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07bf44f869
Intel AES-NI AES acceleration instructions touch XMM state, to use that in soft_irq context, general x86 AES implementation is used as fallback. The first parameter is changed from struct crypto_tfm * to struct crypto_aes_ctx * to make it easier to deal with 16 bytes alignment requirement of AES-NI implementation. Signed-off-by: Huang Ying <ying.huang@intel.com> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
189 lines
4.7 KiB
ArmAsm
189 lines
4.7 KiB
ArmAsm
/* AES (Rijndael) implementation (FIPS PUB 197) for x86_64
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*
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* Copyright (C) 2005 Andreas Steinmetz, <ast@domdv.de>
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*
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* License:
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* This code can be distributed under the terms of the GNU General Public
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* License (GPL) Version 2 provided that the above header down to and
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* including this sentence is retained in full.
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*/
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.extern crypto_ft_tab
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.extern crypto_it_tab
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.extern crypto_fl_tab
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.extern crypto_il_tab
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.text
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#include <asm/asm-offsets.h>
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#define R1 %rax
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#define R1E %eax
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#define R1X %ax
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#define R1H %ah
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#define R1L %al
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#define R2 %rbx
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#define R2E %ebx
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#define R2X %bx
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#define R2H %bh
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#define R2L %bl
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#define R3 %rcx
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#define R3E %ecx
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#define R3X %cx
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#define R3H %ch
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#define R3L %cl
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#define R4 %rdx
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#define R4E %edx
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#define R4X %dx
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#define R4H %dh
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#define R4L %dl
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#define R5 %rsi
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#define R5E %esi
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#define R6 %rdi
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#define R6E %edi
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#define R7 %rbp
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#define R7E %ebp
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#define R8 %r8
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#define R9 %r9
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#define R10 %r10
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#define R11 %r11
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#define prologue(FUNC,KEY,B128,B192,r1,r2,r3,r4,r5,r6,r7,r8,r9,r10,r11) \
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.global FUNC; \
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.type FUNC,@function; \
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.align 8; \
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FUNC: movq r1,r2; \
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movq r3,r4; \
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leaq KEY+48(r8),r9; \
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movq r10,r11; \
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movl (r7),r5 ## E; \
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movl 4(r7),r1 ## E; \
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movl 8(r7),r6 ## E; \
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movl 12(r7),r7 ## E; \
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movl 480(r8),r10 ## E; \
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xorl -48(r9),r5 ## E; \
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xorl -44(r9),r1 ## E; \
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xorl -40(r9),r6 ## E; \
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xorl -36(r9),r7 ## E; \
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cmpl $24,r10 ## E; \
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jb B128; \
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leaq 32(r9),r9; \
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je B192; \
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leaq 32(r9),r9;
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#define epilogue(r1,r2,r3,r4,r5,r6,r7,r8,r9) \
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movq r1,r2; \
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movq r3,r4; \
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movl r5 ## E,(r9); \
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movl r6 ## E,4(r9); \
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movl r7 ## E,8(r9); \
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movl r8 ## E,12(r9); \
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ret;
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#define round(TAB,OFFSET,r1,r2,r3,r4,r5,r6,r7,r8,ra,rb,rc,rd) \
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movzbl r2 ## H,r5 ## E; \
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movzbl r2 ## L,r6 ## E; \
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movl TAB+1024(,r5,4),r5 ## E;\
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movw r4 ## X,r2 ## X; \
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movl TAB(,r6,4),r6 ## E; \
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roll $16,r2 ## E; \
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shrl $16,r4 ## E; \
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movzbl r4 ## H,r7 ## E; \
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movzbl r4 ## L,r4 ## E; \
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xorl OFFSET(r8),ra ## E; \
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xorl OFFSET+4(r8),rb ## E; \
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xorl TAB+3072(,r7,4),r5 ## E;\
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xorl TAB+2048(,r4,4),r6 ## E;\
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movzbl r1 ## L,r7 ## E; \
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movzbl r1 ## H,r4 ## E; \
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movl TAB+1024(,r4,4),r4 ## E;\
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movw r3 ## X,r1 ## X; \
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roll $16,r1 ## E; \
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shrl $16,r3 ## E; \
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xorl TAB(,r7,4),r5 ## E; \
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movzbl r3 ## H,r7 ## E; \
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movzbl r3 ## L,r3 ## E; \
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xorl TAB+3072(,r7,4),r4 ## E;\
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xorl TAB+2048(,r3,4),r5 ## E;\
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movzbl r1 ## H,r7 ## E; \
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movzbl r1 ## L,r3 ## E; \
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shrl $16,r1 ## E; \
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xorl TAB+3072(,r7,4),r6 ## E;\
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movl TAB+2048(,r3,4),r3 ## E;\
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movzbl r1 ## H,r7 ## E; \
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movzbl r1 ## L,r1 ## E; \
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xorl TAB+1024(,r7,4),r6 ## E;\
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xorl TAB(,r1,4),r3 ## E; \
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movzbl r2 ## H,r1 ## E; \
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movzbl r2 ## L,r7 ## E; \
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shrl $16,r2 ## E; \
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xorl TAB+3072(,r1,4),r3 ## E;\
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xorl TAB+2048(,r7,4),r4 ## E;\
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movzbl r2 ## H,r1 ## E; \
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movzbl r2 ## L,r2 ## E; \
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xorl OFFSET+8(r8),rc ## E; \
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xorl OFFSET+12(r8),rd ## E; \
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xorl TAB+1024(,r1,4),r3 ## E;\
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xorl TAB(,r2,4),r4 ## E;
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#define move_regs(r1,r2,r3,r4) \
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movl r3 ## E,r1 ## E; \
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movl r4 ## E,r2 ## E;
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#define entry(FUNC,KEY,B128,B192) \
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prologue(FUNC,KEY,B128,B192,R2,R8,R7,R9,R1,R3,R4,R6,R10,R5,R11)
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#define return epilogue(R8,R2,R9,R7,R5,R6,R3,R4,R11)
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#define encrypt_round(TAB,OFFSET) \
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round(TAB,OFFSET,R1,R2,R3,R4,R5,R6,R7,R10,R5,R6,R3,R4) \
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move_regs(R1,R2,R5,R6)
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#define encrypt_final(TAB,OFFSET) \
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round(TAB,OFFSET,R1,R2,R3,R4,R5,R6,R7,R10,R5,R6,R3,R4)
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#define decrypt_round(TAB,OFFSET) \
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round(TAB,OFFSET,R2,R1,R4,R3,R6,R5,R7,R10,R5,R6,R3,R4) \
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move_regs(R1,R2,R5,R6)
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#define decrypt_final(TAB,OFFSET) \
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round(TAB,OFFSET,R2,R1,R4,R3,R6,R5,R7,R10,R5,R6,R3,R4)
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/* void aes_enc_blk(stuct crypto_tfm *tfm, u8 *out, const u8 *in) */
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entry(aes_enc_blk,0,enc128,enc192)
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encrypt_round(crypto_ft_tab,-96)
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encrypt_round(crypto_ft_tab,-80)
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enc192: encrypt_round(crypto_ft_tab,-64)
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encrypt_round(crypto_ft_tab,-48)
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enc128: encrypt_round(crypto_ft_tab,-32)
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encrypt_round(crypto_ft_tab,-16)
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encrypt_round(crypto_ft_tab, 0)
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encrypt_round(crypto_ft_tab, 16)
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encrypt_round(crypto_ft_tab, 32)
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encrypt_round(crypto_ft_tab, 48)
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encrypt_round(crypto_ft_tab, 64)
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encrypt_round(crypto_ft_tab, 80)
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encrypt_round(crypto_ft_tab, 96)
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encrypt_final(crypto_fl_tab,112)
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return
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/* void aes_dec_blk(struct crypto_tfm *tfm, u8 *out, const u8 *in) */
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entry(aes_dec_blk,240,dec128,dec192)
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decrypt_round(crypto_it_tab,-96)
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decrypt_round(crypto_it_tab,-80)
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dec192: decrypt_round(crypto_it_tab,-64)
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decrypt_round(crypto_it_tab,-48)
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dec128: decrypt_round(crypto_it_tab,-32)
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decrypt_round(crypto_it_tab,-16)
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decrypt_round(crypto_it_tab, 0)
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decrypt_round(crypto_it_tab, 16)
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decrypt_round(crypto_it_tab, 32)
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decrypt_round(crypto_it_tab, 48)
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decrypt_round(crypto_it_tab, 64)
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decrypt_round(crypto_it_tab, 80)
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decrypt_round(crypto_it_tab, 96)
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decrypt_final(crypto_il_tab,112)
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return
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