YMM4 ADDQ $32, SI // in+=32 ADDQ $32, DX // out+=32 SUBQ $1, R9 JNZ loopback_avx2 done_avx2: BYTE $0xc5; BYTE $0xf8; BYTE $0x77 // VZEROUPPER RET // func sSE2XorSlice(in, out []byte) TEXT ·sSE2XorSlice(SB), 7, $0 MOVQ in+0(FP), SI // SI: &in MOVQ in_len+8(FP), R9 // R9: len(in) MOVQ out+24(FP), DX // DX: &out SHRQ $4, R9 // len(in) / 16 CMPQ R9, $0 JEQ done_xor_sse2 loopback_xor_sse2: MOVOU (SI), X0 // in[x] MOVOU (DX), X1 // out[x] PXOR X0, X1 MOVOU X1, (DX) ADDQ $16, SI // in+=16 ADDQ $16, DX // out+=16 SUBQ $1, R9 JNZ loopback_xor_sse2 done_xor_sse2: RET