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mirror of https://github.com/hashcat/hashcat synced 2024-11-02 20:39:22 +01:00
hashcat/OpenCL/rp.c
jsteube dad03e394d Fixed two major problems
1) SIMD code for all attack-mode

Macro vector_accessible() was not refactored and missing completely.
Had to rename variables rules_cnt, combs_cnt and bfs_cnt into il_cnt which was a good thing anyway as with new SIMD code they all act in the same way.

2) SIMD code for attack-mode 0

With new SIMD code, apply_rules_vect() has to return u32 not u32x.
This has massive impact on all *_a0 kernels.

I've rewritten most of them. Deep testing using test.sh is still required.

Some kernel need more fixes:

- Some are kind of completely incompatible like m10400 but they still use old check_* includes, we should get rid of them as they are no longer neccessary as we have simd.c
- Some have a chance but require additional effort like m11500. We can use commented out "#define NEW_SIMD_CODE" to find them

This change can have negative impact on -a0 performance for device that require vectorization. That is mostly CPU devices. New GPU's are all scalar, so they wont get hurt by this.
This change also proofes that there's no way to efficiently vectorize kernel rules with new SIMD code, but it enables the addition of the rule functions like @ that we were missing for some long time. This is a TODO.
2016-02-27 17:18:54 +01:00

4354 lines
161 KiB
C

/**
* Authors.....: Jens Steube <jens.steube@gmail.com>
* magnum <john.magnum@hushmail.com>
*
* License.....: MIT
*/
u32 apply_rule (const u32 name, const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len);
u32 apply_rules (const __global u32 *cmds, u32 buf0[4], u32 buf1[4], const u32 len);
u32x apply_rules_vect (const u32 pw_buf0[4], const u32 pw_buf1[4], const u32 pw_len, const __global kernel_rule_t *rules_buf, const u32 il_pos, u32x w0[4], u32x w1[4]);
static u32 generate_cmask (u32 buf)
{
const u32 rmask = ((buf & 0x40404040) >> 1)
& ~((buf & 0x80808080) >> 2);
const u32 hmask = (buf & 0x1f1f1f1f) + 0x05050505;
const u32 lmask = (buf & 0x1f1f1f1f) + 0x1f1f1f1f;
return rmask & ~hmask & lmask;
}
static void truncate_right (u32 w0[4], u32 w1[4], const u32 len)
{
const u32 tmp = (1 << ((len % 4) * 8)) - 1;
switch (len / 4)
{
case 0: w0[0] &= tmp;
w0[1] = 0;
w0[2] = 0;
w0[3] = 0;
w1[0] = 0;
w1[1] = 0;
w1[2] = 0;
w1[3] = 0;
break;
case 1: w0[1] &= tmp;
w0[2] = 0;
w0[3] = 0;
w1[0] = 0;
w1[1] = 0;
w1[2] = 0;
w1[3] = 0;
break;
case 2: w0[2] &= tmp;
w0[3] = 0;
w1[0] = 0;
w1[1] = 0;
w1[2] = 0;
w1[3] = 0;
break;
case 3: w0[3] &= tmp;
w1[0] = 0;
w1[1] = 0;
w1[2] = 0;
w1[3] = 0;
break;
case 4: w1[0] &= tmp;
w1[1] = 0;
w1[2] = 0;
w1[3] = 0;
break;
case 5: w1[1] &= tmp;
w1[2] = 0;
w1[3] = 0;
break;
case 6: w1[2] &= tmp;
w1[3] = 0;
break;
case 7: w1[3] &= tmp;
break;
}
}
static void truncate_left (u32 w0[4], u32 w1[4], const u32 len)
{
const u32 tmp = ~((1 << ((len % 4) * 8)) - 1);
switch (len / 4)
{
case 0: w0[0] &= tmp;
break;
case 1: w0[0] = 0;
w0[1] &= tmp;
break;
case 2: w0[0] = 0;
w0[1] = 0;
w0[2] &= tmp;
break;
case 3: w0[0] = 0;
w0[1] = 0;
w0[2] = 0;
w0[3] &= tmp;
break;
case 4: w0[0] = 0;
w0[1] = 0;
w0[2] = 0;
w0[3] = 0;
w1[0] &= tmp;
break;
case 5: w0[0] = 0;
w0[1] = 0;
w0[2] = 0;
w0[3] = 0;
w1[0] = 0;
w1[1] &= tmp;
break;
case 6: w0[0] = 0;
w0[1] = 0;
w0[2] = 0;
w0[3] = 0;
w1[0] = 0;
w1[1] = 0;
w1[2] &= tmp;
break;
case 7: w0[0] = 0;
w0[1] = 0;
w0[2] = 0;
w0[3] = 0;
w1[0] = 0;
w1[1] = 0;
w1[2] = 0;
w1[3] &= tmp;
break;
}
}
static void lshift_block (const u32 in0[4], const u32 in1[4], u32 out0[4], u32 out1[4])
{
#ifdef IS_NV
out0[0] = __byte_perm_S (in0[0], in0[1], 0x4321);
out0[1] = __byte_perm_S (in0[1], in0[2], 0x4321);
out0[2] = __byte_perm_S (in0[2], in0[3], 0x4321);
out0[3] = __byte_perm_S (in0[3], in1[0], 0x4321);
out1[0] = __byte_perm_S (in1[0], in1[1], 0x4321);
out1[1] = __byte_perm_S (in1[1], in1[2], 0x4321);
out1[2] = __byte_perm_S (in1[2], in1[3], 0x4321);
out1[3] = __byte_perm_S (in1[3], 0, 0x4321);
#endif
#if defined IS_AMD || defined IS_GENERIC
out0[0] = amd_bytealign_S (in0[1], in0[0], 1);
out0[1] = amd_bytealign_S (in0[2], in0[1], 1);
out0[2] = amd_bytealign_S (in0[3], in0[2], 1);
out0[3] = amd_bytealign_S (in1[0], in0[3], 1);
out1[0] = amd_bytealign_S (in1[1], in1[0], 1);
out1[1] = amd_bytealign_S (in1[2], in1[1], 1);
out1[2] = amd_bytealign_S (in1[3], in1[2], 1);
out1[3] = amd_bytealign_S ( 0, in1[3], 1);
#endif
}
static void rshift_block (const u32 in0[4], const u32 in1[4], u32 out0[4], u32 out1[4])
{
#ifdef IS_NV
out1[3] = __byte_perm_S (in1[2], in1[3], 0x6543);
out1[2] = __byte_perm_S (in1[1], in1[2], 0x6543);
out1[1] = __byte_perm_S (in1[0], in1[1], 0x6543);
out1[0] = __byte_perm_S (in0[3], in1[0], 0x6543);
out0[3] = __byte_perm_S (in0[2], in0[3], 0x6543);
out0[2] = __byte_perm_S (in0[1], in0[2], 0x6543);
out0[1] = __byte_perm_S (in0[0], in0[1], 0x6543);
out0[0] = __byte_perm_S ( 0, in0[0], 0x6543);
#endif
#if defined IS_AMD || defined IS_GENERIC
out1[3] = amd_bytealign_S (in1[3], in1[2], 3);
out1[2] = amd_bytealign_S (in1[2], in1[1], 3);
out1[1] = amd_bytealign_S (in1[1], in1[0], 3);
out1[0] = amd_bytealign_S (in1[0], in0[3], 3);
out0[3] = amd_bytealign_S (in0[3], in0[2], 3);
out0[2] = amd_bytealign_S (in0[2], in0[1], 3);
out0[1] = amd_bytealign_S (in0[1], in0[0], 3);
out0[0] = amd_bytealign_S (in0[0], 0, 3);
#endif
}
static void lshift_block_N (const u32 in0[4], const u32 in1[4], u32 out0[4], u32 out1[4], const u32 num)
{
#ifdef IS_NV
switch (num)
{
case 0: out0[0] = in0[0];
out0[1] = in0[1];
out0[2] = in0[2];
out0[3] = in0[3];
out1[0] = in1[0];
out1[1] = in1[1];
out1[2] = in1[2];
out1[3] = in1[3];
break;
case 1: out0[0] = __byte_perm_S (in0[0], in0[1], 0x4321);
out0[1] = __byte_perm_S (in0[1], in0[2], 0x4321);
out0[2] = __byte_perm_S (in0[2], in0[3], 0x4321);
out0[3] = __byte_perm_S (in0[3], in1[0], 0x4321);
out1[0] = __byte_perm_S (in1[0], in1[1], 0x4321);
out1[1] = __byte_perm_S (in1[1], in1[2], 0x4321);
out1[2] = __byte_perm_S (in1[2], in1[3], 0x4321);
out1[3] = __byte_perm_S (in1[3], 0, 0x4321);
break;
case 2: out0[0] = __byte_perm_S (in0[0], in0[1], 0x5432);
out0[1] = __byte_perm_S (in0[1], in0[2], 0x5432);
out0[2] = __byte_perm_S (in0[2], in0[3], 0x5432);
out0[3] = __byte_perm_S (in0[3], in1[0], 0x5432);
out1[0] = __byte_perm_S (in1[0], in1[1], 0x5432);
out1[1] = __byte_perm_S (in1[1], in1[2], 0x5432);
out1[2] = __byte_perm_S (in1[2], in1[3], 0x5432);
out1[3] = __byte_perm_S (in1[3], 0, 0x5432);
break;
case 3: out0[0] = __byte_perm_S (in0[0], in0[1], 0x6543);
out0[1] = __byte_perm_S (in0[1], in0[2], 0x6543);
out0[2] = __byte_perm_S (in0[2], in0[3], 0x6543);
out0[3] = __byte_perm_S (in0[3], in1[0], 0x6543);
out1[0] = __byte_perm_S (in1[0], in1[1], 0x6543);
out1[1] = __byte_perm_S (in1[1], in1[2], 0x6543);
out1[2] = __byte_perm_S (in1[2], in1[3], 0x6543);
out1[3] = __byte_perm_S (in1[3], 0, 0x6543);
break;
case 4: out0[0] = in0[1];
out0[1] = in0[2];
out0[2] = in0[3];
out0[3] = in1[0];
out1[0] = in1[1];
out1[1] = in1[2];
out1[2] = in1[3];
out1[3] = 0;
break;
case 5: out0[0] = __byte_perm_S (in0[1], in0[2], 0x4321);
out0[1] = __byte_perm_S (in0[2], in0[3], 0x4321);
out0[2] = __byte_perm_S (in0[3], in1[0], 0x4321);
out0[3] = __byte_perm_S (in1[0], in1[1], 0x4321);
out1[0] = __byte_perm_S (in1[1], in1[2], 0x4321);
out1[1] = __byte_perm_S (in1[2], in1[3], 0x4321);
out1[2] = __byte_perm_S (in1[3], 0, 0x4321);
out1[3] = 0;
break;
case 6: out0[0] = __byte_perm_S (in0[1], in0[2], 0x5432);
out0[1] = __byte_perm_S (in0[2], in0[3], 0x5432);
out0[2] = __byte_perm_S (in0[3], in1[0], 0x5432);
out0[3] = __byte_perm_S (in1[0], in1[1], 0x5432);
out1[0] = __byte_perm_S (in1[1], in1[2], 0x5432);
out1[1] = __byte_perm_S (in1[2], in1[3], 0x5432);
out1[2] = __byte_perm_S (in1[3], 0, 0x5432);
out1[3] = 0;
break;
case 7: out0[0] = __byte_perm_S (in0[1], in0[2], 0x6543);
out0[1] = __byte_perm_S (in0[2], in0[3], 0x6543);
out0[2] = __byte_perm_S (in0[3], in1[0], 0x6543);
out0[3] = __byte_perm_S (in1[0], in1[1], 0x6543);
out1[0] = __byte_perm_S (in1[1], in1[2], 0x6543);
out1[1] = __byte_perm_S (in1[2], in1[3], 0x6543);
out1[2] = __byte_perm_S (in1[3], 0, 0x6543);
out1[3] = 0;
break;
case 8: out0[0] = in0[2];
out0[1] = in0[3];
out0[2] = in1[0];
out0[3] = in1[1];
out1[0] = in1[2];
out1[1] = in1[3];
out1[2] = 0;
out1[3] = 0;
break;
case 9: out0[0] = __byte_perm_S (in0[2], in0[3], 0x4321);
out0[1] = __byte_perm_S (in0[3], in1[0], 0x4321);
out0[2] = __byte_perm_S (in1[0], in1[1], 0x4321);
out0[3] = __byte_perm_S (in1[1], in1[2], 0x4321);
out1[0] = __byte_perm_S (in1[2], in1[3], 0x4321);
out1[1] = __byte_perm_S (in1[3], 0, 0x4321);
out1[2] = 0;
out1[3] = 0;
break;
case 10: out0[0] = __byte_perm_S (in0[2], in0[3], 0x5432);
out0[1] = __byte_perm_S (in0[3], in1[0], 0x5432);
out0[2] = __byte_perm_S (in1[0], in1[1], 0x5432);
out0[3] = __byte_perm_S (in1[1], in1[2], 0x5432);
out1[0] = __byte_perm_S (in1[2], in1[3], 0x5432);
out1[1] = __byte_perm_S (in1[3], 0, 0x5432);
out1[2] = 0;
out1[3] = 0;
break;
case 11: out0[0] = __byte_perm_S (in0[2], in0[3], 0x6543);
out0[1] = __byte_perm_S (in0[3], in1[0], 0x6543);
out0[2] = __byte_perm_S (in1[0], in1[1], 0x6543);
out0[3] = __byte_perm_S (in1[1], in1[2], 0x6543);
out1[0] = __byte_perm_S (in1[2], in1[3], 0x6543);
out1[1] = __byte_perm_S (in1[3], 0, 0x6543);
out1[2] = 0;
out1[3] = 0;
break;
case 12: out0[0] = in0[3];
out0[1] = in1[0];
out0[2] = in1[1];
out0[3] = in1[2];
out1[0] = in1[3];
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 13:
out0[0] = __byte_perm_S (in0[3], in1[0], 0x4321);
out0[1] = __byte_perm_S (in1[0], in1[1], 0x4321);
out0[2] = __byte_perm_S (in1[1], in1[2], 0x4321);
out0[3] = __byte_perm_S (in1[2], in1[3], 0x4321);
out1[0] = __byte_perm_S (in1[3], 0, 0x4321);
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 14: out0[0] = __byte_perm_S (in0[3], in1[0], 0x5432);
out0[1] = __byte_perm_S (in1[0], in1[1], 0x5432);
out0[2] = __byte_perm_S (in1[1], in1[2], 0x5432);
out0[3] = __byte_perm_S (in1[2], in1[3], 0x5432);
out1[0] = __byte_perm_S (in1[3], 0, 0x5432);
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 15: out0[0] = __byte_perm_S (in0[3], in1[0], 0x6543);
out0[1] = __byte_perm_S (in1[0], in1[1], 0x6543);
out0[2] = __byte_perm_S (in1[1], in1[2], 0x6543);
out0[3] = __byte_perm_S (in1[2], in1[3], 0x6543);
out1[0] = __byte_perm_S (in1[3], 0, 0x6543);
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 16: out0[0] = in1[0];
out0[1] = in1[1];
out0[2] = in1[2];
out0[3] = in1[3];
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 17: out0[0] = __byte_perm_S (in1[0], in1[1], 0x4321);
out0[1] = __byte_perm_S (in1[1], in1[2], 0x4321);
out0[2] = __byte_perm_S (in1[2], in1[3], 0x4321);
out0[3] = __byte_perm_S (in1[3], 0, 0x4321);
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 18: out0[0] = __byte_perm_S (in1[0], in1[1], 0x5432);
out0[1] = __byte_perm_S (in1[1], in1[2], 0x5432);
out0[2] = __byte_perm_S (in1[2], in1[3], 0x5432);
out0[3] = __byte_perm_S (in1[3], 0, 0x5432);
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 19: out0[0] = __byte_perm_S (in1[0], in1[1], 0x6543);
out0[1] = __byte_perm_S (in1[1], in1[2], 0x6543);
out0[2] = __byte_perm_S (in1[2], in1[3], 0x6543);
out0[3] = __byte_perm_S (in1[3], 0, 0x6543);
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 20: out0[0] = in1[1];
out0[1] = in1[2];
out0[2] = in1[3];
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 21: out0[0] = __byte_perm_S (in1[1], in1[2], 0x4321);
out0[1] = __byte_perm_S (in1[2], in1[3], 0x4321);
out0[2] = __byte_perm_S (in1[3], 0, 0x4321);
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 22: out0[0] = __byte_perm_S (in1[1], in1[2], 0x5432);
out0[1] = __byte_perm_S (in1[2], in1[3], 0x5432);
out0[2] = __byte_perm_S (in1[3], 0, 0x5432);
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 23: out0[0] = __byte_perm_S (in1[1], in1[2], 0x6543);
out0[1] = __byte_perm_S (in1[2], in1[3], 0x6543);
out0[2] = __byte_perm_S (in1[3], 0, 0x6543);
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 24: out0[0] = in1[2];
out0[1] = in1[3];
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 25: out0[0] = __byte_perm_S (in1[2], in1[3], 0x4321);
out0[1] = __byte_perm_S (in1[3], 0, 0x4321);
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 26: out0[0] = __byte_perm_S (in1[2], in1[3], 0x5432);
out0[1] = __byte_perm_S (in1[3], 0, 0x5432);
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 27: out0[0] = __byte_perm_S (in1[2], in1[3], 0x6543);
out0[1] = __byte_perm_S (in1[3], 0, 0x6543);
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 28: out0[0] = in1[3];
out0[1] = 0;
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 29: out0[0] = __byte_perm_S (in1[3], 0, 0x4321);
out0[1] = 0;
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 30: out0[0] = __byte_perm_S (in1[3], 0, 0x5432);
out0[1] = 0;
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 31: out0[0] = __byte_perm_S (in1[3], 0, 0x6543);
out0[1] = 0;
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
}
#endif
#if defined IS_AMD || defined IS_GENERIC
switch (num)
{
case 0: out0[0] = in0[0];
out0[1] = in0[1];
out0[2] = in0[2];
out0[3] = in0[3];
out1[0] = in1[0];
out1[1] = in1[1];
out1[2] = in1[2];
out1[3] = in1[3];
break;
case 1: out0[0] = amd_bytealign_S (in0[1], in0[0], 1);
out0[1] = amd_bytealign_S (in0[2], in0[1], 1);
out0[2] = amd_bytealign_S (in0[3], in0[2], 1);
out0[3] = amd_bytealign_S (in1[0], in0[3], 1);
out1[0] = amd_bytealign_S (in1[1], in1[0], 1);
out1[1] = amd_bytealign_S (in1[2], in1[1], 1);
out1[2] = amd_bytealign_S (in1[3], in1[2], 1);
out1[3] = amd_bytealign_S ( 0, in1[3], 1);
break;
case 2: out0[0] = amd_bytealign_S (in0[1], in0[0], 2);
out0[1] = amd_bytealign_S (in0[2], in0[1], 2);
out0[2] = amd_bytealign_S (in0[3], in0[2], 2);
out0[3] = amd_bytealign_S (in1[0], in0[3], 2);
out1[0] = amd_bytealign_S (in1[1], in1[0], 2);
out1[1] = amd_bytealign_S (in1[2], in1[1], 2);
out1[2] = amd_bytealign_S (in1[3], in1[2], 2);
out1[3] = amd_bytealign_S ( 0, in1[3], 2);
break;
case 3: out0[0] = amd_bytealign_S (in0[1], in0[0], 3);
out0[1] = amd_bytealign_S (in0[2], in0[1], 3);
out0[2] = amd_bytealign_S (in0[3], in0[2], 3);
out0[3] = amd_bytealign_S (in1[0], in0[3], 3);
out1[0] = amd_bytealign_S (in1[1], in1[0], 3);
out1[1] = amd_bytealign_S (in1[2], in1[1], 3);
out1[2] = amd_bytealign_S (in1[3], in1[2], 3);
out1[3] = amd_bytealign_S ( 0, in1[3], 3);
break;
case 4: out0[0] = in0[1];
out0[1] = in0[2];
out0[2] = in0[3];
out0[3] = in1[0];
out1[0] = in1[1];
out1[1] = in1[2];
out1[2] = in1[3];
out1[3] = 0;
break;
case 5: out0[0] = amd_bytealign_S (in0[2], in0[1], 1);
out0[1] = amd_bytealign_S (in0[3], in0[2], 1);
out0[2] = amd_bytealign_S (in1[0], in0[3], 1);
out0[3] = amd_bytealign_S (in1[1], in1[0], 1);
out1[0] = amd_bytealign_S (in1[2], in1[1], 1);
out1[1] = amd_bytealign_S (in1[3], in1[2], 1);
out1[2] = amd_bytealign_S ( 0, in1[3], 1);
out1[3] = 0;
break;
case 6: out0[0] = amd_bytealign_S (in0[2], in0[1], 2);
out0[1] = amd_bytealign_S (in0[3], in0[2], 2);
out0[2] = amd_bytealign_S (in1[0], in0[3], 2);
out0[3] = amd_bytealign_S (in1[1], in1[0], 2);
out1[0] = amd_bytealign_S (in1[2], in1[1], 2);
out1[1] = amd_bytealign_S (in1[3], in1[2], 2);
out1[2] = amd_bytealign_S ( 0, in1[3], 2);
out1[3] = 0;
break;
case 7: out0[0] = amd_bytealign_S (in0[2], in0[1], 3);
out0[1] = amd_bytealign_S (in0[3], in0[2], 3);
out0[2] = amd_bytealign_S (in1[0], in0[3], 3);
out0[3] = amd_bytealign_S (in1[1], in1[0], 3);
out1[0] = amd_bytealign_S (in1[2], in1[1], 3);
out1[1] = amd_bytealign_S (in1[3], in1[2], 3);
out1[2] = amd_bytealign_S ( 0, in1[3], 3);
out1[3] = 0;
break;
case 8: out0[0] = in0[2];
out0[1] = in0[3];
out0[2] = in1[0];
out0[3] = in1[1];
out1[0] = in1[2];
out1[1] = in1[3];
out1[2] = 0;
out1[3] = 0;
break;
case 9: out0[0] = amd_bytealign_S (in0[3], in0[2], 1);
out0[1] = amd_bytealign_S (in1[0], in0[3], 1);
out0[2] = amd_bytealign_S (in1[1], in1[0], 1);
out0[3] = amd_bytealign_S (in1[2], in1[1], 1);
out1[0] = amd_bytealign_S (in1[3], in1[2], 1);
out1[1] = amd_bytealign_S ( 0, in1[3], 1);
out1[2] = 0;
out1[3] = 0;
break;
case 10: out0[0] = amd_bytealign_S (in0[3], in0[2], 2);
out0[1] = amd_bytealign_S (in1[0], in0[3], 2);
out0[2] = amd_bytealign_S (in1[1], in1[0], 2);
out0[3] = amd_bytealign_S (in1[2], in1[1], 2);
out1[0] = amd_bytealign_S (in1[3], in1[2], 2);
out1[1] = amd_bytealign_S ( 0, in1[3], 2);
out1[2] = 0;
out1[3] = 0;
break;
case 11: out0[0] = amd_bytealign_S (in0[3], in0[2], 3);
out0[1] = amd_bytealign_S (in1[0], in0[3], 3);
out0[2] = amd_bytealign_S (in1[1], in1[0], 3);
out0[3] = amd_bytealign_S (in1[2], in1[1], 3);
out1[0] = amd_bytealign_S (in1[3], in1[2], 3);
out1[1] = amd_bytealign_S ( 0, in1[3], 3);
out1[2] = 0;
out1[3] = 0;
break;
case 12: out0[0] = in0[3];
out0[1] = in1[0];
out0[2] = in1[1];
out0[3] = in1[2];
out1[0] = in1[3];
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 13: out0[0] = amd_bytealign_S (in1[0], in0[3], 1);
out0[1] = amd_bytealign_S (in1[1], in1[0], 1);
out0[2] = amd_bytealign_S (in1[2], in1[1], 1);
out0[3] = amd_bytealign_S (in1[3], in1[2], 1);
out1[0] = amd_bytealign_S ( 0, in1[3], 1);
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 14: out0[0] = amd_bytealign_S (in1[0], in0[3], 2);
out0[1] = amd_bytealign_S (in1[1], in1[0], 2);
out0[2] = amd_bytealign_S (in1[2], in1[1], 2);
out0[3] = amd_bytealign_S (in1[3], in1[2], 2);
out1[0] = amd_bytealign_S ( 0, in1[3], 2);
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 15: out0[0] = amd_bytealign_S (in1[0], in0[3], 3);
out0[1] = amd_bytealign_S (in1[1], in1[0], 3);
out0[2] = amd_bytealign_S (in1[2], in1[1], 3);
out0[3] = amd_bytealign_S (in1[3], in1[2], 3);
out1[0] = amd_bytealign_S ( 0, in1[3], 3);
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 16: out0[0] = in1[0];
out0[1] = in1[1];
out0[2] = in1[2];
out0[3] = in1[3];
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 17: out0[0] = amd_bytealign_S (in1[1], in1[0], 1);
out0[1] = amd_bytealign_S (in1[2], in1[1], 1);
out0[2] = amd_bytealign_S (in1[3], in1[2], 1);
out0[3] = amd_bytealign_S ( 0, in1[3], 1);
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 18: out0[0] = amd_bytealign_S (in1[1], in1[0], 2);
out0[1] = amd_bytealign_S (in1[2], in1[1], 2);
out0[2] = amd_bytealign_S (in1[3], in1[2], 2);
out0[3] = amd_bytealign_S ( 0, in1[3], 2);
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 19: out0[0] = amd_bytealign_S (in1[1], in1[0], 3);
out0[1] = amd_bytealign_S (in1[2], in1[1], 3);
out0[2] = amd_bytealign_S (in1[3], in1[2], 3);
out0[3] = amd_bytealign_S ( 0, in1[3], 3);
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 20: out0[0] = in1[1];
out0[1] = in1[2];
out0[2] = in1[3];
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 21: out0[0] = amd_bytealign_S (in1[2], in1[1], 1);
out0[1] = amd_bytealign_S (in1[3], in1[2], 1);
out0[2] = amd_bytealign_S ( 0, in1[3], 1);
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 22: out0[0] = amd_bytealign_S (in1[2], in1[1], 2);
out0[1] = amd_bytealign_S (in1[3], in1[2], 2);
out0[2] = amd_bytealign_S ( 0, in1[3], 2);
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 23: out0[0] = amd_bytealign_S (in1[2], in1[1], 3);
out0[1] = amd_bytealign_S (in1[3], in1[2], 3);
out0[2] = amd_bytealign_S ( 0, in1[3], 3);
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 24: out0[0] = in1[2];
out0[1] = in1[3];
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 25: out0[0] = amd_bytealign_S (in1[3], in1[2], 1);
out0[1] = amd_bytealign_S ( 0, in1[3], 1);
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 26: out0[0] = amd_bytealign_S (in1[3], in1[2], 2);
out0[1] = amd_bytealign_S ( 0, in1[3], 2);
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 27: out0[0] = amd_bytealign_S (in1[3], in1[2], 3);
out0[1] = amd_bytealign_S ( 0, in1[3], 3);
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 28: out0[0] = in1[3];
out0[1] = 0;
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 29: out0[0] = amd_bytealign_S ( 0, in1[3], 1);
out0[1] = 0;
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 30: out0[0] = amd_bytealign_S ( 0, in1[3], 2);
out0[1] = 0;
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 31: out0[0] = amd_bytealign_S ( 0, in1[3], 3);
out0[1] = 0;
out0[2] = 0;
out0[3] = 0;
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
}
#endif
}
static void rshift_block_N (const u32 in0[4], const u32 in1[4], u32 out0[4], u32 out1[4], const u32 num)
{
#ifdef IS_NV
switch (num)
{
case 0: out1[3] = in1[3];
out1[2] = in1[2];
out1[1] = in1[1];
out1[0] = in1[0];
out0[3] = in0[3];
out0[2] = in0[2];
out0[1] = in0[1];
out0[0] = in0[0];
break;
case 1: out1[3] = __byte_perm_S (in1[2], in1[3], 0x6543);
out1[2] = __byte_perm_S (in1[1], in1[2], 0x6543);
out1[1] = __byte_perm_S (in1[0], in1[1], 0x6543);
out1[0] = __byte_perm_S (in0[3], in1[0], 0x6543);
out0[3] = __byte_perm_S (in0[2], in0[3], 0x6543);
out0[2] = __byte_perm_S (in0[1], in0[2], 0x6543);
out0[1] = __byte_perm_S (in0[0], in0[1], 0x6543);
out0[0] = __byte_perm_S ( 0, in0[0], 0x6543);
break;
case 2: out1[3] = __byte_perm_S (in1[2], in1[3], 0x5432);
out1[2] = __byte_perm_S (in1[1], in1[2], 0x5432);
out1[1] = __byte_perm_S (in1[0], in1[1], 0x5432);
out1[0] = __byte_perm_S (in0[3], in1[0], 0x5432);
out0[3] = __byte_perm_S (in0[2], in0[3], 0x5432);
out0[2] = __byte_perm_S (in0[1], in0[2], 0x5432);
out0[1] = __byte_perm_S (in0[0], in0[1], 0x5432);
out0[0] = __byte_perm_S ( 0, in0[0], 0x5432);
break;
case 3: out1[3] = __byte_perm_S (in1[2], in1[3], 0x4321);
out1[2] = __byte_perm_S (in1[1], in1[2], 0x4321);
out1[1] = __byte_perm_S (in1[0], in1[1], 0x4321);
out1[0] = __byte_perm_S (in0[3], in1[0], 0x4321);
out0[3] = __byte_perm_S (in0[2], in0[3], 0x4321);
out0[2] = __byte_perm_S (in0[1], in0[2], 0x4321);
out0[1] = __byte_perm_S (in0[0], in0[1], 0x4321);
out0[0] = __byte_perm_S ( 0, in0[0], 0x4321);
break;
case 4: out1[3] = in1[2];
out1[2] = in1[1];
out1[1] = in1[0];
out1[0] = in0[3];
out0[3] = in0[2];
out0[2] = in0[1];
out0[1] = in0[0];
out0[0] = 0;
break;
case 5: out1[3] = __byte_perm_S (in1[1], in1[2], 0x6543);
out1[2] = __byte_perm_S (in1[0], in1[1], 0x6543);
out1[1] = __byte_perm_S (in0[3], in1[0], 0x6543);
out1[0] = __byte_perm_S (in0[2], in0[3], 0x6543);
out0[3] = __byte_perm_S (in0[1], in0[2], 0x6543);
out0[2] = __byte_perm_S (in0[0], in0[1], 0x6543);
out0[1] = __byte_perm_S ( 0, in0[0], 0x6543);
out0[0] = 0;
break;
case 6: out1[3] = __byte_perm_S (in1[1], in1[2], 0x5432);
out1[2] = __byte_perm_S (in1[0], in1[1], 0x5432);
out1[1] = __byte_perm_S (in0[3], in1[0], 0x5432);
out1[0] = __byte_perm_S (in0[2], in0[3], 0x5432);
out0[3] = __byte_perm_S (in0[1], in0[2], 0x5432);
out0[2] = __byte_perm_S (in0[0], in0[1], 0x5432);
out0[1] = __byte_perm_S ( 0, in0[0], 0x5432);
out0[0] = 0;
break;
case 7: out1[3] = __byte_perm_S (in1[1], in1[2], 0x4321);
out1[2] = __byte_perm_S (in1[0], in1[1], 0x4321);
out1[1] = __byte_perm_S (in0[3], in1[0], 0x4321);
out1[0] = __byte_perm_S (in0[2], in0[3], 0x4321);
out0[3] = __byte_perm_S (in0[1], in0[2], 0x4321);
out0[2] = __byte_perm_S (in0[0], in0[1], 0x4321);
out0[1] = __byte_perm_S ( 0, in0[0], 0x4321);
out0[0] = 0;
break;
case 8: out1[3] = in1[1];
out1[2] = in1[0];
out1[1] = in0[3];
out1[0] = in0[2];
out0[3] = in0[1];
out0[2] = in0[0];
out0[1] = 0;
out0[0] = 0;
break;
case 9: out1[3] = __byte_perm_S (in1[0], in1[1], 0x6543);
out1[2] = __byte_perm_S (in0[3], in1[0], 0x6543);
out1[1] = __byte_perm_S (in0[2], in0[3], 0x6543);
out1[0] = __byte_perm_S (in0[1], in0[2], 0x6543);
out0[3] = __byte_perm_S (in0[0], in0[1], 0x6543);
out0[2] = __byte_perm_S ( 0, in0[0], 0x6543);
out0[1] = 0;
out0[0] = 0;
break;
case 10: out1[3] = __byte_perm_S (in1[0], in1[1], 0x5432);
out1[2] = __byte_perm_S (in0[3], in1[0], 0x5432);
out1[1] = __byte_perm_S (in0[2], in0[3], 0x5432);
out1[0] = __byte_perm_S (in0[1], in0[2], 0x5432);
out0[3] = __byte_perm_S (in0[0], in0[1], 0x5432);
out0[2] = __byte_perm_S ( 0, in0[0], 0x5432);
out0[1] = 0;
out0[0] = 0;
break;
case 11: out1[3] = __byte_perm_S (in1[0], in1[1], 0x4321);
out1[2] = __byte_perm_S (in0[3], in1[0], 0x4321);
out1[1] = __byte_perm_S (in0[2], in0[3], 0x4321);
out1[0] = __byte_perm_S (in0[1], in0[2], 0x4321);
out0[3] = __byte_perm_S (in0[0], in0[1], 0x4321);
out0[2] = __byte_perm_S ( 0, in0[0], 0x4321);
out0[1] = 0;
out0[0] = 0;
break;
case 12: out1[3] = in1[0];
out1[2] = in0[3];
out1[1] = in0[2];
out1[0] = in0[1];
out0[3] = in0[0];
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 13: out1[3] = __byte_perm_S (in0[3], in1[0], 0x6543);
out1[2] = __byte_perm_S (in0[2], in0[3], 0x6543);
out1[1] = __byte_perm_S (in0[1], in0[2], 0x6543);
out1[0] = __byte_perm_S (in0[0], in0[1], 0x6543);
out0[3] = __byte_perm_S ( 0, in0[0], 0x6543);
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 14: out1[3] = __byte_perm_S (in0[3], in1[0], 0x5432);
out1[2] = __byte_perm_S (in0[2], in0[3], 0x5432);
out1[1] = __byte_perm_S (in0[1], in0[2], 0x5432);
out1[0] = __byte_perm_S (in0[0], in0[1], 0x5432);
out0[3] = __byte_perm_S ( 0, in0[0], 0x5432);
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 15: out1[3] = __byte_perm_S (in0[3], in1[0], 0x4321);
out1[2] = __byte_perm_S (in0[2], in0[3], 0x4321);
out1[1] = __byte_perm_S (in0[1], in0[2], 0x4321);
out1[0] = __byte_perm_S (in0[0], in0[1], 0x4321);
out0[3] = __byte_perm_S ( 0, in0[0], 0x4321);
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 16: out1[3] = in0[3];
out1[2] = in0[2];
out1[1] = in0[1];
out1[0] = in0[0];
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 17: out1[3] = __byte_perm_S (in0[2], in0[3], 0x6543);
out1[2] = __byte_perm_S (in0[1], in0[2], 0x6543);
out1[1] = __byte_perm_S (in0[0], in0[1], 0x6543);
out1[0] = __byte_perm_S ( 0, in0[0], 0x6543);
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 18: out1[3] = __byte_perm_S (in0[2], in0[3], 0x5432);
out1[2] = __byte_perm_S (in0[1], in0[2], 0x5432);
out1[1] = __byte_perm_S (in0[0], in0[1], 0x5432);
out1[0] = __byte_perm_S ( 0, in0[0], 0x5432);
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 19: out1[3] = __byte_perm_S (in0[2], in0[3], 0x4321);
out1[2] = __byte_perm_S (in0[1], in0[2], 0x4321);
out1[1] = __byte_perm_S (in0[0], in0[1], 0x4321);
out1[0] = __byte_perm_S ( 0, in0[0], 0x4321);
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 20: out1[3] = in0[2];
out1[2] = in0[1];
out1[1] = in0[0];
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 21: out1[3] = __byte_perm_S (in0[1], in0[2], 0x6543);
out1[2] = __byte_perm_S (in0[0], in0[1], 0x6543);
out1[1] = __byte_perm_S ( 0, in0[0], 0x6543);
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 22: out1[3] = __byte_perm_S (in0[1], in0[2], 0x5432);
out1[2] = __byte_perm_S (in0[0], in0[1], 0x5432);
out1[1] = __byte_perm_S ( 0, in0[0], 0x5432);
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 23: out1[3] = __byte_perm_S (in0[1], in0[2], 0x4321);
out1[2] = __byte_perm_S (in0[0], in0[1], 0x4321);
out1[1] = __byte_perm_S ( 0, in0[0], 0x4321);
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 24: out1[3] = in0[1];
out1[2] = in0[0];
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 25: out1[3] = __byte_perm_S (in0[0], in0[1], 0x6543);
out1[2] = __byte_perm_S ( 0, in0[0], 0x6543);
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 26: out1[3] = __byte_perm_S (in0[0], in0[1], 0x5432);
out1[2] = __byte_perm_S ( 0, in0[0], 0x5432);
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 27: out1[3] = __byte_perm_S (in0[0], in0[1], 0x4321);
out1[2] = __byte_perm_S ( 0, in0[0], 0x4321);
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 28: out1[3] = in0[0];
out1[2] = 0;
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 29: out1[3] = __byte_perm_S ( 0, in0[0], 0x6543);
out1[2] = 0;
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 30: out1[3] = __byte_perm_S ( 0, in0[0], 0x5432);
out1[2] = 0;
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 31: out1[3] = __byte_perm_S ( 0, in0[0], 0x4321);
out1[2] = 0;
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
}
#endif
#if defined IS_AMD || defined IS_GENERIC
switch (num)
{
case 0: out1[3] = in1[3];
out1[2] = in1[2];
out1[1] = in1[1];
out1[0] = in1[0];
out0[3] = in0[3];
out0[2] = in0[2];
out0[1] = in0[1];
out0[0] = in0[0];
break;
case 1: out1[3] = amd_bytealign_S (in1[3], in1[2], 3);
out1[2] = amd_bytealign_S (in1[2], in1[1], 3);
out1[1] = amd_bytealign_S (in1[1], in1[0], 3);
out1[0] = amd_bytealign_S (in1[0], in0[3], 3);
out0[3] = amd_bytealign_S (in0[3], in0[2], 3);
out0[2] = amd_bytealign_S (in0[2], in0[1], 3);
out0[1] = amd_bytealign_S (in0[1], in0[0], 3);
out0[0] = amd_bytealign_S (in0[0], 0, 3);
break;
case 2: out1[3] = amd_bytealign_S (in1[3], in1[2], 2);
out1[2] = amd_bytealign_S (in1[2], in1[1], 2);
out1[1] = amd_bytealign_S (in1[1], in1[0], 2);
out1[0] = amd_bytealign_S (in1[0], in0[3], 2);
out0[3] = amd_bytealign_S (in0[3], in0[2], 2);
out0[2] = amd_bytealign_S (in0[2], in0[1], 2);
out0[1] = amd_bytealign_S (in0[1], in0[0], 2);
out0[0] = amd_bytealign_S (in0[0], 0, 2);
break;
case 3: out1[3] = amd_bytealign_S (in1[3], in1[2], 1);
out1[2] = amd_bytealign_S (in1[2], in1[1], 1);
out1[1] = amd_bytealign_S (in1[1], in1[0], 1);
out1[0] = amd_bytealign_S (in1[0], in0[3], 1);
out0[3] = amd_bytealign_S (in0[3], in0[2], 1);
out0[2] = amd_bytealign_S (in0[2], in0[1], 1);
out0[1] = amd_bytealign_S (in0[1], in0[0], 1);
out0[0] = amd_bytealign_S (in0[0], 0, 1);
break;
case 4: out1[3] = in1[2];
out1[2] = in1[1];
out1[1] = in1[0];
out1[0] = in0[3];
out0[3] = in0[2];
out0[2] = in0[1];
out0[1] = in0[0];
out0[0] = 0;
break;
case 5: out1[3] = amd_bytealign_S (in1[2], in1[1], 3);
out1[2] = amd_bytealign_S (in1[1], in1[0], 3);
out1[1] = amd_bytealign_S (in1[0], in0[3], 3);
out1[0] = amd_bytealign_S (in0[3], in0[2], 3);
out0[3] = amd_bytealign_S (in0[2], in0[1], 3);
out0[2] = amd_bytealign_S (in0[1], in0[0], 3);
out0[1] = amd_bytealign_S (in0[0], 0, 3);
out0[0] = 0;
break;
case 6: out1[3] = amd_bytealign_S (in1[2], in1[1], 2);
out1[2] = amd_bytealign_S (in1[1], in1[0], 2);
out1[1] = amd_bytealign_S (in1[0], in0[3], 2);
out1[0] = amd_bytealign_S (in0[3], in0[2], 2);
out0[3] = amd_bytealign_S (in0[2], in0[1], 2);
out0[2] = amd_bytealign_S (in0[1], in0[0], 2);
out0[1] = amd_bytealign_S (in0[0], 0, 2);
out0[0] = 0;
break;
case 7: out1[3] = amd_bytealign_S (in1[2], in1[1], 1);
out1[2] = amd_bytealign_S (in1[1], in1[0], 1);
out1[1] = amd_bytealign_S (in1[0], in0[3], 1);
out1[0] = amd_bytealign_S (in0[3], in0[2], 1);
out0[3] = amd_bytealign_S (in0[2], in0[1], 1);
out0[2] = amd_bytealign_S (in0[1], in0[0], 1);
out0[1] = amd_bytealign_S (in0[0], 0, 1);
out0[0] = 0;
break;
case 8: out1[3] = in1[1];
out1[2] = in1[0];
out1[1] = in0[3];
out1[0] = in0[2];
out0[3] = in0[1];
out0[2] = in0[0];
out0[1] = 0;
out0[0] = 0;
break;
case 9: out1[3] = amd_bytealign_S (in1[1], in1[0], 3);
out1[2] = amd_bytealign_S (in1[0], in0[3], 3);
out1[1] = amd_bytealign_S (in0[3], in0[2], 3);
out1[0] = amd_bytealign_S (in0[2], in0[1], 3);
out0[3] = amd_bytealign_S (in0[1], in0[0], 3);
out0[2] = amd_bytealign_S (in0[0], 0, 3);
out0[1] = 0;
out0[0] = 0;
break;
case 10: out1[3] = amd_bytealign_S (in1[1], in1[0], 2);
out1[2] = amd_bytealign_S (in1[0], in0[3], 2);
out1[1] = amd_bytealign_S (in0[3], in0[2], 2);
out1[0] = amd_bytealign_S (in0[2], in0[1], 2);
out0[3] = amd_bytealign_S (in0[1], in0[0], 2);
out0[2] = amd_bytealign_S (in0[0], 0, 2);
out0[1] = 0;
out0[0] = 0;
break;
case 11: out1[3] = amd_bytealign_S (in1[1], in1[0], 1);
out1[2] = amd_bytealign_S (in1[0], in0[3], 1);
out1[1] = amd_bytealign_S (in0[3], in0[2], 1);
out1[0] = amd_bytealign_S (in0[2], in0[1], 1);
out0[3] = amd_bytealign_S (in0[1], in0[0], 1);
out0[2] = amd_bytealign_S (in0[0], 0, 1);
out0[1] = 0;
out0[0] = 0;
break;
case 12: out1[3] = in1[0];
out1[2] = in0[3];
out1[1] = in0[2];
out1[0] = in0[1];
out0[3] = in0[0];
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 13: out1[3] = amd_bytealign_S (in1[0], in0[3], 3);
out1[2] = amd_bytealign_S (in0[3], in0[2], 3);
out1[1] = amd_bytealign_S (in0[2], in0[1], 3);
out1[0] = amd_bytealign_S (in0[1], in0[0], 3);
out0[3] = amd_bytealign_S (in0[0], 0, 3);
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 14: out1[3] = amd_bytealign_S (in1[0], in0[3], 2);
out1[2] = amd_bytealign_S (in0[3], in0[2], 2);
out1[1] = amd_bytealign_S (in0[2], in0[1], 2);
out1[0] = amd_bytealign_S (in0[1], in0[0], 2);
out0[3] = amd_bytealign_S (in0[0], 0, 2);
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 15: out1[3] = amd_bytealign_S (in1[0], in0[3], 1);
out1[2] = amd_bytealign_S (in0[3], in0[2], 1);
out1[1] = amd_bytealign_S (in0[2], in0[1], 1);
out1[0] = amd_bytealign_S (in0[1], in0[0], 1);
out0[3] = amd_bytealign_S (in0[0], 0, 1);
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 16: out1[3] = in0[3];
out1[2] = in0[2];
out1[1] = in0[1];
out1[0] = in0[0];
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 17: out1[3] = amd_bytealign_S (in0[3], in0[2], 3);
out1[2] = amd_bytealign_S (in0[2], in0[1], 3);
out1[1] = amd_bytealign_S (in0[1], in0[0], 3);
out1[0] = amd_bytealign_S (in0[0], 0, 3);
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 18: out1[3] = amd_bytealign_S (in0[3], in0[2], 2);
out1[2] = amd_bytealign_S (in0[2], in0[1], 2);
out1[1] = amd_bytealign_S (in0[1], in0[0], 2);
out1[0] = amd_bytealign_S (in0[0], 0, 2);
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 19: out1[3] = amd_bytealign_S (in0[3], in0[2], 1);
out1[2] = amd_bytealign_S (in0[2], in0[1], 1);
out1[1] = amd_bytealign_S (in0[1], in0[0], 1);
out1[0] = amd_bytealign_S (in0[0], 0, 1);
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 20: out1[3] = in0[2];
out1[2] = in0[1];
out1[1] = in0[0];
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 21: out1[3] = amd_bytealign_S (in0[2], in0[1], 3);
out1[2] = amd_bytealign_S (in0[1], in0[0], 3);
out1[1] = amd_bytealign_S (in0[0], 0, 3);
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 22: out1[3] = amd_bytealign_S (in0[2], in0[1], 2);
out1[2] = amd_bytealign_S (in0[1], in0[0], 2);
out1[1] = amd_bytealign_S (in0[0], 0, 2);
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 23: out1[3] = amd_bytealign_S (in0[2], in0[1], 1);
out1[2] = amd_bytealign_S (in0[1], in0[0], 1);
out1[1] = amd_bytealign_S (in0[0], 0, 1);
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 24: out1[3] = in0[1];
out1[2] = in0[0];
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 25: out1[3] = amd_bytealign_S (in0[1], in0[0], 3);
out1[2] = amd_bytealign_S (in0[0], 0, 3);
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 26: out1[3] = amd_bytealign_S (in0[1], in0[0], 2);
out1[2] = amd_bytealign_S (in0[0], 0, 2);
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 27: out1[3] = amd_bytealign_S (in0[1], in0[0], 1);
out1[2] = amd_bytealign_S (in0[0], 0, 1);
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 28: out1[3] = in0[0];
out1[2] = 0;
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 29: out1[3] = amd_bytealign_S (in0[0], 0, 3);
out1[2] = 0;
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 30: out1[3] = amd_bytealign_S (in0[0], 0, 2);
out1[2] = 0;
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 31: out1[3] = amd_bytealign_S (in0[0], 0, 1);
out1[2] = 0;
out1[1] = 0;
out1[0] = 0;
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
}
#endif
}
static void append_block1 (const u32 offset, u32 dst0[4], u32 dst1[4], const u32 src_r0)
{
u32 tmp[2];
switch (offset & 3)
{
case 0: tmp[0] = src_r0;
tmp[1] = 0;
break;
case 1: tmp[0] = src_r0 << 8;
tmp[1] = src_r0 >> 24;
break;
case 2: tmp[0] = src_r0 << 16;
tmp[1] = src_r0 >> 16;
break;
case 3: tmp[0] = src_r0 << 24;
tmp[1] = src_r0 >> 8;
break;
}
switch (offset / 4)
{
case 0: dst0[0] |= tmp[0];
dst0[1] = tmp[1];
break;
case 1: dst0[1] |= tmp[0];
dst0[2] = tmp[1];
break;
case 2: dst0[2] |= tmp[0];
dst0[3] = tmp[1];
break;
case 3: dst0[3] |= tmp[0];
dst1[0] = tmp[1];
break;
case 4: dst1[0] |= tmp[0];
dst1[1] = tmp[1];
break;
case 5: dst1[1] |= tmp[0];
dst1[2] = tmp[1];
break;
case 6: dst1[2] |= tmp[0];
dst1[3] = tmp[1];
break;
case 7: dst1[3] |= tmp[0];
break;
}
}
static void append_block8 (const u32 offset, u32 dst0[4], u32 dst1[4], const u32 src_l0[4], const u32 src_l1[4], const u32 src_r0[4], const u32 src_r1[4])
{
#ifdef IS_NV
switch (offset)
{
case 0:
dst0[0] = src_r0[0];
dst0[1] = src_r0[1];
dst0[2] = src_r0[2];
dst0[3] = src_r0[3];
dst1[0] = src_r1[0];
dst1[1] = src_r1[1];
dst1[2] = src_r1[2];
dst1[3] = src_r1[3];
break;
case 1:
dst0[0] = __byte_perm_S (src_l0[0], src_r0[0], 0x6540);
dst0[1] = __byte_perm_S (src_r0[0], src_r0[1], 0x6543);
dst0[2] = __byte_perm_S (src_r0[1], src_r0[2], 0x6543);
dst0[3] = __byte_perm_S (src_r0[2], src_r0[3], 0x6543);
dst1[0] = __byte_perm_S (src_r0[3], src_r1[0], 0x6543);
dst1[1] = __byte_perm_S (src_r1[0], src_r1[1], 0x6543);
dst1[2] = __byte_perm_S (src_r1[1], src_r1[2], 0x6543);
dst1[3] = __byte_perm_S (src_r1[2], src_r1[3], 0x6543);
break;
case 2:
dst0[0] = __byte_perm_S (src_l0[0], src_r0[0], 0x5410);
dst0[1] = __byte_perm_S (src_r0[0], src_r0[1], 0x5432);
dst0[2] = __byte_perm_S (src_r0[1], src_r0[2], 0x5432);
dst0[3] = __byte_perm_S (src_r0[2], src_r0[3], 0x5432);
dst1[0] = __byte_perm_S (src_r0[3], src_r1[0], 0x5432);
dst1[1] = __byte_perm_S (src_r1[0], src_r1[1], 0x5432);
dst1[2] = __byte_perm_S (src_r1[1], src_r1[2], 0x5432);
dst1[3] = __byte_perm_S (src_r1[2], src_r1[3], 0x5432);
break;
case 3:
dst0[0] = __byte_perm_S (src_l0[0], src_r0[0], 0x4210);
dst0[1] = __byte_perm_S (src_r0[0], src_r0[1], 0x4321);
dst0[2] = __byte_perm_S (src_r0[1], src_r0[2], 0x4321);
dst0[3] = __byte_perm_S (src_r0[2], src_r0[3], 0x4321);
dst1[0] = __byte_perm_S (src_r0[3], src_r1[0], 0x4321);
dst1[1] = __byte_perm_S (src_r1[0], src_r1[1], 0x4321);
dst1[2] = __byte_perm_S (src_r1[1], src_r1[2], 0x4321);
dst1[3] = __byte_perm_S (src_r1[2], src_r1[3], 0x4321);
break;
case 4:
dst0[1] = src_r0[0];
dst0[2] = src_r0[1];
dst0[3] = src_r0[2];
dst1[0] = src_r0[3];
dst1[1] = src_r1[0];
dst1[2] = src_r1[1];
dst1[3] = src_r1[2];
break;
case 5:
dst0[1] = __byte_perm_S (src_l0[1], src_r0[0], 0x6540);
dst0[2] = __byte_perm_S (src_r0[0], src_r0[1], 0x6543);
dst0[3] = __byte_perm_S (src_r0[1], src_r0[2], 0x6543);
dst1[0] = __byte_perm_S (src_r0[2], src_r0[3], 0x6543);
dst1[1] = __byte_perm_S (src_r0[3], src_r1[0], 0x6543);
dst1[2] = __byte_perm_S (src_r1[0], src_r1[1], 0x6543);
dst1[3] = __byte_perm_S (src_r1[1], src_r1[2], 0x6543);
break;
case 6:
dst0[1] = __byte_perm_S (src_l0[1], src_r0[0], 0x5410);
dst0[2] = __byte_perm_S (src_r0[0], src_r0[1], 0x5432);
dst0[3] = __byte_perm_S (src_r0[1], src_r0[2], 0x5432);
dst1[0] = __byte_perm_S (src_r0[2], src_r0[3], 0x5432);
dst1[1] = __byte_perm_S (src_r0[3], src_r1[0], 0x5432);
dst1[2] = __byte_perm_S (src_r1[0], src_r1[1], 0x5432);
dst1[3] = __byte_perm_S (src_r1[1], src_r1[2], 0x5432);
break;
case 7:
dst0[1] = __byte_perm_S (src_l0[1], src_r0[0], 0x4210);
dst0[2] = __byte_perm_S (src_r0[0], src_r0[1], 0x4321);
dst0[3] = __byte_perm_S (src_r0[1], src_r0[2], 0x4321);
dst1[0] = __byte_perm_S (src_r0[2], src_r0[3], 0x4321);
dst1[1] = __byte_perm_S (src_r0[3], src_r1[0], 0x4321);
dst1[2] = __byte_perm_S (src_r1[0], src_r1[1], 0x4321);
dst1[3] = __byte_perm_S (src_r1[1], src_r1[2], 0x4321);
break;
case 8:
dst0[2] = src_r0[0];
dst0[3] = src_r0[1];
dst1[0] = src_r0[2];
dst1[1] = src_r0[3];
dst1[2] = src_r1[0];
dst1[3] = src_r1[1];
break;
case 9:
dst0[2] = __byte_perm_S (src_l0[2], src_r0[0], 0x6540);
dst0[3] = __byte_perm_S (src_r0[0], src_r0[1], 0x6543);
dst1[0] = __byte_perm_S (src_r0[1], src_r0[2], 0x6543);
dst1[1] = __byte_perm_S (src_r0[2], src_r0[3], 0x6543);
dst1[2] = __byte_perm_S (src_r0[3], src_r1[0], 0x6543);
dst1[3] = __byte_perm_S (src_r1[0], src_r1[1], 0x6543);
break;
case 10:
dst0[2] = __byte_perm_S (src_l0[2], src_r0[0], 0x5410);
dst0[3] = __byte_perm_S (src_r0[0], src_r0[1], 0x5432);
dst1[0] = __byte_perm_S (src_r0[1], src_r0[2], 0x5432);
dst1[1] = __byte_perm_S (src_r0[2], src_r0[3], 0x5432);
dst1[2] = __byte_perm_S (src_r0[3], src_r1[0], 0x5432);
dst1[3] = __byte_perm_S (src_r1[0], src_r1[1], 0x5432);
break;
case 11:
dst0[2] = __byte_perm_S (src_l0[2], src_r0[0], 0x4210);
dst0[3] = __byte_perm_S (src_r0[0], src_r0[1], 0x4321);
dst1[0] = __byte_perm_S (src_r0[1], src_r0[2], 0x4321);
dst1[1] = __byte_perm_S (src_r0[2], src_r0[3], 0x4321);
dst1[2] = __byte_perm_S (src_r0[3], src_r1[0], 0x4321);
dst1[3] = __byte_perm_S (src_r1[0], src_r1[1], 0x4321);
break;
case 12:
dst0[3] = src_r0[0];
dst1[0] = src_r0[1];
dst1[1] = src_r0[2];
dst1[2] = src_r0[3];
dst1[3] = src_r1[0];
break;
case 13:
dst0[3] = __byte_perm_S (src_l0[3], src_r0[0], 0x6540);
dst1[0] = __byte_perm_S (src_r0[0], src_r0[1], 0x6543);
dst1[1] = __byte_perm_S (src_r0[1], src_r0[2], 0x6543);
dst1[2] = __byte_perm_S (src_r0[2], src_r0[3], 0x6543);
dst1[3] = __byte_perm_S (src_r0[3], src_r1[0], 0x6543);
break;
case 14:
dst0[3] = __byte_perm_S (src_l0[3], src_r0[0], 0x5410);
dst1[0] = __byte_perm_S (src_r0[0], src_r0[1], 0x5432);
dst1[1] = __byte_perm_S (src_r0[1], src_r0[2], 0x5432);
dst1[2] = __byte_perm_S (src_r0[2], src_r0[3], 0x5432);
dst1[3] = __byte_perm_S (src_r0[3], src_r1[0], 0x5432);
break;
case 15:
dst0[3] = __byte_perm_S (src_l0[3], src_r0[0], 0x4210);
dst1[0] = __byte_perm_S (src_r0[0], src_r0[1], 0x4321);
dst1[1] = __byte_perm_S (src_r0[1], src_r0[2], 0x4321);
dst1[2] = __byte_perm_S (src_r0[2], src_r0[3], 0x4321);
dst1[3] = __byte_perm_S (src_r0[3], src_r1[0], 0x4321);
break;
case 16:
dst1[0] = src_r0[0];
dst1[1] = src_r0[1];
dst1[2] = src_r0[2];
dst1[3] = src_r0[3];
break;
case 17:
dst1[0] = __byte_perm_S (src_l1[0], src_r0[0], 0x6540);
dst1[1] = __byte_perm_S (src_r0[0], src_r0[1], 0x6543);
dst1[2] = __byte_perm_S (src_r0[1], src_r0[2], 0x6543);
dst1[3] = __byte_perm_S (src_r0[2], src_r0[3], 0x6543);
break;
case 18:
dst1[0] = __byte_perm_S (src_l1[0], src_r0[0], 0x5410);
dst1[1] = __byte_perm_S (src_r0[0], src_r0[1], 0x5432);
dst1[2] = __byte_perm_S (src_r0[1], src_r0[2], 0x5432);
dst1[3] = __byte_perm_S (src_r0[2], src_r0[3], 0x5432);
break;
case 19:
dst1[0] = __byte_perm_S (src_l1[0], src_r0[0], 0x4210);
dst1[1] = __byte_perm_S (src_r0[0], src_r0[1], 0x4321);
dst1[2] = __byte_perm_S (src_r0[1], src_r0[2], 0x4321);
dst1[3] = __byte_perm_S (src_r0[2], src_r0[3], 0x4321);
break;
case 20:
dst1[1] = src_r0[0];
dst1[2] = src_r0[1];
dst1[3] = src_r0[2];
break;
case 21:
dst1[1] = __byte_perm_S (src_l1[1], src_r0[0], 0x6540);
dst1[2] = __byte_perm_S (src_r0[0], src_r0[1], 0x6543);
dst1[3] = __byte_perm_S (src_r0[1], src_r0[2], 0x6543);
break;
case 22:
dst1[1] = __byte_perm_S (src_l1[1], src_r0[0], 0x5410);
dst1[2] = __byte_perm_S (src_r0[0], src_r0[1], 0x5432);
dst1[3] = __byte_perm_S (src_r0[1], src_r0[2], 0x5432);
break;
case 23:
dst1[1] = __byte_perm_S (src_l1[1], src_r0[0], 0x4210);
dst1[2] = __byte_perm_S (src_r0[0], src_r0[1], 0x4321);
dst1[3] = __byte_perm_S (src_r0[1], src_r0[2], 0x4321);
break;
case 24:
dst1[2] = src_r0[0];
dst1[3] = src_r0[1];
break;
case 25:
dst1[2] = __byte_perm_S (src_l1[2], src_r0[0], 0x6540);
dst1[3] = __byte_perm_S (src_r0[0], src_r0[1], 0x6543);
break;
case 26:
dst1[2] = __byte_perm_S (src_l1[2], src_r0[0], 0x5410);
dst1[3] = __byte_perm_S (src_r0[0], src_r0[1], 0x5432);
break;
case 27:
dst1[2] = __byte_perm_S (src_l1[2], src_r0[0], 0x4210);
dst1[3] = __byte_perm_S (src_r0[0], src_r0[1], 0x4321);
break;
case 28:
dst1[3] = src_r0[0];
break;
case 29:
dst1[3] = __byte_perm_S (src_l1[3], src_r0[0], 0x6540);
break;
case 30:
dst1[3] = __byte_perm_S (src_l1[3], src_r0[0], 0x5410);
break;
case 31:
dst1[3] = __byte_perm_S (src_l1[3], src_r0[0], 0x4210);
break;
}
#endif
#if defined IS_AMD || defined IS_GENERIC
switch (offset)
{
case 31:
dst1[3] = src_l1[3] | src_r0[0] << 24;
break;
case 30:
dst1[3] = src_l1[3] | src_r0[0] << 16;
break;
case 29:
dst1[3] = src_l1[3] | src_r0[0] << 8;
break;
case 28:
dst1[3] = src_r0[0];
break;
case 27:
dst1[3] = amd_bytealign_S (src_r0[1], src_r0[0], 1);
dst1[2] = src_l1[2] | src_r0[0] << 24;
break;
case 26:
dst1[3] = amd_bytealign_S (src_r0[1], src_r0[0], 2);
dst1[2] = src_l1[2] | src_r0[0] << 16;
break;
case 25:
dst1[3] = amd_bytealign_S (src_r0[1], src_r0[0], 3);
dst1[2] = src_l1[2] | src_r0[0] << 8;
break;
case 24:
dst1[3] = src_r0[1];
dst1[2] = src_r0[0];
break;
case 23:
dst1[3] = amd_bytealign_S (src_r0[2], src_r0[1], 1);
dst1[2] = amd_bytealign_S (src_r0[1], src_r0[0], 1);
dst1[1] = src_l1[1] | src_r0[0] << 24;
break;
case 22:
dst1[3] = amd_bytealign_S (src_r0[2], src_r0[1], 2);
dst1[2] = amd_bytealign_S (src_r0[1], src_r0[0], 2);
dst1[1] = src_l1[1] | src_r0[0] << 16;
break;
case 21:
dst1[3] = amd_bytealign_S (src_r0[2], src_r0[1], 3);
dst1[2] = amd_bytealign_S (src_r0[1], src_r0[0], 3);
dst1[1] = src_l1[1] | src_r0[0] << 8;
break;
case 20:
dst1[3] = src_r0[2];
dst1[2] = src_r0[1];
dst1[1] = src_r0[0];
break;
case 19:
dst1[3] = amd_bytealign_S (src_r0[3], src_r0[2], 1);
dst1[2] = amd_bytealign_S (src_r0[2], src_r0[1], 1);
dst1[1] = amd_bytealign_S (src_r0[1], src_r0[0], 1);
dst1[0] = src_l1[0] | src_r0[0] << 24;
break;
case 18:
dst1[3] = amd_bytealign_S (src_r0[3], src_r0[2], 2);
dst1[2] = amd_bytealign_S (src_r0[2], src_r0[1], 2);
dst1[1] = amd_bytealign_S (src_r0[1], src_r0[0], 2);
dst1[0] = src_l1[0] | src_r0[0] << 16;
break;
case 17:
dst1[3] = amd_bytealign_S (src_r0[3], src_r0[2], 3);
dst1[2] = amd_bytealign_S (src_r0[2], src_r0[1], 3);
dst1[1] = amd_bytealign_S (src_r0[1], src_r0[0], 3);
dst1[0] = src_l1[0] | src_r0[0] << 8;
break;
case 16:
dst1[3] = src_r0[3];
dst1[2] = src_r0[2];
dst1[1] = src_r0[1];
dst1[0] = src_r0[0];
break;
case 15:
dst1[3] = amd_bytealign_S (src_r1[0], src_r0[3], 1);
dst1[2] = amd_bytealign_S (src_r0[3], src_r0[2], 1);
dst1[1] = amd_bytealign_S (src_r0[2], src_r0[1], 1);
dst1[0] = amd_bytealign_S (src_r0[1], src_r0[0], 1);
dst0[3] = src_l0[3] | src_r0[0] << 24;
break;
case 14:
dst1[3] = amd_bytealign_S (src_r1[0], src_r0[3], 2);
dst1[2] = amd_bytealign_S (src_r0[3], src_r0[2], 2);
dst1[1] = amd_bytealign_S (src_r0[2], src_r0[1], 2);
dst1[0] = amd_bytealign_S (src_r0[1], src_r0[0], 2);
dst0[3] = src_l0[3] | src_r0[0] << 16;
break;
case 13:
dst1[3] = amd_bytealign_S (src_r1[0], src_r0[3], 3);
dst1[2] = amd_bytealign_S (src_r0[3], src_r0[2], 3);
dst1[1] = amd_bytealign_S (src_r0[2], src_r0[1], 3);
dst1[0] = amd_bytealign_S (src_r0[1], src_r0[0], 3);
dst0[3] = src_l0[3] | src_r0[0] << 8;
break;
case 12:
dst1[3] = src_r1[0];
dst1[2] = src_r0[3];
dst1[1] = src_r0[2];
dst1[0] = src_r0[1];
dst0[3] = src_r0[0];
break;
case 11:
dst1[3] = amd_bytealign_S (src_r1[1], src_r1[0], 1);
dst1[2] = amd_bytealign_S (src_r1[0], src_r0[3], 1);
dst1[1] = amd_bytealign_S (src_r0[3], src_r0[2], 1);
dst1[0] = amd_bytealign_S (src_r0[2], src_r0[1], 1);
dst0[3] = amd_bytealign_S (src_r0[1], src_r0[0], 1);
dst0[2] = src_l0[2] | src_r0[0] << 24;
break;
case 10:
dst1[3] = amd_bytealign_S (src_r1[1], src_r1[0], 2);
dst1[2] = amd_bytealign_S (src_r1[0], src_r0[3], 2);
dst1[1] = amd_bytealign_S (src_r0[3], src_r0[2], 2);
dst1[0] = amd_bytealign_S (src_r0[2], src_r0[1], 2);
dst0[3] = amd_bytealign_S (src_r0[1], src_r0[0], 2);
dst0[2] = src_l0[2] | src_r0[0] << 16;
break;
case 9:
dst1[3] = amd_bytealign_S (src_r1[1], src_r1[0], 3);
dst1[2] = amd_bytealign_S (src_r1[0], src_r0[3], 3);
dst1[1] = amd_bytealign_S (src_r0[3], src_r0[2], 3);
dst1[0] = amd_bytealign_S (src_r0[2], src_r0[1], 3);
dst0[3] = amd_bytealign_S (src_r0[1], src_r0[0], 3);
dst0[2] = src_l0[2] | src_r0[0] << 8;
break;
case 8:
dst1[3] = src_r1[1];
dst1[2] = src_r1[0];
dst1[1] = src_r0[3];
dst1[0] = src_r0[2];
dst0[3] = src_r0[1];
dst0[2] = src_r0[0];
break;
case 7:
dst1[3] = amd_bytealign_S (src_r1[2], src_r1[1], 1);
dst1[2] = amd_bytealign_S (src_r1[1], src_r1[0], 1);
dst1[1] = amd_bytealign_S (src_r1[0], src_r0[3], 1);
dst1[0] = amd_bytealign_S (src_r0[3], src_r0[2], 1);
dst0[3] = amd_bytealign_S (src_r0[2], src_r0[1], 1);
dst0[2] = amd_bytealign_S (src_r0[1], src_r0[0], 1);
dst0[1] = src_l0[1] | src_r0[0] << 24;
break;
case 6:
dst1[3] = amd_bytealign_S (src_r1[2], src_r1[1], 2);
dst1[2] = amd_bytealign_S (src_r1[1], src_r1[0], 2);
dst1[1] = amd_bytealign_S (src_r1[0], src_r0[3], 2);
dst1[0] = amd_bytealign_S (src_r0[3], src_r0[2], 2);
dst0[3] = amd_bytealign_S (src_r0[2], src_r0[1], 2);
dst0[2] = amd_bytealign_S (src_r0[1], src_r0[0], 2);
dst0[1] = src_l0[1] | src_r0[0] << 16;
break;
case 5:
dst1[3] = amd_bytealign_S (src_r1[2], src_r1[1], 3);
dst1[2] = amd_bytealign_S (src_r1[1], src_r1[0], 3);
dst1[1] = amd_bytealign_S (src_r1[0], src_r0[3], 3);
dst1[0] = amd_bytealign_S (src_r0[3], src_r0[2], 3);
dst0[3] = amd_bytealign_S (src_r0[2], src_r0[1], 3);
dst0[2] = amd_bytealign_S (src_r0[1], src_r0[0], 3);
dst0[1] = src_l0[1] | src_r0[0] << 8;
break;
case 4:
dst1[3] = src_r1[2];
dst1[2] = src_r1[1];
dst1[1] = src_r1[0];
dst1[0] = src_r0[3];
dst0[3] = src_r0[2];
dst0[2] = src_r0[1];
dst0[1] = src_r0[0];
break;
case 3:
dst1[3] = amd_bytealign_S (src_r1[3], src_r1[2], 1);
dst1[2] = amd_bytealign_S (src_r1[2], src_r1[1], 1);
dst1[1] = amd_bytealign_S (src_r1[1], src_r1[0], 1);
dst1[0] = amd_bytealign_S (src_r1[0], src_r0[3], 1);
dst0[3] = amd_bytealign_S (src_r0[3], src_r0[2], 1);
dst0[2] = amd_bytealign_S (src_r0[2], src_r0[1], 1);
dst0[1] = amd_bytealign_S (src_r0[1], src_r0[0], 1);
dst0[0] = src_l0[0] | src_r0[0] << 24;
break;
case 2:
dst1[3] = amd_bytealign_S (src_r1[3], src_r1[2], 2);
dst1[2] = amd_bytealign_S (src_r1[2], src_r1[1], 2);
dst1[1] = amd_bytealign_S (src_r1[1], src_r1[0], 2);
dst1[0] = amd_bytealign_S (src_r1[0], src_r0[3], 2);
dst0[3] = amd_bytealign_S (src_r0[3], src_r0[2], 2);
dst0[2] = amd_bytealign_S (src_r0[2], src_r0[1], 2);
dst0[1] = amd_bytealign_S (src_r0[1], src_r0[0], 2);
dst0[0] = src_l0[0] | src_r0[0] << 16;
break;
case 1:
dst1[3] = amd_bytealign_S (src_r1[3], src_r1[2], 3);
dst1[2] = amd_bytealign_S (src_r1[2], src_r1[1], 3);
dst1[1] = amd_bytealign_S (src_r1[1], src_r1[0], 3);
dst1[0] = amd_bytealign_S (src_r1[0], src_r0[3], 3);
dst0[3] = amd_bytealign_S (src_r0[3], src_r0[2], 3);
dst0[2] = amd_bytealign_S (src_r0[2], src_r0[1], 3);
dst0[1] = amd_bytealign_S (src_r0[1], src_r0[0], 3);
dst0[0] = src_l0[0] | src_r0[0] << 8;
break;
case 0:
dst1[3] = src_r1[3];
dst1[2] = src_r1[2];
dst1[1] = src_r1[1];
dst1[0] = src_r1[0];
dst0[3] = src_r0[3];
dst0[2] = src_r0[2];
dst0[1] = src_r0[1];
dst0[0] = src_r0[0];
break;
}
#endif
}
static void reverse_block (u32 in0[4], u32 in1[4], u32 out0[4], u32 out1[4], const u32 len)
{
rshift_block_N (in0, in1, out0, out1, 32 - len);
u32 tib40[4];
u32 tib41[4];
tib40[0] = out1[3];
tib40[1] = out1[2];
tib40[2] = out1[1];
tib40[3] = out1[0];
tib41[0] = out0[3];
tib41[1] = out0[2];
tib41[2] = out0[1];
tib41[3] = out0[0];
out0[0] = swap32_S (tib40[0]);
out0[1] = swap32_S (tib40[1]);
out0[2] = swap32_S (tib40[2]);
out0[3] = swap32_S (tib40[3]);
out1[0] = swap32_S (tib41[0]);
out1[1] = swap32_S (tib41[1]);
out1[2] = swap32_S (tib41[2]);
out1[3] = swap32_S (tib41[3]);
}
static u32 rule_op_mangle_lrest (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
buf0[0] |= (generate_cmask (buf0[0]));
buf0[1] |= (generate_cmask (buf0[1]));
buf0[2] |= (generate_cmask (buf0[2]));
buf0[3] |= (generate_cmask (buf0[3]));
buf1[0] |= (generate_cmask (buf1[0]));
buf1[1] |= (generate_cmask (buf1[1]));
buf1[2] |= (generate_cmask (buf1[2]));
buf1[3] |= (generate_cmask (buf1[3]));
return in_len;
}
static u32 rule_op_mangle_urest (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
buf0[0] &= ~(generate_cmask (buf0[0]));
buf0[1] &= ~(generate_cmask (buf0[1]));
buf0[2] &= ~(generate_cmask (buf0[2]));
buf0[3] &= ~(generate_cmask (buf0[3]));
buf1[0] &= ~(generate_cmask (buf1[0]));
buf1[1] &= ~(generate_cmask (buf1[1]));
buf1[2] &= ~(generate_cmask (buf1[2]));
buf1[3] &= ~(generate_cmask (buf1[3]));
return in_len;
}
static u32 rule_op_mangle_lrest_ufirst (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
rule_op_mangle_lrest (p0, p1, buf0, buf1, in_len);
buf0[0] &= ~(0x00000020 & generate_cmask (buf0[0]));
return in_len;
}
static u32 rule_op_mangle_urest_lfirst (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
rule_op_mangle_urest (p0, p1, buf0, buf1, in_len);
buf0[0] |= (0x00000020 & generate_cmask (buf0[0]));
return in_len;
}
static u32 rule_op_mangle_trest (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
buf0[0] ^= (generate_cmask (buf0[0]));
buf0[1] ^= (generate_cmask (buf0[1]));
buf0[2] ^= (generate_cmask (buf0[2]));
buf0[3] ^= (generate_cmask (buf0[3]));
buf1[0] ^= (generate_cmask (buf1[0]));
buf1[1] ^= (generate_cmask (buf1[1]));
buf1[2] ^= (generate_cmask (buf1[2]));
buf1[3] ^= (generate_cmask (buf1[3]));
return in_len;
}
static u32 rule_op_mangle_toggle_at (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
const u32 tmp = 0x20u << ((p0 & 3) * 8);
switch (p0 / 4)
{
case 0: buf0[0] ^= (tmp & generate_cmask (buf0[0])); break;
case 1: buf0[1] ^= (tmp & generate_cmask (buf0[1])); break;
case 2: buf0[2] ^= (tmp & generate_cmask (buf0[2])); break;
case 3: buf0[3] ^= (tmp & generate_cmask (buf0[3])); break;
case 4: buf1[0] ^= (tmp & generate_cmask (buf1[0])); break;
case 5: buf1[1] ^= (tmp & generate_cmask (buf1[1])); break;
case 6: buf1[2] ^= (tmp & generate_cmask (buf1[2])); break;
case 7: buf1[3] ^= (tmp & generate_cmask (buf1[3])); break;
}
return in_len;
}
static u32 rule_op_mangle_reverse (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
reverse_block (buf0, buf1, buf0, buf1, in_len);
return in_len;
}
static u32 rule_op_mangle_dupeword (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if ((in_len + in_len) >= 32) return (in_len);
u32 out_len = in_len;
append_block8 (out_len, buf0, buf1, buf0, buf1, buf0, buf1);
out_len += in_len;
return out_len;
}
static u32 rule_op_mangle_dupeword_times (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (((in_len * p0) + in_len) >= 32) return (in_len);
u32 out_len = in_len;
u32 tib40[4];
u32 tib41[4];
tib40[0] = buf0[0];
tib40[1] = buf0[1];
tib40[2] = buf0[2];
tib40[3] = buf0[3];
tib41[0] = buf1[0];
tib41[1] = buf1[1];
tib41[2] = buf1[2];
tib41[3] = buf1[3];
for (u32 i = 0; i < p0; i++)
{
append_block8 (out_len, buf0, buf1, buf0, buf1, tib40, tib41);
out_len += in_len;
}
return out_len;
}
static u32 rule_op_mangle_reflect (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if ((in_len + in_len) >= 32) return (in_len);
u32 out_len = in_len;
u32 tib40[4];
u32 tib41[4];
reverse_block (buf0, buf1, tib40, tib41, out_len);
append_block8 (out_len, buf0, buf1, buf0, buf1, tib40, tib41);
out_len += in_len;
return out_len;
}
static u32 rule_op_mangle_append (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if ((in_len + 1) >= 32) return (in_len);
u32 out_len = in_len;
append_block1 (out_len, buf0, buf1, p0);
out_len++;
return out_len;
}
static u32 rule_op_mangle_prepend (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if ((in_len + 1) >= 32) return (in_len);
u32 out_len = in_len;
rshift_block (buf0, buf1, buf0, buf1);
buf0[0] = buf0[0] | p0;
out_len++;
return out_len;
}
static u32 rule_op_mangle_rotate_left (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (in_len == 0) return (in_len);
const u32 in_len1 = in_len - 1;
const u32 sh = (in_len1 & 3) * 8;
const u32 tmp = (buf0[0] & 0xff) << sh;
lshift_block (buf0, buf1, buf0, buf1);
switch (in_len1 / 4)
{
case 0: buf0[0] |= tmp; break;
case 1: buf0[1] |= tmp; break;
case 2: buf0[2] |= tmp; break;
case 3: buf0[3] |= tmp; break;
case 4: buf1[0] |= tmp; break;
case 5: buf1[1] |= tmp; break;
case 6: buf1[2] |= tmp; break;
case 7: buf1[3] |= tmp; break;
}
return in_len;
}
static u32 rule_op_mangle_rotate_right (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (in_len == 0) return (in_len);
const u32 in_len1 = in_len - 1;
const u32 sh = (in_len1 & 3) * 8;
u32 tmp = 0;
switch (in_len1 / 4)
{
case 0: tmp = (buf0[0] >> sh) & 0xff; break;
case 1: tmp = (buf0[1] >> sh) & 0xff; break;
case 2: tmp = (buf0[2] >> sh) & 0xff; break;
case 3: tmp = (buf0[3] >> sh) & 0xff; break;
case 4: tmp = (buf1[0] >> sh) & 0xff; break;
case 5: tmp = (buf1[1] >> sh) & 0xff; break;
case 6: tmp = (buf1[2] >> sh) & 0xff; break;
case 7: tmp = (buf1[3] >> sh) & 0xff; break;
}
rshift_block (buf0, buf1, buf0, buf1);
buf0[0] |= tmp;
truncate_right (buf0, buf1, in_len);
return in_len;
}
static u32 rule_op_mangle_delete_first (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (in_len == 0) return (in_len);
const u32 in_len1 = in_len - 1;
lshift_block (buf0, buf1, buf0, buf1);
return in_len1;
}
static u32 rule_op_mangle_delete_last (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (in_len == 0) return (in_len);
const u32 in_len1 = in_len - 1;
const u32 tmp = (1 << ((in_len1 & 3) * 8)) - 1;
switch (in_len1 / 4)
{
case 0: buf0[0] &= tmp; break;
case 1: buf0[1] &= tmp; break;
case 2: buf0[2] &= tmp; break;
case 3: buf0[3] &= tmp; break;
case 4: buf1[0] &= tmp; break;
case 5: buf1[1] &= tmp; break;
case 6: buf1[2] &= tmp; break;
case 7: buf1[3] &= tmp; break;
}
return in_len1;
}
static u32 rule_op_mangle_delete_at (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
u32 out_len = in_len;
u32 tib40[4];
u32 tib41[4];
lshift_block (buf0, buf1, tib40, tib41);
const u32 ml = (1 << ((p0 & 3) * 8)) - 1;
const u32 mr = ~ml;
switch (p0 / 4)
{
case 0: buf0[0] = (buf0[0] & ml)
| (tib40[0] & mr);
buf0[1] = tib40[1];
buf0[2] = tib40[2];
buf0[3] = tib40[3];
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 1: buf0[1] = (buf0[1] & ml)
| (tib40[1] & mr);
buf0[2] = tib40[2];
buf0[3] = tib40[3];
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 2: buf0[2] = (buf0[2] & ml)
| (tib40[2] & mr);
buf0[3] = tib40[3];
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 3: buf0[3] = (buf0[3] & ml)
| (tib40[3] & mr);
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 4: buf1[0] = (buf1[0] & ml)
| (tib41[0] & mr);
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 5: buf1[1] = (buf1[1] & ml)
| (tib41[1] & mr);
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 6: buf1[2] = (buf1[2] & ml)
| (tib41[2] & mr);
buf1[3] = tib41[3];
break;
case 7: buf1[3] = (buf1[3] & ml)
| (tib41[3] & mr);
break;
}
out_len--;
return out_len;
}
static u32 rule_op_mangle_extract (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
if ((p0 + p1) > in_len) return (in_len);
u32 out_len = p1;
lshift_block_N (buf0, buf1, buf0, buf1, p0);
truncate_right (buf0, buf1, out_len);
return out_len;
}
static u32 rule_op_mangle_omit (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
if ((p0 + p1) > in_len) return (in_len);
u32 out_len = in_len;
u32 tib40[4];
u32 tib41[4];
tib40[0] = 0;
tib40[1] = 0;
tib40[2] = 0;
tib40[3] = 0;
tib41[0] = 0;
tib41[1] = 0;
tib41[2] = 0;
tib41[3] = 0;
lshift_block_N (buf0, buf1, tib40, tib41, p1);
const u32 ml = (1 << ((p0 & 3) * 8)) - 1;
const u32 mr = ~ml;
switch (p0 / 4)
{
case 0: buf0[0] = (buf0[0] & ml)
| (tib40[0] & mr);
buf0[1] = tib40[1];
buf0[2] = tib40[2];
buf0[3] = tib40[3];
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 1: buf0[1] = (buf0[1] & ml)
| (tib40[1] & mr);
buf0[2] = tib40[2];
buf0[3] = tib40[3];
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 2: buf0[2] = (buf0[2] & ml)
| (tib40[2] & mr);
buf0[3] = tib40[3];
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 3: buf0[3] = (buf0[3] & ml)
| (tib40[3] & mr);
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 4: buf1[0] = (buf1[0] & ml)
| (tib41[0] & mr);
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 5: buf1[1] = (buf1[1] & ml)
| (tib41[1] & mr);
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 6: buf1[2] = (buf1[2] & ml)
| (tib41[2] & mr);
buf1[3] = tib41[3];
break;
case 7: buf1[3] = (buf1[3] & ml)
| (tib41[3] & mr);
break;
}
out_len -= p1;
return out_len;
}
static u32 rule_op_mangle_insert (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 > in_len) return (in_len);
if ((in_len + 1) >= 32) return (in_len);
u32 out_len = in_len;
u32 tib40[4];
u32 tib41[4];
rshift_block (buf0, buf1, tib40, tib41);
const u32 p1n = p1 << ((p0 & 3) * 8);
const u32 ml = (1 << ((p0 & 3) * 8)) - 1;
const u32 mr = 0xffffff00 << ((p0 & 3) * 8);
switch (p0 / 4)
{
case 0: buf0[0] = (buf0[0] & ml) | p1n | (tib40[0] & mr);
buf0[1] = tib40[1];
buf0[2] = tib40[2];
buf0[3] = tib40[3];
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 1: buf0[1] = (buf0[1] & ml) | p1n | (tib40[1] & mr);
buf0[2] = tib40[2];
buf0[3] = tib40[3];
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 2: buf0[2] = (buf0[2] & ml) | p1n | (tib40[2] & mr);
buf0[3] = tib40[3];
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 3: buf0[3] = (buf0[3] & ml) | p1n | (tib40[3] & mr);
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 4: buf1[0] = (buf1[0] & ml) | p1n | (tib41[0] & mr);
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 5: buf1[1] = (buf1[1] & ml) | p1n | (tib41[1] & mr);
buf1[2] = tib41[2];
buf1[3] = tib41[3];
break;
case 6: buf1[2] = (buf1[2] & ml) | p1n | (tib41[2] & mr);
buf1[3] = tib41[3];
break;
case 7: buf1[3] = (buf1[3] & ml) | p1n | (tib41[3] & mr);
break;
}
out_len++;
return out_len;
}
static u32 rule_op_mangle_overstrike (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
const u32 p1n = p1 << ((p0 & 3) * 8);
const u32 m = ~(0xffu << ((p0 & 3) * 8));
switch (p0 / 4)
{
case 0: buf0[0] = (buf0[0] & m) | p1n; break;
case 1: buf0[1] = (buf0[1] & m) | p1n; break;
case 2: buf0[2] = (buf0[2] & m) | p1n; break;
case 3: buf0[3] = (buf0[3] & m) | p1n; break;
case 4: buf1[0] = (buf1[0] & m) | p1n; break;
case 5: buf1[1] = (buf1[1] & m) | p1n; break;
case 6: buf1[2] = (buf1[2] & m) | p1n; break;
case 7: buf1[3] = (buf1[3] & m) | p1n; break;
}
return in_len;
}
static u32 rule_op_mangle_truncate_at (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
truncate_right (buf0, buf1, p0);
return p0;
}
static u32 rule_op_mangle_replace (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
#ifdef IS_NV
for (u32 i = 0; i < in_len; i++)
{
switch (i)
{
case 0: if ((__byte_perm_S (buf0[0], 0, 0x6540)) == p0) buf0[0] = __byte_perm_S (p1, buf0[0], 0x7650);
break;
case 1: if ((__byte_perm_S (buf0[0], 0, 0x6541)) == p0) buf0[0] = __byte_perm_S (p1, buf0[0], 0x7604);
break;
case 2: if ((__byte_perm_S (buf0[0], 0, 0x6542)) == p0) buf0[0] = __byte_perm_S (p1, buf0[0], 0x7054);
break;
case 3: if ((__byte_perm_S (buf0[0], 0, 0x6543)) == p0) buf0[0] = __byte_perm_S (p1, buf0[0], 0x0654);
break;
case 4: if ((__byte_perm_S (buf0[1], 0, 0x6540)) == p0) buf0[1] = __byte_perm_S (p1, buf0[1], 0x7650);
break;
case 5: if ((__byte_perm_S (buf0[1], 0, 0x6541)) == p0) buf0[1] = __byte_perm_S (p1, buf0[1], 0x7604);
break;
case 6: if ((__byte_perm_S (buf0[1], 0, 0x6542)) == p0) buf0[1] = __byte_perm_S (p1, buf0[1], 0x7054);
break;
case 7: if ((__byte_perm_S (buf0[1], 0, 0x6543)) == p0) buf0[1] = __byte_perm_S (p1, buf0[1], 0x0654);
break;
case 8: if ((__byte_perm_S (buf0[2], 0, 0x6540)) == p0) buf0[2] = __byte_perm_S (p1, buf0[2], 0x7650);
break;
case 9: if ((__byte_perm_S (buf0[2], 0, 0x6541)) == p0) buf0[2] = __byte_perm_S (p1, buf0[2], 0x7604);
break;
case 10: if ((__byte_perm_S (buf0[2], 0, 0x6542)) == p0) buf0[2] = __byte_perm_S (p1, buf0[2], 0x7054);
break;
case 11: if ((__byte_perm_S (buf0[2], 0, 0x6543)) == p0) buf0[2] = __byte_perm_S (p1, buf0[2], 0x0654);
break;
case 12: if ((__byte_perm_S (buf0[3], 0, 0x6540)) == p0) buf0[3] = __byte_perm_S (p1, buf0[3], 0x7650);
break;
case 13: if ((__byte_perm_S (buf0[3], 0, 0x6541)) == p0) buf0[3] = __byte_perm_S (p1, buf0[3], 0x7604);
break;
case 14: if ((__byte_perm_S (buf0[3], 0, 0x6542)) == p0) buf0[3] = __byte_perm_S (p1, buf0[3], 0x7054);
break;
case 15: if ((__byte_perm_S (buf0[3], 0, 0x6543)) == p0) buf0[3] = __byte_perm_S (p1, buf0[3], 0x0654);
break;
case 16: if ((__byte_perm_S (buf1[0], 0, 0x6540)) == p0) buf1[0] = __byte_perm_S (p1, buf1[0], 0x7650);
break;
case 17: if ((__byte_perm_S (buf1[0], 0, 0x6541)) == p0) buf1[0] = __byte_perm_S (p1, buf1[0], 0x7604);
break;
case 18: if ((__byte_perm_S (buf1[0], 0, 0x6542)) == p0) buf1[0] = __byte_perm_S (p1, buf1[0], 0x7054);
break;
case 19: if ((__byte_perm_S (buf1[0], 0, 0x6543)) == p0) buf1[0] = __byte_perm_S (p1, buf1[0], 0x0654);
break;
case 20: if ((__byte_perm_S (buf1[1], 0, 0x6540)) == p0) buf1[1] = __byte_perm_S (p1, buf1[1], 0x7650);
break;
case 21: if ((__byte_perm_S (buf1[1], 0, 0x6541)) == p0) buf1[1] = __byte_perm_S (p1, buf1[1], 0x7604);
break;
case 22: if ((__byte_perm_S (buf1[1], 0, 0x6542)) == p0) buf1[1] = __byte_perm_S (p1, buf1[1], 0x7054);
break;
case 23: if ((__byte_perm_S (buf1[1], 0, 0x6543)) == p0) buf1[1] = __byte_perm_S (p1, buf1[1], 0x0654);
break;
case 24: if ((__byte_perm_S (buf1[2], 0, 0x6540)) == p0) buf1[2] = __byte_perm_S (p1, buf1[2], 0x7650);
break;
case 25: if ((__byte_perm_S (buf1[2], 0, 0x6541)) == p0) buf1[2] = __byte_perm_S (p1, buf1[2], 0x7604);
break;
case 26: if ((__byte_perm_S (buf1[2], 0, 0x6542)) == p0) buf1[2] = __byte_perm_S (p1, buf1[2], 0x7054);
break;
case 27: if ((__byte_perm_S (buf1[2], 0, 0x6543)) == p0) buf1[2] = __byte_perm_S (p1, buf1[2], 0x0654);
break;
case 28: if ((__byte_perm_S (buf1[3], 0, 0x6540)) == p0) buf1[3] = __byte_perm_S (p1, buf1[3], 0x7650);
break;
case 29: if ((__byte_perm_S (buf1[3], 0, 0x6541)) == p0) buf1[3] = __byte_perm_S (p1, buf1[3], 0x7604);
break;
case 30: if ((__byte_perm_S (buf1[3], 0, 0x6542)) == p0) buf1[3] = __byte_perm_S (p1, buf1[3], 0x7054);
break;
case 31: if ((__byte_perm_S (buf1[3], 0, 0x6543)) == p0) buf1[3] = __byte_perm_S (p1, buf1[3], 0x0654);
break;
}
}
#endif
#if defined IS_AMD || defined IS_GENERIC
const uchar4 tmp0 = (uchar4) (p0);
const uchar4 tmp1 = (uchar4) (p1);
uchar4 tmp;
tmp = as_uchar4 (buf0[0]); tmp = select (tmp, tmp1, tmp == tmp0); buf0[0] = as_uint (tmp);
tmp = as_uchar4 (buf0[1]); tmp = select (tmp, tmp1, tmp == tmp0); buf0[1] = as_uint (tmp);
tmp = as_uchar4 (buf0[2]); tmp = select (tmp, tmp1, tmp == tmp0); buf0[2] = as_uint (tmp);
tmp = as_uchar4 (buf0[3]); tmp = select (tmp, tmp1, tmp == tmp0); buf0[3] = as_uint (tmp);
tmp = as_uchar4 (buf1[0]); tmp = select (tmp, tmp1, tmp == tmp0); buf1[0] = as_uint (tmp);
tmp = as_uchar4 (buf1[1]); tmp = select (tmp, tmp1, tmp == tmp0); buf1[1] = as_uint (tmp);
tmp = as_uchar4 (buf1[2]); tmp = select (tmp, tmp1, tmp == tmp0); buf1[2] = as_uint (tmp);
tmp = as_uchar4 (buf1[3]); tmp = select (tmp, tmp1, tmp == tmp0); buf1[3] = as_uint (tmp);
#endif
return in_len;
}
static u32 rule_op_mangle_purgechar (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
// TODO
return in_len;
}
static u32 rule_op_mangle_togglecase_rec (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
// TODO
return in_len;
}
static u32 rule_op_mangle_dupechar_first (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if ( in_len == 0) return (in_len);
if ((in_len + p0) >= 32) return (in_len);
u32 out_len = in_len;
const u32 tmp = buf0[0] & 0xFF;
rshift_block_N (buf0, buf1, buf0, buf1, p0);
#ifdef IS_NV
switch (p0)
{
case 1: buf0[0] |= tmp;
break;
case 2: buf0[0] |= __byte_perm_S (tmp, 0, 0x5400);
break;
case 3: buf0[0] |= __byte_perm_S (tmp, 0, 0x4000);
break;
case 4: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
break;
case 5: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= tmp;
break;
case 6: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x5400);
break;
case 7: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x4000);
break;
case 8: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
break;
case 9: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= tmp;
break;
case 10: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x5400);
break;
case 11: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x4000);
break;
case 12: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
break;
case 13: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= tmp;
break;
case 14: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x5400);
break;
case 15: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x4000);
break;
case 16: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
break;
case 17: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= tmp;
break;
case 18: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x5400);
break;
case 19: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x4000);
break;
case 20: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
break;
case 21: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= tmp;
break;
case 22: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= __byte_perm_S (tmp, 0, 0x5400);
break;
case 23: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= __byte_perm_S (tmp, 0, 0x4000);
break;
case 24: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= __byte_perm_S (tmp, 0, 0x0000);
break;
case 25: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[2] |= tmp;
break;
case 26: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[2] |= __byte_perm_S (tmp, 0, 0x5400);
break;
case 27: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[2] |= __byte_perm_S (tmp, 0, 0x4000);
break;
case 28: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[2] |= __byte_perm_S (tmp, 0, 0x0000);
break;
case 29: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[3] |= tmp;
break;
case 30: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[3] |= __byte_perm_S (tmp, 0, 0x5400);
break;
case 31: buf0[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf0[3] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[0] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[1] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[2] |= __byte_perm_S (tmp, 0, 0x0000);
buf1[3] |= __byte_perm_S (tmp, 0, 0x4000);
break;
}
#endif
#if defined IS_AMD || defined IS_GENERIC
switch (p0)
{
case 1: buf0[0] |= tmp << 0;
break;
case 2: buf0[0] |= tmp << 0 | tmp << 8;
break;
case 3: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16;
break;
case 4: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
break;
case 5: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0;
break;
case 6: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8;
break;
case 7: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16;
break;
case 8: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
break;
case 9: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0;
break;
case 10: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8;
break;
case 11: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16;
break;
case 12: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
break;
case 13: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0;
break;
case 14: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8;
break;
case 15: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16;
break;
case 16: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
break;
case 17: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0;
break;
case 18: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8;
break;
case 19: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16;
break;
case 20: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
break;
case 21: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0;
break;
case 22: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0 | tmp << 8;
break;
case 23: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0 | tmp << 8 | tmp << 16;
break;
case 24: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
break;
case 25: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[2] |= tmp << 0;
break;
case 26: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[2] |= tmp << 0 | tmp << 8;
break;
case 27: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[2] |= tmp << 0 | tmp << 8 | tmp << 16;
break;
case 28: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
break;
case 29: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[3] |= tmp << 0;
break;
case 30: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[3] |= tmp << 0 | tmp << 8;
break;
case 31: buf0[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf0[3] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[0] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[1] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[2] |= tmp << 0 | tmp << 8 | tmp << 16 | tmp << 24;
buf1[3] |= tmp << 0 | tmp << 8 | tmp << 16;
break;
}
#endif
out_len += p0;
return out_len;
}
static u32 rule_op_mangle_dupechar_last (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if ( in_len == 0) return (in_len);
if ((in_len + p0) >= 32) return (in_len);
const u32 in_len1 = in_len - 1;
const u32 sh = (in_len1 & 3) * 8;
u32 tmp = 0;
switch (in_len1 / 4)
{
case 0: tmp = (buf0[0] >> sh) & 0xff; break;
case 1: tmp = (buf0[1] >> sh) & 0xff; break;
case 2: tmp = (buf0[2] >> sh) & 0xff; break;
case 3: tmp = (buf0[3] >> sh) & 0xff; break;
case 4: tmp = (buf1[0] >> sh) & 0xff; break;
case 5: tmp = (buf1[1] >> sh) & 0xff; break;
case 6: tmp = (buf1[2] >> sh) & 0xff; break;
case 7: tmp = (buf1[3] >> sh) & 0xff; break;
}
u32 out_len = in_len;
for (u32 i = 0; i < p0; i++)
{
append_block1 (out_len, buf0, buf1, tmp);
out_len++;
}
return out_len;
}
static u32 rule_op_mangle_dupechar_all (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if ( in_len == 0) return (in_len);
if ((in_len + in_len) >= 32) return (in_len);
u32 out_len = in_len;
u32 tib40[4];
u32 tib41[4];
#ifdef IS_NV
tib40[0] = __byte_perm_S (buf0[0], 0, 0x1100);
tib40[1] = __byte_perm_S (buf0[0], 0, 0x3322);
tib40[2] = __byte_perm_S (buf0[1], 0, 0x1100);
tib40[3] = __byte_perm_S (buf0[1], 0, 0x3322);
tib41[0] = __byte_perm_S (buf0[2], 0, 0x1100);
tib41[1] = __byte_perm_S (buf0[2], 0, 0x3322);
tib41[2] = __byte_perm_S (buf0[3], 0, 0x1100);
tib41[3] = __byte_perm_S (buf0[3], 0, 0x3322);
buf0[0] = tib40[0];
buf0[1] = tib40[1];
buf0[2] = tib40[2];
buf0[3] = tib40[3];
buf1[0] = tib41[0];
buf1[1] = tib41[1];
buf1[2] = tib41[2];
buf1[3] = tib41[3];
#endif
#if defined IS_AMD || defined IS_GENERIC
tib40[0] = ((buf0[0] & 0x000000FF) << 0) | ((buf0[0] & 0x0000FF00) << 8);
tib40[1] = ((buf0[0] & 0x00FF0000) >> 16) | ((buf0[0] & 0xFF000000) >> 8);
tib40[2] = ((buf0[1] & 0x000000FF) << 0) | ((buf0[1] & 0x0000FF00) << 8);
tib40[3] = ((buf0[1] & 0x00FF0000) >> 16) | ((buf0[1] & 0xFF000000) >> 8);
tib41[0] = ((buf0[2] & 0x000000FF) << 0) | ((buf0[2] & 0x0000FF00) << 8);
tib41[1] = ((buf0[2] & 0x00FF0000) >> 16) | ((buf0[2] & 0xFF000000) >> 8);
tib41[2] = ((buf0[3] & 0x000000FF) << 0) | ((buf0[3] & 0x0000FF00) << 8);
tib41[3] = ((buf0[3] & 0x00FF0000) >> 16) | ((buf0[3] & 0xFF000000) >> 8);
buf0[0] = tib40[0] | (tib40[0] << 8);
buf0[1] = tib40[1] | (tib40[1] << 8);
buf0[2] = tib40[2] | (tib40[2] << 8);
buf0[3] = tib40[3] | (tib40[3] << 8);
buf1[0] = tib41[0] | (tib41[0] << 8);
buf1[1] = tib41[1] | (tib41[1] << 8);
buf1[2] = tib41[2] | (tib41[2] << 8);
buf1[3] = tib41[3] | (tib41[3] << 8);
#endif
out_len = out_len + out_len;
return out_len;
}
static u32 rule_op_mangle_switch_first (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (in_len < 2) return (in_len);
#ifdef IS_NV
buf0[0] = __byte_perm_S (buf0[0], 0, 0x3201);
#endif
#if defined IS_AMD || defined IS_GENERIC
buf0[0] = (buf0[0] & 0xFFFF0000) | ((buf0[0] << 8) & 0x0000FF00) | ((buf0[0] >> 8) & 0x000000FF);
#endif
return in_len;
}
static u32 rule_op_mangle_switch_last (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (in_len < 2) return (in_len);
#ifdef IS_NV
switch (in_len)
{
case 2: buf0[0] = __byte_perm_S (buf0[0], 0, 0x5401);
break;
case 3: buf0[0] = __byte_perm_S (buf0[0], 0, 0x4120);
break;
case 4: buf0[0] = __byte_perm_S (buf0[0], 0, 0x2310);
break;
case 5: buf0[1] = __byte_perm_S (buf0[1], buf0[0], 0x7210);
buf0[0] = __byte_perm_S (buf0[0], buf0[1], 0x4210);
buf0[1] = __byte_perm_S (buf0[1], 0, 0x6543);
break;
case 6: buf0[1] = __byte_perm_S (buf0[1], 0, 0x5401);
break;
case 7: buf0[1] = __byte_perm_S (buf0[1], 0, 0x4120);
break;
case 8: buf0[1] = __byte_perm_S (buf0[1], 0, 0x2310);
break;
case 9: buf0[2] = __byte_perm_S (buf0[2], buf0[1], 0x7210);
buf0[1] = __byte_perm_S (buf0[1], buf0[2], 0x4210);
buf0[2] = __byte_perm_S (buf0[2], 0, 0x6543);
break;
case 10: buf0[2] = __byte_perm_S (buf0[2], 0, 0x5401);
break;
case 11: buf0[2] = __byte_perm_S (buf0[2], 0, 0x4120);
break;
case 12: buf0[2] = __byte_perm_S (buf0[2], 0, 0x2310);
break;
case 13: buf0[3] = __byte_perm_S (buf0[3], buf0[2], 0x7210);
buf0[2] = __byte_perm_S (buf0[2], buf0[3], 0x4210);
buf0[3] = __byte_perm_S (buf0[3], 0, 0x6543);
break;
case 14: buf0[3] = __byte_perm_S (buf0[3], 0, 0x5401);
break;
case 15: buf0[3] = __byte_perm_S (buf0[3], 0, 0x4120);
break;
case 16: buf0[3] = __byte_perm_S (buf0[3], 0, 0x2310);
break;
case 17: buf1[0] = __byte_perm_S (buf1[0], buf0[3], 0x7210);
buf0[3] = __byte_perm_S (buf0[3], buf1[0], 0x4210);
buf1[0] = __byte_perm_S (buf1[0], 0, 0x6543);
break;
case 18: buf1[0] = __byte_perm_S (buf1[0], 0, 0x5401);
break;
case 19: buf1[0] = __byte_perm_S (buf1[0], 0, 0x4120);
break;
case 20: buf1[0] = __byte_perm_S (buf1[0], 0, 0x2310);
break;
case 21: buf1[1] = __byte_perm_S (buf1[1], buf1[0], 0x7210);
buf1[0] = __byte_perm_S (buf1[0], buf1[1], 0x4210);
buf1[1] = __byte_perm_S (buf1[1], 0, 0x6543);
break;
case 22: buf1[1] = __byte_perm_S (buf1[1], 0, 0x5401);
break;
case 23: buf1[1] = __byte_perm_S (buf1[1], 0, 0x4120);
break;
case 24: buf1[1] = __byte_perm_S (buf1[1], 0, 0x2310);
break;
case 25: buf1[2] = __byte_perm_S (buf1[2], buf1[1], 0x7210);
buf1[1] = __byte_perm_S (buf1[1], buf1[2], 0x4210);
buf1[2] = __byte_perm_S (buf1[2], 0, 0x6543);
break;
case 26: buf1[2] = __byte_perm_S (buf1[2], 0, 0x5401);
break;
case 27: buf1[2] = __byte_perm_S (buf1[2], 0, 0x4120);
break;
case 28: buf1[2] = __byte_perm_S (buf1[2], 0, 0x2310);
break;
case 29: buf1[3] = __byte_perm_S (buf1[3], buf1[2], 0x7210);
buf1[2] = __byte_perm_S (buf1[2], buf1[3], 0x4210);
buf1[3] = __byte_perm_S (buf1[3], 0, 0x6543);
break;
case 30: buf1[3] = __byte_perm_S (buf1[3], 0, 0x5401);
break;
case 31: buf1[3] = __byte_perm_S (buf1[3], 0, 0x4120);
break;
}
#endif
#if defined IS_AMD || defined IS_GENERIC
switch (in_len)
{
case 2: buf0[0] = ((buf0[0] << 8) & 0x0000FF00) | ((buf0[0] >> 8) & 0x000000FF);
break;
case 3: buf0[0] = (buf0[0] & 0x000000FF) | ((buf0[0] << 8) & 0x00FF0000) | ((buf0[0] >> 8) & 0x0000FF00);
break;
case 4: buf0[0] = (buf0[0] & 0x0000FFFF) | ((buf0[0] << 8) & 0xFF000000) | ((buf0[0] >> 8) & 0x00FF0000);
break;
case 5: buf0[1] = (buf0[0] & 0xFF000000) | buf0[1];
buf0[0] = (buf0[0] & 0x00FFFFFF) | (buf0[1] << 24);
buf0[1] = (buf0[1] >> 24);
break;
case 6: buf0[1] = ((buf0[1] << 8) & 0x0000FF00) | ((buf0[1] >> 8) & 0x000000FF);
break;
case 7: buf0[1] = (buf0[1] & 0x000000FF) | ((buf0[1] << 8) & 0x00FF0000) | ((buf0[1] >> 8) & 0x0000FF00);
break;
case 8: buf0[1] = (buf0[1] & 0x0000FFFF) | ((buf0[1] << 8) & 0xFF000000) | ((buf0[1] >> 8) & 0x00FF0000);
break;
case 9: buf0[2] = (buf0[1] & 0xFF000000) | buf0[2];
buf0[1] = (buf0[1] & 0x00FFFFFF) | (buf0[2] << 24);
buf0[2] = (buf0[2] >> 24);
break;
case 10: buf0[2] = ((buf0[2] << 8) & 0x0000FF00) | ((buf0[2] >> 8) & 0x000000FF);
break;
case 11: buf0[2] = (buf0[2] & 0x000000FF) | ((buf0[2] << 8) & 0x00FF0000) | ((buf0[2] >> 8) & 0x0000FF00);
break;
case 12: buf0[2] = (buf0[2] & 0x0000FFFF) | ((buf0[2] << 8) & 0xFF000000) | ((buf0[2] >> 8) & 0x00FF0000);
break;
case 13: buf0[3] = (buf0[2] & 0xFF000000) | buf0[3];
buf0[2] = (buf0[2] & 0x00FFFFFF) | (buf0[3] << 24);
buf0[3] = (buf0[3] >> 24);
break;
case 14: buf0[3] = ((buf0[3] << 8) & 0x0000FF00) | ((buf0[3] >> 8) & 0x000000FF);
break;
case 15: buf0[3] = (buf0[3] & 0x000000FF) | ((buf0[3] << 8) & 0x00FF0000) | ((buf0[3] >> 8) & 0x0000FF00);
break;
case 16: buf0[3] = (buf0[3] & 0x0000FFFF) | ((buf0[3] << 8) & 0xFF000000) | ((buf0[3] >> 8) & 0x00FF0000);
break;
case 17: buf1[0] = (buf0[3] & 0xFF000000) | buf1[0];
buf0[3] = (buf0[3] & 0x00FFFFFF) | (buf1[0] << 24);
buf1[0] = (buf1[0] >> 24);
break;
case 18: buf1[0] = ((buf1[0] << 8) & 0x0000FF00) | ((buf1[0] >> 8) & 0x000000FF);
break;
case 19: buf1[0] = (buf1[0] & 0x000000FF) | ((buf1[0] << 8) & 0x00FF0000) | ((buf1[0] >> 8) & 0x0000FF00);
break;
case 20: buf1[0] = (buf1[0] & 0x0000FFFF) | ((buf1[0] << 8) & 0xFF000000) | ((buf1[0] >> 8) & 0x00FF0000);
break;
case 21: buf1[1] = (buf1[0] & 0xFF000000) | buf1[1];
buf1[0] = (buf1[0] & 0x00FFFFFF) | (buf1[1] << 24);
buf1[1] = (buf1[1] >> 24);
break;
case 22: buf1[1] = ((buf1[1] << 8) & 0x0000FF00) | ((buf1[1] >> 8) & 0x000000FF);
break;
case 23: buf1[1] = (buf1[1] & 0x000000FF) | ((buf1[1] << 8) & 0x00FF0000) | ((buf1[1] >> 8) & 0x0000FF00);
break;
case 24: buf1[1] = (buf1[1] & 0x0000FFFF) | ((buf1[1] << 8) & 0xFF000000) | ((buf1[1] >> 8) & 0x00FF0000);
break;
case 25: buf1[2] = (buf1[1] & 0xFF000000) | buf1[2];
buf1[1] = (buf1[1] & 0x00FFFFFF) | (buf1[2] << 24);
buf1[2] = (buf1[2] >> 24);
break;
case 26: buf1[2] = ((buf1[2] << 8) & 0x0000FF00) | ((buf1[2] >> 8) & 0x000000FF);
break;
case 27: buf1[2] = (buf1[2] & 0x000000FF) | ((buf1[2] << 8) & 0x00FF0000) | ((buf1[2] >> 8) & 0x0000FF00);
break;
case 28: buf1[2] = (buf1[2] & 0x0000FFFF) | ((buf1[2] << 8) & 0xFF000000) | ((buf1[2] >> 8) & 0x00FF0000);
break;
case 29: buf1[3] = (buf1[2] & 0xFF000000) | buf1[3];
buf1[2] = (buf1[2] & 0x00FFFFFF) | (buf1[3] << 24);
buf1[3] = (buf1[3] >> 24);
break;
case 30: buf1[3] = ((buf1[3] << 8) & 0x0000FF00) | ((buf1[3] >> 8) & 0x000000FF);
break;
case 31: buf1[3] = (buf1[3] & 0x000000FF) | ((buf1[3] << 8) & 0x00FF0000) | ((buf1[3] >> 8) & 0x0000FF00);
break;
}
#endif
return in_len;
}
static u32 rule_op_mangle_switch_at (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
if (p1 >= in_len) return (in_len);
u32 tmp0 = 0;
u32 tmp1 = 0;
#ifdef IS_NV
switch (p0)
{
case 0: tmp0 = __byte_perm_S (buf0[0], 0, 0x6540);
break;
case 1: tmp0 = __byte_perm_S (buf0[0], 0, 0x6541);
break;
case 2: tmp0 = __byte_perm_S (buf0[0], 0, 0x6542);
break;
case 3: tmp0 = __byte_perm_S (buf0[0], 0, 0x6543);
break;
case 4: tmp0 = __byte_perm_S (buf0[1], 0, 0x6540);
break;
case 5: tmp0 = __byte_perm_S (buf0[1], 0, 0x6541);
break;
case 6: tmp0 = __byte_perm_S (buf0[1], 0, 0x6542);
break;
case 7: tmp0 = __byte_perm_S (buf0[1], 0, 0x6543);
break;
case 8: tmp0 = __byte_perm_S (buf0[2], 0, 0x6540);
break;
case 9: tmp0 = __byte_perm_S (buf0[2], 0, 0x6541);
break;
case 10: tmp0 = __byte_perm_S (buf0[2], 0, 0x6542);
break;
case 11: tmp0 = __byte_perm_S (buf0[2], 0, 0x6543);
break;
case 12: tmp0 = __byte_perm_S (buf0[3], 0, 0x6540);
break;
case 13: tmp0 = __byte_perm_S (buf0[3], 0, 0x6541);
break;
case 14: tmp0 = __byte_perm_S (buf0[3], 0, 0x6542);
break;
case 15: tmp0 = __byte_perm_S (buf0[3], 0, 0x6543);
break;
case 16: tmp0 = __byte_perm_S (buf1[0], 0, 0x6540);
break;
case 17: tmp0 = __byte_perm_S (buf1[0], 0, 0x6541);
break;
case 18: tmp0 = __byte_perm_S (buf1[0], 0, 0x6542);
break;
case 19: tmp0 = __byte_perm_S (buf1[0], 0, 0x6543);
break;
case 20: tmp0 = __byte_perm_S (buf1[1], 0, 0x6540);
break;
case 21: tmp0 = __byte_perm_S (buf1[1], 0, 0x6541);
break;
case 22: tmp0 = __byte_perm_S (buf1[1], 0, 0x6542);
break;
case 23: tmp0 = __byte_perm_S (buf1[1], 0, 0x6543);
break;
case 24: tmp0 = __byte_perm_S (buf1[2], 0, 0x6540);
break;
case 25: tmp0 = __byte_perm_S (buf1[2], 0, 0x6541);
break;
case 26: tmp0 = __byte_perm_S (buf1[2], 0, 0x6542);
break;
case 27: tmp0 = __byte_perm_S (buf1[2], 0, 0x6543);
break;
case 28: tmp0 = __byte_perm_S (buf1[3], 0, 0x6540);
break;
case 29: tmp0 = __byte_perm_S (buf1[3], 0, 0x6541);
break;
case 30: tmp0 = __byte_perm_S (buf1[3], 0, 0x6542);
break;
case 31: tmp0 = __byte_perm_S (buf1[3], 0, 0x6543);
break;
}
switch (p1)
{
case 0: tmp1 = __byte_perm_S (buf0[0], 0, 0x6540);
buf0[0] = __byte_perm_S (tmp0, buf0[0], 0x7650);
break;
case 1: tmp1 = __byte_perm_S (buf0[0], 0, 0x6541);
buf0[0] = __byte_perm_S (tmp0, buf0[0], 0x7604);
break;
case 2: tmp1 = __byte_perm_S (buf0[0], 0, 0x6542);
buf0[0] = __byte_perm_S (tmp0, buf0[0], 0x7054);
break;
case 3: tmp1 = __byte_perm_S (buf0[0], 0, 0x6543);
buf0[0] = __byte_perm_S (tmp0, buf0[0], 0x0654);
break;
case 4: tmp1 = __byte_perm_S (buf0[1], 0, 0x6540);
buf0[1] = __byte_perm_S (tmp0, buf0[1], 0x7650);
break;
case 5: tmp1 = __byte_perm_S (buf0[1], 0, 0x6541);
buf0[1] = __byte_perm_S (tmp0, buf0[1], 0x7604);
break;
case 6: tmp1 = __byte_perm_S (buf0[1], 0, 0x6542);
buf0[1] = __byte_perm_S (tmp0, buf0[1], 0x7054);
break;
case 7: tmp1 = __byte_perm_S (buf0[1], 0, 0x6543);
buf0[1] = __byte_perm_S (tmp0, buf0[1], 0x0654);
break;
case 8: tmp1 = __byte_perm_S (buf0[2], 0, 0x6540);
buf0[2] = __byte_perm_S (tmp0, buf0[2], 0x7650);
break;
case 9: tmp1 = __byte_perm_S (buf0[2], 0, 0x6541);
buf0[2] = __byte_perm_S (tmp0, buf0[2], 0x7604);
break;
case 10: tmp1 = __byte_perm_S (buf0[2], 0, 0x6542);
buf0[2] = __byte_perm_S (tmp0, buf0[2], 0x7054);
break;
case 11: tmp1 = __byte_perm_S (buf0[2], 0, 0x6543);
buf0[2] = __byte_perm_S (tmp0, buf0[2], 0x0654);
break;
case 12: tmp1 = __byte_perm_S (buf0[3], 0, 0x6540);
buf0[3] = __byte_perm_S (tmp0, buf0[3], 0x7650);
break;
case 13: tmp1 = __byte_perm_S (buf0[3], 0, 0x6541);
buf0[3] = __byte_perm_S (tmp0, buf0[3], 0x7604);
break;
case 14: tmp1 = __byte_perm_S (buf0[3], 0, 0x6542);
buf0[3] = __byte_perm_S (tmp0, buf0[3], 0x7054);
break;
case 15: tmp1 = __byte_perm_S (buf0[3], 0, 0x6543);
buf0[3] = __byte_perm_S (tmp0, buf0[3], 0x0654);
break;
case 16: tmp1 = __byte_perm_S (buf1[0], 0, 0x6540);
buf1[0] = __byte_perm_S (tmp0, buf1[0], 0x7650);
break;
case 17: tmp1 = __byte_perm_S (buf1[0], 0, 0x6541);
buf1[0] = __byte_perm_S (tmp0, buf1[0], 0x7604);
break;
case 18: tmp1 = __byte_perm_S (buf1[0], 0, 0x6542);
buf1[0] = __byte_perm_S (tmp0, buf1[0], 0x7054);
break;
case 19: tmp1 = __byte_perm_S (buf1[0], 0, 0x6543);
buf1[0] = __byte_perm_S (tmp0, buf1[0], 0x0654);
break;
case 20: tmp1 = __byte_perm_S (buf1[1], 0, 0x6540);
buf1[1] = __byte_perm_S (tmp0, buf1[1], 0x7650);
break;
case 21: tmp1 = __byte_perm_S (buf1[1], 0, 0x6541);
buf1[1] = __byte_perm_S (tmp0, buf1[1], 0x7604);
break;
case 22: tmp1 = __byte_perm_S (buf1[1], 0, 0x6542);
buf1[1] = __byte_perm_S (tmp0, buf1[1], 0x7054);
break;
case 23: tmp1 = __byte_perm_S (buf1[1], 0, 0x6543);
buf1[1] = __byte_perm_S (tmp0, buf1[1], 0x0654);
break;
case 24: tmp1 = __byte_perm_S (buf1[2], 0, 0x6540);
buf1[2] = __byte_perm_S (tmp0, buf1[2], 0x7650);
break;
case 25: tmp1 = __byte_perm_S (buf1[2], 0, 0x6541);
buf1[2] = __byte_perm_S (tmp0, buf1[2], 0x7604);
break;
case 26: tmp1 = __byte_perm_S (buf1[2], 0, 0x6542);
buf1[2] = __byte_perm_S (tmp0, buf1[2], 0x7054);
break;
case 27: tmp1 = __byte_perm_S (buf1[2], 0, 0x6543);
buf1[2] = __byte_perm_S (tmp0, buf1[2], 0x0654);
break;
case 28: tmp1 = __byte_perm_S (buf1[3], 0, 0x6540);
buf1[3] = __byte_perm_S (tmp0, buf1[3], 0x7650);
break;
case 29: tmp1 = __byte_perm_S (buf1[3], 0, 0x6541);
buf1[3] = __byte_perm_S (tmp0, buf1[3], 0x7604);
break;
case 30: tmp1 = __byte_perm_S (buf1[3], 0, 0x6542);
buf1[3] = __byte_perm_S (tmp0, buf1[3], 0x7054);
break;
case 31: tmp1 = __byte_perm_S (buf1[3], 0, 0x6543);
buf1[3] = __byte_perm_S (tmp0, buf1[3], 0x0654);
break;
}
switch (p0)
{
case 0: buf0[0] = __byte_perm_S (tmp1, buf0[0], 0x7650);
break;
case 1: buf0[0] = __byte_perm_S (tmp1, buf0[0], 0x7604);
break;
case 2: buf0[0] = __byte_perm_S (tmp1, buf0[0], 0x7054);
break;
case 3: buf0[0] = __byte_perm_S (tmp1, buf0[0], 0x0654);
break;
case 4: buf0[1] = __byte_perm_S (tmp1, buf0[1], 0x7650);
break;
case 5: buf0[1] = __byte_perm_S (tmp1, buf0[1], 0x7604);
break;
case 6: buf0[1] = __byte_perm_S (tmp1, buf0[1], 0x7054);
break;
case 7: buf0[1] = __byte_perm_S (tmp1, buf0[1], 0x0654);
break;
case 8: buf0[2] = __byte_perm_S (tmp1, buf0[2], 0x7650);
break;
case 9: buf0[2] = __byte_perm_S (tmp1, buf0[2], 0x7604);
break;
case 10: buf0[2] = __byte_perm_S (tmp1, buf0[2], 0x7054);
break;
case 11: buf0[2] = __byte_perm_S (tmp1, buf0[2], 0x0654);
break;
case 12: buf0[3] = __byte_perm_S (tmp1, buf0[3], 0x7650);
break;
case 13: buf0[3] = __byte_perm_S (tmp1, buf0[3], 0x7604);
break;
case 14: buf0[3] = __byte_perm_S (tmp1, buf0[3], 0x7054);
break;
case 15: buf0[3] = __byte_perm_S (tmp1, buf0[3], 0x0654);
break;
case 16: buf1[0] = __byte_perm_S (tmp1, buf1[0], 0x7650);
break;
case 17: buf1[0] = __byte_perm_S (tmp1, buf1[0], 0x7604);
break;
case 18: buf1[0] = __byte_perm_S (tmp1, buf1[0], 0x7054);
break;
case 19: buf1[0] = __byte_perm_S (tmp1, buf1[0], 0x0654);
break;
case 20: buf1[1] = __byte_perm_S (tmp1, buf1[1], 0x7650);
break;
case 21: buf1[1] = __byte_perm_S (tmp1, buf1[1], 0x7604);
break;
case 22: buf1[1] = __byte_perm_S (tmp1, buf1[1], 0x7054);
break;
case 23: buf1[1] = __byte_perm_S (tmp1, buf1[1], 0x0654);
break;
case 24: buf1[2] = __byte_perm_S (tmp1, buf1[2], 0x7650);
break;
case 25: buf1[2] = __byte_perm_S (tmp1, buf1[2], 0x7604);
break;
case 26: buf1[2] = __byte_perm_S (tmp1, buf1[2], 0x7054);
break;
case 27: buf1[2] = __byte_perm_S (tmp1, buf1[2], 0x0654);
break;
case 28: buf1[3] = __byte_perm_S (tmp1, buf1[3], 0x7650);
break;
case 29: buf1[3] = __byte_perm_S (tmp1, buf1[3], 0x7604);
break;
case 30: buf1[3] = __byte_perm_S (tmp1, buf1[3], 0x7054);
break;
case 31: buf1[3] = __byte_perm_S (tmp1, buf1[3], 0x0654);
break;
}
#endif
#if defined IS_AMD || defined IS_GENERIC
switch (p0)
{
case 0: tmp0 = (buf0[0] >> 0) & 0xFF;
break;
case 1: tmp0 = (buf0[0] >> 8) & 0xFF;
break;
case 2: tmp0 = (buf0[0] >> 16) & 0xFF;
break;
case 3: tmp0 = (buf0[0] >> 24) & 0xFF;
break;
case 4: tmp0 = (buf0[1] >> 0) & 0xFF;
break;
case 5: tmp0 = (buf0[1] >> 8) & 0xFF;
break;
case 6: tmp0 = (buf0[1] >> 16) & 0xFF;
break;
case 7: tmp0 = (buf0[1] >> 24) & 0xFF;
break;
case 8: tmp0 = (buf0[2] >> 0) & 0xFF;
break;
case 9: tmp0 = (buf0[2] >> 8) & 0xFF;
break;
case 10: tmp0 = (buf0[2] >> 16) & 0xFF;
break;
case 11: tmp0 = (buf0[2] >> 24) & 0xFF;
break;
case 12: tmp0 = (buf0[3] >> 0) & 0xFF;
break;
case 13: tmp0 = (buf0[3] >> 8) & 0xFF;
break;
case 14: tmp0 = (buf0[3] >> 16) & 0xFF;
break;
case 15: tmp0 = (buf0[3] >> 24) & 0xFF;
break;
case 16: tmp0 = (buf1[0] >> 0) & 0xFF;
break;
case 17: tmp0 = (buf1[0] >> 8) & 0xFF;
break;
case 18: tmp0 = (buf1[0] >> 16) & 0xFF;
break;
case 19: tmp0 = (buf1[0] >> 24) & 0xFF;
break;
case 20: tmp0 = (buf1[1] >> 0) & 0xFF;
break;
case 21: tmp0 = (buf1[1] >> 8) & 0xFF;
break;
case 22: tmp0 = (buf1[1] >> 16) & 0xFF;
break;
case 23: tmp0 = (buf1[1] >> 24) & 0xFF;
break;
case 24: tmp0 = (buf1[2] >> 0) & 0xFF;
break;
case 25: tmp0 = (buf1[2] >> 8) & 0xFF;
break;
case 26: tmp0 = (buf1[2] >> 16) & 0xFF;
break;
case 27: tmp0 = (buf1[2] >> 24) & 0xFF;
break;
case 28: tmp0 = (buf1[3] >> 0) & 0xFF;
break;
case 29: tmp0 = (buf1[3] >> 8) & 0xFF;
break;
case 30: tmp0 = (buf1[3] >> 16) & 0xFF;
break;
case 31: tmp0 = (buf1[3] >> 24) & 0xFF;
break;
}
switch (p1)
{
case 0: tmp1 = (buf0[0] >> 0) & 0xff;
buf0[0] = (buf0[0] & 0xffffff00) | tmp0 << 0;
break;
case 1: tmp1 = (buf0[0] >> 8) & 0xff;
buf0[0] = (buf0[0] & 0xffff00ff) | tmp0 << 8;
break;
case 2: tmp1 = (buf0[0] >> 16) & 0xff;
buf0[0] = (buf0[0] & 0xff00ffff) | tmp0 << 16;
break;
case 3: tmp1 = (buf0[0] >> 24) & 0xff;
buf0[0] = (buf0[0] & 0x00ffffff) | tmp0 << 24;
break;
case 4: tmp1 = (buf0[1] >> 0) & 0xff;
buf0[1] = (buf0[1] & 0xffffff00) | tmp0 << 0;
break;
case 5: tmp1 = (buf0[1] >> 8) & 0xff;
buf0[1] = (buf0[1] & 0xffff00ff) | tmp0 << 8;
break;
case 6: tmp1 = (buf0[1] >> 16) & 0xff;
buf0[1] = (buf0[1] & 0xff00ffff) | tmp0 << 16;
break;
case 7: tmp1 = (buf0[1] >> 24) & 0xff;
buf0[1] = (buf0[1] & 0x00ffffff) | tmp0 << 24;
break;
case 8: tmp1 = (buf0[2] >> 0) & 0xff;
buf0[2] = (buf0[2] & 0xffffff00) | tmp0 << 0;
break;
case 9: tmp1 = (buf0[2] >> 8) & 0xff;
buf0[2] = (buf0[2] & 0xffff00ff) | tmp0 << 8;
break;
case 10: tmp1 = (buf0[2] >> 16) & 0xff;
buf0[2] = (buf0[2] & 0xff00ffff) | tmp0 << 16;
break;
case 11: tmp1 = (buf0[2] >> 24) & 0xff;
buf0[2] = (buf0[2] & 0x00ffffff) | tmp0 << 24;
break;
case 12: tmp1 = (buf0[3] >> 0) & 0xff;
buf0[3] = (buf0[3] & 0xffffff00) | tmp0 << 0;
break;
case 13: tmp1 = (buf0[3] >> 8) & 0xff;
buf0[3] = (buf0[3] & 0xffff00ff) | tmp0 << 8;
break;
case 14: tmp1 = (buf0[3] >> 16) & 0xff;
buf0[3] = (buf0[3] & 0xff00ffff) | tmp0 << 16;
break;
case 15: tmp1 = (buf0[3] >> 24) & 0xff;
buf0[3] = (buf0[3] & 0x00ffffff) | tmp0 << 24;
break;
case 16: tmp1 = (buf1[0] >> 0) & 0xff;
buf1[0] = (buf1[0] & 0xffffff00) | tmp0 << 0;
break;
case 17: tmp1 = (buf1[0] >> 8) & 0xff;
buf1[0] = (buf1[0] & 0xffff00ff) | tmp0 << 8;
break;
case 18: tmp1 = (buf1[0] >> 16) & 0xff;
buf1[0] = (buf1[0] & 0xff00ffff) | tmp0 << 16;
break;
case 19: tmp1 = (buf1[0] >> 24) & 0xff;
buf1[0] = (buf1[0] & 0x00ffffff) | tmp0 << 24;
break;
case 20: tmp1 = (buf1[1] >> 0) & 0xff;
buf1[1] = (buf1[1] & 0xffffff00) | tmp0 << 0;
break;
case 21: tmp1 = (buf1[1] >> 8) & 0xff;
buf1[1] = (buf1[1] & 0xffff00ff) | tmp0 << 8;
break;
case 22: tmp1 = (buf1[1] >> 16) & 0xff;
buf1[1] = (buf1[1] & 0xff00ffff) | tmp0 << 16;
break;
case 23: tmp1 = (buf1[1] >> 24) & 0xff;
buf1[1] = (buf1[1] & 0x00ffffff) | tmp0 << 24;
break;
case 24: tmp1 = (buf1[2] >> 0) & 0xff;
buf1[2] = (buf1[2] & 0xffffff00) | tmp0 << 0;
break;
case 25: tmp1 = (buf1[2] >> 8) & 0xff;
buf1[2] = (buf1[2] & 0xffff00ff) | tmp0 << 8;
break;
case 26: tmp1 = (buf1[2] >> 16) & 0xff;
buf1[2] = (buf1[2] & 0xff00ffff) | tmp0 << 16;
break;
case 27: tmp1 = (buf1[2] >> 24) & 0xff;
buf1[2] = (buf1[2] & 0x00ffffff) | tmp0 << 24;
break;
case 28: tmp1 = (buf1[3] >> 0) & 0xff;
buf1[3] = (buf1[3] & 0xffffff00) | tmp0 << 0;
break;
case 29: tmp1 = (buf1[3] >> 8) & 0xff;
buf1[3] = (buf1[3] & 0xffff00ff) | tmp0 << 8;
break;
case 30: tmp1 = (buf1[3] >> 16) & 0xff;
buf1[3] = (buf1[3] & 0xff00ffff) | tmp0 << 16;
break;
case 31: tmp1 = (buf1[3] >> 24) & 0xff;
buf1[3] = (buf1[3] & 0x00ffffff) | tmp0 << 24;
break;
}
switch (p0)
{
case 0: buf0[0] = (buf0[0] & 0xffffff00) | tmp1 << 0;
break;
case 1: buf0[0] = (buf0[0] & 0xffff00ff) | tmp1 << 8;
break;
case 2: buf0[0] = (buf0[0] & 0xff00ffff) | tmp1 << 16;
break;
case 3: buf0[0] = (buf0[0] & 0x00ffffff) | tmp1 << 24;
break;
case 4: buf0[1] = (buf0[1] & 0xffffff00) | tmp1 << 0;
break;
case 5: buf0[1] = (buf0[1] & 0xffff00ff) | tmp1 << 8;
break;
case 6: buf0[1] = (buf0[1] & 0xff00ffff) | tmp1 << 16;
break;
case 7: buf0[1] = (buf0[1] & 0x00ffffff) | tmp1 << 24;
break;
case 8: buf0[2] = (buf0[2] & 0xffffff00) | tmp1 << 0;
break;
case 9: buf0[2] = (buf0[2] & 0xffff00ff) | tmp1 << 8;
break;
case 10: buf0[2] = (buf0[2] & 0xff00ffff) | tmp1 << 16;
break;
case 11: buf0[2] = (buf0[2] & 0x00ffffff) | tmp1 << 24;
break;
case 12: buf0[3] = (buf0[3] & 0xffffff00) | tmp1 << 0;
break;
case 13: buf0[3] = (buf0[3] & 0xffff00ff) | tmp1 << 8;
break;
case 14: buf0[3] = (buf0[3] & 0xff00ffff) | tmp1 << 16;
break;
case 15: buf0[3] = (buf0[3] & 0x00ffffff) | tmp1 << 24;
break;
case 16: buf1[0] = (buf1[0] & 0xffffff00) | tmp1 << 0;
break;
case 17: buf1[0] = (buf1[0] & 0xffff00ff) | tmp1 << 8;
break;
case 18: buf1[0] = (buf1[0] & 0xff00ffff) | tmp1 << 16;
break;
case 19: buf1[0] = (buf1[0] & 0x00ffffff) | tmp1 << 24;
break;
case 20: buf1[1] = (buf1[1] & 0xffffff00) | tmp1 << 0;
break;
case 21: buf1[1] = (buf1[1] & 0xffff00ff) | tmp1 << 8;
break;
case 22: buf1[1] = (buf1[1] & 0xff00ffff) | tmp1 << 16;
break;
case 23: buf1[1] = (buf1[1] & 0x00ffffff) | tmp1 << 24;
break;
case 24: buf1[2] = (buf1[2] & 0xffffff00) | tmp1 << 0;
break;
case 25: buf1[2] = (buf1[2] & 0xffff00ff) | tmp1 << 8;
break;
case 26: buf1[2] = (buf1[2] & 0xff00ffff) | tmp1 << 16;
break;
case 27: buf1[2] = (buf1[2] & 0x00ffffff) | tmp1 << 24;
break;
case 28: buf1[3] = (buf1[3] & 0xffffff00) | tmp1 << 0;
break;
case 29: buf1[3] = (buf1[3] & 0xffff00ff) | tmp1 << 8;
break;
case 30: buf1[3] = (buf1[3] & 0xff00ffff) | tmp1 << 16;
break;
case 31: buf1[3] = (buf1[3] & 0x00ffffff) | tmp1 << 24;
break;
}
#endif
return in_len;
}
static u32 rule_op_mangle_chr_shiftl (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
const u32 mr = 0xffu << ((p0 & 3) * 8);
const u32 ml = ~mr;
switch (p0 / 4)
{
case 0: buf0[0] = (buf0[0] & ml) | (((buf0[0] & mr) << 1) & mr); break;
case 1: buf0[1] = (buf0[1] & ml) | (((buf0[1] & mr) << 1) & mr); break;
case 2: buf0[2] = (buf0[2] & ml) | (((buf0[2] & mr) << 1) & mr); break;
case 3: buf0[3] = (buf0[3] & ml) | (((buf0[3] & mr) << 1) & mr); break;
case 4: buf1[0] = (buf1[0] & ml) | (((buf1[0] & mr) << 1) & mr); break;
case 5: buf1[1] = (buf1[1] & ml) | (((buf1[1] & mr) << 1) & mr); break;
case 6: buf1[2] = (buf1[2] & ml) | (((buf1[2] & mr) << 1) & mr); break;
case 7: buf1[3] = (buf1[3] & ml) | (((buf1[3] & mr) << 1) & mr); break;
}
return in_len;
}
static u32 rule_op_mangle_chr_shiftr (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
const u32 mr = 0xffu << ((p0 & 3) * 8);
const u32 ml = ~mr;
switch (p0 / 4)
{
case 0: buf0[0] = (buf0[0] & ml) | (((buf0[0] & mr) >> 1) & mr); break;
case 1: buf0[1] = (buf0[1] & ml) | (((buf0[1] & mr) >> 1) & mr); break;
case 2: buf0[2] = (buf0[2] & ml) | (((buf0[2] & mr) >> 1) & mr); break;
case 3: buf0[3] = (buf0[3] & ml) | (((buf0[3] & mr) >> 1) & mr); break;
case 4: buf1[0] = (buf1[0] & ml) | (((buf1[0] & mr) >> 1) & mr); break;
case 5: buf1[1] = (buf1[1] & ml) | (((buf1[1] & mr) >> 1) & mr); break;
case 6: buf1[2] = (buf1[2] & ml) | (((buf1[2] & mr) >> 1) & mr); break;
case 7: buf1[3] = (buf1[3] & ml) | (((buf1[3] & mr) >> 1) & mr); break;
}
return in_len;
}
static u32 rule_op_mangle_chr_incr (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
const u32 mr = 0xffu << ((p0 & 3) * 8);
const u32 ml = ~mr;
const u32 n = 0x01010101 & mr;
switch (p0 / 4)
{
case 0: buf0[0] = (buf0[0] & ml) | (((buf0[0] & mr) + n) & mr); break;
case 1: buf0[1] = (buf0[1] & ml) | (((buf0[1] & mr) + n) & mr); break;
case 2: buf0[2] = (buf0[2] & ml) | (((buf0[2] & mr) + n) & mr); break;
case 3: buf0[3] = (buf0[3] & ml) | (((buf0[3] & mr) + n) & mr); break;
case 4: buf1[0] = (buf1[0] & ml) | (((buf1[0] & mr) + n) & mr); break;
case 5: buf1[1] = (buf1[1] & ml) | (((buf1[1] & mr) + n) & mr); break;
case 6: buf1[2] = (buf1[2] & ml) | (((buf1[2] & mr) + n) & mr); break;
case 7: buf1[3] = (buf1[3] & ml) | (((buf1[3] & mr) + n) & mr); break;
}
return in_len;
}
static u32 rule_op_mangle_chr_decr (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 >= in_len) return (in_len);
const u32 mr = 0xffu << ((p0 & 3) * 8);
const u32 ml = ~mr;
const u32 n = 0x01010101 & mr;
switch (p0 / 4)
{
case 0: buf0[0] = (buf0[0] & ml) | (((buf0[0] & mr) - n) & mr); break;
case 1: buf0[1] = (buf0[1] & ml) | (((buf0[1] & mr) - n) & mr); break;
case 2: buf0[2] = (buf0[2] & ml) | (((buf0[2] & mr) - n) & mr); break;
case 3: buf0[3] = (buf0[3] & ml) | (((buf0[3] & mr) - n) & mr); break;
case 4: buf1[0] = (buf1[0] & ml) | (((buf1[0] & mr) - n) & mr); break;
case 5: buf1[1] = (buf1[1] & ml) | (((buf1[1] & mr) - n) & mr); break;
case 6: buf1[2] = (buf1[2] & ml) | (((buf1[2] & mr) - n) & mr); break;
case 7: buf1[3] = (buf1[3] & ml) | (((buf1[3] & mr) - n) & mr); break;
}
return in_len;
}
static u32 rule_op_mangle_replace_np1 (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if ((p0 + 1) >= in_len) return (in_len);
u32 tib40[4];
u32 tib41[4];
lshift_block (buf0, buf1, tib40, tib41);
const u32 mr = 0xffu << ((p0 & 3) * 8);
const u32 ml = ~mr;
switch (p0 / 4)
{
case 0: buf0[0] = (buf0[0] & ml) | (tib40[0] & mr); break;
case 1: buf0[1] = (buf0[1] & ml) | (tib40[1] & mr); break;
case 2: buf0[2] = (buf0[2] & ml) | (tib40[2] & mr); break;
case 3: buf0[3] = (buf0[3] & ml) | (tib40[3] & mr); break;
case 4: buf1[0] = (buf1[0] & ml) | (tib41[0] & mr); break;
case 5: buf1[1] = (buf1[1] & ml) | (tib41[1] & mr); break;
case 6: buf1[2] = (buf1[2] & ml) | (tib41[2] & mr); break;
case 7: buf1[3] = (buf1[3] & ml) | (tib41[3] & mr); break;
}
return in_len;
}
static u32 rule_op_mangle_replace_nm1 (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 == 0) return (in_len);
if (p0 >= in_len) return (in_len);
u32 tib40[4];
u32 tib41[4];
rshift_block (buf0, buf1, tib40, tib41);
const u32 mr = 0xffu << ((p0 & 3) * 8);
const u32 ml = ~mr;
switch (p0 / 4)
{
case 0: buf0[0] = (buf0[0] & ml) | (tib40[0] & mr); break;
case 1: buf0[1] = (buf0[1] & ml) | (tib40[1] & mr); break;
case 2: buf0[2] = (buf0[2] & ml) | (tib40[2] & mr); break;
case 3: buf0[3] = (buf0[3] & ml) | (tib40[3] & mr); break;
case 4: buf1[0] = (buf1[0] & ml) | (tib41[0] & mr); break;
case 5: buf1[1] = (buf1[1] & ml) | (tib41[1] & mr); break;
case 6: buf1[2] = (buf1[2] & ml) | (tib41[2] & mr); break;
case 7: buf1[3] = (buf1[3] & ml) | (tib41[3] & mr); break;
}
return in_len;
}
static u32 rule_op_mangle_dupeblock_first (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 > in_len) return (in_len);
if ((in_len + p0) >= 32) return (in_len);
u32 out_len = in_len;
u32 tib40[4];
u32 tib41[4];
tib40[0] = buf0[0];
tib40[1] = buf0[1];
tib40[2] = buf0[2];
tib40[3] = buf0[3];
tib41[0] = buf1[0];
tib41[1] = buf1[1];
tib41[2] = buf1[2];
tib41[3] = buf1[3];
truncate_right (tib40, tib41, p0);
rshift_block_N (buf0, buf1, buf0, buf1, p0);
buf0[0] |= tib40[0];
buf0[1] |= tib40[1];
buf0[2] |= tib40[2];
buf0[3] |= tib40[3];
buf1[0] |= tib41[0];
buf1[1] |= tib41[1];
buf1[2] |= tib41[2];
buf1[3] |= tib41[3];
out_len += p0;
return out_len;
}
static u32 rule_op_mangle_dupeblock_last (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
if (p0 > in_len) return (in_len);
if ((in_len + p0) >= 32) return (in_len);
u32 out_len = in_len;
u32 tib40[4];
u32 tib41[4];
rshift_block_N (buf0, buf1, tib40, tib41, p0);
truncate_left (tib40, tib41, out_len);
buf0[0] |= tib40[0];
buf0[1] |= tib40[1];
buf0[2] |= tib40[2];
buf0[3] |= tib40[3];
buf1[0] |= tib41[0];
buf1[1] |= tib41[1];
buf1[2] |= tib41[2];
buf1[3] |= tib41[3];
out_len += p0;
return out_len;
}
static u32 rule_op_mangle_title (const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
buf0[0] |= (generate_cmask (buf0[0]));
buf0[1] |= (generate_cmask (buf0[1]));
buf0[2] |= (generate_cmask (buf0[2]));
buf0[3] |= (generate_cmask (buf0[3]));
buf1[0] |= (generate_cmask (buf1[0]));
buf1[1] |= (generate_cmask (buf1[1]));
buf1[2] |= (generate_cmask (buf1[2]));
buf1[3] |= (generate_cmask (buf1[3]));
#ifdef IS_NV
buf0[0] &= ~(0x00000020 & generate_cmask (buf0[0]));
for (u32 i = 0; i < in_len; i++)
{
u32 tmp0;
u32 tmp1;
switch (i)
{
case 0: tmp0 = __byte_perm_S (buf0[0], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf0[0])); break;
case 1: tmp0 = __byte_perm_S (buf0[0], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf0[0])); break;
case 2: tmp0 = __byte_perm_S (buf0[0], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf0[0])); break;
case 3: tmp0 = __byte_perm_S (buf0[0], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf0[1])); break;
case 4: tmp0 = __byte_perm_S (buf0[1], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf0[1])); break;
case 5: tmp0 = __byte_perm_S (buf0[1], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf0[1])); break;
case 6: tmp0 = __byte_perm_S (buf0[1], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf0[1])); break;
case 7: tmp0 = __byte_perm_S (buf0[1], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf0[2])); break;
case 8: tmp0 = __byte_perm_S (buf0[2], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf0[2])); break;
case 9: tmp0 = __byte_perm_S (buf0[2], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf0[2])); break;
case 10: tmp0 = __byte_perm_S (buf0[2], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf0[2])); break;
case 11: tmp0 = __byte_perm_S (buf0[2], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf0[3])); break;
case 12: tmp0 = __byte_perm_S (buf0[3], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf0[3])); break;
case 13: tmp0 = __byte_perm_S (buf0[3], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf0[3])); break;
case 14: tmp0 = __byte_perm_S (buf0[3], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf0[3])); break;
case 15: tmp0 = __byte_perm_S (buf0[3], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf1[0])); break;
case 16: tmp0 = __byte_perm_S (buf1[0], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf1[0])); break;
case 17: tmp0 = __byte_perm_S (buf1[0], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf1[0])); break;
case 18: tmp0 = __byte_perm_S (buf1[0], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf1[0])); break;
case 19: tmp0 = __byte_perm_S (buf1[0], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf1[1])); break;
case 20: tmp0 = __byte_perm_S (buf1[1], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf1[1])); break;
case 21: tmp0 = __byte_perm_S (buf1[1], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf1[1])); break;
case 22: tmp0 = __byte_perm_S (buf1[1], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf1[1])); break;
case 23: tmp0 = __byte_perm_S (buf1[1], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf1[2])); break;
case 24: tmp0 = __byte_perm_S (buf1[2], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf1[2])); break;
case 25: tmp0 = __byte_perm_S (buf1[2], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf1[2])); break;
case 26: tmp0 = __byte_perm_S (buf1[2], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf1[2])); break;
case 27: tmp0 = __byte_perm_S (buf1[2], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf1[3])); break;
case 28: tmp0 = __byte_perm_S (buf1[3], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf1[3])); break;
case 29: tmp0 = __byte_perm_S (buf1[3], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf1[3])); break;
case 30: tmp0 = __byte_perm_S (buf1[3], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf1[3])); break;
}
if (i < 3)
{
if (tmp0 == ' ') buf0[0] &= tmp1 ;
}
else if (i < 7)
{
if (tmp0 == ' ') buf0[1] &= tmp1 ;
}
else if (i < 11)
{
if (tmp0 == ' ') buf0[2] &= tmp1 ;
}
else if (i < 15)
{
if (tmp0 == ' ') buf0[3] &= tmp1 ;
}
else if (i < 19)
{
if (tmp0 == ' ') buf1[0] &= tmp1 ;
}
else if (i < 23)
{
if (tmp0 == ' ') buf1[1] &= tmp1 ;
}
else if (i < 27)
{
if (tmp0 == ' ') buf1[2] &= tmp1 ;
}
else if (i < 31)
{
if (tmp0 == ' ') buf1[3] &= tmp1 ;
}
}
#endif
#if defined IS_AMD || defined IS_GENERIC
u32 tib40[4];
u32 tib41[4];
const uchar4 tmp0 = (uchar4) (' ');
const uchar4 tmp1 = (uchar4) (0x00);
const uchar4 tmp2 = (uchar4) (0xff);
uchar4 tmp;
tmp = as_uchar4 (buf0[0]); tmp = select (tmp1, tmp2, tmp == tmp0); tib40[0] = as_uint (tmp);
tmp = as_uchar4 (buf0[1]); tmp = select (tmp1, tmp2, tmp == tmp0); tib40[1] = as_uint (tmp);
tmp = as_uchar4 (buf0[2]); tmp = select (tmp1, tmp2, tmp == tmp0); tib40[2] = as_uint (tmp);
tmp = as_uchar4 (buf0[3]); tmp = select (tmp1, tmp2, tmp == tmp0); tib40[3] = as_uint (tmp);
tmp = as_uchar4 (buf1[0]); tmp = select (tmp1, tmp2, tmp == tmp0); tib41[0] = as_uint (tmp);
tmp = as_uchar4 (buf1[1]); tmp = select (tmp1, tmp2, tmp == tmp0); tib41[1] = as_uint (tmp);
tmp = as_uchar4 (buf1[2]); tmp = select (tmp1, tmp2, tmp == tmp0); tib41[2] = as_uint (tmp);
tmp = as_uchar4 (buf1[3]); tmp = select (tmp1, tmp2, tmp == tmp0); tib41[3] = as_uint (tmp);
rshift_block (tib40, tib41, tib40, tib41); tib40[0] |= 0xff;
buf0[0] &= ~(generate_cmask (buf0[0]) & tib40[0]);
buf0[1] &= ~(generate_cmask (buf0[1]) & tib40[1]);
buf0[2] &= ~(generate_cmask (buf0[2]) & tib40[2]);
buf0[3] &= ~(generate_cmask (buf0[3]) & tib40[3]);
buf1[0] &= ~(generate_cmask (buf1[0]) & tib41[0]);
buf1[1] &= ~(generate_cmask (buf1[1]) & tib41[1]);
buf1[2] &= ~(generate_cmask (buf1[2]) & tib41[2]);
buf1[3] &= ~(generate_cmask (buf1[3]) & tib41[3]);
#endif
return in_len;
}
u32 apply_rule (const u32 name, const u32 p0, const u32 p1, u32 buf0[4], u32 buf1[4], const u32 in_len)
{
u32 out_len = in_len;
switch (name)
{
case RULE_OP_MANGLE_LREST: out_len = rule_op_mangle_lrest (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_UREST: out_len = rule_op_mangle_urest (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_LREST_UFIRST: out_len = rule_op_mangle_lrest_ufirst (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_UREST_LFIRST: out_len = rule_op_mangle_urest_lfirst (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_TREST: out_len = rule_op_mangle_trest (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_TOGGLE_AT: out_len = rule_op_mangle_toggle_at (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_REVERSE: out_len = rule_op_mangle_reverse (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_DUPEWORD: out_len = rule_op_mangle_dupeword (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_DUPEWORD_TIMES: out_len = rule_op_mangle_dupeword_times (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_REFLECT: out_len = rule_op_mangle_reflect (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_APPEND: out_len = rule_op_mangle_append (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_PREPEND: out_len = rule_op_mangle_prepend (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_ROTATE_LEFT: out_len = rule_op_mangle_rotate_left (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_ROTATE_RIGHT: out_len = rule_op_mangle_rotate_right (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_DELETE_FIRST: out_len = rule_op_mangle_delete_first (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_DELETE_LAST: out_len = rule_op_mangle_delete_last (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_DELETE_AT: out_len = rule_op_mangle_delete_at (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_EXTRACT: out_len = rule_op_mangle_extract (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_OMIT: out_len = rule_op_mangle_omit (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_INSERT: out_len = rule_op_mangle_insert (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_OVERSTRIKE: out_len = rule_op_mangle_overstrike (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_TRUNCATE_AT: out_len = rule_op_mangle_truncate_at (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_REPLACE: out_len = rule_op_mangle_replace (p0, p1, buf0, buf1, out_len); break;
//case RULE_OP_MANGLE_PURGECHAR: out_len = rule_op_mangle_purgechar (p0, p1, buf0, buf1, out_len); break;
//case RULE_OP_MANGLE_TOGGLECASE_REC: out_len = rule_op_mangle_togglecase_rec (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_DUPECHAR_FIRST: out_len = rule_op_mangle_dupechar_first (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_DUPECHAR_LAST: out_len = rule_op_mangle_dupechar_last (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_DUPECHAR_ALL: out_len = rule_op_mangle_dupechar_all (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_SWITCH_FIRST: out_len = rule_op_mangle_switch_first (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_SWITCH_LAST: out_len = rule_op_mangle_switch_last (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_SWITCH_AT: out_len = rule_op_mangle_switch_at (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_CHR_SHIFTL: out_len = rule_op_mangle_chr_shiftl (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_CHR_SHIFTR: out_len = rule_op_mangle_chr_shiftr (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_CHR_INCR: out_len = rule_op_mangle_chr_incr (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_CHR_DECR: out_len = rule_op_mangle_chr_decr (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_REPLACE_NP1: out_len = rule_op_mangle_replace_np1 (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_REPLACE_NM1: out_len = rule_op_mangle_replace_nm1 (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_DUPEBLOCK_FIRST: out_len = rule_op_mangle_dupeblock_first (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_DUPEBLOCK_LAST: out_len = rule_op_mangle_dupeblock_last (p0, p1, buf0, buf1, out_len); break;
case RULE_OP_MANGLE_TITLE: out_len = rule_op_mangle_title (p0, p1, buf0, buf1, out_len); break;
}
return out_len;
}
u32 apply_rules (const __global u32 *cmds, u32 buf0[4], u32 buf1[4], const u32 len)
{
u32 out_len = len;
for (u32 i = 0; cmds[i] != 0; i++)
{
const u32 cmd = cmds[i];
const u32 name = (cmd >> 0) & 0xff;
const u32 p0 = (cmd >> 8) & 0xff;
const u32 p1 = (cmd >> 16) & 0xff;
out_len = apply_rule (name, p0, p1, buf0, buf1, out_len);
}
return out_len;
}
u32x apply_rules_vect (const u32 pw_buf0[4], const u32 pw_buf1[4], const u32 pw_len, const __global kernel_rule_t *rules_buf, const u32 il_pos, u32x w0[4], u32x w1[4])
{
#if VECT_SIZE == 1
w0[0] = pw_buf0[0];
w0[1] = pw_buf0[1];
w0[2] = pw_buf0[2];
w0[3] = pw_buf0[3];
w1[0] = pw_buf1[0];
w1[1] = pw_buf1[1];
w1[2] = pw_buf1[2];
w1[3] = pw_buf1[3];
return apply_rules (rules_buf[il_pos].cmds, w0, w1, pw_len);
#else
u32x out_len = 0;
#pragma unroll
for (int i = 0; i < VECT_SIZE; i++)
{
u32 tmp0[4];
u32 tmp1[4];
tmp0[0] = pw_buf0[0];
tmp0[1] = pw_buf0[1];
tmp0[2] = pw_buf0[2];
tmp0[3] = pw_buf0[3];
tmp1[0] = pw_buf1[0];
tmp1[1] = pw_buf1[1];
tmp1[2] = pw_buf1[2];
tmp1[3] = pw_buf1[3];
const u32 tmp_len = apply_rules (rules_buf[il_pos + i].cmds, tmp0, tmp1, pw_len);
switch (i)
{
#if VECT_SIZE >= 2
case 0:
w0[0].s0 = tmp0[0];
w0[1].s0 = tmp0[1];
w0[2].s0 = tmp0[2];
w0[3].s0 = tmp0[3];
w1[0].s0 = tmp1[0];
w1[1].s0 = tmp1[1];
w1[2].s0 = tmp1[2];
w1[3].s0 = tmp1[3];
out_len.s0 = tmp_len;
break;
case 1:
w0[0].s1 = tmp0[0];
w0[1].s1 = tmp0[1];
w0[2].s1 = tmp0[2];
w0[3].s1 = tmp0[3];
w1[0].s1 = tmp1[0];
w1[1].s1 = tmp1[1];
w1[2].s1 = tmp1[2];
w1[3].s1 = tmp1[3];
out_len.s1 = tmp_len;
break;
#endif
#if VECT_SIZE >= 4
case 2:
w0[0].s2 = tmp0[0];
w0[1].s2 = tmp0[1];
w0[2].s2 = tmp0[2];
w0[3].s2 = tmp0[3];
w1[0].s2 = tmp1[0];
w1[1].s2 = tmp1[1];
w1[2].s2 = tmp1[2];
w1[3].s2 = tmp1[3];
out_len.s2 = tmp_len;
break;
case 3:
w0[0].s3 = tmp0[0];
w0[1].s3 = tmp0[1];
w0[2].s3 = tmp0[2];
w0[3].s3 = tmp0[3];
w1[0].s3 = tmp1[0];
w1[1].s3 = tmp1[1];
w1[2].s3 = tmp1[2];
w1[3].s3 = tmp1[3];
out_len.s3 = tmp_len;
break;
#endif
#if VECT_SIZE >= 8
case 4:
w0[0].s4 = tmp0[0];
w0[1].s4 = tmp0[1];
w0[2].s4 = tmp0[2];
w0[3].s4 = tmp0[3];
w1[0].s4 = tmp1[0];
w1[1].s4 = tmp1[1];
w1[2].s4 = tmp1[2];
w1[3].s4 = tmp1[3];
out_len.s4 = tmp_len;
break;
case 5:
w0[0].s5 = tmp0[0];
w0[1].s5 = tmp0[1];
w0[2].s5 = tmp0[2];
w0[3].s5 = tmp0[3];
w1[0].s5 = tmp1[0];
w1[1].s5 = tmp1[1];
w1[2].s5 = tmp1[2];
w1[3].s5 = tmp1[3];
out_len.s5 = tmp_len;
break;
case 6:
w0[0].s6 = tmp0[0];
w0[1].s6 = tmp0[1];
w0[2].s6 = tmp0[2];
w0[3].s6 = tmp0[3];
w1[0].s6 = tmp1[0];
w1[1].s6 = tmp1[1];
w1[2].s6 = tmp1[2];
w1[3].s6 = tmp1[3];
out_len.s6 = tmp_len;
break;
case 7:
w0[0].s7 = tmp0[0];
w0[1].s7 = tmp0[1];
w0[2].s7 = tmp0[2];
w0[3].s7 = tmp0[3];
w1[0].s7 = tmp1[0];
w1[1].s7 = tmp1[1];
w1[2].s7 = tmp1[2];
w1[3].s7 = tmp1[3];
out_len.s7 = tmp_len;
break;
#endif
#if VECT_SIZE >= 16
case 8:
w0[0].s8 = tmp0[0];
w0[1].s8 = tmp0[1];
w0[2].s8 = tmp0[2];
w0[3].s8 = tmp0[3];
w1[0].s8 = tmp1[0];
w1[1].s8 = tmp1[1];
w1[2].s8 = tmp1[2];
w1[3].s8 = tmp1[3];
out_len.s8 = tmp_len;
break;
case 9:
w0[0].s9 = tmp0[0];
w0[1].s9 = tmp0[1];
w0[2].s9 = tmp0[2];
w0[3].s9 = tmp0[3];
w1[0].s9 = tmp1[0];
w1[1].s9 = tmp1[1];
w1[2].s9 = tmp1[2];
w1[3].s9 = tmp1[3];
out_len.s9 = tmp_len;
break;
case 10:
w0[0].sa = tmp0[0];
w0[1].sa = tmp0[1];
w0[2].sa = tmp0[2];
w0[3].sa = tmp0[3];
w1[0].sa = tmp1[0];
w1[1].sa = tmp1[1];
w1[2].sa = tmp1[2];
w1[3].sa = tmp1[3];
out_len.sa = tmp_len;
break;
case 11:
w0[0].sb = tmp0[0];
w0[1].sb = tmp0[1];
w0[2].sb = tmp0[2];
w0[3].sb = tmp0[3];
w1[0].sb = tmp1[0];
w1[1].sb = tmp1[1];
w1[2].sb = tmp1[2];
w1[3].sb = tmp1[3];
out_len.sb = tmp_len;
break;
case 12:
w0[0].sc = tmp0[0];
w0[1].sc = tmp0[1];
w0[2].sc = tmp0[2];
w0[3].sc = tmp0[3];
w1[0].sc = tmp1[0];
w1[1].sc = tmp1[1];
w1[2].sc = tmp1[2];
w1[3].sc = tmp1[3];
out_len.sc = tmp_len;
break;
case 13:
w0[0].sd = tmp0[0];
w0[1].sd = tmp0[1];
w0[2].sd = tmp0[2];
w0[3].sd = tmp0[3];
w1[0].sd = tmp1[0];
w1[1].sd = tmp1[1];
w1[2].sd = tmp1[2];
w1[3].sd = tmp1[3];
out_len.sd = tmp_len;
break;
case 14:
w0[0].se = tmp0[0];
w0[1].se = tmp0[1];
w0[2].se = tmp0[2];
w0[3].se = tmp0[3];
w1[0].se = tmp1[0];
w1[1].se = tmp1[1];
w1[2].se = tmp1[2];
w1[3].se = tmp1[3];
out_len.se = tmp_len;
break;
case 15:
w0[0].sf = tmp0[0];
w0[1].sf = tmp0[1];
w0[2].sf = tmp0[2];
w0[3].sf = tmp0[3];
w1[0].sf = tmp1[0];
w1[1].sf = tmp1[1];
w1[2].sf = tmp1[2];
w1[3].sf = tmp1[3];
out_len.sf = tmp_len;
break;
#endif
}
}
return out_len;
#endif
}