blob: 1687c80c59952d373a061d906f08a4e465fd0038 [file] [log] [blame]
/*
* Multi-buffer SHA256 algorithm hash compute routine
*
* This file is provided under a dual BSD/GPLv2 license. When using or
* redistributing this file, you may do so under either license.
*
* GPL LICENSE SUMMARY
*
* Copyright(c) 2016 Intel Corporation.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program 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.
*
* Contact Information:
* Megha Dey <megha.dey@linux.intel.com>
*
* BSD LICENSE
*
* Copyright(c) 2016 Intel Corporation.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <linux/linkage.h>
#include "sha256_mb_mgr_datastruct.S"
## code to compute oct SHA256 using SSE-256
## outer calling routine takes care of save and restore of XMM registers
## Logic designed/laid out by JDG
## Function clobbers: rax, rcx, rdx, rbx, rsi, rdi, r9-r15; %ymm0-15
## Linux clobbers: rax rbx rcx rdx rsi r9 r10 r11 r12 r13 r14 r15
## Linux preserves: rdi rbp r8
##
## clobbers %ymm0-15
arg1 = %rdi
arg2 = %rsi
reg3 = %rcx
reg4 = %rdx
# Common definitions
STATE = arg1
INP_SIZE = arg2
IDX = %rax
ROUND = %rbx
TBL = reg3
inp0 = %r9
inp1 = %r10
inp2 = %r11
inp3 = %r12
inp4 = %r13
inp5 = %r14
inp6 = %r15
inp7 = reg4
a = %ymm0
b = %ymm1
c = %ymm2
d = %ymm3
e = %ymm4
f = %ymm5
g = %ymm6
h = %ymm7
T1 = %ymm8
a0 = %ymm12
a1 = %ymm13
a2 = %ymm14
TMP = %ymm15
TMP0 = %ymm6
TMP1 = %ymm7
TT0 = %ymm8
TT1 = %ymm9
TT2 = %ymm10
TT3 = %ymm11
TT4 = %ymm12
TT5 = %ymm13
TT6 = %ymm14
TT7 = %ymm15
# Define stack usage
# Assume stack aligned to 32 bytes before call
# Therefore FRAMESZ mod 32 must be 32-8 = 24
#define FRAMESZ 0x388
#define VMOVPS vmovups
# TRANSPOSE8 r0, r1, r2, r3, r4, r5, r6, r7, t0, t1
# "transpose" data in {r0...r7} using temps {t0...t1}
# Input looks like: {r0 r1 r2 r3 r4 r5 r6 r7}
# r0 = {a7 a6 a5 a4 a3 a2 a1 a0}
# r1 = {b7 b6 b5 b4 b3 b2 b1 b0}
# r2 = {c7 c6 c5 c4 c3 c2 c1 c0}
# r3 = {d7 d6 d5 d4 d3 d2 d1 d0}
# r4 = {e7 e6 e5 e4 e3 e2 e1 e0}
# r5 = {f7 f6 f5 f4 f3 f2 f1 f0}
# r6 = {g7 g6 g5 g4 g3 g2 g1 g0}
# r7 = {h7 h6 h5 h4 h3 h2 h1 h0}
#
# Output looks like: {r0 r1 r2 r3 r4 r5 r6 r7}
# r0 = {h0 g0 f0 e0 d0 c0 b0 a0}
# r1 = {h1 g1 f1 e1 d1 c1 b1 a1}
# r2 = {h2 g2 f2 e2 d2 c2 b2 a2}
# r3 = {h3 g3 f3 e3 d3 c3 b3 a3}
# r4 = {h4 g4 f4 e4 d4 c4 b4 a4}
# r5 = {h5 g5 f5 e5 d5 c5 b5 a5}
# r6 = {h6 g6 f6 e6 d6 c6 b6 a6}
# r7 = {h7 g7 f7 e7 d7 c7 b7 a7}
#
.macro TRANSPOSE8 r0 r1 r2 r3 r4 r5 r6 r7 t0 t1
# process top half (r0..r3) {a...d}
vshufps $0x44, \r1, \r0, \t0 # t0 = {b5 b4 a5 a4 b1 b0 a1 a0}
vshufps $0xEE, \r1, \r0, \r0 # r0 = {b7 b6 a7 a6 b3 b2 a3 a2}
vshufps $0x44, \r3, \r2, \t1 # t1 = {d5 d4 c5 c4 d1 d0 c1 c0}
vshufps $0xEE, \r3, \r2, \r2 # r2 = {d7 d6 c7 c6 d3 d2 c3 c2}
vshufps $0xDD, \t1, \t0, \r3 # r3 = {d5 c5 b5 a5 d1 c1 b1 a1}
vshufps $0x88, \r2, \r0, \r1 # r1 = {d6 c6 b6 a6 d2 c2 b2 a2}
vshufps $0xDD, \r2, \r0, \r0 # r0 = {d7 c7 b7 a7 d3 c3 b3 a3}
vshufps $0x88, \t1, \t0, \t0 # t0 = {d4 c4 b4 a4 d0 c0 b0 a0}
# use r2 in place of t0
# process bottom half (r4..r7) {e...h}
vshufps $0x44, \r5, \r4, \r2 # r2 = {f5 f4 e5 e4 f1 f0 e1 e0}
vshufps $0xEE, \r5, \r4, \r4 # r4 = {f7 f6 e7 e6 f3 f2 e3 e2}
vshufps $0x44, \r7, \r6, \t1 # t1 = {h5 h4 g5 g4 h1 h0 g1 g0}
vshufps $0xEE, \r7, \r6, \r6 # r6 = {h7 h6 g7 g6 h3 h2 g3 g2}
vshufps $0xDD, \t1, \r2, \r7 # r7 = {h5 g5 f5 e5 h1 g1 f1 e1}
vshufps $0x88, \r6, \r4, \r5 # r5 = {h6 g6 f6 e6 h2 g2 f2 e2}
vshufps $0xDD, \r6, \r4, \r4 # r4 = {h7 g7 f7 e7 h3 g3 f3 e3}
vshufps $0x88, \t1, \r2, \t1 # t1 = {h4 g4 f4 e4 h0 g0 f0 e0}
vperm2f128 $0x13, \r1, \r5, \r6 # h6...a6
vperm2f128 $0x02, \r1, \r5, \r2 # h2...a2
vperm2f128 $0x13, \r3, \r7, \r5 # h5...a5
vperm2f128 $0x02, \r3, \r7, \r1 # h1...a1
vperm2f128 $0x13, \r0, \r4, \r7 # h7...a7
vperm2f128 $0x02, \r0, \r4, \r3 # h3...a3
vperm2f128 $0x13, \t0, \t1, \r4 # h4...a4
vperm2f128 $0x02, \t0, \t1, \r0 # h0...a0
.endm
.macro ROTATE_ARGS
TMP_ = h
h = g
g = f
f = e
e = d
d = c
c = b
b = a
a = TMP_
.endm
.macro _PRORD reg imm tmp
vpslld $(32-\imm),\reg,\tmp
vpsrld $\imm,\reg, \reg
vpor \tmp,\reg, \reg
.endm
# PRORD_nd reg, imm, tmp, src
.macro _PRORD_nd reg imm tmp src
vpslld $(32-\imm), \src, \tmp
vpsrld $\imm, \src, \reg
vpor \tmp, \reg, \reg
.endm
# PRORD dst/src, amt
.macro PRORD reg imm
_PRORD \reg,\imm,TMP
.endm
# PRORD_nd dst, src, amt
.macro PRORD_nd reg tmp imm
_PRORD_nd \reg, \imm, TMP, \tmp
.endm
# arguments passed implicitly in preprocessor symbols i, a...h
.macro ROUND_00_15 _T1 i
PRORD_nd a0,e,5 # sig1: a0 = (e >> 5)
vpxor g, f, a2 # ch: a2 = f^g
vpand e,a2, a2 # ch: a2 = (f^g)&e
vpxor g, a2, a2 # a2 = ch
PRORD_nd a1,e,25 # sig1: a1 = (e >> 25)
vmovdqu \_T1,(SZ8*(\i & 0xf))(%rsp)
vpaddd (TBL,ROUND,1), \_T1, \_T1 # T1 = W + K
vpxor e,a0, a0 # sig1: a0 = e ^ (e >> 5)
PRORD a0, 6 # sig1: a0 = (e >> 6) ^ (e >> 11)
vpaddd a2, h, h # h = h + ch
PRORD_nd a2,a,11 # sig0: a2 = (a >> 11)
vpaddd \_T1,h, h # h = h + ch + W + K
vpxor a1, a0, a0 # a0 = sigma1
PRORD_nd a1,a,22 # sig0: a1 = (a >> 22)
vpxor c, a, \_T1 # maj: T1 = a^c
add $SZ8, ROUND # ROUND++
vpand b, \_T1, \_T1 # maj: T1 = (a^c)&b
vpaddd a0, h, h
vpaddd h, d, d
vpxor a, a2, a2 # sig0: a2 = a ^ (a >> 11)
PRORD a2,2 # sig0: a2 = (a >> 2) ^ (a >> 13)
vpxor a1, a2, a2 # a2 = sig0
vpand c, a, a1 # maj: a1 = a&c
vpor \_T1, a1, a1 # a1 = maj
vpaddd a1, h, h # h = h + ch + W + K + maj
vpaddd a2, h, h # h = h + ch + W + K + maj + sigma0
ROTATE_ARGS
.endm
# arguments passed implicitly in preprocessor symbols i, a...h
.macro ROUND_16_XX _T1 i
vmovdqu (SZ8*((\i-15)&0xf))(%rsp), \_T1
vmovdqu (SZ8*((\i-2)&0xf))(%rsp), a1
vmovdqu \_T1, a0
PRORD \_T1,11
vmovdqu a1, a2
PRORD a1,2
vpxor a0, \_T1, \_T1
PRORD \_T1, 7
vpxor a2, a1, a1
PRORD a1, 17
vpsrld $3, a0, a0
vpxor a0, \_T1, \_T1
vpsrld $10, a2, a2
vpxor a2, a1, a1
vpaddd (SZ8*((\i-16)&0xf))(%rsp), \_T1, \_T1
vpaddd (SZ8*((\i-7)&0xf))(%rsp), a1, a1
vpaddd a1, \_T1, \_T1
ROUND_00_15 \_T1,\i
.endm
# SHA256_ARGS:
# UINT128 digest[8]; // transposed digests
# UINT8 *data_ptr[4];
# void sha256_x8_avx2(SHA256_ARGS *args, UINT64 bytes);
# arg 1 : STATE : pointer to array of pointers to input data
# arg 2 : INP_SIZE : size of input in blocks
# general registers preserved in outer calling routine
# outer calling routine saves all the XMM registers
# save rsp, allocate 32-byte aligned for local variables
ENTRY(sha256_x8_avx2)
# save callee-saved clobbered registers to comply with C function ABI
push %r12
push %r13
push %r14
push %r15
mov %rsp, IDX
sub $FRAMESZ, %rsp
and $~0x1F, %rsp
mov IDX, _rsp(%rsp)
# Load the pre-transposed incoming digest.
vmovdqu 0*SHA256_DIGEST_ROW_SIZE(STATE),a
vmovdqu 1*SHA256_DIGEST_ROW_SIZE(STATE),b
vmovdqu 2*SHA256_DIGEST_ROW_SIZE(STATE),c
vmovdqu 3*SHA256_DIGEST_ROW_SIZE(STATE),d
vmovdqu 4*SHA256_DIGEST_ROW_SIZE(STATE),e
vmovdqu 5*SHA256_DIGEST_ROW_SIZE(STATE),f
vmovdqu 6*SHA256_DIGEST_ROW_SIZE(STATE),g
vmovdqu 7*SHA256_DIGEST_ROW_SIZE(STATE),h
lea K256_8(%rip),TBL
# load the address of each of the 4 message lanes
# getting ready to transpose input onto stack
mov _args_data_ptr+0*PTR_SZ(STATE),inp0
mov _args_data_ptr+1*PTR_SZ(STATE),inp1
mov _args_data_ptr+2*PTR_SZ(STATE),inp2
mov _args_data_ptr+3*PTR_SZ(STATE),inp3
mov _args_data_ptr+4*PTR_SZ(STATE),inp4
mov _args_data_ptr+5*PTR_SZ(STATE),inp5
mov _args_data_ptr+6*PTR_SZ(STATE),inp6
mov _args_data_ptr+7*PTR_SZ(STATE),inp7
xor IDX, IDX
lloop:
xor ROUND, ROUND
# save old digest
vmovdqu a, _digest(%rsp)
vmovdqu b, _digest+1*SZ8(%rsp)
vmovdqu c, _digest+2*SZ8(%rsp)
vmovdqu d, _digest+3*SZ8(%rsp)
vmovdqu e, _digest+4*SZ8(%rsp)
vmovdqu f, _digest+5*SZ8(%rsp)
vmovdqu g, _digest+6*SZ8(%rsp)
vmovdqu h, _digest+7*SZ8(%rsp)
i = 0
.rep 2
VMOVPS i*32(inp0, IDX), TT0
VMOVPS i*32(inp1, IDX), TT1
VMOVPS i*32(inp2, IDX), TT2
VMOVPS i*32(inp3, IDX), TT3
VMOVPS i*32(inp4, IDX), TT4
VMOVPS i*32(inp5, IDX), TT5
VMOVPS i*32(inp6, IDX), TT6
VMOVPS i*32(inp7, IDX), TT7
vmovdqu g, _ytmp(%rsp)
vmovdqu h, _ytmp+1*SZ8(%rsp)
TRANSPOSE8 TT0, TT1, TT2, TT3, TT4, TT5, TT6, TT7, TMP0, TMP1
vmovdqu PSHUFFLE_BYTE_FLIP_MASK(%rip), TMP1
vmovdqu _ytmp(%rsp), g
vpshufb TMP1, TT0, TT0
vpshufb TMP1, TT1, TT1
vpshufb TMP1, TT2, TT2
vpshufb TMP1, TT3, TT3
vpshufb TMP1, TT4, TT4
vpshufb TMP1, TT5, TT5
vpshufb TMP1, TT6, TT6
vpshufb TMP1, TT7, TT7
vmovdqu _ytmp+1*SZ8(%rsp), h
vmovdqu TT4, _ytmp(%rsp)
vmovdqu TT5, _ytmp+1*SZ8(%rsp)
vmovdqu TT6, _ytmp+2*SZ8(%rsp)
vmovdqu TT7, _ytmp+3*SZ8(%rsp)
ROUND_00_15 TT0,(i*8+0)
vmovdqu _ytmp(%rsp), TT0
ROUND_00_15 TT1,(i*8+1)
vmovdqu _ytmp+1*SZ8(%rsp), TT1
ROUND_00_15 TT2,(i*8+2)
vmovdqu _ytmp+2*SZ8(%rsp), TT2
ROUND_00_15 TT3,(i*8+3)
vmovdqu _ytmp+3*SZ8(%rsp), TT3
ROUND_00_15 TT0,(i*8+4)
ROUND_00_15 TT1,(i*8+5)
ROUND_00_15 TT2,(i*8+6)
ROUND_00_15 TT3,(i*8+7)
i = (i+1)
.endr
add $64, IDX
i = (i*8)
jmp Lrounds_16_xx
.align 16
Lrounds_16_xx:
.rep 16
ROUND_16_XX T1, i
i = (i+1)
.endr
cmp $ROUNDS,ROUND
jb Lrounds_16_xx
# add old digest
vpaddd _digest+0*SZ8(%rsp), a, a
vpaddd _digest+1*SZ8(%rsp), b, b
vpaddd _digest+2*SZ8(%rsp), c, c
vpaddd _digest+3*SZ8(%rsp), d, d
vpaddd _digest+4*SZ8(%rsp), e, e
vpaddd _digest+5*SZ8(%rsp), f, f
vpaddd _digest+6*SZ8(%rsp), g, g
vpaddd _digest+7*SZ8(%rsp), h, h
sub $1, INP_SIZE # unit is blocks
jne lloop
# write back to memory (state object) the transposed digest
vmovdqu a, 0*SHA256_DIGEST_ROW_SIZE(STATE)
vmovdqu b, 1*SHA256_DIGEST_ROW_SIZE(STATE)
vmovdqu c, 2*SHA256_DIGEST_ROW_SIZE(STATE)
vmovdqu d, 3*SHA256_DIGEST_ROW_SIZE(STATE)
vmovdqu e, 4*SHA256_DIGEST_ROW_SIZE(STATE)
vmovdqu f, 5*SHA256_DIGEST_ROW_SIZE(STATE)
vmovdqu g, 6*SHA256_DIGEST_ROW_SIZE(STATE)
vmovdqu h, 7*SHA256_DIGEST_ROW_SIZE(STATE)
# update input pointers
add IDX, inp0
mov inp0, _args_data_ptr+0*8(STATE)
add IDX, inp1
mov inp1, _args_data_ptr+1*8(STATE)
add IDX, inp2
mov inp2, _args_data_ptr+2*8(STATE)
add IDX, inp3
mov inp3, _args_data_ptr+3*8(STATE)
add IDX, inp4
mov inp4, _args_data_ptr+4*8(STATE)
add IDX, inp5
mov inp5, _args_data_ptr+5*8(STATE)
add IDX, inp6
mov inp6, _args_data_ptr+6*8(STATE)
add IDX, inp7
mov inp7, _args_data_ptr+7*8(STATE)
# Postamble
mov _rsp(%rsp), %rsp
# restore callee-saved clobbered registers
pop %r15
pop %r14
pop %r13
pop %r12
ret
ENDPROC(sha256_x8_avx2)
.section .rodata.K256_8, "a", @progbits
.align 64
K256_8:
.octa 0x428a2f98428a2f98428a2f98428a2f98
.octa 0x428a2f98428a2f98428a2f98428a2f98
.octa 0x71374491713744917137449171374491
.octa 0x71374491713744917137449171374491
.octa 0xb5c0fbcfb5c0fbcfb5c0fbcfb5c0fbcf
.octa 0xb5c0fbcfb5c0fbcfb5c0fbcfb5c0fbcf
.octa 0xe9b5dba5e9b5dba5e9b5dba5e9b5dba5
.octa 0xe9b5dba5e9b5dba5e9b5dba5e9b5dba5
.octa 0x3956c25b3956c25b3956c25b3956c25b
.octa 0x3956c25b3956c25b3956c25b3956c25b
.octa 0x59f111f159f111f159f111f159f111f1
.octa 0x59f111f159f111f159f111f159f111f1
.octa 0x923f82a4923f82a4923f82a4923f82a4
.octa 0x923f82a4923f82a4923f82a4923f82a4
.octa 0xab1c5ed5ab1c5ed5ab1c5ed5ab1c5ed5
.octa 0xab1c5ed5ab1c5ed5ab1c5ed5ab1c5ed5
.octa 0xd807aa98d807aa98d807aa98d807aa98
.octa 0xd807aa98d807aa98d807aa98d807aa98
.octa 0x12835b0112835b0112835b0112835b01
.octa 0x12835b0112835b0112835b0112835b01
.octa 0x243185be243185be243185be243185be
.octa 0x243185be243185be243185be243185be
.octa 0x550c7dc3550c7dc3550c7dc3550c7dc3
.octa 0x550c7dc3550c7dc3550c7dc3550c7dc3
.octa 0x72be5d7472be5d7472be5d7472be5d74
.octa 0x72be5d7472be5d7472be5d7472be5d74
.octa 0x80deb1fe80deb1fe80deb1fe80deb1fe
.octa 0x80deb1fe80deb1fe80deb1fe80deb1fe
.octa 0x9bdc06a79bdc06a79bdc06a79bdc06a7
.octa 0x9bdc06a79bdc06a79bdc06a79bdc06a7
.octa 0xc19bf174c19bf174c19bf174c19bf174
.octa 0xc19bf174c19bf174c19bf174c19bf174
.octa 0xe49b69c1e49b69c1e49b69c1e49b69c1
.octa 0xe49b69c1e49b69c1e49b69c1e49b69c1
.octa 0xefbe4786efbe4786efbe4786efbe4786
.octa 0xefbe4786efbe4786efbe4786efbe4786
.octa 0x0fc19dc60fc19dc60fc19dc60fc19dc6
.octa 0x0fc19dc60fc19dc60fc19dc60fc19dc6
.octa 0x240ca1cc240ca1cc240ca1cc240ca1cc
.octa 0x240ca1cc240ca1cc240ca1cc240ca1cc
.octa 0x2de92c6f2de92c6f2de92c6f2de92c6f
.octa 0x2de92c6f2de92c6f2de92c6f2de92c6f
.octa 0x4a7484aa4a7484aa4a7484aa4a7484aa
.octa 0x4a7484aa4a7484aa4a7484aa4a7484aa
.octa 0x5cb0a9dc5cb0a9dc5cb0a9dc5cb0a9dc
.octa 0x5cb0a9dc5cb0a9dc5cb0a9dc5cb0a9dc
.octa 0x76f988da76f988da76f988da76f988da
.octa 0x76f988da76f988da76f988da76f988da
.octa 0x983e5152983e5152983e5152983e5152
.octa 0x983e5152983e5152983e5152983e5152
.octa 0xa831c66da831c66da831c66da831c66d
.octa 0xa831c66da831c66da831c66da831c66d
.octa 0xb00327c8b00327c8b00327c8b00327c8
.octa 0xb00327c8b00327c8b00327c8b00327c8
.octa 0xbf597fc7bf597fc7bf597fc7bf597fc7
.octa 0xbf597fc7bf597fc7bf597fc7bf597fc7
.octa 0xc6e00bf3c6e00bf3c6e00bf3c6e00bf3
.octa 0xc6e00bf3c6e00bf3c6e00bf3c6e00bf3
.octa 0xd5a79147d5a79147d5a79147d5a79147
.octa 0xd5a79147d5a79147d5a79147d5a79147
.octa 0x06ca635106ca635106ca635106ca6351
.octa 0x06ca635106ca635106ca635106ca6351
.octa 0x14292967142929671429296714292967
.octa 0x14292967142929671429296714292967
.octa 0x27b70a8527b70a8527b70a8527b70a85
.octa 0x27b70a8527b70a8527b70a8527b70a85
.octa 0x2e1b21382e1b21382e1b21382e1b2138
.octa 0x2e1b21382e1b21382e1b21382e1b2138
.octa 0x4d2c6dfc4d2c6dfc4d2c6dfc4d2c6dfc
.octa 0x4d2c6dfc4d2c6dfc4d2c6dfc4d2c6dfc
.octa 0x53380d1353380d1353380d1353380d13
.octa 0x53380d1353380d1353380d1353380d13
.octa 0x650a7354650a7354650a7354650a7354
.octa 0x650a7354650a7354650a7354650a7354
.octa 0x766a0abb766a0abb766a0abb766a0abb
.octa 0x766a0abb766a0abb766a0abb766a0abb
.octa 0x81c2c92e81c2c92e81c2c92e81c2c92e
.octa 0x81c2c92e81c2c92e81c2c92e81c2c92e
.octa 0x92722c8592722c8592722c8592722c85
.octa 0x92722c8592722c8592722c8592722c85
.octa 0xa2bfe8a1a2bfe8a1a2bfe8a1a2bfe8a1
.octa 0xa2bfe8a1a2bfe8a1a2bfe8a1a2bfe8a1
.octa 0xa81a664ba81a664ba81a664ba81a664b
.octa 0xa81a664ba81a664ba81a664ba81a664b
.octa 0xc24b8b70c24b8b70c24b8b70c24b8b70
.octa 0xc24b8b70c24b8b70c24b8b70c24b8b70
.octa 0xc76c51a3c76c51a3c76c51a3c76c51a3
.octa 0xc76c51a3c76c51a3c76c51a3c76c51a3
.octa 0xd192e819d192e819d192e819d192e819
.octa 0xd192e819d192e819d192e819d192e819
.octa 0xd6990624d6990624d6990624d6990624
.octa 0xd6990624d6990624d6990624d6990624
.octa 0xf40e3585f40e3585f40e3585f40e3585
.octa 0xf40e3585f40e3585f40e3585f40e3585
.octa 0x106aa070106aa070106aa070106aa070
.octa 0x106aa070106aa070106aa070106aa070
.octa 0x19a4c11619a4c11619a4c11619a4c116
.octa 0x19a4c11619a4c11619a4c11619a4c116
.octa 0x1e376c081e376c081e376c081e376c08
.octa 0x1e376c081e376c081e376c081e376c08
.octa 0x2748774c2748774c2748774c2748774c
.octa 0x2748774c2748774c2748774c2748774c
.octa 0x34b0bcb534b0bcb534b0bcb534b0bcb5
.octa 0x34b0bcb534b0bcb534b0bcb534b0bcb5
.octa 0x391c0cb3391c0cb3391c0cb3391c0cb3
.octa 0x391c0cb3391c0cb3391c0cb3391c0cb3
.octa 0x4ed8aa4a4ed8aa4a4ed8aa4a4ed8aa4a
.octa 0x4ed8aa4a4ed8aa4a4ed8aa4a4ed8aa4a
.octa 0x5b9cca4f5b9cca4f5b9cca4f5b9cca4f
.octa 0x5b9cca4f5b9cca4f5b9cca4f5b9cca4f
.octa 0x682e6ff3682e6ff3682e6ff3682e6ff3
.octa 0x682e6ff3682e6ff3682e6ff3682e6ff3
.octa 0x748f82ee748f82ee748f82ee748f82ee
.octa 0x748f82ee748f82ee748f82ee748f82ee
.octa 0x78a5636f78a5636f78a5636f78a5636f
.octa 0x78a5636f78a5636f78a5636f78a5636f
.octa 0x84c8781484c8781484c8781484c87814
.octa 0x84c8781484c8781484c8781484c87814
.octa 0x8cc702088cc702088cc702088cc70208
.octa 0x8cc702088cc702088cc702088cc70208
.octa 0x90befffa90befffa90befffa90befffa
.octa 0x90befffa90befffa90befffa90befffa
.octa 0xa4506ceba4506ceba4506ceba4506ceb
.octa 0xa4506ceba4506ceba4506ceba4506ceb
.octa 0xbef9a3f7bef9a3f7bef9a3f7bef9a3f7
.octa 0xbef9a3f7bef9a3f7bef9a3f7bef9a3f7
.octa 0xc67178f2c67178f2c67178f2c67178f2
.octa 0xc67178f2c67178f2c67178f2c67178f2
.section .rodata.cst32.PSHUFFLE_BYTE_FLIP_MASK, "aM", @progbits, 32
.align 32
PSHUFFLE_BYTE_FLIP_MASK:
.octa 0x0c0d0e0f08090a0b0405060700010203
.octa 0x0c0d0e0f08090a0b0405060700010203
.section .rodata.cst256.K256, "aM", @progbits, 256
.align 64
.global K256
K256:
.int 0x428a2f98,0x71374491,0xb5c0fbcf,0xe9b5dba5
.int 0x3956c25b,0x59f111f1,0x923f82a4,0xab1c5ed5
.int 0xd807aa98,0x12835b01,0x243185be,0x550c7dc3
.int 0x72be5d74,0x80deb1fe,0x9bdc06a7,0xc19bf174
.int 0xe49b69c1,0xefbe4786,0x0fc19dc6,0x240ca1cc
.int 0x2de92c6f,0x4a7484aa,0x5cb0a9dc,0x76f988da
.int 0x983e5152,0xa831c66d,0xb00327c8,0xbf597fc7
.int 0xc6e00bf3,0xd5a79147,0x06ca6351,0x14292967
.int 0x27b70a85,0x2e1b2138,0x4d2c6dfc,0x53380d13
.int 0x650a7354,0x766a0abb,0x81c2c92e,0x92722c85
.int 0xa2bfe8a1,0xa81a664b,0xc24b8b70,0xc76c51a3
.int 0xd192e819,0xd6990624,0xf40e3585,0x106aa070
.int 0x19a4c116,0x1e376c08,0x2748774c,0x34b0bcb5
.int 0x391c0cb3,0x4ed8aa4a,0x5b9cca4f,0x682e6ff3
.int 0x748f82ee,0x78a5636f,0x84c87814,0x8cc70208
.int 0x90befffa,0xa4506ceb,0xbef9a3f7,0xc67178f2