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minio/pkg/crypto/sha512/sha512-avx2-asm.S

741 lines
24 KiB

########################################################################
# Implement fast SHA-512 with AVX2 instructions. (x86_64)
#
# Copyright (C) 2013 Intel Corporation.
#
# Authors:
# James Guilford <james.guilford@intel.com>
# Kirk Yap <kirk.s.yap@intel.com>
# David Cote <david.m.cote@intel.com>
# Tim Chen <tim.c.chen@linux.intel.com>
#
# This software is available to you under a choice of one of two
# licenses. You may choose to be licensed under the terms of the GNU
# General Public License (GPL) Version 2, available from the file
# COPYING in the main directory of this source tree, or the
# OpenIB.org BSD license below:
#
# 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.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
#
########################################################################
#
# This code is described in an Intel White-Paper:
# "Fast SHA-512 Implementations on Intel Architecture Processors"
#
# To find it, surf to http://www.intel.com/p/en_US/embedded
# and search for that title.
#
########################################################################
# This code schedules 1 blocks at a time, with 4 lanes per block
########################################################################
#include "asm.S"
.text
# Virtual Registers
Y_0 = %ymm4
Y_1 = %ymm5
Y_2 = %ymm6
Y_3 = %ymm7
YTMP0 = %ymm0
YTMP1 = %ymm1
YTMP2 = %ymm2
YTMP3 = %ymm3
YTMP4 = %ymm8
XFER = YTMP0
BYTE_FLIP_MASK = %ymm9
# 1st arg
INP = %rdi
# 2nd arg
CTX = %rsi
# 3rd arg
NUM_BLKS = %rdx
c = %rcx
d = %r8
e = %rdx
y3 = %rdi
TBL = %rbp
a = %rax
b = %rbx
f = %r9
g = %r10
h = %r11
old_h = %r11
T1 = %r12
y0 = %r13
y1 = %r14
y2 = %r15
y4 = %r12
# Local variables (stack frame)
XFER_SIZE = 4*8
SRND_SIZE = 1*8
INP_SIZE = 1*8
INPEND_SIZE = 1*8
RSPSAVE_SIZE = 1*8
GPRSAVE_SIZE = 6*8
frame_XFER = 0
frame_SRND = frame_XFER + XFER_SIZE
frame_INP = frame_SRND + SRND_SIZE
frame_INPEND = frame_INP + INP_SIZE
frame_RSPSAVE = frame_INPEND + INPEND_SIZE
frame_GPRSAVE = frame_RSPSAVE + RSPSAVE_SIZE
frame_size = frame_GPRSAVE + GPRSAVE_SIZE
## assume buffers not aligned
#define VMOVDQ vmovdqu
# addm [mem], reg
# Add reg to mem using reg-mem add and store
.macro addm p1 p2
add \p1, \p2
mov \p2, \p1
.endm
# COPY_YMM_AND_BSWAP ymm, [mem], byte_flip_mask
# Load ymm with mem and byte swap each dword
.macro COPY_YMM_AND_BSWAP p1 p2 p3
VMOVDQ \p2, \p1
vpshufb \p3, \p1, \p1
.endm
# rotate_Ys
# Rotate values of symbols Y0...Y3
.macro rotate_Ys
Y_ = Y_0
Y_0 = Y_1
Y_1 = Y_2
Y_2 = Y_3
Y_3 = Y_
.endm
# RotateState
.macro RotateState
# Rotate symbols a..h right
old_h = h
TMP_ = h
h = g
g = f
f = e
e = d
d = c
c = b
b = a
a = TMP_
.endm
# macro MY_VPALIGNR YDST, YSRC1, YSRC2, RVAL
# YDST = {YSRC1, YSRC2} >> RVAL*8
.macro MY_VPALIGNR YDST YSRC1 YSRC2 RVAL
vperm2f128 $0x3, \YSRC2, \YSRC1, \YDST # YDST = {YS1_LO, YS2_HI}
vpalignr $\RVAL, \YSRC2, \YDST, \YDST # YDST = {YDS1, YS2} >> RVAL*8
.endm
.macro FOUR_ROUNDS_AND_SCHED
################################### RND N + 0 #########################################
# Extract w[t-7]
MY_VPALIGNR YTMP0, Y_3, Y_2, 8 # YTMP0 = W[-7]
# Calculate w[t-16] + w[t-7]
vpaddq Y_0, YTMP0, YTMP0 # YTMP0 = W[-7] + W[-16]
# Extract w[t-15]
MY_VPALIGNR YTMP1, Y_1, Y_0, 8 # YTMP1 = W[-15]
# Calculate sigma0
# Calculate w[t-15] ror 1
vpsrlq $1, YTMP1, YTMP2
vpsllq $(64-1), YTMP1, YTMP3
vpor YTMP2, YTMP3, YTMP3 # YTMP3 = W[-15] ror 1
# Calculate w[t-15] shr 7
vpsrlq $7, YTMP1, YTMP4 # YTMP4 = W[-15] >> 7
mov a, y3 # y3 = a # MAJA
rorx $41, e, y0 # y0 = e >> 41 # S1A
rorx $18, e, y1 # y1 = e >> 18 # S1B
add frame_XFER(%rsp),h # h = k + w + h # --
or c, y3 # y3 = a|c # MAJA
mov f, y2 # y2 = f # CH
rorx $34, a, T1 # T1 = a >> 34 # S0B
xor y1, y0 # y0 = (e>>41) ^ (e>>18) # S1
xor g, y2 # y2 = f^g # CH
rorx $14, e, y1 # y1 = (e >> 14) # S1
and e, y2 # y2 = (f^g)&e # CH
xor y1, y0 # y0 = (e>>41) ^ (e>>18) ^ (e>>14) # S1
rorx $39, a, y1 # y1 = a >> 39 # S0A
add h, d # d = k + w + h + d # --
and b, y3 # y3 = (a|c)&b # MAJA
xor T1, y1 # y1 = (a>>39) ^ (a>>34) # S0
rorx $28, a, T1 # T1 = (a >> 28) # S0
xor g, y2 # y2 = CH = ((f^g)&e)^g # CH
xor T1, y1 # y1 = (a>>39) ^ (a>>34) ^ (a>>28) # S0
mov a, T1 # T1 = a # MAJB
and c, T1 # T1 = a&c # MAJB
add y0, y2 # y2 = S1 + CH # --
or T1, y3 # y3 = MAJ = (a|c)&b)|(a&c) # MAJ
add y1, h # h = k + w + h + S0 # --
add y2, d # d = k + w + h + d + S1 + CH = d + t1 # --
add y2, h # h = k + w + h + S0 + S1 + CH = t1 + S0# --
add y3, h # h = t1 + S0 + MAJ # --
RotateState
################################### RND N + 1 #########################################
# Calculate w[t-15] ror 8
vpsrlq $8, YTMP1, YTMP2
vpsllq $(64-8), YTMP1, YTMP1
vpor YTMP2, YTMP1, YTMP1 # YTMP1 = W[-15] ror 8
# XOR the three components
vpxor YTMP4, YTMP3, YTMP3 # YTMP3 = W[-15] ror 1 ^ W[-15] >> 7
vpxor YTMP1, YTMP3, YTMP1 # YTMP1 = s0
# Add three components, w[t-16], w[t-7] and sigma0
vpaddq YTMP1, YTMP0, YTMP0 # YTMP0 = W[-16] + W[-7] + s0
# Move to appropriate lanes for calculating w[16] and w[17]
vperm2f128 $0x0, YTMP0, YTMP0, Y_0 # Y_0 = W[-16] + W[-7] + s0 {BABA}
# Move to appropriate lanes for calculating w[18] and w[19]
vpand MASK_YMM_LO(%rip), YTMP0, YTMP0 # YTMP0 = W[-16] + W[-7] + s0 {DC00}
# Calculate w[16] and w[17] in both 128 bit lanes
# Calculate sigma1 for w[16] and w[17] on both 128 bit lanes
vperm2f128 $0x11, Y_3, Y_3, YTMP2 # YTMP2 = W[-2] {BABA}
vpsrlq $6, YTMP2, YTMP4 # YTMP4 = W[-2] >> 6 {BABA}
mov a, y3 # y3 = a # MAJA
rorx $41, e, y0 # y0 = e >> 41 # S1A
rorx $18, e, y1 # y1 = e >> 18 # S1B
add 1*8+frame_XFER(%rsp), h # h = k + w + h # --
or c, y3 # y3 = a|c # MAJA
mov f, y2 # y2 = f # CH
rorx $34, a, T1 # T1 = a >> 34 # S0B
xor y1, y0 # y0 = (e>>41) ^ (e>>18) # S1
xor g, y2 # y2 = f^g # CH
rorx $14, e, y1 # y1 = (e >> 14) # S1
xor y1, y0 # y0 = (e>>41) ^ (e>>18) ^ (e>>14) # S1
rorx $39, a, y1 # y1 = a >> 39 # S0A
and e, y2 # y2 = (f^g)&e # CH
add h, d # d = k + w + h + d # --
and b, y3 # y3 = (a|c)&b # MAJA
xor T1, y1 # y1 = (a>>39) ^ (a>>34) # S0
rorx $28, a, T1 # T1 = (a >> 28) # S0
xor g, y2 # y2 = CH = ((f^g)&e)^g # CH
xor T1, y1 # y1 = (a>>39) ^ (a>>34) ^ (a>>28) # S0
mov a, T1 # T1 = a # MAJB
and c, T1 # T1 = a&c # MAJB
add y0, y2 # y2 = S1 + CH # --
or T1, y3 # y3 = MAJ = (a|c)&b)|(a&c) # MAJ
add y1, h # h = k + w + h + S0 # --
add y2, d # d = k + w + h + d + S1 + CH = d + t1 # --
add y2, h # h = k + w + h + S0 + S1 + CH = t1 + S0# --
add y3, h # h = t1 + S0 + MAJ # --
RotateState
################################### RND N + 2 #########################################
vpsrlq $19, YTMP2, YTMP3 # YTMP3 = W[-2] >> 19 {BABA}
vpsllq $(64-19), YTMP2, YTMP1 # YTMP1 = W[-2] << 19 {BABA}
vpor YTMP1, YTMP3, YTMP3 # YTMP3 = W[-2] ror 19 {BABA}
vpxor YTMP3, YTMP4, YTMP4 # YTMP4 = W[-2] ror 19 ^ W[-2] >> 6 {BABA}
vpsrlq $61, YTMP2, YTMP3 # YTMP3 = W[-2] >> 61 {BABA}
vpsllq $(64-61), YTMP2, YTMP1 # YTMP1 = W[-2] << 61 {BABA}
vpor YTMP1, YTMP3, YTMP3 # YTMP3 = W[-2] ror 61 {BABA}
vpxor YTMP3, YTMP4, YTMP4 # YTMP4 = s1 = (W[-2] ror 19) ^
# (W[-2] ror 61) ^ (W[-2] >> 6) {BABA}
# Add sigma1 to the other compunents to get w[16] and w[17]
vpaddq YTMP4, Y_0, Y_0 # Y_0 = {W[1], W[0], W[1], W[0]}
# Calculate sigma1 for w[18] and w[19] for upper 128 bit lane
vpsrlq $6, Y_0, YTMP4 # YTMP4 = W[-2] >> 6 {DC--}
mov a, y3 # y3 = a # MAJA
rorx $41, e, y0 # y0 = e >> 41 # S1A
add 2*8+frame_XFER(%rsp), h # h = k + w + h # --
rorx $18, e, y1 # y1 = e >> 18 # S1B
or c, y3 # y3 = a|c # MAJA
mov f, y2 # y2 = f # CH
xor g, y2 # y2 = f^g # CH
rorx $34, a, T1 # T1 = a >> 34 # S0B
xor y1, y0 # y0 = (e>>41) ^ (e>>18) # S1
and e, y2 # y2 = (f^g)&e # CH
rorx $14, e, y1 # y1 = (e >> 14) # S1
add h, d # d = k + w + h + d # --
and b, y3 # y3 = (a|c)&b # MAJA
xor y1, y0 # y0 = (e>>41) ^ (e>>18) ^ (e>>14) # S1
rorx $39, a, y1 # y1 = a >> 39 # S0A
xor g, y2 # y2 = CH = ((f^g)&e)^g # CH
xor T1, y1 # y1 = (a>>39) ^ (a>>34) # S0
rorx $28, a, T1 # T1 = (a >> 28) # S0
xor T1, y1 # y1 = (a>>39) ^ (a>>34) ^ (a>>28) # S0
mov a, T1 # T1 = a # MAJB
and c, T1 # T1 = a&c # MAJB
add y0, y2 # y2 = S1 + CH # --
or T1, y3 # y3 = MAJ = (a|c)&b)|(a&c) # MAJ
add y1, h # h = k + w + h + S0 # --
add y2, d # d = k + w + h + d + S1 + CH = d + t1 # --
add y2, h # h = k + w + h + S0 + S1 + CH = t1 + S0# --
add y3, h # h = t1 + S0 + MAJ # --
RotateState
################################### RND N + 3 #########################################
vpsrlq $19, Y_0, YTMP3 # YTMP3 = W[-2] >> 19 {DC--}
vpsllq $(64-19), Y_0, YTMP1 # YTMP1 = W[-2] << 19 {DC--}
vpor YTMP1, YTMP3, YTMP3 # YTMP3 = W[-2] ror 19 {DC--}
vpxor YTMP3, YTMP4, YTMP4 # YTMP4 = W[-2] ror 19 ^ W[-2] >> 6 {DC--}
vpsrlq $61, Y_0, YTMP3 # YTMP3 = W[-2] >> 61 {DC--}
vpsllq $(64-61), Y_0, YTMP1 # YTMP1 = W[-2] << 61 {DC--}
vpor YTMP1, YTMP3, YTMP3 # YTMP3 = W[-2] ror 61 {DC--}
vpxor YTMP3, YTMP4, YTMP4 # YTMP4 = s1 = (W[-2] ror 19) ^
# (W[-2] ror 61) ^ (W[-2] >> 6) {DC--}
# Add the sigma0 + w[t-7] + w[t-16] for w[18] and w[19]
# to newly calculated sigma1 to get w[18] and w[19]
vpaddq YTMP4, YTMP0, YTMP2 # YTMP2 = {W[3], W[2], --, --}
# Form w[19, w[18], w17], w[16]
vpblendd $0xF0, YTMP2, Y_0, Y_0 # Y_0 = {W[3], W[2], W[1], W[0]}
mov a, y3 # y3 = a # MAJA
rorx $41, e, y0 # y0 = e >> 41 # S1A
rorx $18, e, y1 # y1 = e >> 18 # S1B
add 3*8+frame_XFER(%rsp), h # h = k + w + h # --
or c, y3 # y3 = a|c # MAJA
mov f, y2 # y2 = f # CH
rorx $34, a, T1 # T1 = a >> 34 # S0B
xor y1, y0 # y0 = (e>>41) ^ (e>>18) # S1
xor g, y2 # y2 = f^g # CH
rorx $14, e, y1 # y1 = (e >> 14) # S1
and e, y2 # y2 = (f^g)&e # CH
add h, d # d = k + w + h + d # --
and b, y3 # y3 = (a|c)&b # MAJA
xor y1, y0 # y0 = (e>>41) ^ (e>>18) ^ (e>>14) # S1
xor g, y2 # y2 = CH = ((f^g)&e)^g # CH
rorx $39, a, y1 # y1 = a >> 39 # S0A
add y0, y2 # y2 = S1 + CH # --
xor T1, y1 # y1 = (a>>39) ^ (a>>34) # S0
add y2, d # d = k + w + h + d + S1 + CH = d + t1 # --
rorx $28, a, T1 # T1 = (a >> 28) # S0
xor T1, y1 # y1 = (a>>39) ^ (a>>34) ^ (a>>28) # S0
mov a, T1 # T1 = a # MAJB
and c, T1 # T1 = a&c # MAJB
or T1, y3 # y3 = MAJ = (a|c)&b)|(a&c) # MAJ
add y1, h # h = k + w + h + S0 # --
add y2, h # h = k + w + h + S0 + S1 + CH = t1 + S0# --
add y3, h # h = t1 + S0 + MAJ # --
RotateState
rotate_Ys
.endm
.macro DO_4ROUNDS
################################### RND N + 0 #########################################
mov f, y2 # y2 = f # CH
rorx $41, e, y0 # y0 = e >> 41 # S1A
rorx $18, e, y1 # y1 = e >> 18 # S1B
xor g, y2 # y2 = f^g # CH
xor y1, y0 # y0 = (e>>41) ^ (e>>18) # S1
rorx $14, e, y1 # y1 = (e >> 14) # S1
and e, y2 # y2 = (f^g)&e # CH
xor y1, y0 # y0 = (e>>41) ^ (e>>18) ^ (e>>14) # S1
rorx $34, a, T1 # T1 = a >> 34 # S0B
xor g, y2 # y2 = CH = ((f^g)&e)^g # CH
rorx $39, a, y1 # y1 = a >> 39 # S0A
mov a, y3 # y3 = a # MAJA
xor T1, y1 # y1 = (a>>39) ^ (a>>34) # S0
rorx $28, a, T1 # T1 = (a >> 28) # S0
add frame_XFER(%rsp), h # h = k + w + h # --
or c, y3 # y3 = a|c # MAJA
xor T1, y1 # y1 = (a>>39) ^ (a>>34) ^ (a>>28) # S0
mov a, T1 # T1 = a # MAJB
and b, y3 # y3 = (a|c)&b # MAJA
and c, T1 # T1 = a&c # MAJB
add y0, y2 # y2 = S1 + CH # --
add h, d # d = k + w + h + d # --
or T1, y3 # y3 = MAJ = (a|c)&b)|(a&c) # MAJ
add y1, h # h = k + w + h + S0 # --
add y2, d # d = k + w + h + d + S1 + CH = d + t1 # --
RotateState
################################### RND N + 1 #########################################
add y2, old_h # h = k + w + h + S0 + S1 + CH = t1 + S0# --
mov f, y2 # y2 = f # CH
rorx $41, e, y0 # y0 = e >> 41 # S1A
rorx $18, e, y1 # y1 = e >> 18 # S1B
xor g, y2 # y2 = f^g # CH
xor y1, y0 # y0 = (e>>41) ^ (e>>18) # S1
rorx $14, e, y1 # y1 = (e >> 14) # S1
and e, y2 # y2 = (f^g)&e # CH
add y3, old_h # h = t1 + S0 + MAJ # --
xor y1, y0 # y0 = (e>>41) ^ (e>>18) ^ (e>>14) # S1
rorx $34, a, T1 # T1 = a >> 34 # S0B
xor g, y2 # y2 = CH = ((f^g)&e)^g # CH
rorx $39, a, y1 # y1 = a >> 39 # S0A
mov a, y3 # y3 = a # MAJA
xor T1, y1 # y1 = (a>>39) ^ (a>>34) # S0
rorx $28, a, T1 # T1 = (a >> 28) # S0
add 8*1+frame_XFER(%rsp), h # h = k + w + h # --
or c, y3 # y3 = a|c # MAJA
xor T1, y1 # y1 = (a>>39) ^ (a>>34) ^ (a>>28) # S0
mov a, T1 # T1 = a # MAJB
and b, y3 # y3 = (a|c)&b # MAJA
and c, T1 # T1 = a&c # MAJB
add y0, y2 # y2 = S1 + CH # --
add h, d # d = k + w + h + d # --
or T1, y3 # y3 = MAJ = (a|c)&b)|(a&c) # MAJ
add y1, h # h = k + w + h + S0 # --
add y2, d # d = k + w + h + d + S1 + CH = d + t1 # --
RotateState
################################### RND N + 2 #########################################
add y2, old_h # h = k + w + h + S0 + S1 + CH = t1 + S0# --
mov f, y2 # y2 = f # CH
rorx $41, e, y0 # y0 = e >> 41 # S1A
rorx $18, e, y1 # y1 = e >> 18 # S1B
xor g, y2 # y2 = f^g # CH
xor y1, y0 # y0 = (e>>41) ^ (e>>18) # S1
rorx $14, e, y1 # y1 = (e >> 14) # S1
and e, y2 # y2 = (f^g)&e # CH
add y3, old_h # h = t1 + S0 + MAJ # --
xor y1, y0 # y0 = (e>>41) ^ (e>>18) ^ (e>>14) # S1
rorx $34, a, T1 # T1 = a >> 34 # S0B
xor g, y2 # y2 = CH = ((f^g)&e)^g # CH
rorx $39, a, y1 # y1 = a >> 39 # S0A
mov a, y3 # y3 = a # MAJA
xor T1, y1 # y1 = (a>>39) ^ (a>>34) # S0
rorx $28, a, T1 # T1 = (a >> 28) # S0
add 8*2+frame_XFER(%rsp), h # h = k + w + h # --
or c, y3 # y3 = a|c # MAJA
xor T1, y1 # y1 = (a>>39) ^ (a>>34) ^ (a>>28) # S0
mov a, T1 # T1 = a # MAJB
and b, y3 # y3 = (a|c)&b # MAJA
and c, T1 # T1 = a&c # MAJB
add y0, y2 # y2 = S1 + CH # --
add h, d # d = k + w + h + d # --
or T1, y3 # y3 = MAJ = (a|c)&b)|(a&c) # MAJ
add y1, h # h = k + w + h + S0 # --
add y2, d # d = k + w + h + d + S1 + CH = d + t1 # --
RotateState
################################### RND N + 3 #########################################
add y2, old_h # h = k + w + h + S0 + S1 + CH = t1 + S0# --
mov f, y2 # y2 = f # CH
rorx $41, e, y0 # y0 = e >> 41 # S1A
rorx $18, e, y1 # y1 = e >> 18 # S1B
xor g, y2 # y2 = f^g # CH
xor y1, y0 # y0 = (e>>41) ^ (e>>18) # S1
rorx $14, e, y1 # y1 = (e >> 14) # S1
and e, y2 # y2 = (f^g)&e # CH
add y3, old_h # h = t1 + S0 + MAJ # --
xor y1, y0 # y0 = (e>>41) ^ (e>>18) ^ (e>>14) # S1
rorx $34, a, T1 # T1 = a >> 34 # S0B
xor g, y2 # y2 = CH = ((f^g)&e)^g # CH
rorx $39, a, y1 # y1 = a >> 39 # S0A
mov a, y3 # y3 = a # MAJA
xor T1, y1 # y1 = (a>>39) ^ (a>>34) # S0
rorx $28, a, T1 # T1 = (a >> 28) # S0
add 8*3+frame_XFER(%rsp), h # h = k + w + h # --
or c, y3 # y3 = a|c # MAJA
xor T1, y1 # y1 = (a>>39) ^ (a>>34) ^ (a>>28) # S0
mov a, T1 # T1 = a # MAJB
and b, y3 # y3 = (a|c)&b # MAJA
and c, T1 # T1 = a&c # MAJB
add y0, y2 # y2 = S1 + CH # --
add h, d # d = k + w + h + d # --
or T1, y3 # y3 = MAJ = (a|c)&b)|(a&c) # MAJ
add y1, h # h = k + w + h + S0 # --
add y2, d # d = k + w + h + d + S1 + CH = d + t1 # --
add y2, h # h = k + w + h + S0 + S1 + CH = t1 + S0# --
add y3, h # h = t1 + S0 + MAJ # --
RotateState
.endm
########################################################################
# void sha512_transform_rorx(const void* M, void* D, uint64_t L)#
# Purpose: Updates the SHA512 digest stored at D with the message stored in M.
# The size of the message pointed to by M must be an integer multiple of SHA512
# message blocks.
# L is the message length in SHA512 blocks
########################################################################
ENTRY(sha512_transform_rorx)
# Allocate Stack Space
mov %rsp, %rax
sub $frame_size, %rsp
and $~(0x20 - 1), %rsp
mov %rax, frame_RSPSAVE(%rsp)
# Save GPRs
mov %rbp, frame_GPRSAVE(%rsp)
mov %rbx, 8*1+frame_GPRSAVE(%rsp)
mov %r12, 8*2+frame_GPRSAVE(%rsp)
mov %r13, 8*3+frame_GPRSAVE(%rsp)
mov %r14, 8*4+frame_GPRSAVE(%rsp)
mov %r15, 8*5+frame_GPRSAVE(%rsp)
shl $7, NUM_BLKS # convert to bytes
jz done_hash
add INP, NUM_BLKS # pointer to end of data
mov NUM_BLKS, frame_INPEND(%rsp)
## load initial digest
mov 8*0(CTX),a
mov 8*1(CTX),b
mov 8*2(CTX),c
mov 8*3(CTX),d
mov 8*4(CTX),e
mov 8*5(CTX),f
mov 8*6(CTX),g
mov 8*7(CTX),h
vmovdqa PSHUFFLE_BYTE_FLIP_MASK(%rip), BYTE_FLIP_MASK
loop0:
lea K512(%rip), TBL
## byte swap first 16 dwords
COPY_YMM_AND_BSWAP Y_0, (INP), BYTE_FLIP_MASK
COPY_YMM_AND_BSWAP Y_1, 1*32(INP), BYTE_FLIP_MASK
COPY_YMM_AND_BSWAP Y_2, 2*32(INP), BYTE_FLIP_MASK
COPY_YMM_AND_BSWAP Y_3, 3*32(INP), BYTE_FLIP_MASK
mov INP, frame_INP(%rsp)
## schedule 64 input dwords, by doing 12 rounds of 4 each
movq $4, frame_SRND(%rsp)
.align 16
loop1:
vpaddq (TBL), Y_0, XFER
vmovdqa XFER, frame_XFER(%rsp)
FOUR_ROUNDS_AND_SCHED
vpaddq 1*32(TBL), Y_0, XFER
vmovdqa XFER, frame_XFER(%rsp)
FOUR_ROUNDS_AND_SCHED
vpaddq 2*32(TBL), Y_0, XFER
vmovdqa XFER, frame_XFER(%rsp)
FOUR_ROUNDS_AND_SCHED
vpaddq 3*32(TBL), Y_0, XFER
vmovdqa XFER, frame_XFER(%rsp)
add $(4*32), TBL
FOUR_ROUNDS_AND_SCHED
subq $1, frame_SRND(%rsp)
jne loop1
movq $2, frame_SRND(%rsp)
loop2:
vpaddq (TBL), Y_0, XFER
vmovdqa XFER, frame_XFER(%rsp)
DO_4ROUNDS
vpaddq 1*32(TBL), Y_1, XFER
vmovdqa XFER, frame_XFER(%rsp)
add $(2*32), TBL
DO_4ROUNDS
vmovdqa Y_2, Y_0
vmovdqa Y_3, Y_1
subq $1, frame_SRND(%rsp)
jne loop2
addm 8*0(CTX),a
addm 8*1(CTX),b
addm 8*2(CTX),c
addm 8*3(CTX),d
addm 8*4(CTX),e
addm 8*5(CTX),f
addm 8*6(CTX),g
addm 8*7(CTX),h
mov frame_INP(%rsp), INP
add $128, INP
cmp frame_INPEND(%rsp), INP
jne loop0
done_hash:
# Restore GPRs
mov frame_GPRSAVE(%rsp) ,%rbp
mov 8*1+frame_GPRSAVE(%rsp) ,%rbx
mov 8*2+frame_GPRSAVE(%rsp) ,%r12
mov 8*3+frame_GPRSAVE(%rsp) ,%r13
mov 8*4+frame_GPRSAVE(%rsp) ,%r14
mov 8*5+frame_GPRSAVE(%rsp) ,%r15
# Restore Stack Pointer
mov frame_RSPSAVE(%rsp), %rsp
ret
ENDPROC(sha512_transform_rorx)
########################################################################
### Binary Data
.data
.align 64
# K[t] used in SHA512 hashing
K512:
.quad 0x428a2f98d728ae22,0x7137449123ef65cd
.quad 0xb5c0fbcfec4d3b2f,0xe9b5dba58189dbbc
.quad 0x3956c25bf348b538,0x59f111f1b605d019
.quad 0x923f82a4af194f9b,0xab1c5ed5da6d8118
.quad 0xd807aa98a3030242,0x12835b0145706fbe
.quad 0x243185be4ee4b28c,0x550c7dc3d5ffb4e2
.quad 0x72be5d74f27b896f,0x80deb1fe3b1696b1
.quad 0x9bdc06a725c71235,0xc19bf174cf692694
.quad 0xe49b69c19ef14ad2,0xefbe4786384f25e3
.quad 0x0fc19dc68b8cd5b5,0x240ca1cc77ac9c65
.quad 0x2de92c6f592b0275,0x4a7484aa6ea6e483
.quad 0x5cb0a9dcbd41fbd4,0x76f988da831153b5
.quad 0x983e5152ee66dfab,0xa831c66d2db43210
.quad 0xb00327c898fb213f,0xbf597fc7beef0ee4
.quad 0xc6e00bf33da88fc2,0xd5a79147930aa725
.quad 0x06ca6351e003826f,0x142929670a0e6e70
.quad 0x27b70a8546d22ffc,0x2e1b21385c26c926
.quad 0x4d2c6dfc5ac42aed,0x53380d139d95b3df
.quad 0x650a73548baf63de,0x766a0abb3c77b2a8
.quad 0x81c2c92e47edaee6,0x92722c851482353b
.quad 0xa2bfe8a14cf10364,0xa81a664bbc423001
.quad 0xc24b8b70d0f89791,0xc76c51a30654be30
.quad 0xd192e819d6ef5218,0xd69906245565a910
.quad 0xf40e35855771202a,0x106aa07032bbd1b8
.quad 0x19a4c116b8d2d0c8,0x1e376c085141ab53
.quad 0x2748774cdf8eeb99,0x34b0bcb5e19b48a8
.quad 0x391c0cb3c5c95a63,0x4ed8aa4ae3418acb
.quad 0x5b9cca4f7763e373,0x682e6ff3d6b2b8a3
.quad 0x748f82ee5defb2fc,0x78a5636f43172f60
.quad 0x84c87814a1f0ab72,0x8cc702081a6439ec
.quad 0x90befffa23631e28,0xa4506cebde82bde9
.quad 0xbef9a3f7b2c67915,0xc67178f2e372532b
.quad 0xca273eceea26619c,0xd186b8c721c0c207
.quad 0xeada7dd6cde0eb1e,0xf57d4f7fee6ed178
.quad 0x06f067aa72176fba,0x0a637dc5a2c898a6
.quad 0x113f9804bef90dae,0x1b710b35131c471b
.quad 0x28db77f523047d84,0x32caab7b40c72493
.quad 0x3c9ebe0a15c9bebc,0x431d67c49c100d4c
.quad 0x4cc5d4becb3e42b6,0x597f299cfc657e2a
.quad 0x5fcb6fab3ad6faec,0x6c44198c4a475817
.align 32
# Mask for byte-swapping a couple of qwords in an XMM register using (v)pshufb.
PSHUFFLE_BYTE_FLIP_MASK:
.octa 0x08090a0b0c0d0e0f0001020304050607
.octa 0x18191a1b1c1d1e1f1011121314151617
MASK_YMM_LO:
.octa 0x00000000000000000000000000000000
.octa 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF