*/
static void Round(uint64_t A[5][5], size_t i)
{
- uint64_t C[5], D[5], T[2][5];
+ uint64_t C[5], E[2]; /* registers */
+ uint64_t D[5], T[2][5]; /* memory */
assert(i < (sizeof(iotas) / sizeof(iotas[0])));
C[3] = A[0][3] ^ A[1][3] ^ A[2][3] ^ A[3][3] ^ A[4][3];
C[4] = A[0][4] ^ A[1][4] ^ A[2][4] ^ A[3][4] ^ A[4][4];
+#if defined(__arm__)
+ D[1] = E[0] = ROL64(C[2], 1) ^ C[0];
+ D[4] = E[1] = ROL64(C[0], 1) ^ C[3];
+ D[0] = C[0] = ROL64(C[1], 1) ^ C[4];
+ D[2] = C[1] = ROL64(C[3], 1) ^ C[1];
+ D[3] = C[2] = ROL64(C[4], 1) ^ C[2];
+
+ T[0][0] = A[3][0] ^ C[0]; /* borrow T[0][0] */
+ T[0][1] = A[0][1] ^ E[0]; /* D[1] */
+ T[0][2] = A[0][2] ^ C[1]; /* D[2] */
+ T[0][3] = A[0][3] ^ C[2]; /* D[3] */
+ T[0][4] = A[0][4] ^ E[1]; /* D[4] */
+
+ C[3] = ROL64(A[3][3] ^ C[2], rhotates[3][3]); /* D[3] */
+ C[4] = ROL64(A[4][4] ^ E[1], rhotates[4][4]); /* D[4] */
+ C[0] = A[0][0] ^ C[0]; /* rotate by 0 */ /* D[0] */
+ C[2] = ROL64(A[2][2] ^ C[1], rhotates[2][2]); /* D[2] */
+ C[1] = ROL64(A[1][1] ^ E[0], rhotates[1][1]); /* D[1] */
+#else
D[0] = ROL64(C[1], 1) ^ C[4];
D[1] = ROL64(C[2], 1) ^ C[0];
D[2] = ROL64(C[3], 1) ^ C[1];
D[3] = ROL64(C[4], 1) ^ C[2];
D[4] = ROL64(C[0], 1) ^ C[3];
- C[0] = A[0][0] ^ D[0]; /* rotate by 0 */
- C[1] = ROL64(A[1][1] ^ D[1], rhotates[1][1]);
- C[2] = ROL64(A[2][2] ^ D[2], rhotates[2][2]);
- C[3] = ROL64(A[3][3] ^ D[3], rhotates[3][3]);
- C[4] = ROL64(A[4][4] ^ D[4], rhotates[4][4]);
-
T[0][0] = A[3][0] ^ D[0]; /* borrow T[0][0] */
T[0][1] = A[0][1] ^ D[1];
T[0][2] = A[0][2] ^ D[2];
T[0][3] = A[0][3] ^ D[3];
T[0][4] = A[0][4] ^ D[4];
+ C[0] = A[0][0] ^ D[0]; /* rotate by 0 */
+ C[1] = ROL64(A[1][1] ^ D[1], rhotates[1][1]);
+ C[2] = ROL64(A[2][2] ^ D[2], rhotates[2][2]);
+ C[3] = ROL64(A[3][3] ^ D[3], rhotates[3][3]);
+ C[4] = ROL64(A[4][4] ^ D[4], rhotates[4][4]);
+#endif
A[0][0] = C[0] ^ (~C[1] & C[2]) ^ iotas[i];
A[0][1] = C[1] ^ (~C[2] & C[3]);
A[0][2] = C[2] ^ (~C[3] & C[4]);
A[0][3] = C[3] ^ (~C[4] & C[0]);
A[0][4] = C[4] ^ (~C[0] & C[1]);
- C[0] = ROL64(T[0][3], rhotates[0][3]);
- C[1] = ROL64(A[1][4] ^ D[4], rhotates[1][4]);
- C[2] = ROL64(A[2][0] ^ D[0], rhotates[2][0]);
- C[3] = ROL64(A[3][1] ^ D[1], rhotates[3][1]);
- C[4] = ROL64(A[4][2] ^ D[2], rhotates[4][2]);
+ T[1][0] = A[1][0] ^ (C[3] = D[0]);
+ T[1][1] = A[2][1] ^ (C[4] = D[1]); /* borrow T[1][1] */
+ T[1][2] = A[1][2] ^ (E[0] = D[2]);
+ T[1][3] = A[1][3] ^ (E[1] = D[3]);
+ T[1][4] = A[2][4] ^ (C[2] = D[4]); /* borrow T[1][4] */
- T[1][0] = A[1][0] ^ D[0];
- T[1][1] = A[2][1] ^ D[1]; /* borrow T[1][1] */
- T[1][2] = A[1][2] ^ D[2];
- T[1][3] = A[1][3] ^ D[3];
- T[1][4] = A[2][4] ^ D[4]; /* borrow T[1][4] */
+ C[0] = ROL64(T[0][3], rhotates[0][3]);
+ C[1] = ROL64(A[1][4] ^ C[2], rhotates[1][4]); /* D[4] */
+ C[2] = ROL64(A[2][0] ^ C[3], rhotates[2][0]); /* D[0] */
+ C[3] = ROL64(A[3][1] ^ C[4], rhotates[3][1]); /* D[1] */
+ C[4] = ROL64(A[4][2] ^ E[0], rhotates[4][2]); /* D[2] */
A[1][0] = C[0] ^ (~C[1] & C[2]);
A[1][1] = C[1] ^ (~C[2] & C[3]);
/*
* SHA3_absorb can be called multiple times, but at each invocation
* largest multiple of |r| out of |len| bytes are processed. Then
- * remaining amount of bytes are returned. This is done to spare caller
- * trouble of calculating the largest multiple of |r|, effectively the
- * blocksize. It is commonly (1600 - 256*n)/8, e.g. 168, 136, 104, 72,
- * but can also be (1600 - 448)/8 = 144. All this means that message
+ * remaining amount of bytes is returned. This is done to spare caller
+ * trouble of calculating the largest multiple of |r|. |r| can be viewed
+ * as blocksize. It is commonly (1600 - 256*n)/8, e.g. 168, 136, 104,
+ * 72, but can also be (1600 - 448)/8 = 144. All this means that message
* padding and intermediate sub-block buffering, byte- or bitwise, is
* caller's reponsibility.
*/
projects / openssl.git / blobdiff