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0b1e95b2fa
The "by8" counter mode optimization is broken for 128 bit keys with input data longer than 128 bytes. It uses the wrong key material for en- and decryption. The key registers xkey0, xkey4, xkey8 and xkey12 need to be preserved in case we're handling more than 128 bytes of input data -- they won't get reloaded after the initial load. They must therefore be (a) loaded on the first iteration and (b) be preserved for the latter ones. The implementation for 128 bit keys does not comply with (a) nor (b). Fix this by bringing the implementation back to its original source and correctly load the key registers and preserve their values by *not* re-using the registers for other purposes. Kudos to James for reporting the issue and providing a test case showing the discrepancies. Reported-by: James Yonan <james@openvpn.net> Cc: Chandramouli Narayanan <mouli@linux.intel.com> Cc: <stable@vger.kernel.org> # v3.18 Signed-off-by: Mathias Krause <minipli@googlemail.com> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
581 lines
12 KiB
ArmAsm
581 lines
12 KiB
ArmAsm
/*
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* Implement AES CTR mode by8 optimization with AVX instructions. (x86_64)
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*
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* This is AES128/192/256 CTR mode optimization implementation. It requires
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* the support of Intel(R) AESNI and AVX instructions.
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*
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* This work was inspired by the AES CTR mode optimization published
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* in Intel Optimized IPSEC Cryptograhpic library.
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* Additional information on it can be found at:
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* http://downloadcenter.intel.com/Detail_Desc.aspx?agr=Y&DwnldID=22972
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*
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* This file is provided under a dual BSD/GPLv2 license. When using or
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* redistributing this file, you may do so under either license.
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*
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* GPL LICENSE SUMMARY
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*
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* Copyright(c) 2014 Intel Corporation.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of version 2 of the GNU General Public License as
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* published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* General Public License for more details.
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*
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* Contact Information:
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* James Guilford <james.guilford@intel.com>
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* Sean Gulley <sean.m.gulley@intel.com>
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* Chandramouli Narayanan <mouli@linux.intel.com>
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*
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* BSD LICENSE
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*
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* Copyright(c) 2014 Intel Corporation.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in
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* the documentation and/or other materials provided with the
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* distribution.
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* Neither the name of Intel Corporation nor the names of its
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* contributors may be used to endorse or promote products derived
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* from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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*/
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#include <linux/linkage.h>
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#include <asm/inst.h>
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#define CONCAT(a,b) a##b
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#define VMOVDQ vmovdqu
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#define xdata0 %xmm0
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#define xdata1 %xmm1
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#define xdata2 %xmm2
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#define xdata3 %xmm3
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#define xdata4 %xmm4
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#define xdata5 %xmm5
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#define xdata6 %xmm6
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#define xdata7 %xmm7
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#define xcounter %xmm8
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#define xbyteswap %xmm9
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#define xkey0 %xmm10
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#define xkey4 %xmm11
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#define xkey8 %xmm12
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#define xkey12 %xmm13
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#define xkeyA %xmm14
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#define xkeyB %xmm15
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#define p_in %rdi
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#define p_iv %rsi
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#define p_keys %rdx
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#define p_out %rcx
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#define num_bytes %r8
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#define tmp %r10
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#define DDQ(i) CONCAT(ddq_add_,i)
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#define XMM(i) CONCAT(%xmm, i)
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#define DDQ_DATA 0
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#define XDATA 1
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#define KEY_128 1
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#define KEY_192 2
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#define KEY_256 3
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.section .rodata
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.align 16
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byteswap_const:
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.octa 0x000102030405060708090A0B0C0D0E0F
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ddq_low_msk:
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.octa 0x0000000000000000FFFFFFFFFFFFFFFF
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ddq_high_add_1:
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.octa 0x00000000000000010000000000000000
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ddq_add_1:
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.octa 0x00000000000000000000000000000001
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ddq_add_2:
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.octa 0x00000000000000000000000000000002
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ddq_add_3:
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.octa 0x00000000000000000000000000000003
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ddq_add_4:
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.octa 0x00000000000000000000000000000004
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ddq_add_5:
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.octa 0x00000000000000000000000000000005
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ddq_add_6:
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.octa 0x00000000000000000000000000000006
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ddq_add_7:
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.octa 0x00000000000000000000000000000007
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ddq_add_8:
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.octa 0x00000000000000000000000000000008
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.text
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/* generate a unique variable for ddq_add_x */
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.macro setddq n
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var_ddq_add = DDQ(\n)
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.endm
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/* generate a unique variable for xmm register */
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.macro setxdata n
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var_xdata = XMM(\n)
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.endm
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/* club the numeric 'id' to the symbol 'name' */
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.macro club name, id
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.altmacro
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.if \name == DDQ_DATA
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setddq %\id
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.elseif \name == XDATA
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setxdata %\id
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.endif
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.noaltmacro
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.endm
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/*
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* do_aes num_in_par load_keys key_len
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* This increments p_in, but not p_out
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*/
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.macro do_aes b, k, key_len
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.set by, \b
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.set load_keys, \k
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.set klen, \key_len
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.if (load_keys)
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vmovdqa 0*16(p_keys), xkey0
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.endif
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vpshufb xbyteswap, xcounter, xdata0
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.set i, 1
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.rept (by - 1)
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club DDQ_DATA, i
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club XDATA, i
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vpaddq var_ddq_add(%rip), xcounter, var_xdata
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vptest ddq_low_msk(%rip), var_xdata
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jnz 1f
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vpaddq ddq_high_add_1(%rip), var_xdata, var_xdata
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vpaddq ddq_high_add_1(%rip), xcounter, xcounter
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1:
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vpshufb xbyteswap, var_xdata, var_xdata
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.set i, (i +1)
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.endr
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vmovdqa 1*16(p_keys), xkeyA
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vpxor xkey0, xdata0, xdata0
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club DDQ_DATA, by
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vpaddq var_ddq_add(%rip), xcounter, xcounter
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vptest ddq_low_msk(%rip), xcounter
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jnz 1f
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vpaddq ddq_high_add_1(%rip), xcounter, xcounter
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1:
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.set i, 1
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.rept (by - 1)
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club XDATA, i
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vpxor xkey0, var_xdata, var_xdata
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.set i, (i +1)
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.endr
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vmovdqa 2*16(p_keys), xkeyB
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.set i, 0
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.rept by
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club XDATA, i
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vaesenc xkeyA, var_xdata, var_xdata /* key 1 */
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.set i, (i +1)
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.endr
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.if (klen == KEY_128)
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.if (load_keys)
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vmovdqa 3*16(p_keys), xkey4
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.endif
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.else
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vmovdqa 3*16(p_keys), xkeyA
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.endif
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.set i, 0
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.rept by
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club XDATA, i
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vaesenc xkeyB, var_xdata, var_xdata /* key 2 */
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.set i, (i +1)
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.endr
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add $(16*by), p_in
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.if (klen == KEY_128)
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vmovdqa 4*16(p_keys), xkeyB
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.else
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.if (load_keys)
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vmovdqa 4*16(p_keys), xkey4
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.endif
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.endif
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.set i, 0
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.rept by
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club XDATA, i
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/* key 3 */
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.if (klen == KEY_128)
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vaesenc xkey4, var_xdata, var_xdata
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.else
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vaesenc xkeyA, var_xdata, var_xdata
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.endif
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.set i, (i +1)
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.endr
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vmovdqa 5*16(p_keys), xkeyA
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.set i, 0
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.rept by
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club XDATA, i
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/* key 4 */
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.if (klen == KEY_128)
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vaesenc xkeyB, var_xdata, var_xdata
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.else
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vaesenc xkey4, var_xdata, var_xdata
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.endif
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.set i, (i +1)
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.endr
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.if (klen == KEY_128)
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.if (load_keys)
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vmovdqa 6*16(p_keys), xkey8
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.endif
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.else
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vmovdqa 6*16(p_keys), xkeyB
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.endif
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.set i, 0
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.rept by
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club XDATA, i
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vaesenc xkeyA, var_xdata, var_xdata /* key 5 */
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.set i, (i +1)
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.endr
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vmovdqa 7*16(p_keys), xkeyA
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.set i, 0
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.rept by
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club XDATA, i
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/* key 6 */
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.if (klen == KEY_128)
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vaesenc xkey8, var_xdata, var_xdata
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.else
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vaesenc xkeyB, var_xdata, var_xdata
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.endif
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.set i, (i +1)
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.endr
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.if (klen == KEY_128)
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vmovdqa 8*16(p_keys), xkeyB
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.else
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.if (load_keys)
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vmovdqa 8*16(p_keys), xkey8
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.endif
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.endif
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.set i, 0
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.rept by
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club XDATA, i
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vaesenc xkeyA, var_xdata, var_xdata /* key 7 */
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.set i, (i +1)
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.endr
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.if (klen == KEY_128)
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.if (load_keys)
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vmovdqa 9*16(p_keys), xkey12
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.endif
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.else
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vmovdqa 9*16(p_keys), xkeyA
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.endif
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.set i, 0
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.rept by
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club XDATA, i
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/* key 8 */
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.if (klen == KEY_128)
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vaesenc xkeyB, var_xdata, var_xdata
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.else
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vaesenc xkey8, var_xdata, var_xdata
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.endif
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.set i, (i +1)
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.endr
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vmovdqa 10*16(p_keys), xkeyB
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.set i, 0
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.rept by
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club XDATA, i
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/* key 9 */
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.if (klen == KEY_128)
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vaesenc xkey12, var_xdata, var_xdata
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.else
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vaesenc xkeyA, var_xdata, var_xdata
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.endif
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.set i, (i +1)
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.endr
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.if (klen != KEY_128)
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vmovdqa 11*16(p_keys), xkeyA
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.endif
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.set i, 0
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.rept by
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club XDATA, i
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/* key 10 */
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.if (klen == KEY_128)
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vaesenclast xkeyB, var_xdata, var_xdata
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.else
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vaesenc xkeyB, var_xdata, var_xdata
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.endif
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.set i, (i +1)
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.endr
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.if (klen != KEY_128)
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.if (load_keys)
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vmovdqa 12*16(p_keys), xkey12
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.endif
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.set i, 0
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.rept by
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club XDATA, i
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vaesenc xkeyA, var_xdata, var_xdata /* key 11 */
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.set i, (i +1)
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.endr
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.if (klen == KEY_256)
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vmovdqa 13*16(p_keys), xkeyA
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.endif
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.set i, 0
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.rept by
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club XDATA, i
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.if (klen == KEY_256)
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/* key 12 */
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vaesenc xkey12, var_xdata, var_xdata
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.else
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vaesenclast xkey12, var_xdata, var_xdata
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.endif
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.set i, (i +1)
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.endr
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.if (klen == KEY_256)
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vmovdqa 14*16(p_keys), xkeyB
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.set i, 0
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.rept by
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club XDATA, i
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/* key 13 */
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vaesenc xkeyA, var_xdata, var_xdata
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.set i, (i +1)
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.endr
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.set i, 0
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.rept by
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club XDATA, i
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/* key 14 */
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vaesenclast xkeyB, var_xdata, var_xdata
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.set i, (i +1)
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.endr
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.endif
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.endif
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.set i, 0
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.rept (by / 2)
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.set j, (i+1)
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VMOVDQ (i*16 - 16*by)(p_in), xkeyA
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VMOVDQ (j*16 - 16*by)(p_in), xkeyB
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club XDATA, i
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vpxor xkeyA, var_xdata, var_xdata
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club XDATA, j
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vpxor xkeyB, var_xdata, var_xdata
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.set i, (i+2)
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.endr
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.if (i < by)
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VMOVDQ (i*16 - 16*by)(p_in), xkeyA
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club XDATA, i
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vpxor xkeyA, var_xdata, var_xdata
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.endif
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.set i, 0
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.rept by
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club XDATA, i
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VMOVDQ var_xdata, i*16(p_out)
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.set i, (i+1)
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.endr
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.endm
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.macro do_aes_load val, key_len
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do_aes \val, 1, \key_len
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.endm
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|
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.macro do_aes_noload val, key_len
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do_aes \val, 0, \key_len
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.endm
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/* main body of aes ctr load */
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.macro do_aes_ctrmain key_len
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cmp $16, num_bytes
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jb .Ldo_return2\key_len
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vmovdqa byteswap_const(%rip), xbyteswap
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vmovdqu (p_iv), xcounter
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vpshufb xbyteswap, xcounter, xcounter
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mov num_bytes, tmp
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and $(7*16), tmp
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jz .Lmult_of_8_blks\key_len
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/* 1 <= tmp <= 7 */
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cmp $(4*16), tmp
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jg .Lgt4\key_len
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je .Leq4\key_len
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.Llt4\key_len:
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cmp $(2*16), tmp
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jg .Leq3\key_len
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je .Leq2\key_len
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.Leq1\key_len:
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do_aes_load 1, \key_len
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add $(1*16), p_out
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and $(~7*16), num_bytes
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jz .Ldo_return2\key_len
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jmp .Lmain_loop2\key_len
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.Leq2\key_len:
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do_aes_load 2, \key_len
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add $(2*16), p_out
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and $(~7*16), num_bytes
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jz .Ldo_return2\key_len
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jmp .Lmain_loop2\key_len
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|
|
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.Leq3\key_len:
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do_aes_load 3, \key_len
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add $(3*16), p_out
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and $(~7*16), num_bytes
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jz .Ldo_return2\key_len
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jmp .Lmain_loop2\key_len
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|
|
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.Leq4\key_len:
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do_aes_load 4, \key_len
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add $(4*16), p_out
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and $(~7*16), num_bytes
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jz .Ldo_return2\key_len
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jmp .Lmain_loop2\key_len
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|
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.Lgt4\key_len:
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cmp $(6*16), tmp
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jg .Leq7\key_len
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je .Leq6\key_len
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|
|
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.Leq5\key_len:
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do_aes_load 5, \key_len
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add $(5*16), p_out
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and $(~7*16), num_bytes
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jz .Ldo_return2\key_len
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jmp .Lmain_loop2\key_len
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|
|
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.Leq6\key_len:
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do_aes_load 6, \key_len
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add $(6*16), p_out
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and $(~7*16), num_bytes
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jz .Ldo_return2\key_len
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jmp .Lmain_loop2\key_len
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|
|
|
.Leq7\key_len:
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do_aes_load 7, \key_len
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add $(7*16), p_out
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and $(~7*16), num_bytes
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jz .Ldo_return2\key_len
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jmp .Lmain_loop2\key_len
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|
|
|
.Lmult_of_8_blks\key_len:
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.if (\key_len != KEY_128)
|
|
vmovdqa 0*16(p_keys), xkey0
|
|
vmovdqa 4*16(p_keys), xkey4
|
|
vmovdqa 8*16(p_keys), xkey8
|
|
vmovdqa 12*16(p_keys), xkey12
|
|
.else
|
|
vmovdqa 0*16(p_keys), xkey0
|
|
vmovdqa 3*16(p_keys), xkey4
|
|
vmovdqa 6*16(p_keys), xkey8
|
|
vmovdqa 9*16(p_keys), xkey12
|
|
.endif
|
|
.align 16
|
|
.Lmain_loop2\key_len:
|
|
/* num_bytes is a multiple of 8 and >0 */
|
|
do_aes_noload 8, \key_len
|
|
add $(8*16), p_out
|
|
sub $(8*16), num_bytes
|
|
jne .Lmain_loop2\key_len
|
|
|
|
.Ldo_return2\key_len:
|
|
/* return updated IV */
|
|
vpshufb xbyteswap, xcounter, xcounter
|
|
vmovdqu xcounter, (p_iv)
|
|
ret
|
|
.endm
|
|
|
|
/*
|
|
* routine to do AES128 CTR enc/decrypt "by8"
|
|
* XMM registers are clobbered.
|
|
* Saving/restoring must be done at a higher level
|
|
* aes_ctr_enc_128_avx_by8(void *in, void *iv, void *keys, void *out,
|
|
* unsigned int num_bytes)
|
|
*/
|
|
ENTRY(aes_ctr_enc_128_avx_by8)
|
|
/* call the aes main loop */
|
|
do_aes_ctrmain KEY_128
|
|
|
|
ENDPROC(aes_ctr_enc_128_avx_by8)
|
|
|
|
/*
|
|
* routine to do AES192 CTR enc/decrypt "by8"
|
|
* XMM registers are clobbered.
|
|
* Saving/restoring must be done at a higher level
|
|
* aes_ctr_enc_192_avx_by8(void *in, void *iv, void *keys, void *out,
|
|
* unsigned int num_bytes)
|
|
*/
|
|
ENTRY(aes_ctr_enc_192_avx_by8)
|
|
/* call the aes main loop */
|
|
do_aes_ctrmain KEY_192
|
|
|
|
ENDPROC(aes_ctr_enc_192_avx_by8)
|
|
|
|
/*
|
|
* routine to do AES256 CTR enc/decrypt "by8"
|
|
* XMM registers are clobbered.
|
|
* Saving/restoring must be done at a higher level
|
|
* aes_ctr_enc_256_avx_by8(void *in, void *iv, void *keys, void *out,
|
|
* unsigned int num_bytes)
|
|
*/
|
|
ENTRY(aes_ctr_enc_256_avx_by8)
|
|
/* call the aes main loop */
|
|
do_aes_ctrmain KEY_256
|
|
|
|
ENDPROC(aes_ctr_enc_256_avx_by8)
|