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authorArd Biesheuvel <ard.biesheuvel@linaro.org>2019-07-02 21:41:24 +0200
committerHerbert Xu <herbert@gondor.apana.org.au>2019-07-26 14:56:02 +1000
commit1d2c3279311e4f03fcf164e1366f2fda9f4bfccf (patch)
treedaa7ed11b3c4f2ad83b1f1432e27accfccd635a9
parent2c53fd11f7624658222d175ec27e6c07b20b63d0 (diff)
crypto: x86/aes - drop scalar assembler implementations
The AES assembler code for x86 isn't actually faster than code generated by the compiler from aes_generic.c, and considering the disproportionate maintenance burden of assembler code on x86, it is better just to drop it entirely. Modern x86 systems will use AES-NI anyway, and given that the modules being removed have a dependency on aes_generic already, we can remove them without running the risk of regressions. Signed-off-by: Ard Biesheuvel <ard.biesheuvel@linaro.org> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
-rw-r--r--arch/x86/crypto/Makefile4
-rw-r--r--arch/x86/crypto/aes-i586-asm_32.S362
-rw-r--r--arch/x86/crypto/aes-x86_64-asm_64.S185
-rw-r--r--arch/x86/crypto/aes_glue.c70
-rw-r--r--crypto/Kconfig44
5 files changed, 0 insertions, 665 deletions
diff --git a/arch/x86/crypto/Makefile b/arch/x86/crypto/Makefile
index 45734e1cf967..b96a14e67ab0 100644
--- a/arch/x86/crypto/Makefile
+++ b/arch/x86/crypto/Makefile
@@ -14,11 +14,9 @@ sha256_ni_supported :=$(call as-instr,sha256msg1 %xmm0$(comma)%xmm1,yes,no)
obj-$(CONFIG_CRYPTO_GLUE_HELPER_X86) += glue_helper.o
-obj-$(CONFIG_CRYPTO_AES_586) += aes-i586.o
obj-$(CONFIG_CRYPTO_TWOFISH_586) += twofish-i586.o
obj-$(CONFIG_CRYPTO_SERPENT_SSE2_586) += serpent-sse2-i586.o
-obj-$(CONFIG_CRYPTO_AES_X86_64) += aes-x86_64.o
obj-$(CONFIG_CRYPTO_DES3_EDE_X86_64) += des3_ede-x86_64.o
obj-$(CONFIG_CRYPTO_CAMELLIA_X86_64) += camellia-x86_64.o
obj-$(CONFIG_CRYPTO_BLOWFISH_X86_64) += blowfish-x86_64.o
@@ -68,11 +66,9 @@ ifeq ($(avx2_supported),yes)
obj-$(CONFIG_CRYPTO_MORUS1280_AVX2) += morus1280-avx2.o
endif
-aes-i586-y := aes-i586-asm_32.o aes_glue.o
twofish-i586-y := twofish-i586-asm_32.o twofish_glue.o
serpent-sse2-i586-y := serpent-sse2-i586-asm_32.o serpent_sse2_glue.o
-aes-x86_64-y := aes-x86_64-asm_64.o aes_glue.o
des3_ede-x86_64-y := des3_ede-asm_64.o des3_ede_glue.o
camellia-x86_64-y := camellia-x86_64-asm_64.o camellia_glue.o
blowfish-x86_64-y := blowfish-x86_64-asm_64.o blowfish_glue.o
diff --git a/arch/x86/crypto/aes-i586-asm_32.S b/arch/x86/crypto/aes-i586-asm_32.S
deleted file mode 100644
index 2849dbc59e11..000000000000
--- a/arch/x86/crypto/aes-i586-asm_32.S
+++ /dev/null
@@ -1,362 +0,0 @@
-// -------------------------------------------------------------------------
-// Copyright (c) 2001, Dr Brian Gladman < >, Worcester, UK.
-// All rights reserved.
-//
-// LICENSE TERMS
-//
-// The free distribution and use of this software in both source and binary
-// form is allowed (with or without changes) provided that:
-//
-// 1. distributions of this source code include the above copyright
-// notice, this list of conditions and the following disclaimer//
-//
-// 2. distributions in binary form include the above copyright
-// notice, this list of conditions and the following disclaimer
-// in the documentation and/or other associated materials//
-//
-// 3. the copyright holder's name is not used to endorse products
-// built using this software without specific written permission.
-//
-//
-// ALTERNATIVELY, provided that this notice is retained in full, this product
-// may be distributed under the terms of the GNU General Public License (GPL),
-// in which case the provisions of the GPL apply INSTEAD OF those given above.
-//
-// Copyright (c) 2004 Linus Torvalds <torvalds@osdl.org>
-// Copyright (c) 2004 Red Hat, Inc., James Morris <jmorris@redhat.com>
-
-// DISCLAIMER
-//
-// This software is provided 'as is' with no explicit or implied warranties
-// in respect of its properties including, but not limited to, correctness
-// and fitness for purpose.
-// -------------------------------------------------------------------------
-// Issue Date: 29/07/2002
-
-.file "aes-i586-asm.S"
-.text
-
-#include <linux/linkage.h>
-#include <asm/asm-offsets.h>
-
-#define tlen 1024 // length of each of 4 'xor' arrays (256 32-bit words)
-
-/* offsets to parameters with one register pushed onto stack */
-#define ctx 8
-#define out_blk 12
-#define in_blk 16
-
-/* offsets in crypto_aes_ctx structure */
-#define klen (480)
-#define ekey (0)
-#define dkey (240)
-
-// register mapping for encrypt and decrypt subroutines
-
-#define r0 eax
-#define r1 ebx
-#define r2 ecx
-#define r3 edx
-#define r4 esi
-#define r5 edi
-
-#define eaxl al
-#define eaxh ah
-#define ebxl bl
-#define ebxh bh
-#define ecxl cl
-#define ecxh ch
-#define edxl dl
-#define edxh dh
-
-#define _h(reg) reg##h
-#define h(reg) _h(reg)
-
-#define _l(reg) reg##l
-#define l(reg) _l(reg)
-
-// This macro takes a 32-bit word representing a column and uses
-// each of its four bytes to index into four tables of 256 32-bit
-// words to obtain values that are then xored into the appropriate
-// output registers r0, r1, r4 or r5.
-
-// Parameters:
-// table table base address
-// %1 out_state[0]
-// %2 out_state[1]
-// %3 out_state[2]
-// %4 out_state[3]
-// idx input register for the round (destroyed)
-// tmp scratch register for the round
-// sched key schedule
-
-#define do_col(table, a1,a2,a3,a4, idx, tmp) \
- movzx %l(idx),%tmp; \
- xor table(,%tmp,4),%a1; \
- movzx %h(idx),%tmp; \
- shr $16,%idx; \
- xor table+tlen(,%tmp,4),%a2; \
- movzx %l(idx),%tmp; \
- movzx %h(idx),%idx; \
- xor table+2*tlen(,%tmp,4),%a3; \
- xor table+3*tlen(,%idx,4),%a4;
-
-// initialise output registers from the key schedule
-// NB1: original value of a3 is in idx on exit
-// NB2: original values of a1,a2,a4 aren't used
-#define do_fcol(table, a1,a2,a3,a4, idx, tmp, sched) \
- mov 0 sched,%a1; \
- movzx %l(idx),%tmp; \
- mov 12 sched,%a2; \
- xor table(,%tmp,4),%a1; \
- mov 4 sched,%a4; \
- movzx %h(idx),%tmp; \
- shr $16,%idx; \
- xor table+tlen(,%tmp,4),%a2; \
- movzx %l(idx),%tmp; \
- movzx %h(idx),%idx; \
- xor table+3*tlen(,%idx,4),%a4; \
- mov %a3,%idx; \
- mov 8 sched,%a3; \
- xor table+2*tlen(,%tmp,4),%a3;
-
-// initialise output registers from the key schedule
-// NB1: original value of a3 is in idx on exit
-// NB2: original values of a1,a2,a4 aren't used
-#define do_icol(table, a1,a2,a3,a4, idx, tmp, sched) \
- mov 0 sched,%a1; \
- movzx %l(idx),%tmp; \
- mov 4 sched,%a2; \
- xor table(,%tmp,4),%a1; \
- mov 12 sched,%a4; \
- movzx %h(idx),%tmp; \
- shr $16,%idx; \
- xor table+tlen(,%tmp,4),%a2; \
- movzx %l(idx),%tmp; \
- movzx %h(idx),%idx; \
- xor table+3*tlen(,%idx,4),%a4; \
- mov %a3,%idx; \
- mov 8 sched,%a3; \
- xor table+2*tlen(,%tmp,4),%a3;
-
-
-// original Gladman had conditional saves to MMX regs.
-#define save(a1, a2) \
- mov %a2,4*a1(%esp)
-
-#define restore(a1, a2) \
- mov 4*a2(%esp),%a1
-
-// These macros perform a forward encryption cycle. They are entered with
-// the first previous round column values in r0,r1,r4,r5 and
-// exit with the final values in the same registers, using stack
-// for temporary storage.
-
-// round column values
-// on entry: r0,r1,r4,r5
-// on exit: r2,r1,r4,r5
-#define fwd_rnd1(arg, table) \
- save (0,r1); \
- save (1,r5); \
- \
- /* compute new column values */ \
- do_fcol(table, r2,r5,r4,r1, r0,r3, arg); /* idx=r0 */ \
- do_col (table, r4,r1,r2,r5, r0,r3); /* idx=r4 */ \
- restore(r0,0); \
- do_col (table, r1,r2,r5,r4, r0,r3); /* idx=r1 */ \
- restore(r0,1); \
- do_col (table, r5,r4,r1,r2, r0,r3); /* idx=r5 */
-
-// round column values
-// on entry: r2,r1,r4,r5
-// on exit: r0,r1,r4,r5
-#define fwd_rnd2(arg, table) \
- save (0,r1); \
- save (1,r5); \
- \
- /* compute new column values */ \
- do_fcol(table, r0,r5,r4,r1, r2,r3, arg); /* idx=r2 */ \
- do_col (table, r4,r1,r0,r5, r2,r3); /* idx=r4 */ \
- restore(r2,0); \
- do_col (table, r1,r0,r5,r4, r2,r3); /* idx=r1 */ \
- restore(r2,1); \
- do_col (table, r5,r4,r1,r0, r2,r3); /* idx=r5 */
-
-// These macros performs an inverse encryption cycle. They are entered with
-// the first previous round column values in r0,r1,r4,r5 and
-// exit with the final values in the same registers, using stack
-// for temporary storage
-
-// round column values
-// on entry: r0,r1,r4,r5
-// on exit: r2,r1,r4,r5
-#define inv_rnd1(arg, table) \
- save (0,r1); \
- save (1,r5); \
- \
- /* compute new column values */ \
- do_icol(table, r2,r1,r4,r5, r0,r3, arg); /* idx=r0 */ \
- do_col (table, r4,r5,r2,r1, r0,r3); /* idx=r4 */ \
- restore(r0,0); \
- do_col (table, r1,r4,r5,r2, r0,r3); /* idx=r1 */ \
- restore(r0,1); \
- do_col (table, r5,r2,r1,r4, r0,r3); /* idx=r5 */
-
-// round column values
-// on entry: r2,r1,r4,r5
-// on exit: r0,r1,r4,r5
-#define inv_rnd2(arg, table) \
- save (0,r1); \
- save (1,r5); \
- \
- /* compute new column values */ \
- do_icol(table, r0,r1,r4,r5, r2,r3, arg); /* idx=r2 */ \
- do_col (table, r4,r5,r0,r1, r2,r3); /* idx=r4 */ \
- restore(r2,0); \
- do_col (table, r1,r4,r5,r0, r2,r3); /* idx=r1 */ \
- restore(r2,1); \
- do_col (table, r5,r0,r1,r4, r2,r3); /* idx=r5 */
-
-// AES (Rijndael) Encryption Subroutine
-/* void aes_enc_blk(struct crypto_aes_ctx *ctx, u8 *out_blk, const u8 *in_blk) */
-
-.extern crypto_ft_tab
-.extern crypto_fl_tab
-
-ENTRY(aes_enc_blk)
- push %ebp
- mov ctx(%esp),%ebp
-
-// CAUTION: the order and the values used in these assigns
-// rely on the register mappings
-
-1: push %ebx
- mov in_blk+4(%esp),%r2
- push %esi
- mov klen(%ebp),%r3 // key size
- push %edi
-#if ekey != 0
- lea ekey(%ebp),%ebp // key pointer
-#endif
-
-// input four columns and xor in first round key
-
- mov (%r2),%r0
- mov 4(%r2),%r1
- mov 8(%r2),%r4
- mov 12(%r2),%r5
- xor (%ebp),%r0
- xor 4(%ebp),%r1
- xor 8(%ebp),%r4
- xor 12(%ebp),%r5
-
- sub $8,%esp // space for register saves on stack
- add $16,%ebp // increment to next round key
- cmp $24,%r3
- jb 4f // 10 rounds for 128-bit key
- lea 32(%ebp),%ebp
- je 3f // 12 rounds for 192-bit key
- lea 32(%ebp),%ebp
-
-2: fwd_rnd1( -64(%ebp), crypto_ft_tab) // 14 rounds for 256-bit key
- fwd_rnd2( -48(%ebp), crypto_ft_tab)
-3: fwd_rnd1( -32(%ebp), crypto_ft_tab) // 12 rounds for 192-bit key
- fwd_rnd2( -16(%ebp), crypto_ft_tab)
-4: fwd_rnd1( (%ebp), crypto_ft_tab) // 10 rounds for 128-bit key
- fwd_rnd2( +16(%ebp), crypto_ft_tab)
- fwd_rnd1( +32(%ebp), crypto_ft_tab)
- fwd_rnd2( +48(%ebp), crypto_ft_tab)
- fwd_rnd1( +64(%ebp), crypto_ft_tab)
- fwd_rnd2( +80(%ebp), crypto_ft_tab)
- fwd_rnd1( +96(%ebp), crypto_ft_tab)
- fwd_rnd2(+112(%ebp), crypto_ft_tab)
- fwd_rnd1(+128(%ebp), crypto_ft_tab)
- fwd_rnd2(+144(%ebp), crypto_fl_tab) // last round uses a different table
-
-// move final values to the output array. CAUTION: the
-// order of these assigns rely on the register mappings
-
- add $8,%esp
- mov out_blk+12(%esp),%ebp
- mov %r5,12(%ebp)
- pop %edi
- mov %r4,8(%ebp)
- pop %esi
- mov %r1,4(%ebp)
- pop %ebx
- mov %r0,(%ebp)
- pop %ebp
- ret
-ENDPROC(aes_enc_blk)
-
-// AES (Rijndael) Decryption Subroutine
-/* void aes_dec_blk(struct crypto_aes_ctx *ctx, u8 *out_blk, const u8 *in_blk) */
-
-.extern crypto_it_tab
-.extern crypto_il_tab
-
-ENTRY(aes_dec_blk)
- push %ebp
- mov ctx(%esp),%ebp
-
-// CAUTION: the order and the values used in these assigns
-// rely on the register mappings
-
-1: push %ebx
- mov in_blk+4(%esp),%r2
- push %esi
- mov klen(%ebp),%r3 // key size
- push %edi
-#if dkey != 0
- lea dkey(%ebp),%ebp // key pointer
-#endif
-
-// input four columns and xor in first round key
-
- mov (%r2),%r0
- mov 4(%r2),%r1
- mov 8(%r2),%r4
- mov 12(%r2),%r5
- xor (%ebp),%r0
- xor 4(%ebp),%r1
- xor 8(%ebp),%r4
- xor 12(%ebp),%r5
-
- sub $8,%esp // space for register saves on stack
- add $16,%ebp // increment to next round key
- cmp $24,%r3
- jb 4f // 10 rounds for 128-bit key
- lea 32(%ebp),%ebp
- je 3f // 12 rounds for 192-bit key
- lea 32(%ebp),%ebp
-
-2: inv_rnd1( -64(%ebp), crypto_it_tab) // 14 rounds for 256-bit key
- inv_rnd2( -48(%ebp), crypto_it_tab)
-3: inv_rnd1( -32(%ebp), crypto_it_tab) // 12 rounds for 192-bit key
- inv_rnd2( -16(%ebp), crypto_it_tab)
-4: inv_rnd1( (%ebp), crypto_it_tab) // 10 rounds for 128-bit key
- inv_rnd2( +16(%ebp), crypto_it_tab)
- inv_rnd1( +32(%ebp), crypto_it_tab)
- inv_rnd2( +48(%ebp), crypto_it_tab)
- inv_rnd1( +64(%ebp), crypto_it_tab)
- inv_rnd2( +80(%ebp), crypto_it_tab)
- inv_rnd1( +96(%ebp), crypto_it_tab)
- inv_rnd2(+112(%ebp), crypto_it_tab)
- inv_rnd1(+128(%ebp), crypto_it_tab)
- inv_rnd2(+144(%ebp), crypto_il_tab) // last round uses a different table
-
-// move final values to the output array. CAUTION: the
-// order of these assigns rely on the register mappings
-
- add $8,%esp
- mov out_blk+12(%esp),%ebp
- mov %r5,12(%ebp)
- pop %edi
- mov %r4,8(%ebp)
- pop %esi
- mov %r1,4(%ebp)
- pop %ebx
- mov %r0,(%ebp)
- pop %ebp
- ret
-ENDPROC(aes_dec_blk)
diff --git a/arch/x86/crypto/aes-x86_64-asm_64.S b/arch/x86/crypto/aes-x86_64-asm_64.S
deleted file mode 100644
index 8739cf7795de..000000000000
--- a/arch/x86/crypto/aes-x86_64-asm_64.S
+++ /dev/null
@@ -1,185 +0,0 @@
-/* AES (Rijndael) implementation (FIPS PUB 197) for x86_64
- *
- * Copyright (C) 2005 Andreas Steinmetz, <ast@domdv.de>
- *
- * License:
- * This code can be distributed under the terms of the GNU General Public
- * License (GPL) Version 2 provided that the above header down to and
- * including this sentence is retained in full.
- */
-
-.extern crypto_ft_tab
-.extern crypto_it_tab
-.extern crypto_fl_tab
-.extern crypto_il_tab
-
-.text
-
-#include <linux/linkage.h>
-#include <asm/asm-offsets.h>
-
-#define R1 %rax
-#define R1E %eax
-#define R1X %ax
-#define R1H %ah
-#define R1L %al
-#define R2 %rbx
-#define R2E %ebx
-#define R2X %bx
-#define R2H %bh
-#define R2L %bl
-#define R3 %rcx
-#define R3E %ecx
-#define R3X %cx
-#define R3H %ch
-#define R3L %cl
-#define R4 %rdx
-#define R4E %edx
-#define R4X %dx
-#define R4H %dh
-#define R4L %dl
-#define R5 %rsi
-#define R5E %esi
-#define R6 %rdi
-#define R6E %edi
-#define R7 %r9 /* don't use %rbp; it breaks stack traces */
-#define R7E %r9d
-#define R8 %r8
-#define R10 %r10
-#define R11 %r11
-
-#define prologue(FUNC,KEY,B128,B192,r1,r2,r5,r6,r7,r8,r9,r10,r11) \
- ENTRY(FUNC); \
- movq r1,r2; \
- leaq KEY+48(r8),r9; \
- movq r10,r11; \
- movl (r7),r5 ## E; \
- movl 4(r7),r1 ## E; \
- movl 8(r7),r6 ## E; \
- movl 12(r7),r7 ## E; \
- movl 480(r8),r10 ## E; \
- xorl -48(r9),r5 ## E; \
- xorl -44(r9),r1 ## E; \
- xorl -40(r9),r6 ## E; \
- xorl -36(r9),r7 ## E; \
- cmpl $24,r10 ## E; \
- jb B128; \
- leaq 32(r9),r9; \
- je B192; \
- leaq 32(r9),r9;
-
-#define epilogue(FUNC,r1,r2,r5,r6,r7,r8,r9) \
- movq r1,r2; \
- movl r5 ## E,(r9); \
- movl r6 ## E,4(r9); \
- movl r7 ## E,8(r9); \
- movl r8 ## E,12(r9); \
- ret; \
- ENDPROC(FUNC);
-
-#define round(TAB,OFFSET,r1,r2,r3,r4,r5,r6,r7,r8,ra,rb,rc,rd) \
- movzbl r2 ## H,r5 ## E; \
- movzbl r2 ## L,r6 ## E; \
- movl TAB+1024(,r5,4),r5 ## E;\
- movw r4 ## X,r2 ## X; \
- movl TAB(,r6,4),r6 ## E; \
- roll $16,r2 ## E; \
- shrl $16,r4 ## E; \
- movzbl r4 ## L,r7 ## E; \
- movzbl r4 ## H,r4 ## E; \
- xorl OFFSET(r8),ra ## E; \
- xorl OFFSET+4(r8),rb ## E; \
- xorl TAB+3072(,r4,4),r5 ## E;\
- xorl TAB+2048(,r7,4),r6 ## E;\
- movzbl r1 ## L,r7 ## E; \
- movzbl r1 ## H,r4 ## E; \
- movl TAB+1024(,r4,4),r4 ## E;\
- movw r3 ## X,r1 ## X; \
- roll $16,r1 ## E; \
- shrl $16,r3 ## E; \
- xorl TAB(,r7,4),r5 ## E; \
- movzbl r3 ## L,r7 ## E; \
- movzbl r3 ## H,r3 ## E; \
- xorl TAB+3072(,r3,4),r4 ## E;\
- xorl TAB+2048(,r7,4),r5 ## E;\
- movzbl r1 ## L,r7 ## E; \
- movzbl r1 ## H,r3 ## E; \
- shrl $16,r1 ## E; \
- xorl TAB+3072(,r3,4),r6 ## E;\
- movl TAB+2048(,r7,4),r3 ## E;\
- movzbl r1 ## L,r7 ## E; \
- movzbl r1 ## H,r1 ## E; \
- xorl TAB+1024(,r1,4),r6 ## E;\
- xorl TAB(,r7,4),r3 ## E; \
- movzbl r2 ## H,r1 ## E; \
- movzbl r2 ## L,r7 ## E; \
- shrl $16,r2 ## E; \
- xorl TAB+3072(,r1,4),r3 ## E;\
- xorl TAB+2048(,r7,4),r4 ## E;\
- movzbl r2 ## H,r1 ## E; \
- movzbl r2 ## L,r2 ## E; \
- xorl OFFSET+8(r8),rc ## E; \
- xorl OFFSET+12(r8),rd ## E; \
- xorl TAB+1024(,r1,4),r3 ## E;\
- xorl TAB(,r2,4),r4 ## E;
-
-#define move_regs(r1,r2,r3,r4) \
- movl r3 ## E,r1 ## E; \
- movl r4 ## E,r2 ## E;
-
-#define entry(FUNC,KEY,B128,B192) \
- prologue(FUNC,KEY,B128,B192,R2,R8,R1,R3,R4,R6,R10,R5,R11)
-
-#define return(FUNC) epilogue(FUNC,R8,R2,R5,R6,R3,R4,R11)
-
-#define encrypt_round(TAB,OFFSET) \
- round(TAB,OFFSET,R1,R2,R3,R4,R5,R6,R7,R10,R5,R6,R3,R4) \
- move_regs(R1,R2,R5,R6)
-
-#define encrypt_final(TAB,OFFSET) \
- round(TAB,OFFSET,R1,R2,R3,R4,R5,R6,R7,R10,R5,R6,R3,R4)
-
-#define decrypt_round(TAB,OFFSET) \
- round(TAB,OFFSET,R2,R1,R4,R3,R6,R5,R7,R10,R5,R6,R3,R4) \
- move_regs(R1,R2,R5,R6)
-
-#define decrypt_final(TAB,OFFSET) \
- round(TAB,OFFSET,R2,R1,R4,R3,R6,R5,R7,R10,R5,R6,R3,R4)
-
-/* void aes_enc_blk(stuct crypto_tfm *tfm, u8 *out, const u8 *in) */
-
- entry(aes_enc_blk,0,.Le128,.Le192)
- encrypt_round(crypto_ft_tab,-96)
- encrypt_round(crypto_ft_tab,-80)
-.Le192: encrypt_round(crypto_ft_tab,-64)
- encrypt_round(crypto_ft_tab,-48)
-.Le128: encrypt_round(crypto_ft_tab,-32)
- encrypt_round(crypto_ft_tab,-16)
- encrypt_round(crypto_ft_tab, 0)
- encrypt_round(crypto_ft_tab, 16)
- encrypt_round(crypto_ft_tab, 32)
- encrypt_round(crypto_ft_tab, 48)
- encrypt_round(crypto_ft_tab, 64)
- encrypt_round(crypto_ft_tab, 80)
- encrypt_round(crypto_ft_tab, 96)
- encrypt_final(crypto_fl_tab,112)
- return(aes_enc_blk)
-
-/* void aes_dec_blk(struct crypto_tfm *tfm, u8 *out, const u8 *in) */
-
- entry(aes_dec_blk,240,.Ld128,.Ld192)
- decrypt_round(crypto_it_tab,-96)
- decrypt_round(crypto_it_tab,-80)
-.Ld192: decrypt_round(crypto_it_tab,-64)
- decrypt_round(crypto_it_tab,-48)
-.Ld128: decrypt_round(crypto_it_tab,-32)
- decrypt_round(crypto_it_tab,-16)
- decrypt_round(crypto_it_tab, 0)
- decrypt_round(crypto_it_tab, 16)
- decrypt_round(crypto_it_tab, 32)
- decrypt_round(crypto_it_tab, 48)
- decrypt_round(crypto_it_tab, 64)
- decrypt_round(crypto_it_tab, 80)
- decrypt_round(crypto_it_tab, 96)
- decrypt_final(crypto_il_tab,112)
- return(aes_dec_blk)
diff --git a/arch/x86/crypto/aes_glue.c b/arch/x86/crypto/aes_glue.c
index 9e9d819e8bc3..7b7dc05fa1a4 100644
--- a/arch/x86/crypto/aes_glue.c
+++ b/arch/x86/crypto/aes_glue.c
@@ -1,71 +1 @@
// SPDX-License-Identifier: GPL-2.0-only
-/*
- * Glue Code for the asm optimized version of the AES Cipher Algorithm
- *
- */
-
-#include <linux/module.h>
-#include <crypto/aes.h>
-#include <asm/crypto/aes.h>
-
-asmlinkage void aes_enc_blk(struct crypto_aes_ctx *ctx, u8 *out, const u8 *in);
-asmlinkage void aes_dec_blk(struct crypto_aes_ctx *ctx, u8 *out, const u8 *in);
-
-void crypto_aes_encrypt_x86(struct crypto_aes_ctx *ctx, u8 *dst, const u8 *src)
-{
- aes_enc_blk(ctx, dst, src);
-}
-EXPORT_SYMBOL_GPL(crypto_aes_encrypt_x86);
-
-void crypto_aes_decrypt_x86(struct crypto_aes_ctx *ctx, u8 *dst, const u8 *src)
-{
- aes_dec_blk(ctx, dst, src);
-}
-EXPORT_SYMBOL_GPL(crypto_aes_decrypt_x86);
-
-static void aes_encrypt(struct crypto_tfm *tfm, u8 *dst, const u8 *src)
-{
- aes_enc_blk(crypto_tfm_ctx(tfm), dst, src);
-}
-
-static void aes_decrypt(struct crypto_tfm *tfm, u8 *dst, const u8 *src)
-{
- aes_dec_blk(crypto_tfm_ctx(tfm), dst, src);
-}
-
-static struct crypto_alg aes_alg = {
- .cra_name = "aes",
- .cra_driver_name = "aes-asm",
- .cra_priority = 200,
- .cra_flags = CRYPTO_ALG_TYPE_CIPHER,
- .cra_blocksize = AES_BLOCK_SIZE,
- .cra_ctxsize = sizeof(struct crypto_aes_ctx),
- .cra_module = THIS_MODULE,
- .cra_u = {
- .cipher = {
- .cia_min_keysize = AES_MIN_KEY_SIZE,
- .cia_max_keysize = AES_MAX_KEY_SIZE,
- .cia_setkey = crypto_aes_set_key,
- .cia_encrypt = aes_encrypt,
- .cia_decrypt = aes_decrypt
- }
- }
-};
-
-static int __init aes_init(void)
-{
- return crypto_register_alg(&aes_alg);
-}
-
-static void __exit aes_fini(void)
-{
- crypto_unregister_alg(&aes_alg);
-}
-
-module_init(aes_init);
-module_exit(aes_fini);
-
-MODULE_DESCRIPTION("Rijndael (AES) Cipher Algorithm, asm optimized");
-MODULE_LICENSE("GPL");
-MODULE_ALIAS_CRYPTO("aes");
-MODULE_ALIAS_CRYPTO("aes-asm");
diff --git a/crypto/Kconfig b/crypto/Kconfig
index 20af58068e6b..df6f0be66574 100644
--- a/crypto/Kconfig
+++ b/crypto/Kconfig
@@ -1108,50 +1108,6 @@ config CRYPTO_AES_TI
block. Interrupts are also disabled to avoid races where cachelines
are evicted when the CPU is interrupted to do something else.
-config CRYPTO_AES_586
- tristate "AES cipher algorithms (i586)"
- depends on (X86 || UML_X86) && !64BIT
- select CRYPTO_ALGAPI
- select CRYPTO_AES
- help
- AES cipher algorithms (FIPS-197). AES uses the Rijndael
- algorithm.
-
- Rijndael appears to be consistently a very good performer in
- both hardware and software across a wide range of computing
- environments regardless of its use in feedback or non-feedback
- modes. Its key setup time is excellent, and its key agility is
- good. Rijndael's very low memory requirements make it very well
- suited for restricted-space environments, in which it also
- demonstrates excellent performance. Rijndael's operations are
- among the easiest to defend against power and timing attacks.
-
- The AES specifies three key sizes: 128, 192 and 256 bits
-
- See <http://csrc.nist.gov/encryption/aes/> for more information.
-
-config CRYPTO_AES_X86_64
- tristate "AES cipher algorithms (x86_64)"
- depends on (X86 || UML_X86) && 64BIT
- select CRYPTO_ALGAPI
- select CRYPTO_AES
- help
- AES cipher algorithms (FIPS-197). AES uses the Rijndael
- algorithm.
-
- Rijndael appears to be consistently a very good performer in
- both hardware and software across a wide range of computing
- environments regardless of its use in feedback or non-feedback
- modes. Its key setup time is excellent, and its key agility is
- good. Rijndael's very low memory requirements make it very well
- suited for restricted-space environments, in which it also
- demonstrates excellent performance. Rijndael's operations are
- among the easiest to defend against power and timing attacks.
-
- The AES specifies three key sizes: 128, 192 and 256 bits
-
- See <http://csrc.nist.gov/encryption/aes/> for more information.
-
config CRYPTO_AES_NI_INTEL
tristate "AES cipher algorithms (AES-NI)"
depends on X86