staging: skein: Whitespace cleanup
Pretties up multiline #defines and many other whitespace issues Signed-off-by: Eric Rost <eric.rost@mybabylon.net> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
This commit is contained in:
Eric Rost
Greg Kroah-Hartman
parent
9246a4a98a
commit
6ffb16475c
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@ -26,15 +26,18 @@
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#define SKEIN_LOOP 001 /* default: unroll 256 and 512, but not 1024 */
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#endif
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#define BLK_BITS (WCNT*64) /* some useful definitions for code here */
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#define BLK_BITS (WCNT * 64) /* some useful definitions for code here */
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#define KW_TWK_BASE (0)
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#define KW_KEY_BASE (3)
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#define ks (kw + KW_KEY_BASE)
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#define ts (kw + KW_TWK_BASE)
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#ifdef SKEIN_DEBUG
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#define debug_save_tweak(ctx) { \
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ctx->h.tweak[0] = ts[0]; ctx->h.tweak[1] = ts[1]; }
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#define debug_save_tweak(ctx) \
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{ \
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ctx->h.tweak[0] = ts[0]; \
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ctx->h.tweak[1] = ts[1]; \
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}
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#else
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#define debug_save_tweak(ctx)
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#endif
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@ -43,15 +46,15 @@
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#if !(SKEIN_USE_ASM & 256)
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void skein_256_process_block(struct skein_256_ctx *ctx, const u8 *blk_ptr,
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size_t blk_cnt, size_t byte_cnt_add)
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{ /* do it in C */
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{ /* do it in C */
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enum {
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WCNT = SKEIN_256_STATE_WORDS
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};
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#undef RCNT
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#define RCNT (SKEIN_256_ROUNDS_TOTAL/8)
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#define RCNT (SKEIN_256_ROUNDS_TOTAL / 8)
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#ifdef SKEIN_LOOP /* configure how much to unroll the loop */
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#define SKEIN_UNROLL_256 (((SKEIN_LOOP)/100)%10)
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#define SKEIN_UNROLL_256 (((SKEIN_LOOP) / 100) % 10)
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#else
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#define SKEIN_UNROLL_256 (0)
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#endif
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@ -96,7 +99,8 @@ void skein_256_process_block(struct skein_256_ctx *ctx, const u8 *blk_ptr,
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debug_save_tweak(ctx);
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skein_show_block(BLK_BITS, &ctx->h, ctx->x, blk_ptr, w, ks, ts);
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X0 = w[0] + ks[0]; /* do the first full key injection */
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/* do the first full key injection */
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X0 = w[0] + ks[0];
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X1 = w[1] + ks[1] + ts[0];
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X2 = w[2] + ks[2] + ts[1];
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X3 = w[3] + ks[3];
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@ -109,29 +113,34 @@ void skein_256_process_block(struct skein_256_ctx *ctx, const u8 *blk_ptr,
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/* run the rounds */
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#define ROUND256(p0, p1, p2, p3, ROT, r_num) \
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do { \
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X##p0 += X##p1; X##p1 = rotl_64(X##p1, ROT##_0); X##p1 ^= X##p0; \
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X##p2 += X##p3; X##p3 = rotl_64(X##p3, ROT##_1); X##p3 ^= X##p2; \
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#define ROUND256(p0, p1, p2, p3, ROT, r_num) \
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do { \
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X##p0 += X##p1; \
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X##p1 = rotl_64(X##p1, ROT##_0); \
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X##p1 ^= X##p0; \
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X##p2 += X##p3; \
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X##p3 = rotl_64(X##p3, ROT##_1); \
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X##p3 ^= X##p2; \
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} while (0)
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#if SKEIN_UNROLL_256 == 0
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#define R256(p0, p1, p2, p3, ROT, r_num) /* fully unrolled */ \
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do { \
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ROUND256(p0, p1, p2, p3, ROT, r_num); \
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skein_show_r_ptr(BLK_BITS, &ctx->h, r_num, X_ptr); \
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do { \
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ROUND256(p0, p1, p2, p3, ROT, r_num); \
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skein_show_r_ptr(BLK_BITS, &ctx->h, r_num, X_ptr); \
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} while (0)
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#define I256(R) \
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do { \
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/* inject the key schedule value */ \
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X0 += ks[((R)+1) % 5]; \
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X1 += ks[((R)+2) % 5] + ts[((R)+1) % 3]; \
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X2 += ks[((R)+3) % 5] + ts[((R)+2) % 3]; \
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X3 += ks[((R)+4) % 5] + (R)+1; \
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#define I256(R) \
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do { \
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/* inject the key schedule value */ \
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X0 += ks[((R) + 1) % 5]; \
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X1 += ks[((R) + 2) % 5] + ts[((R) + 1) % 3]; \
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X2 += ks[((R) + 3) % 5] + ts[((R) + 2) % 3]; \
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X3 += ks[((R) + 4) % 5] + (R) + 1; \
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skein_show_r_ptr(BLK_BITS, &ctx->h, SKEIN_RND_KEY_INJECT, X_ptr); \
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} while (0)
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#else /* looping version */
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#else
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/* looping version */
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#define R256(p0, p1, p2, p3, ROT, r_num) \
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do { \
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ROUND256(p0, p1, p2, p3, ROT, r_num); \
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@ -141,85 +150,85 @@ do { \
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#define I256(R) \
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do { \
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/* inject the key schedule value */ \
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X0 += ks[r+(R)+0]; \
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X1 += ks[r+(R)+1] + ts[r+(R)+0]; \
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X2 += ks[r+(R)+2] + ts[r+(R)+1]; \
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X3 += ks[r+(R)+3] + r+(R); \
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/* rotate key schedule */ \
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ks[r + (R) + 4] = ks[r + (R) - 1]; \
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ts[r + (R) + 2] = ts[r + (R) - 1]; \
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X0 += ks[r + (R) + 0]; \
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X1 += ks[r + (R) + 1] + ts[r + (R) + 0]; \
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X2 += ks[r + (R) + 2] + ts[r + (R) + 1]; \
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X3 += ks[r + (R) + 3] + r + (R); \
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/* rotate key schedule */ \
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ks[r + (R) + 4] = ks[r + (R) - 1]; \
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ts[r + (R) + 2] = ts[r + (R) - 1]; \
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skein_show_r_ptr(BLK_BITS, &ctx->h, SKEIN_RND_KEY_INJECT, X_ptr); \
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} while (0)
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for (r = 1; r < 2 * RCNT; r += 2 * SKEIN_UNROLL_256)
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#endif
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{
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#define R256_8_ROUNDS(R) \
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do { \
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#define R256_8_ROUNDS(R) \
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do { \
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R256(0, 1, 2, 3, R_256_0, 8 * (R) + 1); \
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R256(0, 3, 2, 1, R_256_1, 8 * (R) + 2); \
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R256(0, 1, 2, 3, R_256_2, 8 * (R) + 3); \
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R256(0, 3, 2, 1, R_256_3, 8 * (R) + 4); \
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I256(2 * (R)); \
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I256(2 * (R)); \
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R256(0, 1, 2, 3, R_256_4, 8 * (R) + 5); \
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R256(0, 3, 2, 1, R_256_5, 8 * (R) + 6); \
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R256(0, 1, 2, 3, R_256_6, 8 * (R) + 7); \
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R256(0, 3, 2, 1, R_256_7, 8 * (R) + 8); \
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I256(2 * (R) + 1); \
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I256(2 * (R) + 1); \
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} while (0)
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R256_8_ROUNDS(0);
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#define R256_UNROLL_R(NN) \
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((SKEIN_UNROLL_256 == 0 && \
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SKEIN_256_ROUNDS_TOTAL/8 > (NN)) || \
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(SKEIN_UNROLL_256 > (NN)))
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#define R256_UNROLL_R(NN) \
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((SKEIN_UNROLL_256 == 0 && \
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SKEIN_256_ROUNDS_TOTAL / 8 > (NN)) || \
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(SKEIN_UNROLL_256 > (NN)))
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#if R256_UNROLL_R(1)
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#if R256_UNROLL_R(1)
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R256_8_ROUNDS(1);
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#endif
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#if R256_UNROLL_R(2)
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#endif
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#if R256_UNROLL_R(2)
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R256_8_ROUNDS(2);
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#endif
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#if R256_UNROLL_R(3)
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#endif
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#if R256_UNROLL_R(3)
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R256_8_ROUNDS(3);
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#endif
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#if R256_UNROLL_R(4)
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#endif
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#if R256_UNROLL_R(4)
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R256_8_ROUNDS(4);
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#endif
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#if R256_UNROLL_R(5)
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#endif
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#if R256_UNROLL_R(5)
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R256_8_ROUNDS(5);
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#endif
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#if R256_UNROLL_R(6)
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#endif
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#if R256_UNROLL_R(6)
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R256_8_ROUNDS(6);
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#endif
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#if R256_UNROLL_R(7)
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#endif
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#if R256_UNROLL_R(7)
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R256_8_ROUNDS(7);
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#endif
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#if R256_UNROLL_R(8)
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#endif
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#if R256_UNROLL_R(8)
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R256_8_ROUNDS(8);
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#endif
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#if R256_UNROLL_R(9)
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#endif
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#if R256_UNROLL_R(9)
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R256_8_ROUNDS(9);
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#endif
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#if R256_UNROLL_R(10)
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#endif
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#if R256_UNROLL_R(10)
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R256_8_ROUNDS(10);
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#endif
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#if R256_UNROLL_R(11)
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#endif
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#if R256_UNROLL_R(11)
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R256_8_ROUNDS(11);
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#endif
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#if R256_UNROLL_R(12)
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#endif
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#if R256_UNROLL_R(12)
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R256_8_ROUNDS(12);
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#endif
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#if R256_UNROLL_R(13)
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#endif
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#if R256_UNROLL_R(13)
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R256_8_ROUNDS(13);
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#endif
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#if R256_UNROLL_R(14)
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#endif
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#if R256_UNROLL_R(14)
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R256_8_ROUNDS(14);
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#endif
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#if (SKEIN_UNROLL_256 > 14)
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#endif
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#if (SKEIN_UNROLL_256 > 14)
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#error "need more unrolling in skein_256_process_block"
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#endif
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#endif
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}
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/* do the final "feedforward" xor, update context chaining */
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ctx->x[0] = X0 ^ w[0];
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@ -312,7 +321,8 @@ void skein_512_process_block(struct skein_512_ctx *ctx, const u8 *blk_ptr,
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debug_save_tweak(ctx);
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skein_show_block(BLK_BITS, &ctx->h, ctx->x, blk_ptr, w, ks, ts);
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X0 = w[0] + ks[0]; /* do the first full key injection */
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/* do the first full key injection */
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X0 = w[0] + ks[0];
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X1 = w[1] + ks[1];
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X2 = w[2] + ks[2];
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X3 = w[3] + ks[3];
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@ -327,62 +337,70 @@ void skein_512_process_block(struct skein_512_ctx *ctx, const u8 *blk_ptr,
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X_ptr);
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/* run the rounds */
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#define ROUND512(p0, p1, p2, p3, p4, p5, p6, p7, ROT, r_num) \
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do { \
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X##p0 += X##p1; X##p1 = rotl_64(X##p1, ROT##_0); X##p1 ^= X##p0; \
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X##p2 += X##p3; X##p3 = rotl_64(X##p3, ROT##_1); X##p3 ^= X##p2; \
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X##p4 += X##p5; X##p5 = rotl_64(X##p5, ROT##_2); X##p5 ^= X##p4; \
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X##p6 += X##p7; X##p7 = rotl_64(X##p7, ROT##_3); X##p7 ^= X##p6; \
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do { \
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X##p0 += X##p1; \
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X##p1 = rotl_64(X##p1, ROT##_0); \
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X##p1 ^= X##p0; \
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X##p2 += X##p3; \
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X##p3 = rotl_64(X##p3, ROT##_1); \
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X##p3 ^= X##p2; \
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X##p4 += X##p5; \
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X##p5 = rotl_64(X##p5, ROT##_2); \
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X##p5 ^= X##p4; \
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X##p6 += X##p7; X##p7 = rotl_64(X##p7, ROT##_3); \
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X##p7 ^= X##p6; \
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} while (0)
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#if SKEIN_UNROLL_512 == 0
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#define R512(p0, p1, p2, p3, p4, p5, p6, p7, ROT, r_num) /* unrolled */ \
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do { \
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ROUND512(p0, p1, p2, p3, p4, p5, p6, p7, ROT, r_num) \
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skein_show_r_ptr(BLK_BITS, &ctx->h, r_num, X_ptr); \
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do { \
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ROUND512(p0, p1, p2, p3, p4, p5, p6, p7, ROT, r_num) \
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skein_show_r_ptr(BLK_BITS, &ctx->h, r_num, X_ptr); \
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} while (0)
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#define I512(R) \
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do { \
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/* inject the key schedule value */ \
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X0 += ks[((R) + 1) % 9]; \
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X1 += ks[((R) + 2) % 9]; \
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X2 += ks[((R) + 3) % 9]; \
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X3 += ks[((R) + 4) % 9]; \
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X4 += ks[((R) + 5) % 9]; \
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X5 += ks[((R) + 6) % 9] + ts[((R) + 1) % 3]; \
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X6 += ks[((R) + 7) % 9] + ts[((R) + 2) % 3]; \
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X7 += ks[((R) + 8) % 9] + (R) + 1; \
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#define I512(R) \
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do { \
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/* inject the key schedule value */ \
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X0 += ks[((R) + 1) % 9]; \
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X1 += ks[((R) + 2) % 9]; \
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X2 += ks[((R) + 3) % 9]; \
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X3 += ks[((R) + 4) % 9]; \
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X4 += ks[((R) + 5) % 9]; \
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X5 += ks[((R) + 6) % 9] + ts[((R) + 1) % 3]; \
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X6 += ks[((R) + 7) % 9] + ts[((R) + 2) % 3]; \
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X7 += ks[((R) + 8) % 9] + (R) + 1; \
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skein_show_r_ptr(BLK_BITS, &ctx->h, SKEIN_RND_KEY_INJECT, X_ptr); \
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} while (0)
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#else /* looping version */
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#define R512(p0, p1, p2, p3, p4, p5, p6, p7, ROT, r_num) \
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do { \
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ROUND512(p0, p1, p2, p3, p4, p5, p6, p7, ROT, r_num); \
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#define R512(p0, p1, p2, p3, p4, p5, p6, p7, ROT, r_num) \
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do { \
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ROUND512(p0, p1, p2, p3, p4, p5, p6, p7, ROT, r_num); \
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skein_show_r_ptr(BLK_BITS, &ctx->h, 4 * (r - 1) + r_num, X_ptr); \
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} while (0)
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#define I512(R) \
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do { \
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/* inject the key schedule value */ \
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X0 += ks[r + (R) + 0]; \
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X1 += ks[r + (R) + 1]; \
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X2 += ks[r + (R) + 2]; \
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X3 += ks[r + (R) + 3]; \
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X4 += ks[r + (R) + 4]; \
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X5 += ks[r + (R) + 5] + ts[r + (R) + 0]; \
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X6 += ks[r + (R) + 6] + ts[r + (R) + 1]; \
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X7 += ks[r + (R) + 7] + r + (R); \
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/* rotate key schedule */ \
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ks[r + (R) + 8] = ks[r + (R) - 1]; \
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ts[r + (R) + 2] = ts[r + (R) - 1]; \
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#define I512(R) \
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do { \
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/* inject the key schedule value */ \
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X0 += ks[r + (R) + 0]; \
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X1 += ks[r + (R) + 1]; \
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X2 += ks[r + (R) + 2]; \
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X3 += ks[r + (R) + 3]; \
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X4 += ks[r + (R) + 4]; \
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X5 += ks[r + (R) + 5] + ts[r + (R) + 0]; \
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X6 += ks[r + (R) + 6] + ts[r + (R) + 1]; \
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X7 += ks[r + (R) + 7] + r + (R); \
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/* rotate key schedule */ \
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ks[r + (R) + 8] = ks[r + (R) - 1]; \
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ts[r + (R) + 2] = ts[r + (R) - 1]; \
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skein_show_r_ptr(BLK_BITS, &ctx->h, SKEIN_RND_KEY_INJECT, X_ptr); \
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} while (0)
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for (r = 1; r < 2 * RCNT; r += 2 * SKEIN_UNROLL_512)
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#endif /* end of looped code definitions */
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{
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#define R512_8_ROUNDS(R) /* do 8 full rounds */ \
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do { \
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#define R512_8_ROUNDS(R) /* do 8 full rounds */ \
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do { \
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R512(0, 1, 2, 3, 4, 5, 6, 7, R_512_0, 8 * (R) + 1); \
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R512(2, 1, 4, 7, 6, 5, 0, 3, R_512_1, 8 * (R) + 2); \
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R512(4, 1, 6, 3, 0, 5, 2, 7, R_512_2, 8 * (R) + 3); \
|
||||
|
|
@ -392,61 +410,61 @@ do { \
|
|||
R512(2, 1, 4, 7, 6, 5, 0, 3, R_512_5, 8 * (R) + 6); \
|
||||
R512(4, 1, 6, 3, 0, 5, 2, 7, R_512_6, 8 * (R) + 7); \
|
||||
R512(6, 1, 0, 7, 2, 5, 4, 3, R_512_7, 8 * (R) + 8); \
|
||||
I512(2 * (R) + 1); /* and key injection */ \
|
||||
I512(2 * (R) + 1); /* and key injection */ \
|
||||
} while (0)
|
||||
|
||||
R512_8_ROUNDS(0);
|
||||
|
||||
#define R512_UNROLL_R(NN) \
|
||||
((SKEIN_UNROLL_512 == 0 && \
|
||||
SKEIN_512_ROUNDS_TOTAL/8 > (NN)) || \
|
||||
(SKEIN_UNROLL_512 > (NN)))
|
||||
#define R512_UNROLL_R(NN) \
|
||||
((SKEIN_UNROLL_512 == 0 && \
|
||||
SKEIN_512_ROUNDS_TOTAL/8 > (NN)) || \
|
||||
(SKEIN_UNROLL_512 > (NN)))
|
||||
|
||||
#if R512_UNROLL_R(1)
|
||||
#if R512_UNROLL_R(1)
|
||||
R512_8_ROUNDS(1);
|
||||
#endif
|
||||
#if R512_UNROLL_R(2)
|
||||
#endif
|
||||
#if R512_UNROLL_R(2)
|
||||
R512_8_ROUNDS(2);
|
||||
#endif
|
||||
#if R512_UNROLL_R(3)
|
||||
#endif
|
||||
#if R512_UNROLL_R(3)
|
||||
R512_8_ROUNDS(3);
|
||||
#endif
|
||||
#if R512_UNROLL_R(4)
|
||||
#endif
|
||||
#if R512_UNROLL_R(4)
|
||||
R512_8_ROUNDS(4);
|
||||
#endif
|
||||
#if R512_UNROLL_R(5)
|
||||
#endif
|
||||
#if R512_UNROLL_R(5)
|
||||
R512_8_ROUNDS(5);
|
||||
#endif
|
||||
#if R512_UNROLL_R(6)
|
||||
#endif
|
||||
#if R512_UNROLL_R(6)
|
||||
R512_8_ROUNDS(6);
|
||||
#endif
|
||||
#if R512_UNROLL_R(7)
|
||||
#endif
|
||||
#if R512_UNROLL_R(7)
|
||||
R512_8_ROUNDS(7);
|
||||
#endif
|
||||
#if R512_UNROLL_R(8)
|
||||
#endif
|
||||
#if R512_UNROLL_R(8)
|
||||
R512_8_ROUNDS(8);
|
||||
#endif
|
||||
#if R512_UNROLL_R(9)
|
||||
#endif
|
||||
#if R512_UNROLL_R(9)
|
||||
R512_8_ROUNDS(9);
|
||||
#endif
|
||||
#if R512_UNROLL_R(10)
|
||||
#endif
|
||||
#if R512_UNROLL_R(10)
|
||||
R512_8_ROUNDS(10);
|
||||
#endif
|
||||
#if R512_UNROLL_R(11)
|
||||
#endif
|
||||
#if R512_UNROLL_R(11)
|
||||
R512_8_ROUNDS(11);
|
||||
#endif
|
||||
#if R512_UNROLL_R(12)
|
||||
#endif
|
||||
#if R512_UNROLL_R(12)
|
||||
R512_8_ROUNDS(12);
|
||||
#endif
|
||||
#if R512_UNROLL_R(13)
|
||||
#endif
|
||||
#if R512_UNROLL_R(13)
|
||||
R512_8_ROUNDS(13);
|
||||
#endif
|
||||
#if R512_UNROLL_R(14)
|
||||
#endif
|
||||
#if R512_UNROLL_R(14)
|
||||
R512_8_ROUNDS(14);
|
||||
#endif
|
||||
#if (SKEIN_UNROLL_512 > 14)
|
||||
#endif
|
||||
#if (SKEIN_UNROLL_512 > 14)
|
||||
#error "need more unrolling in skein_512_process_block"
|
||||
#endif
|
||||
#endif
|
||||
}
|
||||
|
||||
/* do the final "feedforward" xor, update context chaining */
|
||||
|
|
@ -513,11 +531,21 @@ void skein_1024_process_block(struct skein_1024_ctx *ctx, const u8 *blk_ptr,
|
|||
#ifdef SKEIN_DEBUG
|
||||
const u64 *X_ptr[16]; /* use for debugging (help cc put Xn in regs) */
|
||||
|
||||
X_ptr[0] = &X00; X_ptr[1] = &X01; X_ptr[2] = &X02;
|
||||
X_ptr[3] = &X03; X_ptr[4] = &X04; X_ptr[5] = &X05;
|
||||
X_ptr[6] = &X06; X_ptr[7] = &X07; X_ptr[8] = &X08;
|
||||
X_ptr[9] = &X09; X_ptr[10] = &X10; X_ptr[11] = &X11;
|
||||
X_ptr[12] = &X12; X_ptr[13] = &X13; X_ptr[14] = &X14;
|
||||
X_ptr[0] = &X00;
|
||||
X_ptr[1] = &X01;
|
||||
X_ptr[2] = &X02;
|
||||
X_ptr[3] = &X03;
|
||||
X_ptr[4] = &X04;
|
||||
X_ptr[5] = &X05;
|
||||
X_ptr[6] = &X06;
|
||||
X_ptr[7] = &X07;
|
||||
X_ptr[8] = &X08;
|
||||
X_ptr[9] = &X09;
|
||||
X_ptr[10] = &X10;
|
||||
X_ptr[11] = &X11;
|
||||
X_ptr[12] = &X12;
|
||||
X_ptr[13] = &X13;
|
||||
X_ptr[14] = &X14;
|
||||
X_ptr[15] = &X15;
|
||||
#endif
|
||||
|
||||
|
|
@ -548,192 +576,209 @@ void skein_1024_process_block(struct skein_1024_ctx *ctx, const u8 *blk_ptr,
|
|||
ks[13] = ctx->x[13];
|
||||
ks[14] = ctx->x[14];
|
||||
ks[15] = ctx->x[15];
|
||||
ks[16] = ks[0] ^ ks[1] ^ ks[2] ^ ks[3] ^
|
||||
ks[4] ^ ks[5] ^ ks[6] ^ ks[7] ^
|
||||
ks[8] ^ ks[9] ^ ks[10] ^ ks[11] ^
|
||||
ks[16] = ks[0] ^ ks[1] ^ ks[2] ^ ks[3] ^
|
||||
ks[4] ^ ks[5] ^ ks[6] ^ ks[7] ^
|
||||
ks[8] ^ ks[9] ^ ks[10] ^ ks[11] ^
|
||||
ks[12] ^ ks[13] ^ ks[14] ^ ks[15] ^ SKEIN_KS_PARITY;
|
||||
|
||||
ts[2] = ts[0] ^ ts[1];
|
||||
ts[2] = ts[0] ^ ts[1];
|
||||
|
||||
/* get input block in little-endian format */
|
||||
skein_get64_lsb_first(w, blk_ptr, WCNT);
|
||||
debug_save_tweak(ctx);
|
||||
skein_show_block(BLK_BITS, &ctx->h, ctx->x, blk_ptr, w, ks, ts);
|
||||
|
||||
X00 = w[0] + ks[0]; /* do the first full key injection */
|
||||
X01 = w[1] + ks[1];
|
||||
X02 = w[2] + ks[2];
|
||||
X03 = w[3] + ks[3];
|
||||
X04 = w[4] + ks[4];
|
||||
X05 = w[5] + ks[5];
|
||||
X06 = w[6] + ks[6];
|
||||
X07 = w[7] + ks[7];
|
||||
X08 = w[8] + ks[8];
|
||||
X09 = w[9] + ks[9];
|
||||
X10 = w[10] + ks[10];
|
||||
X11 = w[11] + ks[11];
|
||||
X12 = w[12] + ks[12];
|
||||
X13 = w[13] + ks[13] + ts[0];
|
||||
X14 = w[14] + ks[14] + ts[1];
|
||||
X15 = w[15] + ks[15];
|
||||
/* do the first full key injection */
|
||||
X00 = w[0] + ks[0];
|
||||
X01 = w[1] + ks[1];
|
||||
X02 = w[2] + ks[2];
|
||||
X03 = w[3] + ks[3];
|
||||
X04 = w[4] + ks[4];
|
||||
X05 = w[5] + ks[5];
|
||||
X06 = w[6] + ks[6];
|
||||
X07 = w[7] + ks[7];
|
||||
X08 = w[8] + ks[8];
|
||||
X09 = w[9] + ks[9];
|
||||
X10 = w[10] + ks[10];
|
||||
X11 = w[11] + ks[11];
|
||||
X12 = w[12] + ks[12];
|
||||
X13 = w[13] + ks[13] + ts[0];
|
||||
X14 = w[14] + ks[14] + ts[1];
|
||||
X15 = w[15] + ks[15];
|
||||
|
||||
skein_show_r_ptr(BLK_BITS, &ctx->h, SKEIN_RND_KEY_INITIAL,
|
||||
X_ptr);
|
||||
|
||||
#define ROUND1024(p0, p1, p2, p3, p4, p5, p6, p7, p8, p9, pA, pB, pC, pD, pE, \
|
||||
pF, ROT, r_num) \
|
||||
do { \
|
||||
X##p0 += X##p1; X##p1 = rotl_64(X##p1, ROT##_0); X##p1 ^= X##p0; \
|
||||
X##p2 += X##p3; X##p3 = rotl_64(X##p3, ROT##_1); X##p3 ^= X##p2; \
|
||||
X##p4 += X##p5; X##p5 = rotl_64(X##p5, ROT##_2); X##p5 ^= X##p4; \
|
||||
X##p6 += X##p7; X##p7 = rotl_64(X##p7, ROT##_3); X##p7 ^= X##p6; \
|
||||
X##p8 += X##p9; X##p9 = rotl_64(X##p9, ROT##_4); X##p9 ^= X##p8; \
|
||||
X##pA += X##pB; X##pB = rotl_64(X##pB, ROT##_5); X##pB ^= X##pA; \
|
||||
X##pC += X##pD; X##pD = rotl_64(X##pD, ROT##_6); X##pD ^= X##pC; \
|
||||
X##pE += X##pF; X##pF = rotl_64(X##pF, ROT##_7); X##pF ^= X##pE; \
|
||||
pF, ROT, r_num) \
|
||||
do { \
|
||||
X##p0 += X##p1; \
|
||||
X##p1 = rotl_64(X##p1, ROT##_0); \
|
||||
X##p1 ^= X##p0; \
|
||||
X##p2 += X##p3; \
|
||||
X##p3 = rotl_64(X##p3, ROT##_1); \
|
||||
X##p3 ^= X##p2; \
|
||||
X##p4 += X##p5; \
|
||||
X##p5 = rotl_64(X##p5, ROT##_2); \
|
||||
X##p5 ^= X##p4; \
|
||||
X##p6 += X##p7; \
|
||||
X##p7 = rotl_64(X##p7, ROT##_3); \
|
||||
X##p7 ^= X##p6; \
|
||||
X##p8 += X##p9; \
|
||||
X##p9 = rotl_64(X##p9, ROT##_4); \
|
||||
X##p9 ^= X##p8; \
|
||||
X##pA += X##pB; \
|
||||
X##pB = rotl_64(X##pB, ROT##_5); \
|
||||
X##pB ^= X##pA; \
|
||||
X##pC += X##pD; \
|
||||
X##pD = rotl_64(X##pD, ROT##_6); \
|
||||
X##pD ^= X##pC; \
|
||||
X##pE += X##pF; \
|
||||
X##pF = rotl_64(X##pF, ROT##_7); \
|
||||
X##pF ^= X##pE; \
|
||||
} while (0)
|
||||
|
||||
#if SKEIN_UNROLL_1024 == 0
|
||||
#define R1024(p0, p1, p2, p3, p4, p5, p6, p7, p8, p9, pA, pB, pC, pD, pE, pF, \
|
||||
ROT, rn) \
|
||||
do { \
|
||||
ROT, rn) \
|
||||
do { \
|
||||
ROUND1024(p0, p1, p2, p3, p4, p5, p6, p7, p8, p9, pA, pB, pC, pD, pE, \
|
||||
pF, ROT, rn); \
|
||||
skein_show_r_ptr(BLK_BITS, &ctx->h, rn, X_ptr); \
|
||||
pF, ROT, rn); \
|
||||
skein_show_r_ptr(BLK_BITS, &ctx->h, rn, X_ptr); \
|
||||
} while (0)
|
||||
|
||||
#define I1024(R) \
|
||||
do { \
|
||||
/* inject the key schedule value */ \
|
||||
X00 += ks[((R) + 1) % 17]; \
|
||||
X01 += ks[((R) + 2) % 17]; \
|
||||
X02 += ks[((R) + 3) % 17]; \
|
||||
X03 += ks[((R) + 4) % 17]; \
|
||||
X04 += ks[((R) + 5) % 17]; \
|
||||
X05 += ks[((R) + 6) % 17]; \
|
||||
X06 += ks[((R) + 7) % 17]; \
|
||||
X07 += ks[((R) + 8) % 17]; \
|
||||
X08 += ks[((R) + 9) % 17]; \
|
||||
X09 += ks[((R) + 10) % 17]; \
|
||||
X10 += ks[((R) + 11) % 17]; \
|
||||
X11 += ks[((R) + 12) % 17]; \
|
||||
X12 += ks[((R) + 13) % 17]; \
|
||||
X13 += ks[((R) + 14) % 17] + ts[((R) + 1) % 3]; \
|
||||
X14 += ks[((R) + 15) % 17] + ts[((R) + 2) % 3]; \
|
||||
X15 += ks[((R) + 16) % 17] + (R) + 1; \
|
||||
#define I1024(R) \
|
||||
do { \
|
||||
/* inject the key schedule value */ \
|
||||
X00 += ks[((R) + 1) % 17]; \
|
||||
X01 += ks[((R) + 2) % 17]; \
|
||||
X02 += ks[((R) + 3) % 17]; \
|
||||
X03 += ks[((R) + 4) % 17]; \
|
||||
X04 += ks[((R) + 5) % 17]; \
|
||||
X05 += ks[((R) + 6) % 17]; \
|
||||
X06 += ks[((R) + 7) % 17]; \
|
||||
X07 += ks[((R) + 8) % 17]; \
|
||||
X08 += ks[((R) + 9) % 17]; \
|
||||
X09 += ks[((R) + 10) % 17]; \
|
||||
X10 += ks[((R) + 11) % 17]; \
|
||||
X11 += ks[((R) + 12) % 17]; \
|
||||
X12 += ks[((R) + 13) % 17]; \
|
||||
X13 += ks[((R) + 14) % 17] + ts[((R) + 1) % 3]; \
|
||||
X14 += ks[((R) + 15) % 17] + ts[((R) + 2) % 3]; \
|
||||
X15 += ks[((R) + 16) % 17] + (R) + 1; \
|
||||
skein_show_r_ptr(BLK_BITS, &ctx->h, SKEIN_RND_KEY_INJECT, X_ptr); \
|
||||
} while (0)
|
||||
#else /* looping version */
|
||||
#define R1024(p0, p1, p2, p3, p4, p5, p6, p7, p8, p9, pA, pB, pC, pD, pE, pF, \
|
||||
ROT, rn) \
|
||||
do { \
|
||||
ROT, rn) \
|
||||
do { \
|
||||
ROUND1024(p0, p1, p2, p3, p4, p5, p6, p7, p8, p9, pA, pB, pC, pD, pE, \
|
||||
pF, ROT, rn); \
|
||||
skein_show_r_ptr(BLK_BITS, &ctx->h, 4 * (r - 1) + rn, X_ptr); \
|
||||
pF, ROT, rn); \
|
||||
skein_show_r_ptr(BLK_BITS, &ctx->h, 4 * (r - 1) + rn, X_ptr); \
|
||||
} while (0)
|
||||
|
||||
#define I1024(R) \
|
||||
do { \
|
||||
/* inject the key schedule value */ \
|
||||
X00 += ks[r + (R) + 0]; \
|
||||
X01 += ks[r + (R) + 1]; \
|
||||
X02 += ks[r + (R) + 2]; \
|
||||
X03 += ks[r + (R) + 3]; \
|
||||
X04 += ks[r + (R) + 4]; \
|
||||
X05 += ks[r + (R) + 5]; \
|
||||
X06 += ks[r + (R) + 6]; \
|
||||
X07 += ks[r + (R) + 7]; \
|
||||
X08 += ks[r + (R) + 8]; \
|
||||
X09 += ks[r + (R) + 9]; \
|
||||
X10 += ks[r + (R) + 10]; \
|
||||
X11 += ks[r + (R) + 11]; \
|
||||
X12 += ks[r + (R) + 12]; \
|
||||
X13 += ks[r + (R) + 13] + ts[r + (R) + 0]; \
|
||||
X14 += ks[r + (R) + 14] + ts[r + (R) + 1]; \
|
||||
X15 += ks[r + (R) + 15] + r + (R); \
|
||||
/* rotate key schedule */ \
|
||||
ks[r + (R) + 16] = ks[r + (R) - 1]; \
|
||||
ts[r + (R) + 2] = ts[r + (R) - 1]; \
|
||||
#define I1024(R) \
|
||||
do { \
|
||||
/* inject the key schedule value */ \
|
||||
X00 += ks[r + (R) + 0]; \
|
||||
X01 += ks[r + (R) + 1]; \
|
||||
X02 += ks[r + (R) + 2]; \
|
||||
X03 += ks[r + (R) + 3]; \
|
||||
X04 += ks[r + (R) + 4]; \
|
||||
X05 += ks[r + (R) + 5]; \
|
||||
X06 += ks[r + (R) + 6]; \
|
||||
X07 += ks[r + (R) + 7]; \
|
||||
X08 += ks[r + (R) + 8]; \
|
||||
X09 += ks[r + (R) + 9]; \
|
||||
X10 += ks[r + (R) + 10]; \
|
||||
X11 += ks[r + (R) + 11]; \
|
||||
X12 += ks[r + (R) + 12]; \
|
||||
X13 += ks[r + (R) + 13] + ts[r + (R) + 0]; \
|
||||
X14 += ks[r + (R) + 14] + ts[r + (R) + 1]; \
|
||||
X15 += ks[r + (R) + 15] + r + (R); \
|
||||
/* rotate key schedule */ \
|
||||
ks[r + (R) + 16] = ks[r + (R) - 1]; \
|
||||
ts[r + (R) + 2] = ts[r + (R) - 1]; \
|
||||
skein_show_r_ptr(BLK_BITSi, &ctx->h, SKEIN_RND_KEY_INJECT, X_ptr); \
|
||||
} while (0)
|
||||
|
||||
for (r = 1; r <= 2 * RCNT; r += 2 * SKEIN_UNROLL_1024)
|
||||
#endif
|
||||
{
|
||||
#define R1024_8_ROUNDS(R) \
|
||||
do { \
|
||||
#define R1024_8_ROUNDS(R) \
|
||||
do { \
|
||||
R1024(00, 01, 02, 03, 04, 05, 06, 07, 08, 09, 10, 11, 12, 13, 14, 15, \
|
||||
R1024_0, 8*(R) + 1); \
|
||||
R1024_0, 8*(R) + 1); \
|
||||
R1024(00, 09, 02, 13, 06, 11, 04, 15, 10, 07, 12, 03, 14, 05, 08, 01, \
|
||||
R1024_1, 8*(R) + 2); \
|
||||
R1024_1, 8*(R) + 2); \
|
||||
R1024(00, 07, 02, 05, 04, 03, 06, 01, 12, 15, 14, 13, 08, 11, 10, 09, \
|
||||
R1024_2, 8*(R) + 3); \
|
||||
R1024_2, 8*(R) + 3); \
|
||||
R1024(00, 15, 02, 11, 06, 13, 04, 09, 14, 01, 08, 05, 10, 03, 12, 07, \
|
||||
R1024_3, 8*(R) + 4); \
|
||||
I1024(2*(R)); \
|
||||
R1024_3, 8*(R) + 4); \
|
||||
I1024(2*(R)); \
|
||||
R1024(00, 01, 02, 03, 04, 05, 06, 07, 08, 09, 10, 11, 12, 13, 14, 15, \
|
||||
R1024_4, 8*(R) + 5); \
|
||||
R1024_4, 8*(R) + 5); \
|
||||
R1024(00, 09, 02, 13, 06, 11, 04, 15, 10, 07, 12, 03, 14, 05, 08, 01, \
|
||||
R1024_5, 8*(R) + 6); \
|
||||
R1024_5, 8*(R) + 6); \
|
||||
R1024(00, 07, 02, 05, 04, 03, 06, 01, 12, 15, 14, 13, 08, 11, 10, 09, \
|
||||
R1024_6, 8*(R) + 7); \
|
||||
R1024_6, 8*(R) + 7); \
|
||||
R1024(00, 15, 02, 11, 06, 13, 04, 09, 14, 01, 08, 05, 10, 03, 12, 07, \
|
||||
R1024_7, 8*(R) + 8); \
|
||||
I1024(2*(R)+1); \
|
||||
R1024_7, 8*(R) + 8); \
|
||||
I1024(2*(R)+1); \
|
||||
} while (0)
|
||||
|
||||
R1024_8_ROUNDS(0);
|
||||
|
||||
#define R1024_UNROLL_R(NN) \
|
||||
((SKEIN_UNROLL_1024 == 0 && \
|
||||
SKEIN_1024_ROUNDS_TOTAL/8 > (NN)) || \
|
||||
(SKEIN_UNROLL_1024 > (NN)))
|
||||
#define R1024_UNROLL_R(NN) \
|
||||
((SKEIN_UNROLL_1024 == 0 && \
|
||||
SKEIN_1024_ROUNDS_TOTAL/8 > (NN)) || \
|
||||
(SKEIN_UNROLL_1024 > (NN)))
|
||||
|
||||
#if R1024_UNROLL_R(1)
|
||||
#if R1024_UNROLL_R(1)
|
||||
R1024_8_ROUNDS(1);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(2)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(2)
|
||||
R1024_8_ROUNDS(2);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(3)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(3)
|
||||
R1024_8_ROUNDS(3);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(4)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(4)
|
||||
R1024_8_ROUNDS(4);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(5)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(5)
|
||||
R1024_8_ROUNDS(5);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(6)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(6)
|
||||
R1024_8_ROUNDS(6);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(7)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(7)
|
||||
R1024_8_ROUNDS(7);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(8)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(8)
|
||||
R1024_8_ROUNDS(8);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(9)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(9)
|
||||
R1024_8_ROUNDS(9);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(10)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(10)
|
||||
R1024_8_ROUNDS(10);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(11)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(11)
|
||||
R1024_8_ROUNDS(11);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(12)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(12)
|
||||
R1024_8_ROUNDS(12);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(13)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(13)
|
||||
R1024_8_ROUNDS(13);
|
||||
#endif
|
||||
#if R1024_UNROLL_R(14)
|
||||
#endif
|
||||
#if R1024_UNROLL_R(14)
|
||||
R1024_8_ROUNDS(14);
|
||||
#endif
|
||||
#endif
|
||||
#if (SKEIN_UNROLL_1024 > 14)
|
||||
#error "need more unrolling in Skein_1024_Process_Block"
|
||||
#endif
|
||||
#endif
|
||||
}
|
||||
/* do the final "feedforward" xor, update context chaining */
|
||||
|
||||
|
|
|
|||
Loading…
Reference in New Issue