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-rw-r--r--crypto/gf128mul.c33
-rw-r--r--include/crypto/gf128mul.h55
2 files changed, 54 insertions, 34 deletions
diff --git a/crypto/gf128mul.c b/crypto/gf128mul.c
index 04facc0..dc01212 100644
--- a/crypto/gf128mul.c
+++ b/crypto/gf128mul.c
@@ -130,43 +130,12 @@ static const u16 gf128mul_table_le[256] = gf128mul_dat(xda_le);
static const u16 gf128mul_table_be[256] = gf128mul_dat(xda_be);
/*
- * The following functions multiply a field element by x or by x^8 in
+ * The following functions multiply a field element by x^8 in
* the polynomial field representation. They use 64-bit word operations
* to gain speed but compensate for machine endianness and hence work
* correctly on both styles of machine.
*/
-static void gf128mul_x_lle(be128 *r, const be128 *x)
-{
- u64 a = be64_to_cpu(x->a);
- u64 b = be64_to_cpu(x->b);
- u64 _tt = gf128mul_table_le[(b << 7) & 0xff];
-
- r->b = cpu_to_be64((b >> 1) | (a << 63));
- r->a = cpu_to_be64((a >> 1) ^ (_tt << 48));
-}
-
-static void gf128mul_x_bbe(be128 *r, const be128 *x)
-{
- u64 a = be64_to_cpu(x->a);
- u64 b = be64_to_cpu(x->b);
- u64 _tt = gf128mul_table_be[a >> 63];
-
- r->a = cpu_to_be64((a << 1) | (b >> 63));
- r->b = cpu_to_be64((b << 1) ^ _tt);
-}
-
-void gf128mul_x_ble(be128 *r, const be128 *x)
-{
- u64 a = le64_to_cpu(x->a);
- u64 b = le64_to_cpu(x->b);
- u64 _tt = gf128mul_table_be[b >> 63];
-
- r->a = cpu_to_le64((a << 1) ^ _tt);
- r->b = cpu_to_le64((b << 1) | (a >> 63));
-}
-EXPORT_SYMBOL(gf128mul_x_ble);
-
static void gf128mul_x8_lle(be128 *x)
{
u64 a = be64_to_cpu(x->a);
diff --git a/include/crypto/gf128mul.h b/include/crypto/gf128mul.h
index 0bc9b5f..35ced9d 100644
--- a/include/crypto/gf128mul.h
+++ b/include/crypto/gf128mul.h
@@ -49,6 +49,7 @@
#ifndef _CRYPTO_GF128MUL_H
#define _CRYPTO_GF128MUL_H
+#include <asm/byteorder.h>
#include <crypto/b128ops.h>
#include <linux/slab.h>
@@ -163,8 +164,58 @@ void gf128mul_lle(be128 *a, const be128 *b);
void gf128mul_bbe(be128 *a, const be128 *b);
-/* multiply by x in ble format, needed by XTS */
-void gf128mul_x_ble(be128 *a, const be128 *b);
+/*
+ * The following functions multiply a field element by x in
+ * the polynomial field representation. They use 64-bit word operations
+ * to gain speed but compensate for machine endianness and hence work
+ * correctly on both styles of machine.
+ *
+ * They are defined here for performance.
+ */
+
+static inline u64 gf128mul_mask_from_bit(u64 x, int which)
+{
+ /* a constant-time version of 'x & ((u64)1 << which) ? (u64)-1 : 0' */
+ return ((s64)(x << (63 - which)) >> 63);
+}
+
+static inline void gf128mul_x_lle(be128 *r, const be128 *x)
+{
+ u64 a = be64_to_cpu(x->a);
+ u64 b = be64_to_cpu(x->b);
+
+ /* equivalent to gf128mul_table_le[(b << 7) & 0xff] << 48
+ * (see crypto/gf128mul.c): */
+ u64 _tt = gf128mul_mask_from_bit(b, 0) & ((u64)0xe1 << 56);
+
+ r->b = cpu_to_be64((b >> 1) | (a << 63));
+ r->a = cpu_to_be64((a >> 1) ^ _tt);
+}
+
+static inline void gf128mul_x_bbe(be128 *r, const be128 *x)
+{
+ u64 a = be64_to_cpu(x->a);
+ u64 b = be64_to_cpu(x->b);
+
+ /* equivalent to gf128mul_table_be[a >> 63] (see crypto/gf128mul.c): */
+ u64 _tt = gf128mul_mask_from_bit(a, 63) & 0x87;
+
+ r->a = cpu_to_be64((a << 1) | (b >> 63));
+ r->b = cpu_to_be64((b << 1) ^ _tt);
+}
+
+/* needed by XTS */
+static inline void gf128mul_x_ble(be128 *r, const be128 *x)
+{
+ u64 a = le64_to_cpu(x->a);
+ u64 b = le64_to_cpu(x->b);
+
+ /* equivalent to gf128mul_table_be[b >> 63] (see crypto/gf128mul.c): */
+ u64 _tt = gf128mul_mask_from_bit(b, 63) & 0x87;
+
+ r->a = cpu_to_le64((a << 1) ^ _tt);
+ r->b = cpu_to_le64((b << 1) | (a >> 63));
+}
/* 4k table optimization */
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