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/* SPDX-License-Identifier: BSD-3-Clause
*
* Copyright (C) 2015-2018 Jason A. Donenfeld <Jason@zx2c4.com>. All Rights Reserved.
* Copyright (C) 2006-2017 CRYPTOGAMS by <appro@openssl.org>. All Rights Reserved.
*
* This is based in part on Andy Polyakov's implementation from CRYPTOGAMS.
*/
#include <linux/linkage.h>
.text
.align 5
ENTRY(poly1305_init_arm)
cmp x1,xzr
stp xzr,xzr,[x0] // zero hash value
stp xzr,xzr,[x0,#16] // [along with is_base2_26]
csel x0,xzr,x0,eq
b.eq .Lno_key
ldp x7,x8,[x1] // load key
mov x9,#0xfffffffc0fffffff
movk x9,#0x0fff,lsl#48
#ifdef __ARMEB__
rev x7,x7 // flip bytes
rev x8,x8
#endif
and x7,x7,x9 // &=0ffffffc0fffffff
and x9,x9,#-4
and x8,x8,x9 // &=0ffffffc0ffffffc
stp x7,x8,[x0,#32] // save key value
.Lno_key:
ret
ENDPROC(poly1305_init_arm)
.align 5
ENTRY(poly1305_blocks_arm)
ands x2,x2,#-16
b.eq .Lno_data
ldp x4,x5,[x0] // load hash value
ldp x7,x8,[x0,#32] // load key value
ldr x6,[x0,#16]
add x9,x8,x8,lsr#2 // s1 = r1 + (r1 >> 2)
b .Loop
.align 5
.Loop:
ldp x10,x11,[x1],#16 // load input
sub x2,x2,#16
#ifdef __ARMEB__
rev x10,x10
rev x11,x11
#endif
adds x4,x4,x10 // accumulate input
adcs x5,x5,x11
mul x12,x4,x7 // h0*r0
adc x6,x6,x3
umulh x13,x4,x7
mul x10,x5,x9 // h1*5*r1
umulh x11,x5,x9
adds x12,x12,x10
mul x10,x4,x8 // h0*r1
adc x13,x13,x11
umulh x14,x4,x8
adds x13,x13,x10
mul x10,x5,x7 // h1*r0
adc x14,x14,xzr
umulh x11,x5,x7
adds x13,x13,x10
mul x10,x6,x9 // h2*5*r1
adc x14,x14,x11
mul x11,x6,x7 // h2*r0
adds x13,x13,x10
adc x14,x14,x11
and x10,x14,#-4 // final reduction
and x6,x14,#3
add x10,x10,x14,lsr#2
adds x4,x12,x10
adcs x5,x13,xzr
adc x6,x6,xzr
cbnz x2,.Loop
stp x4,x5,[x0] // store hash value
str x6,[x0,#16]
.Lno_data:
ret
ENDPROC(poly1305_blocks_arm)
.align 5
ENTRY(poly1305_emit_arm)
ldp x4,x5,[x0] // load hash base 2^64
ldr x6,[x0,#16]
ldp x10,x11,[x2] // load nonce
adds x12,x4,#5 // compare to modulus
adcs x13,x5,xzr
adc x14,x6,xzr
tst x14,#-4 // see if it's carried/borrowed
csel x4,x4,x12,eq
csel x5,x5,x13,eq
#ifdef __ARMEB__
ror x10,x10,#32 // flip nonce words
ror x11,x11,#32
#endif
adds x4,x4,x10 // accumulate nonce
adc x5,x5,x11
#ifdef __ARMEB__
rev x4,x4 // flip output bytes
rev x5,x5
#endif
stp x4,x5,[x1] // write result
ret
ENDPROC(poly1305_emit_arm)
.align 5
__poly1305_mult:
mul x12,x4,x7 // h0*r0
umulh x13,x4,x7
mul x10,x5,x9 // h1*5*r1
umulh x11,x5,x9
adds x12,x12,x10
mul x10,x4,x8 // h0*r1
adc x13,x13,x11
umulh x14,x4,x8
adds x13,x13,x10
mul x10,x5,x7 // h1*r0
adc x14,x14,xzr
umulh x11,x5,x7
adds x13,x13,x10
mul x10,x6,x9 // h2*5*r1
adc x14,x14,x11
mul x11,x6,x7 // h2*r0
adds x13,x13,x10
adc x14,x14,x11
and x10,x14,#-4 // final reduction
and x6,x14,#3
add x10,x10,x14,lsr#2
adds x4,x12,x10
adcs x5,x13,xzr
adc x6,x6,xzr
ret
__poly1305_splat:
and x12,x4,#0x03ffffff // base 2^64 -> base 2^26
ubfx x13,x4,#26,#26
extr x14,x5,x4,#52
and x14,x14,#0x03ffffff
ubfx x15,x5,#14,#26
extr x16,x6,x5,#40
str w12,[x0,#16*0] // r0
add w12,w13,w13,lsl#2 // r1*5
str w13,[x0,#16*1] // r1
add w13,w14,w14,lsl#2 // r2*5
str w12,[x0,#16*2] // s1
str w14,[x0,#16*3] // r2
add w14,w15,w15,lsl#2 // r3*5
str w13,[x0,#16*4] // s2
str w15,[x0,#16*5] // r3
add w15,w16,w16,lsl#2 // r4*5
str w14,[x0,#16*6] // s3
str w16,[x0,#16*7] // r4
str w15,[x0,#16*8] // s4
ret
.align 5
ENTRY(poly1305_blocks_neon)
ldr x17,[x0,#24]
cmp x2,#128
b.hs .Lblocks_neon
cbz x17,poly1305_blocks_arm
.Lblocks_neon:
stp x29,x30,[sp,#-80]!
add x29,sp,#0
ands x2,x2,#-16
b.eq .Lno_data_neon
cbz x17,.Lbase2_64_neon
ldp w10,w11,[x0] // load hash value base 2^26
ldp w12,w13,[x0,#8]
ldr w14,[x0,#16]
tst x2,#31
b.eq .Leven_neon
ldp x7,x8,[x0,#32] // load key value
add x4,x10,x11,lsl#26 // base 2^26 -> base 2^64
lsr x5,x12,#12
adds x4,x4,x12,lsl#52
add x5,x5,x13,lsl#14
adc x5,x5,xzr
lsr x6,x14,#24
adds x5,x5,x14,lsl#40
adc x14,x6,xzr // can be partially reduced...
ldp x12,x13,[x1],#16 // load input
sub x2,x2,#16
add x9,x8,x8,lsr#2 // s1 = r1 + (r1 >> 2)
and x10,x14,#-4 // ... so reduce
and x6,x14,#3
add x10,x10,x14,lsr#2
adds x4,x4,x10
adcs x5,x5,xzr
adc x6,x6,xzr
#ifdef __ARMEB__
rev x12,x12
rev x13,x13
#endif
adds x4,x4,x12 // accumulate input
adcs x5,x5,x13
adc x6,x6,x3
bl __poly1305_mult
ldr x30,[sp,#8]
cbz x3,.Lstore_base2_64_neon
and x10,x4,#0x03ffffff // base 2^64 -> base 2^26
ubfx x11,x4,#26,#26
extr x12,x5,x4,#52
and x12,x12,#0x03ffffff
ubfx x13,x5,#14,#26
extr x14,x6,x5,#40
cbnz x2,.Leven_neon
stp w10,w11,[x0] // store hash value base 2^26
stp w12,w13,[x0,#8]
str w14,[x0,#16]
b .Lno_data_neon
.align 4
.Lstore_base2_64_neon:
stp x4,x5,[x0] // store hash value base 2^64
stp x6,xzr,[x0,#16] // note that is_base2_26 is zeroed
b .Lno_data_neon
.align 4
.Lbase2_64_neon:
ldp x7,x8,[x0,#32] // load key value
ldp x4,x5,[x0] // load hash value base 2^64
ldr x6,[x0,#16]
tst x2,#31
b.eq .Linit_neon
ldp x12,x13,[x1],#16 // load input
sub x2,x2,#16
add x9,x8,x8,lsr#2 // s1 = r1 + (r1 >> 2)
#ifdef __ARMEB__
rev x12,x12
rev x13,x13
#endif
adds x4,x4,x12 // accumulate input
adcs x5,x5,x13
adc x6,x6,x3
bl __poly1305_mult
.Linit_neon:
and x10,x4,#0x03ffffff // base 2^64 -> base 2^26
ubfx x11,x4,#26,#26
extr x12,x5,x4,#52
and x12,x12,#0x03ffffff
ubfx x13,x5,#14,#26
extr x14,x6,x5,#40
stp d8,d9,[sp,#16] // meet ABI requirements
stp d10,d11,[sp,#32]
stp d12,d13,[sp,#48]
stp d14,d15,[sp,#64]
fmov d24,x10
fmov d25,x11
fmov d26,x12
fmov d27,x13
fmov d28,x14
////////////////////////////////// initialize r^n table
mov x4,x7 // r^1
add x9,x8,x8,lsr#2 // s1 = r1 + (r1 >> 2)
mov x5,x8
mov x6,xzr
add x0,x0,#48+12
bl __poly1305_splat
bl __poly1305_mult // r^2
sub x0,x0,#4
bl __poly1305_splat
bl __poly1305_mult // r^3
sub x0,x0,#4
bl __poly1305_splat
bl __poly1305_mult // r^4
sub x0,x0,#4
bl __poly1305_splat
ldr x30,[sp,#8]
add x16,x1,#32
adr x17,.Lzeros
subs x2,x2,#64
csel x16,x17,x16,lo
mov x4,#1
str x4,[x0,#-24] // set is_base2_26
sub x0,x0,#48 // restore original x0
b .Ldo_neon
.align 4
.Leven_neon:
add x16,x1,#32
adr x17,.Lzeros
subs x2,x2,#64
csel x16,x17,x16,lo
stp d8,d9,[sp,#16] // meet ABI requirements
stp d10,d11,[sp,#32]
stp d12,d13,[sp,#48]
stp d14,d15,[sp,#64]
fmov d24,x10
fmov d25,x11
fmov d26,x12
fmov d27,x13
fmov d28,x14
.Ldo_neon:
ldp x8,x12,[x16],#16 // inp[2:3] (or zero)
ldp x9,x13,[x16],#48
lsl x3,x3,#24
add x15,x0,#48
#ifdef __ARMEB__
rev x8,x8
rev x12,x12
rev x9,x9
rev x13,x13
#endif
and x4,x8,#0x03ffffff // base 2^64 -> base 2^26
and x5,x9,#0x03ffffff
ubfx x6,x8,#26,#26
ubfx x7,x9,#26,#26
add x4,x4,x5,lsl#32 // bfi x4,x5,#32,#32
extr x8,x12,x8,#52
extr x9,x13,x9,#52
add x6,x6,x7,lsl#32 // bfi x6,x7,#32,#32
fmov d14,x4
and x8,x8,#0x03ffffff
and x9,x9,#0x03ffffff
ubfx x10,x12,#14,#26
ubfx x11,x13,#14,#26
add x12,x3,x12,lsr#40
add x13,x3,x13,lsr#40
add x8,x8,x9,lsl#32 // bfi x8,x9,#32,#32
fmov d15,x6
add x10,x10,x11,lsl#32 // bfi x10,x11,#32,#32
add x12,x12,x13,lsl#32 // bfi x12,x13,#32,#32
fmov d16,x8
fmov d17,x10
fmov d18,x12
ldp x8,x12,[x1],#16 // inp[0:1]
ldp x9,x13,[x1],#48
ld1 {v0.4s,v1.4s,v2.4s,v3.4s},[x15],#64
ld1 {v4.4s,v5.4s,v6.4s,v7.4s},[x15],#64
ld1 {v8.4s},[x15]
#ifdef __ARMEB__
rev x8,x8
rev x12,x12
rev x9,x9
rev x13,x13
#endif
and x4,x8,#0x03ffffff // base 2^64 -> base 2^26
and x5,x9,#0x03ffffff
ubfx x6,x8,#26,#26
ubfx x7,x9,#26,#26
add x4,x4,x5,lsl#32 // bfi x4,x5,#32,#32
extr x8,x12,x8,#52
extr x9,x13,x9,#52
add x6,x6,x7,lsl#32 // bfi x6,x7,#32,#32
fmov d9,x4
and x8,x8,#0x03ffffff
and x9,x9,#0x03ffffff
ubfx x10,x12,#14,#26
ubfx x11,x13,#14,#26
add x12,x3,x12,lsr#40
add x13,x3,x13,lsr#40
add x8,x8,x9,lsl#32 // bfi x8,x9,#32,#32
fmov d10,x6
add x10,x10,x11,lsl#32 // bfi x10,x11,#32,#32
add x12,x12,x13,lsl#32 // bfi x12,x13,#32,#32
movi v31.2d,#-1
fmov d11,x8
fmov d12,x10
fmov d13,x12
ushr v31.2d,v31.2d,#38
b.ls .Lskip_loop
.align 4
.Loop_neon:
////////////////////////////////////////////////////////////////
// ((inp[0]*r^4+inp[2]*r^2+inp[4])*r^4+inp[6]*r^2
// ((inp[1]*r^4+inp[3]*r^2+inp[5])*r^3+inp[7]*r
// ___________________/
// ((inp[0]*r^4+inp[2]*r^2+inp[4])*r^4+inp[6]*r^2+inp[8])*r^2
// ((inp[1]*r^4+inp[3]*r^2+inp[5])*r^4+inp[7]*r^2+inp[9])*r
// ___________________/ ____________________/
//
// Note that we start with inp[2:3]*r^2. This is because it
// doesn't depend on reduction in previous iteration.
////////////////////////////////////////////////////////////////
// d4 = h0*r4 + h1*r3 + h2*r2 + h3*r1 + h4*r0
// d3 = h0*r3 + h1*r2 + h2*r1 + h3*r0 + h4*5*r4
// d2 = h0*r2 + h1*r1 + h2*r0 + h3*5*r4 + h4*5*r3
// d1 = h0*r1 + h1*r0 + h2*5*r4 + h3*5*r3 + h4*5*r2
// d0 = h0*r0 + h1*5*r4 + h2*5*r3 + h3*5*r2 + h4*5*r1
subs x2,x2,#64
umull v23.2d,v14.2s,v7.s[2]
csel x16,x17,x16,lo
umull v22.2d,v14.2s,v5.s[2]
umull v21.2d,v14.2s,v3.s[2]
ldp x8,x12,[x16],#16 // inp[2:3] (or zero)
umull v20.2d,v14.2s,v1.s[2]
ldp x9,x13,[x16],#48
umull v19.2d,v14.2s,v0.s[2]
#ifdef __ARMEB__
rev x8,x8
rev x12,x12
rev x9,x9
rev x13,x13
#endif
umlal v23.2d,v15.2s,v5.s[2]
and x4,x8,#0x03ffffff // base 2^64 -> base 2^26
umlal v22.2d,v15.2s,v3.s[2]
and x5,x9,#0x03ffffff
umlal v21.2d,v15.2s,v1.s[2]
ubfx x6,x8,#26,#26
umlal v20.2d,v15.2s,v0.s[2]
ubfx x7,x9,#26,#26
umlal v19.2d,v15.2s,v8.s[2]
add x4,x4,x5,lsl#32 // bfi x4,x5,#32,#32
umlal v23.2d,v16.2s,v3.s[2]
extr x8,x12,x8,#52
umlal v22.2d,v16.2s,v1.s[2]
extr x9,x13,x9,#52
umlal v21.2d,v16.2s,v0.s[2]
add x6,x6,x7,lsl#32 // bfi x6,x7,#32,#32
umlal v20.2d,v16.2s,v8.s[2]
fmov d14,x4
umlal v19.2d,v16.2s,v6.s[2]
and x8,x8,#0x03ffffff
umlal v23.2d,v17.2s,v1.s[2]
and x9,x9,#0x03ffffff
umlal v22.2d,v17.2s,v0.s[2]
ubfx x10,x12,#14,#26
umlal v21.2d,v17.2s,v8.s[2]
ubfx x11,x13,#14,#26
umlal v20.2d,v17.2s,v6.s[2]
add x8,x8,x9,lsl#32 // bfi x8,x9,#32,#32
umlal v19.2d,v17.2s,v4.s[2]
fmov d15,x6
add v11.2s,v11.2s,v26.2s
add x12,x3,x12,lsr#40
umlal v23.2d,v18.2s,v0.s[2]
add x13,x3,x13,lsr#40
umlal v22.2d,v18.2s,v8.s[2]
add x10,x10,x11,lsl#32 // bfi x10,x11,#32,#32
umlal v21.2d,v18.2s,v6.s[2]
add x12,x12,x13,lsl#32 // bfi x12,x13,#32,#32
umlal v20.2d,v18.2s,v4.s[2]
fmov d16,x8
umlal v19.2d,v18.2s,v2.s[2]
fmov d17,x10
////////////////////////////////////////////////////////////////
// (hash+inp[0:1])*r^4 and accumulate
add v9.2s,v9.2s,v24.2s
fmov d18,x12
umlal v22.2d,v11.2s,v1.s[0]
ldp x8,x12,[x1],#16 // inp[0:1]
umlal v19.2d,v11.2s,v6.s[0]
ldp x9,x13,[x1],#48
umlal v23.2d,v11.2s,v3.s[0]
umlal v20.2d,v11.2s,v8.s[0]
umlal v21.2d,v11.2s,v0.s[0]
#ifdef __ARMEB__
rev x8,x8
rev x12,x12
rev x9,x9
rev x13,x13
#endif
add v10.2s,v10.2s,v25.2s
umlal v22.2d,v9.2s,v5.s[0]
umlal v23.2d,v9.2s,v7.s[0]
and x4,x8,#0x03ffffff // base 2^64 -> base 2^26
umlal v21.2d,v9.2s,v3.s[0]
and x5,x9,#0x03ffffff
umlal v19.2d,v9.2s,v0.s[0]
ubfx x6,x8,#26,#26
umlal v20.2d,v9.2s,v1.s[0]
ubfx x7,x9,#26,#26
add v12.2s,v12.2s,v27.2s
add x4,x4,x5,lsl#32 // bfi x4,x5,#32,#32
umlal v22.2d,v10.2s,v3.s[0]
extr x8,x12,x8,#52
umlal v23.2d,v10.2s,v5.s[0]
extr x9,x13,x9,#52
umlal v19.2d,v10.2s,v8.s[0]
add x6,x6,x7,lsl#32 // bfi x6,x7,#32,#32
umlal v21.2d,v10.2s,v1.s[0]
fmov d9,x4
umlal v20.2d,v10.2s,v0.s[0]
and x8,x8,#0x03ffffff
add v13.2s,v13.2s,v28.2s
and x9,x9,#0x03ffffff
umlal v22.2d,v12.2s,v0.s[0]
ubfx x10,x12,#14,#26
umlal v19.2d,v12.2s,v4.s[0]
ubfx x11,x13,#14,#26
umlal v23.2d,v12.2s,v1.s[0]
add x8,x8,x9,lsl#32 // bfi x8,x9,#32,#32
umlal v20.2d,v12.2s,v6.s[0]
fmov d10,x6
umlal v21.2d,v12.2s,v8.s[0]
add x12,x3,x12,lsr#40
umlal v22.2d,v13.2s,v8.s[0]
add x13,x3,x13,lsr#40
umlal v19.2d,v13.2s,v2.s[0]
add x10,x10,x11,lsl#32 // bfi x10,x11,#32,#32
umlal v23.2d,v13.2s,v0.s[0]
add x12,x12,x13,lsl#32 // bfi x12,x13,#32,#32
umlal v20.2d,v13.2s,v4.s[0]
fmov d11,x8
umlal v21.2d,v13.2s,v6.s[0]
fmov d12,x10
fmov d13,x12
/////////////////////////////////////////////////////////////////
// lazy reduction as discussed in "NEON crypto" by D.J. Bernstein
// and P. Schwabe
//
// [see discussion in poly1305-armv4 module]
ushr v29.2d,v22.2d,#26
xtn v27.2s,v22.2d
ushr v30.2d,v19.2d,#26
and v19.16b,v19.16b,v31.16b
add v23.2d,v23.2d,v29.2d // h3 -> h4
bic v27.2s,#0xfc,lsl#24 // &=0x03ffffff
add v20.2d,v20.2d,v30.2d // h0 -> h1
ushr v29.2d,v23.2d,#26
xtn v28.2s,v23.2d
ushr v30.2d,v20.2d,#26
xtn v25.2s,v20.2d
bic v28.2s,#0xfc,lsl#24
add v21.2d,v21.2d,v30.2d // h1 -> h2
add v19.2d,v19.2d,v29.2d
shl v29.2d,v29.2d,#2
shrn v30.2s,v21.2d,#26
xtn v26.2s,v21.2d
add v19.2d,v19.2d,v29.2d // h4 -> h0
bic v25.2s,#0xfc,lsl#24
add v27.2s,v27.2s,v30.2s // h2 -> h3
bic v26.2s,#0xfc,lsl#24
shrn v29.2s,v19.2d,#26
xtn v24.2s,v19.2d
ushr v30.2s,v27.2s,#26
bic v27.2s,#0xfc,lsl#24
bic v24.2s,#0xfc,lsl#24
add v25.2s,v25.2s,v29.2s // h0 -> h1
add v28.2s,v28.2s,v30.2s // h3 -> h4
b.hi .Loop_neon
.Lskip_loop:
dup v16.2d,v16.d[0]
add v11.2s,v11.2s,v26.2s
////////////////////////////////////////////////////////////////
// multiply (inp[0:1]+hash) or inp[2:3] by r^2:r^1
adds x2,x2,#32
b.ne .Long_tail
dup v16.2d,v11.d[0]
add v14.2s,v9.2s,v24.2s
add v17.2s,v12.2s,v27.2s
add v15.2s,v10.2s,v25.2s
add v18.2s,v13.2s,v28.2s
.Long_tail:
dup v14.2d,v14.d[0]
umull2 v19.2d,v16.4s,v6.4s
umull2 v22.2d,v16.4s,v1.4s
umull2 v23.2d,v16.4s,v3.4s
umull2 v21.2d,v16.4s,v0.4s
umull2 v20.2d,v16.4s,v8.4s
dup v15.2d,v15.d[0]
umlal2 v19.2d,v14.4s,v0.4s
umlal2 v21.2d,v14.4s,v3.4s
umlal2 v22.2d,v14.4s,v5.4s
umlal2 v23.2d,v14.4s,v7.4s
umlal2 v20.2d,v14.4s,v1.4s
dup v17.2d,v17.d[0]
umlal2 v19.2d,v15.4s,v8.4s
umlal2 v22.2d,v15.4s,v3.4s
umlal2 v21.2d,v15.4s,v1.4s
umlal2 v23.2d,v15.4s,v5.4s
umlal2 v20.2d,v15.4s,v0.4s
dup v18.2d,v18.d[0]
umlal2 v22.2d,v17.4s,v0.4s
umlal2 v23.2d,v17.4s,v1.4s
umlal2 v19.2d,v17.4s,v4.4s
umlal2 v20.2d,v17.4s,v6.4s
umlal2 v21.2d,v17.4s,v8.4s
umlal2 v22.2d,v18.4s,v8.4s
umlal2 v19.2d,v18.4s,v2.4s
umlal2 v23.2d,v18.4s,v0.4s
umlal2 v20.2d,v18.4s,v4.4s
umlal2 v21.2d,v18.4s,v6.4s
b.eq .Lshort_tail
////////////////////////////////////////////////////////////////
// (hash+inp[0:1])*r^4:r^3 and accumulate
add v9.2s,v9.2s,v24.2s
umlal v22.2d,v11.2s,v1.2s
umlal v19.2d,v11.2s,v6.2s
umlal v23.2d,v11.2s,v3.2s
umlal v20.2d,v11.2s,v8.2s
umlal v21.2d,v11.2s,v0.2s
add v10.2s,v10.2s,v25.2s
umlal v22.2d,v9.2s,v5.2s
umlal v19.2d,v9.2s,v0.2s
umlal v23.2d,v9.2s,v7.2s
umlal v20.2d,v9.2s,v1.2s
umlal v21.2d,v9.2s,v3.2s
add v12.2s,v12.2s,v27.2s
umlal v22.2d,v10.2s,v3.2s
umlal v19.2d,v10.2s,v8.2s
umlal v23.2d,v10.2s,v5.2s
umlal v20.2d,v10.2s,v0.2s
umlal v21.2d,v10.2s,v1.2s
add v13.2s,v13.2s,v28.2s
umlal v22.2d,v12.2s,v0.2s
umlal v19.2d,v12.2s,v4.2s
umlal v23.2d,v12.2s,v1.2s
umlal v20.2d,v12.2s,v6.2s
umlal v21.2d,v12.2s,v8.2s
umlal v22.2d,v13.2s,v8.2s
umlal v19.2d,v13.2s,v2.2s
umlal v23.2d,v13.2s,v0.2s
umlal v20.2d,v13.2s,v4.2s
umlal v21.2d,v13.2s,v6.2s
.Lshort_tail:
////////////////////////////////////////////////////////////////
// horizontal add
addp v22.2d,v22.2d,v22.2d
ldp d8,d9,[sp,#16] // meet ABI requirements
addp v19.2d,v19.2d,v19.2d
ldp d10,d11,[sp,#32]
addp v23.2d,v23.2d,v23.2d
ldp d12,d13,[sp,#48]
addp v20.2d,v20.2d,v20.2d
ldp d14,d15,[sp,#64]
addp v21.2d,v21.2d,v21.2d
////////////////////////////////////////////////////////////////
// lazy reduction, but without narrowing
ushr v29.2d,v22.2d,#26
and v22.16b,v22.16b,v31.16b
ushr v30.2d,v19.2d,#26
and v19.16b,v19.16b,v31.16b
add v23.2d,v23.2d,v29.2d // h3 -> h4
add v20.2d,v20.2d,v30.2d // h0 -> h1
ushr v29.2d,v23.2d,#26
and v23.16b,v23.16b,v31.16b
ushr v30.2d,v20.2d,#26
and v20.16b,v20.16b,v31.16b
add v21.2d,v21.2d,v30.2d // h1 -> h2
add v19.2d,v19.2d,v29.2d
shl v29.2d,v29.2d,#2
ushr v30.2d,v21.2d,#26
and v21.16b,v21.16b,v31.16b
add v19.2d,v19.2d,v29.2d // h4 -> h0
add v22.2d,v22.2d,v30.2d // h2 -> h3
ushr v29.2d,v19.2d,#26
and v19.16b,v19.16b,v31.16b
ushr v30.2d,v22.2d,#26
and v22.16b,v22.16b,v31.16b
add v20.2d,v20.2d,v29.2d // h0 -> h1
add v23.2d,v23.2d,v30.2d // h3 -> h4
////////////////////////////////////////////////////////////////
// write the result, can be partially reduced
st4 {v19.s,v20.s,v21.s,v22.s}[0],[x0],#16
st1 {v23.s}[0],[x0]
.Lno_data_neon:
ldr x29,[sp],#80
ret
ENDPROC(poly1305_blocks_neon)
.align 5
ENTRY(poly1305_emit_neon)
ldr x17,[x0,#24]
cbz x17,poly1305_emit_arm
ldp w10,w11,[x0] // load hash value base 2^26
ldp w12,w13,[x0,#8]
ldr w14,[x0,#16]
add x4,x10,x11,lsl#26 // base 2^26 -> base 2^64
lsr x5,x12,#12
adds x4,x4,x12,lsl#52
add x5,x5,x13,lsl#14
adc x5,x5,xzr
lsr x6,x14,#24
adds x5,x5,x14,lsl#40
adc x6,x6,xzr // can be partially reduced...
ldp x10,x11,[x2] // load nonce
and x12,x6,#-4 // ... so reduce
add x12,x12,x6,lsr#2
and x6,x6,#3
adds x4,x4,x12
adcs x5,x5,xzr
adc x6,x6,xzr
adds x12,x4,#5 // compare to modulus
adcs x13,x5,xzr
adc x14,x6,xzr
tst x14,#-4 // see if it's carried/borrowed
csel x4,x4,x12,eq
csel x5,x5,x13,eq
#ifdef __ARMEB__
ror x10,x10,#32 // flip nonce words
ror x11,x11,#32
#endif
adds x4,x4,x10 // accumulate nonce
adc x5,x5,x11
#ifdef __ARMEB__
rev x4,x4 // flip output bytes
rev x5,x5
#endif
stp x4,x5,[x1] // write result
ret
ENDPROC(poly1305_emit_neon)
.align 5
.Lzeros:
.long 0,0,0,0,0,0,0,0
|