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e183914af0
A lot of asm-optimized routines in arch/x86/crypto/ keep its constants in .data. This is wrong, they should be on .rodata. Mnay of these constants are the same in different modules. For example, 128-bit shuffle mask 0x000102030405060708090A0B0C0D0E0F exists in at least half a dozen places. There is a way to let linker merge them and use just one copy. The rules are as follows: mergeable objects of different sizes should not share sections. You can't put them all in one .rodata section, they will lose "mergeability". GCC puts its mergeable constants in ".rodata.cstSIZE" sections, or ".rodata.cstSIZE.<object_name>" if -fdata-sections is used. This patch does the same: .section .rodata.cst16.SHUF_MASK, "aM", @progbits, 16 It is important that all data in such section consists of 16-byte elements, not larger ones, and there are no implicit use of one element from another. When this is not the case, use non-mergeable section: .section .rodata[.VAR_NAME], "a", @progbits This reduces .data by ~15 kbytes: text data bss dec hex filename 11097415 2705840 2630712 16433967 fac32f vmlinux-prev.o 11112095 2690672 2630712 16433479 fac147 vmlinux.o Merged objects are visible in System.map: ffffffff81a28810 r POLY ffffffff81a28810 r POLY ffffffff81a28820 r TWOONE ffffffff81a28820 r TWOONE ffffffff81a28830 r PSHUFFLE_BYTE_FLIP_MASK <- merged regardless of ffffffff81a28830 r SHUF_MASK <------------- the name difference ffffffff81a28830 r SHUF_MASK ffffffff81a28830 r SHUF_MASK .. ffffffff81a28d00 r K512 <- merged three identical 640-byte tables ffffffff81a28d00 r K512 ffffffff81a28d00 r K512 Use of object names in section name suffixes is not strictly necessary, but might help if someday link stage will use garbage collection to eliminate unused sections (ld --gc-sections). Signed-off-by: Denys Vlasenko <dvlasenk@redhat.com> CC: Herbert Xu <herbert@gondor.apana.org.au> CC: Josh Poimboeuf <jpoimboe@redhat.com> CC: Xiaodong Liu <xiaodong.liu@intel.com> CC: Megha Dey <megha.dey@intel.com> CC: linux-crypto@vger.kernel.org CC: x86@kernel.org CC: linux-kernel@vger.kernel.org Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
513 lines
17 KiB
ArmAsm
513 lines
17 KiB
ArmAsm
########################################################################
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# Implement fast SHA-256 with SSSE3 instructions. (x86_64)
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#
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# Copyright (C) 2013 Intel Corporation.
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#
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# Authors:
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# James Guilford <james.guilford@intel.com>
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# Kirk Yap <kirk.s.yap@intel.com>
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# Tim Chen <tim.c.chen@linux.intel.com>
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#
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# This software is available to you under a choice of one of two
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# licenses. You may choose to be licensed under the terms of the GNU
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# General Public License (GPL) Version 2, available from the file
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# COPYING in the main directory of this source tree, or the
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# OpenIB.org BSD license below:
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#
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# Redistribution and use in source and binary forms, with or
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# without modification, are permitted provided that the following
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# conditions are met:
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#
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# - Redistributions of source code must retain the above
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# copyright notice, this list of conditions and the following
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# disclaimer.
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#
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# - Redistributions in binary form must reproduce the above
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# copyright notice, this list of conditions and the following
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# disclaimer in the documentation and/or other materials
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# provided with the distribution.
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#
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# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
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# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
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# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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# SOFTWARE.
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#
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########################################################################
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#
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# This code is described in an Intel White-Paper:
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# "Fast SHA-256 Implementations on Intel Architecture Processors"
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#
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# To find it, surf to http://www.intel.com/p/en_US/embedded
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# and search for that title.
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#
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########################################################################
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#include <linux/linkage.h>
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## assume buffers not aligned
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#define MOVDQ movdqu
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################################ Define Macros
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# addm [mem], reg
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# Add reg to mem using reg-mem add and store
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.macro addm p1 p2
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add \p1, \p2
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mov \p2, \p1
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.endm
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################################
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# COPY_XMM_AND_BSWAP xmm, [mem], byte_flip_mask
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# Load xmm with mem and byte swap each dword
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.macro COPY_XMM_AND_BSWAP p1 p2 p3
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MOVDQ \p2, \p1
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pshufb \p3, \p1
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.endm
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################################
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X0 = %xmm4
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X1 = %xmm5
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X2 = %xmm6
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X3 = %xmm7
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XTMP0 = %xmm0
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XTMP1 = %xmm1
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XTMP2 = %xmm2
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XTMP3 = %xmm3
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XTMP4 = %xmm8
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XFER = %xmm9
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SHUF_00BA = %xmm10 # shuffle xBxA -> 00BA
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SHUF_DC00 = %xmm11 # shuffle xDxC -> DC00
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BYTE_FLIP_MASK = %xmm12
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NUM_BLKS = %rdx # 3rd arg
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INP = %rsi # 2nd arg
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CTX = %rdi # 1st arg
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SRND = %rsi # clobbers INP
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c = %ecx
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d = %r8d
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e = %edx
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TBL = %rbp
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a = %eax
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b = %ebx
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f = %r9d
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g = %r10d
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h = %r11d
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y0 = %r13d
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y1 = %r14d
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y2 = %r15d
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_INP_END_SIZE = 8
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_INP_SIZE = 8
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_XFER_SIZE = 16
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_XMM_SAVE_SIZE = 0
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_INP_END = 0
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_INP = _INP_END + _INP_END_SIZE
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_XFER = _INP + _INP_SIZE
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_XMM_SAVE = _XFER + _XFER_SIZE
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STACK_SIZE = _XMM_SAVE + _XMM_SAVE_SIZE
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# rotate_Xs
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# Rotate values of symbols X0...X3
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.macro rotate_Xs
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X_ = X0
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X0 = X1
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X1 = X2
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X2 = X3
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X3 = X_
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.endm
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# ROTATE_ARGS
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# Rotate values of symbols a...h
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.macro ROTATE_ARGS
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TMP_ = h
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h = g
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g = f
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f = e
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e = d
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d = c
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c = b
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b = a
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a = TMP_
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.endm
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.macro FOUR_ROUNDS_AND_SCHED
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## compute s0 four at a time and s1 two at a time
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## compute W[-16] + W[-7] 4 at a time
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movdqa X3, XTMP0
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mov e, y0 # y0 = e
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ror $(25-11), y0 # y0 = e >> (25-11)
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mov a, y1 # y1 = a
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palignr $4, X2, XTMP0 # XTMP0 = W[-7]
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ror $(22-13), y1 # y1 = a >> (22-13)
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xor e, y0 # y0 = e ^ (e >> (25-11))
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mov f, y2 # y2 = f
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ror $(11-6), y0 # y0 = (e >> (11-6)) ^ (e >> (25-6))
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movdqa X1, XTMP1
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xor a, y1 # y1 = a ^ (a >> (22-13)
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xor g, y2 # y2 = f^g
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paddd X0, XTMP0 # XTMP0 = W[-7] + W[-16]
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xor e, y0 # y0 = e ^ (e >> (11-6)) ^ (e >> (25-6))
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and e, y2 # y2 = (f^g)&e
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ror $(13-2), y1 # y1 = (a >> (13-2)) ^ (a >> (22-2))
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## compute s0
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palignr $4, X0, XTMP1 # XTMP1 = W[-15]
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xor a, y1 # y1 = a ^ (a >> (13-2)) ^ (a >> (22-2))
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ror $6, y0 # y0 = S1 = (e>>6) & (e>>11) ^ (e>>25)
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xor g, y2 # y2 = CH = ((f^g)&e)^g
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movdqa XTMP1, XTMP2 # XTMP2 = W[-15]
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ror $2, y1 # y1 = S0 = (a>>2) ^ (a>>13) ^ (a>>22)
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add y0, y2 # y2 = S1 + CH
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add _XFER(%rsp) , y2 # y2 = k + w + S1 + CH
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movdqa XTMP1, XTMP3 # XTMP3 = W[-15]
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mov a, y0 # y0 = a
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add y2, h # h = h + S1 + CH + k + w
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mov a, y2 # y2 = a
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pslld $(32-7), XTMP1 #
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or c, y0 # y0 = a|c
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add h, d # d = d + h + S1 + CH + k + w
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and c, y2 # y2 = a&c
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psrld $7, XTMP2 #
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and b, y0 # y0 = (a|c)&b
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add y1, h # h = h + S1 + CH + k + w + S0
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por XTMP2, XTMP1 # XTMP1 = W[-15] ror 7
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or y2, y0 # y0 = MAJ = (a|c)&b)|(a&c)
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add y0, h # h = h + S1 + CH + k + w + S0 + MAJ
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#
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ROTATE_ARGS #
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movdqa XTMP3, XTMP2 # XTMP2 = W[-15]
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mov e, y0 # y0 = e
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mov a, y1 # y1 = a
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movdqa XTMP3, XTMP4 # XTMP4 = W[-15]
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ror $(25-11), y0 # y0 = e >> (25-11)
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xor e, y0 # y0 = e ^ (e >> (25-11))
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mov f, y2 # y2 = f
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ror $(22-13), y1 # y1 = a >> (22-13)
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pslld $(32-18), XTMP3 #
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xor a, y1 # y1 = a ^ (a >> (22-13)
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ror $(11-6), y0 # y0 = (e >> (11-6)) ^ (e >> (25-6))
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xor g, y2 # y2 = f^g
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psrld $18, XTMP2 #
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ror $(13-2), y1 # y1 = (a >> (13-2)) ^ (a >> (22-2))
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xor e, y0 # y0 = e ^ (e >> (11-6)) ^ (e >> (25-6))
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and e, y2 # y2 = (f^g)&e
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ror $6, y0 # y0 = S1 = (e>>6) & (e>>11) ^ (e>>25)
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pxor XTMP3, XTMP1
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xor a, y1 # y1 = a ^ (a >> (13-2)) ^ (a >> (22-2))
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xor g, y2 # y2 = CH = ((f^g)&e)^g
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psrld $3, XTMP4 # XTMP4 = W[-15] >> 3
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add y0, y2 # y2 = S1 + CH
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add (1*4 + _XFER)(%rsp), y2 # y2 = k + w + S1 + CH
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ror $2, y1 # y1 = S0 = (a>>2) ^ (a>>13) ^ (a>>22)
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pxor XTMP2, XTMP1 # XTMP1 = W[-15] ror 7 ^ W[-15] ror 18
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mov a, y0 # y0 = a
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add y2, h # h = h + S1 + CH + k + w
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mov a, y2 # y2 = a
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pxor XTMP4, XTMP1 # XTMP1 = s0
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or c, y0 # y0 = a|c
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add h, d # d = d + h + S1 + CH + k + w
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and c, y2 # y2 = a&c
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## compute low s1
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pshufd $0b11111010, X3, XTMP2 # XTMP2 = W[-2] {BBAA}
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and b, y0 # y0 = (a|c)&b
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add y1, h # h = h + S1 + CH + k + w + S0
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paddd XTMP1, XTMP0 # XTMP0 = W[-16] + W[-7] + s0
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or y2, y0 # y0 = MAJ = (a|c)&b)|(a&c)
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add y0, h # h = h + S1 + CH + k + w + S0 + MAJ
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ROTATE_ARGS
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movdqa XTMP2, XTMP3 # XTMP3 = W[-2] {BBAA}
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mov e, y0 # y0 = e
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mov a, y1 # y1 = a
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ror $(25-11), y0 # y0 = e >> (25-11)
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movdqa XTMP2, XTMP4 # XTMP4 = W[-2] {BBAA}
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xor e, y0 # y0 = e ^ (e >> (25-11))
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ror $(22-13), y1 # y1 = a >> (22-13)
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mov f, y2 # y2 = f
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xor a, y1 # y1 = a ^ (a >> (22-13)
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ror $(11-6), y0 # y0 = (e >> (11-6)) ^ (e >> (25-6))
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psrlq $17, XTMP2 # XTMP2 = W[-2] ror 17 {xBxA}
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xor g, y2 # y2 = f^g
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psrlq $19, XTMP3 # XTMP3 = W[-2] ror 19 {xBxA}
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xor e, y0 # y0 = e ^ (e >> (11-6)) ^ (e >> (25-6))
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and e, y2 # y2 = (f^g)&e
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psrld $10, XTMP4 # XTMP4 = W[-2] >> 10 {BBAA}
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ror $(13-2), y1 # y1 = (a >> (13-2)) ^ (a >> (22-2))
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xor a, y1 # y1 = a ^ (a >> (13-2)) ^ (a >> (22-2))
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xor g, y2 # y2 = CH = ((f^g)&e)^g
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ror $6, y0 # y0 = S1 = (e>>6) & (e>>11) ^ (e>>25)
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pxor XTMP3, XTMP2
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add y0, y2 # y2 = S1 + CH
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ror $2, y1 # y1 = S0 = (a>>2) ^ (a>>13) ^ (a>>22)
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add (2*4 + _XFER)(%rsp), y2 # y2 = k + w + S1 + CH
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pxor XTMP2, XTMP4 # XTMP4 = s1 {xBxA}
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mov a, y0 # y0 = a
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add y2, h # h = h + S1 + CH + k + w
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mov a, y2 # y2 = a
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pshufb SHUF_00BA, XTMP4 # XTMP4 = s1 {00BA}
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or c, y0 # y0 = a|c
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add h, d # d = d + h + S1 + CH + k + w
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and c, y2 # y2 = a&c
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paddd XTMP4, XTMP0 # XTMP0 = {..., ..., W[1], W[0]}
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and b, y0 # y0 = (a|c)&b
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add y1, h # h = h + S1 + CH + k + w + S0
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## compute high s1
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pshufd $0b01010000, XTMP0, XTMP2 # XTMP2 = W[-2] {BBAA}
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or y2, y0 # y0 = MAJ = (a|c)&b)|(a&c)
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add y0, h # h = h + S1 + CH + k + w + S0 + MAJ
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#
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ROTATE_ARGS #
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movdqa XTMP2, XTMP3 # XTMP3 = W[-2] {DDCC}
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mov e, y0 # y0 = e
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ror $(25-11), y0 # y0 = e >> (25-11)
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mov a, y1 # y1 = a
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movdqa XTMP2, X0 # X0 = W[-2] {DDCC}
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ror $(22-13), y1 # y1 = a >> (22-13)
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xor e, y0 # y0 = e ^ (e >> (25-11))
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mov f, y2 # y2 = f
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ror $(11-6), y0 # y0 = (e >> (11-6)) ^ (e >> (25-6))
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psrlq $17, XTMP2 # XTMP2 = W[-2] ror 17 {xDxC}
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xor a, y1 # y1 = a ^ (a >> (22-13)
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xor g, y2 # y2 = f^g
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psrlq $19, XTMP3 # XTMP3 = W[-2] ror 19 {xDxC}
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xor e, y0 # y0 = e ^ (e >> (11-6)) ^ (e >> (25
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and e, y2 # y2 = (f^g)&e
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ror $(13-2), y1 # y1 = (a >> (13-2)) ^ (a >> (22-2))
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psrld $10, X0 # X0 = W[-2] >> 10 {DDCC}
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xor a, y1 # y1 = a ^ (a >> (13-2)) ^ (a >> (22
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ror $6, y0 # y0 = S1 = (e>>6) & (e>>11) ^ (e>>2
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xor g, y2 # y2 = CH = ((f^g)&e)^g
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pxor XTMP3, XTMP2 #
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ror $2, y1 # y1 = S0 = (a>>2) ^ (a>>13) ^ (a>>2
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add y0, y2 # y2 = S1 + CH
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add (3*4 + _XFER)(%rsp), y2 # y2 = k + w + S1 + CH
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pxor XTMP2, X0 # X0 = s1 {xDxC}
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mov a, y0 # y0 = a
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add y2, h # h = h + S1 + CH + k + w
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mov a, y2 # y2 = a
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pshufb SHUF_DC00, X0 # X0 = s1 {DC00}
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or c, y0 # y0 = a|c
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add h, d # d = d + h + S1 + CH + k + w
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and c, y2 # y2 = a&c
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paddd XTMP0, X0 # X0 = {W[3], W[2], W[1], W[0]}
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and b, y0 # y0 = (a|c)&b
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add y1, h # h = h + S1 + CH + k + w + S0
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or y2, y0 # y0 = MAJ = (a|c)&b)|(a&c)
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add y0, h # h = h + S1 + CH + k + w + S0 + MAJ
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ROTATE_ARGS
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rotate_Xs
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.endm
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## input is [rsp + _XFER + %1 * 4]
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.macro DO_ROUND round
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mov e, y0 # y0 = e
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ror $(25-11), y0 # y0 = e >> (25-11)
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mov a, y1 # y1 = a
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xor e, y0 # y0 = e ^ (e >> (25-11))
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ror $(22-13), y1 # y1 = a >> (22-13)
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mov f, y2 # y2 = f
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xor a, y1 # y1 = a ^ (a >> (22-13)
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ror $(11-6), y0 # y0 = (e >> (11-6)) ^ (e >> (25-6))
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xor g, y2 # y2 = f^g
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xor e, y0 # y0 = e ^ (e >> (11-6)) ^ (e >> (25-6))
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ror $(13-2), y1 # y1 = (a >> (13-2)) ^ (a >> (22-2))
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and e, y2 # y2 = (f^g)&e
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xor a, y1 # y1 = a ^ (a >> (13-2)) ^ (a >> (22-2))
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ror $6, y0 # y0 = S1 = (e>>6) & (e>>11) ^ (e>>25)
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xor g, y2 # y2 = CH = ((f^g)&e)^g
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add y0, y2 # y2 = S1 + CH
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ror $2, y1 # y1 = S0 = (a>>2) ^ (a>>13) ^ (a>>22)
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offset = \round * 4 + _XFER
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add offset(%rsp), y2 # y2 = k + w + S1 + CH
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mov a, y0 # y0 = a
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add y2, h # h = h + S1 + CH + k + w
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mov a, y2 # y2 = a
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or c, y0 # y0 = a|c
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add h, d # d = d + h + S1 + CH + k + w
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and c, y2 # y2 = a&c
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and b, y0 # y0 = (a|c)&b
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add y1, h # h = h + S1 + CH + k + w + S0
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or y2, y0 # y0 = MAJ = (a|c)&b)|(a&c)
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add y0, h # h = h + S1 + CH + k + w + S0 + MAJ
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ROTATE_ARGS
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.endm
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########################################################################
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## void sha256_transform_ssse3(void *input_data, UINT32 digest[8], UINT64 num_blks)
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## arg 1 : pointer to digest
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## arg 2 : pointer to input data
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## arg 3 : Num blocks
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########################################################################
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.text
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ENTRY(sha256_transform_ssse3)
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.align 32
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pushq %rbx
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pushq %rbp
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pushq %r13
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pushq %r14
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pushq %r15
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pushq %r12
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mov %rsp, %r12
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subq $STACK_SIZE, %rsp
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and $~15, %rsp
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shl $6, NUM_BLKS # convert to bytes
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jz done_hash
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add INP, NUM_BLKS
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mov NUM_BLKS, _INP_END(%rsp) # pointer to end of data
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## load initial digest
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mov 4*0(CTX), a
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mov 4*1(CTX), b
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mov 4*2(CTX), c
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mov 4*3(CTX), d
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mov 4*4(CTX), e
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mov 4*5(CTX), f
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mov 4*6(CTX), g
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mov 4*7(CTX), h
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movdqa PSHUFFLE_BYTE_FLIP_MASK(%rip), BYTE_FLIP_MASK
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movdqa _SHUF_00BA(%rip), SHUF_00BA
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movdqa _SHUF_DC00(%rip), SHUF_DC00
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loop0:
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lea K256(%rip), TBL
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## byte swap first 16 dwords
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COPY_XMM_AND_BSWAP X0, 0*16(INP), BYTE_FLIP_MASK
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COPY_XMM_AND_BSWAP X1, 1*16(INP), BYTE_FLIP_MASK
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COPY_XMM_AND_BSWAP X2, 2*16(INP), BYTE_FLIP_MASK
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COPY_XMM_AND_BSWAP X3, 3*16(INP), BYTE_FLIP_MASK
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mov INP, _INP(%rsp)
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## schedule 48 input dwords, by doing 3 rounds of 16 each
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mov $3, SRND
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.align 16
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loop1:
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movdqa (TBL), XFER
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paddd X0, XFER
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movdqa XFER, _XFER(%rsp)
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FOUR_ROUNDS_AND_SCHED
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movdqa 1*16(TBL), XFER
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paddd X0, XFER
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movdqa XFER, _XFER(%rsp)
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FOUR_ROUNDS_AND_SCHED
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movdqa 2*16(TBL), XFER
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paddd X0, XFER
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movdqa XFER, _XFER(%rsp)
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FOUR_ROUNDS_AND_SCHED
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movdqa 3*16(TBL), XFER
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paddd X0, XFER
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movdqa XFER, _XFER(%rsp)
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add $4*16, TBL
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FOUR_ROUNDS_AND_SCHED
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sub $1, SRND
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jne loop1
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mov $2, SRND
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loop2:
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paddd (TBL), X0
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movdqa X0, _XFER(%rsp)
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DO_ROUND 0
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DO_ROUND 1
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DO_ROUND 2
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DO_ROUND 3
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paddd 1*16(TBL), X1
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movdqa X1, _XFER(%rsp)
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add $2*16, TBL
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DO_ROUND 0
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DO_ROUND 1
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DO_ROUND 2
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DO_ROUND 3
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movdqa X2, X0
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movdqa X3, X1
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sub $1, SRND
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jne loop2
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addm (4*0)(CTX),a
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addm (4*1)(CTX),b
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addm (4*2)(CTX),c
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addm (4*3)(CTX),d
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addm (4*4)(CTX),e
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addm (4*5)(CTX),f
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addm (4*6)(CTX),g
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addm (4*7)(CTX),h
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mov _INP(%rsp), INP
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add $64, INP
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cmp _INP_END(%rsp), INP
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jne loop0
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done_hash:
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mov %r12, %rsp
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popq %r12
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popq %r15
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popq %r14
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popq %r13
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popq %rbp
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popq %rbx
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ret
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ENDPROC(sha256_transform_ssse3)
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.section .rodata.cst256.K256, "aM", @progbits, 256
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.align 64
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K256:
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.long 0x428a2f98,0x71374491,0xb5c0fbcf,0xe9b5dba5
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.long 0x3956c25b,0x59f111f1,0x923f82a4,0xab1c5ed5
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.long 0xd807aa98,0x12835b01,0x243185be,0x550c7dc3
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.long 0x72be5d74,0x80deb1fe,0x9bdc06a7,0xc19bf174
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.long 0xe49b69c1,0xefbe4786,0x0fc19dc6,0x240ca1cc
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.long 0x2de92c6f,0x4a7484aa,0x5cb0a9dc,0x76f988da
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.long 0x983e5152,0xa831c66d,0xb00327c8,0xbf597fc7
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.long 0xc6e00bf3,0xd5a79147,0x06ca6351,0x14292967
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.long 0x27b70a85,0x2e1b2138,0x4d2c6dfc,0x53380d13
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.long 0x650a7354,0x766a0abb,0x81c2c92e,0x92722c85
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.long 0xa2bfe8a1,0xa81a664b,0xc24b8b70,0xc76c51a3
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.long 0xd192e819,0xd6990624,0xf40e3585,0x106aa070
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.long 0x19a4c116,0x1e376c08,0x2748774c,0x34b0bcb5
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.long 0x391c0cb3,0x4ed8aa4a,0x5b9cca4f,0x682e6ff3
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.long 0x748f82ee,0x78a5636f,0x84c87814,0x8cc70208
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.long 0x90befffa,0xa4506ceb,0xbef9a3f7,0xc67178f2
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.section .rodata.cst16.PSHUFFLE_BYTE_FLIP_MASK, "aM", @progbits, 16
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.align 16
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PSHUFFLE_BYTE_FLIP_MASK:
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.octa 0x0c0d0e0f08090a0b0405060700010203
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.section .rodata.cst16._SHUF_00BA, "aM", @progbits, 16
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.align 16
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# shuffle xBxA -> 00BA
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_SHUF_00BA:
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.octa 0xFFFFFFFFFFFFFFFF0b0a090803020100
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.section .rodata.cst16._SHUF_DC00, "aM", @progbits, 16
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.align 16
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# shuffle xDxC -> DC00
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_SHUF_DC00:
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.octa 0x0b0a090803020100FFFFFFFFFFFFFFFF
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