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authorSebastian Siewior <sebastian@breakpoint.cc>2007-11-10 19:07:16 +0800
committerHerbert Xu <herbert@gondor.apana.org.au>2008-01-11 08:16:10 +1100
commit5157dea8139cf0edc4834d528531e642c0d27e37 (patch)
tree33d14cadc04c60ea95449c6bdc64ec0102eb823d /arch/x86/crypto/aes-i586-asm_32.S
parentb345cee90a3ffec5eca6d6c1c59bd0d1feb453d4 (diff)
[CRYPTO] aes-i586: Remove setkey
The setkey() function can be shared with the generic algorithm. Signed-off-by: Sebastian Siewior <sebastian@breakpoint.cc> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
Diffstat (limited to 'arch/x86/crypto/aes-i586-asm_32.S')
-rw-r--r--arch/x86/crypto/aes-i586-asm_32.S89
1 files changed, 43 insertions, 46 deletions
diff --git a/arch/x86/crypto/aes-i586-asm_32.S b/arch/x86/crypto/aes-i586-asm_32.S
index f942f0c8f63..1093bede3e0 100644
--- a/arch/x86/crypto/aes-i586-asm_32.S
+++ b/arch/x86/crypto/aes-i586-asm_32.S
@@ -46,9 +46,9 @@
#define in_blk 16
/* offsets in crypto_tfm structure */
-#define ekey (crypto_tfm_ctx_offset + 0)
-#define nrnd (crypto_tfm_ctx_offset + 256)
-#define dkey (crypto_tfm_ctx_offset + 260)
+#define klen (crypto_tfm_ctx_offset + 0)
+#define ekey (crypto_tfm_ctx_offset + 4)
+#define dkey (crypto_tfm_ctx_offset + 244)
// register mapping for encrypt and decrypt subroutines
@@ -221,8 +221,8 @@
.global aes_enc_blk
-.extern ft_tab
-.extern fl_tab
+.extern crypto_ft_tab
+.extern crypto_fl_tab
.align 4
@@ -236,7 +236,7 @@ aes_enc_blk:
1: push %ebx
mov in_blk+4(%esp),%r2
push %esi
- mov nrnd(%ebp),%r3 // number of rounds
+ mov klen(%ebp),%r3 // key size
push %edi
#if ekey != 0
lea ekey(%ebp),%ebp // key pointer
@@ -255,26 +255,26 @@ aes_enc_blk:
sub $8,%esp // space for register saves on stack
add $16,%ebp // increment to next round key
- cmp $12,%r3
+ 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) ,ft_tab) // 14 rounds for 256-bit key
- fwd_rnd2( -48(%ebp) ,ft_tab)
-3: fwd_rnd1( -32(%ebp) ,ft_tab) // 12 rounds for 192-bit key
- fwd_rnd2( -16(%ebp) ,ft_tab)
-4: fwd_rnd1( (%ebp) ,ft_tab) // 10 rounds for 128-bit key
- fwd_rnd2( +16(%ebp) ,ft_tab)
- fwd_rnd1( +32(%ebp) ,ft_tab)
- fwd_rnd2( +48(%ebp) ,ft_tab)
- fwd_rnd1( +64(%ebp) ,ft_tab)
- fwd_rnd2( +80(%ebp) ,ft_tab)
- fwd_rnd1( +96(%ebp) ,ft_tab)
- fwd_rnd2(+112(%ebp) ,ft_tab)
- fwd_rnd1(+128(%ebp) ,ft_tab)
- fwd_rnd2(+144(%ebp) ,fl_tab) // last round uses a different table
+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
@@ -297,8 +297,8 @@ aes_enc_blk:
.global aes_dec_blk
-.extern it_tab
-.extern il_tab
+.extern crypto_it_tab
+.extern crypto_il_tab
.align 4
@@ -312,14 +312,11 @@ aes_dec_blk:
1: push %ebx
mov in_blk+4(%esp),%r2
push %esi
- mov nrnd(%ebp),%r3 // number of rounds
+ mov klen(%ebp),%r3 // key size
push %edi
#if dkey != 0
lea dkey(%ebp),%ebp // key pointer
#endif
- mov %r3,%r0
- shl $4,%r0
- add %r0,%ebp
// input four columns and xor in first round key
@@ -333,27 +330,27 @@ aes_dec_blk:
xor 12(%ebp),%r5
sub $8,%esp // space for register saves on stack
- sub $16,%ebp // increment to next round key
- cmp $12,%r3
+ add $16,%ebp // increment to next round key
+ cmp $24,%r3
jb 4f // 10 rounds for 128-bit key
- lea -32(%ebp),%ebp
+ lea 32(%ebp),%ebp
je 3f // 12 rounds for 192-bit key
- lea -32(%ebp),%ebp
-
-2: inv_rnd1( +64(%ebp), it_tab) // 14 rounds for 256-bit key
- inv_rnd2( +48(%ebp), it_tab)
-3: inv_rnd1( +32(%ebp), it_tab) // 12 rounds for 192-bit key
- inv_rnd2( +16(%ebp), it_tab)
-4: inv_rnd1( (%ebp), it_tab) // 10 rounds for 128-bit key
- inv_rnd2( -16(%ebp), it_tab)
- inv_rnd1( -32(%ebp), it_tab)
- inv_rnd2( -48(%ebp), it_tab)
- inv_rnd1( -64(%ebp), it_tab)
- inv_rnd2( -80(%ebp), it_tab)
- inv_rnd1( -96(%ebp), it_tab)
- inv_rnd2(-112(%ebp), it_tab)
- inv_rnd1(-128(%ebp), it_tab)
- inv_rnd2(-144(%ebp), il_tab) // last round uses a different table
+ 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