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C -*- mode: asm; asm-comment-char: ?C; -*-
C nettle, low-level cryptographics library
C
C Copyright (C) 2002, 2005 Niels Möller
C
C The nettle library is free software; you can redistribute it and/or modify
C it under the terms of the GNU Lesser General Public License as published by
C the Free Software Foundation; either version 2.1 of the License, or (at your
C option) any later version.
C
C The nettle library is distributed in the hope that it will be useful, but
C WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
C or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
C License for more details.
C
C You should have received a copy of the GNU Lesser General Public License
C along with the nettle library; see the file COPYING.LIB. If not, write to
C the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
C MA 02111-1307, USA.
C Define to YES, to enable the complex code to special case SRC
C and DST with compatible alignment.
define(<WITH_ALIGN>, <YES>)
C Registers
define(<CTX>, <%i0>)
define(<LENGTH>,<%i1>)
define(<DST>, <%i2>)
define(<SRC>, <%i3>)
define(<I1>, <%i4>)
define(<I2>, <%i5>)
define(<J>, <%g1>)
define(<SI>, <%g2>)
define(<SJ>, <%g3>)
define(<TMP>, <%o0>)
define(<TMP2>, <%o1>)
define(<N>, <%o2>)
define(<DATA>, <%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(<ARCFOUR_BYTE>, <
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(<FRAME_SIZE>, 192)
.file "arcfour-crypt.asm"
C arcfour_crypt(struct arcfour_ctx *ctx,
C unsigned 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
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