mirror of
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366 lines
9.7 KiB
Common Lisp
366 lines
9.7 KiB
Common Lisp
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/**
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* Author......: See docs/credits.txt
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* License.....: MIT
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*/
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//#define NEW_SIMD_CODE
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// #define SECP256K1_TMPS_TYPE CONSTANT_AS
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#define SECP256K1_TMPS_TYPE PRIVATE_AS
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#ifdef KERNEL_STATIC
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#include M2S(INCLUDE_PATH/inc_vendor.h)
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#include M2S(INCLUDE_PATH/inc_types.h)
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#include M2S(INCLUDE_PATH/inc_platform.cl)
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#include M2S(INCLUDE_PATH/inc_common.cl)
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#include M2S(INCLUDE_PATH/inc_scalar.cl)
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#include M2S(INCLUDE_PATH/inc_hash_sha256.cl)
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#include M2S(INCLUDE_PATH/inc_hash_ripemd160.cl)
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#include M2S(INCLUDE_PATH/inc_ecc_secp256k1.cl)
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#endif
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// or use set_precomputed_basepoint_g () instead:
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// (set SECP256K1_TMPS_TYPE to CONSTANT_AS above:)
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// CONSTANT_AS const secp256k1_t preG =
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// {
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// {
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// SECP256K1_G_PRE_COMPUTED_00, SECP256K1_G_PRE_COMPUTED_01, SECP256K1_G_PRE_COMPUTED_02,
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// SECP256K1_G_PRE_COMPUTED_03, SECP256K1_G_PRE_COMPUTED_04, SECP256K1_G_PRE_COMPUTED_05,
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// SECP256K1_G_PRE_COMPUTED_06, SECP256K1_G_PRE_COMPUTED_07, SECP256K1_G_PRE_COMPUTED_08,
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// SECP256K1_G_PRE_COMPUTED_09, SECP256K1_G_PRE_COMPUTED_10, SECP256K1_G_PRE_COMPUTED_11,
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// SECP256K1_G_PRE_COMPUTED_12, SECP256K1_G_PRE_COMPUTED_13, SECP256K1_G_PRE_COMPUTED_14,
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// SECP256K1_G_PRE_COMPUTED_15, SECP256K1_G_PRE_COMPUTED_16, SECP256K1_G_PRE_COMPUTED_17,
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// SECP256K1_G_PRE_COMPUTED_18, SECP256K1_G_PRE_COMPUTED_19, SECP256K1_G_PRE_COMPUTED_20,
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// SECP256K1_G_PRE_COMPUTED_21, SECP256K1_G_PRE_COMPUTED_22, SECP256K1_G_PRE_COMPUTED_23,
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// SECP256K1_G_PRE_COMPUTED_24, SECP256K1_G_PRE_COMPUTED_25, SECP256K1_G_PRE_COMPUTED_26,
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// SECP256K1_G_PRE_COMPUTED_27, SECP256K1_G_PRE_COMPUTED_28, SECP256K1_G_PRE_COMPUTED_29,
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// SECP256K1_G_PRE_COMPUTED_30, SECP256K1_G_PRE_COMPUTED_31, SECP256K1_G_PRE_COMPUTED_32,
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// SECP256K1_G_PRE_COMPUTED_33, SECP256K1_G_PRE_COMPUTED_34, SECP256K1_G_PRE_COMPUTED_35,
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// SECP256K1_G_PRE_COMPUTED_36, SECP256K1_G_PRE_COMPUTED_37, SECP256K1_G_PRE_COMPUTED_38,
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// SECP256K1_G_PRE_COMPUTED_39, SECP256K1_G_PRE_COMPUTED_40, SECP256K1_G_PRE_COMPUTED_41,
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// SECP256K1_G_PRE_COMPUTED_42, SECP256K1_G_PRE_COMPUTED_43, SECP256K1_G_PRE_COMPUTED_44,
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// SECP256K1_G_PRE_COMPUTED_45, SECP256K1_G_PRE_COMPUTED_46, SECP256K1_G_PRE_COMPUTED_47,
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// SECP256K1_G_PRE_COMPUTED_48, SECP256K1_G_PRE_COMPUTED_49, SECP256K1_G_PRE_COMPUTED_50,
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// SECP256K1_G_PRE_COMPUTED_51, SECP256K1_G_PRE_COMPUTED_52, SECP256K1_G_PRE_COMPUTED_53,
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// SECP256K1_G_PRE_COMPUTED_54, SECP256K1_G_PRE_COMPUTED_55, SECP256K1_G_PRE_COMPUTED_56,
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// SECP256K1_G_PRE_COMPUTED_57, SECP256K1_G_PRE_COMPUTED_58, SECP256K1_G_PRE_COMPUTED_59,
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// SECP256K1_G_PRE_COMPUTED_60, SECP256K1_G_PRE_COMPUTED_61, SECP256K1_G_PRE_COMPUTED_62,
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// SECP256K1_G_PRE_COMPUTED_63, SECP256K1_G_PRE_COMPUTED_64, SECP256K1_G_PRE_COMPUTED_65,
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// SECP256K1_G_PRE_COMPUTED_66, SECP256K1_G_PRE_COMPUTED_67, SECP256K1_G_PRE_COMPUTED_68,
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// SECP256K1_G_PRE_COMPUTED_69, SECP256K1_G_PRE_COMPUTED_70, SECP256K1_G_PRE_COMPUTED_71,
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// SECP256K1_G_PRE_COMPUTED_72, SECP256K1_G_PRE_COMPUTED_73, SECP256K1_G_PRE_COMPUTED_74,
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// SECP256K1_G_PRE_COMPUTED_75, SECP256K1_G_PRE_COMPUTED_76, SECP256K1_G_PRE_COMPUTED_77,
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// SECP256K1_G_PRE_COMPUTED_78, SECP256K1_G_PRE_COMPUTED_79, SECP256K1_G_PRE_COMPUTED_80,
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// SECP256K1_G_PRE_COMPUTED_81, SECP256K1_G_PRE_COMPUTED_82, SECP256K1_G_PRE_COMPUTED_83,
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// SECP256K1_G_PRE_COMPUTED_84, SECP256K1_G_PRE_COMPUTED_85, SECP256K1_G_PRE_COMPUTED_86,
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// SECP256K1_G_PRE_COMPUTED_87, SECP256K1_G_PRE_COMPUTED_88, SECP256K1_G_PRE_COMPUTED_89,
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// SECP256K1_G_PRE_COMPUTED_90, SECP256K1_G_PRE_COMPUTED_91, SECP256K1_G_PRE_COMPUTED_92,
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// SECP256K1_G_PRE_COMPUTED_93, SECP256K1_G_PRE_COMPUTED_94, SECP256K1_G_PRE_COMPUTED_95,
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// }
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// };
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DECLSPEC u32 hex_convert_u32 (PRIVATE_AS const u32 c)
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{
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return (c & 15) + (c >> 6) * 9;
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}
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DECLSPEC u32 hex_u32_to_u32 (PRIVATE_AS const u32 hex0, PRIVATE_AS const u32 hex1)
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{
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u32 v = 0;
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v |= hex_convert_u32 ((hex0 >> 0) & 0xff) << 28;
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v |= hex_convert_u32 ((hex0 >> 8) & 0xff) << 24;
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v |= hex_convert_u32 ((hex0 >> 16) & 0xff) << 20;
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v |= hex_convert_u32 ((hex0 >> 24) & 0xff) << 16;
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v |= hex_convert_u32 ((hex1 >> 0) & 0xff) << 12;
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v |= hex_convert_u32 ((hex1 >> 8) & 0xff) << 8;
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v |= hex_convert_u32 ((hex1 >> 16) & 0xff) << 4;
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v |= hex_convert_u32 ((hex1 >> 24) & 0xff) << 0;
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return (v);
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}
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KERNEL_FQ void m30901_mxx (KERN_ATTR_VECTOR ())
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{
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/**
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* modifier
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*/
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const u64 gid = get_global_id (0);
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if (gid >= GID_CNT) return;
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/**
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* base
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*/
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const u32 pw_len = pws[gid].pw_len;
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if (pw_len != 64) return;
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// copy password to w
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u32 w[16];
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for (u32 i = 0; i < 16; i++) // pw_len / 4
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{
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w[i] = pws[gid].i[i];
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}
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for (u32 i = 1; i < 16; i++)
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{
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if (is_valid_hex_32 (w[i]) == 0) return;
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}
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secp256k1_t preG; // need to change SECP256K1_TMPS_TYPE above to: PRIVATE_AS
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set_precomputed_basepoint_g (&preG);
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/**
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* loop
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*/
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u32 w0l = w[0];
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for (u32 il_pos = 0; il_pos < IL_CNT; il_pos += VECT_SIZE)
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{
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u32x w0r = words_buf_r[il_pos / VECT_SIZE];
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const u32 w0 = w0l | w0r;
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w[0] = w0;
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if (is_valid_hex_32 (w[0]) == 0) continue;
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// convert password from hex to binary
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u32 tmp[16] = { 0 };
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for (u32 i = 0, j = 0; i < 8; i += 1, j += 2)
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{
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tmp[i] = hex_u32_to_u32 (w[j + 0], w[j + 1]);
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}
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u32 prv_key[9];
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prv_key[0] = tmp[7];
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prv_key[1] = tmp[6];
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prv_key[2] = tmp[5];
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prv_key[3] = tmp[4];
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prv_key[4] = tmp[3];
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prv_key[5] = tmp[2];
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prv_key[6] = tmp[1];
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prv_key[7] = tmp[0];
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// convert: pub_key = G * prv_key
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u32 x[8];
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u32 y[8];
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point_mul_xy (x, y, prv_key, &preG);
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// to public key:
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u32 pub_key[16] = { 0 }; // why is re-using the "tmp" variable here slower ?
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const u32 type = 0x02 | (y[0] & 1);
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pub_key[8] = (x[0] << 24);
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pub_key[7] = (x[0] >> 8) | (x[1] << 24);
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pub_key[6] = (x[1] >> 8) | (x[2] << 24);
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pub_key[5] = (x[2] >> 8) | (x[3] << 24);
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pub_key[4] = (x[3] >> 8) | (x[4] << 24);
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pub_key[3] = (x[4] >> 8) | (x[5] << 24);
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pub_key[2] = (x[5] >> 8) | (x[6] << 24);
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pub_key[1] = (x[6] >> 8) | (x[7] << 24);
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pub_key[0] = (x[7] >> 8) | (type << 24);
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// calculate HASH160 for pub key
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sha256_ctx_t ctx;
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sha256_init (&ctx);
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sha256_update (&ctx, pub_key, 33); // length of public key: 33
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sha256_final (&ctx);
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for (u32 i = 0; i < 8; i++) tmp[i] = ctx.h[i];
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// tmp[ 8] = 0; tmp[ 9] = 0; tmp[10] = 0; tmp[11] = 0;
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// tmp[12] = 0; tmp[13] = 0; tmp[14] = 0; tmp[15] = 0;
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for (u32 i = 8; i < 16; i++) tmp[i] = 0;
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// now let's do RIPEMD-160 on the sha256sum
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ripemd160_ctx_t rctx;
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ripemd160_init (&rctx);
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ripemd160_update_swap (&rctx, tmp, 32);
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ripemd160_final (&rctx);
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const u32 r0 = rctx.h[0];
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const u32 r1 = rctx.h[1];
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const u32 r2 = rctx.h[2];
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const u32 r3 = rctx.h[3];
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COMPARE_M_SCALAR (r0, r1, r2, r3);
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}
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}
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KERNEL_FQ void m30901_sxx (KERN_ATTR_VECTOR ())
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{
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/**
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* modifier
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*/
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const u64 gid = get_global_id (0);
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if (gid >= GID_CNT) return;
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/**
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* digest
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*/
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const u32 search[4] =
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{
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digests_buf[DIGESTS_OFFSET_HOST].digest_buf[DGST_R0],
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digests_buf[DIGESTS_OFFSET_HOST].digest_buf[DGST_R1],
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digests_buf[DIGESTS_OFFSET_HOST].digest_buf[DGST_R2],
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digests_buf[DIGESTS_OFFSET_HOST].digest_buf[DGST_R3]
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};
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/**
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* base
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*/
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const u32 pw_len = pws[gid].pw_len;
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if (pw_len != 64) return;
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// copy password to w
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u32 w[16];
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for (u32 i = 0; i < 16; i++) // pw_len / 4
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{
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w[i] = pws[gid].i[i];
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}
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for (u32 i = 1; i < 16; i++)
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{
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if (is_valid_hex_32 (w[i]) == 0) return;
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}
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secp256k1_t preG; // need to change SECP256K1_TMPS_TYPE above to: PRIVATE_AS
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set_precomputed_basepoint_g (&preG);
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/**
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* loop
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*/
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u32 w0l = w[0];
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for (u32 il_pos = 0; il_pos < IL_CNT; il_pos += VECT_SIZE)
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{
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u32x w0r = words_buf_r[il_pos / VECT_SIZE];
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const u32 w0 = w0l | w0r;
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w[0] = w0;
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if (is_valid_hex_32 (w[0]) == 0) continue;
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// convert password from hex to binary
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u32 tmp[16] = { 0 };
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for (u32 i = 0, j = 0; i < 8; i += 1, j += 2)
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{
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tmp[i] = hex_u32_to_u32 (w[j + 0], w[j + 1]);
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}
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u32 prv_key[9];
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prv_key[0] = tmp[7];
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prv_key[1] = tmp[6];
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prv_key[2] = tmp[5];
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prv_key[3] = tmp[4];
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prv_key[4] = tmp[3];
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prv_key[5] = tmp[2];
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prv_key[6] = tmp[1];
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prv_key[7] = tmp[0];
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// convert: pub_key = G * prv_key
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u32 x[8];
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u32 y[8];
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point_mul_xy (x, y, prv_key, &preG);
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// to public key:
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u32 pub_key[16] = { 0 }; // why is re-using the "tmp" variable here slower ?
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const u32 type = 0x02 | (y[0] & 1);
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pub_key[8] = (x[0] << 24);
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pub_key[7] = (x[0] >> 8) | (x[1] << 24);
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pub_key[6] = (x[1] >> 8) | (x[2] << 24);
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pub_key[5] = (x[2] >> 8) | (x[3] << 24);
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pub_key[4] = (x[3] >> 8) | (x[4] << 24);
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pub_key[3] = (x[4] >> 8) | (x[5] << 24);
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pub_key[2] = (x[5] >> 8) | (x[6] << 24);
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pub_key[1] = (x[6] >> 8) | (x[7] << 24);
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pub_key[0] = (x[7] >> 8) | (type << 24);
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// calculate HASH160 for pub key
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sha256_ctx_t ctx;
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sha256_init (&ctx);
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sha256_update (&ctx, pub_key, 33); // length of public key: 33
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sha256_final (&ctx);
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for (u32 i = 0; i < 8; i++) tmp[i] = ctx.h[i];
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// tmp[ 8] = 0; tmp[ 9] = 0; tmp[10] = 0; tmp[11] = 0;
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// tmp[12] = 0; tmp[13] = 0; tmp[14] = 0; tmp[15] = 0;
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for (u32 i = 8; i < 16; i++) tmp[i] = 0;
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// now let's do RIPEMD-160 on the sha256sum
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ripemd160_ctx_t rctx;
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ripemd160_init (&rctx);
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ripemd160_update_swap (&rctx, tmp, 32);
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ripemd160_final (&rctx);
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const u32 r0 = rctx.h[0];
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const u32 r1 = rctx.h[1];
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const u32 r2 = rctx.h[2];
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const u32 r3 = rctx.h[3];
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COMPARE_S_SCALAR (r0, r1, r2, r3);
|
||
|
}
|
||
|
}
|