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319 lines
9.1 KiB
319 lines
9.1 KiB
typedef unsigned int uint_t; /* native unsigned integer */ |
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#define SKEIN_MODIFIER_WORDS ( 2) /* number of modifier (tweak) words */ |
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#define SKEIN_256_STATE_WORDS ( 4) |
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#define SKEIN_512_STATE_WORDS ( 8) |
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#define SKEIN_256_STATE_BYTES ( 8*SKEIN_256_STATE_WORDS) |
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#define SKEIN_512_STATE_BYTES ( 8*SKEIN_512_STATE_WORDS) |
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#define SKEIN_256_STATE_BITS (64*SKEIN_256_STATE_WORDS) |
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#define SKEIN_512_STATE_BITS (64*SKEIN_512_STATE_WORDS) |
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#define SKEIN_256_BLOCK_BYTES ( 8*SKEIN_256_STATE_WORDS) |
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#define SKEIN_512_BLOCK_BYTES ( 8*SKEIN_512_STATE_WORDS) |
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#define SKEIN_MK_64(hi32,lo32) ((lo32) + (((uint64_t) (hi32)) << 32)) |
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#define SKEIN_KS_PARITY SKEIN_MK_64(0x1BD11BDA,0xA9FC1A22) |
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#define SKEIN_T1_BIT(BIT) ((BIT) - 64) /* offset 64 because it's the second word */ |
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#define SKEIN_T1_POS_FIRST SKEIN_T1_BIT(126) /* bits 126 : first block flag */ |
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#define SKEIN_T1_POS_BIT_PAD SKEIN_T1_BIT(119) /* bit 119 : partial final input byte */ |
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#define SKEIN_T1_POS_FINAL SKEIN_T1_BIT(127) /* bit 127 : final block flag */ |
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#define SKEIN_T1_POS_BLK_TYPE SKEIN_T1_BIT(120) /* bits 120..125: type field */ |
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#define SKEIN_T1_FLAG_FIRST (((uint64_t) 1 ) << SKEIN_T1_POS_FIRST) |
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#define SKEIN_T1_FLAG_BIT_PAD (((uint64_t) 1 ) << SKEIN_T1_POS_BIT_PAD) |
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#define SKEIN_T1_FLAG_FINAL (((uint64_t) 1 ) << SKEIN_T1_POS_FINAL) |
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#define SKEIN_BLK_TYPE_MSG (48) /* message processing */ |
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#define SKEIN_BLK_TYPE_OUT (63) /* output stage */ |
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#define SKEIN_T1_BLK_TYPE(T) (((uint64_t) (SKEIN_BLK_TYPE_##T)) << SKEIN_T1_POS_BLK_TYPE) |
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#define SKEIN_T1_BLK_TYPE_MSG SKEIN_T1_BLK_TYPE(MSG) /* message processing */ |
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#define SKEIN_T1_BLK_TYPE_OUT SKEIN_T1_BLK_TYPE(OUT) /* output stage */ |
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#define SKEIN_T1_BLK_TYPE_OUT_FINAL (SKEIN_T1_BLK_TYPE_OUT | SKEIN_T1_FLAG_FINAL) |
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#define Skein_Set_Tweak(ctxPtr,TWK_NUM,tVal) {(ctxPtr)->h.T[TWK_NUM] = (tVal);} |
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#define Skein_Set_T0(ctxPtr,T0) Skein_Set_Tweak(ctxPtr,0,T0) |
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#define Skein_Set_T1(ctxPtr,T1) Skein_Set_Tweak(ctxPtr,1,T1) |
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#define Skein_Set_T0_T1(ctxPtr,T0,T1) { \ |
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Skein_Set_T0(ctxPtr,(T0)); \ |
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Skein_Set_T1(ctxPtr,(T1)); } |
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#define Skein_Start_New_Type(ctxPtr,BLK_TYPE) \ |
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{ Skein_Set_T0_T1(ctxPtr,0,SKEIN_T1_FLAG_FIRST | SKEIN_T1_BLK_TYPE_##BLK_TYPE); (ctxPtr)->h.bCnt=0; } |
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#define Skein_Set_Bit_Pad_Flag(hdr) { (hdr).T[1] |= SKEIN_T1_FLAG_BIT_PAD; } |
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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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#define R512(p0,p1,p2,p3,p4,p5,p6,p7,R512ROT,rNum) \ |
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X##p0 += X##p1; X##p1 = ROTL64(X##p1,R512ROT##_0); X##p1 ^= X##p0; \ |
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X##p2 += X##p3; X##p3 = ROTL64(X##p3,R512ROT##_1); X##p3 ^= X##p2; \ |
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X##p4 += X##p5; X##p5 = ROTL64(X##p5,R512ROT##_2); X##p5 ^= X##p4; \ |
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X##p6 += X##p7; X##p7 = ROTL64(X##p7,R512ROT##_3); X##p7 ^= X##p6; |
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#define I512(R) \ |
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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 R512_8_rounds(R) \ |
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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); \ |
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R512(6,1,0,7,2,5,4,3,R_512_3,8*(R)+ 4); \ |
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I512(2*(R)); \ |
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R512(0,1,2,3,4,5,6,7,R_512_4,8*(R)+ 5); \ |
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R512(2,1,4,7,6,5,0,3,R_512_5,8*(R)+ 6); \ |
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R512(4,1,6,3,0,5,2,7,R_512_6,8*(R)+ 7); \ |
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R512(6,1,0,7,2,5,4,3,R_512_7,8*(R)+ 8); \ |
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I512(2*(R)+1); |
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typedef struct |
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{ |
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size_t hashBitLen; |
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size_t bCnt; |
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uint64_t T[SKEIN_MODIFIER_WORDS]; |
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} Skein_Ctxt_Hdr_t; |
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typedef struct { |
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Skein_Ctxt_Hdr_t h; |
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uint64_t X[SKEIN_256_STATE_WORDS]; |
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uint8_t b[SKEIN_256_BLOCK_BYTES]; |
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} Skein_256_Ctxt_t; |
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typedef struct { |
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Skein_Ctxt_Hdr_t h; |
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uint64_t X[SKEIN_512_STATE_WORDS]; |
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uint8_t b[SKEIN_512_BLOCK_BYTES]; |
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} Skein_512_Ctxt_t; |
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typedef struct { |
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uint_t statebits; |
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union { |
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Skein_Ctxt_Hdr_t h; |
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Skein_256_Ctxt_t ctx_256; |
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Skein_512_Ctxt_t ctx_512; |
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} u; |
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} skeinHashState; |
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__device__ |
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void cn_skein_init(skeinHashState *state, size_t hashBitLen) |
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{ |
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const uint64_t SKEIN_512_IV_256[] = |
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{ |
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SKEIN_MK_64(0xCCD044A1,0x2FDB3E13), |
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SKEIN_MK_64(0xE8359030,0x1A79A9EB), |
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SKEIN_MK_64(0x55AEA061,0x4F816E6F), |
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SKEIN_MK_64(0x2A2767A4,0xAE9B94DB), |
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SKEIN_MK_64(0xEC06025E,0x74DD7683), |
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SKEIN_MK_64(0xE7A436CD,0xC4746251), |
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SKEIN_MK_64(0xC36FBAF9,0x393AD185), |
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SKEIN_MK_64(0x3EEDBA18,0x33EDFC13) |
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}; |
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Skein_512_Ctxt_t *ctx = &state->u.ctx_512; |
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ctx->h.hashBitLen = hashBitLen; |
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memcpy(ctx->X, SKEIN_512_IV_256, sizeof(ctx->X)); |
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Skein_Start_New_Type(ctx, MSG); |
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} |
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__device__ |
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void cn_skein_processblock(Skein_512_Ctxt_t * __restrict__ ctx, const uint8_t * __restrict__ blkPtr, size_t blkCnt, size_t byteCntAdd) |
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{ |
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enum { |
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R_512_0_0=46, R_512_0_1=36, R_512_0_2=19, R_512_0_3=37, |
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R_512_1_0=33, R_512_1_1=27, R_512_1_2=14, R_512_1_3=42, |
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R_512_2_0=17, R_512_2_1=49, R_512_2_2=36, R_512_2_3=39, |
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R_512_3_0=44, R_512_3_1= 9, R_512_3_2=54, R_512_3_3=56, |
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R_512_4_0=39, R_512_4_1=30, R_512_4_2=34, R_512_4_3=24, |
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R_512_5_0=13, R_512_5_1=50, R_512_5_2=10, R_512_5_3=17, |
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R_512_6_0=25, R_512_6_1=29, R_512_6_2=39, R_512_6_3=43, |
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R_512_7_0= 8, R_512_7_1=35, R_512_7_2=56, R_512_7_3=22 |
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}; |
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uint64_t X0,X1,X2,X3,X4,X5,X6,X7; |
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uint64_t w[SKEIN_512_STATE_WORDS]; |
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uint64_t kw[SKEIN_512_STATE_WORDS+4]; |
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ts[0] = ctx->h.T[0]; |
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ts[1] = ctx->h.T[1]; |
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do { |
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ts[0] += byteCntAdd; |
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ks[0] = ctx->X[0]; |
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ks[1] = ctx->X[1]; |
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ks[2] = ctx->X[2]; |
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ks[3] = ctx->X[3]; |
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ks[4] = ctx->X[4]; |
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ks[5] = ctx->X[5]; |
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ks[6] = ctx->X[6]; |
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ks[7] = ctx->X[7]; |
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ks[8] = ks[0] ^ ks[1] ^ ks[2] ^ ks[3] ^ |
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ks[4] ^ ks[5] ^ ks[6] ^ ks[7] ^ SKEIN_KS_PARITY; |
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ts[2] = ts[0] ^ ts[1]; |
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memcpy(w, blkPtr, SKEIN_512_STATE_WORDS << 3); |
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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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X4 = w[4] + ks[4]; |
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X5 = w[5] + ks[5] + ts[0]; |
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X6 = w[6] + ks[6] + ts[1]; |
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X7 = w[7] + ks[7]; |
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blkPtr += SKEIN_512_BLOCK_BYTES; |
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R512_8_rounds( 0); |
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R512_8_rounds( 1); |
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R512_8_rounds( 2); |
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R512_8_rounds( 3); |
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R512_8_rounds( 4); |
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R512_8_rounds( 5); |
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R512_8_rounds( 6); |
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R512_8_rounds( 7); |
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R512_8_rounds( 8); |
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ctx->X[0] = X0 ^ w[0]; |
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ctx->X[1] = X1 ^ w[1]; |
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ctx->X[2] = X2 ^ w[2]; |
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ctx->X[3] = X3 ^ w[3]; |
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ctx->X[4] = X4 ^ w[4]; |
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ctx->X[5] = X5 ^ w[5]; |
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ctx->X[6] = X6 ^ w[6]; |
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ctx->X[7] = X7 ^ w[7]; |
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ts[1] &= ~SKEIN_T1_FLAG_FIRST; |
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} while (--blkCnt); |
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ctx->h.T[0] = ts[0]; |
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ctx->h.T[1] = ts[1]; |
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} |
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__device__ |
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void cn_skein_block(Skein_512_Ctxt_t * __restrict__ ctx, const uint8_t * __restrict__ msg, size_t msgByteCnt) |
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{ |
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size_t n; |
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if (msgByteCnt + ctx->h.bCnt > SKEIN_512_BLOCK_BYTES) |
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{ |
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if (ctx->h.bCnt) { |
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n = SKEIN_512_BLOCK_BYTES - ctx->h.bCnt; |
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if (n) { |
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memcpy(&ctx->b[ctx->h.bCnt],msg,n); |
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msgByteCnt -= n; |
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msg += n; |
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ctx->h.bCnt += n; |
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} |
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cn_skein_processblock(ctx, ctx->b, 1, SKEIN_512_BLOCK_BYTES); |
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ctx->h.bCnt = 0; |
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} |
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if (msgByteCnt > SKEIN_512_BLOCK_BYTES) { |
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n = (msgByteCnt - 1) / SKEIN_512_BLOCK_BYTES; |
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cn_skein_processblock(ctx, msg, n, SKEIN_512_BLOCK_BYTES); |
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msgByteCnt -= n * SKEIN_512_BLOCK_BYTES; |
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msg += n * SKEIN_512_BLOCK_BYTES; |
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} |
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} |
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if (msgByteCnt) { |
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memcpy(&ctx->b[ctx->h.bCnt],msg,msgByteCnt); |
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ctx->h.bCnt += msgByteCnt; |
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} |
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} |
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__device__ |
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void cn_skein_update(skeinHashState * __restrict__ state, const uint8_t * __restrict__ data, DataLength databitlen) |
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{ |
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if ((databitlen & 7) == 0) { |
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cn_skein_block(&state->u.ctx_512, data, databitlen >> 3); |
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} |
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else { |
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size_t bCnt = (databitlen >> 3) + 1; |
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uint8_t b,mask; |
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mask = (uint8_t) (1u << (7 - (databitlen & 7))); |
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b = (uint8_t) ((data[bCnt-1] & (0-mask)) | mask); |
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cn_skein_block(&state->u.ctx_512, data, bCnt - 1); |
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cn_skein_block(&state->u.ctx_512, &b, 1); |
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Skein_Set_Bit_Pad_Flag(state->u.h); |
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} |
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} |
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__device__ |
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void cn_skein_final(skeinHashState * __restrict__ state, uint8_t * __restrict__ hashVal) |
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{ |
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uint64_t X[SKEIN_512_STATE_WORDS]; |
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Skein_512_Ctxt_t *ctx = (Skein_512_Ctxt_t *)&state->u.ctx_512; |
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const int byteCnt = (ctx->h.hashBitLen + 7) >> 3; |
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ctx->h.T[1] |= SKEIN_T1_FLAG_FINAL; |
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if (ctx->h.bCnt < SKEIN_512_BLOCK_BYTES) |
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{ |
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memset(&ctx->b[ctx->h.bCnt], 0, SKEIN_512_BLOCK_BYTES - ctx->h.bCnt); |
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} |
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cn_skein_processblock(ctx, ctx->b, 1, ctx->h.bCnt); |
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memset(ctx->b, 0, sizeof(ctx->b)); |
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memcpy(X, ctx->X, sizeof(X)); |
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for (int i = 0; i*SKEIN_512_BLOCK_BYTES < byteCnt; i++) |
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{ |
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int n = byteCnt - i*SKEIN_512_BLOCK_BYTES; |
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if (n > SKEIN_512_BLOCK_BYTES) n = SKEIN_512_BLOCK_BYTES; |
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((uint64_t *)ctx->b)[0] = (uint64_t)i; |
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Skein_Start_New_Type(ctx, OUT_FINAL); |
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cn_skein_processblock(ctx, ctx->b, 1, sizeof(uint64_t)); |
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memcpy(hashVal + (i*SKEIN_512_BLOCK_BYTES), ctx->X, n); |
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memcpy(ctx->X, X, sizeof(X)); // restore the counter mode key for next time |
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} |
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} |
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__device__ |
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void cn_skein(const uint8_t * __restrict__ data, DataLength len, uint32_t * hashval) |
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{ |
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int hashbitlen = 256; |
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DataLength databitlen = len << 3; |
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skeinHashState state; |
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state.statebits = 64*SKEIN_512_STATE_WORDS; |
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cn_skein_init(&state, hashbitlen); |
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cn_skein_update(&state, data, databitlen); |
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cn_skein_final(&state, (uint8_t*) hashval); |
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}
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