;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; Copyright(c) 2011-2020 Intel Corporation All rights reserved. ; ; Redistribution and use in source and binary forms, with or without ; modification, are permitted provided that the following conditions ; are met: ; * Redistributions of source code must retain the above copyright ; notice, this list of conditions and the following disclaimer. ; * Redistributions in binary form must reproduce the above copyright ; notice, this list of conditions and the following disclaimer in ; the documentation and/or other materials provided with the ; distribution. ; * Neither the name of Intel Corporation nor the names of its ; contributors may be used to endorse or promote products derived ; from this software without specific prior written permission. ; ; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ; "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT ; LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR ; A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT ; OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, ; SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT ; LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ; DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ; THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ; (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE ; OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; XTS encrypt function with 128-bit AES ; expanded keys are not aligned ; keys are expanded in parallel with the tweak encryption ; plaintext and ciphertext are not aligned ; second key is stored in the stack as aligned to 16 Bytes ; first key is required only once, no need for storage of this key %include "reg_sizes.asm" %if (AS_FEATURE_LEVEL) >= 10 default rel %define TW rsp ; store 8 tweak values %define keys rsp + 16*8 ; store 15 expanded keys %ifidn __OUTPUT_FORMAT__, win64 %define _xmm rsp + 16*23 ; store xmm6:xmm15 %endif %ifidn __OUTPUT_FORMAT__, elf64 %define _gpr rsp + 16*23 ; store rbx %define VARIABLE_OFFSET 16*8 + 16*15 + 8*1 ; VARIABLE_OFFSET has to be an odd multiple of 8 %else %define _gpr rsp + 16*33 ; store rdi, rsi, rbx %define VARIABLE_OFFSET 16*8 + 16*15 + 16*10 + 8*3 ; VARIABLE_OFFSET has to be an odd multiple of 8 %endif %define GHASH_POLY 0x87 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;void XTS_AES_128_enc_expanded_key_vaes( ; UINT8 *k2, // key used for tweaking, 16*2 bytes ; UINT8 *k1, // key used for "ECB" encryption, 16*2 bytes ; UINT8 *TW_initial, // initial tweak value, 16 bytes ; UINT64 N, // sector size, in bytes ; const UINT8 *pt, // plaintext sector input data ; UINT8 *ct); // ciphertext sector output data ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; arguments for input parameters %ifidn __OUTPUT_FORMAT__, elf64 %xdefine ptr_key2 rdi %xdefine ptr_key1 rsi %xdefine T_val rdx %xdefine N_val rcx %xdefine ptr_plaintext r8 %xdefine ptr_ciphertext r9 %else %xdefine ptr_key2 rcx %xdefine ptr_key1 rdx %xdefine T_val r8 %xdefine N_val r9 %xdefine ptr_plaintext r10; [rsp + VARIABLE_OFFSET + 8*5] %xdefine ptr_ciphertext r11; [rsp + VARIABLE_OFFSET + 8*6] %endif ; arguments for temp parameters %ifidn __OUTPUT_FORMAT__, elf64 %define tmp1 rdi %define ghash_poly_8b r10 %define ghash_poly_8b_temp r11 %else %define tmp1 rcx %define ghash_poly_8b rdi %define ghash_poly_8b_temp rsi %endif %define twtempl rax ; global temp registers used for tweak computation %define twtemph rbx %define zpoly zmm25 ; macro to encrypt the tweak value %macro encrypt_T 8 %define %%xkey2 %1 %define %%xstate_tweak %2 %define %%xkey1 %3 %define %%xraw_key %4 %define %%xtmp %5 %define %%ptr_key2 %6 %define %%ptr_key1 %7 %define %%ptr_expanded_keys %8 vmovdqu %%xkey2, [%%ptr_key2] vpxor %%xstate_tweak, %%xkey2 ; ARK for tweak encryption vmovdqu %%xkey1, [%%ptr_key1] vmovdqa [%%ptr_expanded_keys+16*0], %%xkey1 ; store round keys in stack vmovdqu %%xkey2, [%%ptr_key2 + 16*1] vaesenc %%xstate_tweak, %%xkey2 ; round 1 for tweak encryption vmovdqu %%xkey1, [%%ptr_key1 + 16*1] vmovdqa [%%ptr_expanded_keys+16*1], %%xkey1 ; store round keys in stack vmovdqu %%xkey2, [%%ptr_key2 + 16*2] vaesenc %%xstate_tweak, %%xkey2 ; round 2 for tweak encryption vmovdqu %%xkey1, [%%ptr_key1 + 16*2] vmovdqa [%%ptr_expanded_keys+16*2], %%xkey1 ; store round keys in stack vmovdqu %%xkey2, [%%ptr_key2 + 16*3] vaesenc %%xstate_tweak, %%xkey2 ; round 3 for tweak encryption vmovdqu %%xkey1, [%%ptr_key1 + 16*3] vmovdqa [%%ptr_expanded_keys+16*3], %%xkey1 ; store round keys in stack vmovdqu %%xkey2, [%%ptr_key2 + 16*4] vaesenc %%xstate_tweak, %%xkey2 ; round 4 for tweak encryption vmovdqu %%xkey1, [%%ptr_key1 + 16*4] vmovdqa [%%ptr_expanded_keys+16*4], %%xkey1 ; store round keys in stack vmovdqu %%xkey2, [%%ptr_key2 + 16*5] vaesenc %%xstate_tweak, %%xkey2 ; round 5 for tweak encryption vmovdqu %%xkey1, [%%ptr_key1 + 16*5] vmovdqa [%%ptr_expanded_keys+16*5], %%xkey1 ; store round keys in stack vmovdqu %%xkey2, [%%ptr_key2 + 16*6] vaesenc %%xstate_tweak, %%xkey2 ; round 6 for tweak encryption vmovdqu %%xkey1, [%%ptr_key1 + 16*6] vmovdqa [%%ptr_expanded_keys+16*6], %%xkey1 ; store round keys in stack vmovdqu %%xkey2, [%%ptr_key2 + 16*7] vaesenc %%xstate_tweak, %%xkey2 ; round 7 for tweak encryption vmovdqu %%xkey1, [%%ptr_key1 + 16*7] vmovdqa [%%ptr_expanded_keys+16*7], %%xkey1 ; store round keys in stack vmovdqu %%xkey2, [%%ptr_key2 + 16*8] vaesenc %%xstate_tweak, %%xkey2 ; round 8 for tweak encryption vmovdqu %%xkey1, [%%ptr_key1 + 16*8] vmovdqa [%%ptr_expanded_keys+16*8], %%xkey1 ; store round keys in stack vmovdqu %%xkey2, [%%ptr_key2 + 16*9] vaesenc %%xstate_tweak, %%xkey2 ; round 9 for tweak encryption vmovdqu %%xkey1, [%%ptr_key1 + 16*9] vmovdqa [%%ptr_expanded_keys+16*9], %%xkey1 ; store round keys in stack vmovdqu %%xkey2, [%%ptr_key2 + 16*10] vaesenclast %%xstate_tweak, %%xkey2 ; round 10 for tweak encryption vmovdqu %%xkey1, [%%ptr_key1 + 16*10] vmovdqa [%%ptr_expanded_keys+16*10], %%xkey1 ; store round keys in stack vmovdqa [TW], %%xstate_tweak ; Store the encrypted Tweak value %endmacro ; generate initial tweak values ; load initial plaintext values %macro initialize 16 %define %%ST1 %1 ; state 1 %define %%ST2 %2 ; state 2 %define %%ST3 %3 ; state 3 %define %%ST4 %4 ; state 4 %define %%ST5 %5 ; state 5 %define %%ST6 %6 ; state 6 %define %%ST7 %7 ; state 7 %define %%ST8 %8 ; state 8 %define %%TW1 %9 ; tweak 1 %define %%TW2 %10 ; tweak 2 %define %%TW3 %11 ; tweak 3 %define %%TW4 %12 ; tweak 4 %define %%TW5 %13 ; tweak 5 %define %%TW6 %14 ; tweak 6 %define %%TW7 %15 ; tweak 7 %define %%num_initial_blocks %16 ; generate next Tweak values vmovdqa %%TW1, [TW+16*0] mov twtempl, [TW+8*0] mov twtemph, [TW+8*1] vmovdqu %%ST1, [ptr_plaintext+16*0] %if (%%num_initial_blocks>=2) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW+8*2], twtempl mov [TW+8*3], twtemph; vmovdqa %%TW2, [TW+16*1] vmovdqu %%ST2, [ptr_plaintext+16*1] %endif %if (%%num_initial_blocks>=3) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW+8*4], twtempl mov [TW+8*5], twtemph; vmovdqa %%TW3, [TW+16*2] vmovdqu %%ST3, [ptr_plaintext+16*2] %endif %if (%%num_initial_blocks>=4) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW+8*6], twtempl mov [TW+8*7], twtemph; vmovdqa %%TW4, [TW+16*3] vmovdqu %%ST4, [ptr_plaintext+16*3] %endif %if (%%num_initial_blocks>=5) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW+8*8], twtempl mov [TW+8*9], twtemph; vmovdqa %%TW5, [TW+16*4] vmovdqu %%ST5, [ptr_plaintext+16*4] %endif %if (%%num_initial_blocks>=6) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW+8*10], twtempl mov [TW+8*11], twtemph; vmovdqa %%TW6, [TW+16*5] vmovdqu %%ST6, [ptr_plaintext+16*5] %endif %if (%%num_initial_blocks>=7) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW+8*12], twtempl mov [TW+8*13], twtemph; vmovdqa %%TW7, [TW+16*6] vmovdqu %%ST7, [ptr_plaintext+16*6] %endif %endmacro ; encrypt initial blocks of AES ; 1, 2, 3, 4, 5, 6 or 7 blocks are encrypted ; next 8 Tweak values are generated %macro encrypt_initial 18 %define %%ST1 %1 ; state 1 %define %%ST2 %2 ; state 2 %define %%ST3 %3 ; state 3 %define %%ST4 %4 ; state 4 %define %%ST5 %5 ; state 5 %define %%ST6 %6 ; state 6 %define %%ST7 %7 ; state 7 %define %%ST8 %8 ; state 8 %define %%TW1 %9 ; tweak 1 %define %%TW2 %10 ; tweak 2 %define %%TW3 %11 ; tweak 3 %define %%TW4 %12 ; tweak 4 %define %%TW5 %13 ; tweak 5 %define %%TW6 %14 ; tweak 6 %define %%TW7 %15 ; tweak 7 %define %%T0 %16 ; Temp register %define %%num_blocks %17 ; %%num_blocks blocks encrypted ; %%num_blocks can be 1, 2, 3, 4, 5, 6, 7 %define %%lt128 %18 ; less than 128 bytes ; xor Tweak value vpxor %%ST1, %%TW1 %if (%%num_blocks>=2) vpxor %%ST2, %%TW2 %endif %if (%%num_blocks>=3) vpxor %%ST3, %%TW3 %endif %if (%%num_blocks>=4) vpxor %%ST4, %%TW4 %endif %if (%%num_blocks>=5) vpxor %%ST5, %%TW5 %endif %if (%%num_blocks>=6) vpxor %%ST6, %%TW6 %endif %if (%%num_blocks>=7) vpxor %%ST7, %%TW7 %endif ; ARK vmovdqa %%T0, [keys] vpxor %%ST1, %%T0 %if (%%num_blocks>=2) vpxor %%ST2, %%T0 %endif %if (%%num_blocks>=3) vpxor %%ST3, %%T0 %endif %if (%%num_blocks>=4) vpxor %%ST4, %%T0 %endif %if (%%num_blocks>=5) vpxor %%ST5, %%T0 %endif %if (%%num_blocks>=6) vpxor %%ST6, %%T0 %endif %if (%%num_blocks>=7) vpxor %%ST7, %%T0 %endif %if (0 == %%lt128) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph %endif ; round 1 vmovdqa %%T0, [keys + 16*1] vaesenc %%ST1, %%T0 %if (%%num_blocks>=2) vaesenc %%ST2, %%T0 %endif %if (%%num_blocks>=3) vaesenc %%ST3, %%T0 %endif %if (%%num_blocks>=4) vaesenc %%ST4, %%T0 %endif %if (%%num_blocks>=5) vaesenc %%ST5, %%T0 %endif %if (%%num_blocks>=6) vaesenc %%ST6, %%T0 %endif %if (%%num_blocks>=7) vaesenc %%ST7, %%T0 %endif %if (0 == %%lt128) cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW + 8*0], twtempl ; next Tweak1 generated mov [TW + 8*1], twtemph xor ghash_poly_8b_temp, ghash_poly_8b_temp %endif ; round 2 vmovdqa %%T0, [keys + 16*2] vaesenc %%ST1, %%T0 %if (%%num_blocks>=2) vaesenc %%ST2, %%T0 %endif %if (%%num_blocks>=3) vaesenc %%ST3, %%T0 %endif %if (%%num_blocks>=4) vaesenc %%ST4, %%T0 %endif %if (%%num_blocks>=5) vaesenc %%ST5, %%T0 %endif %if (%%num_blocks>=6) vaesenc %%ST6, %%T0 %endif %if (%%num_blocks>=7) vaesenc %%ST7, %%T0 %endif %if (0 == %%lt128) shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW + 8*2], twtempl ; next Tweak2 generated %endif ; round 3 vmovdqa %%T0, [keys + 16*3] vaesenc %%ST1, %%T0 %if (%%num_blocks>=2) vaesenc %%ST2, %%T0 %endif %if (%%num_blocks>=3) vaesenc %%ST3, %%T0 %endif %if (%%num_blocks>=4) vaesenc %%ST4, %%T0 %endif %if (%%num_blocks>=5) vaesenc %%ST5, %%T0 %endif %if (%%num_blocks>=6) vaesenc %%ST6, %%T0 %endif %if (%%num_blocks>=7) vaesenc %%ST7, %%T0 %endif %if (0 == %%lt128) mov [TW + 8*3], twtemph xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b %endif ; round 4 vmovdqa %%T0, [keys + 16*4] vaesenc %%ST1, %%T0 %if (%%num_blocks>=2) vaesenc %%ST2, %%T0 %endif %if (%%num_blocks>=3) vaesenc %%ST3, %%T0 %endif %if (%%num_blocks>=4) vaesenc %%ST4, %%T0 %endif %if (%%num_blocks>=5) vaesenc %%ST5, %%T0 %endif %if (%%num_blocks>=6) vaesenc %%ST6, %%T0 %endif %if (%%num_blocks>=7) vaesenc %%ST7, %%T0 %endif %if (0 == %%lt128) xor twtempl, ghash_poly_8b_temp mov [TW + 8*4], twtempl ; next Tweak3 generated mov [TW + 8*5], twtemph xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 %endif ; round 5 vmovdqa %%T0, [keys + 16*5] vaesenc %%ST1, %%T0 %if (%%num_blocks>=2) vaesenc %%ST2, %%T0 %endif %if (%%num_blocks>=3) vaesenc %%ST3, %%T0 %endif %if (%%num_blocks>=4) vaesenc %%ST4, %%T0 %endif %if (%%num_blocks>=5) vaesenc %%ST5, %%T0 %endif %if (%%num_blocks>=6) vaesenc %%ST6, %%T0 %endif %if (%%num_blocks>=7) vaesenc %%ST7, %%T0 %endif %if (0 == %%lt128) adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW + 8*6], twtempl ; next Tweak4 generated mov [TW + 8*7], twtemph %endif ; round 6 vmovdqa %%T0, [keys + 16*6] vaesenc %%ST1, %%T0 %if (%%num_blocks>=2) vaesenc %%ST2, %%T0 %endif %if (%%num_blocks>=3) vaesenc %%ST3, %%T0 %endif %if (%%num_blocks>=4) vaesenc %%ST4, %%T0 %endif %if (%%num_blocks>=5) vaesenc %%ST5, %%T0 %endif %if (%%num_blocks>=6) vaesenc %%ST6, %%T0 %endif %if (%%num_blocks>=7) vaesenc %%ST7, %%T0 %endif %if (0 == %%lt128) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW + 8*8], twtempl ; next Tweak5 generated mov [TW + 8*9], twtemph %endif ; round 7 vmovdqa %%T0, [keys + 16*7] vaesenc %%ST1, %%T0 %if (%%num_blocks>=2) vaesenc %%ST2, %%T0 %endif %if (%%num_blocks>=3) vaesenc %%ST3, %%T0 %endif %if (%%num_blocks>=4) vaesenc %%ST4, %%T0 %endif %if (%%num_blocks>=5) vaesenc %%ST5, %%T0 %endif %if (%%num_blocks>=6) vaesenc %%ST6, %%T0 %endif %if (%%num_blocks>=7) vaesenc %%ST7, %%T0 %endif %if (0 == %%lt128) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW + 8*10], twtempl ; next Tweak6 generated mov [TW + 8*11], twtemph %endif ; round 8 vmovdqa %%T0, [keys + 16*8] vaesenc %%ST1, %%T0 %if (%%num_blocks>=2) vaesenc %%ST2, %%T0 %endif %if (%%num_blocks>=3) vaesenc %%ST3, %%T0 %endif %if (%%num_blocks>=4) vaesenc %%ST4, %%T0 %endif %if (%%num_blocks>=5) vaesenc %%ST5, %%T0 %endif %if (%%num_blocks>=6) vaesenc %%ST6, %%T0 %endif %if (%%num_blocks>=7) vaesenc %%ST7, %%T0 %endif %if (0 == %%lt128) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW + 8*12], twtempl ; next Tweak7 generated mov [TW + 8*13], twtemph %endif ; round 9 vmovdqa %%T0, [keys + 16*9] vaesenc %%ST1, %%T0 %if (%%num_blocks>=2) vaesenc %%ST2, %%T0 %endif %if (%%num_blocks>=3) vaesenc %%ST3, %%T0 %endif %if (%%num_blocks>=4) vaesenc %%ST4, %%T0 %endif %if (%%num_blocks>=5) vaesenc %%ST5, %%T0 %endif %if (%%num_blocks>=6) vaesenc %%ST6, %%T0 %endif %if (%%num_blocks>=7) vaesenc %%ST7, %%T0 %endif %if (0 == %%lt128) xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW + 8*14], twtempl ; next Tweak8 generated mov [TW + 8*15], twtemph %endif ; round 10 vmovdqa %%T0, [keys + 16*10] vaesenclast %%ST1, %%T0 %if (%%num_blocks>=2) vaesenclast %%ST2, %%T0 %endif %if (%%num_blocks>=3) vaesenclast %%ST3, %%T0 %endif %if (%%num_blocks>=4) vaesenclast %%ST4, %%T0 %endif %if (%%num_blocks>=5) vaesenclast %%ST5, %%T0 %endif %if (%%num_blocks>=6) vaesenclast %%ST6, %%T0 %endif %if (%%num_blocks>=7) vaesenclast %%ST7, %%T0 %endif ; xor Tweak values vpxor %%ST1, %%TW1 %if (%%num_blocks>=2) vpxor %%ST2, %%TW2 %endif %if (%%num_blocks>=3) vpxor %%ST3, %%TW3 %endif %if (%%num_blocks>=4) vpxor %%ST4, %%TW4 %endif %if (%%num_blocks>=5) vpxor %%ST5, %%TW5 %endif %if (%%num_blocks>=6) vpxor %%ST6, %%TW6 %endif %if (%%num_blocks>=7) vpxor %%ST7, %%TW7 %endif %if (0 == %%lt128) ; load next Tweak values vmovdqa %%TW1, [TW + 16*0] vmovdqa %%TW2, [TW + 16*1] vmovdqa %%TW3, [TW + 16*2] vmovdqa %%TW4, [TW + 16*3] vmovdqa %%TW5, [TW + 16*4] vmovdqa %%TW6, [TW + 16*5] vmovdqa %%TW7, [TW + 16*6] %endif %endmacro ; Encrypt 8 blocks in parallel ; generate next 8 tweak values %macro encrypt_by_eight_zmm 6 %define %%ST1 %1 ; state 1 %define %%ST2 %2 ; state 2 %define %%TW1 %3 ; tweak 1 %define %%TW2 %4 ; tweak 2 %define %%T0 %5 ; Temp register %define %%last_eight %6 ; xor Tweak values vpxorq %%ST1, %%TW1 vpxorq %%ST2, %%TW2 ; ARK vbroadcasti32x4 %%T0, [keys] vpxorq %%ST1, %%T0 vpxorq %%ST2, %%T0 %if (0 == %%last_eight) vpsrldq zmm13, %%TW1, 15 vpclmulqdq zmm14, zmm13, zpoly, 0 vpslldq zmm15, %%TW1, 1 vpxord zmm15, zmm15, zmm14 %endif ; round 1 vbroadcasti32x4 %%T0, [keys + 16*1] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 ; round 2 vbroadcasti32x4 %%T0, [keys + 16*2] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 ; round 3 vbroadcasti32x4 %%T0, [keys + 16*3] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 %if (0 == %%last_eight) vpsrldq zmm13, %%TW2, 15 vpclmulqdq zmm14, zmm13, zpoly, 0 vpslldq zmm16, %%TW2, 1 vpxord zmm16, zmm16, zmm14 %endif ; round 4 vbroadcasti32x4 %%T0, [keys + 16*4] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 ; round 5 vbroadcasti32x4 %%T0, [keys + 16*5] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 ; round 6 vbroadcasti32x4 %%T0, [keys + 16*6] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 ; round 7 vbroadcasti32x4 %%T0, [keys + 16*7] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 ; round 8 vbroadcasti32x4 %%T0, [keys + 16*8] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 ; round 9 vbroadcasti32x4 %%T0, [keys + 16*9] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 ; round 10 vbroadcasti32x4 %%T0, [keys + 16*10] vaesenclast %%ST1, %%T0 vaesenclast %%ST2, %%T0 ; xor Tweak values vpxorq %%ST1, %%TW1 vpxorq %%ST2, %%TW2 ; load next Tweak values vmovdqa32 %%TW1, zmm15 vmovdqa32 %%TW2, zmm16 %endmacro ; Encrypt 16 blocks in parallel ; generate next 8 tweak values %macro encrypt_by_16_zmm 10 %define %%ST1 %1 ; state 1 %define %%ST2 %2 ; state 2 %define %%ST3 %3 ; state 3 %define %%ST4 %4 ; state 4 %define %%TW1 %5 ; tweak 1 %define %%TW2 %6 ; tweak 2 %define %%TW3 %7 ; tweak 3 %define %%TW4 %8 ; tweak 4 %define %%T0 %9 ; Temp register %define %%last_eight %10 ; xor Tweak values vpxorq %%ST1, %%TW1 vpxorq %%ST2, %%TW2 vpxorq %%ST3, %%TW3 vpxorq %%ST4, %%TW4 ; ARK vbroadcasti32x4 %%T0, [keys] vpxorq %%ST1, %%T0 vpxorq %%ST2, %%T0 vpxorq %%ST3, %%T0 vpxorq %%ST4, %%T0 %if (0 == %%last_eight) vpsrldq zmm13, %%TW3, 15 vpclmulqdq zmm14, zmm13, zpoly, 0 vpslldq zmm15, %%TW3, 1 vpxord zmm15, zmm15, zmm14 %endif ; round 1 vbroadcasti32x4 %%T0, [keys + 16*1] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 vaesenc %%ST3, %%T0 vaesenc %%ST4, %%T0 ; round 2 vbroadcasti32x4 %%T0, [keys + 16*2] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 vaesenc %%ST3, %%T0 vaesenc %%ST4, %%T0 ; round 3 vbroadcasti32x4 %%T0, [keys + 16*3] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 vaesenc %%ST3, %%T0 vaesenc %%ST4, %%T0 %if (0 == %%last_eight) vpsrldq zmm13, %%TW4, 15 vpclmulqdq zmm14, zmm13, zpoly, 0 vpslldq zmm16, %%TW4, 1 vpxord zmm16, zmm16, zmm14 %endif ; round 4 vbroadcasti32x4 %%T0, [keys + 16*4] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 vaesenc %%ST3, %%T0 vaesenc %%ST4, %%T0 ; round 5 vbroadcasti32x4 %%T0, [keys + 16*5] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 vaesenc %%ST3, %%T0 vaesenc %%ST4, %%T0 ; round 6 vbroadcasti32x4 %%T0, [keys + 16*6] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 vaesenc %%ST3, %%T0 vaesenc %%ST4, %%T0 %if (0 == %%last_eight) vpsrldq zmm13, zmm15, 15 vpclmulqdq zmm14, zmm13, zpoly, 0 vpslldq zmm17, zmm15, 1 vpxord zmm17, zmm17, zmm14 %endif ; round 7 vbroadcasti32x4 %%T0, [keys + 16*7] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 vaesenc %%ST3, %%T0 vaesenc %%ST4, %%T0 ; round 8 vbroadcasti32x4 %%T0, [keys + 16*8] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 vaesenc %%ST3, %%T0 vaesenc %%ST4, %%T0 ; round 9 vbroadcasti32x4 %%T0, [keys + 16*9] vaesenc %%ST1, %%T0 vaesenc %%ST2, %%T0 vaesenc %%ST3, %%T0 vaesenc %%ST4, %%T0 %if (0 == %%last_eight) vpsrldq zmm13, zmm16, 15 vpclmulqdq zmm14, zmm13, zpoly, 0 vpslldq zmm18, zmm16, 1 vpxord zmm18, zmm18, zmm14 %endif ; round 10 vbroadcasti32x4 %%T0, [keys + 16*10] vaesenclast %%ST1, %%T0 vaesenclast %%ST2, %%T0 vaesenclast %%ST3, %%T0 vaesenclast %%ST4, %%T0 ; xor Tweak values vpxorq %%ST1, %%TW1 vpxorq %%ST2, %%TW2 vpxorq %%ST3, %%TW3 vpxorq %%ST4, %%TW4 ; load next Tweak values vmovdqa32 %%TW1, zmm15 vmovdqa32 %%TW2, zmm16 vmovdqa32 %%TW3, zmm17 vmovdqa32 %%TW4, zmm18 %endmacro section .text mk_global XTS_AES_128_enc_expanded_key_vaes, function XTS_AES_128_enc_expanded_key_vaes: endbranch %define ALIGN_STACK %ifdef ALIGN_STACK push rbp mov rbp, rsp sub rsp, VARIABLE_OFFSET and rsp, ~63 %else sub rsp, VARIABLE_OFFSET %endif mov [_gpr + 8*0], rbx %ifidn __OUTPUT_FORMAT__, win64 mov [_gpr + 8*1], rdi mov [_gpr + 8*2], rsi vmovdqa [_xmm + 16*0], xmm6 vmovdqa [_xmm + 16*1], xmm7 vmovdqa [_xmm + 16*2], xmm8 vmovdqa [_xmm + 16*3], xmm9 vmovdqa [_xmm + 16*4], xmm10 vmovdqa [_xmm + 16*5], xmm11 vmovdqa [_xmm + 16*6], xmm12 vmovdqa [_xmm + 16*7], xmm13 vmovdqa [_xmm + 16*8], xmm14 vmovdqa [_xmm + 16*9], xmm15 %endif mov ghash_poly_8b, GHASH_POLY ; load 0x87 to ghash_poly_8b vmovdqu xmm1, [T_val] ; read initial Tweak value vpxor xmm4, xmm4 ; for key expansion encrypt_T xmm0, xmm1, xmm2, xmm3, xmm4, ptr_key2, ptr_key1, keys %ifidn __OUTPUT_FORMAT__, win64 mov ptr_plaintext, [rsp + VARIABLE_OFFSET + 8*5] ; plaintext pointer mov ptr_ciphertext, [rsp + VARIABLE_OFFSET + 8*6] ; ciphertext pointer %endif cmp N_val, 128 jl _less_than_128_bytes vpbroadcastq zpoly, ghash_poly_8b cmp N_val, 256 jge _start_by16 cmp N_val, 128 jge _start_by8 _do_n_blocks: cmp N_val, 0 je _ret_ cmp N_val, (7*16) jge _remaining_num_blocks_is_7 cmp N_val, (6*16) jge _remaining_num_blocks_is_6 cmp N_val, (5*16) jge _remaining_num_blocks_is_5 cmp N_val, (4*16) jge _remaining_num_blocks_is_4 cmp N_val, (3*16) jge _remaining_num_blocks_is_3 cmp N_val, (2*16) jge _remaining_num_blocks_is_2 cmp N_val, (1*16) jge _remaining_num_blocks_is_1 ;; _remaining_num_blocks_is_0: vmovdqa xmm8, xmm0 vmovdqa xmm0, xmm9 jmp _steal_cipher _remaining_num_blocks_is_7: mov tmp1, -1 shr tmp1, 16 kmovq k1, tmp1 vmovdqu8 zmm1, [ptr_plaintext+16*0] vmovdqu8 zmm2 {k1}, [ptr_plaintext+16*4] add ptr_plaintext, 16*7 encrypt_by_eight_zmm zmm1, zmm2, zmm9, zmm10, zmm0, 1 vmovdqu8 [ptr_ciphertext+16*0], zmm1 vmovdqu8 [ptr_ciphertext+16*4] {k1}, zmm2 add ptr_ciphertext, 16*7 vextracti32x4 xmm8, zmm2, 0x2 vextracti32x4 xmm0, zmm10, 0x3 and N_val, 15 je _ret_ jmp _steal_cipher _remaining_num_blocks_is_6: vmovdqu8 zmm1, [ptr_plaintext+16*0] vmovdqu8 ymm2, [ptr_plaintext+16*4] add ptr_plaintext, 16*6 encrypt_by_eight_zmm zmm1, zmm2, zmm9, zmm10, zmm0, 1 vmovdqu8 [ptr_ciphertext+16*0], zmm1 vmovdqu8 [ptr_ciphertext+16*4], ymm2 add ptr_ciphertext, 16*6 vextracti32x4 xmm8, zmm2, 0x1 vextracti32x4 xmm0, zmm10, 0x2 and N_val, 15 je _ret_ jmp _steal_cipher _remaining_num_blocks_is_5: vmovdqu8 zmm1, [ptr_plaintext+16*0] vmovdqu xmm2, [ptr_plaintext+16*4] add ptr_plaintext, 16*5 encrypt_by_eight_zmm zmm1, zmm2, zmm9, zmm10, zmm0, 1 vmovdqu8 [ptr_ciphertext+16*0], zmm1 vmovdqu [ptr_ciphertext+16*4], xmm2 add ptr_ciphertext, 16*5 movdqa xmm8, xmm2 vextracti32x4 xmm0, zmm10, 0x1 and N_val, 15 je _ret_ jmp _steal_cipher _remaining_num_blocks_is_4: vmovdqu8 zmm1, [ptr_plaintext+16*0] add ptr_plaintext, 16*4 encrypt_by_eight_zmm zmm1, zmm2, zmm9, zmm10, zmm0, 1 vmovdqu8 [ptr_ciphertext+16*0], zmm1 add ptr_ciphertext, 16*4 vextracti32x4 xmm8, zmm1, 0x3 vextracti32x4 xmm0, zmm10, 0x0 and N_val, 15 je _ret_ jmp _steal_cipher _remaining_num_blocks_is_3: vextracti32x4 xmm10, zmm9, 1 vextracti32x4 xmm11, zmm9, 2 vmovdqu xmm1, [ptr_plaintext+16*0] vmovdqu xmm2, [ptr_plaintext+16*1] vmovdqu xmm3, [ptr_plaintext+16*2] add ptr_plaintext, 16*3 encrypt_initial xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, xmm0, 3, 1 vmovdqu [ptr_ciphertext+16*0], xmm1 vmovdqu [ptr_ciphertext+16*1], xmm2 vmovdqu [ptr_ciphertext+16*2], xmm3 add ptr_ciphertext, 16*3 vmovdqa xmm8, xmm3 vextracti32x4 xmm0, zmm9, 3 and N_val, 15 je _ret_ jmp _steal_cipher _remaining_num_blocks_is_2: vextracti32x4 xmm10, zmm9, 1 vmovdqu xmm1, [ptr_plaintext+16*0] vmovdqu xmm2, [ptr_plaintext+16*1] add ptr_plaintext, 16*2 encrypt_initial xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, xmm0, 2, 1 vmovdqu [ptr_ciphertext+16*0], xmm1 vmovdqu [ptr_ciphertext+16*1], xmm2 add ptr_ciphertext, 16*2 vmovdqa xmm8, xmm2 vextracti32x4 xmm0, zmm9, 2 and N_val, 15 je _ret_ jmp _steal_cipher _remaining_num_blocks_is_1: vmovdqu xmm1, [ptr_plaintext] add ptr_plaintext, 16 encrypt_initial xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, xmm0, 1, 1 vmovdqu [ptr_ciphertext], xmm1 add ptr_ciphertext, 16 vmovdqa xmm8, xmm1 vextracti32x4 xmm0, zmm9, 1 and N_val, 15 je _ret_ jmp _steal_cipher _start_by16: ; Make first 7 tweek values vbroadcasti32x4 zmm0, [TW] vbroadcasti32x4 zmm8, [shufb_15_7] mov tmp1, 0xaa kmovq k2, tmp1 ; Mult tweak by 2^{3, 2, 1, 0} vpshufb zmm1, zmm0, zmm8 ; mov 15->0, 7->8 vpsllvq zmm4, zmm0, [const_dq3210] ; shift l 3,2,1,0 vpsrlvq zmm2, zmm1, [const_dq5678] ; shift r 5,6,7,8 vpclmulqdq zmm3, zmm2, zpoly, 0x00 vpxorq zmm4 {k2}, zmm4, zmm2 ; tweaks shifted by 3-0 vpxord zmm9, zmm3, zmm4 ; Mult tweak by 2^{7, 6, 5, 4} vpsllvq zmm5, zmm0, [const_dq7654] ; shift l 7,6,5,4 vpsrlvq zmm6, zmm1, [const_dq1234] ; shift r 1,2,3,4 vpclmulqdq zmm7, zmm6, zpoly, 0x00 vpxorq zmm5 {k2}, zmm5, zmm6 ; tweaks shifted by 7-4 vpxord zmm10, zmm7, zmm5 ; Make next 8 tweek values by all x 2^8 vpsrldq zmm13, zmm9, 15 vpclmulqdq zmm14, zmm13, zpoly, 0 vpslldq zmm11, zmm9, 1 vpxord zmm11, zmm11, zmm14 vpsrldq zmm15, zmm10, 15 vpclmulqdq zmm16, zmm15, zpoly, 0 vpslldq zmm12, zmm10, 1 vpxord zmm12, zmm12, zmm16 _main_loop_run_16: vmovdqu8 zmm1, [ptr_plaintext+16*0] vmovdqu8 zmm2, [ptr_plaintext+16*4] vmovdqu8 zmm3, [ptr_plaintext+16*8] vmovdqu8 zmm4, [ptr_plaintext+16*12] add ptr_plaintext, 256 encrypt_by_16_zmm zmm1, zmm2, zmm3, zmm4, zmm9, zmm10, zmm11, zmm12, zmm0, 0 vmovdqu8 [ptr_ciphertext+16*0], zmm1 vmovdqu8 [ptr_ciphertext+16*4], zmm2 vmovdqu8 [ptr_ciphertext+16*8], zmm3 vmovdqu8 [ptr_ciphertext+16*12], zmm4 add ptr_ciphertext, 256 sub N_val, 256 cmp N_val, 256 jge _main_loop_run_16 cmp N_val, 128 jge _main_loop_run_8 vextracti32x4 xmm0, zmm4, 0x3 ; keep last crypted block jmp _do_n_blocks _start_by8: ; Make first 7 tweek values vbroadcasti32x4 zmm0, [TW] vbroadcasti32x4 zmm8, [shufb_15_7] mov tmp1, 0xaa kmovq k2, tmp1 ; Mult tweak by 2^{3, 2, 1, 0} vpshufb zmm1, zmm0, zmm8 ; mov 15->0, 7->8 vpsllvq zmm4, zmm0, [const_dq3210] ; shift l 3,2,1,0 vpsrlvq zmm2, zmm1, [const_dq5678] ; shift r 5,6,7,8 vpclmulqdq zmm3, zmm2, zpoly, 0x00 vpxorq zmm4 {k2}, zmm4, zmm2 ; tweaks shifted by 3-0 vpxord zmm9, zmm3, zmm4 ; Mult tweak by 2^{7, 6, 5, 4} vpsllvq zmm5, zmm0, [const_dq7654] ; shift l 7,6,5,4 vpsrlvq zmm6, zmm1, [const_dq1234] ; shift r 1,2,3,4 vpclmulqdq zmm7, zmm6, zpoly, 0x00 vpxorq zmm5 {k2}, zmm5, zmm6 ; tweaks shifted by 7-4 vpxord zmm10, zmm7, zmm5 _main_loop_run_8: ; load plaintext vmovdqu8 zmm1, [ptr_plaintext+16*0] vmovdqu8 zmm2, [ptr_plaintext+16*4] add ptr_plaintext, 128 encrypt_by_eight_zmm zmm1, zmm2, zmm9, zmm10, zmm0, 0 ; store ciphertext vmovdqu8 [ptr_ciphertext+16*0], zmm1 vmovdqu8 [ptr_ciphertext+16*4], zmm2 add ptr_ciphertext, 128 sub N_val, 128 cmp N_val, 128 jge _main_loop_run_8 vextracti32x4 xmm0, zmm2, 0x3 ; keep last crypted block jmp _do_n_blocks _steal_cipher_next: ; generate next Tweak value xor ghash_poly_8b_temp, ghash_poly_8b_temp shl twtempl, 1 adc twtemph, twtemph cmovc ghash_poly_8b_temp, ghash_poly_8b xor twtempl, ghash_poly_8b_temp mov [TW], twtempl mov [TW + 8], twtemph vmovdqa xmm0, [TW] _steal_cipher: ; start cipher stealing simplified: xmm8 - last cipher block, xmm0 - next tweak vmovdqa xmm2, xmm8 ; shift xmm8 to the left by 16-N_val bytes lea twtempl, [vpshufb_shf_table] vmovdqu xmm10, [twtempl+N_val] vpshufb xmm8, xmm10 vmovdqu xmm3, [ptr_plaintext - 16 + N_val] vmovdqu [ptr_ciphertext - 16 + N_val], xmm8 ; shift xmm3 to the right by 16-N_val bytes lea twtempl, [vpshufb_shf_table +16] sub twtempl, N_val vmovdqu xmm10, [twtempl] vpxor xmm10, [mask1] vpshufb xmm3, xmm10 vpblendvb xmm3, xmm3, xmm2, xmm10 ; xor Tweak value vpxor xmm8, xmm3, xmm0 ;encrypt last block with cipher stealing vpxor xmm8, [keys] ; ARK vaesenc xmm8, [keys + 16*1] ; round 1 vaesenc xmm8, [keys + 16*2] ; round 2 vaesenc xmm8, [keys + 16*3] ; round 3 vaesenc xmm8, [keys + 16*4] ; round 4 vaesenc xmm8, [keys + 16*5] ; round 5 vaesenc xmm8, [keys + 16*6] ; round 6 vaesenc xmm8, [keys + 16*7] ; round 7 vaesenc xmm8, [keys + 16*8] ; round 8 vaesenc xmm8, [keys + 16*9] ; round 9 vaesenclast xmm8, [keys + 16*10] ; round 10 ; xor Tweak value vpxor xmm8, xmm8, xmm0 ; store last ciphertext value vmovdqu [ptr_ciphertext - 16], xmm8 _ret_: mov rbx, [_gpr + 8*0] %ifidn __OUTPUT_FORMAT__, win64 mov rdi, [_gpr + 8*1] mov rsi, [_gpr + 8*2] vmovdqa xmm6, [_xmm + 16*0] vmovdqa xmm7, [_xmm + 16*1] vmovdqa xmm8, [_xmm + 16*2] vmovdqa xmm9, [_xmm + 16*3] vmovdqa xmm10, [_xmm + 16*4] vmovdqa xmm11, [_xmm + 16*5] vmovdqa xmm12, [_xmm + 16*6] vmovdqa xmm13, [_xmm + 16*7] vmovdqa xmm14, [_xmm + 16*8] vmovdqa xmm15, [_xmm + 16*9] %endif %ifndef ALIGN_STACK add rsp, VARIABLE_OFFSET %else mov rsp, rbp pop rbp %endif ret _less_than_128_bytes: cmp N_val, 16 jb _ret_ mov tmp1, N_val and tmp1, (7 << 4) cmp tmp1, (6 << 4) je _num_blocks_is_6 cmp tmp1, (5 << 4) je _num_blocks_is_5 cmp tmp1, (4 << 4) je _num_blocks_is_4 cmp tmp1, (3 << 4) je _num_blocks_is_3 cmp tmp1, (2 << 4) je _num_blocks_is_2 cmp tmp1, (1 << 4) je _num_blocks_is_1 _num_blocks_is_7: initialize xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, 7 add ptr_plaintext, 16*7 encrypt_initial xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, xmm0, 7, 1 ; store ciphertext vmovdqu [ptr_ciphertext+16*0], xmm1 vmovdqu [ptr_ciphertext+16*1], xmm2 vmovdqu [ptr_ciphertext+16*2], xmm3 vmovdqu [ptr_ciphertext+16*3], xmm4 vmovdqu [ptr_ciphertext+16*4], xmm5 vmovdqu [ptr_ciphertext+16*5], xmm6 vmovdqu [ptr_ciphertext+16*6], xmm7 add ptr_ciphertext, 16*7 vmovdqa xmm8, xmm7 and N_val, 15 ; N_val = N_val mod 16 je _ret_ jmp _steal_cipher_next _num_blocks_is_6: initialize xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, 6 add ptr_plaintext, 16*6 encrypt_initial xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, xmm0, 6, 1 ; store ciphertext vmovdqu [ptr_ciphertext+16*0], xmm1 vmovdqu [ptr_ciphertext+16*1], xmm2 vmovdqu [ptr_ciphertext+16*2], xmm3 vmovdqu [ptr_ciphertext+16*3], xmm4 vmovdqu [ptr_ciphertext+16*4], xmm5 vmovdqu [ptr_ciphertext+16*5], xmm6 add ptr_ciphertext, 16*6 vmovdqa xmm8, xmm6 and N_val, 15 ; N_val = N_val mod 16 je _ret_ jmp _steal_cipher_next _num_blocks_is_5: initialize xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, 5 add ptr_plaintext, 16*5 encrypt_initial xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, xmm0, 5, 1 ; store ciphertext vmovdqu [ptr_ciphertext+16*0], xmm1 vmovdqu [ptr_ciphertext+16*1], xmm2 vmovdqu [ptr_ciphertext+16*2], xmm3 vmovdqu [ptr_ciphertext+16*3], xmm4 vmovdqu [ptr_ciphertext+16*4], xmm5 add ptr_ciphertext, 16*5 vmovdqa xmm8, xmm5 and N_val, 15 ; N_val = N_val mod 16 je _ret_ jmp _steal_cipher_next _num_blocks_is_4: initialize xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, 4 add ptr_plaintext, 16*4 encrypt_initial xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, xmm0, 4, 1 ; store ciphertext vmovdqu [ptr_ciphertext+16*0], xmm1 vmovdqu [ptr_ciphertext+16*1], xmm2 vmovdqu [ptr_ciphertext+16*2], xmm3 vmovdqu [ptr_ciphertext+16*3], xmm4 add ptr_ciphertext, 16*4 vmovdqa xmm8, xmm4 and N_val, 15 ; N_val = N_val mod 16 je _ret_ jmp _steal_cipher_next _num_blocks_is_3: initialize xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, 3 add ptr_plaintext, 16*3 encrypt_initial xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, xmm0, 3, 1 ; store ciphertext vmovdqu [ptr_ciphertext+16*0], xmm1 vmovdqu [ptr_ciphertext+16*1], xmm2 vmovdqu [ptr_ciphertext+16*2], xmm3 add ptr_ciphertext, 16*3 vmovdqa xmm8, xmm3 and N_val, 15 ; N_val = N_val mod 16 je _ret_ jmp _steal_cipher_next _num_blocks_is_2: initialize xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, 2 add ptr_plaintext, 16*2 encrypt_initial xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, xmm0, 2, 1 ; store ciphertext vmovdqu [ptr_ciphertext], xmm1 vmovdqu [ptr_ciphertext+16], xmm2 add ptr_ciphertext, 16*2 vmovdqa xmm8, xmm2 and N_val, 15 ; N_val = N_val mod 16 je _ret_ jmp _steal_cipher_next _num_blocks_is_1: initialize xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, 1 add ptr_plaintext, 16*1 encrypt_initial xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15, xmm0, 1, 1 vmovdqu [ptr_ciphertext], xmm1 add ptr_ciphertext, 16*1 vmovdqa xmm8, xmm1 and N_val, 15 ; N_val = N_val mod 16 je _ret_ jmp _steal_cipher_next section .data align 16 vpshufb_shf_table: ; use these values for shift constants for the vpshufb instruction ; different alignments result in values as shown: ; dq 0x8887868584838281, 0x008f8e8d8c8b8a89 ; shl 15 (16-1) / shr1 ; dq 0x8988878685848382, 0x01008f8e8d8c8b8a ; shl 14 (16-3) / shr2 ; dq 0x8a89888786858483, 0x0201008f8e8d8c8b ; shl 13 (16-4) / shr3 ; dq 0x8b8a898887868584, 0x030201008f8e8d8c ; shl 12 (16-4) / shr4 ; dq 0x8c8b8a8988878685, 0x04030201008f8e8d ; shl 11 (16-5) / shr5 ; dq 0x8d8c8b8a89888786, 0x0504030201008f8e ; shl 10 (16-6) / shr6 ; dq 0x8e8d8c8b8a898887, 0x060504030201008f ; shl 9 (16-7) / shr7 ; dq 0x8f8e8d8c8b8a8988, 0x0706050403020100 ; shl 8 (16-8) / shr8 ; dq 0x008f8e8d8c8b8a89, 0x0807060504030201 ; shl 7 (16-9) / shr9 ; dq 0x01008f8e8d8c8b8a, 0x0908070605040302 ; shl 6 (16-10) / shr10 ; dq 0x0201008f8e8d8c8b, 0x0a09080706050403 ; shl 5 (16-11) / shr11 ; dq 0x030201008f8e8d8c, 0x0b0a090807060504 ; shl 4 (16-12) / shr12 ; dq 0x04030201008f8e8d, 0x0c0b0a0908070605 ; shl 3 (16-13) / shr13 ; dq 0x0504030201008f8e, 0x0d0c0b0a09080706 ; shl 2 (16-14) / shr14 ; dq 0x060504030201008f, 0x0e0d0c0b0a090807 ; shl 1 (16-15) / shr15 dq 0x8786858483828100, 0x8f8e8d8c8b8a8988 dq 0x0706050403020100, 0x000e0d0c0b0a0908 mask1: dq 0x8080808080808080, 0x8080808080808080 const_dq3210: dq 0, 0, 1, 1, 2, 2, 3, 3 const_dq5678: dq 8, 8, 7, 7, 6, 6, 5, 5 const_dq7654: dq 4, 4, 5, 5, 6, 6, 7, 7 const_dq1234: dq 4, 4, 3, 3, 2, 2, 1, 1 shufb_15_7: db 15, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 7, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff %else ; Assembler doesn't understand these opcodes. Add empty symbol for windows. %ifidn __OUTPUT_FORMAT__, win64 global no_XTS_AES_128_enc_expanded_key_vaes no_XTS_AES_128_enc_expanded_key_vaes: %endif %endif ; (AS_FEATURE_LEVEL) >= 10