Commit a11d055e authored by Ard Biesheuvel's avatar Ard Biesheuvel Committed by Herbert Xu

crypto: mips/poly1305 - incorporate OpenSSL/CRYPTOGAMS optimized implementation

This is a straight import of the OpenSSL/CRYPTOGAMS Poly1305 implementation for
MIPS authored by Andy Polyakov, a prior 64-bit only version of which has been
contributed by him to the OpenSSL project. The file 'poly1305-mips.pl' is taken
straight from this upstream GitHub repository [0] at commit
d22ade312a7af958ec955620b0d241cf42c37feb, and already contains all the changes
required to build it as part of a Linux kernel module.

[0] https://github.com/dot-asm/cryptogamsCo-developed-by: default avatarAndy Polyakov <appro@cryptogams.org>
Signed-off-by: default avatarAndy Polyakov <appro@cryptogams.org>
Co-developed-by: default avatarRené van Dorst <opensource@vdorst.com>
Signed-off-by: default avatarRené van Dorst <opensource@vdorst.com>
Signed-off-by: default avatarArd Biesheuvel <ardb@kernel.org>
Signed-off-by: default avatarHerbert Xu <herbert@gondor.apana.org.au>
parent a6b803b3
...@@ -8,3 +8,17 @@ obj-$(CONFIG_CRYPTO_CRC32_MIPS) += crc32-mips.o ...@@ -8,3 +8,17 @@ obj-$(CONFIG_CRYPTO_CRC32_MIPS) += crc32-mips.o
obj-$(CONFIG_CRYPTO_CHACHA_MIPS) += chacha-mips.o obj-$(CONFIG_CRYPTO_CHACHA_MIPS) += chacha-mips.o
chacha-mips-y := chacha-core.o chacha-glue.o chacha-mips-y := chacha-core.o chacha-glue.o
AFLAGS_chacha-core.o += -O2 # needed to fill branch delay slots AFLAGS_chacha-core.o += -O2 # needed to fill branch delay slots
obj-$(CONFIG_CRYPTO_POLY1305_MIPS) += poly1305-mips.o
poly1305-mips-y := poly1305-core.o poly1305-glue.o
perlasm-flavour-$(CONFIG_CPU_MIPS32) := o32
perlasm-flavour-$(CONFIG_CPU_MIPS64) := 64
quiet_cmd_perlasm = PERLASM $@
cmd_perlasm = $(PERL) $(<) $(perlasm-flavour-y) $(@)
$(obj)/poly1305-core.S: $(src)/poly1305-mips.pl FORCE
$(call if_changed,perlasm)
targets += poly1305-core.S
// SPDX-License-Identifier: GPL-2.0
/*
* OpenSSL/Cryptogams accelerated Poly1305 transform for MIPS
*
* Copyright (C) 2019 Linaro Ltd. <ard.biesheuvel@linaro.org>
*/
#include <asm/unaligned.h>
#include <crypto/algapi.h>
#include <crypto/internal/hash.h>
#include <crypto/internal/poly1305.h>
#include <linux/cpufeature.h>
#include <linux/crypto.h>
#include <linux/module.h>
asmlinkage void poly1305_init_mips(void *state, const u8 *key);
asmlinkage void poly1305_blocks_mips(void *state, const u8 *src, u32 len, u32 hibit);
asmlinkage void poly1305_emit_mips(void *state, __le32 *digest, const u32 *nonce);
void poly1305_init_arch(struct poly1305_desc_ctx *dctx, const u8 *key)
{
poly1305_init_mips(&dctx->h, key);
dctx->s[0] = get_unaligned_le32(key + 16);
dctx->s[1] = get_unaligned_le32(key + 20);
dctx->s[2] = get_unaligned_le32(key + 24);
dctx->s[3] = get_unaligned_le32(key + 28);
dctx->buflen = 0;
}
EXPORT_SYMBOL(poly1305_init_arch);
static int mips_poly1305_init(struct shash_desc *desc)
{
struct poly1305_desc_ctx *dctx = shash_desc_ctx(desc);
dctx->buflen = 0;
dctx->rset = 0;
dctx->sset = false;
return 0;
}
static void mips_poly1305_blocks(struct poly1305_desc_ctx *dctx, const u8 *src,
u32 len, u32 hibit)
{
if (unlikely(!dctx->sset)) {
if (!dctx->rset) {
poly1305_init_mips(&dctx->h, src);
src += POLY1305_BLOCK_SIZE;
len -= POLY1305_BLOCK_SIZE;
dctx->rset = 1;
}
if (len >= POLY1305_BLOCK_SIZE) {
dctx->s[0] = get_unaligned_le32(src + 0);
dctx->s[1] = get_unaligned_le32(src + 4);
dctx->s[2] = get_unaligned_le32(src + 8);
dctx->s[3] = get_unaligned_le32(src + 12);
src += POLY1305_BLOCK_SIZE;
len -= POLY1305_BLOCK_SIZE;
dctx->sset = true;
}
if (len < POLY1305_BLOCK_SIZE)
return;
}
len &= ~(POLY1305_BLOCK_SIZE - 1);
poly1305_blocks_mips(&dctx->h, src, len, hibit);
}
static int mips_poly1305_update(struct shash_desc *desc, const u8 *src,
unsigned int len)
{
struct poly1305_desc_ctx *dctx = shash_desc_ctx(desc);
if (unlikely(dctx->buflen)) {
u32 bytes = min(len, POLY1305_BLOCK_SIZE - dctx->buflen);
memcpy(dctx->buf + dctx->buflen, src, bytes);
src += bytes;
len -= bytes;
dctx->buflen += bytes;
if (dctx->buflen == POLY1305_BLOCK_SIZE) {
mips_poly1305_blocks(dctx, dctx->buf, POLY1305_BLOCK_SIZE, 1);
dctx->buflen = 0;
}
}
if (likely(len >= POLY1305_BLOCK_SIZE)) {
mips_poly1305_blocks(dctx, src, len, 1);
src += round_down(len, POLY1305_BLOCK_SIZE);
len %= POLY1305_BLOCK_SIZE;
}
if (unlikely(len)) {
dctx->buflen = len;
memcpy(dctx->buf, src, len);
}
return 0;
}
void poly1305_update_arch(struct poly1305_desc_ctx *dctx, const u8 *src,
unsigned int nbytes)
{
if (unlikely(dctx->buflen)) {
u32 bytes = min(nbytes, POLY1305_BLOCK_SIZE - dctx->buflen);
memcpy(dctx->buf + dctx->buflen, src, bytes);
src += bytes;
nbytes -= bytes;
dctx->buflen += bytes;
if (dctx->buflen == POLY1305_BLOCK_SIZE) {
poly1305_blocks_mips(&dctx->h, dctx->buf,
POLY1305_BLOCK_SIZE, 1);
dctx->buflen = 0;
}
}
if (likely(nbytes >= POLY1305_BLOCK_SIZE)) {
unsigned int len = round_down(nbytes, POLY1305_BLOCK_SIZE);
poly1305_blocks_mips(&dctx->h, src, len, 1);
src += len;
nbytes %= POLY1305_BLOCK_SIZE;
}
if (unlikely(nbytes)) {
dctx->buflen = nbytes;
memcpy(dctx->buf, src, nbytes);
}
}
EXPORT_SYMBOL(poly1305_update_arch);
void poly1305_final_arch(struct poly1305_desc_ctx *dctx, u8 *dst)
{
__le32 digest[4];
u64 f = 0;
if (unlikely(dctx->buflen)) {
dctx->buf[dctx->buflen++] = 1;
memset(dctx->buf + dctx->buflen, 0,
POLY1305_BLOCK_SIZE - dctx->buflen);
poly1305_blocks_mips(&dctx->h, dctx->buf, POLY1305_BLOCK_SIZE, 0);
}
poly1305_emit_mips(&dctx->h, digest, dctx->s);
/* mac = (h + s) % (2^128) */
f = (f >> 32) + le32_to_cpu(digest[0]);
put_unaligned_le32(f, dst);
f = (f >> 32) + le32_to_cpu(digest[1]);
put_unaligned_le32(f, dst + 4);
f = (f >> 32) + le32_to_cpu(digest[2]);
put_unaligned_le32(f, dst + 8);
f = (f >> 32) + le32_to_cpu(digest[3]);
put_unaligned_le32(f, dst + 12);
*dctx = (struct poly1305_desc_ctx){};
}
EXPORT_SYMBOL(poly1305_final_arch);
static int mips_poly1305_final(struct shash_desc *desc, u8 *dst)
{
struct poly1305_desc_ctx *dctx = shash_desc_ctx(desc);
if (unlikely(!dctx->sset))
return -ENOKEY;
poly1305_final_arch(dctx, dst);
return 0;
}
static struct shash_alg mips_poly1305_alg = {
.init = mips_poly1305_init,
.update = mips_poly1305_update,
.final = mips_poly1305_final,
.digestsize = POLY1305_DIGEST_SIZE,
.descsize = sizeof(struct poly1305_desc_ctx),
.base.cra_name = "poly1305",
.base.cra_driver_name = "poly1305-mips",
.base.cra_priority = 200,
.base.cra_blocksize = POLY1305_BLOCK_SIZE,
.base.cra_module = THIS_MODULE,
};
static int __init mips_poly1305_mod_init(void)
{
return crypto_register_shash(&mips_poly1305_alg);
}
static void __exit mips_poly1305_mod_exit(void)
{
crypto_unregister_shash(&mips_poly1305_alg);
}
module_init(mips_poly1305_mod_init);
module_exit(mips_poly1305_mod_exit);
MODULE_LICENSE("GPL v2");
MODULE_ALIAS_CRYPTO("poly1305");
MODULE_ALIAS_CRYPTO("poly1305-mips");
#!/usr/bin/env perl
# SPDX-License-Identifier: GPL-1.0+ OR BSD-3-Clause
#
# ====================================================================
# Written by Andy Polyakov, @dot-asm, originally for the OpenSSL
# project.
# ====================================================================
# Poly1305 hash for MIPS.
#
# May 2016
#
# Numbers are cycles per processed byte with poly1305_blocks alone.
#
# IALU/gcc
# R1x000 ~5.5/+130% (big-endian)
# Octeon II 2.50/+70% (little-endian)
#
# March 2019
#
# Add 32-bit code path.
#
# October 2019
#
# Modulo-scheduling reduction allows to omit dependency chain at the
# end of inner loop and improve performance. Also optimize MIPS32R2
# code path for MIPS 1004K core. Per René von Dorst's suggestions.
#
# IALU/gcc
# R1x000 ~9.8/? (big-endian)
# Octeon II 3.65/+140% (little-endian)
# MT7621/1004K 4.75/? (little-endian)
#
######################################################################
# There is a number of MIPS ABI in use, O32 and N32/64 are most
# widely used. Then there is a new contender: NUBI. It appears that if
# one picks the latter, it's possible to arrange code in ABI neutral
# manner. Therefore let's stick to NUBI register layout:
#
($zero,$at,$t0,$t1,$t2)=map("\$$_",(0..2,24,25));
($a0,$a1,$a2,$a3,$a4,$a5,$a6,$a7)=map("\$$_",(4..11));
($s0,$s1,$s2,$s3,$s4,$s5,$s6,$s7,$s8,$s9,$s10,$s11)=map("\$$_",(12..23));
($gp,$tp,$sp,$fp,$ra)=map("\$$_",(3,28..31));
#
# The return value is placed in $a0. Following coding rules facilitate
# interoperability:
#
# - never ever touch $tp, "thread pointer", former $gp [o32 can be
# excluded from the rule, because it's specified volatile];
# - copy return value to $t0, former $v0 [or to $a0 if you're adapting
# old code];
# - on O32 populate $a4-$a7 with 'lw $aN,4*N($sp)' if necessary;
#
# For reference here is register layout for N32/64 MIPS ABIs:
#
# ($zero,$at,$v0,$v1)=map("\$$_",(0..3));
# ($a0,$a1,$a2,$a3,$a4,$a5,$a6,$a7)=map("\$$_",(4..11));
# ($t0,$t1,$t2,$t3,$t8,$t9)=map("\$$_",(12..15,24,25));
# ($s0,$s1,$s2,$s3,$s4,$s5,$s6,$s7)=map("\$$_",(16..23));
# ($gp,$sp,$fp,$ra)=map("\$$_",(28..31));
#
# <appro@openssl.org>
#
######################################################################
$flavour = shift || "64"; # supported flavours are o32,n32,64,nubi32,nubi64
$v0 = ($flavour =~ /nubi/i) ? $a0 : $t0;
if ($flavour =~ /64|n32/i) {{{
######################################################################
# 64-bit code path
#
my ($ctx,$inp,$len,$padbit) = ($a0,$a1,$a2,$a3);
my ($in0,$in1,$tmp0,$tmp1,$tmp2,$tmp3,$tmp4) = ($a4,$a5,$a6,$a7,$at,$t0,$t1);
$code.=<<___;
#if (defined(_MIPS_ARCH_MIPS64R3) || defined(_MIPS_ARCH_MIPS64R5) || \\
defined(_MIPS_ARCH_MIPS64R6)) \\
&& !defined(_MIPS_ARCH_MIPS64R2)
# define _MIPS_ARCH_MIPS64R2
#endif
#if defined(_MIPS_ARCH_MIPS64R6)
# define dmultu(rs,rt)
# define mflo(rd,rs,rt) dmulu rd,rs,rt
# define mfhi(rd,rs,rt) dmuhu rd,rs,rt
#else
# define dmultu(rs,rt) dmultu rs,rt
# define mflo(rd,rs,rt) mflo rd
# define mfhi(rd,rs,rt) mfhi rd
#endif
#ifdef __KERNEL__
# define poly1305_init poly1305_init_mips
# define poly1305_blocks poly1305_blocks_mips
# define poly1305_emit poly1305_emit_mips
#endif
#if defined(__MIPSEB__) && !defined(MIPSEB)
# define MIPSEB
#endif
#ifdef MIPSEB
# define MSB 0
# define LSB 7
#else
# define MSB 7
# define LSB 0
#endif
.text
.set noat
.set noreorder
.align 5
.globl poly1305_init
.ent poly1305_init
poly1305_init:
.frame $sp,0,$ra
.set reorder
sd $zero,0($ctx)
sd $zero,8($ctx)
sd $zero,16($ctx)
beqz $inp,.Lno_key
#if defined(_MIPS_ARCH_MIPS64R6)
andi $tmp0,$inp,7 # $inp % 8
dsubu $inp,$inp,$tmp0 # align $inp
sll $tmp0,$tmp0,3 # byte to bit offset
ld $in0,0($inp)
ld $in1,8($inp)
beqz $tmp0,.Laligned_key
ld $tmp2,16($inp)
subu $tmp1,$zero,$tmp0
# ifdef MIPSEB
dsllv $in0,$in0,$tmp0
dsrlv $tmp3,$in1,$tmp1
dsllv $in1,$in1,$tmp0
dsrlv $tmp2,$tmp2,$tmp1
# else
dsrlv $in0,$in0,$tmp0
dsllv $tmp3,$in1,$tmp1
dsrlv $in1,$in1,$tmp0
dsllv $tmp2,$tmp2,$tmp1
# endif
or $in0,$in0,$tmp3
or $in1,$in1,$tmp2
.Laligned_key:
#else
ldl $in0,0+MSB($inp)
ldl $in1,8+MSB($inp)
ldr $in0,0+LSB($inp)
ldr $in1,8+LSB($inp)
#endif
#ifdef MIPSEB
# if defined(_MIPS_ARCH_MIPS64R2)
dsbh $in0,$in0 # byte swap
dsbh $in1,$in1
dshd $in0,$in0
dshd $in1,$in1
# else
ori $tmp0,$zero,0xFF
dsll $tmp2,$tmp0,32
or $tmp0,$tmp2 # 0x000000FF000000FF
and $tmp1,$in0,$tmp0 # byte swap
and $tmp3,$in1,$tmp0
dsrl $tmp2,$in0,24
dsrl $tmp4,$in1,24
dsll $tmp1,24
dsll $tmp3,24
and $tmp2,$tmp0
and $tmp4,$tmp0
dsll $tmp0,8 # 0x0000FF000000FF00
or $tmp1,$tmp2
or $tmp3,$tmp4
and $tmp2,$in0,$tmp0
and $tmp4,$in1,$tmp0
dsrl $in0,8
dsrl $in1,8
dsll $tmp2,8
dsll $tmp4,8
and $in0,$tmp0
and $in1,$tmp0
or $tmp1,$tmp2
or $tmp3,$tmp4
or $in0,$tmp1
or $in1,$tmp3
dsrl $tmp1,$in0,32
dsrl $tmp3,$in1,32
dsll $in0,32
dsll $in1,32
or $in0,$tmp1
or $in1,$tmp3
# endif
#endif
li $tmp0,1
dsll $tmp0,32 # 0x0000000100000000
daddiu $tmp0,-63 # 0x00000000ffffffc1
dsll $tmp0,28 # 0x0ffffffc10000000
daddiu $tmp0,-1 # 0x0ffffffc0fffffff
and $in0,$tmp0
daddiu $tmp0,-3 # 0x0ffffffc0ffffffc
and $in1,$tmp0
sd $in0,24($ctx)
dsrl $tmp0,$in1,2
sd $in1,32($ctx)
daddu $tmp0,$in1 # s1 = r1 + (r1 >> 2)
sd $tmp0,40($ctx)
.Lno_key:
li $v0,0 # return 0
jr $ra
.end poly1305_init
___
{
my $SAVED_REGS_MASK = ($flavour =~ /nubi/i) ? "0x0003f000" : "0x00030000";
my ($h0,$h1,$h2,$r0,$r1,$rs1,$d0,$d1,$d2) =
($s0,$s1,$s2,$s3,$s4,$s5,$in0,$in1,$t2);
my ($shr,$shl) = ($s6,$s7); # used on R6
$code.=<<___;
.align 5
.globl poly1305_blocks
.ent poly1305_blocks
poly1305_blocks:
.set noreorder
dsrl $len,4 # number of complete blocks
bnez $len,poly1305_blocks_internal
nop
jr $ra
nop
.end poly1305_blocks
.align 5
.ent poly1305_blocks_internal
poly1305_blocks_internal:
.set noreorder
#if defined(_MIPS_ARCH_MIPS64R6)
.frame $sp,8*8,$ra
.mask $SAVED_REGS_MASK|0x000c0000,-8
dsubu $sp,8*8
sd $s7,56($sp)
sd $s6,48($sp)
#else
.frame $sp,6*8,$ra
.mask $SAVED_REGS_MASK,-8
dsubu $sp,6*8
#endif
sd $s5,40($sp)
sd $s4,32($sp)
___
$code.=<<___ if ($flavour =~ /nubi/i); # optimize non-nubi prologue
sd $s3,24($sp)
sd $s2,16($sp)
sd $s1,8($sp)
sd $s0,0($sp)
___
$code.=<<___;
.set reorder
#if defined(_MIPS_ARCH_MIPS64R6)
andi $shr,$inp,7
dsubu $inp,$inp,$shr # align $inp
sll $shr,$shr,3 # byte to bit offset
subu $shl,$zero,$shr
#endif
ld $h0,0($ctx) # load hash value
ld $h1,8($ctx)
ld $h2,16($ctx)
ld $r0,24($ctx) # load key
ld $r1,32($ctx)
ld $rs1,40($ctx)
dsll $len,4
daddu $len,$inp # end of buffer
b .Loop
.align 4
.Loop:
#if defined(_MIPS_ARCH_MIPS64R6)
ld $in0,0($inp) # load input
ld $in1,8($inp)
beqz $shr,.Laligned_inp
ld $tmp2,16($inp)
# ifdef MIPSEB
dsllv $in0,$in0,$shr
dsrlv $tmp3,$in1,$shl
dsllv $in1,$in1,$shr
dsrlv $tmp2,$tmp2,$shl
# else
dsrlv $in0,$in0,$shr
dsllv $tmp3,$in1,$shl
dsrlv $in1,$in1,$shr
dsllv $tmp2,$tmp2,$shl
# endif
or $in0,$in0,$tmp3
or $in1,$in1,$tmp2
.Laligned_inp:
#else
ldl $in0,0+MSB($inp) # load input
ldl $in1,8+MSB($inp)
ldr $in0,0+LSB($inp)
ldr $in1,8+LSB($inp)
#endif
daddiu $inp,16
#ifdef MIPSEB
# if defined(_MIPS_ARCH_MIPS64R2)
dsbh $in0,$in0 # byte swap
dsbh $in1,$in1
dshd $in0,$in0
dshd $in1,$in1
# else
ori $tmp0,$zero,0xFF
dsll $tmp2,$tmp0,32
or $tmp0,$tmp2 # 0x000000FF000000FF
and $tmp1,$in0,$tmp0 # byte swap
and $tmp3,$in1,$tmp0
dsrl $tmp2,$in0,24
dsrl $tmp4,$in1,24
dsll $tmp1,24
dsll $tmp3,24
and $tmp2,$tmp0
and $tmp4,$tmp0
dsll $tmp0,8 # 0x0000FF000000FF00
or $tmp1,$tmp2
or $tmp3,$tmp4
and $tmp2,$in0,$tmp0
and $tmp4,$in1,$tmp0
dsrl $in0,8
dsrl $in1,8
dsll $tmp2,8
dsll $tmp4,8
and $in0,$tmp0
and $in1,$tmp0
or $tmp1,$tmp2
or $tmp3,$tmp4
or $in0,$tmp1
or $in1,$tmp3
dsrl $tmp1,$in0,32
dsrl $tmp3,$in1,32
dsll $in0,32
dsll $in1,32
or $in0,$tmp1
or $in1,$tmp3
# endif
#endif
dsrl $tmp1,$h2,2 # modulo-scheduled reduction
andi $h2,$h2,3
dsll $tmp0,$tmp1,2
daddu $d0,$h0,$in0 # accumulate input
daddu $tmp1,$tmp0
sltu $tmp0,$d0,$h0
daddu $d0,$d0,$tmp1 # ... and residue
sltu $tmp1,$d0,$tmp1
daddu $d1,$h1,$in1
daddu $tmp0,$tmp1
sltu $tmp1,$d1,$h1
daddu $d1,$tmp0
dmultu ($r0,$d0) # h0*r0
daddu $d2,$h2,$padbit
sltu $tmp0,$d1,$tmp0
mflo ($h0,$r0,$d0)
mfhi ($h1,$r0,$d0)
dmultu ($rs1,$d1) # h1*5*r1
daddu $d2,$tmp1
daddu $d2,$tmp0
mflo ($tmp0,$rs1,$d1)
mfhi ($tmp1,$rs1,$d1)
dmultu ($r1,$d0) # h0*r1
mflo ($tmp2,$r1,$d0)
mfhi ($h2,$r1,$d0)
daddu $h0,$tmp0
daddu $h1,$tmp1
sltu $tmp0,$h0,$tmp0
dmultu ($r0,$d1) # h1*r0
daddu $h1,$tmp0
daddu $h1,$tmp2
mflo ($tmp0,$r0,$d1)
mfhi ($tmp1,$r0,$d1)
dmultu ($rs1,$d2) # h2*5*r1
sltu $tmp2,$h1,$tmp2
daddu $h2,$tmp2
mflo ($tmp2,$rs1,$d2)
dmultu ($r0,$d2) # h2*r0
daddu $h1,$tmp0
daddu $h2,$tmp1
mflo ($tmp3,$r0,$d2)
sltu $tmp0,$h1,$tmp0
daddu $h2,$tmp0
daddu $h1,$tmp2
sltu $tmp2,$h1,$tmp2
daddu $h2,$tmp2
daddu $h2,$tmp3
bne $inp,$len,.Loop
sd $h0,0($ctx) # store hash value
sd $h1,8($ctx)
sd $h2,16($ctx)
.set noreorder
#if defined(_MIPS_ARCH_MIPS64R6)
ld $s7,56($sp)
ld $s6,48($sp)
#endif
ld $s5,40($sp) # epilogue
ld $s4,32($sp)
___
$code.=<<___ if ($flavour =~ /nubi/i); # optimize non-nubi epilogue
ld $s3,24($sp)
ld $s2,16($sp)
ld $s1,8($sp)
ld $s0,0($sp)
___
$code.=<<___;
jr $ra
#if defined(_MIPS_ARCH_MIPS64R6)
daddu $sp,8*8
#else
daddu $sp,6*8
#endif
.end poly1305_blocks_internal
___
}
{
my ($ctx,$mac,$nonce) = ($a0,$a1,$a2);
$code.=<<___;
.align 5
.globl poly1305_emit
.ent poly1305_emit
poly1305_emit:
.frame $sp,0,$ra
.set reorder
ld $tmp2,16($ctx)
ld $tmp0,0($ctx)
ld $tmp1,8($ctx)
li $in0,-4 # final reduction
dsrl $in1,$tmp2,2
and $in0,$tmp2
andi $tmp2,$tmp2,3
daddu $in0,$in1
daddu $tmp0,$tmp0,$in0
sltu $in1,$tmp0,$in0
daddiu $in0,$tmp0,5 # compare to modulus
daddu $tmp1,$tmp1,$in1
sltiu $tmp3,$in0,5
sltu $tmp4,$tmp1,$in1
daddu $in1,$tmp1,$tmp3
daddu $tmp2,$tmp2,$tmp4
sltu $tmp3,$in1,$tmp3
daddu $tmp2,$tmp2,$tmp3
dsrl $tmp2,2 # see if it carried/borrowed
dsubu $tmp2,$zero,$tmp2
xor $in0,$tmp0
xor $in1,$tmp1
and $in0,$tmp2
and $in1,$tmp2
xor $in0,$tmp0
xor $in1,$tmp1
lwu $tmp0,0($nonce) # load nonce
lwu $tmp1,4($nonce)
lwu $tmp2,8($nonce)
lwu $tmp3,12($nonce)
dsll $tmp1,32
dsll $tmp3,32
or $tmp0,$tmp1
or $tmp2,$tmp3
daddu $in0,$tmp0 # accumulate nonce
daddu $in1,$tmp2
sltu $tmp0,$in0,$tmp0
daddu $in1,$tmp0
dsrl $tmp0,$in0,8 # write mac value
dsrl $tmp1,$in0,16
dsrl $tmp2,$in0,24
sb $in0,0($mac)
dsrl $tmp3,$in0,32
sb $tmp0,1($mac)
dsrl $tmp0,$in0,40
sb $tmp1,2($mac)
dsrl $tmp1,$in0,48
sb $tmp2,3($mac)
dsrl $tmp2,$in0,56
sb $tmp3,4($mac)
dsrl $tmp3,$in1,8
sb $tmp0,5($mac)
dsrl $tmp0,$in1,16
sb $tmp1,6($mac)
dsrl $tmp1,$in1,24
sb $tmp2,7($mac)
sb $in1,8($mac)
dsrl $tmp2,$in1,32
sb $tmp3,9($mac)
dsrl $tmp3,$in1,40
sb $tmp0,10($mac)
dsrl $tmp0,$in1,48
sb $tmp1,11($mac)
dsrl $tmp1,$in1,56
sb $tmp2,12($mac)
sb $tmp3,13($mac)
sb $tmp0,14($mac)
sb $tmp1,15($mac)
jr $ra
.end poly1305_emit
.rdata
.asciiz "Poly1305 for MIPS64, CRYPTOGAMS by \@dot-asm"
.align 2
___
}
}}} else {{{
######################################################################
# 32-bit code path
#
my ($ctx,$inp,$len,$padbit) = ($a0,$a1,$a2,$a3);
my ($in0,$in1,$in2,$in3,$tmp0,$tmp1,$tmp2,$tmp3) =
($a4,$a5,$a6,$a7,$at,$t0,$t1,$t2);
$code.=<<___;
#if (defined(_MIPS_ARCH_MIPS32R3) || defined(_MIPS_ARCH_MIPS32R5) || \\
defined(_MIPS_ARCH_MIPS32R6)) \\
&& !defined(_MIPS_ARCH_MIPS32R2)
# define _MIPS_ARCH_MIPS32R2
#endif
#if defined(_MIPS_ARCH_MIPS32R6)
# define multu(rs,rt)
# define mflo(rd,rs,rt) mulu rd,rs,rt
# define mfhi(rd,rs,rt) muhu rd,rs,rt
#else
# define multu(rs,rt) multu rs,rt
# define mflo(rd,rs,rt) mflo rd
# define mfhi(rd,rs,rt) mfhi rd
#endif
#ifdef __KERNEL__
# define poly1305_init poly1305_init_mips
# define poly1305_blocks poly1305_blocks_mips
# define poly1305_emit poly1305_emit_mips
#endif
#if defined(__MIPSEB__) && !defined(MIPSEB)
# define MIPSEB
#endif
#ifdef MIPSEB
# define MSB 0
# define LSB 3
#else
# define MSB 3
# define LSB 0
#endif
.text
.set noat
.set noreorder
.align 5
.globl poly1305_init
.ent poly1305_init
poly1305_init:
.frame $sp,0,$ra
.set reorder
sw $zero,0($ctx)
sw $zero,4($ctx)
sw $zero,8($ctx)
sw $zero,12($ctx)
sw $zero,16($ctx)
beqz $inp,.Lno_key
#if defined(_MIPS_ARCH_MIPS32R6)
andi $tmp0,$inp,3 # $inp % 4
subu $inp,$inp,$tmp0 # align $inp
sll $tmp0,$tmp0,3 # byte to bit offset
lw $in0,0($inp)
lw $in1,4($inp)
lw $in2,8($inp)
lw $in3,12($inp)
beqz $tmp0,.Laligned_key
lw $tmp2,16($inp)
subu $tmp1,$zero,$tmp0
# ifdef MIPSEB
sllv $in0,$in0,$tmp0
srlv $tmp3,$in1,$tmp1
sllv $in1,$in1,$tmp0
or $in0,$in0,$tmp3
srlv $tmp3,$in2,$tmp1
sllv $in2,$in2,$tmp0
or $in1,$in1,$tmp3
srlv $tmp3,$in3,$tmp1
sllv $in3,$in3,$tmp0
or $in2,$in2,$tmp3
srlv $tmp2,$tmp2,$tmp1
or $in3,$in3,$tmp2
# else
srlv $in0,$in0,$tmp0
sllv $tmp3,$in1,$tmp1
srlv $in1,$in1,$tmp0
or $in0,$in0,$tmp3
sllv $tmp3,$in2,$tmp1
srlv $in2,$in2,$tmp0
or $in1,$in1,$tmp3
sllv $tmp3,$in3,$tmp1
srlv $in3,$in3,$tmp0
or $in2,$in2,$tmp3
sllv $tmp2,$tmp2,$tmp1
or $in3,$in3,$tmp2
# endif
.Laligned_key:
#else
lwl $in0,0+MSB($inp)
lwl $in1,4+MSB($inp)
lwl $in2,8+MSB($inp)
lwl $in3,12+MSB($inp)
lwr $in0,0+LSB($inp)
lwr $in1,4+LSB($inp)
lwr $in2,8+LSB($inp)
lwr $in3,12+LSB($inp)
#endif
#ifdef MIPSEB
# if defined(_MIPS_ARCH_MIPS32R2)
wsbh $in0,$in0 # byte swap
wsbh $in1,$in1
wsbh $in2,$in2
wsbh $in3,$in3
rotr $in0,$in0,16
rotr $in1,$in1,16
rotr $in2,$in2,16
rotr $in3,$in3,16
# else
srl $tmp0,$in0,24 # byte swap
srl $tmp1,$in0,8
andi $tmp2,$in0,0xFF00
sll $in0,$in0,24
andi $tmp1,0xFF00
sll $tmp2,$tmp2,8
or $in0,$tmp0
srl $tmp0,$in1,24
or $tmp1,$tmp2
srl $tmp2,$in1,8
or $in0,$tmp1
andi $tmp1,$in1,0xFF00
sll $in1,$in1,24
andi $tmp2,0xFF00
sll $tmp1,$tmp1,8
or $in1,$tmp0
srl $tmp0,$in2,24
or $tmp2,$tmp1
srl $tmp1,$in2,8
or $in1,$tmp2
andi $tmp2,$in2,0xFF00
sll $in2,$in2,24
andi $tmp1,0xFF00
sll $tmp2,$tmp2,8
or $in2,$tmp0
srl $tmp0,$in3,24
or $tmp1,$tmp2
srl $tmp2,$in3,8
or $in2,$tmp1
andi $tmp1,$in3,0xFF00
sll $in3,$in3,24
andi $tmp2,0xFF00
sll $tmp1,$tmp1,8
or $in3,$tmp0
or $tmp2,$tmp1
or $in3,$tmp2
# endif
#endif
lui $tmp0,0x0fff
ori $tmp0,0xffff # 0x0fffffff
and $in0,$in0,$tmp0
subu $tmp0,3 # 0x0ffffffc
and $in1,$in1,$tmp0
and $in2,$in2,$tmp0
and $in3,$in3,$tmp0
sw $in0,20($ctx)
sw $in1,24($ctx)
sw $in2,28($ctx)
sw $in3,32($ctx)
srl $tmp1,$in1,2
srl $tmp2,$in2,2
srl $tmp3,$in3,2
addu $in1,$in1,$tmp1 # s1 = r1 + (r1 >> 2)
addu $in2,$in2,$tmp2
addu $in3,$in3,$tmp3
sw $in1,36($ctx)
sw $in2,40($ctx)
sw $in3,44($ctx)
.Lno_key:
li $v0,0
jr $ra
.end poly1305_init
___
{
my $SAVED_REGS_MASK = ($flavour =~ /nubi/i) ? "0x00fff000" : "0x00ff0000";
my ($h0,$h1,$h2,$h3,$h4, $r0,$r1,$r2,$r3, $rs1,$rs2,$rs3) =
($s0,$s1,$s2,$s3,$s4, $s5,$s6,$s7,$s8, $s9,$s10,$s11);
my ($d0,$d1,$d2,$d3) =
($a4,$a5,$a6,$a7);
my $shr = $t2; # used on R6
my $one = $t2; # used on R2
$code.=<<___;
.globl poly1305_blocks
.align 5
.ent poly1305_blocks
poly1305_blocks:
.frame $sp,16*4,$ra
.mask $SAVED_REGS_MASK,-4
.set noreorder
subu $sp, $sp,4*12
sw $s11,4*11($sp)
sw $s10,4*10($sp)
sw $s9, 4*9($sp)
sw $s8, 4*8($sp)
sw $s7, 4*7($sp)
sw $s6, 4*6($sp)
sw $s5, 4*5($sp)
sw $s4, 4*4($sp)
___
$code.=<<___ if ($flavour =~ /nubi/i); # optimize non-nubi prologue
sw $s3, 4*3($sp)
sw $s2, 4*2($sp)
sw $s1, 4*1($sp)
sw $s0, 4*0($sp)
___
$code.=<<___;
.set reorder
srl $len,4 # number of complete blocks
li $one,1
beqz $len,.Labort
#if defined(_MIPS_ARCH_MIPS32R6)
andi $shr,$inp,3
subu $inp,$inp,$shr # align $inp
sll $shr,$shr,3 # byte to bit offset
#endif
lw $h0,0($ctx) # load hash value
lw $h1,4($ctx)
lw $h2,8($ctx)
lw $h3,12($ctx)
lw $h4,16($ctx)
lw $r0,20($ctx) # load key
lw $r1,24($ctx)
lw $r2,28($ctx)
lw $r3,32($ctx)
lw $rs1,36($ctx)
lw $rs2,40($ctx)
lw $rs3,44($ctx)
sll $len,4
addu $len,$len,$inp # end of buffer
b .Loop
.align 4
.Loop:
#if defined(_MIPS_ARCH_MIPS32R6)
lw $d0,0($inp) # load input
lw $d1,4($inp)
lw $d2,8($inp)
lw $d3,12($inp)
beqz $shr,.Laligned_inp
lw $t0,16($inp)
subu $t1,$zero,$shr
# ifdef MIPSEB
sllv $d0,$d0,$shr
srlv $at,$d1,$t1
sllv $d1,$d1,$shr
or $d0,$d0,$at
srlv $at,$d2,$t1
sllv $d2,$d2,$shr
or $d1,$d1,$at
srlv $at,$d3,$t1
sllv $d3,$d3,$shr
or $d2,$d2,$at
srlv $t0,$t0,$t1
or $d3,$d3,$t0
# else
srlv $d0,$d0,$shr
sllv $at,$d1,$t1
srlv $d1,$d1,$shr
or $d0,$d0,$at
sllv $at,$d2,$t1
srlv $d2,$d2,$shr
or $d1,$d1,$at
sllv $at,$d3,$t1
srlv $d3,$d3,$shr
or $d2,$d2,$at
sllv $t0,$t0,$t1
or $d3,$d3,$t0
# endif
.Laligned_inp:
#else
lwl $d0,0+MSB($inp) # load input
lwl $d1,4+MSB($inp)
lwl $d2,8+MSB($inp)
lwl $d3,12+MSB($inp)
lwr $d0,0+LSB($inp)
lwr $d1,4+LSB($inp)
lwr $d2,8+LSB($inp)
lwr $d3,12+LSB($inp)
#endif
#ifdef MIPSEB
# if defined(_MIPS_ARCH_MIPS32R2)
wsbh $d0,$d0 # byte swap
wsbh $d1,$d1
wsbh $d2,$d2
wsbh $d3,$d3
rotr $d0,$d0,16
rotr $d1,$d1,16
rotr $d2,$d2,16
rotr $d3,$d3,16
# else
srl $at,$d0,24 # byte swap
srl $t0,$d0,8
andi $t1,$d0,0xFF00
sll $d0,$d0,24
andi $t0,0xFF00
sll $t1,$t1,8
or $d0,$at
srl $at,$d1,24
or $t0,$t1
srl $t1,$d1,8
or $d0,$t0
andi $t0,$d1,0xFF00
sll $d1,$d1,24
andi $t1,0xFF00
sll $t0,$t0,8
or $d1,$at
srl $at,$d2,24
or $t1,$t0
srl $t0,$d2,8
or $d1,$t1
andi $t1,$d2,0xFF00
sll $d2,$d2,24
andi $t0,0xFF00
sll $t1,$t1,8
or $d2,$at
srl $at,$d3,24
or $t0,$t1
srl $t1,$d3,8
or $d2,$t0
andi $t0,$d3,0xFF00
sll $d3,$d3,24
andi $t1,0xFF00
sll $t0,$t0,8
or $d3,$at
or $t1,$t0
or $d3,$t1
# endif
#endif
srl $t0,$h4,2 # modulo-scheduled reduction
andi $h4,$h4,3
sll $at,$t0,2
addu $d0,$d0,$h0 # accumulate input
addu $t0,$t0,$at
sltu $h0,$d0,$h0
addu $d0,$d0,$t0 # ... and residue
sltu $at,$d0,$t0
addu $d1,$d1,$h1
addu $h0,$h0,$at # carry
sltu $h1,$d1,$h1
addu $d1,$d1,$h0
sltu $h0,$d1,$h0
addu $d2,$d2,$h2
addu $h1,$h1,$h0 # carry
sltu $h2,$d2,$h2
addu $d2,$d2,$h1
sltu $h1,$d2,$h1
addu $d3,$d3,$h3
addu $h2,$h2,$h1 # carry
sltu $h3,$d3,$h3
addu $d3,$d3,$h2
#if defined(_MIPS_ARCH_MIPS32R2) && !defined(_MIPS_ARCH_MIPS32R6)
multu $r0,$d0 # d0*r0
sltu $h2,$d3,$h2
maddu $rs3,$d1 # d1*s3
addu $h3,$h3,$h2 # carry
maddu $rs2,$d2 # d2*s2
addu $h4,$h4,$padbit
maddu $rs1,$d3 # d3*s1
addu $h4,$h4,$h3
mfhi $at
mflo $h0
multu $r1,$d0 # d0*r1
maddu $r0,$d1 # d1*r0
maddu $rs3,$d2 # d2*s3
maddu $rs2,$d3 # d3*s2
maddu $rs1,$h4 # h4*s1
maddu $at,$one # hi*1
mfhi $at
mflo $h1
multu $r2,$d0 # d0*r2
maddu $r1,$d1 # d1*r1
maddu $r0,$d2 # d2*r0
maddu $rs3,$d3 # d3*s3
maddu $rs2,$h4 # h4*s2
maddu $at,$one # hi*1
mfhi $at
mflo $h2
mul $t0,$r0,$h4 # h4*r0
multu $r3,$d0 # d0*r3
maddu $r2,$d1 # d1*r2
maddu $r1,$d2 # d2*r1
maddu $r0,$d3 # d3*r0
maddu $rs3,$h4 # h4*s3
maddu $at,$one # hi*1
mfhi $at
mflo $h3
addiu $inp,$inp,16
addu $h4,$t0,$at
#else
multu ($r0,$d0) # d0*r0
mflo ($h0,$r0,$d0)
mfhi ($h1,$r0,$d0)
sltu $h2,$d3,$h2
addu $h3,$h3,$h2 # carry
multu ($rs3,$d1) # d1*s3
mflo ($at,$rs3,$d1)
mfhi ($t0,$rs3,$d1)
addu $h4,$h4,$padbit
addiu $inp,$inp,16
addu $h4,$h4,$h3
multu ($rs2,$d2) # d2*s2
mflo ($a3,$rs2,$d2)
mfhi ($t1,$rs2,$d2)
addu $h0,$h0,$at
addu $h1,$h1,$t0
multu ($rs1,$d3) # d3*s1
sltu $at,$h0,$at
addu $h1,$h1,$at
mflo ($at,$rs1,$d3)
mfhi ($t0,$rs1,$d3)
addu $h0,$h0,$a3
addu $h1,$h1,$t1
multu ($r1,$d0) # d0*r1
sltu $a3,$h0,$a3
addu $h1,$h1,$a3
mflo ($a3,$r1,$d0)
mfhi ($h2,$r1,$d0)
addu $h0,$h0,$at
addu $h1,$h1,$t0
multu ($r0,$d1) # d1*r0
sltu $at,$h0,$at
addu $h1,$h1,$at
mflo ($at,$r0,$d1)
mfhi ($t0,$r0,$d1)
addu $h1,$h1,$a3
sltu $a3,$h1,$a3
multu ($rs3,$d2) # d2*s3
addu $h2,$h2,$a3
mflo ($a3,$rs3,$d2)
mfhi ($t1,$rs3,$d2)
addu $h1,$h1,$at
addu $h2,$h2,$t0
multu ($rs2,$d3) # d3*s2
sltu $at,$h1,$at
addu $h2,$h2,$at
mflo ($at,$rs2,$d3)
mfhi ($t0,$rs2,$d3)
addu $h1,$h1,$a3
addu $h2,$h2,$t1
multu ($rs1,$h4) # h4*s1
sltu $a3,$h1,$a3
addu $h2,$h2,$a3
mflo ($a3,$rs1,$h4)
addu $h1,$h1,$at
addu $h2,$h2,$t0
multu ($r2,$d0) # d0*r2
sltu $at,$h1,$at
addu $h2,$h2,$at
mflo ($at,$r2,$d0)
mfhi ($h3,$r2,$d0)
addu $h1,$h1,$a3
sltu $a3,$h1,$a3
multu ($r1,$d1) # d1*r1
addu $h2,$h2,$a3
mflo ($a3,$r1,$d1)
mfhi ($t1,$r1,$d1)
addu $h2,$h2,$at
sltu $at,$h2,$at
multu ($r0,$d2) # d2*r0
addu $h3,$h3,$at
mflo ($at,$r0,$d2)
mfhi ($t0,$r0,$d2)
addu $h2,$h2,$a3
addu $h3,$h3,$t1
multu ($rs3,$d3) # d3*s3
sltu $a3,$h2,$a3
addu $h3,$h3,$a3
mflo ($a3,$rs3,$d3)
mfhi ($t1,$rs3,$d3)
addu $h2,$h2,$at
addu $h3,$h3,$t0
multu ($rs2,$h4) # h4*s2
sltu $at,$h2,$at
addu $h3,$h3,$at
mflo ($at,$rs2,$h4)
addu $h2,$h2,$a3
addu $h3,$h3,$t1
multu ($r3,$d0) # d0*r3
sltu $a3,$h2,$a3
addu $h3,$h3,$a3
mflo ($a3,$r3,$d0)
mfhi ($t1,$r3,$d0)
addu $h2,$h2,$at
sltu $at,$h2,$at
multu ($r2,$d1) # d1*r2
addu $h3,$h3,$at
mflo ($at,$r2,$d1)
mfhi ($t0,$r2,$d1)
addu $h3,$h3,$a3
sltu $a3,$h3,$a3
multu ($r0,$d3) # d3*r0
addu $t1,$t1,$a3
mflo ($a3,$r0,$d3)
mfhi ($d3,$r0,$d3)
addu $h3,$h3,$at
addu $t1,$t1,$t0
multu ($r1,$d2) # d2*r1
sltu $at,$h3,$at
addu $t1,$t1,$at
mflo ($at,$r1,$d2)
mfhi ($t0,$r1,$d2)
addu $h3,$h3,$a3
addu $t1,$t1,$d3
multu ($rs3,$h4) # h4*s3
sltu $a3,$h3,$a3
addu $t1,$t1,$a3
mflo ($a3,$rs3,$h4)
addu $h3,$h3,$at
addu $t1,$t1,$t0
multu ($r0,$h4) # h4*r0
sltu $at,$h3,$at
addu $t1,$t1,$at
mflo ($h4,$r0,$h4)
addu $h3,$h3,$a3
sltu $a3,$h3,$a3
addu $t1,$t1,$a3
addu $h4,$h4,$t1
li $padbit,1 # if we loop, padbit is 1
#endif
bne $inp,$len,.Loop
sw $h0,0($ctx) # store hash value
sw $h1,4($ctx)
sw $h2,8($ctx)
sw $h3,12($ctx)
sw $h4,16($ctx)
.set noreorder
.Labort:
lw $s11,4*11($sp)
lw $s10,4*10($sp)
lw $s9, 4*9($sp)
lw $s8, 4*8($sp)
lw $s7, 4*7($sp)
lw $s6, 4*6($sp)
lw $s5, 4*5($sp)
lw $s4, 4*4($sp)
___
$code.=<<___ if ($flavour =~ /nubi/i); # optimize non-nubi prologue
lw $s3, 4*3($sp)
lw $s2, 4*2($sp)
lw $s1, 4*1($sp)
lw $s0, 4*0($sp)
___
$code.=<<___;
jr $ra
addu $sp,$sp,4*12
.end poly1305_blocks
___
}
{
my ($ctx,$mac,$nonce,$tmp4) = ($a0,$a1,$a2,$a3);
$code.=<<___;
.align 5
.globl poly1305_emit
.ent poly1305_emit
poly1305_emit:
.frame $sp,0,$ra
.set reorder
lw $tmp4,16($ctx)
lw $tmp0,0($ctx)
lw $tmp1,4($ctx)
lw $tmp2,8($ctx)
lw $tmp3,12($ctx)
li $in0,-4 # final reduction
srl $ctx,$tmp4,2
and $in0,$in0,$tmp4
andi $tmp4,$tmp4,3
addu $ctx,$ctx,$in0
addu $tmp0,$tmp0,$ctx
sltu $ctx,$tmp0,$ctx
addiu $in0,$tmp0,5 # compare to modulus
addu $tmp1,$tmp1,$ctx
sltiu $in1,$in0,5
sltu $ctx,$tmp1,$ctx
addu $in1,$in1,$tmp1
addu $tmp2,$tmp2,$ctx
sltu $in2,$in1,$tmp1
sltu $ctx,$tmp2,$ctx
addu $in2,$in2,$tmp2
addu $tmp3,$tmp3,$ctx
sltu $in3,$in2,$tmp2
sltu $ctx,$tmp3,$ctx
addu $in3,$in3,$tmp3
addu $tmp4,$tmp4,$ctx
sltu $ctx,$in3,$tmp3
addu $ctx,$tmp4
srl $ctx,2 # see if it carried/borrowed
subu $ctx,$zero,$ctx
xor $in0,$tmp0
xor $in1,$tmp1
xor $in2,$tmp2
xor $in3,$tmp3
and $in0,$ctx
and $in1,$ctx
and $in2,$ctx
and $in3,$ctx
xor $in0,$tmp0
xor $in1,$tmp1
xor $in2,$tmp2
xor $in3,$tmp3
lw $tmp0,0($nonce) # load nonce
lw $tmp1,4($nonce)
lw $tmp2,8($nonce)
lw $tmp3,12($nonce)
addu $in0,$tmp0 # accumulate nonce
sltu $ctx,$in0,$tmp0
addu $in1,$tmp1
sltu $tmp1,$in1,$tmp1
addu $in1,$ctx
sltu $ctx,$in1,$ctx
addu $ctx,$tmp1
addu $in2,$tmp2
sltu $tmp2,$in2,$tmp2
addu $in2,$ctx
sltu $ctx,$in2,$ctx
addu $ctx,$tmp2
addu $in3,$tmp3
addu $in3,$ctx
srl $tmp0,$in0,8 # write mac value
srl $tmp1,$in0,16
srl $tmp2,$in0,24
sb $in0, 0($mac)
sb $tmp0,1($mac)
srl $tmp0,$in1,8
sb $tmp1,2($mac)
srl $tmp1,$in1,16
sb $tmp2,3($mac)
srl $tmp2,$in1,24
sb $in1, 4($mac)
sb $tmp0,5($mac)
srl $tmp0,$in2,8
sb $tmp1,6($mac)
srl $tmp1,$in2,16
sb $tmp2,7($mac)
srl $tmp2,$in2,24
sb $in2, 8($mac)
sb $tmp0,9($mac)
srl $tmp0,$in3,8
sb $tmp1,10($mac)
srl $tmp1,$in3,16
sb $tmp2,11($mac)
srl $tmp2,$in3,24
sb $in3, 12($mac)
sb $tmp0,13($mac)
sb $tmp1,14($mac)
sb $tmp2,15($mac)
jr $ra
.end poly1305_emit
.rdata
.asciiz "Poly1305 for MIPS32, CRYPTOGAMS by \@dot-asm"
.align 2
___
}
}}}
$output=pop and open STDOUT,">$output";
print $code;
close STDOUT;
...@@ -724,6 +724,11 @@ config CRYPTO_POLY1305_X86_64 ...@@ -724,6 +724,11 @@ config CRYPTO_POLY1305_X86_64
in IETF protocols. This is the x86_64 assembler implementation using SIMD in IETF protocols. This is the x86_64 assembler implementation using SIMD
instructions. instructions.
config CRYPTO_POLY1305_MIPS
tristate "Poly1305 authenticator algorithm (MIPS optimized)"
depends on CPU_MIPS32 || (CPU_MIPS64 && 64BIT)
select CRYPTO_ARCH_HAVE_LIB_POLY1305
config CRYPTO_MD4 config CRYPTO_MD4
tristate "MD4 digest algorithm" tristate "MD4 digest algorithm"
select CRYPTO_HASH select CRYPTO_HASH
......
...@@ -39,6 +39,7 @@ config CRYPTO_LIB_DES ...@@ -39,6 +39,7 @@ config CRYPTO_LIB_DES
config CRYPTO_LIB_POLY1305_RSIZE config CRYPTO_LIB_POLY1305_RSIZE
int int
default 2 if MIPS
default 4 if X86_64 default 4 if X86_64
default 9 if ARM || ARM64 default 9 if ARM || ARM64
default 1 default 1
......
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