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- ;;====================================================================
- ;; Written by Andy Polyakov <appro@openssl.org> for the OpenSSL
- ;; project.
- ;;
- ;; Rights for redistribution and usage in source and binary forms are
- ;; granted according to the OpenSSL license. Warranty of any kind is
- ;; disclaimed.
- ;;====================================================================
- ;; Compiler-generated multiply-n-add SPLOOP runs at 12*n cycles, n
- ;; being the number of 32-bit words, addition - 8*n. Corresponding 4x
- ;; unrolled SPLOOP-free loops - at ~8*n and ~5*n. Below assembler
- ;; SPLOOPs spin at ... 2*n cycles [plus epilogue].
- ;;====================================================================
- .text
- .if .ASSEMBLER_VERSION<7000000
- .asg 0,__TI_EABI__
- .endif
- .if __TI_EABI__
- .asg bn_mul_add_words,_bn_mul_add_words
- .asg bn_mul_words,_bn_mul_words
- .asg bn_sqr_words,_bn_sqr_words
- .asg bn_add_words,_bn_add_words
- .asg bn_sub_words,_bn_sub_words
- .asg bn_div_words,_bn_div_words
- .asg bn_sqr_comba8,_bn_sqr_comba8
- .asg bn_mul_comba8,_bn_mul_comba8
- .asg bn_sqr_comba4,_bn_sqr_comba4
- .asg bn_mul_comba4,_bn_mul_comba4
- .endif
- .asg B3,RA
- .asg A4,ARG0
- .asg B4,ARG1
- .asg A6,ARG2
- .asg B6,ARG3
- .asg A8,ARG4
- .asg B8,ARG5
- .asg A4,RET
- .asg A15,FP
- .asg B14,DP
- .asg B15,SP
- .global _bn_mul_add_words
- _bn_mul_add_words:
- .asmfunc
- MV ARG2,B0
- [!B0] BNOP RA
- ||[!B0] MVK 0,RET
- [B0] MVC B0,ILC
- [B0] ZERO A19 ; high part of accumulator
- || [B0] MV ARG0,A2
- || [B0] MV ARG3,A3
- NOP 3
- SPLOOP 2 ; 2*n+10
- ;;====================================================================
- LDW *ARG1++,B7 ; ap[i]
- NOP 3
- LDW *ARG0++,A7 ; rp[i]
- MPY32U B7,A3,A17:A16
- NOP 3 ; [2,0] in epilogue
- ADDU A16,A7,A21:A20
- ADDU A19,A21:A20,A19:A18
- || MV.S A17,A23
- SPKERNEL 2,1 ; leave slot for "return value"
- || STW A18,*A2++ ; rp[i]
- || ADD A19,A23,A19
- ;;====================================================================
- BNOP RA,4
- MV A19,RET ; return value
- .endasmfunc
- .global _bn_mul_words
- _bn_mul_words:
- .asmfunc
- MV ARG2,B0
- [!B0] BNOP RA
- ||[!B0] MVK 0,RET
- [B0] MVC B0,ILC
- [B0] ZERO A19 ; high part of accumulator
- NOP 3
- SPLOOP 2 ; 2*n+10
- ;;====================================================================
- LDW *ARG1++,A7 ; ap[i]
- NOP 4
- MPY32U A7,ARG3,A17:A16
- NOP 4 ; [2,0] in epiloque
- ADDU A19,A16,A19:A18
- || MV.S A17,A21
- SPKERNEL 2,1 ; leave slot for "return value"
- || STW A18,*ARG0++ ; rp[i]
- || ADD.L A19,A21,A19
- ;;====================================================================
- BNOP RA,4
- MV A19,RET ; return value
- .endasmfunc
- .global _bn_sqr_words
- _bn_sqr_words:
- .asmfunc
- MV ARG2,B0
- [!B0] BNOP RA
- ||[!B0] MVK 0,RET
- [B0] MVC B0,ILC
- [B0] MV ARG0,B2
- || [B0] ADD 4,ARG0,ARG0
- NOP 3
- SPLOOP 2 ; 2*n+10
- ;;====================================================================
- LDW *ARG1++,B7 ; ap[i]
- NOP 4
- MPY32U B7,B7,B1:B0
- NOP 3 ; [2,0] in epilogue
- STW B0,*B2++(8) ; rp[2*i]
- MV B1,A1
- SPKERNEL 2,0 ; fully overlap BNOP RA,5
- || STW A1,*ARG0++(8) ; rp[2*i+1]
- ;;====================================================================
- BNOP RA,5
- .endasmfunc
- .global _bn_add_words
- _bn_add_words:
- .asmfunc
- MV ARG3,B0
- [!B0] BNOP RA
- ||[!B0] MVK 0,RET
- [B0] MVC B0,ILC
- [B0] ZERO A1 ; carry flag
- || [B0] MV ARG0,A3
- NOP 3
- SPLOOP 2 ; 2*n+6
- ;;====================================================================
- LDW *ARG2++,A7 ; bp[i]
- || LDW *ARG1++,B7 ; ap[i]
- NOP 4
- ADDU A7,B7,A9:A8
- ADDU A1,A9:A8,A1:A0
- SPKERNEL 0,0 ; fully overlap BNOP RA,5
- || STW A0,*A3++ ; write result
- || MV A1,RET ; keep carry flag in RET
- ;;====================================================================
- BNOP RA,5
- .endasmfunc
- .global _bn_sub_words
- _bn_sub_words:
- .asmfunc
- MV ARG3,B0
- [!B0] BNOP RA
- ||[!B0] MVK 0,RET
- [B0] MVC B0,ILC
- [B0] ZERO A2 ; borrow flag
- || [B0] MV ARG0,A3
- NOP 3
- SPLOOP 2 ; 2*n+6
- ;;====================================================================
- LDW *ARG2++,A7 ; bp[i]
- || LDW *ARG1++,B7 ; ap[i]
- NOP 4
- SUBU B7,A7,A1:A0
- [A2] SUB A1:A0,1,A1:A0
- SPKERNEL 0,1 ; leave slot for "return borrow flag"
- || STW A0,*A3++ ; write result
- || AND 1,A1,A2 ; pass on borrow flag
- ;;====================================================================
- BNOP RA,4
- AND 1,A1,RET ; return borrow flag
- .endasmfunc
- .global _bn_div_words
- _bn_div_words:
- .asmfunc
- LMBD 1,A6,A0 ; leading zero bits in dv
- LMBD 1,A4,A1 ; leading zero bits in hi
- || MVK 32,B0
- CMPLTU A1,A0,A2
- || ADD A0,B0,B0
- [ A2] BNOP RA
- ||[ A2] MVK -1,A4 ; return overflow
- ||[!A2] MV A4,A3 ; reassign hi
- [!A2] MV B4,A4 ; reassign lo, will be quotient
- ||[!A2] MVC B0,ILC
- [!A2] SHL A6,A0,A6 ; normalize dv
- || MVK 1,A1
- [!A2] CMPLTU A3,A6,A1 ; hi<dv?
- ||[!A2] SHL A4,1,A5:A4 ; lo<<1
- [!A1] SUB A3,A6,A3 ; hi-=dv
- ||[!A1] OR 1,A4,A4
- [!A2] SHRU A3,31,A1 ; upper bit
- ||[!A2] ADDAH A5,A3,A3 ; hi<<1|lo>>31
- SPLOOP 3
- [!A1] CMPLTU A3,A6,A1 ; hi<dv?
- ||[ A1] ZERO A1
- || SHL A4,1,A5:A4 ; lo<<1
- [!A1] SUB A3,A6,A3 ; hi-=dv
- ||[!A1] OR 1,A4,A4 ; quotient
- SHRU A3,31,A1 ; upper bit
- || ADDAH A5,A3,A3 ; hi<<1|lo>>31
- SPKERNEL
- BNOP RA,5
- .endasmfunc
- ;;====================================================================
- ;; Not really Comba algorithm, just straightforward NxM... Dedicated
- ;; fully unrolled real Comba implementations are asymptotically 2x
- ;; faster, but naturally larger undertaking. Purpose of this exercise
- ;; was rather to learn to master nested SPLOOPs...
- ;;====================================================================
- .global _bn_sqr_comba8
- .global _bn_mul_comba8
- _bn_sqr_comba8:
- MV ARG1,ARG2
- _bn_mul_comba8:
- .asmfunc
- MVK 8,B0 ; N, RILC
- || MVK 8,A0 ; M, outer loop counter
- || MV ARG1,A5 ; copy ap
- || MV ARG0,B4 ; copy rp
- || ZERO B19 ; high part of accumulator
- MVC B0,RILC
- || SUB B0,2,B1 ; N-2, initial ILC
- || SUB B0,1,B2 ; const B2=N-1
- || LDW *A5++,B6 ; ap[0]
- || MV A0,A3 ; const A3=M
- sploopNxM?: ; for best performance arrange M<=N
- [A0] SPLOOPD 2 ; 2*n+10
- || MVC B1,ILC
- || ADDAW B4,B0,B5
- || ZERO B7
- || LDW *A5++,A9 ; pre-fetch ap[1]
- || ZERO A1
- || SUB A0,1,A0
- ;;====================================================================
- ;; SPLOOP from bn_mul_add_words, but with flipped A<>B register files.
- ;; This is because of Advisory 15 from TI publication SPRZ247I.
- LDW *ARG2++,A7 ; bp[i]
- NOP 3
- [A1] LDW *B5++,B7 ; rp[i]
- MPY32U A7,B6,B17:B16
- NOP 3
- ADDU B16,B7,B21:B20
- ADDU B19,B21:B20,B19:B18
- || MV.S B17,B23
- SPKERNEL
- || STW B18,*B4++ ; rp[i]
- || ADD.S B19,B23,B19
- ;;====================================================================
- outer?: ; m*2*(n+1)+10
- SUBAW ARG2,A3,ARG2 ; rewind bp to bp[0]
- SPMASKR
- || CMPGT A0,1,A2 ; done pre-fetching ap[i+1]?
- MVD A9,B6 ; move through .M unit(*)
- [A2] LDW *A5++,A9 ; pre-fetch ap[i+1]
- SUBAW B5,B2,B5 ; rewind rp to rp[1]
- MVK 1,A1
- [A0] BNOP.S1 outer?,4
- || [A0] SUB.L A0,1,A0
- STW B19,*B4--[B2] ; rewind rp tp rp[1]
- || ZERO.S B19 ; high part of accumulator
- ;; end of outer?
- BNOP RA,5 ; return
- .endasmfunc
- ;; (*) It should be noted that B6 is used as input to MPY32U in
- ;; chronologically next cycle in *preceding* SPLOOP iteration.
- ;; Normally such arrangement would require DINT, but at this
- ;; point SPLOOP is draining and interrupts are disabled
- ;; implicitly.
- .global _bn_sqr_comba4
- .global _bn_mul_comba4
- _bn_sqr_comba4:
- MV ARG1,ARG2
- _bn_mul_comba4:
- .asmfunc
- .if 0
- BNOP sploopNxM?,3
- ;; Above mentioned m*2*(n+1)+10 does not apply in n=m=4 case,
- ;; because of low-counter effect, when prologue phase finishes
- ;; before SPKERNEL instruction is reached. As result it's 25%
- ;; slower than expected...
- MVK 4,B0 ; N, RILC
- || MVK 4,A0 ; M, outer loop counter
- || MV ARG1,A5 ; copy ap
- || MV ARG0,B4 ; copy rp
- || ZERO B19 ; high part of accumulator
- MVC B0,RILC
- || SUB B0,2,B1 ; first ILC
- || SUB B0,1,B2 ; const B2=N-1
- || LDW *A5++,B6 ; ap[0]
- || MV A0,A3 ; const A3=M
- .else
- ;; This alternative is an exercise in fully unrolled Comba
- ;; algorithm implementation that operates at n*(n+1)+12, or
- ;; as little as 32 cycles...
- LDW *ARG1[0],B16 ; a[0]
- || LDW *ARG2[0],A16 ; b[0]
- LDW *ARG1[1],B17 ; a[1]
- || LDW *ARG2[1],A17 ; b[1]
- LDW *ARG1[2],B18 ; a[2]
- || LDW *ARG2[2],A18 ; b[2]
- LDW *ARG1[3],B19 ; a[3]
- || LDW *ARG2[3],A19 ; b[3]
- NOP
- MPY32U A16,B16,A1:A0 ; a[0]*b[0]
- MPY32U A17,B16,A23:A22 ; a[0]*b[1]
- MPY32U A16,B17,A25:A24 ; a[1]*b[0]
- MPY32U A16,B18,A27:A26 ; a[2]*b[0]
- STW A0,*ARG0[0]
- || MPY32U A17,B17,A29:A28 ; a[1]*b[1]
- MPY32U A18,B16,A31:A30 ; a[0]*b[2]
- || ADDU A22,A1,A1:A0
- MV A23,B0
- || MPY32U A19,B16,A21:A20 ; a[3]*b[0]
- || ADDU A24,A1:A0,A1:A0
- ADDU A25,B0,B1:B0
- || STW A0,*ARG0[1]
- || MPY32U A18,B17,A23:A22 ; a[2]*b[1]
- || ADDU A26,A1,A9:A8
- ADDU A27,B1,B9:B8
- || MPY32U A17,B18,A25:A24 ; a[1]*b[2]
- || ADDU A28,A9:A8,A9:A8
- ADDU A29,B9:B8,B9:B8
- || MPY32U A16,B19,A27:A26 ; a[0]*b[3]
- || ADDU A30,A9:A8,A9:A8
- ADDU A31,B9:B8,B9:B8
- || ADDU B0,A9:A8,A9:A8
- STW A8,*ARG0[2]
- || ADDU A20,A9,A1:A0
- ADDU A21,B9,B1:B0
- || MPY32U A19,B17,A21:A20 ; a[3]*b[1]
- || ADDU A22,A1:A0,A1:A0
- ADDU A23,B1:B0,B1:B0
- || MPY32U A18,B18,A23:A22 ; a[2]*b[2]
- || ADDU A24,A1:A0,A1:A0
- ADDU A25,B1:B0,B1:B0
- || MPY32U A17,B19,A25:A24 ; a[1]*b[3]
- || ADDU A26,A1:A0,A1:A0
- ADDU A27,B1:B0,B1:B0
- || ADDU B8,A1:A0,A1:A0
- STW A0,*ARG0[3]
- || MPY32U A19,B18,A27:A26 ; a[3]*b[2]
- || ADDU A20,A1,A9:A8
- ADDU A21,B1,B9:B8
- || MPY32U A18,B19,A29:A28 ; a[2]*b[3]
- || ADDU A22,A9:A8,A9:A8
- ADDU A23,B9:B8,B9:B8
- || MPY32U A19,B19,A31:A30 ; a[3]*b[3]
- || ADDU A24,A9:A8,A9:A8
- ADDU A25,B9:B8,B9:B8
- || ADDU B0,A9:A8,A9:A8
- STW A8,*ARG0[4]
- || ADDU A26,A9,A1:A0
- ADDU A27,B9,B1:B0
- || ADDU A28,A1:A0,A1:A0
- ADDU A29,B1:B0,B1:B0
- || BNOP RA
- || ADDU B8,A1:A0,A1:A0
- STW A0,*ARG0[5]
- || ADDU A30,A1,A9:A8
- ADD A31,B1,B8
- ADDU B0,A9:A8,A9:A8 ; removed || to avoid cross-path stall below
- ADD B8,A9,A9
- || STW A8,*ARG0[6]
- STW A9,*ARG0[7]
- .endif
- .endasmfunc
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