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423 lines
10 KiB
Common Lisp
423 lines
10 KiB
Common Lisp
/**
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* Author......: See docs/credits.txt
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* License.....: MIT
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*/
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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_hash_sha512.cl)
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#endif
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#define COMPARE_S M2S(INCLUDE_PATH/inc_comp_single.cl)
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#define COMPARE_M M2S(INCLUDE_PATH/inc_comp_multi.cl)
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typedef struct sha512crypt_tmp
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{
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u64 l_alt_result[8];
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u64 l_p_bytes[2];
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u64 l_s_bytes[2];
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// pure version
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u32 alt_result[16];
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u32 p_bytes[64];
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u32 s_bytes[64];
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} sha512crypt_tmp_t;
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KERNEL_FQ void m01800_init (KERN_ATTR_TMPS (sha512crypt_tmp_t))
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{
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/**
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* base
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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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* init
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*/
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const u32 pw_len = pws[gid].pw_len;
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u32 w[64] = { 0 };
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for (u32 i = 0, idx = 0; i < pw_len; i += 4, idx += 1)
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{
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w[idx] = pws[gid].i[idx];
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}
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for (u32 i = 0, idx = 0; i < pw_len; i += 4, idx += 1)
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{
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w[idx] = hc_swap32_S (w[idx]);
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}
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const u32 salt_len = salt_bufs[SALT_POS_HOST].salt_len;
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u32 s[64] = { 0 };
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for (u32 i = 0, idx = 0; i < salt_len; i += 4, idx += 1)
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{
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s[idx] = salt_bufs[SALT_POS_HOST].salt_buf[idx];
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}
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for (u32 i = 0, idx = 0; i < salt_len; i += 4, idx += 1)
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{
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s[idx] = hc_swap32_S (s[idx]);
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}
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/**
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* prepare
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*/
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sha512_ctx_t ctx;
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sha512_init (&ctx);
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sha512_update (&ctx, w, pw_len);
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sha512_update (&ctx, s, salt_len);
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sha512_update (&ctx, w, pw_len);
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sha512_final (&ctx);
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u32 final[32] = { 0 };
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final[ 0] = h32_from_64_S (ctx.h[0]);
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final[ 1] = l32_from_64_S (ctx.h[0]);
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final[ 2] = h32_from_64_S (ctx.h[1]);
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final[ 3] = l32_from_64_S (ctx.h[1]);
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final[ 4] = h32_from_64_S (ctx.h[2]);
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final[ 5] = l32_from_64_S (ctx.h[2]);
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final[ 6] = h32_from_64_S (ctx.h[3]);
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final[ 7] = l32_from_64_S (ctx.h[3]);
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final[ 8] = h32_from_64_S (ctx.h[4]);
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final[ 9] = l32_from_64_S (ctx.h[4]);
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final[10] = h32_from_64_S (ctx.h[5]);
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final[11] = l32_from_64_S (ctx.h[5]);
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final[12] = h32_from_64_S (ctx.h[6]);
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final[13] = l32_from_64_S (ctx.h[6]);
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final[14] = h32_from_64_S (ctx.h[7]);
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final[15] = l32_from_64_S (ctx.h[7]);
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// alt_result
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sha512_init (&ctx);
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sha512_update (&ctx, w, pw_len);
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sha512_update (&ctx, s, salt_len);
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int pl;
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for (pl = pw_len; pl > 64; pl -= 64)
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{
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sha512_update (&ctx, final, 64);
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}
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u32 t_final[32] = { 0 };
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#ifdef _unroll
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#pragma unroll
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#endif
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for (int i = 0; i < 16; i++) t_final[i] = final[i];
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truncate_block_16x4_be_S (t_final + 0, t_final + 4, t_final + 8, t_final + 12, pl);
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sha512_update (&ctx, t_final, pl);
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for (int cnt = pw_len; cnt > 0; cnt >>= 1)
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{
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if ((cnt & 1) != 0)
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{
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sha512_update (&ctx, final, 64);
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}
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else
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{
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sha512_update (&ctx, w, pw_len);
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}
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}
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sha512_final (&ctx);
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tmps[gid].alt_result[ 0] = h32_from_64_S (ctx.h[0]);
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tmps[gid].alt_result[ 1] = l32_from_64_S (ctx.h[0]);
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tmps[gid].alt_result[ 2] = h32_from_64_S (ctx.h[1]);
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tmps[gid].alt_result[ 3] = l32_from_64_S (ctx.h[1]);
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tmps[gid].alt_result[ 4] = h32_from_64_S (ctx.h[2]);
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tmps[gid].alt_result[ 5] = l32_from_64_S (ctx.h[2]);
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tmps[gid].alt_result[ 6] = h32_from_64_S (ctx.h[3]);
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tmps[gid].alt_result[ 7] = l32_from_64_S (ctx.h[3]);
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tmps[gid].alt_result[ 8] = h32_from_64_S (ctx.h[4]);
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tmps[gid].alt_result[ 9] = l32_from_64_S (ctx.h[4]);
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tmps[gid].alt_result[10] = h32_from_64_S (ctx.h[5]);
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tmps[gid].alt_result[11] = l32_from_64_S (ctx.h[5]);
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tmps[gid].alt_result[12] = h32_from_64_S (ctx.h[6]);
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tmps[gid].alt_result[13] = l32_from_64_S (ctx.h[6]);
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tmps[gid].alt_result[14] = h32_from_64_S (ctx.h[7]);
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tmps[gid].alt_result[15] = l32_from_64_S (ctx.h[7]);
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// p_bytes
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sha512_init (&ctx);
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for (u32 j = 0; j < pw_len; j++)
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{
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sha512_update (&ctx, w, pw_len);
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}
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sha512_final (&ctx);
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final[ 0] = h32_from_64_S (ctx.h[0]);
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final[ 1] = l32_from_64_S (ctx.h[0]);
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final[ 2] = h32_from_64_S (ctx.h[1]);
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final[ 3] = l32_from_64_S (ctx.h[1]);
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final[ 4] = h32_from_64_S (ctx.h[2]);
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final[ 5] = l32_from_64_S (ctx.h[2]);
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final[ 6] = h32_from_64_S (ctx.h[3]);
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final[ 7] = l32_from_64_S (ctx.h[3]);
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final[ 8] = h32_from_64_S (ctx.h[4]);
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final[ 9] = l32_from_64_S (ctx.h[4]);
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final[10] = h32_from_64_S (ctx.h[5]);
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final[11] = l32_from_64_S (ctx.h[5]);
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final[12] = h32_from_64_S (ctx.h[6]);
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final[13] = l32_from_64_S (ctx.h[6]);
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final[14] = h32_from_64_S (ctx.h[7]);
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final[15] = l32_from_64_S (ctx.h[7]);
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u32 p_final[64] = { 0 };
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int idx;
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for (pl = pw_len, idx = 0; pl > 64; pl -= 64, idx += 16)
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{
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p_final[idx + 0] = final[ 0];
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p_final[idx + 1] = final[ 1];
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p_final[idx + 2] = final[ 2];
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p_final[idx + 3] = final[ 3];
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p_final[idx + 4] = final[ 4];
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p_final[idx + 5] = final[ 5];
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p_final[idx + 6] = final[ 6];
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p_final[idx + 7] = final[ 7];
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p_final[idx + 8] = final[ 8];
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p_final[idx + 9] = final[ 9];
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p_final[idx + 10] = final[10];
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p_final[idx + 11] = final[11];
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p_final[idx + 12] = final[12];
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p_final[idx + 13] = final[13];
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p_final[idx + 14] = final[14];
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p_final[idx + 15] = final[15];
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}
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truncate_block_16x4_be_S (final + 0, final + 4, final + 8, final + 12, pl);
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p_final[idx + 0] = final[ 0];
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p_final[idx + 1] = final[ 1];
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p_final[idx + 2] = final[ 2];
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p_final[idx + 3] = final[ 3];
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p_final[idx + 4] = final[ 4];
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p_final[idx + 5] = final[ 5];
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p_final[idx + 6] = final[ 6];
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p_final[idx + 7] = final[ 7];
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p_final[idx + 8] = final[ 8];
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p_final[idx + 9] = final[ 9];
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p_final[idx + 10] = final[10];
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p_final[idx + 11] = final[11];
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p_final[idx + 12] = final[12];
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p_final[idx + 13] = final[13];
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p_final[idx + 14] = final[14];
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p_final[idx + 15] = final[15];
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#ifdef _unroll
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#pragma unroll
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#endif
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for (int i = 0; i < 64; i++) tmps[gid].p_bytes[i] = p_final[i];
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// s_bytes
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sha512_init (&ctx);
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for (u32 j = 0; j < 16 + (tmps[gid].alt_result[0] >> 24); j++)
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{
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sha512_update (&ctx, s, salt_len);
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}
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sha512_final (&ctx);
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final[ 0] = h32_from_64_S (ctx.h[0]);
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final[ 1] = l32_from_64_S (ctx.h[0]);
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final[ 2] = h32_from_64_S (ctx.h[1]);
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final[ 3] = l32_from_64_S (ctx.h[1]);
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final[ 4] = h32_from_64_S (ctx.h[2]);
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final[ 5] = l32_from_64_S (ctx.h[2]);
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final[ 6] = h32_from_64_S (ctx.h[3]);
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final[ 7] = l32_from_64_S (ctx.h[3]);
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final[ 8] = h32_from_64_S (ctx.h[4]);
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final[ 9] = l32_from_64_S (ctx.h[4]);
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final[10] = h32_from_64_S (ctx.h[5]);
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final[11] = l32_from_64_S (ctx.h[5]);
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final[12] = h32_from_64_S (ctx.h[6]);
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final[13] = l32_from_64_S (ctx.h[6]);
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final[14] = h32_from_64_S (ctx.h[7]);
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final[15] = l32_from_64_S (ctx.h[7]);
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u32 s_final[64] = { 0 };
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for (pl = salt_len, idx = 0; pl > 64; pl -= 64, idx += 16)
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{
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s_final[idx + 0] = final[ 0];
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s_final[idx + 1] = final[ 1];
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s_final[idx + 2] = final[ 2];
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s_final[idx + 3] = final[ 3];
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s_final[idx + 4] = final[ 4];
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s_final[idx + 5] = final[ 5];
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s_final[idx + 6] = final[ 6];
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s_final[idx + 7] = final[ 7];
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s_final[idx + 8] = final[ 8];
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s_final[idx + 9] = final[ 9];
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s_final[idx + 10] = final[10];
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s_final[idx + 11] = final[11];
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s_final[idx + 12] = final[12];
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s_final[idx + 13] = final[13];
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s_final[idx + 14] = final[14];
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s_final[idx + 15] = final[15];
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}
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truncate_block_16x4_be_S (final + 0, final + 4, final + 8, final + 12, pl);
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s_final[idx + 0] = final[ 0];
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s_final[idx + 1] = final[ 1];
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s_final[idx + 2] = final[ 2];
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s_final[idx + 3] = final[ 3];
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s_final[idx + 4] = final[ 4];
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s_final[idx + 5] = final[ 5];
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s_final[idx + 6] = final[ 6];
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s_final[idx + 7] = final[ 7];
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s_final[idx + 8] = final[ 8];
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s_final[idx + 9] = final[ 9];
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s_final[idx + 10] = final[10];
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s_final[idx + 11] = final[11];
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s_final[idx + 12] = final[12];
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s_final[idx + 13] = final[13];
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s_final[idx + 14] = final[14];
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s_final[idx + 15] = final[15];
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#ifdef _unroll
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#pragma unroll
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#endif
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for (int i = 0; i < 64; i++) tmps[gid].s_bytes[i] = s_final[i];
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}
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KERNEL_FQ void m01800_loop (KERN_ATTR_TMPS (sha512crypt_tmp_t))
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{
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/**
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* base
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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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const u32 pw_len = pws[gid].pw_len;
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const u32 salt_len = salt_bufs[SALT_POS_HOST].salt_len;
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u32 alt_result[32] = { 0 };
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#ifdef _unroll
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#pragma unroll
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#endif
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for (int i = 0; i < 16; i++) alt_result[i] = tmps[gid].alt_result[i];
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/* Repeatedly run the collected hash value through SHA512 to burn
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CPU cycles. */
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for (u32 i = 0, j = LOOP_POS; i < LOOP_CNT; i++, j++)
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{
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sha512_ctx_t ctx;
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sha512_init (&ctx);
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if (j & 1)
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{
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sha512_update_global (&ctx, tmps[gid].p_bytes, pw_len);
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}
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else
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{
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sha512_update (&ctx, alt_result, 64);
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}
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if (j % 3)
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{
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sha512_update_global (&ctx, tmps[gid].s_bytes, salt_len);
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}
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if (j % 7)
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{
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sha512_update_global (&ctx, tmps[gid].p_bytes, pw_len);
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}
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if (j & 1)
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{
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sha512_update (&ctx, alt_result, 64);
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}
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else
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{
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sha512_update_global (&ctx, tmps[gid].p_bytes, pw_len);
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}
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sha512_final (&ctx);
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alt_result[ 0] = h32_from_64_S (ctx.h[0]);
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alt_result[ 1] = l32_from_64_S (ctx.h[0]);
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alt_result[ 2] = h32_from_64_S (ctx.h[1]);
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alt_result[ 3] = l32_from_64_S (ctx.h[1]);
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alt_result[ 4] = h32_from_64_S (ctx.h[2]);
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alt_result[ 5] = l32_from_64_S (ctx.h[2]);
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alt_result[ 6] = h32_from_64_S (ctx.h[3]);
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alt_result[ 7] = l32_from_64_S (ctx.h[3]);
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alt_result[ 8] = h32_from_64_S (ctx.h[4]);
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alt_result[ 9] = l32_from_64_S (ctx.h[4]);
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alt_result[10] = h32_from_64_S (ctx.h[5]);
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alt_result[11] = l32_from_64_S (ctx.h[5]);
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alt_result[12] = h32_from_64_S (ctx.h[6]);
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alt_result[13] = l32_from_64_S (ctx.h[6]);
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alt_result[14] = h32_from_64_S (ctx.h[7]);
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alt_result[15] = l32_from_64_S (ctx.h[7]);
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}
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#ifdef _unroll
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#pragma unroll
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#endif
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for (int i = 0; i < 16; i++) tmps[gid].alt_result[i] = alt_result[i];
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}
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KERNEL_FQ void m01800_comp (KERN_ATTR_TMPS (sha512crypt_tmp_t))
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{
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/**
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* base
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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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const u64 lid = get_local_id (0);
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const u32 r0 = hc_swap32_S (tmps[gid].alt_result[0]);
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const u32 r1 = hc_swap32_S (tmps[gid].alt_result[1]);
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const u32 r2 = hc_swap32_S (tmps[gid].alt_result[2]);
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const u32 r3 = hc_swap32_S (tmps[gid].alt_result[3]);
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#define il_pos 0
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#ifdef KERNEL_STATIC
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#include COMPARE_M
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#endif
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}
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