C sparc64/arcfour-crypt.asm ifelse(< Copyright (C) 2002, 2005 Niels Möller This file is part of GNU Nettle. GNU Nettle is free software: you can redistribute it and/or modify it under the terms of either: * the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. or * the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. or both in parallel, as here. GNU Nettle is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received copies of the GNU General Public License and the GNU Lesser General Public License along with this program. If not, see http://www.gnu.org/licenses/. >) C Define to YES, to enable the complex code to special case SRC C and DST with compatible alignment. define(, ) C Registers define(, <%i0>) define(,<%i1>) define(, <%i2>) define(, <%i3>) define(, <%i4>) define(, <%i5>) define(, <%g1>) define(, <%g2>) define(, <%g3>) define(, <%o0>) define(, <%o1>) define(, <%o2>) define(, <%o3>) C Computes the next byte of the key stream. As input, i must C already point to the index for the current access, the index C for the next access is stored in ni. The resulting key byte is C stored in res. C ARCFOUR_BYTE(i, ni, res) define(, < ldub [CTX + $1], SI add $1, 1, $2 add J, SI, J and J, 0xff, J ldub [CTX + J], SJ and $2, 0xff, $2 stb SI, [CTX + J] add SI, SJ, SI and SI, 0xff, SI stb SJ, [CTX + $1] ldub [CTX + SI], $3 >)dnl define(, 192) .file "arcfour-crypt.asm" C arcfour_crypt(struct arcfour_ctx *ctx, C size_t length, uint8_t *dst, C const uint8_t *src) .section ".text" .align 16 .proc 020 PROLOGUE(nettle_arcfour_crypt) save %sp, -FRAME_SIZE, %sp cmp LENGTH, 0 be .Lend nop C Load both I and J lduh [CTX + ARCFOUR_I], I1 and I1, 0xff, J srl I1, 8, I1 C We want an even address for DST andcc DST, 1, %g0 add I1, 1 ,I1 beq .Laligned2 and I1, 0xff, I1 mov I1, I2 ldub [SRC], DATA ARCFOUR_BYTE(I2, I1, TMP) subcc LENGTH, 1, LENGTH add SRC, 1, SRC xor DATA, TMP, DATA stb DATA, [DST] beq .Ldone add DST, 1, DST .Laligned2: cmp LENGTH, 2 blu .Lfinal1 C Harmless delay slot instruction andcc DST, 2, %g0 beq .Laligned4 nop ldub [SRC], DATA ARCFOUR_BYTE(I1, I2, TMP) ldub [SRC + 1], TMP2 add SRC, 2, SRC xor DATA, TMP, DATA sll DATA, 8, DATA ARCFOUR_BYTE(I2, I1, TMP) xor TMP2, TMP, TMP subcc LENGTH, 2, LENGTH or DATA, TMP, DATA sth DATA, [DST] beq .Ldone add DST, 2, DST .Laligned4: cmp LENGTH, 4 blu .Lfinal2 C Harmless delay slot instruction srl LENGTH, 2, N .Loop: C Main loop, with aligned writes C FIXME: Could check if SRC is aligned, and C use 32-bit reads in that case. ldub [SRC], DATA ARCFOUR_BYTE(I1, I2, TMP) ldub [SRC + 1], TMP2 xor TMP, DATA, DATA sll DATA, 8, DATA ARCFOUR_BYTE(I2, I1, TMP) xor TMP2, TMP, TMP ldub [SRC + 2], TMP2 or TMP, DATA, DATA sll DATA, 8, DATA ARCFOUR_BYTE(I1, I2, TMP) xor TMP2, TMP, TMP ldub [SRC + 3], TMP2 or TMP, DATA, DATA sll DATA, 8, DATA ARCFOUR_BYTE(I2, I1, TMP) xor TMP2, TMP, TMP or TMP, DATA, DATA subcc N, 1, N add SRC, 4, SRC st DATA, [DST] bne .Loop add DST, 4, DST andcc LENGTH, 3, LENGTH beq .Ldone nop .Lfinal2: C DST address must be 2-aligned cmp LENGTH, 2 blu .Lfinal1 nop ldub [SRC], DATA ARCFOUR_BYTE(I1, I2, TMP) ldub [SRC + 1], TMP2 add SRC, 2, SRC xor DATA, TMP, DATA sll DATA, 8, DATA ARCFOUR_BYTE(I2, I1, TMP) xor TMP2, TMP, TMP or DATA, TMP, DATA sth DATA, [DST] beq .Ldone add DST, 2, DST .Lfinal1: mov I1, I2 ldub [SRC], DATA ARCFOUR_BYTE(I2, I1, TMP) xor DATA, TMP, DATA stb DATA, [DST] .Ldone: C Save back I and J sll I2, 8, I2 or I2, J, I2 stuh I2, [CTX + ARCFOUR_I] .Lend: ret restore EPILOGUE(nettle_arcfour_crypt) C Stats for AES 128 on sellafield.lysator.liu.se (UE450, 296 MHz) C 1: nettle-1.13 C-code C 2: New assembler code (basically the same as for sparc32) C MB/s cycles/byte C 1: 3.6 77.7 C 2: 21.8 13.0