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mirror of https://github.com/hashcat/hashcat.git synced 2024-11-05 14:59:37 +00:00
hashcat/OpenCL/rp.c
jsteube 0bf4e3c34a - Dropped all vector code since new GPU's are all scalar, makes the code much easier
- Some performance on low-end GPU may drop because of that, but only for a few hash-modes
- Dropped scalar code (aka warp) since we do not have any vector datatypes anymore
- Renamed C++ overloading functions memcat32_9 -> memcat_c32_w4x4_a3x4
- Still need to fix kernels to new function names, needs to be done manually
- Temperature Management needs to be rewritten partially because of conflicting datatypes names
- Added code to create different codepaths for NV on AMD in runtime in host (see data.vendor_id)
- Added code to create different codepaths for NV on AMD in runtime in kernels (see IS_NV and IS_AMD)
- First tests working for -m 0, for example
- Great performance increases in general for NV so far
- Tested amp_* and markov_* kernel
- Migrated special NV optimizations for rule processor
2015-12-15 12:04:22 +01:00

4170 lines
153 KiB
C

/**
* Author......: Jens Steube <jens.steube@gmail.com>
* License.....: MIT
*/
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 (in0[0], in0[1], 0x4321);
out0[1] = __byte_perm (in0[1], in0[2], 0x4321);
out0[2] = __byte_perm (in0[2], in0[3], 0x4321);
out0[3] = __byte_perm (in0[3], in1[0], 0x4321);
out1[0] = __byte_perm (in1[0], in1[1], 0x4321);
out1[1] = __byte_perm (in1[1], in1[2], 0x4321);
out1[2] = __byte_perm (in1[2], in1[3], 0x4321);
out1[3] = __byte_perm (in1[3], 0, 0x4321);
#endif
#ifdef IS_AMD
out0[0] = amd_bytealign (in0[1], in0[0], 1);
out0[1] = amd_bytealign (in0[2], in0[1], 1);
out0[2] = amd_bytealign (in0[3], in0[2], 1);
out0[3] = amd_bytealign (in1[0], in0[3], 1);
out1[0] = amd_bytealign (in1[1], in1[0], 1);
out1[1] = amd_bytealign (in1[2], in1[1], 1);
out1[2] = amd_bytealign (in1[3], in1[2], 1);
out1[3] = amd_bytealign ( 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 (in1[2], in1[3], 0x6543);
out1[2] = __byte_perm (in1[1], in1[2], 0x6543);
out1[1] = __byte_perm (in1[0], in1[1], 0x6543);
out1[0] = __byte_perm (in0[3], in1[0], 0x6543);
out0[3] = __byte_perm (in0[2], in0[3], 0x6543);
out0[2] = __byte_perm (in0[1], in0[2], 0x6543);
out0[1] = __byte_perm (in0[0], in0[1], 0x6543);
out0[0] = __byte_perm ( 0, in0[0], 0x6543);
#endif
#ifdef IS_AMD
out1[3] = amd_bytealign (in1[3], in1[2], 3);
out1[2] = amd_bytealign (in1[2], in1[1], 3);
out1[1] = amd_bytealign (in1[1], in1[0], 3);
out1[0] = amd_bytealign (in1[0], in0[3], 3);
out0[3] = amd_bytealign (in0[3], in0[2], 3);
out0[2] = amd_bytealign (in0[2], in0[1], 3);
out0[1] = amd_bytealign (in0[1], in0[0], 3);
out0[0] = amd_bytealign (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: 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 (in1[2], in1[3], 0x6543);
out1[2] = __byte_perm (in1[1], in1[2], 0x6543);
out1[1] = __byte_perm (in1[0], in1[1], 0x6543);
out1[0] = __byte_perm (in0[3], in1[0], 0x6543);
out0[3] = __byte_perm (in0[2], in0[3], 0x6543);
out0[2] = __byte_perm (in0[1], in0[2], 0x6543);
out0[1] = __byte_perm (in0[0], in0[1], 0x6543);
out0[0] = __byte_perm ( 0, in0[0], 0x6543);
break;
case 2: out1[3] = __byte_perm (in1[2], in1[3], 0x5432);
out1[2] = __byte_perm (in1[1], in1[2], 0x5432);
out1[1] = __byte_perm (in1[0], in1[1], 0x5432);
out1[0] = __byte_perm (in0[3], in1[0], 0x5432);
out0[3] = __byte_perm (in0[2], in0[3], 0x5432);
out0[2] = __byte_perm (in0[1], in0[2], 0x5432);
out0[1] = __byte_perm (in0[0], in0[1], 0x5432);
out0[0] = __byte_perm ( 0, in0[0], 0x5432);
break;
case 3: out1[3] = __byte_perm (in1[2], in1[3], 0x4321);
out1[2] = __byte_perm (in1[1], in1[2], 0x4321);
out1[1] = __byte_perm (in1[0], in1[1], 0x4321);
out1[0] = __byte_perm (in0[3], in1[0], 0x4321);
out0[3] = __byte_perm (in0[2], in0[3], 0x4321);
out0[2] = __byte_perm (in0[1], in0[2], 0x4321);
out0[1] = __byte_perm (in0[0], in0[1], 0x4321);
out0[0] = __byte_perm ( 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 (in1[1], in1[2], 0x6543);
out1[2] = __byte_perm (in1[0], in1[1], 0x6543);
out1[1] = __byte_perm (in0[3], in1[0], 0x6543);
out1[0] = __byte_perm (in0[2], in0[3], 0x6543);
out0[3] = __byte_perm (in0[1], in0[2], 0x6543);
out0[2] = __byte_perm (in0[0], in0[1], 0x6543);
out0[1] = __byte_perm ( 0, in0[0], 0x6543);
out0[0] = 0;
break;
case 6: out1[3] = __byte_perm (in1[1], in1[2], 0x5432);
out1[2] = __byte_perm (in1[0], in1[1], 0x5432);
out1[1] = __byte_perm (in0[3], in1[0], 0x5432);
out1[0] = __byte_perm (in0[2], in0[3], 0x5432);
out0[3] = __byte_perm (in0[1], in0[2], 0x5432);
out0[2] = __byte_perm (in0[0], in0[1], 0x5432);
out0[1] = __byte_perm ( 0, in0[0], 0x5432);
out0[0] = 0;
break;
case 7: out1[3] = __byte_perm (in1[1], in1[2], 0x4321);
out1[2] = __byte_perm (in1[0], in1[1], 0x4321);
out1[1] = __byte_perm (in0[3], in1[0], 0x4321);
out1[0] = __byte_perm (in0[2], in0[3], 0x4321);
out0[3] = __byte_perm (in0[1], in0[2], 0x4321);
out0[2] = __byte_perm (in0[0], in0[1], 0x4321);
out0[1] = __byte_perm ( 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 (in1[0], in1[1], 0x6543);
out1[2] = __byte_perm (in0[3], in1[0], 0x6543);
out1[1] = __byte_perm (in0[2], in0[3], 0x6543);
out1[0] = __byte_perm (in0[1], in0[2], 0x6543);
out0[3] = __byte_perm (in0[0], in0[1], 0x6543);
out0[2] = __byte_perm ( 0, in0[0], 0x6543);
out0[1] = 0;
out0[0] = 0;
break;
case 10: out1[3] = __byte_perm (in1[0], in1[1], 0x5432);
out1[2] = __byte_perm (in0[3], in1[0], 0x5432);
out1[1] = __byte_perm (in0[2], in0[3], 0x5432);
out1[0] = __byte_perm (in0[1], in0[2], 0x5432);
out0[3] = __byte_perm (in0[0], in0[1], 0x5432);
out0[2] = __byte_perm ( 0, in0[0], 0x5432);
out0[1] = 0;
out0[0] = 0;
break;
case 11: out1[3] = __byte_perm (in1[0], in1[1], 0x4321);
out1[2] = __byte_perm (in0[3], in1[0], 0x4321);
out1[1] = __byte_perm (in0[2], in0[3], 0x4321);
out1[0] = __byte_perm (in0[1], in0[2], 0x4321);
out0[3] = __byte_perm (in0[0], in0[1], 0x4321);
out0[2] = __byte_perm ( 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 (in0[3], in1[0], 0x6543);
out1[2] = __byte_perm (in0[2], in0[3], 0x6543);
out1[1] = __byte_perm (in0[1], in0[2], 0x6543);
out1[0] = __byte_perm (in0[0], in0[1], 0x6543);
out0[3] = __byte_perm ( 0, in0[0], 0x6543);
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 14: out1[3] = __byte_perm (in0[3], in1[0], 0x5432);
out1[2] = __byte_perm (in0[2], in0[3], 0x5432);
out1[1] = __byte_perm (in0[1], in0[2], 0x5432);
out1[0] = __byte_perm (in0[0], in0[1], 0x5432);
out0[3] = __byte_perm ( 0, in0[0], 0x5432);
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 15: out1[3] = __byte_perm (in0[3], in1[0], 0x4321);
out1[2] = __byte_perm (in0[2], in0[3], 0x4321);
out1[1] = __byte_perm (in0[1], in0[2], 0x4321);
out1[0] = __byte_perm (in0[0], in0[1], 0x4321);
out0[3] = __byte_perm ( 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 (in0[2], in0[3], 0x6543);
out1[2] = __byte_perm (in0[1], in0[2], 0x6543);
out1[1] = __byte_perm (in0[0], in0[1], 0x6543);
out1[0] = __byte_perm ( 0, in0[0], 0x6543);
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 18: out1[3] = __byte_perm (in0[2], in0[3], 0x5432);
out1[2] = __byte_perm (in0[1], in0[2], 0x5432);
out1[1] = __byte_perm (in0[0], in0[1], 0x5432);
out1[0] = __byte_perm ( 0, in0[0], 0x5432);
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 19: out1[3] = __byte_perm (in0[2], in0[3], 0x4321);
out1[2] = __byte_perm (in0[1], in0[2], 0x4321);
out1[1] = __byte_perm (in0[0], in0[1], 0x4321);
out1[0] = __byte_perm ( 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 (in0[1], in0[2], 0x6543);
out1[2] = __byte_perm (in0[0], in0[1], 0x6543);
out1[1] = __byte_perm ( 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 (in0[1], in0[2], 0x5432);
out1[2] = __byte_perm (in0[0], in0[1], 0x5432);
out1[1] = __byte_perm ( 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 (in0[1], in0[2], 0x4321);
out1[2] = __byte_perm (in0[0], in0[1], 0x4321);
out1[1] = __byte_perm ( 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 (in0[0], in0[1], 0x6543);
out1[2] = __byte_perm ( 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 (in0[0], in0[1], 0x5432);
out1[2] = __byte_perm ( 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 (in0[0], in0[1], 0x4321);
out1[2] = __byte_perm ( 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 ( 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 ( 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 ( 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
#ifdef IS_AMD
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 (in0[1], in0[0], 1);
out0[1] = amd_bytealign (in0[2], in0[1], 1);
out0[2] = amd_bytealign (in0[3], in0[2], 1);
out0[3] = amd_bytealign (in1[0], in0[3], 1);
out1[0] = amd_bytealign (in1[1], in1[0], 1);
out1[1] = amd_bytealign (in1[2], in1[1], 1);
out1[2] = amd_bytealign (in1[3], in1[2], 1);
out1[3] = amd_bytealign ( 0, in1[3], 1);
break;
case 2: out0[0] = amd_bytealign (in0[1], in0[0], 2);
out0[1] = amd_bytealign (in0[2], in0[1], 2);
out0[2] = amd_bytealign (in0[3], in0[2], 2);
out0[3] = amd_bytealign (in1[0], in0[3], 2);
out1[0] = amd_bytealign (in1[1], in1[0], 2);
out1[1] = amd_bytealign (in1[2], in1[1], 2);
out1[2] = amd_bytealign (in1[3], in1[2], 2);
out1[3] = amd_bytealign ( 0, in1[3], 2);
break;
case 3: out0[0] = amd_bytealign (in0[1], in0[0], 3);
out0[1] = amd_bytealign (in0[2], in0[1], 3);
out0[2] = amd_bytealign (in0[3], in0[2], 3);
out0[3] = amd_bytealign (in1[0], in0[3], 3);
out1[0] = amd_bytealign (in1[1], in1[0], 3);
out1[1] = amd_bytealign (in1[2], in1[1], 3);
out1[2] = amd_bytealign (in1[3], in1[2], 3);
out1[3] = amd_bytealign ( 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 (in0[2], in0[1], 1);
out0[1] = amd_bytealign (in0[3], in0[2], 1);
out0[2] = amd_bytealign (in1[0], in0[3], 1);
out0[3] = amd_bytealign (in1[1], in1[0], 1);
out1[0] = amd_bytealign (in1[2], in1[1], 1);
out1[1] = amd_bytealign (in1[3], in1[2], 1);
out1[2] = amd_bytealign ( 0, in1[3], 1);
out1[3] = 0;
break;
case 6: out0[0] = amd_bytealign (in0[2], in0[1], 2);
out0[1] = amd_bytealign (in0[3], in0[2], 2);
out0[2] = amd_bytealign (in1[0], in0[3], 2);
out0[3] = amd_bytealign (in1[1], in1[0], 2);
out1[0] = amd_bytealign (in1[2], in1[1], 2);
out1[1] = amd_bytealign (in1[3], in1[2], 2);
out1[2] = amd_bytealign ( 0, in1[3], 2);
out1[3] = 0;
break;
case 7: out0[0] = amd_bytealign (in0[2], in0[1], 3);
out0[1] = amd_bytealign (in0[3], in0[2], 3);
out0[2] = amd_bytealign (in1[0], in0[3], 3);
out0[3] = amd_bytealign (in1[1], in1[0], 3);
out1[0] = amd_bytealign (in1[2], in1[1], 3);
out1[1] = amd_bytealign (in1[3], in1[2], 3);
out1[2] = amd_bytealign ( 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 (in0[3], in0[2], 1);
out0[1] = amd_bytealign (in1[0], in0[3], 1);
out0[2] = amd_bytealign (in1[1], in1[0], 1);
out0[3] = amd_bytealign (in1[2], in1[1], 1);
out1[0] = amd_bytealign (in1[3], in1[2], 1);
out1[1] = amd_bytealign ( 0, in1[3], 1);
out1[2] = 0;
out1[3] = 0;
break;
case 10: out0[0] = amd_bytealign (in0[3], in0[2], 2);
out0[1] = amd_bytealign (in1[0], in0[3], 2);
out0[2] = amd_bytealign (in1[1], in1[0], 2);
out0[3] = amd_bytealign (in1[2], in1[1], 2);
out1[0] = amd_bytealign (in1[3], in1[2], 2);
out1[1] = amd_bytealign ( 0, in1[3], 2);
out1[2] = 0;
out1[3] = 0;
break;
case 11: out0[0] = amd_bytealign (in0[3], in0[2], 3);
out0[1] = amd_bytealign (in1[0], in0[3], 3);
out0[2] = amd_bytealign (in1[1], in1[0], 3);
out0[3] = amd_bytealign (in1[2], in1[1], 3);
out1[0] = amd_bytealign (in1[3], in1[2], 3);
out1[1] = amd_bytealign ( 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 (in1[0], in0[3], 1);
out0[1] = amd_bytealign (in1[1], in1[0], 1);
out0[2] = amd_bytealign (in1[2], in1[1], 1);
out0[3] = amd_bytealign (in1[3], in1[2], 1);
out1[0] = amd_bytealign ( 0, in1[3], 1);
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 14: out0[0] = amd_bytealign (in1[0], in0[3], 2);
out0[1] = amd_bytealign (in1[1], in1[0], 2);
out0[2] = amd_bytealign (in1[2], in1[1], 2);
out0[3] = amd_bytealign (in1[3], in1[2], 2);
out1[0] = amd_bytealign ( 0, in1[3], 2);
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 15: out0[0] = amd_bytealign (in1[0], in0[3], 3);
out0[1] = amd_bytealign (in1[1], in1[0], 3);
out0[2] = amd_bytealign (in1[2], in1[1], 3);
out0[3] = amd_bytealign (in1[3], in1[2], 3);
out1[0] = amd_bytealign ( 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 (in1[1], in1[0], 1);
out0[1] = amd_bytealign (in1[2], in1[1], 1);
out0[2] = amd_bytealign (in1[3], in1[2], 1);
out0[3] = amd_bytealign ( 0, in1[3], 1);
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 18: out0[0] = amd_bytealign (in1[1], in1[0], 2);
out0[1] = amd_bytealign (in1[2], in1[1], 2);
out0[2] = amd_bytealign (in1[3], in1[2], 2);
out0[3] = amd_bytealign ( 0, in1[3], 2);
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 19: out0[0] = amd_bytealign (in1[1], in1[0], 3);
out0[1] = amd_bytealign (in1[2], in1[1], 3);
out0[2] = amd_bytealign (in1[3], in1[2], 3);
out0[3] = amd_bytealign ( 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 (in1[2], in1[1], 1);
out0[1] = amd_bytealign (in1[3], in1[2], 1);
out0[2] = amd_bytealign ( 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 (in1[2], in1[1], 2);
out0[1] = amd_bytealign (in1[3], in1[2], 2);
out0[2] = amd_bytealign ( 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 (in1[2], in1[1], 3);
out0[1] = amd_bytealign (in1[3], in1[2], 3);
out0[2] = amd_bytealign ( 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 (in1[3], in1[2], 1);
out0[1] = amd_bytealign ( 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 (in1[3], in1[2], 2);
out0[1] = amd_bytealign ( 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 (in1[3], in1[2], 3);
out0[1] = amd_bytealign ( 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 ( 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 ( 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 ( 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: 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 (in0[0], in0[1], 0x4321);
out0[1] = __byte_perm (in0[1], in0[2], 0x4321);
out0[2] = __byte_perm (in0[2], in0[3], 0x4321);
out0[3] = __byte_perm (in0[3], in1[0], 0x4321);
out1[0] = __byte_perm (in1[0], in1[1], 0x4321);
out1[1] = __byte_perm (in1[1], in1[2], 0x4321);
out1[2] = __byte_perm (in1[2], in1[3], 0x4321);
out1[3] = __byte_perm (in1[3], 0, 0x4321);
break;
case 2: out0[0] = __byte_perm (in0[0], in0[1], 0x5432);
out0[1] = __byte_perm (in0[1], in0[2], 0x5432);
out0[2] = __byte_perm (in0[2], in0[3], 0x5432);
out0[3] = __byte_perm (in0[3], in1[0], 0x5432);
out1[0] = __byte_perm (in1[0], in1[1], 0x5432);
out1[1] = __byte_perm (in1[1], in1[2], 0x5432);
out1[2] = __byte_perm (in1[2], in1[3], 0x5432);
out1[3] = __byte_perm (in1[3], 0, 0x5432);
break;
case 3: out0[0] = __byte_perm (in0[0], in0[1], 0x6543);
out0[1] = __byte_perm (in0[1], in0[2], 0x6543);
out0[2] = __byte_perm (in0[2], in0[3], 0x6543);
out0[3] = __byte_perm (in0[3], in1[0], 0x6543);
out1[0] = __byte_perm (in1[0], in1[1], 0x6543);
out1[1] = __byte_perm (in1[1], in1[2], 0x6543);
out1[2] = __byte_perm (in1[2], in1[3], 0x6543);
out1[3] = __byte_perm (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 (in0[1], in0[2], 0x4321);
out0[1] = __byte_perm (in0[2], in0[3], 0x4321);
out0[2] = __byte_perm (in0[3], in1[0], 0x4321);
out0[3] = __byte_perm (in1[0], in1[1], 0x4321);
out1[0] = __byte_perm (in1[1], in1[2], 0x4321);
out1[1] = __byte_perm (in1[2], in1[3], 0x4321);
out1[2] = __byte_perm (in1[3], 0, 0x4321);
out1[3] = 0;
break;
case 6: out0[0] = __byte_perm (in0[1], in0[2], 0x5432);
out0[1] = __byte_perm (in0[2], in0[3], 0x5432);
out0[2] = __byte_perm (in0[3], in1[0], 0x5432);
out0[3] = __byte_perm (in1[0], in1[1], 0x5432);
out1[0] = __byte_perm (in1[1], in1[2], 0x5432);
out1[1] = __byte_perm (in1[2], in1[3], 0x5432);
out1[2] = __byte_perm (in1[3], 0, 0x5432);
out1[3] = 0;
break;
case 7: out0[0] = __byte_perm (in0[1], in0[2], 0x6543);
out0[1] = __byte_perm (in0[2], in0[3], 0x6543);
out0[2] = __byte_perm (in0[3], in1[0], 0x6543);
out0[3] = __byte_perm (in1[0], in1[1], 0x6543);
out1[0] = __byte_perm (in1[1], in1[2], 0x6543);
out1[1] = __byte_perm (in1[2], in1[3], 0x6543);
out1[2] = __byte_perm (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 (in0[2], in0[3], 0x4321);
out0[1] = __byte_perm (in0[3], in1[0], 0x4321);
out0[2] = __byte_perm (in1[0], in1[1], 0x4321);
out0[3] = __byte_perm (in1[1], in1[2], 0x4321);
out1[0] = __byte_perm (in1[2], in1[3], 0x4321);
out1[1] = __byte_perm (in1[3], 0, 0x4321);
out1[2] = 0;
out1[3] = 0;
break;
case 10: out0[0] = __byte_perm (in0[2], in0[3], 0x5432);
out0[1] = __byte_perm (in0[3], in1[0], 0x5432);
out0[2] = __byte_perm (in1[0], in1[1], 0x5432);
out0[3] = __byte_perm (in1[1], in1[2], 0x5432);
out1[0] = __byte_perm (in1[2], in1[3], 0x5432);
out1[1] = __byte_perm (in1[3], 0, 0x5432);
out1[2] = 0;
out1[3] = 0;
break;
case 11: out0[0] = __byte_perm (in0[2], in0[3], 0x6543);
out0[1] = __byte_perm (in0[3], in1[0], 0x6543);
out0[2] = __byte_perm (in1[0], in1[1], 0x6543);
out0[3] = __byte_perm (in1[1], in1[2], 0x6543);
out1[0] = __byte_perm (in1[2], in1[3], 0x6543);
out1[1] = __byte_perm (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 (in0[3], in1[0], 0x4321);
out0[1] = __byte_perm (in1[0], in1[1], 0x4321);
out0[2] = __byte_perm (in1[1], in1[2], 0x4321);
out0[3] = __byte_perm (in1[2], in1[3], 0x4321);
out1[0] = __byte_perm (in1[3], 0, 0x4321);
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 14: out0[0] = __byte_perm (in0[3], in1[0], 0x5432);
out0[1] = __byte_perm (in1[0], in1[1], 0x5432);
out0[2] = __byte_perm (in1[1], in1[2], 0x5432);
out0[3] = __byte_perm (in1[2], in1[3], 0x5432);
out1[0] = __byte_perm (in1[3], 0, 0x5432);
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 15: out0[0] = __byte_perm (in0[3], in1[0], 0x6543);
out0[1] = __byte_perm (in1[0], in1[1], 0x6543);
out0[2] = __byte_perm (in1[1], in1[2], 0x6543);
out0[3] = __byte_perm (in1[2], in1[3], 0x6543);
out1[0] = __byte_perm (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 (in1[0], in1[1], 0x4321);
out0[1] = __byte_perm (in1[1], in1[2], 0x4321);
out0[2] = __byte_perm (in1[2], in1[3], 0x4321);
out0[3] = __byte_perm (in1[3], 0, 0x4321);
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 18: out0[0] = __byte_perm (in1[0], in1[1], 0x5432);
out0[1] = __byte_perm (in1[1], in1[2], 0x5432);
out0[2] = __byte_perm (in1[2], in1[3], 0x5432);
out0[3] = __byte_perm (in1[3], 0, 0x5432);
out1[0] = 0;
out1[1] = 0;
out1[2] = 0;
out1[3] = 0;
break;
case 19: out0[0] = __byte_perm (in1[0], in1[1], 0x6543);
out0[1] = __byte_perm (in1[1], in1[2], 0x6543);
out0[2] = __byte_perm (in1[2], in1[3], 0x6543);
out0[3] = __byte_perm (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 (in1[1], in1[2], 0x4321);
out0[1] = __byte_perm (in1[2], in1[3], 0x4321);
out0[2] = __byte_perm (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 (in1[1], in1[2], 0x5432);
out0[1] = __byte_perm (in1[2], in1[3], 0x5432);
out0[2] = __byte_perm (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 (in1[1], in1[2], 0x6543);
out0[1] = __byte_perm (in1[2], in1[3], 0x6543);
out0[2] = __byte_perm (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 (in1[2], in1[3], 0x4321);
out0[1] = __byte_perm (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 (in1[2], in1[3], 0x5432);
out0[1] = __byte_perm (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 (in1[2], in1[3], 0x6543);
out0[1] = __byte_perm (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 (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 (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 (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
#ifdef IS_AMD
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 (in1[3], in1[2], 3);
out1[2] = amd_bytealign (in1[2], in1[1], 3);
out1[1] = amd_bytealign (in1[1], in1[0], 3);
out1[0] = amd_bytealign (in1[0], in0[3], 3);
out0[3] = amd_bytealign (in0[3], in0[2], 3);
out0[2] = amd_bytealign (in0[2], in0[1], 3);
out0[1] = amd_bytealign (in0[1], in0[0], 3);
out0[0] = amd_bytealign (in0[0], 0, 3);
break;
case 2: out1[3] = amd_bytealign (in1[3], in1[2], 2);
out1[2] = amd_bytealign (in1[2], in1[1], 2);
out1[1] = amd_bytealign (in1[1], in1[0], 2);
out1[0] = amd_bytealign (in1[0], in0[3], 2);
out0[3] = amd_bytealign (in0[3], in0[2], 2);
out0[2] = amd_bytealign (in0[2], in0[1], 2);
out0[1] = amd_bytealign (in0[1], in0[0], 2);
out0[0] = amd_bytealign (in0[0], 0, 2);
break;
case 3: out1[3] = amd_bytealign (in1[3], in1[2], 1);
out1[2] = amd_bytealign (in1[2], in1[1], 1);
out1[1] = amd_bytealign (in1[1], in1[0], 1);
out1[0] = amd_bytealign (in1[0], in0[3], 1);
out0[3] = amd_bytealign (in0[3], in0[2], 1);
out0[2] = amd_bytealign (in0[2], in0[1], 1);
out0[1] = amd_bytealign (in0[1], in0[0], 1);
out0[0] = amd_bytealign (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 (in1[2], in1[1], 3);
out1[2] = amd_bytealign (in1[1], in1[0], 3);
out1[1] = amd_bytealign (in1[0], in0[3], 3);
out1[0] = amd_bytealign (in0[3], in0[2], 3);
out0[3] = amd_bytealign (in0[2], in0[1], 3);
out0[2] = amd_bytealign (in0[1], in0[0], 3);
out0[1] = amd_bytealign (in0[0], 0, 3);
out0[0] = 0;
break;
case 6: out1[3] = amd_bytealign (in1[2], in1[1], 2);
out1[2] = amd_bytealign (in1[1], in1[0], 2);
out1[1] = amd_bytealign (in1[0], in0[3], 2);
out1[0] = amd_bytealign (in0[3], in0[2], 2);
out0[3] = amd_bytealign (in0[2], in0[1], 2);
out0[2] = amd_bytealign (in0[1], in0[0], 2);
out0[1] = amd_bytealign (in0[0], 0, 2);
out0[0] = 0;
break;
case 7: out1[3] = amd_bytealign (in1[2], in1[1], 1);
out1[2] = amd_bytealign (in1[1], in1[0], 1);
out1[1] = amd_bytealign (in1[0], in0[3], 1);
out1[0] = amd_bytealign (in0[3], in0[2], 1);
out0[3] = amd_bytealign (in0[2], in0[1], 1);
out0[2] = amd_bytealign (in0[1], in0[0], 1);
out0[1] = amd_bytealign (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 (in1[1], in1[0], 3);
out1[2] = amd_bytealign (in1[0], in0[3], 3);
out1[1] = amd_bytealign (in0[3], in0[2], 3);
out1[0] = amd_bytealign (in0[2], in0[1], 3);
out0[3] = amd_bytealign (in0[1], in0[0], 3);
out0[2] = amd_bytealign (in0[0], 0, 3);
out0[1] = 0;
out0[0] = 0;
break;
case 10: out1[3] = amd_bytealign (in1[1], in1[0], 2);
out1[2] = amd_bytealign (in1[0], in0[3], 2);
out1[1] = amd_bytealign (in0[3], in0[2], 2);
out1[0] = amd_bytealign (in0[2], in0[1], 2);
out0[3] = amd_bytealign (in0[1], in0[0], 2);
out0[2] = amd_bytealign (in0[0], 0, 2);
out0[1] = 0;
out0[0] = 0;
break;
case 11: out1[3] = amd_bytealign (in1[1], in1[0], 1);
out1[2] = amd_bytealign (in1[0], in0[3], 1);
out1[1] = amd_bytealign (in0[3], in0[2], 1);
out1[0] = amd_bytealign (in0[2], in0[1], 1);
out0[3] = amd_bytealign (in0[1], in0[0], 1);
out0[2] = amd_bytealign (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 (in1[0], in0[3], 3);
out1[2] = amd_bytealign (in0[3], in0[2], 3);
out1[1] = amd_bytealign (in0[2], in0[1], 3);
out1[0] = amd_bytealign (in0[1], in0[0], 3);
out0[3] = amd_bytealign (in0[0], 0, 3);
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 14: out1[3] = amd_bytealign (in1[0], in0[3], 2);
out1[2] = amd_bytealign (in0[3], in0[2], 2);
out1[1] = amd_bytealign (in0[2], in0[1], 2);
out1[0] = amd_bytealign (in0[1], in0[0], 2);
out0[3] = amd_bytealign (in0[0], 0, 2);
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 15: out1[3] = amd_bytealign (in1[0], in0[3], 1);
out1[2] = amd_bytealign (in0[3], in0[2], 1);
out1[1] = amd_bytealign (in0[2], in0[1], 1);
out1[0] = amd_bytealign (in0[1], in0[0], 1);
out0[3] = amd_bytealign (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 (in0[3], in0[2], 3);
out1[2] = amd_bytealign (in0[2], in0[1], 3);
out1[1] = amd_bytealign (in0[1], in0[0], 3);
out1[0] = amd_bytealign (in0[0], 0, 3);
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 18: out1[3] = amd_bytealign (in0[3], in0[2], 2);
out1[2] = amd_bytealign (in0[2], in0[1], 2);
out1[1] = amd_bytealign (in0[1], in0[0], 2);
out1[0] = amd_bytealign (in0[0], 0, 2);
out0[3] = 0;
out0[2] = 0;
out0[1] = 0;
out0[0] = 0;
break;
case 19: out1[3] = amd_bytealign (in0[3], in0[2], 1);
out1[2] = amd_bytealign (in0[2], in0[1], 1);
out1[1] = amd_bytealign (in0[1], in0[0], 1);
out1[0] = amd_bytealign (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 (in0[2], in0[1], 3);
out1[2] = amd_bytealign (in0[1], in0[0], 3);
out1[1] = amd_bytealign (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 (in0[2], in0[1], 2);
out1[2] = amd_bytealign (in0[1], in0[0], 2);
out1[1] = amd_bytealign (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 (in0[2], in0[1], 1);
out1[2] = amd_bytealign (in0[1], in0[0], 1);
out1[1] = amd_bytealign (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 (in0[1], in0[0], 3);
out1[2] = amd_bytealign (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 (in0[1], in0[0], 2);
out1[2] = amd_bytealign (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 (in0[1], in0[0], 1);
out1[2] = amd_bytealign (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 (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 (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 (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 (src_l0[0], src_r0[0], 0x6540);
dst0[1] = __byte_perm (src_r0[0], src_r0[1], 0x6543);
dst0[2] = __byte_perm (src_r0[1], src_r0[2], 0x6543);
dst0[3] = __byte_perm (src_r0[2], src_r0[3], 0x6543);
dst1[0] = __byte_perm (src_r0[3], src_r1[0], 0x6543);
dst1[1] = __byte_perm (src_r1[0], src_r1[1], 0x6543);
dst1[2] = __byte_perm (src_r1[1], src_r1[2], 0x6543);
dst1[3] = __byte_perm (src_r1[2], src_r1[3], 0x6543);
break;
case 2:
dst0[0] = __byte_perm (src_l0[0], src_r0[0], 0x5410);
dst0[1] = __byte_perm (src_r0[0], src_r0[1], 0x5432);
dst0[2] = __byte_perm (src_r0[1], src_r0[2], 0x5432);
dst0[3] = __byte_perm (src_r0[2], src_r0[3], 0x5432);
dst1[0] = __byte_perm (src_r0[3], src_r1[0], 0x5432);
dst1[1] = __byte_perm (src_r1[0], src_r1[1], 0x5432);
dst1[2] = __byte_perm (src_r1[1], src_r1[2], 0x5432);
dst1[3] = __byte_perm (src_r1[2], src_r1[3], 0x5432);
break;
case 3:
dst0[0] = __byte_perm (src_l0[0], src_r0[0], 0x4210);
dst0[1] = __byte_perm (src_r0[0], src_r0[1], 0x4321);
dst0[2] = __byte_perm (src_r0[1], src_r0[2], 0x4321);
dst0[3] = __byte_perm (src_r0[2], src_r0[3], 0x4321);
dst1[0] = __byte_perm (src_r0[3], src_r1[0], 0x4321);
dst1[1] = __byte_perm (src_r1[0], src_r1[1], 0x4321);
dst1[2] = __byte_perm (src_r1[1], src_r1[2], 0x4321);
dst1[3] = __byte_perm (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 (src_l0[1], src_r0[0], 0x6540);
dst0[2] = __byte_perm (src_r0[0], src_r0[1], 0x6543);
dst0[3] = __byte_perm (src_r0[1], src_r0[2], 0x6543);
dst1[0] = __byte_perm (src_r0[2], src_r0[3], 0x6543);
dst1[1] = __byte_perm (src_r0[3], src_r1[0], 0x6543);
dst1[2] = __byte_perm (src_r1[0], src_r1[1], 0x6543);
dst1[3] = __byte_perm (src_r1[1], src_r1[2], 0x6543);
break;
case 6:
dst0[1] = __byte_perm (src_l0[1], src_r0[0], 0x5410);
dst0[2] = __byte_perm (src_r0[0], src_r0[1], 0x5432);
dst0[3] = __byte_perm (src_r0[1], src_r0[2], 0x5432);
dst1[0] = __byte_perm (src_r0[2], src_r0[3], 0x5432);
dst1[1] = __byte_perm (src_r0[3], src_r1[0], 0x5432);
dst1[2] = __byte_perm (src_r1[0], src_r1[1], 0x5432);
dst1[3] = __byte_perm (src_r1[1], src_r1[2], 0x5432);
break;
case 7:
dst0[1] = __byte_perm (src_l0[1], src_r0[0], 0x4210);
dst0[2] = __byte_perm (src_r0[0], src_r0[1], 0x4321);
dst0[3] = __byte_perm (src_r0[1], src_r0[2], 0x4321);
dst1[0] = __byte_perm (src_r0[2], src_r0[3], 0x4321);
dst1[1] = __byte_perm (src_r0[3], src_r1[0], 0x4321);
dst1[2] = __byte_perm (src_r1[0], src_r1[1], 0x4321);
dst1[3] = __byte_perm (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 (src_l0[2], src_r0[0], 0x6540);
dst0[3] = __byte_perm (src_r0[0], src_r0[1], 0x6543);
dst1[0] = __byte_perm (src_r0[1], src_r0[2], 0x6543);
dst1[1] = __byte_perm (src_r0[2], src_r0[3], 0x6543);
dst1[2] = __byte_perm (src_r0[3], src_r1[0], 0x6543);
dst1[3] = __byte_perm (src_r1[0], src_r1[1], 0x6543);
break;
case 10:
dst0[2] = __byte_perm (src_l0[2], src_r0[0], 0x5410);
dst0[3] = __byte_perm (src_r0[0], src_r0[1], 0x5432);
dst1[0] = __byte_perm (src_r0[1], src_r0[2], 0x5432);
dst1[1] = __byte_perm (src_r0[2], src_r0[3], 0x5432);
dst1[2] = __byte_perm (src_r0[3], src_r1[0], 0x5432);
dst1[3] = __byte_perm (src_r1[0], src_r1[1], 0x5432);
break;
case 11:
dst0[2] = __byte_perm (src_l0[2], src_r0[0], 0x4210);
dst0[3] = __byte_perm (src_r0[0], src_r0[1], 0x4321);
dst1[0] = __byte_perm (src_r0[1], src_r0[2], 0x4321);
dst1[1] = __byte_perm (src_r0[2], src_r0[3], 0x4321);
dst1[2] = __byte_perm (src_r0[3], src_r1[0], 0x4321);
dst1[3] = __byte_perm (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 (src_l0[3], src_r0[0], 0x6540);
dst1[0] = __byte_perm (src_r0[0], src_r0[1], 0x6543);
dst1[1] = __byte_perm (src_r0[1], src_r0[2], 0x6543);
dst1[2] = __byte_perm (src_r0[2], src_r0[3], 0x6543);
dst1[3] = __byte_perm (src_r0[3], src_r1[0], 0x6543);
break;
case 14:
dst0[3] = __byte_perm (src_l0[3], src_r0[0], 0x5410);
dst1[0] = __byte_perm (src_r0[0], src_r0[1], 0x5432);
dst1[1] = __byte_perm (src_r0[1], src_r0[2], 0x5432);
dst1[2] = __byte_perm (src_r0[2], src_r0[3], 0x5432);
dst1[3] = __byte_perm (src_r0[3], src_r1[0], 0x5432);
break;
case 15:
dst0[3] = __byte_perm (src_l0[3], src_r0[0], 0x4210);
dst1[0] = __byte_perm (src_r0[0], src_r0[1], 0x4321);
dst1[1] = __byte_perm (src_r0[1], src_r0[2], 0x4321);
dst1[2] = __byte_perm (src_r0[2], src_r0[3], 0x4321);
dst1[3] = __byte_perm (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 (src_l1[0], src_r0[0], 0x6540);
dst1[1] = __byte_perm (src_r0[0], src_r0[1], 0x6543);
dst1[2] = __byte_perm (src_r0[1], src_r0[2], 0x6543);
dst1[3] = __byte_perm (src_r0[2], src_r0[3], 0x6543);
break;
case 18:
dst1[0] = __byte_perm (src_l1[0], src_r0[0], 0x5410);
dst1[1] = __byte_perm (src_r0[0], src_r0[1], 0x5432);
dst1[2] = __byte_perm (src_r0[1], src_r0[2], 0x5432);
dst1[3] = __byte_perm (src_r0[2], src_r0[3], 0x5432);
break;
case 19:
dst1[0] = __byte_perm (src_l1[0], src_r0[0], 0x4210);
dst1[1] = __byte_perm (src_r0[0], src_r0[1], 0x4321);
dst1[2] = __byte_perm (src_r0[1], src_r0[2], 0x4321);
dst1[3] = __byte_perm (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 (src_l1[1], src_r0[0], 0x6540);
dst1[2] = __byte_perm (src_r0[0], src_r0[1], 0x6543);
dst1[3] = __byte_perm (src_r0[1], src_r0[2], 0x6543);
break;
case 22:
dst1[1] = __byte_perm (src_l1[1], src_r0[0], 0x5410);
dst1[2] = __byte_perm (src_r0[0], src_r0[1], 0x5432);
dst1[3] = __byte_perm (src_r0[1], src_r0[2], 0x5432);
break;
case 23:
dst1[1] = __byte_perm (src_l1[1], src_r0[0], 0x4210);
dst1[2] = __byte_perm (src_r0[0], src_r0[1], 0x4321);
dst1[3] = __byte_perm (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 (src_l1[2], src_r0[0], 0x6540);
dst1[3] = __byte_perm (src_r0[0], src_r0[1], 0x6543);
break;
case 26:
dst1[2] = __byte_perm (src_l1[2], src_r0[0], 0x5410);
dst1[3] = __byte_perm (src_r0[0], src_r0[1], 0x5432);
break;
case 27:
dst1[2] = __byte_perm (src_l1[2], src_r0[0], 0x4210);
dst1[3] = __byte_perm (src_r0[0], src_r0[1], 0x4321);
break;
case 28:
dst1[3] = src_r0[0];
break;
case 29:
dst1[3] = __byte_perm (src_l1[3], src_r0[0], 0x6540);
break;
case 30:
dst1[3] = __byte_perm (src_l1[3], src_r0[0], 0x5410);
break;
case 31:
dst1[3] = __byte_perm (src_l1[3], src_r0[0], 0x4210);
break;
}
#endif
#ifdef IS_AMD
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] = src_l0[0]
| src_r0[0] << 8;
dst0[1] = amd_bytealign (src_r0[1], src_r0[0], 3);
dst0[2] = amd_bytealign (src_r0[2], src_r0[1], 3);
dst0[3] = amd_bytealign (src_r0[3], src_r0[2], 3);
dst1[0] = amd_bytealign (src_r1[0], src_r0[3], 3);
dst1[1] = amd_bytealign (src_r1[1], src_r1[0], 3);
dst1[2] = amd_bytealign (src_r1[2], src_r1[1], 3);
dst1[3] = amd_bytealign (src_r1[3], src_r1[2], 3);
break;
case 2:
dst0[0] = src_l0[0]
| src_r0[0] << 16;
dst0[1] = amd_bytealign (src_r0[1], src_r0[0], 2);
dst0[2] = amd_bytealign (src_r0[2], src_r0[1], 2);
dst0[3] = amd_bytealign (src_r0[3], src_r0[2], 2);
dst1[0] = amd_bytealign (src_r1[0], src_r0[3], 2);
dst1[1] = amd_bytealign (src_r1[1], src_r1[0], 2);
dst1[2] = amd_bytealign (src_r1[2], src_r1[1], 2);
dst1[3] = amd_bytealign (src_r1[3], src_r1[2], 2);
break;
case 3:
dst0[0] = src_l0[0]
| src_r0[0] << 24;
dst0[1] = amd_bytealign (src_r0[1], src_r0[0], 1);
dst0[2] = amd_bytealign (src_r0[2], src_r0[1], 1);
dst0[3] = amd_bytealign (src_r0[3], src_r0[2], 1);
dst1[0] = amd_bytealign (src_r1[0], src_r0[3], 1);
dst1[1] = amd_bytealign (src_r1[1], src_r1[0], 1);
dst1[2] = amd_bytealign (src_r1[2], src_r1[1], 1);
dst1[3] = amd_bytealign (src_r1[3], src_r1[2], 1);
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] = src_l0[1]
| src_r0[0] << 8;
dst0[2] = amd_bytealign (src_r0[1], src_r0[0], 3);
dst0[3] = amd_bytealign (src_r0[2], src_r0[1], 3);
dst1[0] = amd_bytealign (src_r0[3], src_r0[2], 3);
dst1[1] = amd_bytealign (src_r1[0], src_r0[3], 3);
dst1[2] = amd_bytealign (src_r1[1], src_r1[0], 3);
dst1[3] = amd_bytealign (src_r1[2], src_r1[1], 3);
break;
case 6:
dst0[1] = src_l0[1]
| src_r0[0] << 16;
dst0[2] = amd_bytealign (src_r0[1], src_r0[0], 2);
dst0[3] = amd_bytealign (src_r0[2], src_r0[1], 2);
dst1[0] = amd_bytealign (src_r0[3], src_r0[2], 2);
dst1[1] = amd_bytealign (src_r1[0], src_r0[3], 2);
dst1[2] = amd_bytealign (src_r1[1], src_r1[0], 2);
dst1[3] = amd_bytealign (src_r1[2], src_r1[1], 2);
break;
case 7:
dst0[1] = src_l0[1]
| src_r0[0] << 24;
dst0[2] = amd_bytealign (src_r0[1], src_r0[0], 1);
dst0[3] = amd_bytealign (src_r0[2], src_r0[1], 1);
dst1[0] = amd_bytealign (src_r0[3], src_r0[2], 1);
dst1[1] = amd_bytealign (src_r1[0], src_r0[3], 1);
dst1[2] = amd_bytealign (src_r1[1], src_r1[0], 1);
dst1[3] = amd_bytealign (src_r1[2], src_r1[1], 1);
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] = src_l0[2]
| src_r0[0] << 8;
dst0[3] = amd_bytealign (src_r0[1], src_r0[0], 3);
dst1[0] = amd_bytealign (src_r0[2], src_r0[1], 3);
dst1[1] = amd_bytealign (src_r0[3], src_r0[2], 3);
dst1[2] = amd_bytealign (src_r1[0], src_r0[3], 3);
dst1[3] = amd_bytealign (src_r1[1], src_r1[0], 3);
break;
case 10:
dst0[2] = src_l0[2]
| src_r0[0] << 16;
dst0[3] = amd_bytealign (src_r0[1], src_r0[0], 2);
dst1[0] = amd_bytealign (src_r0[2], src_r0[1], 2);
dst1[1] = amd_bytealign (src_r0[3], src_r0[2], 2);
dst1[2] = amd_bytealign (src_r1[0], src_r0[3], 2);
dst1[3] = amd_bytealign (src_r1[1], src_r1[0], 2);
break;
case 11:
dst0[2] = src_l0[2]
| src_r0[0] << 24;
dst0[3] = amd_bytealign (src_r0[1], src_r0[0], 1);
dst1[0] = amd_bytealign (src_r0[2], src_r0[1], 1);
dst1[1] = amd_bytealign (src_r0[3], src_r0[2], 1);
dst1[2] = amd_bytealign (src_r1[0], src_r0[3], 1);
dst1[3] = amd_bytealign (src_r1[1], src_r1[0], 1);
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] = src_l0[3]
| src_r0[0] << 8;
dst1[0] = amd_bytealign (src_r0[1], src_r0[0], 3);
dst1[1] = amd_bytealign (src_r0[2], src_r0[1], 3);
dst1[2] = amd_bytealign (src_r0[3], src_r0[2], 3);
dst1[3] = amd_bytealign (src_r1[0], src_r0[3], 3);
break;
case 14:
dst0[3] = src_l0[3]
| src_r0[0] << 16;
dst1[0] = amd_bytealign (src_r0[1], src_r0[0], 2);
dst1[1] = amd_bytealign (src_r0[2], src_r0[1], 2);
dst1[2] = amd_bytealign (src_r0[3], src_r0[2], 2);
dst1[3] = amd_bytealign (src_r1[0], src_r0[3], 2);
break;
case 15:
dst0[3] = src_l0[3]
| src_r0[0] << 24;
dst1[0] = amd_bytealign (src_r0[1], src_r0[0], 1);
dst1[1] = amd_bytealign (src_r0[2], src_r0[1], 1);
dst1[2] = amd_bytealign (src_r0[3], src_r0[2], 1);
dst1[3] = amd_bytealign (src_r1[0], src_r0[3], 1);
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] = src_l1[0]
| src_r0[0] << 8;
dst1[1] = amd_bytealign (src_r0[1], src_r0[0], 3);
dst1[2] = amd_bytealign (src_r0[2], src_r0[1], 3);
dst1[3] = amd_bytealign (src_r0[3], src_r0[2], 3);
break;
case 18:
dst1[0] = src_l1[0]
| src_r0[0] << 16;
dst1[1] = amd_bytealign (src_r0[1], src_r0[0], 2);
dst1[2] = amd_bytealign (src_r0[2], src_r0[1], 2);
dst1[3] = amd_bytealign (src_r0[3], src_r0[2], 2);
break;
case 19:
dst1[0] = src_l1[0]
| src_r0[0] << 24;
dst1[1] = amd_bytealign (src_r0[1], src_r0[0], 1);
dst1[2] = amd_bytealign (src_r0[2], src_r0[1], 1);
dst1[3] = amd_bytealign (src_r0[3], src_r0[2], 1);
break;
case 20:
dst1[1] = src_r0[0];
dst1[2] = src_r0[1];
dst1[3] = src_r0[2];
break;
case 21:
dst1[1] = src_l1[1]
| src_r0[0] << 8;
dst1[2] = amd_bytealign (src_r0[1], src_r0[0], 3);
dst1[3] = amd_bytealign (src_r0[2], src_r0[1], 3);
break;
case 22:
dst1[1] = src_l1[1]
| src_r0[0] << 16;
dst1[2] = amd_bytealign (src_r0[1], src_r0[0], 2);
dst1[3] = amd_bytealign (src_r0[2], src_r0[1], 2);
break;
case 23:
dst1[1] = src_l1[1]
| src_r0[0] << 24;
dst1[2] = amd_bytealign (src_r0[1], src_r0[0], 1);
dst1[3] = amd_bytealign (src_r0[2], src_r0[1], 1);
break;
case 24:
dst1[2] = src_r0[0];
dst1[3] = src_r0[1];
break;
case 25:
dst1[2] = src_l1[2]
| src_r0[0] << 8;
dst1[3] = amd_bytealign (src_r0[1], src_r0[0], 3);
break;
case 26:
dst1[2] = src_l1[2]
| src_r0[0] << 16;
dst1[3] = amd_bytealign (src_r0[1], src_r0[0], 2);
break;
case 27:
dst1[2] = src_l1[2]
| src_r0[0] << 24;
dst1[3] = amd_bytealign (src_r0[1], src_r0[0], 1);
break;
case 28:
dst1[3] = src_r0[0];
break;
case 29:
dst1[3] = src_l1[3]
| src_r0[0] << 8;
break;
case 30:
dst1[3] = src_l1[3]
| src_r0[0] << 16;
break;
case 31:
dst1[3] = src_l1[3]
| src_r0[0] << 24;
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 (tib40[0]);
out0[1] = swap32 (tib40[1]);
out0[2] = swap32 (tib40[2]);
out0[3] = swap32 (tib40[3]);
out1[0] = swap32 (tib41[0]);
out1[1] = swap32 (tib41[1]);
out1[2] = swap32 (tib41[2]);
out1[3] = swap32 (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 = 0x20 << ((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;
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];
append_block8 (out_len, buf0, buf1, buf0, buf1, tib40, tib41);
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 = ~(0xff << ((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 (buf0[0], 0, 0x6540)) == p0) buf0[0] = __byte_perm (p1, buf0[0], 0x7650);
break;
case 1: if ((__byte_perm (buf0[0], 0, 0x6541)) == p0) buf0[0] = __byte_perm (p1, buf0[0], 0x7604);
break;
case 2: if ((__byte_perm (buf0[0], 0, 0x6542)) == p0) buf0[0] = __byte_perm (p1, buf0[0], 0x7054);
break;
case 3: if ((__byte_perm (buf0[0], 0, 0x6543)) == p0) buf0[0] = __byte_perm (p1, buf0[0], 0x0654);
break;
case 4: if ((__byte_perm (buf0[1], 0, 0x6540)) == p0) buf0[1] = __byte_perm (p1, buf0[1], 0x7650);
break;
case 5: if ((__byte_perm (buf0[1], 0, 0x6541)) == p0) buf0[1] = __byte_perm (p1, buf0[1], 0x7604);
break;
case 6: if ((__byte_perm (buf0[1], 0, 0x6542)) == p0) buf0[1] = __byte_perm (p1, buf0[1], 0x7054);
break;
case 7: if ((__byte_perm (buf0[1], 0, 0x6543)) == p0) buf0[1] = __byte_perm (p1, buf0[1], 0x0654);
break;
case 8: if ((__byte_perm (buf0[2], 0, 0x6540)) == p0) buf0[2] = __byte_perm (p1, buf0[2], 0x7650);
break;
case 9: if ((__byte_perm (buf0[2], 0, 0x6541)) == p0) buf0[2] = __byte_perm (p1, buf0[2], 0x7604);
break;
case 10: if ((__byte_perm (buf0[2], 0, 0x6542)) == p0) buf0[2] = __byte_perm (p1, buf0[2], 0x7054);
break;
case 11: if ((__byte_perm (buf0[2], 0, 0x6543)) == p0) buf0[2] = __byte_perm (p1, buf0[2], 0x0654);
break;
case 12: if ((__byte_perm (buf0[3], 0, 0x6540)) == p0) buf0[3] = __byte_perm (p1, buf0[3], 0x7650);
break;
case 13: if ((__byte_perm (buf0[3], 0, 0x6541)) == p0) buf0[3] = __byte_perm (p1, buf0[3], 0x7604);
break;
case 14: if ((__byte_perm (buf0[3], 0, 0x6542)) == p0) buf0[3] = __byte_perm (p1, buf0[3], 0x7054);
break;
case 15: if ((__byte_perm (buf0[3], 0, 0x6543)) == p0) buf0[3] = __byte_perm (p1, buf0[3], 0x0654);
break;
case 16: if ((__byte_perm (buf1[0], 0, 0x6540)) == p0) buf1[0] = __byte_perm (p1, buf1[0], 0x7650);
break;
case 17: if ((__byte_perm (buf1[0], 0, 0x6541)) == p0) buf1[0] = __byte_perm (p1, buf1[0], 0x7604);
break;
case 18: if ((__byte_perm (buf1[0], 0, 0x6542)) == p0) buf1[0] = __byte_perm (p1, buf1[0], 0x7054);
break;
case 19: if ((__byte_perm (buf1[0], 0, 0x6543)) == p0) buf1[0] = __byte_perm (p1, buf1[0], 0x0654);
break;
case 20: if ((__byte_perm (buf1[1], 0, 0x6540)) == p0) buf1[1] = __byte_perm (p1, buf1[1], 0x7650);
break;
case 21: if ((__byte_perm (buf1[1], 0, 0x6541)) == p0) buf1[1] = __byte_perm (p1, buf1[1], 0x7604);
break;
case 22: if ((__byte_perm (buf1[1], 0, 0x6542)) == p0) buf1[1] = __byte_perm (p1, buf1[1], 0x7054);
break;
case 23: if ((__byte_perm (buf1[1], 0, 0x6543)) == p0) buf1[1] = __byte_perm (p1, buf1[1], 0x0654);
break;
case 24: if ((__byte_perm (buf1[2], 0, 0x6540)) == p0) buf1[2] = __byte_perm (p1, buf1[2], 0x7650);
break;
case 25: if ((__byte_perm (buf1[2], 0, 0x6541)) == p0) buf1[2] = __byte_perm (p1, buf1[2], 0x7604);
break;
case 26: if ((__byte_perm (buf1[2], 0, 0x6542)) == p0) buf1[2] = __byte_perm (p1, buf1[2], 0x7054);
break;
case 27: if ((__byte_perm (buf1[2], 0, 0x6543)) == p0) buf1[2] = __byte_perm (p1, buf1[2], 0x0654);
break;
case 28: if ((__byte_perm (buf1[3], 0, 0x6540)) == p0) buf1[3] = __byte_perm (p1, buf1[3], 0x7650);
break;
case 29: if ((__byte_perm (buf1[3], 0, 0x6541)) == p0) buf1[3] = __byte_perm (p1, buf1[3], 0x7604);
break;
case 30: if ((__byte_perm (buf1[3], 0, 0x6542)) == p0) buf1[3] = __byte_perm (p1, buf1[3], 0x7054);
break;
case 31: if ((__byte_perm (buf1[3], 0, 0x6543)) == p0) buf1[3] = __byte_perm (p1, buf1[3], 0x0654);
break;
}
}
#endif
#ifdef IS_AMD
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 (tmp, 0, 0x5400);
break;
case 3: buf0[0] |= __byte_perm (tmp, 0, 0x4000);
break;
case 4: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
break;
case 5: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= tmp;
break;
case 6: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x5400);
break;
case 7: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x4000);
break;
case 8: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
break;
case 9: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= tmp;
break;
case 10: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x5400);
break;
case 11: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x4000);
break;
case 12: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
break;
case 13: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= tmp;
break;
case 14: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x5400);
break;
case 15: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x4000);
break;
case 16: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
break;
case 17: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= tmp;
break;
case 18: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x5400);
break;
case 19: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x4000);
break;
case 20: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
break;
case 21: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= tmp;
break;
case 22: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= __byte_perm (tmp, 0, 0x5400);
break;
case 23: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= __byte_perm (tmp, 0, 0x4000);
break;
case 24: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= __byte_perm (tmp, 0, 0x0000);
break;
case 25: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= __byte_perm (tmp, 0, 0x0000);
buf1[2] |= tmp;
break;
case 26: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= __byte_perm (tmp, 0, 0x0000);
buf1[2] |= __byte_perm (tmp, 0, 0x5400);
break;
case 27: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= __byte_perm (tmp, 0, 0x0000);
buf1[2] |= __byte_perm (tmp, 0, 0x4000);
break;
case 28: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= __byte_perm (tmp, 0, 0x0000);
buf1[2] |= __byte_perm (tmp, 0, 0x0000);
break;
case 29: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= __byte_perm (tmp, 0, 0x0000);
buf1[2] |= __byte_perm (tmp, 0, 0x0000);
buf1[3] |= tmp;
break;
case 30: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= __byte_perm (tmp, 0, 0x0000);
buf1[2] |= __byte_perm (tmp, 0, 0x0000);
buf1[3] |= __byte_perm (tmp, 0, 0x5400);
break;
case 31: buf0[0] |= __byte_perm (tmp, 0, 0x0000);
buf0[1] |= __byte_perm (tmp, 0, 0x0000);
buf0[2] |= __byte_perm (tmp, 0, 0x0000);
buf0[3] |= __byte_perm (tmp, 0, 0x0000);
buf1[0] |= __byte_perm (tmp, 0, 0x0000);
buf1[1] |= __byte_perm (tmp, 0, 0x0000);
buf1[2] |= __byte_perm (tmp, 0, 0x0000);
buf1[3] |= __byte_perm (tmp, 0, 0x4000);
break;
}
#endif
#ifdef IS_AMD
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 (buf0[0], 0, 0x1100);
tib40[1] = __byte_perm (buf0[0], 0, 0x3322);
tib40[2] = __byte_perm (buf0[1], 0, 0x1100);
tib40[3] = __byte_perm (buf0[1], 0, 0x3322);
tib41[0] = __byte_perm (buf0[2], 0, 0x1100);
tib41[1] = __byte_perm (buf0[2], 0, 0x3322);
tib41[2] = __byte_perm (buf0[3], 0, 0x1100);
tib41[3] = __byte_perm (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
#ifdef IS_AMD
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 (buf0[0], 0, 0x3201);
#endif
#ifdef IS_AMD
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 (buf0[0], 0, 0x5401);
break;
case 3: buf0[0] = __byte_perm (buf0[0], 0, 0x4120);
break;
case 4: buf0[0] = __byte_perm (buf0[0], 0, 0x2310);
break;
case 5: buf0[1] = __byte_perm (buf0[1], buf0[0], 0x7210);
buf0[0] = __byte_perm (buf0[0], buf0[1], 0x4210);
buf0[1] = __byte_perm (buf0[1], 0, 0x6543);
break;
case 6: buf0[1] = __byte_perm (buf0[1], 0, 0x5401);
break;
case 7: buf0[1] = __byte_perm (buf0[1], 0, 0x4120);
break;
case 8: buf0[1] = __byte_perm (buf0[1], 0, 0x2310);
break;
case 9: buf0[2] = __byte_perm (buf0[2], buf0[1], 0x7210);
buf0[1] = __byte_perm (buf0[1], buf0[2], 0x4210);
buf0[2] = __byte_perm (buf0[2], 0, 0x6543);
break;
case 10: buf0[2] = __byte_perm (buf0[2], 0, 0x5401);
break;
case 11: buf0[2] = __byte_perm (buf0[2], 0, 0x4120);
break;
case 12: buf0[2] = __byte_perm (buf0[2], 0, 0x2310);
break;
case 13: buf0[3] = __byte_perm (buf0[3], buf0[2], 0x7210);
buf0[2] = __byte_perm (buf0[2], buf0[3], 0x4210);
buf0[3] = __byte_perm (buf0[3], 0, 0x6543);
break;
case 14: buf0[3] = __byte_perm (buf0[3], 0, 0x5401);
break;
case 15: buf0[3] = __byte_perm (buf0[3], 0, 0x4120);
break;
case 16: buf0[3] = __byte_perm (buf0[3], 0, 0x2310);
break;
case 17: buf1[0] = __byte_perm (buf1[0], buf0[3], 0x7210);
buf0[3] = __byte_perm (buf0[3], buf1[0], 0x4210);
buf1[0] = __byte_perm (buf1[0], 0, 0x6543);
break;
case 18: buf1[0] = __byte_perm (buf1[0], 0, 0x5401);
break;
case 19: buf1[0] = __byte_perm (buf1[0], 0, 0x4120);
break;
case 20: buf1[0] = __byte_perm (buf1[0], 0, 0x2310);
break;
case 21: buf1[1] = __byte_perm (buf1[1], buf1[0], 0x7210);
buf1[0] = __byte_perm (buf1[0], buf1[1], 0x4210);
buf1[1] = __byte_perm (buf1[1], 0, 0x6543);
break;
case 22: buf1[1] = __byte_perm (buf1[1], 0, 0x5401);
break;
case 23: buf1[1] = __byte_perm (buf1[1], 0, 0x4120);
break;
case 24: buf1[1] = __byte_perm (buf1[1], 0, 0x2310);
break;
case 25: buf1[2] = __byte_perm (buf1[2], buf1[1], 0x7210);
buf1[1] = __byte_perm (buf1[1], buf1[2], 0x4210);
buf1[2] = __byte_perm (buf1[2], 0, 0x6543);
break;
case 26: buf1[2] = __byte_perm (buf1[2], 0, 0x5401);
break;
case 27: buf1[2] = __byte_perm (buf1[2], 0, 0x4120);
break;
case 28: buf1[2] = __byte_perm (buf1[2], 0, 0x2310);
break;
case 29: buf1[3] = __byte_perm (buf1[3], buf1[2], 0x7210);
buf1[2] = __byte_perm (buf1[2], buf1[3], 0x4210);
buf1[3] = __byte_perm (buf1[3], 0, 0x6543);
break;
case 30: buf1[3] = __byte_perm (buf1[3], 0, 0x5401);
break;
case 31: buf1[3] = __byte_perm (buf1[3], 0, 0x4120);
break;
}
#endif
#ifdef IS_AMD
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 (buf0[0], 0, 0x6540);
break;
case 1: tmp0 = __byte_perm (buf0[0], 0, 0x6541);
break;
case 2: tmp0 = __byte_perm (buf0[0], 0, 0x6542);
break;
case 3: tmp0 = __byte_perm (buf0[0], 0, 0x6543);
break;
case 4: tmp0 = __byte_perm (buf0[1], 0, 0x6540);
break;
case 5: tmp0 = __byte_perm (buf0[1], 0, 0x6541);
break;
case 6: tmp0 = __byte_perm (buf0[1], 0, 0x6542);
break;
case 7: tmp0 = __byte_perm (buf0[1], 0, 0x6543);
break;
case 8: tmp0 = __byte_perm (buf0[2], 0, 0x6540);
break;
case 9: tmp0 = __byte_perm (buf0[2], 0, 0x6541);
break;
case 10: tmp0 = __byte_perm (buf0[2], 0, 0x6542);
break;
case 11: tmp0 = __byte_perm (buf0[2], 0, 0x6543);
break;
case 12: tmp0 = __byte_perm (buf0[3], 0, 0x6540);
break;
case 13: tmp0 = __byte_perm (buf0[3], 0, 0x6541);
break;
case 14: tmp0 = __byte_perm (buf0[3], 0, 0x6542);
break;
case 15: tmp0 = __byte_perm (buf0[3], 0, 0x6543);
break;
case 16: tmp0 = __byte_perm (buf1[0], 0, 0x6540);
break;
case 17: tmp0 = __byte_perm (buf1[0], 0, 0x6541);
break;
case 18: tmp0 = __byte_perm (buf1[0], 0, 0x6542);
break;
case 19: tmp0 = __byte_perm (buf1[0], 0, 0x6543);
break;
case 20: tmp0 = __byte_perm (buf1[1], 0, 0x6540);
break;
case 21: tmp0 = __byte_perm (buf1[1], 0, 0x6541);
break;
case 22: tmp0 = __byte_perm (buf1[1], 0, 0x6542);
break;
case 23: tmp0 = __byte_perm (buf1[1], 0, 0x6543);
break;
case 24: tmp0 = __byte_perm (buf1[2], 0, 0x6540);
break;
case 25: tmp0 = __byte_perm (buf1[2], 0, 0x6541);
break;
case 26: tmp0 = __byte_perm (buf1[2], 0, 0x6542);
break;
case 27: tmp0 = __byte_perm (buf1[2], 0, 0x6543);
break;
case 28: tmp0 = __byte_perm (buf1[3], 0, 0x6540);
break;
case 29: tmp0 = __byte_perm (buf1[3], 0, 0x6541);
break;
case 30: tmp0 = __byte_perm (buf1[3], 0, 0x6542);
break;
case 31: tmp0 = __byte_perm (buf1[3], 0, 0x6543);
break;
}
switch (p1)
{
case 0: tmp1 = __byte_perm (buf0[0], 0, 0x6540);
buf0[0] = __byte_perm (tmp0, buf0[0], 0x7650);
break;
case 1: tmp1 = __byte_perm (buf0[0], 0, 0x6541);
buf0[0] = __byte_perm (tmp0, buf0[0], 0x7604);
break;
case 2: tmp1 = __byte_perm (buf0[0], 0, 0x6542);
buf0[0] = __byte_perm (tmp0, buf0[0], 0x7054);
break;
case 3: tmp1 = __byte_perm (buf0[0], 0, 0x6543);
buf0[0] = __byte_perm (tmp0, buf0[0], 0x0654);
break;
case 4: tmp1 = __byte_perm (buf0[1], 0, 0x6540);
buf0[1] = __byte_perm (tmp0, buf0[1], 0x7650);
break;
case 5: tmp1 = __byte_perm (buf0[1], 0, 0x6541);
buf0[1] = __byte_perm (tmp0, buf0[1], 0x7604);
break;
case 6: tmp1 = __byte_perm (buf0[1], 0, 0x6542);
buf0[1] = __byte_perm (tmp0, buf0[1], 0x7054);
break;
case 7: tmp1 = __byte_perm (buf0[1], 0, 0x6543);
buf0[1] = __byte_perm (tmp0, buf0[1], 0x0654);
break;
case 8: tmp1 = __byte_perm (buf0[2], 0, 0x6540);
buf0[2] = __byte_perm (tmp0, buf0[2], 0x7650);
break;
case 9: tmp1 = __byte_perm (buf0[2], 0, 0x6541);
buf0[2] = __byte_perm (tmp0, buf0[2], 0x7604);
break;
case 10: tmp1 = __byte_perm (buf0[2], 0, 0x6542);
buf0[2] = __byte_perm (tmp0, buf0[2], 0x7054);
break;
case 11: tmp1 = __byte_perm (buf0[2], 0, 0x6543);
buf0[2] = __byte_perm (tmp0, buf0[2], 0x0654);
break;
case 12: tmp1 = __byte_perm (buf0[3], 0, 0x6540);
buf0[3] = __byte_perm (tmp0, buf0[3], 0x7650);
break;
case 13: tmp1 = __byte_perm (buf0[3], 0, 0x6541);
buf0[3] = __byte_perm (tmp0, buf0[3], 0x7604);
break;
case 14: tmp1 = __byte_perm (buf0[3], 0, 0x6542);
buf0[3] = __byte_perm (tmp0, buf0[3], 0x7054);
break;
case 15: tmp1 = __byte_perm (buf0[3], 0, 0x6543);
buf0[3] = __byte_perm (tmp0, buf0[3], 0x0654);
break;
case 16: tmp1 = __byte_perm (buf1[0], 0, 0x6540);
buf1[0] = __byte_perm (tmp0, buf1[0], 0x7650);
break;
case 17: tmp1 = __byte_perm (buf1[0], 0, 0x6541);
buf1[0] = __byte_perm (tmp0, buf1[0], 0x7604);
break;
case 18: tmp1 = __byte_perm (buf1[0], 0, 0x6542);
buf1[0] = __byte_perm (tmp0, buf1[0], 0x7054);
break;
case 19: tmp1 = __byte_perm (buf1[0], 0, 0x6543);
buf1[0] = __byte_perm (tmp0, buf1[0], 0x0654);
break;
case 20: tmp1 = __byte_perm (buf1[1], 0, 0x6540);
buf1[1] = __byte_perm (tmp0, buf1[1], 0x7650);
break;
case 21: tmp1 = __byte_perm (buf1[1], 0, 0x6541);
buf1[1] = __byte_perm (tmp0, buf1[1], 0x7604);
break;
case 22: tmp1 = __byte_perm (buf1[1], 0, 0x6542);
buf1[1] = __byte_perm (tmp0, buf1[1], 0x7054);
break;
case 23: tmp1 = __byte_perm (buf1[1], 0, 0x6543);
buf1[1] = __byte_perm (tmp0, buf1[1], 0x0654);
break;
case 24: tmp1 = __byte_perm (buf1[2], 0, 0x6540);
buf1[2] = __byte_perm (tmp0, buf1[2], 0x7650);
break;
case 25: tmp1 = __byte_perm (buf1[2], 0, 0x6541);
buf1[2] = __byte_perm (tmp0, buf1[2], 0x7604);
break;
case 26: tmp1 = __byte_perm (buf1[2], 0, 0x6542);
buf1[2] = __byte_perm (tmp0, buf1[2], 0x7054);
break;
case 27: tmp1 = __byte_perm (buf1[2], 0, 0x6543);
buf1[2] = __byte_perm (tmp0, buf1[2], 0x0654);
break;
case 28: tmp1 = __byte_perm (buf1[3], 0, 0x6540);
buf1[3] = __byte_perm (tmp0, buf1[3], 0x7650);
break;
case 29: tmp1 = __byte_perm (buf1[3], 0, 0x6541);
buf1[3] = __byte_perm (tmp0, buf1[3], 0x7604);
break;
case 30: tmp1 = __byte_perm (buf1[3], 0, 0x6542);
buf1[3] = __byte_perm (tmp0, buf1[3], 0x7054);
break;
case 31: tmp1 = __byte_perm (buf1[3], 0, 0x6543);
buf1[3] = __byte_perm (tmp0, buf1[3], 0x0654);
break;
}
switch (p0)
{
case 0: buf0[0] = __byte_perm (tmp1, buf0[0], 0x7650);
break;
case 1: buf0[0] = __byte_perm (tmp1, buf0[0], 0x7604);
break;
case 2: buf0[0] = __byte_perm (tmp1, buf0[0], 0x7054);
break;
case 3: buf0[0] = __byte_perm (tmp1, buf0[0], 0x0654);
break;
case 4: buf0[1] = __byte_perm (tmp1, buf0[1], 0x7650);
break;
case 5: buf0[1] = __byte_perm (tmp1, buf0[1], 0x7604);
break;
case 6: buf0[1] = __byte_perm (tmp1, buf0[1], 0x7054);
break;
case 7: buf0[1] = __byte_perm (tmp1, buf0[1], 0x0654);
break;
case 8: buf0[2] = __byte_perm (tmp1, buf0[2], 0x7650);
break;
case 9: buf0[2] = __byte_perm (tmp1, buf0[2], 0x7604);
break;
case 10: buf0[2] = __byte_perm (tmp1, buf0[2], 0x7054);
break;
case 11: buf0[2] = __byte_perm (tmp1, buf0[2], 0x0654);
break;
case 12: buf0[3] = __byte_perm (tmp1, buf0[3], 0x7650);
break;
case 13: buf0[3] = __byte_perm (tmp1, buf0[3], 0x7604);
break;
case 14: buf0[3] = __byte_perm (tmp1, buf0[3], 0x7054);
break;
case 15: buf0[3] = __byte_perm (tmp1, buf0[3], 0x0654);
break;
case 16: buf1[0] = __byte_perm (tmp1, buf1[0], 0x7650);
break;
case 17: buf1[0] = __byte_perm (tmp1, buf1[0], 0x7604);
break;
case 18: buf1[0] = __byte_perm (tmp1, buf1[0], 0x7054);
break;
case 19: buf1[0] = __byte_perm (tmp1, buf1[0], 0x0654);
break;
case 20: buf1[1] = __byte_perm (tmp1, buf1[1], 0x7650);
break;
case 21: buf1[1] = __byte_perm (tmp1, buf1[1], 0x7604);
break;
case 22: buf1[1] = __byte_perm (tmp1, buf1[1], 0x7054);
break;
case 23: buf1[1] = __byte_perm (tmp1, buf1[1], 0x0654);
break;
case 24: buf1[2] = __byte_perm (tmp1, buf1[2], 0x7650);
break;
case 25: buf1[2] = __byte_perm (tmp1, buf1[2], 0x7604);
break;
case 26: buf1[2] = __byte_perm (tmp1, buf1[2], 0x7054);
break;
case 27: buf1[2] = __byte_perm (tmp1, buf1[2], 0x0654);
break;
case 28: buf1[3] = __byte_perm (tmp1, buf1[3], 0x7650);
break;
case 29: buf1[3] = __byte_perm (tmp1, buf1[3], 0x7604);
break;
case 30: buf1[3] = __byte_perm (tmp1, buf1[3], 0x7054);
break;
case 31: buf1[3] = __byte_perm (tmp1, buf1[3], 0x0654);
break;
}
#endif
#ifdef IS_AMD
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 = 0xff << ((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 = 0xff << ((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 = 0xff << ((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 = 0xff << ((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 = 0xff << ((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 = 0xff << ((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 (buf0[0], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf0[0])); break;
case 1: tmp0 = __byte_perm (buf0[0], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf0[0])); break;
case 2: tmp0 = __byte_perm (buf0[0], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf0[0])); break;
case 3: tmp0 = __byte_perm (buf0[0], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf0[1])); break;
case 4: tmp0 = __byte_perm (buf0[1], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf0[1])); break;
case 5: tmp0 = __byte_perm (buf0[1], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf0[1])); break;
case 6: tmp0 = __byte_perm (buf0[1], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf0[1])); break;
case 7: tmp0 = __byte_perm (buf0[1], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf0[2])); break;
case 8: tmp0 = __byte_perm (buf0[2], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf0[2])); break;
case 9: tmp0 = __byte_perm (buf0[2], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf0[2])); break;
case 10: tmp0 = __byte_perm (buf0[2], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf0[2])); break;
case 11: tmp0 = __byte_perm (buf0[2], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf0[3])); break;
case 12: tmp0 = __byte_perm (buf0[3], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf0[3])); break;
case 13: tmp0 = __byte_perm (buf0[3], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf0[3])); break;
case 14: tmp0 = __byte_perm (buf0[3], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf0[3])); break;
case 15: tmp0 = __byte_perm (buf0[3], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf1[0])); break;
case 16: tmp0 = __byte_perm (buf1[0], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf1[0])); break;
case 17: tmp0 = __byte_perm (buf1[0], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf1[0])); break;
case 18: tmp0 = __byte_perm (buf1[0], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf1[0])); break;
case 19: tmp0 = __byte_perm (buf1[0], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf1[1])); break;
case 20: tmp0 = __byte_perm (buf1[1], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf1[1])); break;
case 21: tmp0 = __byte_perm (buf1[1], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf1[1])); break;
case 22: tmp0 = __byte_perm (buf1[1], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf1[1])); break;
case 23: tmp0 = __byte_perm (buf1[1], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf1[2])); break;
case 24: tmp0 = __byte_perm (buf1[2], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf1[2])); break;
case 25: tmp0 = __byte_perm (buf1[2], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf1[2])); break;
case 26: tmp0 = __byte_perm (buf1[2], 0, 0x6542);
tmp1 = ~(0x20000000 & generate_cmask (buf1[2])); break;
case 27: tmp0 = __byte_perm (buf1[2], 0, 0x6543);
tmp1 = ~(0x00000020 & generate_cmask (buf1[3])); break;
case 28: tmp0 = __byte_perm (buf1[3], 0, 0x6540);
tmp1 = ~(0x00002000 & generate_cmask (buf1[3])); break;
case 29: tmp0 = __byte_perm (buf1[3], 0, 0x6541);
tmp1 = ~(0x00200000 & generate_cmask (buf1[3])); break;
case 30: tmp0 = __byte_perm (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
#ifdef IS_AMD
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 (__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;
}