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c0721164be
Update reedsolomon library to enable feature to automatically set number of go-routines based on the input shard size, since shard size is sort of a constant in Minio for objects > 10MiB (default blocksize) klauspost reported around 15-20% improvement in performance numbers on older systems such as AVX and SSE3 ``` name old speed new speed delta Encode10x2x10000-8 5.45GB/s ± 1% 6.22GB/s ± 1% +14.20% (p=0.000 n=9+9) Encode100x20x10000-8 1.44GB/s ± 1% 1.64GB/s ± 1% +13.77% (p=0.000 n=10+10) Encode17x3x1M-8 10.0GB/s ± 5% 12.0GB/s ± 1% +19.88% (p=0.000 n=10+10) Encode10x4x16M-8 7.81GB/s ± 5% 8.56GB/s ± 5% +9.58% (p=0.000 n=10+9) Encode5x2x1M-8 15.3GB/s ± 2% 19.6GB/s ± 2% +28.57% (p=0.000 n=9+10) Encode10x2x1M-8 12.2GB/s ± 5% 15.0GB/s ± 5% +22.45% (p=0.000 n=10+10) Encode10x4x1M-8 7.84GB/s ± 1% 9.03GB/s ± 1% +15.19% (p=0.000 n=9+9) Encode50x20x1M-8 1.73GB/s ± 4% 2.09GB/s ± 4% +20.59% (p=0.000 n=10+9) Encode17x3x16M-8 10.6GB/s ± 1% 11.7GB/s ± 4% +10.12% (p=0.000 n=8+10) ```
237 lines
6.4 KiB
ArmAsm
237 lines
6.4 KiB
ArmAsm
//+build !noasm !appengine
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// Copyright 2015, Klaus Post, see LICENSE for details.
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// Based on http://www.snia.org/sites/default/files2/SDC2013/presentations/NewThinking/EthanMiller_Screaming_Fast_Galois_Field%20Arithmetic_SIMD%20Instructions.pdf
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// and http://jerasure.org/jerasure/gf-complete/tree/master
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// func galMulSSSE3Xor(low, high, in, out []byte)
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TEXT ·galMulSSSE3Xor(SB), 7, $0
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MOVQ low+0(FP), SI // SI: &low
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MOVQ high+24(FP), DX // DX: &high
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MOVOU (SI), X6 // X6 low
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MOVOU (DX), X7 // X7: high
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MOVQ $15, BX // BX: low mask
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MOVQ BX, X8
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PXOR X5, X5
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MOVQ in+48(FP), SI // R11: &in
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MOVQ in_len+56(FP), R9 // R9: len(in)
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MOVQ out+72(FP), DX // DX: &out
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PSHUFB X5, X8 // X8: lomask (unpacked)
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SHRQ $4, R9 // len(in) / 16
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MOVQ SI, AX
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MOVQ DX, BX
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ANDQ $15, AX
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ANDQ $15, BX
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CMPQ R9, $0
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JEQ done_xor
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ORQ AX, BX
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CMPQ BX, $0
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JNZ loopback_xor
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loopback_xor_aligned:
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MOVOA (SI), X0 // in[x]
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MOVOA (DX), X4 // out[x]
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MOVOA X0, X1 // in[x]
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MOVOA X6, X2 // low copy
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MOVOA X7, X3 // high copy
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PSRLQ $4, X1 // X1: high input
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PAND X8, X0 // X0: low input
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PAND X8, X1 // X0: high input
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PSHUFB X0, X2 // X2: mul low part
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PSHUFB X1, X3 // X3: mul high part
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PXOR X2, X3 // X3: Result
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PXOR X4, X3 // X3: Result xor existing out
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MOVOA X3, (DX) // Store
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ADDQ $16, SI // in+=16
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ADDQ $16, DX // out+=16
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SUBQ $1, R9
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JNZ loopback_xor_aligned
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JMP done_xor
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loopback_xor:
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MOVOU (SI), X0 // in[x]
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MOVOU (DX), X4 // out[x]
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MOVOU X0, X1 // in[x]
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MOVOU X6, X2 // low copy
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MOVOU X7, X3 // high copy
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PSRLQ $4, X1 // X1: high input
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PAND X8, X0 // X0: low input
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PAND X8, X1 // X0: high input
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PSHUFB X0, X2 // X2: mul low part
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PSHUFB X1, X3 // X3: mul high part
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PXOR X2, X3 // X3: Result
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PXOR X4, X3 // X3: Result xor existing out
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MOVOU X3, (DX) // Store
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ADDQ $16, SI // in+=16
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ADDQ $16, DX // out+=16
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SUBQ $1, R9
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JNZ loopback_xor
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done_xor:
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RET
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// func galMulSSSE3(low, high, in, out []byte)
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TEXT ·galMulSSSE3(SB), 7, $0
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MOVQ low+0(FP), SI // SI: &low
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MOVQ high+24(FP), DX // DX: &high
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MOVOU (SI), X6 // X6 low
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MOVOU (DX), X7 // X7: high
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MOVQ $15, BX // BX: low mask
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MOVQ BX, X8
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PXOR X5, X5
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MOVQ in+48(FP), SI // R11: &in
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MOVQ in_len+56(FP), R9 // R9: len(in)
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MOVQ out+72(FP), DX // DX: &out
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PSHUFB X5, X8 // X8: lomask (unpacked)
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MOVQ SI, AX
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MOVQ DX, BX
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SHRQ $4, R9 // len(in) / 16
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ANDQ $15, AX
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ANDQ $15, BX
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CMPQ R9, $0
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JEQ done
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ORQ AX, BX
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CMPQ BX, $0
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JNZ loopback
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loopback_aligned:
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MOVOA (SI), X0 // in[x]
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MOVOA X0, X1 // in[x]
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MOVOA X6, X2 // low copy
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MOVOA X7, X3 // high copy
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PSRLQ $4, X1 // X1: high input
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PAND X8, X0 // X0: low input
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PAND X8, X1 // X0: high input
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PSHUFB X0, X2 // X2: mul low part
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PSHUFB X1, X3 // X3: mul high part
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PXOR X2, X3 // X3: Result
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MOVOA X3, (DX) // Store
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ADDQ $16, SI // in+=16
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ADDQ $16, DX // out+=16
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SUBQ $1, R9
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JNZ loopback_aligned
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JMP done
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loopback:
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MOVOU (SI), X0 // in[x]
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MOVOU X0, X1 // in[x]
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MOVOA X6, X2 // low copy
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MOVOA X7, X3 // high copy
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PSRLQ $4, X1 // X1: high input
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PAND X8, X0 // X0: low input
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PAND X8, X1 // X0: high input
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PSHUFB X0, X2 // X2: mul low part
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PSHUFB X1, X3 // X3: mul high part
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PXOR X2, X3 // X3: Result
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MOVOU X3, (DX) // Store
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ADDQ $16, SI // in+=16
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ADDQ $16, DX // out+=16
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SUBQ $1, R9
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JNZ loopback
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done:
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RET
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// func galMulAVX2Xor(low, high, in, out []byte)
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TEXT ·galMulAVX2Xor(SB), 7, $0
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MOVQ low+0(FP), SI // SI: &low
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MOVQ high+24(FP), DX // DX: &high
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MOVQ $15, BX // BX: low mask
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MOVQ BX, X5
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MOVOU (SI), X6 // X6: low
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MOVOU (DX), X7 // X7: high
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MOVQ in_len+56(FP), R9 // R9: len(in)
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VINSERTI128 $1, X6, Y6, Y6 // low
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VINSERTI128 $1, X7, Y7, Y7 // high
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VPBROADCASTB X5, Y8 // Y8: lomask (unpacked)
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SHRQ $5, R9 // len(in) / 32
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MOVQ out+72(FP), DX // DX: &out
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MOVQ in+48(FP), SI // SI: &in
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TESTQ R9, R9
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JZ done_xor_avx2
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loopback_xor_avx2:
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VMOVDQU (SI), Y0
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VMOVDQU (DX), Y4
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VPSRLQ $4, Y0, Y1 // Y1: high input
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VPAND Y8, Y0, Y0 // Y0: low input
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VPAND Y8, Y1, Y1 // Y1: high input
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VPSHUFB Y0, Y6, Y2 // Y2: mul low part
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VPSHUFB Y1, Y7, Y3 // Y3: mul high part
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VPXOR Y3, Y2, Y3 // Y3: Result
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VPXOR Y4, Y3, Y4 // Y4: Result
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VMOVDQU Y4, (DX)
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ADDQ $32, SI // in+=32
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ADDQ $32, DX // out+=32
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SUBQ $1, R9
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JNZ loopback_xor_avx2
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done_xor_avx2:
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VZEROUPPER
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RET
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// func galMulAVX2(low, high, in, out []byte)
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TEXT ·galMulAVX2(SB), 7, $0
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MOVQ low+0(FP), SI // SI: &low
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MOVQ high+24(FP), DX // DX: &high
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MOVQ $15, BX // BX: low mask
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MOVQ BX, X5
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MOVOU (SI), X6 // X6: low
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MOVOU (DX), X7 // X7: high
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MOVQ in_len+56(FP), R9 // R9: len(in)
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VINSERTI128 $1, X6, Y6, Y6 // low
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VINSERTI128 $1, X7, Y7, Y7 // high
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VPBROADCASTB X5, Y8 // Y8: lomask (unpacked)
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SHRQ $5, R9 // len(in) / 32
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MOVQ out+72(FP), DX // DX: &out
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MOVQ in+48(FP), SI // SI: &in
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TESTQ R9, R9
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JZ done_avx2
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loopback_avx2:
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VMOVDQU (SI), Y0
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VPSRLQ $4, Y0, Y1 // Y1: high input
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VPAND Y8, Y0, Y0 // Y0: low input
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VPAND Y8, Y1, Y1 // Y1: high input
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VPSHUFB Y0, Y6, Y2 // Y2: mul low part
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VPSHUFB Y1, Y7, Y3 // Y3: mul high part
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VPXOR Y3, Y2, Y4 // Y4: Result
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VMOVDQU Y4, (DX)
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ADDQ $32, SI // in+=32
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ADDQ $32, DX // out+=32
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SUBQ $1, R9
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JNZ loopback_avx2
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done_avx2:
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VZEROUPPER
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RET
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// func sSE2XorSlice(in, out []byte)
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TEXT ·sSE2XorSlice(SB), 7, $0
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MOVQ in+0(FP), SI // SI: &in
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MOVQ in_len+8(FP), R9 // R9: len(in)
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MOVQ out+24(FP), DX // DX: &out
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SHRQ $4, R9 // len(in) / 16
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CMPQ R9, $0
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JEQ done_xor_sse2
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loopback_xor_sse2:
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MOVOU (SI), X0 // in[x]
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MOVOU (DX), X1 // out[x]
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PXOR X0, X1
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MOVOU X1, (DX)
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ADDQ $16, SI // in+=16
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ADDQ $16, DX // out+=16
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SUBQ $1, R9
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JNZ loopback_xor_sse2
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done_xor_sse2:
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RET
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