[CRYPTO] twofish: Use rol32/ror32 where appropriate

Convert open coded rotations to rol32/ror32. Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>

[CRYPTO] twofish: Use rol32/ror32 where appropriate
Convert open coded rotations to rol32/ror32. Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
a5f8c473 · Denis Vlasenko · Herbert Xu · c4a1745a · a5f8c473
Commit a5f8c473 authored Jan 16, 2006 by Denis Vlasenko Committed by Herbert Xu Mar 21, 2006
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crypto/twofish.c crypto/twofish.c +11 -10

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--- a/crypto/twofish.c
+++ b/crypto/twofish.c
@@ -44,6 +44,7 @@
 #include <linux/types.h>
 #include <linux/errno.h>
 #include <linux/crypto.h>
+#include <linux/bitops.h>


 /* The large precomputed tables for the Twofish cipher (twofish.c)
@@ -542,9 +543,9 @@ static const u8 calc_sb_tbl[512] = {
 #define CALC_K(a, j, k, l, m, n) \
   x = CALC_K_2 (k, l, k, l, 0); \
   y = CALC_K_2 (m, n, m, n, 4); \
-   y = (y << 8) + (y >> 24); \
+   y = rol32(y, 8); \
   x += y; y += x; ctx->a[j] = x; \
-   ctx->a[(j) + 1] = (y << 9) + (y >> 23)
+   ctx->a[(j) + 1] = rol32(y, 9)

 #define CALC_K192_2(a, b, c, d, j) \
   CALC_K_2 (q0[a ^ key[(j) + 16]], \
@@ -555,9 +556,9 @@ static const u8 calc_sb_tbl[512] = {
 #define CALC_K192(a, j, k, l, m, n) \
   x = CALC_K192_2 (l, l, k, k, 0); \
   y = CALC_K192_2 (n, n, m, m, 4); \
-   y = (y << 8) + (y >> 24); \
+   y = rol32(y, 8); \
   x += y; y += x; ctx->a[j] = x; \
-   ctx->a[(j) + 1] = (y << 9) + (y >> 23)
+   ctx->a[(j) + 1] = rol32(y, 9)

 #define CALC_K256_2(a, b, j) \
   CALC_K192_2 (q1[b ^ key[(j) + 24]], \
@@ -568,9 +569,9 @@ static const u8 calc_sb_tbl[512] = {
 #define CALC_K256(a, j, k, l, m, n) \
   x = CALC_K256_2 (k, l, 0); \
   y = CALC_K256_2 (m, n, 4); \
-   y = (y << 8) + (y >> 24); \
+   y = rol32(y, 8); \
   x += y; y += x; ctx->a[j] = x; \
-   ctx->a[(j) + 1] = (y << 9) + (y >> 23)
+   ctx->a[(j) + 1] = rol32(y, 9)


 /* Macros to compute the g() function in the encryption and decryption
@@ -594,15 +595,15 @@ static const u8 calc_sb_tbl[512] = {
   x = G1 (a); y = G2 (b); \
   x += y; y += x + ctx->k[2 * (n) + 1]; \
   (c) ^= x + ctx->k[2 * (n)]; \
-   (c) = ((c) >> 1) + ((c) << 31); \
-   (d) = (((d) << 1)+((d) >> 31)) ^ y
+   (c) = ror32((c), 1); \
+   (d) = rol32((d), 1) ^ y

 #define DECROUND(n, a, b, c, d) \
   x = G1 (a); y = G2 (b); \
   x += y; y += x; \
   (d) ^= y + ctx->k[2 * (n) + 1]; \
-   (d) = ((d) >> 1) + ((d) << 31); \
-   (c) = (((c) << 1)+((c) >> 31)); \
+   (d) = ror32((d), 1); \
+   (c) = rol32((c), 1); \
   (c) ^= (x + ctx->k[2 * (n)])

 /* Encryption and decryption cycles; each one is simply two Feistel rounds