mirror of
https://github.com/cheat/cheat.git
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194 lines
5.3 KiB
ArmAsm
194 lines
5.3 KiB
ArmAsm
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// +build amd64
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#include "textflag.h"
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// Depends on circl/math/fp448 package
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#include "../../math/fp448/fp_amd64.h"
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#include "curve_amd64.h"
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// CTE_A24 is (A+2)/4 from Curve448
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#define CTE_A24 39082
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#define Size 56
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// multiplyA24Leg multiplies x times CTE_A24 and stores in z
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// Uses: AX, DX, R8-R15, FLAGS
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// Instr: x86_64, cmov, adx
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#define multiplyA24Leg(z,x) \
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MOVQ $CTE_A24, R15; \
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MOVQ 0+x, AX; MULQ R15; MOVQ AX, R8; ;;;;;;;;;;;; MOVQ DX, R9; \
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MOVQ 8+x, AX; MULQ R15; ADDQ AX, R9; ADCQ $0, DX; MOVQ DX, R10; \
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MOVQ 16+x, AX; MULQ R15; ADDQ AX, R10; ADCQ $0, DX; MOVQ DX, R11; \
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MOVQ 24+x, AX; MULQ R15; ADDQ AX, R11; ADCQ $0, DX; MOVQ DX, R12; \
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MOVQ 32+x, AX; MULQ R15; ADDQ AX, R12; ADCQ $0, DX; MOVQ DX, R13; \
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MOVQ 40+x, AX; MULQ R15; ADDQ AX, R13; ADCQ $0, DX; MOVQ DX, R14; \
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MOVQ 48+x, AX; MULQ R15; ADDQ AX, R14; ADCQ $0, DX; \
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MOVQ DX, AX; \
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SHLQ $32, AX; \
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ADDQ DX, R8; MOVQ $0, DX; \
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ADCQ $0, R9; \
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ADCQ $0, R10; \
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ADCQ AX, R11; \
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ADCQ $0, R12; \
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ADCQ $0, R13; \
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ADCQ $0, R14; \
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ADCQ $0, DX; \
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MOVQ DX, AX; \
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SHLQ $32, AX; \
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ADDQ DX, R8; \
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ADCQ $0, R9; \
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ADCQ $0, R10; \
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ADCQ AX, R11; \
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ADCQ $0, R12; \
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ADCQ $0, R13; \
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ADCQ $0, R14; \
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MOVQ R8, 0+z; \
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MOVQ R9, 8+z; \
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MOVQ R10, 16+z; \
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MOVQ R11, 24+z; \
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MOVQ R12, 32+z; \
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MOVQ R13, 40+z; \
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MOVQ R14, 48+z;
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// multiplyA24Adx multiplies x times CTE_A24 and stores in z
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// Uses: AX, DX, R8-R14, FLAGS
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// Instr: x86_64, bmi2
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#define multiplyA24Adx(z,x) \
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MOVQ $CTE_A24, DX; \
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MULXQ 0+x, R8, R9; \
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MULXQ 8+x, AX, R10; ADDQ AX, R9; \
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MULXQ 16+x, AX, R11; ADCQ AX, R10; \
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MULXQ 24+x, AX, R12; ADCQ AX, R11; \
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MULXQ 32+x, AX, R13; ADCQ AX, R12; \
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MULXQ 40+x, AX, R14; ADCQ AX, R13; \
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MULXQ 48+x, AX, DX; ADCQ AX, R14; \
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;;;;;;;;;;;;;;;;;;;; ADCQ $0, DX; \
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MOVQ DX, AX; \
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SHLQ $32, AX; \
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ADDQ DX, R8; MOVQ $0, DX; \
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ADCQ $0, R9; \
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ADCQ $0, R10; \
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ADCQ AX, R11; \
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ADCQ $0, R12; \
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ADCQ $0, R13; \
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ADCQ $0, R14; \
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ADCQ $0, DX; \
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MOVQ DX, AX; \
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SHLQ $32, AX; \
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ADDQ DX, R8; \
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ADCQ $0, R9; \
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ADCQ $0, R10; \
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ADCQ AX, R11; \
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ADCQ $0, R12; \
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ADCQ $0, R13; \
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ADCQ $0, R14; \
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MOVQ R8, 0+z; \
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MOVQ R9, 8+z; \
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MOVQ R10, 16+z; \
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MOVQ R11, 24+z; \
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MOVQ R12, 32+z; \
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MOVQ R13, 40+z; \
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MOVQ R14, 48+z;
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#define mulA24Legacy \
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multiplyA24Leg(0(DI),0(SI))
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#define mulA24Bmi2Adx \
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multiplyA24Adx(0(DI),0(SI))
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// func mulA24Amd64(z, x *fp448.Elt)
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TEXT ·mulA24Amd64(SB),NOSPLIT,$0-16
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MOVQ z+0(FP), DI
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MOVQ x+8(FP), SI
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CHECK_BMI2ADX(LMA24, mulA24Legacy, mulA24Bmi2Adx)
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// func ladderStepAmd64(w *[5]fp448.Elt, b uint)
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// ladderStepAmd64 calculates a point addition and doubling as follows:
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// (x2,z2) = 2*(x2,z2) and (x3,z3) = (x2,z2)+(x3,z3) using as a difference (x1,-).
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// w = {x1,x2,z2,x3,z4} are five fp255.Elt of 56 bytes.
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// stack = (t0,t1) are two fp.Elt of fp.Size bytes, and
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// (b0,b1) are two-double precision fp.Elt of 2*fp.Size bytes.
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TEXT ·ladderStepAmd64(SB),NOSPLIT,$336-16
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// Parameters
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#define regWork DI
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#define regMove SI
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#define x1 0*Size(regWork)
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#define x2 1*Size(regWork)
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#define z2 2*Size(regWork)
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#define x3 3*Size(regWork)
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#define z3 4*Size(regWork)
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// Local variables
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#define t0 0*Size(SP)
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#define t1 1*Size(SP)
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#define b0 2*Size(SP)
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#define b1 4*Size(SP)
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MOVQ w+0(FP), regWork
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MOVQ b+8(FP), regMove
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CHECK_BMI2ADX(LLADSTEP, ladderStepLeg, ladderStepBmi2Adx)
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#undef regWork
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#undef regMove
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#undef x1
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#undef x2
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#undef z2
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#undef x3
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#undef z3
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#undef t0
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#undef t1
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#undef b0
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#undef b1
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// func diffAddAmd64(work *[5]fp.Elt, swap uint)
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// diffAddAmd64 calculates a differential point addition using a precomputed point.
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// (x1,z1) = (x1,z1)+(mu) using a difference point (x2,z2)
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// work = {mu,x1,z1,x2,z2} are five fp448.Elt of 56 bytes, and
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// stack = (b0,b1) are two-double precision fp.Elt of 2*fp.Size bytes.
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// This is Equation 7 at https://eprint.iacr.org/2017/264.
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TEXT ·diffAddAmd64(SB),NOSPLIT,$224-16
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// Parameters
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#define regWork DI
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#define regSwap SI
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#define ui 0*Size(regWork)
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#define x1 1*Size(regWork)
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#define z1 2*Size(regWork)
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#define x2 3*Size(regWork)
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#define z2 4*Size(regWork)
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// Local variables
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#define b0 0*Size(SP)
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#define b1 2*Size(SP)
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MOVQ w+0(FP), regWork
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MOVQ b+8(FP), regSwap
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cswap(x1,x2,regSwap)
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cswap(z1,z2,regSwap)
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CHECK_BMI2ADX(LDIFADD, difAddLeg, difAddBmi2Adx)
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#undef regWork
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#undef regSwap
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#undef ui
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#undef x1
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#undef z1
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#undef x2
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#undef z2
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#undef b0
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#undef b1
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// func doubleAmd64(x, z *fp448.Elt)
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// doubleAmd64 calculates a point doubling (x1,z1) = 2*(x1,z1).
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// stack = (t0,t1) are two fp.Elt of fp.Size bytes, and
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// (b0,b1) are two-double precision fp.Elt of 2*fp.Size bytes.
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TEXT ·doubleAmd64(SB),NOSPLIT,$336-16
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// Parameters
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#define x1 0(DI)
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#define z1 0(SI)
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// Local variables
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#define t0 0*Size(SP)
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#define t1 1*Size(SP)
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#define b0 2*Size(SP)
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#define b1 4*Size(SP)
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MOVQ x+0(FP), DI
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MOVQ z+8(FP), SI
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CHECK_BMI2ADX(LDOUB,doubleLeg,doubleBmi2Adx)
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#undef x1
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#undef z1
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#undef t0
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#undef t1
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#undef b0
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#undef b1
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