#! /usr/bin/env perl # Copyright 2016 The OpenSSL Project Authors. All Rights Reserved. # # Licensed under the OpenSSL license (the "License"). You may not use # this file except in compliance with the License. You can obtain a copy # in the file LICENSE in the source distribution or at # https://www.openssl.org/source/license.html # # ==================================================================== # Written by Andy Polyakov for the OpenSSL # project. The module is, however, dual licensed under OpenSSL and # CRYPTOGAMS licenses depending on where you obtain it. For further # details see http://www.openssl.org/~appro/cryptogams/. # ==================================================================== # # Poly1305 hash for C64x+. # # October 2015 # # Performance is [incredible for a 32-bit processor] 1.82 cycles per # processed byte. Comparison to compiler-generated code is problematic, # because results were observed to vary from 2.1 to 7.6 cpb depending # on compiler's ability to inline small functions. Compiler also # disables interrupts for some reason, thus making interrupt response # time dependent on input length. This module on the other hand is free # from such limitation. $output=pop; open STDOUT,">$output"; ($CTXA,$INPB,$LEN,$PADBIT)=("A4","B4","A6","B6"); ($H0,$H1,$H2,$H3,$H4,$H4a)=("A8","B8","A10","B10","B2",$LEN); ($D0,$D1,$D2,$D3)= ("A9","B9","A11","B11"); ($R0,$R1,$R2,$R3,$S1,$S2,$S3,$S3b)=("A0","B0","A1","B1","A12","B12","A13","B13"); ($THREE,$R0b,$S2a)=("B7","B5","A5"); $code.=<<___; .text .if .ASSEMBLER_VERSION<7000000 .asg 0,__TI_EABI__ .endif .if __TI_EABI__ .asg poly1305_init,_poly1305_init .asg poly1305_blocks,_poly1305_blocks .asg poly1305_emit,_poly1305_emit .endif .asg B3,RA .asg A15,FP .asg B15,SP .if .LITTLE_ENDIAN .asg MV,SWAP2 .asg MV.L,SWAP4 .endif .global _poly1305_init _poly1305_init: .asmfunc LDNDW *${INPB}[0],B17:B16 ; load key material LDNDW *${INPB}[1],A17:A16 || ZERO B9:B8 || MVK -1,B0 STDW B9:B8,*${CTXA}[0] ; initialize h1:h0 || SHRU B0,4,B0 ; 0x0fffffff || MVK -4,B1 STDW B9:B8,*${CTXA}[1] ; initialize h3:h2 || AND B0,B1,B1 ; 0x0ffffffc STW B8,*${CTXA}[4] ; initialize h4 .if .BIG_ENDIAN SWAP2 B16,B17 || SWAP2 B17,B16 SWAP2 A16,A17 || SWAP2 A17,A16 SWAP4 B16,B16 || SWAP4 A16,A16 SWAP4 B17,B17 || SWAP4 A17,A17 .endif AND B16,B0,B20 ; r0 = key[0] & 0x0fffffff || AND B17,B1,B22 ; r1 = key[1] & 0x0ffffffc || EXTU B17,4,6,B16 ; r1>>2 AND A16,B1,B21 ; r2 = key[2] & 0x0ffffffc || AND A17,B1,A23 ; r3 = key[3] & 0x0ffffffc || BNOP RA SHRU B21,2,B18 || ADD B22,B16,B16 ; s1 = r1 + r1>>2 STDW B21:B20,*${CTXA}[3] ; save r2:r0 || ADD B21,B18,B18 ; s2 = r2 + r2>>2 || SHRU A23,2,B17 || MV A23,B23 STDW B23:B22,*${CTXA}[4] ; save r3:r1 || ADD B23,B17,B19 ; s3 = r3 + r3>>2 || ADD B23,B17,B17 ; s3 = r3 + r3>>2 STDW B17:B16,*${CTXA}[5] ; save s3:s1 STDW B19:B18,*${CTXA}[6] ; save s3:s2 || ZERO A4 ; return 0 .endasmfunc .global _poly1305_blocks .align 32 _poly1305_blocks: .asmfunc stack_usage(40) SHRU $LEN,4,A2 ; A2 is loop counter, number of blocks [!A2] BNOP RA ; no data || [A2] STW FP,*SP--(40) ; save frame pointer and alloca(40) || [A2] MV SP,FP [A2] STDW B13:B12,*SP[4] ; ABI says so || [A2] MV $CTXA,$S3b ; borrow $S3b [A2] STDW B11:B10,*SP[3] || [A2] STDW A13:A12,*FP[-3] [A2] STDW A11:A10,*FP[-4] || [A2] LDDW *${S3b}[0],B25:B24 ; load h1:h0 [A2] LDNW *${INPB}++[4],$D0 ; load inp[0] [A2] LDNW *${INPB}[-3],$D1 ; load inp[1] LDDW *${CTXA}[1],B29:B28 ; load h3:h2, B28 is h2 LDNW *${INPB}[-2],$D2 ; load inp[2] LDNW *${INPB}[-1],$D3 ; load inp[3] LDDW *${CTXA}[3],$R2:$R0 ; load r2:r0 || LDDW *${S3b}[4],$R3:$R1 ; load r3:r1 || SWAP2 $D0,$D0 LDDW *${CTXA}[5],$S3:$S1 ; load s3:s1 || LDDW *${S3b}[6],$S3b:$S2 ; load s3:s2 || SWAP4 $D0,$D0 || SWAP2 $D1,$D1 ADDU $D0,B24,$D0:$H0 ; h0+=inp[0] || ADD $D0,B24,B27 ; B-copy of h0+inp[0] || SWAP4 $D1,$D1 ADDU $D1,B25,$D1:$H1 ; h1+=inp[1] || MVK 3,$THREE || SWAP2 $D2,$D2 LDW *${CTXA}[4],$H4 ; load h4 || SWAP4 $D2,$D2 || MV B29,B30 ; B30 is h3 MV $R0,$R0b loop?: MPY32U $H0,$R0,A17:A16 || MPY32U B27,$R1,B17:B16 ; MPY32U $H0,$R1,B17:B16 || ADDU $D0,$D1:$H1,B25:B24 ; ADDU $D0,$D1:$H1,$D1:$H1 || ADDU $D2,B28,$D2:$H2 ; h2+=inp[2] || SWAP2 $D3,$D3 MPY32U $H0,$R2,A19:A18 || MPY32U B27,$R3,B19:B18 ; MPY32U $H0,$R3,B19:B18 || ADD $D0,$H1,A24 ; A-copy of B24 || SWAP4 $D3,$D3 || [A2] SUB A2,1,A2 ; decrement loop counter MPY32U A24,$S3,A21:A20 ; MPY32U $H1,$S3,A21:A20 || MPY32U B24,$R0b,B21:B20 ; MPY32U $H1,$R0,B21:B20 || ADDU B25,$D2:$H2,$D2:$H2 ; ADDU $D1,$D2:$H2,$D2:$H2 || ADDU $D3,B30,$D3:$H3 ; h3+=inp[3] || ADD B25,$H2,B25 ; B-copy of $H2 MPY32U A24,$R1,A23:A22 ; MPY32U $H1,$R1,A23:A22 || MPY32U B24,$R2,B23:B22 ; MPY32U $H1,$R2,B23:B22 MPY32U $H2,$S2,A25:A24 || MPY32U B25,$S3b,B25:B24 ; MPY32U $H2,$S3,B25:B24 || ADDU $D2,$D3:$H3,$D3:$H3 || ADD $PADBIT,$H4,$H4 ; h4+=padbit MPY32U $H2,$R0,A27:A26 || MPY32U $H2,$R1,B27:B26 || ADD $D3,$H4,$H4 || MV $S2,$S2a MPY32U $H3,$S1,A29:A28 || MPY32U $H3,$S2,B29:B28 || ADD A21,A17,A21 ; start accumulating "d3:d0" || ADD B21,B17,B21 || ADDU A20,A16,A17:A16 || ADDU B20,B16,B17:B16 || [A2] LDNW *${INPB}++[4],$D0 ; load inp[0] MPY32U $H3,$S3,A31:A30 || MPY32U $H3,$R0b,B31:B30 || ADD A23,A19,A23 || ADD B23,B19,B23 || ADDU A22,A18,A19:A18 || ADDU B22,B18,B19:B18 || [A2] LDNW *${INPB}[-3],$D1 ; load inp[1] MPY32 $H4,$S1,B20 || MPY32 $H4,$S2a,A20 || ADD A25,A21,A21 || ADD B25,B21,B21 || ADDU A24,A17:A16,A17:A16 || ADDU B24,B17:B16,B17:B16 || [A2] LDNW *${INPB}[-2],$D2 ; load inp[2] MPY32 $H4,$S3b,B22 || ADD A27,A23,A23 || ADD B27,B23,B23 || ADDU A26,A19:A18,A19:A18 || ADDU B26,B19:B18,B19:B18 || [A2] LDNW *${INPB}[-1],$D3 ; load inp[3] MPY32 $H4,$R0b,$H4 || ADD A29,A21,A21 ; final hi("d0") || ADD B29,B21,B21 ; final hi("d1") || ADDU A28,A17:A16,A17:A16 ; final lo("d0") || ADDU B28,B17:B16,B17:B16 ADD A31,A23,A23 ; final hi("d2") || ADD B31,B23,B23 ; final hi("d3") || ADDU A30,A19:A18,A19:A18 || ADDU B30,B19:B18,B19:B18 ADDU B20,B17:B16,B17:B16 ; final lo("d1") || ADDU A20,A19:A18,A19:A18 ; final lo("d2") ADDU B22,B19:B18,B19:B18 ; final lo("d3") || ADD A17,A21,A21 ; "flatten" "d3:d0" MV A19,B29 ; move to avoid cross-path stalls ADDU A21,B17:B16,B27:B26 ; B26 is h1 ADD B21,B27,B27 || DMV B29,A18,B29:B28 ; move to avoid cross-path stalls ADDU B27,B29:B28,B29:B28 ; B28 is h2 || [A2] SWAP2 $D0,$D0 ADD A23,B29,B29 || [A2] SWAP4 $D0,$D0 ADDU B29,B19:B18,B31:B30 ; B30 is h3 ADD B23,B31,B31 || MV A16,B24 ; B24 is h0 || [A2] SWAP2 $D1,$D1 ADD B31,$H4,$H4 || [A2] SWAP4 $D1,$D1 SHRU $H4,2,B16 ; last reduction step || AND $H4,$THREE,$H4 ADDAW B16,B16,B16 ; 5*(h4>>2) || [A2] BNOP loop? ADDU B24,B16,B25:B24 ; B24 is h0 || [A2] SWAP2 $D2,$D2 ADDU B26,B25,B27:B26 ; B26 is h1 || [A2] SWAP4 $D2,$D2 ADDU B28,B27,B29:B28 ; B28 is h2 || [A2] ADDU $D0,B24,$D0:$H0 ; h0+=inp[0] || [A2] ADD $D0,B24,B27 ; B-copy of h0+inp[0] ADDU B30,B29,B31:B30 ; B30 is h3 ADD B31,$H4,$H4 || [A2] ADDU $D1,B26,$D1:$H1 ; h1+=inp[1] ;;===== branch to loop? is taken here LDDW *FP[-4],A11:A10 ; ABI says so LDDW *FP[-3],A13:A12 || LDDW *SP[3],B11:B10 LDDW *SP[4],B13:B12 || MV B26,B25 || BNOP RA LDW *++SP(40),FP ; restore frame pointer || MV B30,B29 STDW B25:B24,*${CTXA}[0] ; save h1:h0 STDW B29:B28,*${CTXA}[1] ; save h3:h2 STW $H4,*${CTXA}[4] ; save h4 NOP 1 .endasmfunc ___ { my ($MAC,$NONCEA,$NONCEB)=($INPB,$LEN,$PADBIT); $code.=<<___; .global _poly1305_emit .align 32 _poly1305_emit: .asmfunc LDDW *${CTXA}[0],A17:A16 ; load h1:h0 LDDW *${CTXA}[1],A19:A18 ; load h3:h2 LDW *${CTXA}[4],A20 ; load h4 MV $NONCEA,$NONCEB MVK 5,A22 ; compare to modulus ADDU A16,A22,A23:A22 || LDW *${NONCEA}[0],A8 || LDW *${NONCEB}[1],B8 ADDU A17,A23,A25:A24 || LDW *${NONCEA}[2],A9 || LDW *${NONCEB}[3],B9 ADDU A19,A25,A27:A26 ADDU A19,A27,A29:A28 ADD A20,A29,A29 SHRU A29,2,A2 ; check for overflow in 130-th bit [A2] MV A22,A16 ; select || [A2] MV A24,A17 [A2] MV A26,A18 || [A2] MV A28,A19 || ADDU A8,A16,A23:A22 ; accumulate nonce ADDU B8,A17,A25:A24 || SWAP2 A22,A22 ADDU A23,A25:A24,A25:A24 ADDU A9,A18,A27:A26 || SWAP2 A24,A24 ADDU A25,A27:A26,A27:A26 || ADD B9,A19,A28 ADD A27,A28,A28 || SWAP2 A26,A26 .if .BIG_ENDIAN SWAP2 A28,A28 || SWAP4 A22,A22 || SWAP4 A24,B24 SWAP4 A26,A26 SWAP4 A28,A28 || MV B24,A24 .endif BNOP RA,1 STNW A22,*${MAC}[0] ; write the result STNW A24,*${MAC}[1] STNW A26,*${MAC}[2] STNW A28,*${MAC}[3] .endasmfunc ___ } $code.=<<___; .sect .const .cstring "Poly1305 for C64x+, CRYPTOGAMS by " .align 4 ___ print $code;