cri-o/vendor/golang.org/x/crypto/chacha20poly1305/chacha20poly1305_amd64.s

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// Copyright 2016 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// This file was originally from https://golang.org/cl/24717 by Vlad Krasnov of CloudFlare.
// +build go1.7,amd64,!gccgo,!appengine
#include "textflag.h"
// General register allocation
#define oup DI
#define inp SI
#define inl BX
#define adp CX // free to reuse, after we hash the additional data
#define keyp R8 // free to reuse, when we copy the key to stack
#define itr2 R9 // general iterator
#define itr1 CX // general iterator
#define acc0 R10
#define acc1 R11
#define acc2 R12
#define t0 R13
#define t1 R14
#define t2 R15
#define t3 R8
// Register and stack allocation for the SSE code
#define rStore (0*16)(BP)
#define sStore (1*16)(BP)
#define state1Store (2*16)(BP)
#define state2Store (3*16)(BP)
#define tmpStore (4*16)(BP)
#define ctr0Store (5*16)(BP)
#define ctr1Store (6*16)(BP)
#define ctr2Store (7*16)(BP)
#define ctr3Store (8*16)(BP)
#define A0 X0
#define A1 X1
#define A2 X2
#define B0 X3
#define B1 X4
#define B2 X5
#define C0 X6
#define C1 X7
#define C2 X8
#define D0 X9
#define D1 X10
#define D2 X11
#define T0 X12
#define T1 X13
#define T2 X14
#define T3 X15
#define A3 T0
#define B3 T1
#define C3 T2
#define D3 T3
// Register and stack allocation for the AVX2 code
#define rsStoreAVX2 (0*32)(BP)
#define state1StoreAVX2 (1*32)(BP)
#define state2StoreAVX2 (2*32)(BP)
#define ctr0StoreAVX2 (3*32)(BP)
#define ctr1StoreAVX2 (4*32)(BP)
#define ctr2StoreAVX2 (5*32)(BP)
#define ctr3StoreAVX2 (6*32)(BP)
#define tmpStoreAVX2 (7*32)(BP) // 256 bytes on stack
#define AA0 Y0
#define AA1 Y5
#define AA2 Y6
#define AA3 Y7
#define BB0 Y14
#define BB1 Y9
#define BB2 Y10
#define BB3 Y11
#define CC0 Y12
#define CC1 Y13
#define CC2 Y8
#define CC3 Y15
#define DD0 Y4
#define DD1 Y1
#define DD2 Y2
#define DD3 Y3
#define TT0 DD3
#define TT1 AA3
#define TT2 BB3
#define TT3 CC3
// ChaCha20 constants
DATA ·chacha20Constants<>+0x00(SB)/4, $0x61707865
DATA ·chacha20Constants<>+0x04(SB)/4, $0x3320646e
DATA ·chacha20Constants<>+0x08(SB)/4, $0x79622d32
DATA ·chacha20Constants<>+0x0c(SB)/4, $0x6b206574
DATA ·chacha20Constants<>+0x10(SB)/4, $0x61707865
DATA ·chacha20Constants<>+0x14(SB)/4, $0x3320646e
DATA ·chacha20Constants<>+0x18(SB)/4, $0x79622d32
DATA ·chacha20Constants<>+0x1c(SB)/4, $0x6b206574
// <<< 16 with PSHUFB
DATA ·rol16<>+0x00(SB)/8, $0x0504070601000302
DATA ·rol16<>+0x08(SB)/8, $0x0D0C0F0E09080B0A
DATA ·rol16<>+0x10(SB)/8, $0x0504070601000302
DATA ·rol16<>+0x18(SB)/8, $0x0D0C0F0E09080B0A
// <<< 8 with PSHUFB
DATA ·rol8<>+0x00(SB)/8, $0x0605040702010003
DATA ·rol8<>+0x08(SB)/8, $0x0E0D0C0F0A09080B
DATA ·rol8<>+0x10(SB)/8, $0x0605040702010003
DATA ·rol8<>+0x18(SB)/8, $0x0E0D0C0F0A09080B
DATA ·avx2InitMask<>+0x00(SB)/8, $0x0
DATA ·avx2InitMask<>+0x08(SB)/8, $0x0
DATA ·avx2InitMask<>+0x10(SB)/8, $0x1
DATA ·avx2InitMask<>+0x18(SB)/8, $0x0
DATA ·avx2IncMask<>+0x00(SB)/8, $0x2
DATA ·avx2IncMask<>+0x08(SB)/8, $0x0
DATA ·avx2IncMask<>+0x10(SB)/8, $0x2
DATA ·avx2IncMask<>+0x18(SB)/8, $0x0
// Poly1305 key clamp
DATA ·polyClampMask<>+0x00(SB)/8, $0x0FFFFFFC0FFFFFFF
DATA ·polyClampMask<>+0x08(SB)/8, $0x0FFFFFFC0FFFFFFC
DATA ·polyClampMask<>+0x10(SB)/8, $0xFFFFFFFFFFFFFFFF
DATA ·polyClampMask<>+0x18(SB)/8, $0xFFFFFFFFFFFFFFFF
DATA ·sseIncMask<>+0x00(SB)/8, $0x1
DATA ·sseIncMask<>+0x08(SB)/8, $0x0
// To load/store the last < 16 bytes in a buffer
DATA ·andMask<>+0x00(SB)/8, $0x00000000000000ff
DATA ·andMask<>+0x08(SB)/8, $0x0000000000000000
DATA ·andMask<>+0x10(SB)/8, $0x000000000000ffff
DATA ·andMask<>+0x18(SB)/8, $0x0000000000000000
DATA ·andMask<>+0x20(SB)/8, $0x0000000000ffffff
DATA ·andMask<>+0x28(SB)/8, $0x0000000000000000
DATA ·andMask<>+0x30(SB)/8, $0x00000000ffffffff
DATA ·andMask<>+0x38(SB)/8, $0x0000000000000000
DATA ·andMask<>+0x40(SB)/8, $0x000000ffffffffff
DATA ·andMask<>+0x48(SB)/8, $0x0000000000000000
DATA ·andMask<>+0x50(SB)/8, $0x0000ffffffffffff
DATA ·andMask<>+0x58(SB)/8, $0x0000000000000000
DATA ·andMask<>+0x60(SB)/8, $0x00ffffffffffffff
DATA ·andMask<>+0x68(SB)/8, $0x0000000000000000
DATA ·andMask<>+0x70(SB)/8, $0xffffffffffffffff
DATA ·andMask<>+0x78(SB)/8, $0x0000000000000000
DATA ·andMask<>+0x80(SB)/8, $0xffffffffffffffff
DATA ·andMask<>+0x88(SB)/8, $0x00000000000000ff
DATA ·andMask<>+0x90(SB)/8, $0xffffffffffffffff
DATA ·andMask<>+0x98(SB)/8, $0x000000000000ffff
DATA ·andMask<>+0xa0(SB)/8, $0xffffffffffffffff
DATA ·andMask<>+0xa8(SB)/8, $0x0000000000ffffff
DATA ·andMask<>+0xb0(SB)/8, $0xffffffffffffffff
DATA ·andMask<>+0xb8(SB)/8, $0x00000000ffffffff
DATA ·andMask<>+0xc0(SB)/8, $0xffffffffffffffff
DATA ·andMask<>+0xc8(SB)/8, $0x000000ffffffffff
DATA ·andMask<>+0xd0(SB)/8, $0xffffffffffffffff
DATA ·andMask<>+0xd8(SB)/8, $0x0000ffffffffffff
DATA ·andMask<>+0xe0(SB)/8, $0xffffffffffffffff
DATA ·andMask<>+0xe8(SB)/8, $0x00ffffffffffffff
GLOBL ·chacha20Constants<>(SB), (NOPTR+RODATA), $32
GLOBL ·rol16<>(SB), (NOPTR+RODATA), $32
GLOBL ·rol8<>(SB), (NOPTR+RODATA), $32
GLOBL ·sseIncMask<>(SB), (NOPTR+RODATA), $16
GLOBL ·avx2IncMask<>(SB), (NOPTR+RODATA), $32
GLOBL ·avx2InitMask<>(SB), (NOPTR+RODATA), $32
GLOBL ·polyClampMask<>(SB), (NOPTR+RODATA), $32
GLOBL ·andMask<>(SB), (NOPTR+RODATA), $240
// No PALIGNR in Go ASM yet (but VPALIGNR is present).
#define shiftB0Left BYTE $0x66; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xdb; BYTE $0x04 // PALIGNR $4, X3, X3
#define shiftB1Left BYTE $0x66; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xe4; BYTE $0x04 // PALIGNR $4, X4, X4
#define shiftB2Left BYTE $0x66; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xed; BYTE $0x04 // PALIGNR $4, X5, X5
#define shiftB3Left BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xed; BYTE $0x04 // PALIGNR $4, X13, X13
#define shiftC0Left BYTE $0x66; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xf6; BYTE $0x08 // PALIGNR $8, X6, X6
#define shiftC1Left BYTE $0x66; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xff; BYTE $0x08 // PALIGNR $8, X7, X7
#define shiftC2Left BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xc0; BYTE $0x08 // PALIGNR $8, X8, X8
#define shiftC3Left BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xf6; BYTE $0x08 // PALIGNR $8, X14, X14
#define shiftD0Left BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xc9; BYTE $0x0c // PALIGNR $12, X9, X9
#define shiftD1Left BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xd2; BYTE $0x0c // PALIGNR $12, X10, X10
#define shiftD2Left BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xdb; BYTE $0x0c // PALIGNR $12, X11, X11
#define shiftD3Left BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xff; BYTE $0x0c // PALIGNR $12, X15, X15
#define shiftB0Right BYTE $0x66; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xdb; BYTE $0x0c // PALIGNR $12, X3, X3
#define shiftB1Right BYTE $0x66; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xe4; BYTE $0x0c // PALIGNR $12, X4, X4
#define shiftB2Right BYTE $0x66; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xed; BYTE $0x0c // PALIGNR $12, X5, X5
#define shiftB3Right BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xed; BYTE $0x0c // PALIGNR $12, X13, X13
#define shiftC0Right shiftC0Left
#define shiftC1Right shiftC1Left
#define shiftC2Right shiftC2Left
#define shiftC3Right shiftC3Left
#define shiftD0Right BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xc9; BYTE $0x04 // PALIGNR $4, X9, X9
#define shiftD1Right BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xd2; BYTE $0x04 // PALIGNR $4, X10, X10
#define shiftD2Right BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xdb; BYTE $0x04 // PALIGNR $4, X11, X11
#define shiftD3Right BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0x3a; BYTE $0x0f; BYTE $0xff; BYTE $0x04 // PALIGNR $4, X15, X15
// Some macros
#define chachaQR(A, B, C, D, T) \
PADDD B, A; PXOR A, D; PSHUFB ·rol16<>(SB), D \
PADDD D, C; PXOR C, B; MOVO B, T; PSLLL $12, T; PSRLL $20, B; PXOR T, B \
PADDD B, A; PXOR A, D; PSHUFB ·rol8<>(SB), D \
PADDD D, C; PXOR C, B; MOVO B, T; PSLLL $7, T; PSRLL $25, B; PXOR T, B
#define chachaQR_AVX2(A, B, C, D, T) \
VPADDD B, A, A; VPXOR A, D, D; VPSHUFB ·rol16<>(SB), D, D \
VPADDD D, C, C; VPXOR C, B, B; VPSLLD $12, B, T; VPSRLD $20, B, B; VPXOR T, B, B \
VPADDD B, A, A; VPXOR A, D, D; VPSHUFB ·rol8<>(SB), D, D \
VPADDD D, C, C; VPXOR C, B, B; VPSLLD $7, B, T; VPSRLD $25, B, B; VPXOR T, B, B
#define polyAdd(S) ADDQ S, acc0; ADCQ 8+S, acc1; ADCQ $1, acc2
#define polyMulStage1 MOVQ (0*8)(BP), AX; MOVQ AX, t2; MULQ acc0; MOVQ AX, t0; MOVQ DX, t1; MOVQ (0*8)(BP), AX; MULQ acc1; IMULQ acc2, t2; ADDQ AX, t1; ADCQ DX, t2
#define polyMulStage2 MOVQ (1*8)(BP), AX; MOVQ AX, t3; MULQ acc0; ADDQ AX, t1; ADCQ $0, DX; MOVQ DX, acc0; MOVQ (1*8)(BP), AX; MULQ acc1; ADDQ AX, t2; ADCQ $0, DX
#define polyMulStage3 IMULQ acc2, t3; ADDQ acc0, t2; ADCQ DX, t3
#define polyMulReduceStage MOVQ t0, acc0; MOVQ t1, acc1; MOVQ t2, acc2; ANDQ $3, acc2; MOVQ t2, t0; ANDQ $-4, t0; MOVQ t3, t1; SHRQ $2, t2:t3; SHRQ $2, t3; ADDQ t0, acc0; ADCQ t1, acc1; ADCQ $0, acc2; ADDQ t2, acc0; ADCQ t3, acc1; ADCQ $0, acc2
#define polyMulStage1_AVX2 MOVQ (0*8)(BP), DX; MOVQ DX, t2; MULXQ acc0, t0, t1; IMULQ acc2, t2; MULXQ acc1, AX, DX; ADDQ AX, t1; ADCQ DX, t2
#define polyMulStage2_AVX2 MOVQ (1*8)(BP), DX; MULXQ acc0, acc0, AX; ADDQ acc0, t1; MULXQ acc1, acc1, t3; ADCQ acc1, t2; ADCQ $0, t3
#define polyMulStage3_AVX2 IMULQ acc2, DX; ADDQ AX, t2; ADCQ DX, t3
#define polyMul polyMulStage1; polyMulStage2; polyMulStage3; polyMulReduceStage
#define polyMulAVX2 polyMulStage1_AVX2; polyMulStage2_AVX2; polyMulStage3_AVX2; polyMulReduceStage
// ----------------------------------------------------------------------------
TEXT polyHashADInternal<>(SB), NOSPLIT, $0
// adp points to beginning of additional data
// itr2 holds ad length
XORQ acc0, acc0
XORQ acc1, acc1
XORQ acc2, acc2
CMPQ itr2, $13
JNE hashADLoop
openFastTLSAD:
// Special treatment for the TLS case of 13 bytes
MOVQ (adp), acc0
MOVQ 5(adp), acc1
SHRQ $24, acc1
MOVQ $1, acc2
polyMul
RET
hashADLoop:
// Hash in 16 byte chunks
CMPQ itr2, $16
JB hashADTail
polyAdd(0(adp))
LEAQ (1*16)(adp), adp
SUBQ $16, itr2
polyMul
JMP hashADLoop
hashADTail:
CMPQ itr2, $0
JE hashADDone
// Hash last < 16 byte tail
XORQ t0, t0
XORQ t1, t1
XORQ t2, t2
ADDQ itr2, adp
hashADTailLoop:
SHLQ $8, t1:t0
SHLQ $8, t0
MOVB -1(adp), t2
XORQ t2, t0
DECQ adp
DECQ itr2
JNE hashADTailLoop
hashADTailFinish:
ADDQ t0, acc0; ADCQ t1, acc1; ADCQ $1, acc2
polyMul
// Finished AD
hashADDone:
RET
// ----------------------------------------------------------------------------
// func chacha20Poly1305Open(dst, key, src, ad []byte) bool
TEXT ·chacha20Poly1305Open(SB), 0, $288-97
// For aligned stack access
MOVQ SP, BP
ADDQ $32, BP
ANDQ $-32, BP
MOVQ dst+0(FP), oup
MOVQ key+24(FP), keyp
MOVQ src+48(FP), inp
MOVQ src_len+56(FP), inl
MOVQ ad+72(FP), adp
// Check for AVX2 support
CMPB runtime·support_avx2(SB), $0
JE noavx2bmi2Open
// Check BMI2 bit for MULXQ.
// runtime·cpuid_ebx7 is always available here
// because it passed avx2 check
TESTL $(1<<8), runtime·cpuid_ebx7(SB)
JNE chacha20Poly1305Open_AVX2
noavx2bmi2Open:
// Special optimization, for very short buffers
CMPQ inl, $128
JBE openSSE128 // About 16% faster
// For long buffers, prepare the poly key first
MOVOU ·chacha20Constants<>(SB), A0
MOVOU (1*16)(keyp), B0
MOVOU (2*16)(keyp), C0
MOVOU (3*16)(keyp), D0
MOVO D0, T1
// Store state on stack for future use
MOVO B0, state1Store
MOVO C0, state2Store
MOVO D0, ctr3Store
MOVQ $10, itr2
openSSEPreparePolyKey:
chachaQR(A0, B0, C0, D0, T0)
shiftB0Left; shiftC0Left; shiftD0Left
chachaQR(A0, B0, C0, D0, T0)
shiftB0Right; shiftC0Right; shiftD0Right
DECQ itr2
JNE openSSEPreparePolyKey
// A0|B0 hold the Poly1305 32-byte key, C0,D0 can be discarded
PADDL ·chacha20Constants<>(SB), A0; PADDL state1Store, B0
// Clamp and store the key
PAND ·polyClampMask<>(SB), A0
MOVO A0, rStore; MOVO B0, sStore
// Hash AAD
MOVQ ad_len+80(FP), itr2
CALL polyHashADInternal<>(SB)
openSSEMainLoop:
CMPQ inl, $256
JB openSSEMainLoopDone
// Load state, increment counter blocks
MOVO ·chacha20Constants<>(SB), A0; MOVO state1Store, B0; MOVO state2Store, C0; MOVO ctr3Store, D0; PADDL ·sseIncMask<>(SB), D0
MOVO A0, A1; MOVO B0, B1; MOVO C0, C1; MOVO D0, D1; PADDL ·sseIncMask<>(SB), D1
MOVO A1, A2; MOVO B1, B2; MOVO C1, C2; MOVO D1, D2; PADDL ·sseIncMask<>(SB), D2
MOVO A2, A3; MOVO B2, B3; MOVO C2, C3; MOVO D2, D3; PADDL ·sseIncMask<>(SB), D3
// Store counters
MOVO D0, ctr0Store; MOVO D1, ctr1Store; MOVO D2, ctr2Store; MOVO D3, ctr3Store
// There are 10 ChaCha20 iterations of 2QR each, so for 6 iterations we hash 2 blocks, and for the remaining 4 only 1 block - for a total of 16
MOVQ $4, itr1
MOVQ inp, itr2
openSSEInternalLoop:
MOVO C3, tmpStore
chachaQR(A0, B0, C0, D0, C3); chachaQR(A1, B1, C1, D1, C3); chachaQR(A2, B2, C2, D2, C3)
MOVO tmpStore, C3
MOVO C1, tmpStore
chachaQR(A3, B3, C3, D3, C1)
MOVO tmpStore, C1
polyAdd(0(itr2))
shiftB0Left; shiftB1Left; shiftB2Left; shiftB3Left
shiftC0Left; shiftC1Left; shiftC2Left; shiftC3Left
shiftD0Left; shiftD1Left; shiftD2Left; shiftD3Left
polyMulStage1
polyMulStage2
LEAQ (2*8)(itr2), itr2
MOVO C3, tmpStore
chachaQR(A0, B0, C0, D0, C3); chachaQR(A1, B1, C1, D1, C3); chachaQR(A2, B2, C2, D2, C3)
MOVO tmpStore, C3
MOVO C1, tmpStore
polyMulStage3
chachaQR(A3, B3, C3, D3, C1)
MOVO tmpStore, C1
polyMulReduceStage
shiftB0Right; shiftB1Right; shiftB2Right; shiftB3Right
shiftC0Right; shiftC1Right; shiftC2Right; shiftC3Right
shiftD0Right; shiftD1Right; shiftD2Right; shiftD3Right
DECQ itr1
JGE openSSEInternalLoop
polyAdd(0(itr2))
polyMul
LEAQ (2*8)(itr2), itr2
CMPQ itr1, $-6
JG openSSEInternalLoop
// Add in the state
PADDD ·chacha20Constants<>(SB), A0; PADDD ·chacha20Constants<>(SB), A1; PADDD ·chacha20Constants<>(SB), A2; PADDD ·chacha20Constants<>(SB), A3
PADDD state1Store, B0; PADDD state1Store, B1; PADDD state1Store, B2; PADDD state1Store, B3
PADDD state2Store, C0; PADDD state2Store, C1; PADDD state2Store, C2; PADDD state2Store, C3
PADDD ctr0Store, D0; PADDD ctr1Store, D1; PADDD ctr2Store, D2; PADDD ctr3Store, D3
// Load - xor - store
MOVO D3, tmpStore
MOVOU (0*16)(inp), D3; PXOR D3, A0; MOVOU A0, (0*16)(oup)
MOVOU (1*16)(inp), D3; PXOR D3, B0; MOVOU B0, (1*16)(oup)
MOVOU (2*16)(inp), D3; PXOR D3, C0; MOVOU C0, (2*16)(oup)
MOVOU (3*16)(inp), D3; PXOR D3, D0; MOVOU D0, (3*16)(oup)
MOVOU (4*16)(inp), D0; PXOR D0, A1; MOVOU A1, (4*16)(oup)
MOVOU (5*16)(inp), D0; PXOR D0, B1; MOVOU B1, (5*16)(oup)
MOVOU (6*16)(inp), D0; PXOR D0, C1; MOVOU C1, (6*16)(oup)
MOVOU (7*16)(inp), D0; PXOR D0, D1; MOVOU D1, (7*16)(oup)
MOVOU (8*16)(inp), D0; PXOR D0, A2; MOVOU A2, (8*16)(oup)
MOVOU (9*16)(inp), D0; PXOR D0, B2; MOVOU B2, (9*16)(oup)
MOVOU (10*16)(inp), D0; PXOR D0, C2; MOVOU C2, (10*16)(oup)
MOVOU (11*16)(inp), D0; PXOR D0, D2; MOVOU D2, (11*16)(oup)
MOVOU (12*16)(inp), D0; PXOR D0, A3; MOVOU A3, (12*16)(oup)
MOVOU (13*16)(inp), D0; PXOR D0, B3; MOVOU B3, (13*16)(oup)
MOVOU (14*16)(inp), D0; PXOR D0, C3; MOVOU C3, (14*16)(oup)
MOVOU (15*16)(inp), D0; PXOR tmpStore, D0; MOVOU D0, (15*16)(oup)
LEAQ 256(inp), inp
LEAQ 256(oup), oup
SUBQ $256, inl
JMP openSSEMainLoop
openSSEMainLoopDone:
// Handle the various tail sizes efficiently
TESTQ inl, inl
JE openSSEFinalize
CMPQ inl, $64
JBE openSSETail64
CMPQ inl, $128
JBE openSSETail128
CMPQ inl, $192
JBE openSSETail192
JMP openSSETail256
openSSEFinalize:
// Hash in the PT, AAD lengths
ADDQ ad_len+80(FP), acc0; ADCQ src_len+56(FP), acc1; ADCQ $1, acc2
polyMul
// Final reduce
MOVQ acc0, t0
MOVQ acc1, t1
MOVQ acc2, t2
SUBQ $-5, acc0
SBBQ $-1, acc1
SBBQ $3, acc2
CMOVQCS t0, acc0
CMOVQCS t1, acc1
CMOVQCS t2, acc2
// Add in the "s" part of the key
ADDQ 0+sStore, acc0
ADCQ 8+sStore, acc1
// Finally, constant time compare to the tag at the end of the message
XORQ AX, AX
MOVQ $1, DX
XORQ (0*8)(inp), acc0
XORQ (1*8)(inp), acc1
ORQ acc1, acc0
CMOVQEQ DX, AX
// Return true iff tags are equal
MOVB AX, ret+96(FP)
RET
// ----------------------------------------------------------------------------
// Special optimization for buffers smaller than 129 bytes
openSSE128:
// For up to 128 bytes of ciphertext and 64 bytes for the poly key, we require to process three blocks
MOVOU ·chacha20Constants<>(SB), A0; MOVOU (1*16)(keyp), B0; MOVOU (2*16)(keyp), C0; MOVOU (3*16)(keyp), D0
MOVO A0, A1; MOVO B0, B1; MOVO C0, C1; MOVO D0, D1; PADDL ·sseIncMask<>(SB), D1
MOVO A1, A2; MOVO B1, B2; MOVO C1, C2; MOVO D1, D2; PADDL ·sseIncMask<>(SB), D2
MOVO B0, T1; MOVO C0, T2; MOVO D1, T3
MOVQ $10, itr2
openSSE128InnerCipherLoop:
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0); chachaQR(A2, B2, C2, D2, T0)
shiftB0Left; shiftB1Left; shiftB2Left
shiftC0Left; shiftC1Left; shiftC2Left
shiftD0Left; shiftD1Left; shiftD2Left
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0); chachaQR(A2, B2, C2, D2, T0)
shiftB0Right; shiftB1Right; shiftB2Right
shiftC0Right; shiftC1Right; shiftC2Right
shiftD0Right; shiftD1Right; shiftD2Right
DECQ itr2
JNE openSSE128InnerCipherLoop
// A0|B0 hold the Poly1305 32-byte key, C0,D0 can be discarded
PADDL ·chacha20Constants<>(SB), A0; PADDL ·chacha20Constants<>(SB), A1; PADDL ·chacha20Constants<>(SB), A2
PADDL T1, B0; PADDL T1, B1; PADDL T1, B2
PADDL T2, C1; PADDL T2, C2
PADDL T3, D1; PADDL ·sseIncMask<>(SB), T3; PADDL T3, D2
// Clamp and store the key
PAND ·polyClampMask<>(SB), A0
MOVOU A0, rStore; MOVOU B0, sStore
// Hash
MOVQ ad_len+80(FP), itr2
CALL polyHashADInternal<>(SB)
openSSE128Open:
CMPQ inl, $16
JB openSSETail16
SUBQ $16, inl
// Load for hashing
polyAdd(0(inp))
// Load for decryption
MOVOU (inp), T0; PXOR T0, A1; MOVOU A1, (oup)
LEAQ (1*16)(inp), inp
LEAQ (1*16)(oup), oup
polyMul
// Shift the stream "left"
MOVO B1, A1
MOVO C1, B1
MOVO D1, C1
MOVO A2, D1
MOVO B2, A2
MOVO C2, B2
MOVO D2, C2
JMP openSSE128Open
openSSETail16:
TESTQ inl, inl
JE openSSEFinalize
// We can safely load the CT from the end, because it is padded with the MAC
MOVQ inl, itr2
SHLQ $4, itr2
LEAQ ·andMask<>(SB), t0
MOVOU (inp), T0
ADDQ inl, inp
PAND -16(t0)(itr2*1), T0
MOVO T0, 0+tmpStore
MOVQ T0, t0
MOVQ 8+tmpStore, t1
PXOR A1, T0
// We can only store one byte at a time, since plaintext can be shorter than 16 bytes
openSSETail16Store:
MOVQ T0, t3
MOVB t3, (oup)
PSRLDQ $1, T0
INCQ oup
DECQ inl
JNE openSSETail16Store
ADDQ t0, acc0; ADCQ t1, acc1; ADCQ $1, acc2
polyMul
JMP openSSEFinalize
// ----------------------------------------------------------------------------
// Special optimization for the last 64 bytes of ciphertext
openSSETail64:
// Need to decrypt up to 64 bytes - prepare single block
MOVO ·chacha20Constants<>(SB), A0; MOVO state1Store, B0; MOVO state2Store, C0; MOVO ctr3Store, D0; PADDL ·sseIncMask<>(SB), D0; MOVO D0, ctr0Store
XORQ itr2, itr2
MOVQ inl, itr1
CMPQ itr1, $16
JB openSSETail64LoopB
openSSETail64LoopA:
// Perform ChaCha rounds, while hashing the remaining input
polyAdd(0(inp)(itr2*1))
polyMul
SUBQ $16, itr1
openSSETail64LoopB:
ADDQ $16, itr2
chachaQR(A0, B0, C0, D0, T0)
shiftB0Left; shiftC0Left; shiftD0Left
chachaQR(A0, B0, C0, D0, T0)
shiftB0Right; shiftC0Right; shiftD0Right
CMPQ itr1, $16
JAE openSSETail64LoopA
CMPQ itr2, $160
JNE openSSETail64LoopB
PADDL ·chacha20Constants<>(SB), A0; PADDL state1Store, B0; PADDL state2Store, C0; PADDL ctr0Store, D0
openSSETail64DecLoop:
CMPQ inl, $16
JB openSSETail64DecLoopDone
SUBQ $16, inl
MOVOU (inp), T0
PXOR T0, A0
MOVOU A0, (oup)
LEAQ 16(inp), inp
LEAQ 16(oup), oup
MOVO B0, A0
MOVO C0, B0
MOVO D0, C0
JMP openSSETail64DecLoop
openSSETail64DecLoopDone:
MOVO A0, A1
JMP openSSETail16
// ----------------------------------------------------------------------------
// Special optimization for the last 128 bytes of ciphertext
openSSETail128:
// Need to decrypt up to 128 bytes - prepare two blocks
MOVO ·chacha20Constants<>(SB), A1; MOVO state1Store, B1; MOVO state2Store, C1; MOVO ctr3Store, D1; PADDL ·sseIncMask<>(SB), D1; MOVO D1, ctr0Store
MOVO A1, A0; MOVO B1, B0; MOVO C1, C0; MOVO D1, D0; PADDL ·sseIncMask<>(SB), D0; MOVO D0, ctr1Store
XORQ itr2, itr2
MOVQ inl, itr1
ANDQ $-16, itr1
openSSETail128LoopA:
// Perform ChaCha rounds, while hashing the remaining input
polyAdd(0(inp)(itr2*1))
polyMul
openSSETail128LoopB:
ADDQ $16, itr2
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0)
shiftB0Left; shiftC0Left; shiftD0Left
shiftB1Left; shiftC1Left; shiftD1Left
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0)
shiftB0Right; shiftC0Right; shiftD0Right
shiftB1Right; shiftC1Right; shiftD1Right
CMPQ itr2, itr1
JB openSSETail128LoopA
CMPQ itr2, $160
JNE openSSETail128LoopB
PADDL ·chacha20Constants<>(SB), A0; PADDL ·chacha20Constants<>(SB), A1
PADDL state1Store, B0; PADDL state1Store, B1
PADDL state2Store, C0; PADDL state2Store, C1
PADDL ctr1Store, D0; PADDL ctr0Store, D1
MOVOU (0*16)(inp), T0; MOVOU (1*16)(inp), T1; MOVOU (2*16)(inp), T2; MOVOU (3*16)(inp), T3
PXOR T0, A1; PXOR T1, B1; PXOR T2, C1; PXOR T3, D1
MOVOU A1, (0*16)(oup); MOVOU B1, (1*16)(oup); MOVOU C1, (2*16)(oup); MOVOU D1, (3*16)(oup)
SUBQ $64, inl
LEAQ 64(inp), inp
LEAQ 64(oup), oup
JMP openSSETail64DecLoop
// ----------------------------------------------------------------------------
// Special optimization for the last 192 bytes of ciphertext
openSSETail192:
// Need to decrypt up to 192 bytes - prepare three blocks
MOVO ·chacha20Constants<>(SB), A2; MOVO state1Store, B2; MOVO state2Store, C2; MOVO ctr3Store, D2; PADDL ·sseIncMask<>(SB), D2; MOVO D2, ctr0Store
MOVO A2, A1; MOVO B2, B1; MOVO C2, C1; MOVO D2, D1; PADDL ·sseIncMask<>(SB), D1; MOVO D1, ctr1Store
MOVO A1, A0; MOVO B1, B0; MOVO C1, C0; MOVO D1, D0; PADDL ·sseIncMask<>(SB), D0; MOVO D0, ctr2Store
MOVQ inl, itr1
MOVQ $160, itr2
CMPQ itr1, $160
CMOVQGT itr2, itr1
ANDQ $-16, itr1
XORQ itr2, itr2
openSSLTail192LoopA:
// Perform ChaCha rounds, while hashing the remaining input
polyAdd(0(inp)(itr2*1))
polyMul
openSSLTail192LoopB:
ADDQ $16, itr2
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0); chachaQR(A2, B2, C2, D2, T0)
shiftB0Left; shiftC0Left; shiftD0Left
shiftB1Left; shiftC1Left; shiftD1Left
shiftB2Left; shiftC2Left; shiftD2Left
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0); chachaQR(A2, B2, C2, D2, T0)
shiftB0Right; shiftC0Right; shiftD0Right
shiftB1Right; shiftC1Right; shiftD1Right
shiftB2Right; shiftC2Right; shiftD2Right
CMPQ itr2, itr1
JB openSSLTail192LoopA
CMPQ itr2, $160
JNE openSSLTail192LoopB
CMPQ inl, $176
JB openSSLTail192Store
polyAdd(160(inp))
polyMul
CMPQ inl, $192
JB openSSLTail192Store
polyAdd(176(inp))
polyMul
openSSLTail192Store:
PADDL ·chacha20Constants<>(SB), A0; PADDL ·chacha20Constants<>(SB), A1; PADDL ·chacha20Constants<>(SB), A2
PADDL state1Store, B0; PADDL state1Store, B1; PADDL state1Store, B2
PADDL state2Store, C0; PADDL state2Store, C1; PADDL state2Store, C2
PADDL ctr2Store, D0; PADDL ctr1Store, D1; PADDL ctr0Store, D2
MOVOU (0*16)(inp), T0; MOVOU (1*16)(inp), T1; MOVOU (2*16)(inp), T2; MOVOU (3*16)(inp), T3
PXOR T0, A2; PXOR T1, B2; PXOR T2, C2; PXOR T3, D2
MOVOU A2, (0*16)(oup); MOVOU B2, (1*16)(oup); MOVOU C2, (2*16)(oup); MOVOU D2, (3*16)(oup)
MOVOU (4*16)(inp), T0; MOVOU (5*16)(inp), T1; MOVOU (6*16)(inp), T2; MOVOU (7*16)(inp), T3
PXOR T0, A1; PXOR T1, B1; PXOR T2, C1; PXOR T3, D1
MOVOU A1, (4*16)(oup); MOVOU B1, (5*16)(oup); MOVOU C1, (6*16)(oup); MOVOU D1, (7*16)(oup)
SUBQ $128, inl
LEAQ 128(inp), inp
LEAQ 128(oup), oup
JMP openSSETail64DecLoop
// ----------------------------------------------------------------------------
// Special optimization for the last 256 bytes of ciphertext
openSSETail256:
// Need to decrypt up to 256 bytes - prepare four blocks
MOVO ·chacha20Constants<>(SB), A0; MOVO state1Store, B0; MOVO state2Store, C0; MOVO ctr3Store, D0; PADDL ·sseIncMask<>(SB), D0
MOVO A0, A1; MOVO B0, B1; MOVO C0, C1; MOVO D0, D1; PADDL ·sseIncMask<>(SB), D1
MOVO A1, A2; MOVO B1, B2; MOVO C1, C2; MOVO D1, D2; PADDL ·sseIncMask<>(SB), D2
MOVO A2, A3; MOVO B2, B3; MOVO C2, C3; MOVO D2, D3; PADDL ·sseIncMask<>(SB), D3
// Store counters
MOVO D0, ctr0Store; MOVO D1, ctr1Store; MOVO D2, ctr2Store; MOVO D3, ctr3Store
XORQ itr2, itr2
openSSETail256Loop:
// This loop inteleaves 8 ChaCha quarter rounds with 1 poly multiplication
polyAdd(0(inp)(itr2*1))
MOVO C3, tmpStore
chachaQR(A0, B0, C0, D0, C3); chachaQR(A1, B1, C1, D1, C3); chachaQR(A2, B2, C2, D2, C3)
MOVO tmpStore, C3
MOVO C1, tmpStore
chachaQR(A3, B3, C3, D3, C1)
MOVO tmpStore, C1
shiftB0Left; shiftB1Left; shiftB2Left; shiftB3Left
shiftC0Left; shiftC1Left; shiftC2Left; shiftC3Left
shiftD0Left; shiftD1Left; shiftD2Left; shiftD3Left
polyMulStage1
polyMulStage2
MOVO C3, tmpStore
chachaQR(A0, B0, C0, D0, C3); chachaQR(A1, B1, C1, D1, C3); chachaQR(A2, B2, C2, D2, C3)
MOVO tmpStore, C3
MOVO C1, tmpStore
chachaQR(A3, B3, C3, D3, C1)
MOVO tmpStore, C1
polyMulStage3
polyMulReduceStage
shiftB0Right; shiftB1Right; shiftB2Right; shiftB3Right
shiftC0Right; shiftC1Right; shiftC2Right; shiftC3Right
shiftD0Right; shiftD1Right; shiftD2Right; shiftD3Right
ADDQ $2*8, itr2
CMPQ itr2, $160
JB openSSETail256Loop
MOVQ inl, itr1
ANDQ $-16, itr1
openSSETail256HashLoop:
polyAdd(0(inp)(itr2*1))
polyMul
ADDQ $2*8, itr2
CMPQ itr2, itr1
JB openSSETail256HashLoop
// Add in the state
PADDD ·chacha20Constants<>(SB), A0; PADDD ·chacha20Constants<>(SB), A1; PADDD ·chacha20Constants<>(SB), A2; PADDD ·chacha20Constants<>(SB), A3
PADDD state1Store, B0; PADDD state1Store, B1; PADDD state1Store, B2; PADDD state1Store, B3
PADDD state2Store, C0; PADDD state2Store, C1; PADDD state2Store, C2; PADDD state2Store, C3
PADDD ctr0Store, D0; PADDD ctr1Store, D1; PADDD ctr2Store, D2; PADDD ctr3Store, D3
MOVO D3, tmpStore
// Load - xor - store
MOVOU (0*16)(inp), D3; PXOR D3, A0
MOVOU (1*16)(inp), D3; PXOR D3, B0
MOVOU (2*16)(inp), D3; PXOR D3, C0
MOVOU (3*16)(inp), D3; PXOR D3, D0
MOVOU A0, (0*16)(oup)
MOVOU B0, (1*16)(oup)
MOVOU C0, (2*16)(oup)
MOVOU D0, (3*16)(oup)
MOVOU (4*16)(inp), A0; MOVOU (5*16)(inp), B0; MOVOU (6*16)(inp), C0; MOVOU (7*16)(inp), D0
PXOR A0, A1; PXOR B0, B1; PXOR C0, C1; PXOR D0, D1
MOVOU A1, (4*16)(oup); MOVOU B1, (5*16)(oup); MOVOU C1, (6*16)(oup); MOVOU D1, (7*16)(oup)
MOVOU (8*16)(inp), A0; MOVOU (9*16)(inp), B0; MOVOU (10*16)(inp), C0; MOVOU (11*16)(inp), D0
PXOR A0, A2; PXOR B0, B2; PXOR C0, C2; PXOR D0, D2
MOVOU A2, (8*16)(oup); MOVOU B2, (9*16)(oup); MOVOU C2, (10*16)(oup); MOVOU D2, (11*16)(oup)
LEAQ 192(inp), inp
LEAQ 192(oup), oup
SUBQ $192, inl
MOVO A3, A0
MOVO B3, B0
MOVO C3, C0
MOVO tmpStore, D0
JMP openSSETail64DecLoop
// ----------------------------------------------------------------------------
// ------------------------- AVX2 Code ----------------------------------------
chacha20Poly1305Open_AVX2:
VZEROUPPER
VMOVDQU ·chacha20Constants<>(SB), AA0
BYTE $0xc4; BYTE $0x42; BYTE $0x7d; BYTE $0x5a; BYTE $0x70; BYTE $0x10 // broadcasti128 16(r8), ymm14
BYTE $0xc4; BYTE $0x42; BYTE $0x7d; BYTE $0x5a; BYTE $0x60; BYTE $0x20 // broadcasti128 32(r8), ymm12
BYTE $0xc4; BYTE $0xc2; BYTE $0x7d; BYTE $0x5a; BYTE $0x60; BYTE $0x30 // broadcasti128 48(r8), ymm4
VPADDD ·avx2InitMask<>(SB), DD0, DD0
// Special optimization, for very short buffers
CMPQ inl, $192
JBE openAVX2192
CMPQ inl, $320
JBE openAVX2320
// For the general key prepare the key first - as a byproduct we have 64 bytes of cipher stream
VMOVDQA BB0, state1StoreAVX2
VMOVDQA CC0, state2StoreAVX2
VMOVDQA DD0, ctr3StoreAVX2
MOVQ $10, itr2
openAVX2PreparePolyKey:
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0)
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $12, DD0, DD0, DD0
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0)
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $4, DD0, DD0, DD0
DECQ itr2
JNE openAVX2PreparePolyKey
VPADDD ·chacha20Constants<>(SB), AA0, AA0
VPADDD state1StoreAVX2, BB0, BB0
VPADDD state2StoreAVX2, CC0, CC0
VPADDD ctr3StoreAVX2, DD0, DD0
VPERM2I128 $0x02, AA0, BB0, TT0
// Clamp and store poly key
VPAND ·polyClampMask<>(SB), TT0, TT0
VMOVDQA TT0, rsStoreAVX2
// Stream for the first 64 bytes
VPERM2I128 $0x13, AA0, BB0, AA0
VPERM2I128 $0x13, CC0, DD0, BB0
// Hash AD + first 64 bytes
MOVQ ad_len+80(FP), itr2
CALL polyHashADInternal<>(SB)
XORQ itr1, itr1
openAVX2InitialHash64:
polyAdd(0(inp)(itr1*1))
polyMulAVX2
ADDQ $16, itr1
CMPQ itr1, $64
JNE openAVX2InitialHash64
// Decrypt the first 64 bytes
VPXOR (0*32)(inp), AA0, AA0
VPXOR (1*32)(inp), BB0, BB0
VMOVDQU AA0, (0*32)(oup)
VMOVDQU BB0, (1*32)(oup)
LEAQ (2*32)(inp), inp
LEAQ (2*32)(oup), oup
SUBQ $64, inl
openAVX2MainLoop:
CMPQ inl, $512
JB openAVX2MainLoopDone
// Load state, increment counter blocks, store the incremented counters
VMOVDQU ·chacha20Constants<>(SB), AA0; VMOVDQA AA0, AA1; VMOVDQA AA0, AA2; VMOVDQA AA0, AA3
VMOVDQA state1StoreAVX2, BB0; VMOVDQA BB0, BB1; VMOVDQA BB0, BB2; VMOVDQA BB0, BB3
VMOVDQA state2StoreAVX2, CC0; VMOVDQA CC0, CC1; VMOVDQA CC0, CC2; VMOVDQA CC0, CC3
VMOVDQA ctr3StoreAVX2, DD0; VPADDD ·avx2IncMask<>(SB), DD0, DD0; VPADDD ·avx2IncMask<>(SB), DD0, DD1; VPADDD ·avx2IncMask<>(SB), DD1, DD2; VPADDD ·avx2IncMask<>(SB), DD2, DD3
VMOVDQA DD0, ctr0StoreAVX2; VMOVDQA DD1, ctr1StoreAVX2; VMOVDQA DD2, ctr2StoreAVX2; VMOVDQA DD3, ctr3StoreAVX2
XORQ itr1, itr1
openAVX2InternalLoop:
// Lets just say this spaghetti loop interleaves 2 quarter rounds with 3 poly multiplications
// Effectively per 512 bytes of stream we hash 480 bytes of ciphertext
polyAdd(0*8(inp)(itr1*1))
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
polyMulStage1_AVX2
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol16<>(SB), DD0, DD0; VPSHUFB ·rol16<>(SB), DD1, DD1; VPSHUFB ·rol16<>(SB), DD2, DD2; VPSHUFB ·rol16<>(SB), DD3, DD3
polyMulStage2_AVX2
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
polyMulStage3_AVX2
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $12, BB0, CC3; VPSRLD $20, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $12, BB1, CC3; VPSRLD $20, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $12, BB2, CC3; VPSRLD $20, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $12, BB3, CC3; VPSRLD $20, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
polyMulReduceStage
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol8<>(SB), DD0, DD0; VPSHUFB ·rol8<>(SB), DD1, DD1; VPSHUFB ·rol8<>(SB), DD2, DD2; VPSHUFB ·rol8<>(SB), DD3, DD3
polyAdd(2*8(inp)(itr1*1))
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
polyMulStage1_AVX2
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $7, BB0, CC3; VPSRLD $25, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $7, BB1, CC3; VPSRLD $25, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $7, BB2, CC3; VPSRLD $25, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $7, BB3, CC3; VPSRLD $25, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
polyMulStage2_AVX2
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1; VPALIGNR $4, BB2, BB2, BB2; VPALIGNR $4, BB3, BB3, BB3
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $8, CC3, CC3, CC3
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1; VPALIGNR $12, DD2, DD2, DD2; VPALIGNR $12, DD3, DD3, DD3
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
polyMulStage3_AVX2
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol16<>(SB), DD0, DD0; VPSHUFB ·rol16<>(SB), DD1, DD1; VPSHUFB ·rol16<>(SB), DD2, DD2; VPSHUFB ·rol16<>(SB), DD3, DD3
polyMulReduceStage
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
polyAdd(4*8(inp)(itr1*1))
LEAQ (6*8)(itr1), itr1
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $12, BB0, CC3; VPSRLD $20, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $12, BB1, CC3; VPSRLD $20, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $12, BB2, CC3; VPSRLD $20, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $12, BB3, CC3; VPSRLD $20, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
polyMulStage1_AVX2
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
polyMulStage2_AVX2
VPSHUFB ·rol8<>(SB), DD0, DD0; VPSHUFB ·rol8<>(SB), DD1, DD1; VPSHUFB ·rol8<>(SB), DD2, DD2; VPSHUFB ·rol8<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
polyMulStage3_AVX2
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $7, BB0, CC3; VPSRLD $25, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $7, BB1, CC3; VPSRLD $25, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $7, BB2, CC3; VPSRLD $25, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $7, BB3, CC3; VPSRLD $25, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
polyMulReduceStage
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1; VPALIGNR $12, BB2, BB2, BB2; VPALIGNR $12, BB3, BB3, BB3
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $8, CC3, CC3, CC3
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1; VPALIGNR $4, DD2, DD2, DD2; VPALIGNR $4, DD3, DD3, DD3
CMPQ itr1, $480
JNE openAVX2InternalLoop
VPADDD ·chacha20Constants<>(SB), AA0, AA0; VPADDD ·chacha20Constants<>(SB), AA1, AA1; VPADDD ·chacha20Constants<>(SB), AA2, AA2; VPADDD ·chacha20Constants<>(SB), AA3, AA3
VPADDD state1StoreAVX2, BB0, BB0; VPADDD state1StoreAVX2, BB1, BB1; VPADDD state1StoreAVX2, BB2, BB2; VPADDD state1StoreAVX2, BB3, BB3
VPADDD state2StoreAVX2, CC0, CC0; VPADDD state2StoreAVX2, CC1, CC1; VPADDD state2StoreAVX2, CC2, CC2; VPADDD state2StoreAVX2, CC3, CC3
VPADDD ctr0StoreAVX2, DD0, DD0; VPADDD ctr1StoreAVX2, DD1, DD1; VPADDD ctr2StoreAVX2, DD2, DD2; VPADDD ctr3StoreAVX2, DD3, DD3
VMOVDQA CC3, tmpStoreAVX2
// We only hashed 480 of the 512 bytes available - hash the remaining 32 here
polyAdd(480(inp))
polyMulAVX2
VPERM2I128 $0x02, AA0, BB0, CC3; VPERM2I128 $0x13, AA0, BB0, BB0; VPERM2I128 $0x02, CC0, DD0, AA0; VPERM2I128 $0x13, CC0, DD0, CC0
VPXOR (0*32)(inp), CC3, CC3; VPXOR (1*32)(inp), AA0, AA0; VPXOR (2*32)(inp), BB0, BB0; VPXOR (3*32)(inp), CC0, CC0
VMOVDQU CC3, (0*32)(oup); VMOVDQU AA0, (1*32)(oup); VMOVDQU BB0, (2*32)(oup); VMOVDQU CC0, (3*32)(oup)
VPERM2I128 $0x02, AA1, BB1, AA0; VPERM2I128 $0x02, CC1, DD1, BB0; VPERM2I128 $0x13, AA1, BB1, CC0; VPERM2I128 $0x13, CC1, DD1, DD0
VPXOR (4*32)(inp), AA0, AA0; VPXOR (5*32)(inp), BB0, BB0; VPXOR (6*32)(inp), CC0, CC0; VPXOR (7*32)(inp), DD0, DD0
VMOVDQU AA0, (4*32)(oup); VMOVDQU BB0, (5*32)(oup); VMOVDQU CC0, (6*32)(oup); VMOVDQU DD0, (7*32)(oup)
// and here
polyAdd(496(inp))
polyMulAVX2
VPERM2I128 $0x02, AA2, BB2, AA0; VPERM2I128 $0x02, CC2, DD2, BB0; VPERM2I128 $0x13, AA2, BB2, CC0; VPERM2I128 $0x13, CC2, DD2, DD0
VPXOR (8*32)(inp), AA0, AA0; VPXOR (9*32)(inp), BB0, BB0; VPXOR (10*32)(inp), CC0, CC0; VPXOR (11*32)(inp), DD0, DD0
VMOVDQU AA0, (8*32)(oup); VMOVDQU BB0, (9*32)(oup); VMOVDQU CC0, (10*32)(oup); VMOVDQU DD0, (11*32)(oup)
VPERM2I128 $0x02, AA3, BB3, AA0; VPERM2I128 $0x02, tmpStoreAVX2, DD3, BB0; VPERM2I128 $0x13, AA3, BB3, CC0; VPERM2I128 $0x13, tmpStoreAVX2, DD3, DD0
VPXOR (12*32)(inp), AA0, AA0; VPXOR (13*32)(inp), BB0, BB0; VPXOR (14*32)(inp), CC0, CC0; VPXOR (15*32)(inp), DD0, DD0
VMOVDQU AA0, (12*32)(oup); VMOVDQU BB0, (13*32)(oup); VMOVDQU CC0, (14*32)(oup); VMOVDQU DD0, (15*32)(oup)
LEAQ (32*16)(inp), inp
LEAQ (32*16)(oup), oup
SUBQ $(32*16), inl
JMP openAVX2MainLoop
openAVX2MainLoopDone:
// Handle the various tail sizes efficiently
TESTQ inl, inl
JE openSSEFinalize
CMPQ inl, $128
JBE openAVX2Tail128
CMPQ inl, $256
JBE openAVX2Tail256
CMPQ inl, $384
JBE openAVX2Tail384
JMP openAVX2Tail512
// ----------------------------------------------------------------------------
// Special optimization for buffers smaller than 193 bytes
openAVX2192:
// For up to 192 bytes of ciphertext and 64 bytes for the poly key, we process four blocks
VMOVDQA AA0, AA1
VMOVDQA BB0, BB1
VMOVDQA CC0, CC1
VPADDD ·avx2IncMask<>(SB), DD0, DD1
VMOVDQA AA0, AA2
VMOVDQA BB0, BB2
VMOVDQA CC0, CC2
VMOVDQA DD0, DD2
VMOVDQA DD1, TT3
MOVQ $10, itr2
openAVX2192InnerCipherLoop:
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0)
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0)
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1
DECQ itr2
JNE openAVX2192InnerCipherLoop
VPADDD AA2, AA0, AA0; VPADDD AA2, AA1, AA1
VPADDD BB2, BB0, BB0; VPADDD BB2, BB1, BB1
VPADDD CC2, CC0, CC0; VPADDD CC2, CC1, CC1
VPADDD DD2, DD0, DD0; VPADDD TT3, DD1, DD1
VPERM2I128 $0x02, AA0, BB0, TT0
// Clamp and store poly key
VPAND ·polyClampMask<>(SB), TT0, TT0
VMOVDQA TT0, rsStoreAVX2
// Stream for up to 192 bytes
VPERM2I128 $0x13, AA0, BB0, AA0
VPERM2I128 $0x13, CC0, DD0, BB0
VPERM2I128 $0x02, AA1, BB1, CC0
VPERM2I128 $0x02, CC1, DD1, DD0
VPERM2I128 $0x13, AA1, BB1, AA1
VPERM2I128 $0x13, CC1, DD1, BB1
openAVX2ShortOpen:
// Hash
MOVQ ad_len+80(FP), itr2
CALL polyHashADInternal<>(SB)
openAVX2ShortOpenLoop:
CMPQ inl, $32
JB openAVX2ShortTail32
SUBQ $32, inl
// Load for hashing
polyAdd(0*8(inp))
polyMulAVX2
polyAdd(2*8(inp))
polyMulAVX2
// Load for decryption
VPXOR (inp), AA0, AA0
VMOVDQU AA0, (oup)
LEAQ (1*32)(inp), inp
LEAQ (1*32)(oup), oup
// Shift stream left
VMOVDQA BB0, AA0
VMOVDQA CC0, BB0
VMOVDQA DD0, CC0
VMOVDQA AA1, DD0
VMOVDQA BB1, AA1
VMOVDQA CC1, BB1
VMOVDQA DD1, CC1
VMOVDQA AA2, DD1
VMOVDQA BB2, AA2
JMP openAVX2ShortOpenLoop
openAVX2ShortTail32:
CMPQ inl, $16
VMOVDQA A0, A1
JB openAVX2ShortDone
SUBQ $16, inl
// Load for hashing
polyAdd(0*8(inp))
polyMulAVX2
// Load for decryption
VPXOR (inp), A0, T0
VMOVDQU T0, (oup)
LEAQ (1*16)(inp), inp
LEAQ (1*16)(oup), oup
VPERM2I128 $0x11, AA0, AA0, AA0
VMOVDQA A0, A1
openAVX2ShortDone:
VZEROUPPER
JMP openSSETail16
// ----------------------------------------------------------------------------
// Special optimization for buffers smaller than 321 bytes
openAVX2320:
// For up to 320 bytes of ciphertext and 64 bytes for the poly key, we process six blocks
VMOVDQA AA0, AA1; VMOVDQA BB0, BB1; VMOVDQA CC0, CC1; VPADDD ·avx2IncMask<>(SB), DD0, DD1
VMOVDQA AA0, AA2; VMOVDQA BB0, BB2; VMOVDQA CC0, CC2; VPADDD ·avx2IncMask<>(SB), DD1, DD2
VMOVDQA BB0, TT1; VMOVDQA CC0, TT2; VMOVDQA DD0, TT3
MOVQ $10, itr2
openAVX2320InnerCipherLoop:
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0); chachaQR_AVX2(AA2, BB2, CC2, DD2, TT0)
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1; VPALIGNR $4, BB2, BB2, BB2
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1; VPALIGNR $12, DD2, DD2, DD2
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0); chachaQR_AVX2(AA2, BB2, CC2, DD2, TT0)
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1; VPALIGNR $12, BB2, BB2, BB2
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1; VPALIGNR $4, DD2, DD2, DD2
DECQ itr2
JNE openAVX2320InnerCipherLoop
VMOVDQA ·chacha20Constants<>(SB), TT0
VPADDD TT0, AA0, AA0; VPADDD TT0, AA1, AA1; VPADDD TT0, AA2, AA2
VPADDD TT1, BB0, BB0; VPADDD TT1, BB1, BB1; VPADDD TT1, BB2, BB2
VPADDD TT2, CC0, CC0; VPADDD TT2, CC1, CC1; VPADDD TT2, CC2, CC2
VMOVDQA ·avx2IncMask<>(SB), TT0
VPADDD TT3, DD0, DD0; VPADDD TT0, TT3, TT3
VPADDD TT3, DD1, DD1; VPADDD TT0, TT3, TT3
VPADDD TT3, DD2, DD2
// Clamp and store poly key
VPERM2I128 $0x02, AA0, BB0, TT0
VPAND ·polyClampMask<>(SB), TT0, TT0
VMOVDQA TT0, rsStoreAVX2
// Stream for up to 320 bytes
VPERM2I128 $0x13, AA0, BB0, AA0
VPERM2I128 $0x13, CC0, DD0, BB0
VPERM2I128 $0x02, AA1, BB1, CC0
VPERM2I128 $0x02, CC1, DD1, DD0
VPERM2I128 $0x13, AA1, BB1, AA1
VPERM2I128 $0x13, CC1, DD1, BB1
VPERM2I128 $0x02, AA2, BB2, CC1
VPERM2I128 $0x02, CC2, DD2, DD1
VPERM2I128 $0x13, AA2, BB2, AA2
VPERM2I128 $0x13, CC2, DD2, BB2
JMP openAVX2ShortOpen
// ----------------------------------------------------------------------------
// Special optimization for the last 128 bytes of ciphertext
openAVX2Tail128:
// Need to decrypt up to 128 bytes - prepare two blocks
VMOVDQA ·chacha20Constants<>(SB), AA1
VMOVDQA state1StoreAVX2, BB1
VMOVDQA state2StoreAVX2, CC1
VMOVDQA ctr3StoreAVX2, DD1
VPADDD ·avx2IncMask<>(SB), DD1, DD1
VMOVDQA DD1, DD0
XORQ itr2, itr2
MOVQ inl, itr1
ANDQ $-16, itr1
TESTQ itr1, itr1
JE openAVX2Tail128LoopB
openAVX2Tail128LoopA:
// Perform ChaCha rounds, while hashing the remaining input
polyAdd(0(inp)(itr2*1))
polyMulAVX2
openAVX2Tail128LoopB:
ADDQ $16, itr2
chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0)
VPALIGNR $4, BB1, BB1, BB1
VPALIGNR $8, CC1, CC1, CC1
VPALIGNR $12, DD1, DD1, DD1
chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0)
VPALIGNR $12, BB1, BB1, BB1
VPALIGNR $8, CC1, CC1, CC1
VPALIGNR $4, DD1, DD1, DD1
CMPQ itr2, itr1
JB openAVX2Tail128LoopA
CMPQ itr2, $160
JNE openAVX2Tail128LoopB
VPADDD ·chacha20Constants<>(SB), AA1, AA1
VPADDD state1StoreAVX2, BB1, BB1
VPADDD state2StoreAVX2, CC1, CC1
VPADDD DD0, DD1, DD1
VPERM2I128 $0x02, AA1, BB1, AA0; VPERM2I128 $0x02, CC1, DD1, BB0; VPERM2I128 $0x13, AA1, BB1, CC0; VPERM2I128 $0x13, CC1, DD1, DD0
openAVX2TailLoop:
CMPQ inl, $32
JB openAVX2Tail
SUBQ $32, inl
// Load for decryption
VPXOR (inp), AA0, AA0
VMOVDQU AA0, (oup)
LEAQ (1*32)(inp), inp
LEAQ (1*32)(oup), oup
VMOVDQA BB0, AA0
VMOVDQA CC0, BB0
VMOVDQA DD0, CC0
JMP openAVX2TailLoop
openAVX2Tail:
CMPQ inl, $16
VMOVDQA A0, A1
JB openAVX2TailDone
SUBQ $16, inl
// Load for decryption
VPXOR (inp), A0, T0
VMOVDQU T0, (oup)
LEAQ (1*16)(inp), inp
LEAQ (1*16)(oup), oup
VPERM2I128 $0x11, AA0, AA0, AA0
VMOVDQA A0, A1
openAVX2TailDone:
VZEROUPPER
JMP openSSETail16
// ----------------------------------------------------------------------------
// Special optimization for the last 256 bytes of ciphertext
openAVX2Tail256:
// Need to decrypt up to 256 bytes - prepare four blocks
VMOVDQA ·chacha20Constants<>(SB), AA0; VMOVDQA AA0, AA1
VMOVDQA state1StoreAVX2, BB0; VMOVDQA BB0, BB1
VMOVDQA state2StoreAVX2, CC0; VMOVDQA CC0, CC1
VMOVDQA ctr3StoreAVX2, DD0
VPADDD ·avx2IncMask<>(SB), DD0, DD0
VPADDD ·avx2IncMask<>(SB), DD0, DD1
VMOVDQA DD0, TT1
VMOVDQA DD1, TT2
// Compute the number of iterations that will hash data
MOVQ inl, tmpStoreAVX2
MOVQ inl, itr1
SUBQ $128, itr1
SHRQ $4, itr1
MOVQ $10, itr2
CMPQ itr1, $10
CMOVQGT itr2, itr1
MOVQ inp, inl
XORQ itr2, itr2
openAVX2Tail256LoopA:
polyAdd(0(inl))
polyMulAVX2
LEAQ 16(inl), inl
// Perform ChaCha rounds, while hashing the remaining input
openAVX2Tail256LoopB:
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0)
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1
INCQ itr2
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0)
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1
CMPQ itr2, itr1
JB openAVX2Tail256LoopA
CMPQ itr2, $10
JNE openAVX2Tail256LoopB
MOVQ inl, itr2
SUBQ inp, inl
MOVQ inl, itr1
MOVQ tmpStoreAVX2, inl
// Hash the remainder of data (if any)
openAVX2Tail256Hash:
ADDQ $16, itr1
CMPQ itr1, inl
JGT openAVX2Tail256HashEnd
polyAdd (0(itr2))
polyMulAVX2
LEAQ 16(itr2), itr2
JMP openAVX2Tail256Hash
// Store 128 bytes safely, then go to store loop
openAVX2Tail256HashEnd:
VPADDD ·chacha20Constants<>(SB), AA0, AA0; VPADDD ·chacha20Constants<>(SB), AA1, AA1
VPADDD state1StoreAVX2, BB0, BB0; VPADDD state1StoreAVX2, BB1, BB1
VPADDD state2StoreAVX2, CC0, CC0; VPADDD state2StoreAVX2, CC1, CC1
VPADDD TT1, DD0, DD0; VPADDD TT2, DD1, DD1
VPERM2I128 $0x02, AA0, BB0, AA2; VPERM2I128 $0x02, CC0, DD0, BB2; VPERM2I128 $0x13, AA0, BB0, CC2; VPERM2I128 $0x13, CC0, DD0, DD2
VPERM2I128 $0x02, AA1, BB1, AA0; VPERM2I128 $0x02, CC1, DD1, BB0; VPERM2I128 $0x13, AA1, BB1, CC0; VPERM2I128 $0x13, CC1, DD1, DD0
VPXOR (0*32)(inp), AA2, AA2; VPXOR (1*32)(inp), BB2, BB2; VPXOR (2*32)(inp), CC2, CC2; VPXOR (3*32)(inp), DD2, DD2
VMOVDQU AA2, (0*32)(oup); VMOVDQU BB2, (1*32)(oup); VMOVDQU CC2, (2*32)(oup); VMOVDQU DD2, (3*32)(oup)
LEAQ (4*32)(inp), inp
LEAQ (4*32)(oup), oup
SUBQ $4*32, inl
JMP openAVX2TailLoop
// ----------------------------------------------------------------------------
// Special optimization for the last 384 bytes of ciphertext
openAVX2Tail384:
// Need to decrypt up to 384 bytes - prepare six blocks
VMOVDQA ·chacha20Constants<>(SB), AA0; VMOVDQA AA0, AA1; VMOVDQA AA0, AA2
VMOVDQA state1StoreAVX2, BB0; VMOVDQA BB0, BB1; VMOVDQA BB0, BB2
VMOVDQA state2StoreAVX2, CC0; VMOVDQA CC0, CC1; VMOVDQA CC0, CC2
VMOVDQA ctr3StoreAVX2, DD0
VPADDD ·avx2IncMask<>(SB), DD0, DD0
VPADDD ·avx2IncMask<>(SB), DD0, DD1
VPADDD ·avx2IncMask<>(SB), DD1, DD2
VMOVDQA DD0, ctr0StoreAVX2
VMOVDQA DD1, ctr1StoreAVX2
VMOVDQA DD2, ctr2StoreAVX2
// Compute the number of iterations that will hash two blocks of data
MOVQ inl, tmpStoreAVX2
MOVQ inl, itr1
SUBQ $256, itr1
SHRQ $4, itr1
ADDQ $6, itr1
MOVQ $10, itr2
CMPQ itr1, $10
CMOVQGT itr2, itr1
MOVQ inp, inl
XORQ itr2, itr2
// Perform ChaCha rounds, while hashing the remaining input
openAVX2Tail384LoopB:
polyAdd(0(inl))
polyMulAVX2
LEAQ 16(inl), inl
openAVX2Tail384LoopA:
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0); chachaQR_AVX2(AA2, BB2, CC2, DD2, TT0)
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1; VPALIGNR $4, BB2, BB2, BB2
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1; VPALIGNR $12, DD2, DD2, DD2
polyAdd(0(inl))
polyMulAVX2
LEAQ 16(inl), inl
INCQ itr2
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0); chachaQR_AVX2(AA2, BB2, CC2, DD2, TT0)
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1; VPALIGNR $12, BB2, BB2, BB2
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1; VPALIGNR $4, DD2, DD2, DD2
CMPQ itr2, itr1
JB openAVX2Tail384LoopB
CMPQ itr2, $10
JNE openAVX2Tail384LoopA
MOVQ inl, itr2
SUBQ inp, inl
MOVQ inl, itr1
MOVQ tmpStoreAVX2, inl
openAVX2Tail384Hash:
ADDQ $16, itr1
CMPQ itr1, inl
JGT openAVX2Tail384HashEnd
polyAdd(0(itr2))
polyMulAVX2
LEAQ 16(itr2), itr2
JMP openAVX2Tail384Hash
// Store 256 bytes safely, then go to store loop
openAVX2Tail384HashEnd:
VPADDD ·chacha20Constants<>(SB), AA0, AA0; VPADDD ·chacha20Constants<>(SB), AA1, AA1; VPADDD ·chacha20Constants<>(SB), AA2, AA2
VPADDD state1StoreAVX2, BB0, BB0; VPADDD state1StoreAVX2, BB1, BB1; VPADDD state1StoreAVX2, BB2, BB2
VPADDD state2StoreAVX2, CC0, CC0; VPADDD state2StoreAVX2, CC1, CC1; VPADDD state2StoreAVX2, CC2, CC2
VPADDD ctr0StoreAVX2, DD0, DD0; VPADDD ctr1StoreAVX2, DD1, DD1; VPADDD ctr2StoreAVX2, DD2, DD2
VPERM2I128 $0x02, AA0, BB0, TT0; VPERM2I128 $0x02, CC0, DD0, TT1; VPERM2I128 $0x13, AA0, BB0, TT2; VPERM2I128 $0x13, CC0, DD0, TT3
VPXOR (0*32)(inp), TT0, TT0; VPXOR (1*32)(inp), TT1, TT1; VPXOR (2*32)(inp), TT2, TT2; VPXOR (3*32)(inp), TT3, TT3
VMOVDQU TT0, (0*32)(oup); VMOVDQU TT1, (1*32)(oup); VMOVDQU TT2, (2*32)(oup); VMOVDQU TT3, (3*32)(oup)
VPERM2I128 $0x02, AA1, BB1, TT0; VPERM2I128 $0x02, CC1, DD1, TT1; VPERM2I128 $0x13, AA1, BB1, TT2; VPERM2I128 $0x13, CC1, DD1, TT3
VPXOR (4*32)(inp), TT0, TT0; VPXOR (5*32)(inp), TT1, TT1; VPXOR (6*32)(inp), TT2, TT2; VPXOR (7*32)(inp), TT3, TT3
VMOVDQU TT0, (4*32)(oup); VMOVDQU TT1, (5*32)(oup); VMOVDQU TT2, (6*32)(oup); VMOVDQU TT3, (7*32)(oup)
VPERM2I128 $0x02, AA2, BB2, AA0; VPERM2I128 $0x02, CC2, DD2, BB0; VPERM2I128 $0x13, AA2, BB2, CC0; VPERM2I128 $0x13, CC2, DD2, DD0
LEAQ (8*32)(inp), inp
LEAQ (8*32)(oup), oup
SUBQ $8*32, inl
JMP openAVX2TailLoop
// ----------------------------------------------------------------------------
// Special optimization for the last 512 bytes of ciphertext
openAVX2Tail512:
VMOVDQU ·chacha20Constants<>(SB), AA0; VMOVDQA AA0, AA1; VMOVDQA AA0, AA2; VMOVDQA AA0, AA3
VMOVDQA state1StoreAVX2, BB0; VMOVDQA BB0, BB1; VMOVDQA BB0, BB2; VMOVDQA BB0, BB3
VMOVDQA state2StoreAVX2, CC0; VMOVDQA CC0, CC1; VMOVDQA CC0, CC2; VMOVDQA CC0, CC3
VMOVDQA ctr3StoreAVX2, DD0; VPADDD ·avx2IncMask<>(SB), DD0, DD0; VPADDD ·avx2IncMask<>(SB), DD0, DD1; VPADDD ·avx2IncMask<>(SB), DD1, DD2; VPADDD ·avx2IncMask<>(SB), DD2, DD3
VMOVDQA DD0, ctr0StoreAVX2; VMOVDQA DD1, ctr1StoreAVX2; VMOVDQA DD2, ctr2StoreAVX2; VMOVDQA DD3, ctr3StoreAVX2
XORQ itr1, itr1
MOVQ inp, itr2
openAVX2Tail512LoopB:
polyAdd(0(itr2))
polyMulAVX2
LEAQ (2*8)(itr2), itr2
openAVX2Tail512LoopA:
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol16<>(SB), DD0, DD0; VPSHUFB ·rol16<>(SB), DD1, DD1; VPSHUFB ·rol16<>(SB), DD2, DD2; VPSHUFB ·rol16<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $12, BB0, CC3; VPSRLD $20, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $12, BB1, CC3; VPSRLD $20, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $12, BB2, CC3; VPSRLD $20, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $12, BB3, CC3; VPSRLD $20, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
polyAdd(0*8(itr2))
polyMulAVX2
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol8<>(SB), DD0, DD0; VPSHUFB ·rol8<>(SB), DD1, DD1; VPSHUFB ·rol8<>(SB), DD2, DD2; VPSHUFB ·rol8<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $7, BB0, CC3; VPSRLD $25, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $7, BB1, CC3; VPSRLD $25, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $7, BB2, CC3; VPSRLD $25, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $7, BB3, CC3; VPSRLD $25, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1; VPALIGNR $4, BB2, BB2, BB2; VPALIGNR $4, BB3, BB3, BB3
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $8, CC3, CC3, CC3
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1; VPALIGNR $12, DD2, DD2, DD2; VPALIGNR $12, DD3, DD3, DD3
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol16<>(SB), DD0, DD0; VPSHUFB ·rol16<>(SB), DD1, DD1; VPSHUFB ·rol16<>(SB), DD2, DD2; VPSHUFB ·rol16<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
polyAdd(2*8(itr2))
polyMulAVX2
LEAQ (4*8)(itr2), itr2
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $12, BB0, CC3; VPSRLD $20, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $12, BB1, CC3; VPSRLD $20, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $12, BB2, CC3; VPSRLD $20, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $12, BB3, CC3; VPSRLD $20, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol8<>(SB), DD0, DD0; VPSHUFB ·rol8<>(SB), DD1, DD1; VPSHUFB ·rol8<>(SB), DD2, DD2; VPSHUFB ·rol8<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $7, BB0, CC3; VPSRLD $25, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $7, BB1, CC3; VPSRLD $25, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $7, BB2, CC3; VPSRLD $25, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $7, BB3, CC3; VPSRLD $25, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1; VPALIGNR $12, BB2, BB2, BB2; VPALIGNR $12, BB3, BB3, BB3
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $8, CC3, CC3, CC3
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1; VPALIGNR $4, DD2, DD2, DD2; VPALIGNR $4, DD3, DD3, DD3
INCQ itr1
CMPQ itr1, $4
JLT openAVX2Tail512LoopB
CMPQ itr1, $10
JNE openAVX2Tail512LoopA
MOVQ inl, itr1
SUBQ $384, itr1
ANDQ $-16, itr1
openAVX2Tail512HashLoop:
TESTQ itr1, itr1
JE openAVX2Tail512HashEnd
polyAdd(0(itr2))
polyMulAVX2
LEAQ 16(itr2), itr2
SUBQ $16, itr1
JMP openAVX2Tail512HashLoop
openAVX2Tail512HashEnd:
VPADDD ·chacha20Constants<>(SB), AA0, AA0; VPADDD ·chacha20Constants<>(SB), AA1, AA1; VPADDD ·chacha20Constants<>(SB), AA2, AA2; VPADDD ·chacha20Constants<>(SB), AA3, AA3
VPADDD state1StoreAVX2, BB0, BB0; VPADDD state1StoreAVX2, BB1, BB1; VPADDD state1StoreAVX2, BB2, BB2; VPADDD state1StoreAVX2, BB3, BB3
VPADDD state2StoreAVX2, CC0, CC0; VPADDD state2StoreAVX2, CC1, CC1; VPADDD state2StoreAVX2, CC2, CC2; VPADDD state2StoreAVX2, CC3, CC3
VPADDD ctr0StoreAVX2, DD0, DD0; VPADDD ctr1StoreAVX2, DD1, DD1; VPADDD ctr2StoreAVX2, DD2, DD2; VPADDD ctr3StoreAVX2, DD3, DD3
VMOVDQA CC3, tmpStoreAVX2
VPERM2I128 $0x02, AA0, BB0, CC3; VPERM2I128 $0x13, AA0, BB0, BB0; VPERM2I128 $0x02, CC0, DD0, AA0; VPERM2I128 $0x13, CC0, DD0, CC0
VPXOR (0*32)(inp), CC3, CC3; VPXOR (1*32)(inp), AA0, AA0; VPXOR (2*32)(inp), BB0, BB0; VPXOR (3*32)(inp), CC0, CC0
VMOVDQU CC3, (0*32)(oup); VMOVDQU AA0, (1*32)(oup); VMOVDQU BB0, (2*32)(oup); VMOVDQU CC0, (3*32)(oup)
VPERM2I128 $0x02, AA1, BB1, AA0; VPERM2I128 $0x02, CC1, DD1, BB0; VPERM2I128 $0x13, AA1, BB1, CC0; VPERM2I128 $0x13, CC1, DD1, DD0
VPXOR (4*32)(inp), AA0, AA0; VPXOR (5*32)(inp), BB0, BB0; VPXOR (6*32)(inp), CC0, CC0; VPXOR (7*32)(inp), DD0, DD0
VMOVDQU AA0, (4*32)(oup); VMOVDQU BB0, (5*32)(oup); VMOVDQU CC0, (6*32)(oup); VMOVDQU DD0, (7*32)(oup)
VPERM2I128 $0x02, AA2, BB2, AA0; VPERM2I128 $0x02, CC2, DD2, BB0; VPERM2I128 $0x13, AA2, BB2, CC0; VPERM2I128 $0x13, CC2, DD2, DD0
VPXOR (8*32)(inp), AA0, AA0; VPXOR (9*32)(inp), BB0, BB0; VPXOR (10*32)(inp), CC0, CC0; VPXOR (11*32)(inp), DD0, DD0
VMOVDQU AA0, (8*32)(oup); VMOVDQU BB0, (9*32)(oup); VMOVDQU CC0, (10*32)(oup); VMOVDQU DD0, (11*32)(oup)
VPERM2I128 $0x02, AA3, BB3, AA0; VPERM2I128 $0x02, tmpStoreAVX2, DD3, BB0; VPERM2I128 $0x13, AA3, BB3, CC0; VPERM2I128 $0x13, tmpStoreAVX2, DD3, DD0
LEAQ (12*32)(inp), inp
LEAQ (12*32)(oup), oup
SUBQ $12*32, inl
JMP openAVX2TailLoop
// ----------------------------------------------------------------------------
// ----------------------------------------------------------------------------
// func chacha20Poly1305Seal(dst, key, src, ad []byte)
TEXT ·chacha20Poly1305Seal(SB), 0, $288-96
// For aligned stack access
MOVQ SP, BP
ADDQ $32, BP
ANDQ $-32, BP
MOVQ dst+0(FP), oup
MOVQ key+24(FP), keyp
MOVQ src+48(FP), inp
MOVQ src_len+56(FP), inl
MOVQ ad+72(FP), adp
// Check for AVX2 support
CMPB runtime·support_avx2(SB), $0
JE noavx2bmi2Seal
// Check BMI2 bit for MULXQ.
// runtime·cpuid_ebx7 is always available here
// because it passed avx2 check
TESTL $(1<<8), runtime·cpuid_ebx7(SB)
JNE chacha20Poly1305Seal_AVX2
noavx2bmi2Seal:
// Special optimization, for very short buffers
CMPQ inl, $128
JBE sealSSE128 // About 15% faster
// In the seal case - prepare the poly key + 3 blocks of stream in the first iteration
MOVOU ·chacha20Constants<>(SB), A0
MOVOU (1*16)(keyp), B0
MOVOU (2*16)(keyp), C0
MOVOU (3*16)(keyp), D0
// Store state on stack for future use
MOVO B0, state1Store
MOVO C0, state2Store
// Load state, increment counter blocks
MOVO A0, A1; MOVO B0, B1; MOVO C0, C1; MOVO D0, D1; PADDL ·sseIncMask<>(SB), D1
MOVO A1, A2; MOVO B1, B2; MOVO C1, C2; MOVO D1, D2; PADDL ·sseIncMask<>(SB), D2
MOVO A2, A3; MOVO B2, B3; MOVO C2, C3; MOVO D2, D3; PADDL ·sseIncMask<>(SB), D3
// Store counters
MOVO D0, ctr0Store; MOVO D1, ctr1Store; MOVO D2, ctr2Store; MOVO D3, ctr3Store
MOVQ $10, itr2
sealSSEIntroLoop:
MOVO C3, tmpStore
chachaQR(A0, B0, C0, D0, C3); chachaQR(A1, B1, C1, D1, C3); chachaQR(A2, B2, C2, D2, C3)
MOVO tmpStore, C3
MOVO C1, tmpStore
chachaQR(A3, B3, C3, D3, C1)
MOVO tmpStore, C1
shiftB0Left; shiftB1Left; shiftB2Left; shiftB3Left
shiftC0Left; shiftC1Left; shiftC2Left; shiftC3Left
shiftD0Left; shiftD1Left; shiftD2Left; shiftD3Left
MOVO C3, tmpStore
chachaQR(A0, B0, C0, D0, C3); chachaQR(A1, B1, C1, D1, C3); chachaQR(A2, B2, C2, D2, C3)
MOVO tmpStore, C3
MOVO C1, tmpStore
chachaQR(A3, B3, C3, D3, C1)
MOVO tmpStore, C1
shiftB0Right; shiftB1Right; shiftB2Right; shiftB3Right
shiftC0Right; shiftC1Right; shiftC2Right; shiftC3Right
shiftD0Right; shiftD1Right; shiftD2Right; shiftD3Right
DECQ itr2
JNE sealSSEIntroLoop
// Add in the state
PADDD ·chacha20Constants<>(SB), A0; PADDD ·chacha20Constants<>(SB), A1; PADDD ·chacha20Constants<>(SB), A2; PADDD ·chacha20Constants<>(SB), A3
PADDD state1Store, B0; PADDD state1Store, B1; PADDD state1Store, B2; PADDD state1Store, B3
PADDD state2Store, C1; PADDD state2Store, C2; PADDD state2Store, C3
PADDD ctr1Store, D1; PADDD ctr2Store, D2; PADDD ctr3Store, D3
// Clamp and store the key
PAND ·polyClampMask<>(SB), A0
MOVO A0, rStore
MOVO B0, sStore
// Hash AAD
MOVQ ad_len+80(FP), itr2
CALL polyHashADInternal<>(SB)
MOVOU (0*16)(inp), A0; MOVOU (1*16)(inp), B0; MOVOU (2*16)(inp), C0; MOVOU (3*16)(inp), D0
PXOR A0, A1; PXOR B0, B1; PXOR C0, C1; PXOR D0, D1
MOVOU A1, (0*16)(oup); MOVOU B1, (1*16)(oup); MOVOU C1, (2*16)(oup); MOVOU D1, (3*16)(oup)
MOVOU (4*16)(inp), A0; MOVOU (5*16)(inp), B0; MOVOU (6*16)(inp), C0; MOVOU (7*16)(inp), D0
PXOR A0, A2; PXOR B0, B2; PXOR C0, C2; PXOR D0, D2
MOVOU A2, (4*16)(oup); MOVOU B2, (5*16)(oup); MOVOU C2, (6*16)(oup); MOVOU D2, (7*16)(oup)
MOVQ $128, itr1
SUBQ $128, inl
LEAQ 128(inp), inp
MOVO A3, A1; MOVO B3, B1; MOVO C3, C1; MOVO D3, D1
CMPQ inl, $64
JBE sealSSE128SealHash
MOVOU (0*16)(inp), A0; MOVOU (1*16)(inp), B0; MOVOU (2*16)(inp), C0; MOVOU (3*16)(inp), D0
PXOR A0, A3; PXOR B0, B3; PXOR C0, C3; PXOR D0, D3
MOVOU A3, (8*16)(oup); MOVOU B3, (9*16)(oup); MOVOU C3, (10*16)(oup); MOVOU D3, (11*16)(oup)
ADDQ $64, itr1
SUBQ $64, inl
LEAQ 64(inp), inp
MOVQ $2, itr1
MOVQ $8, itr2
CMPQ inl, $64
JBE sealSSETail64
CMPQ inl, $128
JBE sealSSETail128
CMPQ inl, $192
JBE sealSSETail192
sealSSEMainLoop:
// Load state, increment counter blocks
MOVO ·chacha20Constants<>(SB), A0; MOVO state1Store, B0; MOVO state2Store, C0; MOVO ctr3Store, D0; PADDL ·sseIncMask<>(SB), D0
MOVO A0, A1; MOVO B0, B1; MOVO C0, C1; MOVO D0, D1; PADDL ·sseIncMask<>(SB), D1
MOVO A1, A2; MOVO B1, B2; MOVO C1, C2; MOVO D1, D2; PADDL ·sseIncMask<>(SB), D2
MOVO A2, A3; MOVO B2, B3; MOVO C2, C3; MOVO D2, D3; PADDL ·sseIncMask<>(SB), D3
// Store counters
MOVO D0, ctr0Store; MOVO D1, ctr1Store; MOVO D2, ctr2Store; MOVO D3, ctr3Store
sealSSEInnerLoop:
MOVO C3, tmpStore
chachaQR(A0, B0, C0, D0, C3); chachaQR(A1, B1, C1, D1, C3); chachaQR(A2, B2, C2, D2, C3)
MOVO tmpStore, C3
MOVO C1, tmpStore
chachaQR(A3, B3, C3, D3, C1)
MOVO tmpStore, C1
polyAdd(0(oup))
shiftB0Left; shiftB1Left; shiftB2Left; shiftB3Left
shiftC0Left; shiftC1Left; shiftC2Left; shiftC3Left
shiftD0Left; shiftD1Left; shiftD2Left; shiftD3Left
polyMulStage1
polyMulStage2
LEAQ (2*8)(oup), oup
MOVO C3, tmpStore
chachaQR(A0, B0, C0, D0, C3); chachaQR(A1, B1, C1, D1, C3); chachaQR(A2, B2, C2, D2, C3)
MOVO tmpStore, C3
MOVO C1, tmpStore
polyMulStage3
chachaQR(A3, B3, C3, D3, C1)
MOVO tmpStore, C1
polyMulReduceStage
shiftB0Right; shiftB1Right; shiftB2Right; shiftB3Right
shiftC0Right; shiftC1Right; shiftC2Right; shiftC3Right
shiftD0Right; shiftD1Right; shiftD2Right; shiftD3Right
DECQ itr2
JGE sealSSEInnerLoop
polyAdd(0(oup))
polyMul
LEAQ (2*8)(oup), oup
DECQ itr1
JG sealSSEInnerLoop
// Add in the state
PADDD ·chacha20Constants<>(SB), A0; PADDD ·chacha20Constants<>(SB), A1; PADDD ·chacha20Constants<>(SB), A2; PADDD ·chacha20Constants<>(SB), A3
PADDD state1Store, B0; PADDD state1Store, B1; PADDD state1Store, B2; PADDD state1Store, B3
PADDD state2Store, C0; PADDD state2Store, C1; PADDD state2Store, C2; PADDD state2Store, C3
PADDD ctr0Store, D0; PADDD ctr1Store, D1; PADDD ctr2Store, D2; PADDD ctr3Store, D3
MOVO D3, tmpStore
// Load - xor - store
MOVOU (0*16)(inp), D3; PXOR D3, A0
MOVOU (1*16)(inp), D3; PXOR D3, B0
MOVOU (2*16)(inp), D3; PXOR D3, C0
MOVOU (3*16)(inp), D3; PXOR D3, D0
MOVOU A0, (0*16)(oup)
MOVOU B0, (1*16)(oup)
MOVOU C0, (2*16)(oup)
MOVOU D0, (3*16)(oup)
MOVO tmpStore, D3
MOVOU (4*16)(inp), A0; MOVOU (5*16)(inp), B0; MOVOU (6*16)(inp), C0; MOVOU (7*16)(inp), D0
PXOR A0, A1; PXOR B0, B1; PXOR C0, C1; PXOR D0, D1
MOVOU A1, (4*16)(oup); MOVOU B1, (5*16)(oup); MOVOU C1, (6*16)(oup); MOVOU D1, (7*16)(oup)
MOVOU (8*16)(inp), A0; MOVOU (9*16)(inp), B0; MOVOU (10*16)(inp), C0; MOVOU (11*16)(inp), D0
PXOR A0, A2; PXOR B0, B2; PXOR C0, C2; PXOR D0, D2
MOVOU A2, (8*16)(oup); MOVOU B2, (9*16)(oup); MOVOU C2, (10*16)(oup); MOVOU D2, (11*16)(oup)
ADDQ $192, inp
MOVQ $192, itr1
SUBQ $192, inl
MOVO A3, A1
MOVO B3, B1
MOVO C3, C1
MOVO D3, D1
CMPQ inl, $64
JBE sealSSE128SealHash
MOVOU (0*16)(inp), A0; MOVOU (1*16)(inp), B0; MOVOU (2*16)(inp), C0; MOVOU (3*16)(inp), D0
PXOR A0, A3; PXOR B0, B3; PXOR C0, C3; PXOR D0, D3
MOVOU A3, (12*16)(oup); MOVOU B3, (13*16)(oup); MOVOU C3, (14*16)(oup); MOVOU D3, (15*16)(oup)
LEAQ 64(inp), inp
SUBQ $64, inl
MOVQ $6, itr1
MOVQ $4, itr2
CMPQ inl, $192
JG sealSSEMainLoop
MOVQ inl, itr1
TESTQ inl, inl
JE sealSSE128SealHash
MOVQ $6, itr1
CMPQ inl, $64
JBE sealSSETail64
CMPQ inl, $128
JBE sealSSETail128
JMP sealSSETail192
// ----------------------------------------------------------------------------
// Special optimization for the last 64 bytes of plaintext
sealSSETail64:
// Need to encrypt up to 64 bytes - prepare single block, hash 192 or 256 bytes
MOVO ·chacha20Constants<>(SB), A1
MOVO state1Store, B1
MOVO state2Store, C1
MOVO ctr3Store, D1
PADDL ·sseIncMask<>(SB), D1
MOVO D1, ctr0Store
sealSSETail64LoopA:
// Perform ChaCha rounds, while hashing the previously encrypted ciphertext
polyAdd(0(oup))
polyMul
LEAQ 16(oup), oup
sealSSETail64LoopB:
chachaQR(A1, B1, C1, D1, T1)
shiftB1Left; shiftC1Left; shiftD1Left
chachaQR(A1, B1, C1, D1, T1)
shiftB1Right; shiftC1Right; shiftD1Right
polyAdd(0(oup))
polyMul
LEAQ 16(oup), oup
DECQ itr1
JG sealSSETail64LoopA
DECQ itr2
JGE sealSSETail64LoopB
PADDL ·chacha20Constants<>(SB), A1
PADDL state1Store, B1
PADDL state2Store, C1
PADDL ctr0Store, D1
JMP sealSSE128Seal
// ----------------------------------------------------------------------------
// Special optimization for the last 128 bytes of plaintext
sealSSETail128:
// Need to encrypt up to 128 bytes - prepare two blocks, hash 192 or 256 bytes
MOVO ·chacha20Constants<>(SB), A0; MOVO state1Store, B0; MOVO state2Store, C0; MOVO ctr3Store, D0; PADDL ·sseIncMask<>(SB), D0; MOVO D0, ctr0Store
MOVO A0, A1; MOVO B0, B1; MOVO C0, C1; MOVO D0, D1; PADDL ·sseIncMask<>(SB), D1; MOVO D1, ctr1Store
sealSSETail128LoopA:
// Perform ChaCha rounds, while hashing the previously encrypted ciphertext
polyAdd(0(oup))
polyMul
LEAQ 16(oup), oup
sealSSETail128LoopB:
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0)
shiftB0Left; shiftC0Left; shiftD0Left
shiftB1Left; shiftC1Left; shiftD1Left
polyAdd(0(oup))
polyMul
LEAQ 16(oup), oup
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0)
shiftB0Right; shiftC0Right; shiftD0Right
shiftB1Right; shiftC1Right; shiftD1Right
DECQ itr1
JG sealSSETail128LoopA
DECQ itr2
JGE sealSSETail128LoopB
PADDL ·chacha20Constants<>(SB), A0; PADDL ·chacha20Constants<>(SB), A1
PADDL state1Store, B0; PADDL state1Store, B1
PADDL state2Store, C0; PADDL state2Store, C1
PADDL ctr0Store, D0; PADDL ctr1Store, D1
MOVOU (0*16)(inp), T0; MOVOU (1*16)(inp), T1; MOVOU (2*16)(inp), T2; MOVOU (3*16)(inp), T3
PXOR T0, A0; PXOR T1, B0; PXOR T2, C0; PXOR T3, D0
MOVOU A0, (0*16)(oup); MOVOU B0, (1*16)(oup); MOVOU C0, (2*16)(oup); MOVOU D0, (3*16)(oup)
MOVQ $64, itr1
LEAQ 64(inp), inp
SUBQ $64, inl
JMP sealSSE128SealHash
// ----------------------------------------------------------------------------
// Special optimization for the last 192 bytes of plaintext
sealSSETail192:
// Need to encrypt up to 192 bytes - prepare three blocks, hash 192 or 256 bytes
MOVO ·chacha20Constants<>(SB), A0; MOVO state1Store, B0; MOVO state2Store, C0; MOVO ctr3Store, D0; PADDL ·sseIncMask<>(SB), D0; MOVO D0, ctr0Store
MOVO A0, A1; MOVO B0, B1; MOVO C0, C1; MOVO D0, D1; PADDL ·sseIncMask<>(SB), D1; MOVO D1, ctr1Store
MOVO A1, A2; MOVO B1, B2; MOVO C1, C2; MOVO D1, D2; PADDL ·sseIncMask<>(SB), D2; MOVO D2, ctr2Store
sealSSETail192LoopA:
// Perform ChaCha rounds, while hashing the previously encrypted ciphertext
polyAdd(0(oup))
polyMul
LEAQ 16(oup), oup
sealSSETail192LoopB:
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0); chachaQR(A2, B2, C2, D2, T0)
shiftB0Left; shiftC0Left; shiftD0Left
shiftB1Left; shiftC1Left; shiftD1Left
shiftB2Left; shiftC2Left; shiftD2Left
polyAdd(0(oup))
polyMul
LEAQ 16(oup), oup
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0); chachaQR(A2, B2, C2, D2, T0)
shiftB0Right; shiftC0Right; shiftD0Right
shiftB1Right; shiftC1Right; shiftD1Right
shiftB2Right; shiftC2Right; shiftD2Right
DECQ itr1
JG sealSSETail192LoopA
DECQ itr2
JGE sealSSETail192LoopB
PADDL ·chacha20Constants<>(SB), A0; PADDL ·chacha20Constants<>(SB), A1; PADDL ·chacha20Constants<>(SB), A2
PADDL state1Store, B0; PADDL state1Store, B1; PADDL state1Store, B2
PADDL state2Store, C0; PADDL state2Store, C1; PADDL state2Store, C2
PADDL ctr0Store, D0; PADDL ctr1Store, D1; PADDL ctr2Store, D2
MOVOU (0*16)(inp), T0; MOVOU (1*16)(inp), T1; MOVOU (2*16)(inp), T2; MOVOU (3*16)(inp), T3
PXOR T0, A0; PXOR T1, B0; PXOR T2, C0; PXOR T3, D0
MOVOU A0, (0*16)(oup); MOVOU B0, (1*16)(oup); MOVOU C0, (2*16)(oup); MOVOU D0, (3*16)(oup)
MOVOU (4*16)(inp), T0; MOVOU (5*16)(inp), T1; MOVOU (6*16)(inp), T2; MOVOU (7*16)(inp), T3
PXOR T0, A1; PXOR T1, B1; PXOR T2, C1; PXOR T3, D1
MOVOU A1, (4*16)(oup); MOVOU B1, (5*16)(oup); MOVOU C1, (6*16)(oup); MOVOU D1, (7*16)(oup)
MOVO A2, A1
MOVO B2, B1
MOVO C2, C1
MOVO D2, D1
MOVQ $128, itr1
LEAQ 128(inp), inp
SUBQ $128, inl
JMP sealSSE128SealHash
// ----------------------------------------------------------------------------
// Special seal optimization for buffers smaller than 129 bytes
sealSSE128:
// For up to 128 bytes of ciphertext and 64 bytes for the poly key, we require to process three blocks
MOVOU ·chacha20Constants<>(SB), A0; MOVOU (1*16)(keyp), B0; MOVOU (2*16)(keyp), C0; MOVOU (3*16)(keyp), D0
MOVO A0, A1; MOVO B0, B1; MOVO C0, C1; MOVO D0, D1; PADDL ·sseIncMask<>(SB), D1
MOVO A1, A2; MOVO B1, B2; MOVO C1, C2; MOVO D1, D2; PADDL ·sseIncMask<>(SB), D2
MOVO B0, T1; MOVO C0, T2; MOVO D1, T3
MOVQ $10, itr2
sealSSE128InnerCipherLoop:
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0); chachaQR(A2, B2, C2, D2, T0)
shiftB0Left; shiftB1Left; shiftB2Left
shiftC0Left; shiftC1Left; shiftC2Left
shiftD0Left; shiftD1Left; shiftD2Left
chachaQR(A0, B0, C0, D0, T0); chachaQR(A1, B1, C1, D1, T0); chachaQR(A2, B2, C2, D2, T0)
shiftB0Right; shiftB1Right; shiftB2Right
shiftC0Right; shiftC1Right; shiftC2Right
shiftD0Right; shiftD1Right; shiftD2Right
DECQ itr2
JNE sealSSE128InnerCipherLoop
// A0|B0 hold the Poly1305 32-byte key, C0,D0 can be discarded
PADDL ·chacha20Constants<>(SB), A0; PADDL ·chacha20Constants<>(SB), A1; PADDL ·chacha20Constants<>(SB), A2
PADDL T1, B0; PADDL T1, B1; PADDL T1, B2
PADDL T2, C1; PADDL T2, C2
PADDL T3, D1; PADDL ·sseIncMask<>(SB), T3; PADDL T3, D2
PAND ·polyClampMask<>(SB), A0
MOVOU A0, rStore
MOVOU B0, sStore
// Hash
MOVQ ad_len+80(FP), itr2
CALL polyHashADInternal<>(SB)
XORQ itr1, itr1
sealSSE128SealHash:
// itr1 holds the number of bytes encrypted but not yet hashed
CMPQ itr1, $16
JB sealSSE128Seal
polyAdd(0(oup))
polyMul
SUBQ $16, itr1
ADDQ $16, oup
JMP sealSSE128SealHash
sealSSE128Seal:
CMPQ inl, $16
JB sealSSETail
SUBQ $16, inl
// Load for decryption
MOVOU (inp), T0
PXOR T0, A1
MOVOU A1, (oup)
LEAQ (1*16)(inp), inp
LEAQ (1*16)(oup), oup
// Extract for hashing
MOVQ A1, t0
PSRLDQ $8, A1
MOVQ A1, t1
ADDQ t0, acc0; ADCQ t1, acc1; ADCQ $1, acc2
polyMul
// Shift the stream "left"
MOVO B1, A1
MOVO C1, B1
MOVO D1, C1
MOVO A2, D1
MOVO B2, A2
MOVO C2, B2
MOVO D2, C2
JMP sealSSE128Seal
sealSSETail:
TESTQ inl, inl
JE sealSSEFinalize
// We can only load the PT one byte at a time to avoid read after end of buffer
MOVQ inl, itr2
SHLQ $4, itr2
LEAQ ·andMask<>(SB), t0
MOVQ inl, itr1
LEAQ -1(inp)(inl*1), inp
XORQ t2, t2
XORQ t3, t3
XORQ AX, AX
sealSSETailLoadLoop:
SHLQ $8, t2, t3
SHLQ $8, t2
MOVB (inp), AX
XORQ AX, t2
LEAQ -1(inp), inp
DECQ itr1
JNE sealSSETailLoadLoop
MOVQ t2, 0+tmpStore
MOVQ t3, 8+tmpStore
PXOR 0+tmpStore, A1
MOVOU A1, (oup)
MOVOU -16(t0)(itr2*1), T0
PAND T0, A1
MOVQ A1, t0
PSRLDQ $8, A1
MOVQ A1, t1
ADDQ t0, acc0; ADCQ t1, acc1; ADCQ $1, acc2
polyMul
ADDQ inl, oup
sealSSEFinalize:
// Hash in the buffer lengths
ADDQ ad_len+80(FP), acc0
ADCQ src_len+56(FP), acc1
ADCQ $1, acc2
polyMul
// Final reduce
MOVQ acc0, t0
MOVQ acc1, t1
MOVQ acc2, t2
SUBQ $-5, acc0
SBBQ $-1, acc1
SBBQ $3, acc2
CMOVQCS t0, acc0
CMOVQCS t1, acc1
CMOVQCS t2, acc2
// Add in the "s" part of the key
ADDQ 0+sStore, acc0
ADCQ 8+sStore, acc1
// Finally store the tag at the end of the message
MOVQ acc0, (0*8)(oup)
MOVQ acc1, (1*8)(oup)
RET
// ----------------------------------------------------------------------------
// ------------------------- AVX2 Code ----------------------------------------
chacha20Poly1305Seal_AVX2:
VZEROUPPER
VMOVDQU ·chacha20Constants<>(SB), AA0
BYTE $0xc4; BYTE $0x42; BYTE $0x7d; BYTE $0x5a; BYTE $0x70; BYTE $0x10 // broadcasti128 16(r8), ymm14
BYTE $0xc4; BYTE $0x42; BYTE $0x7d; BYTE $0x5a; BYTE $0x60; BYTE $0x20 // broadcasti128 32(r8), ymm12
BYTE $0xc4; BYTE $0xc2; BYTE $0x7d; BYTE $0x5a; BYTE $0x60; BYTE $0x30 // broadcasti128 48(r8), ymm4
VPADDD ·avx2InitMask<>(SB), DD0, DD0
// Special optimizations, for very short buffers
CMPQ inl, $192
JBE seal192AVX2 // 33% faster
CMPQ inl, $320
JBE seal320AVX2 // 17% faster
// For the general key prepare the key first - as a byproduct we have 64 bytes of cipher stream
VMOVDQA AA0, AA1; VMOVDQA AA0, AA2; VMOVDQA AA0, AA3
VMOVDQA BB0, BB1; VMOVDQA BB0, BB2; VMOVDQA BB0, BB3; VMOVDQA BB0, state1StoreAVX2
VMOVDQA CC0, CC1; VMOVDQA CC0, CC2; VMOVDQA CC0, CC3; VMOVDQA CC0, state2StoreAVX2
VPADDD ·avx2IncMask<>(SB), DD0, DD1; VMOVDQA DD0, ctr0StoreAVX2
VPADDD ·avx2IncMask<>(SB), DD1, DD2; VMOVDQA DD1, ctr1StoreAVX2
VPADDD ·avx2IncMask<>(SB), DD2, DD3; VMOVDQA DD2, ctr2StoreAVX2
VMOVDQA DD3, ctr3StoreAVX2
MOVQ $10, itr2
sealAVX2IntroLoop:
VMOVDQA CC3, tmpStoreAVX2
chachaQR_AVX2(AA0, BB0, CC0, DD0, CC3); chachaQR_AVX2(AA1, BB1, CC1, DD1, CC3); chachaQR_AVX2(AA2, BB2, CC2, DD2, CC3)
VMOVDQA tmpStoreAVX2, CC3
VMOVDQA CC1, tmpStoreAVX2
chachaQR_AVX2(AA3, BB3, CC3, DD3, CC1)
VMOVDQA tmpStoreAVX2, CC1
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $12, DD0, DD0, DD0
VPALIGNR $4, BB1, BB1, BB1; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $12, DD1, DD1, DD1
VPALIGNR $4, BB2, BB2, BB2; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $12, DD2, DD2, DD2
VPALIGNR $4, BB3, BB3, BB3; VPALIGNR $8, CC3, CC3, CC3; VPALIGNR $12, DD3, DD3, DD3
VMOVDQA CC3, tmpStoreAVX2
chachaQR_AVX2(AA0, BB0, CC0, DD0, CC3); chachaQR_AVX2(AA1, BB1, CC1, DD1, CC3); chachaQR_AVX2(AA2, BB2, CC2, DD2, CC3)
VMOVDQA tmpStoreAVX2, CC3
VMOVDQA CC1, tmpStoreAVX2
chachaQR_AVX2(AA3, BB3, CC3, DD3, CC1)
VMOVDQA tmpStoreAVX2, CC1
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $4, DD0, DD0, DD0
VPALIGNR $12, BB1, BB1, BB1; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $4, DD1, DD1, DD1
VPALIGNR $12, BB2, BB2, BB2; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $4, DD2, DD2, DD2
VPALIGNR $12, BB3, BB3, BB3; VPALIGNR $8, CC3, CC3, CC3; VPALIGNR $4, DD3, DD3, DD3
DECQ itr2
JNE sealAVX2IntroLoop
VPADDD ·chacha20Constants<>(SB), AA0, AA0; VPADDD ·chacha20Constants<>(SB), AA1, AA1; VPADDD ·chacha20Constants<>(SB), AA2, AA2; VPADDD ·chacha20Constants<>(SB), AA3, AA3
VPADDD state1StoreAVX2, BB0, BB0; VPADDD state1StoreAVX2, BB1, BB1; VPADDD state1StoreAVX2, BB2, BB2; VPADDD state1StoreAVX2, BB3, BB3
VPADDD state2StoreAVX2, CC0, CC0; VPADDD state2StoreAVX2, CC1, CC1; VPADDD state2StoreAVX2, CC2, CC2; VPADDD state2StoreAVX2, CC3, CC3
VPADDD ctr0StoreAVX2, DD0, DD0; VPADDD ctr1StoreAVX2, DD1, DD1; VPADDD ctr2StoreAVX2, DD2, DD2; VPADDD ctr3StoreAVX2, DD3, DD3
VPERM2I128 $0x13, CC0, DD0, CC0 // Stream bytes 96 - 127
VPERM2I128 $0x02, AA0, BB0, DD0 // The Poly1305 key
VPERM2I128 $0x13, AA0, BB0, AA0 // Stream bytes 64 - 95
// Clamp and store poly key
VPAND ·polyClampMask<>(SB), DD0, DD0
VMOVDQA DD0, rsStoreAVX2
// Hash AD
MOVQ ad_len+80(FP), itr2
CALL polyHashADInternal<>(SB)
// Can store at least 320 bytes
VPXOR (0*32)(inp), AA0, AA0
VPXOR (1*32)(inp), CC0, CC0
VMOVDQU AA0, (0*32)(oup)
VMOVDQU CC0, (1*32)(oup)
VPERM2I128 $0x02, AA1, BB1, AA0; VPERM2I128 $0x02, CC1, DD1, BB0; VPERM2I128 $0x13, AA1, BB1, CC0; VPERM2I128 $0x13, CC1, DD1, DD0
VPXOR (2*32)(inp), AA0, AA0; VPXOR (3*32)(inp), BB0, BB0; VPXOR (4*32)(inp), CC0, CC0; VPXOR (5*32)(inp), DD0, DD0
VMOVDQU AA0, (2*32)(oup); VMOVDQU BB0, (3*32)(oup); VMOVDQU CC0, (4*32)(oup); VMOVDQU DD0, (5*32)(oup)
VPERM2I128 $0x02, AA2, BB2, AA0; VPERM2I128 $0x02, CC2, DD2, BB0; VPERM2I128 $0x13, AA2, BB2, CC0; VPERM2I128 $0x13, CC2, DD2, DD0
VPXOR (6*32)(inp), AA0, AA0; VPXOR (7*32)(inp), BB0, BB0; VPXOR (8*32)(inp), CC0, CC0; VPXOR (9*32)(inp), DD0, DD0
VMOVDQU AA0, (6*32)(oup); VMOVDQU BB0, (7*32)(oup); VMOVDQU CC0, (8*32)(oup); VMOVDQU DD0, (9*32)(oup)
MOVQ $320, itr1
SUBQ $320, inl
LEAQ 320(inp), inp
VPERM2I128 $0x02, AA3, BB3, AA0; VPERM2I128 $0x02, CC3, DD3, BB0; VPERM2I128 $0x13, AA3, BB3, CC0; VPERM2I128 $0x13, CC3, DD3, DD0
CMPQ inl, $128
JBE sealAVX2SealHash
VPXOR (0*32)(inp), AA0, AA0; VPXOR (1*32)(inp), BB0, BB0; VPXOR (2*32)(inp), CC0, CC0; VPXOR (3*32)(inp), DD0, DD0
VMOVDQU AA0, (10*32)(oup); VMOVDQU BB0, (11*32)(oup); VMOVDQU CC0, (12*32)(oup); VMOVDQU DD0, (13*32)(oup)
SUBQ $128, inl
LEAQ 128(inp), inp
MOVQ $8, itr1
MOVQ $2, itr2
CMPQ inl, $128
JBE sealAVX2Tail128
CMPQ inl, $256
JBE sealAVX2Tail256
CMPQ inl, $384
JBE sealAVX2Tail384
CMPQ inl, $512
JBE sealAVX2Tail512
// We have 448 bytes to hash, but main loop hashes 512 bytes at a time - perform some rounds, before the main loop
VMOVDQA ·chacha20Constants<>(SB), AA0; VMOVDQA AA0, AA1; VMOVDQA AA0, AA2; VMOVDQA AA0, AA3
VMOVDQA state1StoreAVX2, BB0; VMOVDQA BB0, BB1; VMOVDQA BB0, BB2; VMOVDQA BB0, BB3
VMOVDQA state2StoreAVX2, CC0; VMOVDQA CC0, CC1; VMOVDQA CC0, CC2; VMOVDQA CC0, CC3
VMOVDQA ctr3StoreAVX2, DD0
VPADDD ·avx2IncMask<>(SB), DD0, DD0; VPADDD ·avx2IncMask<>(SB), DD0, DD1; VPADDD ·avx2IncMask<>(SB), DD1, DD2; VPADDD ·avx2IncMask<>(SB), DD2, DD3
VMOVDQA DD0, ctr0StoreAVX2; VMOVDQA DD1, ctr1StoreAVX2; VMOVDQA DD2, ctr2StoreAVX2; VMOVDQA DD3, ctr3StoreAVX2
VMOVDQA CC3, tmpStoreAVX2
chachaQR_AVX2(AA0, BB0, CC0, DD0, CC3); chachaQR_AVX2(AA1, BB1, CC1, DD1, CC3); chachaQR_AVX2(AA2, BB2, CC2, DD2, CC3)
VMOVDQA tmpStoreAVX2, CC3
VMOVDQA CC1, tmpStoreAVX2
chachaQR_AVX2(AA3, BB3, CC3, DD3, CC1)
VMOVDQA tmpStoreAVX2, CC1
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $12, DD0, DD0, DD0
VPALIGNR $4, BB1, BB1, BB1; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $12, DD1, DD1, DD1
VPALIGNR $4, BB2, BB2, BB2; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $12, DD2, DD2, DD2
VPALIGNR $4, BB3, BB3, BB3; VPALIGNR $8, CC3, CC3, CC3; VPALIGNR $12, DD3, DD3, DD3
VMOVDQA CC3, tmpStoreAVX2
chachaQR_AVX2(AA0, BB0, CC0, DD0, CC3); chachaQR_AVX2(AA1, BB1, CC1, DD1, CC3); chachaQR_AVX2(AA2, BB2, CC2, DD2, CC3)
VMOVDQA tmpStoreAVX2, CC3
VMOVDQA CC1, tmpStoreAVX2
chachaQR_AVX2(AA3, BB3, CC3, DD3, CC1)
VMOVDQA tmpStoreAVX2, CC1
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $4, DD0, DD0, DD0
VPALIGNR $12, BB1, BB1, BB1; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $4, DD1, DD1, DD1
VPALIGNR $12, BB2, BB2, BB2; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $4, DD2, DD2, DD2
VPALIGNR $12, BB3, BB3, BB3; VPALIGNR $8, CC3, CC3, CC3; VPALIGNR $4, DD3, DD3, DD3
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol16<>(SB), DD0, DD0; VPSHUFB ·rol16<>(SB), DD1, DD1; VPSHUFB ·rol16<>(SB), DD2, DD2; VPSHUFB ·rol16<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $12, BB0, CC3; VPSRLD $20, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $12, BB1, CC3; VPSRLD $20, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $12, BB2, CC3; VPSRLD $20, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $12, BB3, CC3; VPSRLD $20, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
SUBQ $16, oup // Adjust the pointer
MOVQ $9, itr1
JMP sealAVX2InternalLoopStart
sealAVX2MainLoop:
// Load state, increment counter blocks, store the incremented counters
VMOVDQU ·chacha20Constants<>(SB), AA0; VMOVDQA AA0, AA1; VMOVDQA AA0, AA2; VMOVDQA AA0, AA3
VMOVDQA state1StoreAVX2, BB0; VMOVDQA BB0, BB1; VMOVDQA BB0, BB2; VMOVDQA BB0, BB3
VMOVDQA state2StoreAVX2, CC0; VMOVDQA CC0, CC1; VMOVDQA CC0, CC2; VMOVDQA CC0, CC3
VMOVDQA ctr3StoreAVX2, DD0; VPADDD ·avx2IncMask<>(SB), DD0, DD0; VPADDD ·avx2IncMask<>(SB), DD0, DD1; VPADDD ·avx2IncMask<>(SB), DD1, DD2; VPADDD ·avx2IncMask<>(SB), DD2, DD3
VMOVDQA DD0, ctr0StoreAVX2; VMOVDQA DD1, ctr1StoreAVX2; VMOVDQA DD2, ctr2StoreAVX2; VMOVDQA DD3, ctr3StoreAVX2
MOVQ $10, itr1
sealAVX2InternalLoop:
polyAdd(0*8(oup))
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
polyMulStage1_AVX2
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol16<>(SB), DD0, DD0; VPSHUFB ·rol16<>(SB), DD1, DD1; VPSHUFB ·rol16<>(SB), DD2, DD2; VPSHUFB ·rol16<>(SB), DD3, DD3
polyMulStage2_AVX2
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
polyMulStage3_AVX2
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $12, BB0, CC3; VPSRLD $20, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $12, BB1, CC3; VPSRLD $20, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $12, BB2, CC3; VPSRLD $20, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $12, BB3, CC3; VPSRLD $20, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
polyMulReduceStage
sealAVX2InternalLoopStart:
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol8<>(SB), DD0, DD0; VPSHUFB ·rol8<>(SB), DD1, DD1; VPSHUFB ·rol8<>(SB), DD2, DD2; VPSHUFB ·rol8<>(SB), DD3, DD3
polyAdd(2*8(oup))
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
polyMulStage1_AVX2
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $7, BB0, CC3; VPSRLD $25, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $7, BB1, CC3; VPSRLD $25, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $7, BB2, CC3; VPSRLD $25, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $7, BB3, CC3; VPSRLD $25, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
polyMulStage2_AVX2
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1; VPALIGNR $4, BB2, BB2, BB2; VPALIGNR $4, BB3, BB3, BB3
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $8, CC3, CC3, CC3
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1; VPALIGNR $12, DD2, DD2, DD2; VPALIGNR $12, DD3, DD3, DD3
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
polyMulStage3_AVX2
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol16<>(SB), DD0, DD0; VPSHUFB ·rol16<>(SB), DD1, DD1; VPSHUFB ·rol16<>(SB), DD2, DD2; VPSHUFB ·rol16<>(SB), DD3, DD3
polyMulReduceStage
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
polyAdd(4*8(oup))
LEAQ (6*8)(oup), oup
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $12, BB0, CC3; VPSRLD $20, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $12, BB1, CC3; VPSRLD $20, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $12, BB2, CC3; VPSRLD $20, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $12, BB3, CC3; VPSRLD $20, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
polyMulStage1_AVX2
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
polyMulStage2_AVX2
VPSHUFB ·rol8<>(SB), DD0, DD0; VPSHUFB ·rol8<>(SB), DD1, DD1; VPSHUFB ·rol8<>(SB), DD2, DD2; VPSHUFB ·rol8<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
polyMulStage3_AVX2
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $7, BB0, CC3; VPSRLD $25, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $7, BB1, CC3; VPSRLD $25, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $7, BB2, CC3; VPSRLD $25, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $7, BB3, CC3; VPSRLD $25, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
polyMulReduceStage
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1; VPALIGNR $12, BB2, BB2, BB2; VPALIGNR $12, BB3, BB3, BB3
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $8, CC3, CC3, CC3
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1; VPALIGNR $4, DD2, DD2, DD2; VPALIGNR $4, DD3, DD3, DD3
DECQ itr1
JNE sealAVX2InternalLoop
VPADDD ·chacha20Constants<>(SB), AA0, AA0; VPADDD ·chacha20Constants<>(SB), AA1, AA1; VPADDD ·chacha20Constants<>(SB), AA2, AA2; VPADDD ·chacha20Constants<>(SB), AA3, AA3
VPADDD state1StoreAVX2, BB0, BB0; VPADDD state1StoreAVX2, BB1, BB1; VPADDD state1StoreAVX2, BB2, BB2; VPADDD state1StoreAVX2, BB3, BB3
VPADDD state2StoreAVX2, CC0, CC0; VPADDD state2StoreAVX2, CC1, CC1; VPADDD state2StoreAVX2, CC2, CC2; VPADDD state2StoreAVX2, CC3, CC3
VPADDD ctr0StoreAVX2, DD0, DD0; VPADDD ctr1StoreAVX2, DD1, DD1; VPADDD ctr2StoreAVX2, DD2, DD2; VPADDD ctr3StoreAVX2, DD3, DD3
VMOVDQA CC3, tmpStoreAVX2
// We only hashed 480 of the 512 bytes available - hash the remaining 32 here
polyAdd(0*8(oup))
polyMulAVX2
LEAQ (4*8)(oup), oup
VPERM2I128 $0x02, AA0, BB0, CC3; VPERM2I128 $0x13, AA0, BB0, BB0; VPERM2I128 $0x02, CC0, DD0, AA0; VPERM2I128 $0x13, CC0, DD0, CC0
VPXOR (0*32)(inp), CC3, CC3; VPXOR (1*32)(inp), AA0, AA0; VPXOR (2*32)(inp), BB0, BB0; VPXOR (3*32)(inp), CC0, CC0
VMOVDQU CC3, (0*32)(oup); VMOVDQU AA0, (1*32)(oup); VMOVDQU BB0, (2*32)(oup); VMOVDQU CC0, (3*32)(oup)
VPERM2I128 $0x02, AA1, BB1, AA0; VPERM2I128 $0x02, CC1, DD1, BB0; VPERM2I128 $0x13, AA1, BB1, CC0; VPERM2I128 $0x13, CC1, DD1, DD0
VPXOR (4*32)(inp), AA0, AA0; VPXOR (5*32)(inp), BB0, BB0; VPXOR (6*32)(inp), CC0, CC0; VPXOR (7*32)(inp), DD0, DD0
VMOVDQU AA0, (4*32)(oup); VMOVDQU BB0, (5*32)(oup); VMOVDQU CC0, (6*32)(oup); VMOVDQU DD0, (7*32)(oup)
// and here
polyAdd(-2*8(oup))
polyMulAVX2
VPERM2I128 $0x02, AA2, BB2, AA0; VPERM2I128 $0x02, CC2, DD2, BB0; VPERM2I128 $0x13, AA2, BB2, CC0; VPERM2I128 $0x13, CC2, DD2, DD0
VPXOR (8*32)(inp), AA0, AA0; VPXOR (9*32)(inp), BB0, BB0; VPXOR (10*32)(inp), CC0, CC0; VPXOR (11*32)(inp), DD0, DD0
VMOVDQU AA0, (8*32)(oup); VMOVDQU BB0, (9*32)(oup); VMOVDQU CC0, (10*32)(oup); VMOVDQU DD0, (11*32)(oup)
VPERM2I128 $0x02, AA3, BB3, AA0; VPERM2I128 $0x02, tmpStoreAVX2, DD3, BB0; VPERM2I128 $0x13, AA3, BB3, CC0; VPERM2I128 $0x13, tmpStoreAVX2, DD3, DD0
VPXOR (12*32)(inp), AA0, AA0; VPXOR (13*32)(inp), BB0, BB0; VPXOR (14*32)(inp), CC0, CC0; VPXOR (15*32)(inp), DD0, DD0
VMOVDQU AA0, (12*32)(oup); VMOVDQU BB0, (13*32)(oup); VMOVDQU CC0, (14*32)(oup); VMOVDQU DD0, (15*32)(oup)
LEAQ (32*16)(inp), inp
SUBQ $(32*16), inl
CMPQ inl, $512
JG sealAVX2MainLoop
// Tail can only hash 480 bytes
polyAdd(0*8(oup))
polyMulAVX2
polyAdd(2*8(oup))
polyMulAVX2
LEAQ 32(oup), oup
MOVQ $10, itr1
MOVQ $0, itr2
CMPQ inl, $128
JBE sealAVX2Tail128
CMPQ inl, $256
JBE sealAVX2Tail256
CMPQ inl, $384
JBE sealAVX2Tail384
JMP sealAVX2Tail512
// ----------------------------------------------------------------------------
// Special optimization for buffers smaller than 193 bytes
seal192AVX2:
// For up to 192 bytes of ciphertext and 64 bytes for the poly key, we process four blocks
VMOVDQA AA0, AA1
VMOVDQA BB0, BB1
VMOVDQA CC0, CC1
VPADDD ·avx2IncMask<>(SB), DD0, DD1
VMOVDQA AA0, AA2
VMOVDQA BB0, BB2
VMOVDQA CC0, CC2
VMOVDQA DD0, DD2
VMOVDQA DD1, TT3
MOVQ $10, itr2
sealAVX2192InnerCipherLoop:
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0)
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0)
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1
DECQ itr2
JNE sealAVX2192InnerCipherLoop
VPADDD AA2, AA0, AA0; VPADDD AA2, AA1, AA1
VPADDD BB2, BB0, BB0; VPADDD BB2, BB1, BB1
VPADDD CC2, CC0, CC0; VPADDD CC2, CC1, CC1
VPADDD DD2, DD0, DD0; VPADDD TT3, DD1, DD1
VPERM2I128 $0x02, AA0, BB0, TT0
// Clamp and store poly key
VPAND ·polyClampMask<>(SB), TT0, TT0
VMOVDQA TT0, rsStoreAVX2
// Stream for up to 192 bytes
VPERM2I128 $0x13, AA0, BB0, AA0
VPERM2I128 $0x13, CC0, DD0, BB0
VPERM2I128 $0x02, AA1, BB1, CC0
VPERM2I128 $0x02, CC1, DD1, DD0
VPERM2I128 $0x13, AA1, BB1, AA1
VPERM2I128 $0x13, CC1, DD1, BB1
sealAVX2ShortSeal:
// Hash aad
MOVQ ad_len+80(FP), itr2
CALL polyHashADInternal<>(SB)
XORQ itr1, itr1
sealAVX2SealHash:
// itr1 holds the number of bytes encrypted but not yet hashed
CMPQ itr1, $16
JB sealAVX2ShortSealLoop
polyAdd(0(oup))
polyMul
SUBQ $16, itr1
ADDQ $16, oup
JMP sealAVX2SealHash
sealAVX2ShortSealLoop:
CMPQ inl, $32
JB sealAVX2ShortTail32
SUBQ $32, inl
// Load for encryption
VPXOR (inp), AA0, AA0
VMOVDQU AA0, (oup)
LEAQ (1*32)(inp), inp
// Now can hash
polyAdd(0*8(oup))
polyMulAVX2
polyAdd(2*8(oup))
polyMulAVX2
LEAQ (1*32)(oup), oup
// Shift stream left
VMOVDQA BB0, AA0
VMOVDQA CC0, BB0
VMOVDQA DD0, CC0
VMOVDQA AA1, DD0
VMOVDQA BB1, AA1
VMOVDQA CC1, BB1
VMOVDQA DD1, CC1
VMOVDQA AA2, DD1
VMOVDQA BB2, AA2
JMP sealAVX2ShortSealLoop
sealAVX2ShortTail32:
CMPQ inl, $16
VMOVDQA A0, A1
JB sealAVX2ShortDone
SUBQ $16, inl
// Load for encryption
VPXOR (inp), A0, T0
VMOVDQU T0, (oup)
LEAQ (1*16)(inp), inp
// Hash
polyAdd(0*8(oup))
polyMulAVX2
LEAQ (1*16)(oup), oup
VPERM2I128 $0x11, AA0, AA0, AA0
VMOVDQA A0, A1
sealAVX2ShortDone:
VZEROUPPER
JMP sealSSETail
// ----------------------------------------------------------------------------
// Special optimization for buffers smaller than 321 bytes
seal320AVX2:
// For up to 320 bytes of ciphertext and 64 bytes for the poly key, we process six blocks
VMOVDQA AA0, AA1; VMOVDQA BB0, BB1; VMOVDQA CC0, CC1; VPADDD ·avx2IncMask<>(SB), DD0, DD1
VMOVDQA AA0, AA2; VMOVDQA BB0, BB2; VMOVDQA CC0, CC2; VPADDD ·avx2IncMask<>(SB), DD1, DD2
VMOVDQA BB0, TT1; VMOVDQA CC0, TT2; VMOVDQA DD0, TT3
MOVQ $10, itr2
sealAVX2320InnerCipherLoop:
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0); chachaQR_AVX2(AA2, BB2, CC2, DD2, TT0)
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1; VPALIGNR $4, BB2, BB2, BB2
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1; VPALIGNR $12, DD2, DD2, DD2
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0); chachaQR_AVX2(AA2, BB2, CC2, DD2, TT0)
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1; VPALIGNR $12, BB2, BB2, BB2
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1; VPALIGNR $4, DD2, DD2, DD2
DECQ itr2
JNE sealAVX2320InnerCipherLoop
VMOVDQA ·chacha20Constants<>(SB), TT0
VPADDD TT0, AA0, AA0; VPADDD TT0, AA1, AA1; VPADDD TT0, AA2, AA2
VPADDD TT1, BB0, BB0; VPADDD TT1, BB1, BB1; VPADDD TT1, BB2, BB2
VPADDD TT2, CC0, CC0; VPADDD TT2, CC1, CC1; VPADDD TT2, CC2, CC2
VMOVDQA ·avx2IncMask<>(SB), TT0
VPADDD TT3, DD0, DD0; VPADDD TT0, TT3, TT3
VPADDD TT3, DD1, DD1; VPADDD TT0, TT3, TT3
VPADDD TT3, DD2, DD2
// Clamp and store poly key
VPERM2I128 $0x02, AA0, BB0, TT0
VPAND ·polyClampMask<>(SB), TT0, TT0
VMOVDQA TT0, rsStoreAVX2
// Stream for up to 320 bytes
VPERM2I128 $0x13, AA0, BB0, AA0
VPERM2I128 $0x13, CC0, DD0, BB0
VPERM2I128 $0x02, AA1, BB1, CC0
VPERM2I128 $0x02, CC1, DD1, DD0
VPERM2I128 $0x13, AA1, BB1, AA1
VPERM2I128 $0x13, CC1, DD1, BB1
VPERM2I128 $0x02, AA2, BB2, CC1
VPERM2I128 $0x02, CC2, DD2, DD1
VPERM2I128 $0x13, AA2, BB2, AA2
VPERM2I128 $0x13, CC2, DD2, BB2
JMP sealAVX2ShortSeal
// ----------------------------------------------------------------------------
// Special optimization for the last 128 bytes of ciphertext
sealAVX2Tail128:
// Need to decrypt up to 128 bytes - prepare two blocks
// If we got here after the main loop - there are 512 encrypted bytes waiting to be hashed
// If we got here before the main loop - there are 448 encrpyred bytes waiting to be hashed
VMOVDQA ·chacha20Constants<>(SB), AA0
VMOVDQA state1StoreAVX2, BB0
VMOVDQA state2StoreAVX2, CC0
VMOVDQA ctr3StoreAVX2, DD0
VPADDD ·avx2IncMask<>(SB), DD0, DD0
VMOVDQA DD0, DD1
sealAVX2Tail128LoopA:
polyAdd(0(oup))
polyMul
LEAQ 16(oup), oup
sealAVX2Tail128LoopB:
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0)
polyAdd(0(oup))
polyMul
VPALIGNR $4, BB0, BB0, BB0
VPALIGNR $8, CC0, CC0, CC0
VPALIGNR $12, DD0, DD0, DD0
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0)
polyAdd(16(oup))
polyMul
LEAQ 32(oup), oup
VPALIGNR $12, BB0, BB0, BB0
VPALIGNR $8, CC0, CC0, CC0
VPALIGNR $4, DD0, DD0, DD0
DECQ itr1
JG sealAVX2Tail128LoopA
DECQ itr2
JGE sealAVX2Tail128LoopB
VPADDD ·chacha20Constants<>(SB), AA0, AA1
VPADDD state1StoreAVX2, BB0, BB1
VPADDD state2StoreAVX2, CC0, CC1
VPADDD DD1, DD0, DD1
VPERM2I128 $0x02, AA1, BB1, AA0
VPERM2I128 $0x02, CC1, DD1, BB0
VPERM2I128 $0x13, AA1, BB1, CC0
VPERM2I128 $0x13, CC1, DD1, DD0
JMP sealAVX2ShortSealLoop
// ----------------------------------------------------------------------------
// Special optimization for the last 256 bytes of ciphertext
sealAVX2Tail256:
// Need to decrypt up to 256 bytes - prepare two blocks
// If we got here after the main loop - there are 512 encrypted bytes waiting to be hashed
// If we got here before the main loop - there are 448 encrpyred bytes waiting to be hashed
VMOVDQA ·chacha20Constants<>(SB), AA0; VMOVDQA ·chacha20Constants<>(SB), AA1
VMOVDQA state1StoreAVX2, BB0; VMOVDQA state1StoreAVX2, BB1
VMOVDQA state2StoreAVX2, CC0; VMOVDQA state2StoreAVX2, CC1
VMOVDQA ctr3StoreAVX2, DD0
VPADDD ·avx2IncMask<>(SB), DD0, DD0
VPADDD ·avx2IncMask<>(SB), DD0, DD1
VMOVDQA DD0, TT1
VMOVDQA DD1, TT2
sealAVX2Tail256LoopA:
polyAdd(0(oup))
polyMul
LEAQ 16(oup), oup
sealAVX2Tail256LoopB:
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0)
polyAdd(0(oup))
polyMul
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0)
polyAdd(16(oup))
polyMul
LEAQ 32(oup), oup
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1
DECQ itr1
JG sealAVX2Tail256LoopA
DECQ itr2
JGE sealAVX2Tail256LoopB
VPADDD ·chacha20Constants<>(SB), AA0, AA0; VPADDD ·chacha20Constants<>(SB), AA1, AA1
VPADDD state1StoreAVX2, BB0, BB0; VPADDD state1StoreAVX2, BB1, BB1
VPADDD state2StoreAVX2, CC0, CC0; VPADDD state2StoreAVX2, CC1, CC1
VPADDD TT1, DD0, DD0; VPADDD TT2, DD1, DD1
VPERM2I128 $0x02, AA0, BB0, TT0
VPERM2I128 $0x02, CC0, DD0, TT1
VPERM2I128 $0x13, AA0, BB0, TT2
VPERM2I128 $0x13, CC0, DD0, TT3
VPXOR (0*32)(inp), TT0, TT0; VPXOR (1*32)(inp), TT1, TT1; VPXOR (2*32)(inp), TT2, TT2; VPXOR (3*32)(inp), TT3, TT3
VMOVDQU TT0, (0*32)(oup); VMOVDQU TT1, (1*32)(oup); VMOVDQU TT2, (2*32)(oup); VMOVDQU TT3, (3*32)(oup)
MOVQ $128, itr1
LEAQ 128(inp), inp
SUBQ $128, inl
VPERM2I128 $0x02, AA1, BB1, AA0
VPERM2I128 $0x02, CC1, DD1, BB0
VPERM2I128 $0x13, AA1, BB1, CC0
VPERM2I128 $0x13, CC1, DD1, DD0
JMP sealAVX2SealHash
// ----------------------------------------------------------------------------
// Special optimization for the last 384 bytes of ciphertext
sealAVX2Tail384:
// Need to decrypt up to 384 bytes - prepare two blocks
// If we got here after the main loop - there are 512 encrypted bytes waiting to be hashed
// If we got here before the main loop - there are 448 encrpyred bytes waiting to be hashed
VMOVDQA ·chacha20Constants<>(SB), AA0; VMOVDQA AA0, AA1; VMOVDQA AA0, AA2
VMOVDQA state1StoreAVX2, BB0; VMOVDQA BB0, BB1; VMOVDQA BB0, BB2
VMOVDQA state2StoreAVX2, CC0; VMOVDQA CC0, CC1; VMOVDQA CC0, CC2
VMOVDQA ctr3StoreAVX2, DD0
VPADDD ·avx2IncMask<>(SB), DD0, DD0; VPADDD ·avx2IncMask<>(SB), DD0, DD1; VPADDD ·avx2IncMask<>(SB), DD1, DD2
VMOVDQA DD0, TT1; VMOVDQA DD1, TT2; VMOVDQA DD2, TT3
sealAVX2Tail384LoopA:
polyAdd(0(oup))
polyMul
LEAQ 16(oup), oup
sealAVX2Tail384LoopB:
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0); chachaQR_AVX2(AA2, BB2, CC2, DD2, TT0)
polyAdd(0(oup))
polyMul
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1; VPALIGNR $4, BB2, BB2, BB2
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1; VPALIGNR $12, DD2, DD2, DD2
chachaQR_AVX2(AA0, BB0, CC0, DD0, TT0); chachaQR_AVX2(AA1, BB1, CC1, DD1, TT0); chachaQR_AVX2(AA2, BB2, CC2, DD2, TT0)
polyAdd(16(oup))
polyMul
LEAQ 32(oup), oup
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1; VPALIGNR $12, BB2, BB2, BB2
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1; VPALIGNR $4, DD2, DD2, DD2
DECQ itr1
JG sealAVX2Tail384LoopA
DECQ itr2
JGE sealAVX2Tail384LoopB
VPADDD ·chacha20Constants<>(SB), AA0, AA0; VPADDD ·chacha20Constants<>(SB), AA1, AA1; VPADDD ·chacha20Constants<>(SB), AA2, AA2
VPADDD state1StoreAVX2, BB0, BB0; VPADDD state1StoreAVX2, BB1, BB1; VPADDD state1StoreAVX2, BB2, BB2
VPADDD state2StoreAVX2, CC0, CC0; VPADDD state2StoreAVX2, CC1, CC1; VPADDD state2StoreAVX2, CC2, CC2
VPADDD TT1, DD0, DD0; VPADDD TT2, DD1, DD1; VPADDD TT3, DD2, DD2
VPERM2I128 $0x02, AA0, BB0, TT0
VPERM2I128 $0x02, CC0, DD0, TT1
VPERM2I128 $0x13, AA0, BB0, TT2
VPERM2I128 $0x13, CC0, DD0, TT3
VPXOR (0*32)(inp), TT0, TT0; VPXOR (1*32)(inp), TT1, TT1; VPXOR (2*32)(inp), TT2, TT2; VPXOR (3*32)(inp), TT3, TT3
VMOVDQU TT0, (0*32)(oup); VMOVDQU TT1, (1*32)(oup); VMOVDQU TT2, (2*32)(oup); VMOVDQU TT3, (3*32)(oup)
VPERM2I128 $0x02, AA1, BB1, TT0
VPERM2I128 $0x02, CC1, DD1, TT1
VPERM2I128 $0x13, AA1, BB1, TT2
VPERM2I128 $0x13, CC1, DD1, TT3
VPXOR (4*32)(inp), TT0, TT0; VPXOR (5*32)(inp), TT1, TT1; VPXOR (6*32)(inp), TT2, TT2; VPXOR (7*32)(inp), TT3, TT3
VMOVDQU TT0, (4*32)(oup); VMOVDQU TT1, (5*32)(oup); VMOVDQU TT2, (6*32)(oup); VMOVDQU TT3, (7*32)(oup)
MOVQ $256, itr1
LEAQ 256(inp), inp
SUBQ $256, inl
VPERM2I128 $0x02, AA2, BB2, AA0
VPERM2I128 $0x02, CC2, DD2, BB0
VPERM2I128 $0x13, AA2, BB2, CC0
VPERM2I128 $0x13, CC2, DD2, DD0
JMP sealAVX2SealHash
// ----------------------------------------------------------------------------
// Special optimization for the last 512 bytes of ciphertext
sealAVX2Tail512:
// Need to decrypt up to 512 bytes - prepare two blocks
// If we got here after the main loop - there are 512 encrypted bytes waiting to be hashed
// If we got here before the main loop - there are 448 encrpyred bytes waiting to be hashed
VMOVDQA ·chacha20Constants<>(SB), AA0; VMOVDQA AA0, AA1; VMOVDQA AA0, AA2; VMOVDQA AA0, AA3
VMOVDQA state1StoreAVX2, BB0; VMOVDQA BB0, BB1; VMOVDQA BB0, BB2; VMOVDQA BB0, BB3
VMOVDQA state2StoreAVX2, CC0; VMOVDQA CC0, CC1; VMOVDQA CC0, CC2; VMOVDQA CC0, CC3
VMOVDQA ctr3StoreAVX2, DD0
VPADDD ·avx2IncMask<>(SB), DD0, DD0; VPADDD ·avx2IncMask<>(SB), DD0, DD1; VPADDD ·avx2IncMask<>(SB), DD1, DD2; VPADDD ·avx2IncMask<>(SB), DD2, DD3
VMOVDQA DD0, ctr0StoreAVX2; VMOVDQA DD1, ctr1StoreAVX2; VMOVDQA DD2, ctr2StoreAVX2; VMOVDQA DD3, ctr3StoreAVX2
sealAVX2Tail512LoopA:
polyAdd(0(oup))
polyMul
LEAQ 16(oup), oup
sealAVX2Tail512LoopB:
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol16<>(SB), DD0, DD0; VPSHUFB ·rol16<>(SB), DD1, DD1; VPSHUFB ·rol16<>(SB), DD2, DD2; VPSHUFB ·rol16<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $12, BB0, CC3; VPSRLD $20, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $12, BB1, CC3; VPSRLD $20, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $12, BB2, CC3; VPSRLD $20, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $12, BB3, CC3; VPSRLD $20, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
polyAdd(0*8(oup))
polyMulAVX2
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol8<>(SB), DD0, DD0; VPSHUFB ·rol8<>(SB), DD1, DD1; VPSHUFB ·rol8<>(SB), DD2, DD2; VPSHUFB ·rol8<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $7, BB0, CC3; VPSRLD $25, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $7, BB1, CC3; VPSRLD $25, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $7, BB2, CC3; VPSRLD $25, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $7, BB3, CC3; VPSRLD $25, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
VPALIGNR $4, BB0, BB0, BB0; VPALIGNR $4, BB1, BB1, BB1; VPALIGNR $4, BB2, BB2, BB2; VPALIGNR $4, BB3, BB3, BB3
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $8, CC3, CC3, CC3
VPALIGNR $12, DD0, DD0, DD0; VPALIGNR $12, DD1, DD1, DD1; VPALIGNR $12, DD2, DD2, DD2; VPALIGNR $12, DD3, DD3, DD3
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol16<>(SB), DD0, DD0; VPSHUFB ·rol16<>(SB), DD1, DD1; VPSHUFB ·rol16<>(SB), DD2, DD2; VPSHUFB ·rol16<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
polyAdd(2*8(oup))
polyMulAVX2
LEAQ (4*8)(oup), oup
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $12, BB0, CC3; VPSRLD $20, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $12, BB1, CC3; VPSRLD $20, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $12, BB2, CC3; VPSRLD $20, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $12, BB3, CC3; VPSRLD $20, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
VPADDD BB0, AA0, AA0; VPADDD BB1, AA1, AA1; VPADDD BB2, AA2, AA2; VPADDD BB3, AA3, AA3
VPXOR AA0, DD0, DD0; VPXOR AA1, DD1, DD1; VPXOR AA2, DD2, DD2; VPXOR AA3, DD3, DD3
VPSHUFB ·rol8<>(SB), DD0, DD0; VPSHUFB ·rol8<>(SB), DD1, DD1; VPSHUFB ·rol8<>(SB), DD2, DD2; VPSHUFB ·rol8<>(SB), DD3, DD3
VPADDD DD0, CC0, CC0; VPADDD DD1, CC1, CC1; VPADDD DD2, CC2, CC2; VPADDD DD3, CC3, CC3
VPXOR CC0, BB0, BB0; VPXOR CC1, BB1, BB1; VPXOR CC2, BB2, BB2; VPXOR CC3, BB3, BB3
VMOVDQA CC3, tmpStoreAVX2
VPSLLD $7, BB0, CC3; VPSRLD $25, BB0, BB0; VPXOR CC3, BB0, BB0
VPSLLD $7, BB1, CC3; VPSRLD $25, BB1, BB1; VPXOR CC3, BB1, BB1
VPSLLD $7, BB2, CC3; VPSRLD $25, BB2, BB2; VPXOR CC3, BB2, BB2
VPSLLD $7, BB3, CC3; VPSRLD $25, BB3, BB3; VPXOR CC3, BB3, BB3
VMOVDQA tmpStoreAVX2, CC3
VPALIGNR $12, BB0, BB0, BB0; VPALIGNR $12, BB1, BB1, BB1; VPALIGNR $12, BB2, BB2, BB2; VPALIGNR $12, BB3, BB3, BB3
VPALIGNR $8, CC0, CC0, CC0; VPALIGNR $8, CC1, CC1, CC1; VPALIGNR $8, CC2, CC2, CC2; VPALIGNR $8, CC3, CC3, CC3
VPALIGNR $4, DD0, DD0, DD0; VPALIGNR $4, DD1, DD1, DD1; VPALIGNR $4, DD2, DD2, DD2; VPALIGNR $4, DD3, DD3, DD3
DECQ itr1
JG sealAVX2Tail512LoopA
DECQ itr2
JGE sealAVX2Tail512LoopB
VPADDD ·chacha20Constants<>(SB), AA0, AA0; VPADDD ·chacha20Constants<>(SB), AA1, AA1; VPADDD ·chacha20Constants<>(SB), AA2, AA2; VPADDD ·chacha20Constants<>(SB), AA3, AA3
VPADDD state1StoreAVX2, BB0, BB0; VPADDD state1StoreAVX2, BB1, BB1; VPADDD state1StoreAVX2, BB2, BB2; VPADDD state1StoreAVX2, BB3, BB3
VPADDD state2StoreAVX2, CC0, CC0; VPADDD state2StoreAVX2, CC1, CC1; VPADDD state2StoreAVX2, CC2, CC2; VPADDD state2StoreAVX2, CC3, CC3
VPADDD ctr0StoreAVX2, DD0, DD0; VPADDD ctr1StoreAVX2, DD1, DD1; VPADDD ctr2StoreAVX2, DD2, DD2; VPADDD ctr3StoreAVX2, DD3, DD3
VMOVDQA CC3, tmpStoreAVX2
VPERM2I128 $0x02, AA0, BB0, CC3
VPXOR (0*32)(inp), CC3, CC3
VMOVDQU CC3, (0*32)(oup)
VPERM2I128 $0x02, CC0, DD0, CC3
VPXOR (1*32)(inp), CC3, CC3
VMOVDQU CC3, (1*32)(oup)
VPERM2I128 $0x13, AA0, BB0, CC3
VPXOR (2*32)(inp), CC3, CC3
VMOVDQU CC3, (2*32)(oup)
VPERM2I128 $0x13, CC0, DD0, CC3
VPXOR (3*32)(inp), CC3, CC3
VMOVDQU CC3, (3*32)(oup)
VPERM2I128 $0x02, AA1, BB1, AA0
VPERM2I128 $0x02, CC1, DD1, BB0
VPERM2I128 $0x13, AA1, BB1, CC0
VPERM2I128 $0x13, CC1, DD1, DD0
VPXOR (4*32)(inp), AA0, AA0; VPXOR (5*32)(inp), BB0, BB0; VPXOR (6*32)(inp), CC0, CC0; VPXOR (7*32)(inp), DD0, DD0
VMOVDQU AA0, (4*32)(oup); VMOVDQU BB0, (5*32)(oup); VMOVDQU CC0, (6*32)(oup); VMOVDQU DD0, (7*32)(oup)
VPERM2I128 $0x02, AA2, BB2, AA0
VPERM2I128 $0x02, CC2, DD2, BB0
VPERM2I128 $0x13, AA2, BB2, CC0
VPERM2I128 $0x13, CC2, DD2, DD0
VPXOR (8*32)(inp), AA0, AA0; VPXOR (9*32)(inp), BB0, BB0; VPXOR (10*32)(inp), CC0, CC0; VPXOR (11*32)(inp), DD0, DD0
VMOVDQU AA0, (8*32)(oup); VMOVDQU BB0, (9*32)(oup); VMOVDQU CC0, (10*32)(oup); VMOVDQU DD0, (11*32)(oup)
MOVQ $384, itr1
LEAQ 384(inp), inp
SUBQ $384, inl
VPERM2I128 $0x02, AA3, BB3, AA0
VPERM2I128 $0x02, tmpStoreAVX2, DD3, BB0
VPERM2I128 $0x13, AA3, BB3, CC0
VPERM2I128 $0x13, tmpStoreAVX2, DD3, DD0
JMP sealAVX2SealHash
// func haveSSSE3() bool
TEXT ·haveSSSE3(SB), NOSPLIT, $0
XORQ AX, AX
INCL AX
CPUID
SHRQ $9, CX
ANDQ $1, CX
MOVB CX, ret+0(FP)
RET