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sdrangel/dsd/p25p1_ldu2.c

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/*
* Copyright (C) 2010 DSD Author
* GPG Key ID: 0x3F1D7FD0 (74EF 430D F7F2 0A48 FCE6 F630 FAA2 635D 3F1D 7FD0)
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH
* REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
* AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT,
* INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
* LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
* OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/
#include "dsd.h"
#include "p25p1_const.h"
void
processLDU2 (dsd_opts * opts, dsd_state * state)
{
// extracts IMBE frames rom LDU frame
int i, j, k, dibit, stats, count, scount;
char imbe_fr[8][23];
char mi[73], algid[9], kid[17], lsd3[9], lsd4[9], status[25];
const int *w, *x, *y, *z;
int algidhex, kidhex;
status[24] = 0;
mi[72] = 0;
algid[8] = 0;
kid[16] = 0;
lsd3[8] = 0;
lsd4[8] = 0;
skipDibit (opts, state, 3);
status[0] = getDibit (opts, state) + 48;
skipDibit (opts, state, 21);
scount = 1;
count = 57;
if (opts->errorbars == 1)
{
printf ("e:");
}
// separate imbe frames and deinterleave
stats = 21;
// we skip the status dibits that occur every 36 symbols
// the first IMBE frame starts 14 symbols before next status
// so we start counter at 22
for (i = 0; i < 9; i++)
{ // 9 IMBE frames per LDU
w = iW;
x = iX;
y = iY;
z = iZ;
for (j = 0; j < 72; j++)
{
if (stats == 35)
{
status[scount] = getDibit (opts, state) + 48;
scount++;
stats = 1;
count++;
}
else
{
stats++;
}
dibit = getDibit (opts, state);
count++;
imbe_fr[*w][*x] = (1 & (dibit >> 1)); // bit 1
imbe_fr[*y][*z] = (1 & dibit); // bit 0
w++;
x++;
y++;
z++;
}
if (state->p25kid == 0 || opts->unmute_encrypted_p25 == 1)
{
processMbeFrame (opts, state, imbe_fr, NULL, NULL);
}
// skip over non imbe data sometimes between frames
if ((i < 5) || (i == 8))
{
k = 0;
}
else if (i == 7)
{
//k=16;
k = 0;
}
else
{
k = 20;
}
for (j = 0; j < k; j++)
{
if (stats == 35)
{
status[scount] = getDibit (opts, state) + 48;
scount++;
count++;
stats = 1;
}
else
{
stats++;
}
skipDibit (opts, state, 1);
count++;
}
if (i == 1)
{
dibit = getDibit (opts, state);
mi[0] = (1 & (dibit >> 1)) + 48; // bit 1
mi[1] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[2] = (1 & (dibit >> 1)) + 48; // bit 1
mi[3] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[4] = (1 & (dibit >> 1)) + 48; // bit 1
mi[5] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
dibit = getDibit (opts, state);
mi[6] = (1 & (dibit >> 1)) + 48; // bit 1
mi[7] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[8] = (1 & (dibit >> 1)) + 48; // bit 1
mi[9] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[10] = (1 & (dibit >> 1)) + 48; // bit 1
mi[11] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
status[scount] = getDibit (opts, state) + 48;
scount++;
dibit = getDibit (opts, state);
mi[12] = (1 & (dibit >> 1)) + 48; // bit 1
mi[13] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[14] = (1 & (dibit >> 1)) + 48; // bit 1
mi[15] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[16] = (1 & (dibit >> 1)) + 48; // bit 1
mi[17] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
dibit = getDibit (opts, state);
mi[18] = (1 & (dibit >> 1)) + 48; // bit 1
mi[19] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[20] = (1 & (dibit >> 1)) + 48; // bit 1
mi[21] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[22] = (1 & (dibit >> 1)) + 48; // bit 1
mi[23] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
stats = 10;
}
else if (i == 2)
{
dibit = getDibit (opts, state);
mi[24] = (1 & (dibit >> 1)) + 48; // bit 1
mi[25] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[26] = (1 & (dibit >> 1)) + 48; // bit 1
mi[27] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[28] = (1 & (dibit >> 1)) + 48; // bit 1
mi[29] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
dibit = getDibit (opts, state);
mi[30] = (1 & (dibit >> 1)) + 48; // bit 1
mi[31] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[32] = (1 & (dibit >> 1)) + 48; // bit 1
mi[33] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[34] = (1 & (dibit >> 1)) + 48; // bit 1
mi[35] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
dibit = getDibit (opts, state);
mi[36] = (1 & (dibit >> 1)) + 48; // bit 1
mi[37] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[38] = (1 & (dibit >> 1)) + 48; // bit 1
mi[39] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[40] = (1 & (dibit >> 1)) + 48; // bit 1
mi[41] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
dibit = getDibit (opts, state);
mi[42] = (1 & (dibit >> 1)) + 48; // bit 1
mi[43] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[44] = (1 & (dibit >> 1)) + 48; // bit 1
mi[45] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[46] = (1 & (dibit >> 1)) + 48; // bit 1
mi[47] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
stats = 32;
}
else if (i == 3)
{
dibit = getDibit (opts, state);
mi[48] = (1 & (dibit >> 1)) + 48; // bit 1
mi[49] = (1 & dibit) + 48; // bit 0
status[scount] = getDibit (opts, state) + 48;
scount++;
dibit = getDibit (opts, state);
mi[50] = (1 & (dibit >> 1)) + 48; // bit 1
mi[51] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[52] = (1 & (dibit >> 1)) + 48; // bit 1
mi[53] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
dibit = getDibit (opts, state);
mi[54] = (1 & (dibit >> 1)) + 48; // bit 1
mi[55] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[56] = (1 & (dibit >> 1)) + 48; // bit 1
mi[57] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[58] = (1 & (dibit >> 1)) + 48; // bit 1
mi[59] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
dibit = getDibit (opts, state);
mi[60] = (1 & (dibit >> 1)) + 48; // bit 1
mi[61] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[62] = (1 & (dibit >> 1)) + 48; // bit 1
mi[63] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[64] = (1 & (dibit >> 1)) + 48; // bit 1
mi[65] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
dibit = getDibit (opts, state);
mi[66] = (1 & (dibit >> 1)) + 48; // bit 1
mi[67] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[68] = (1 & (dibit >> 1)) + 48; // bit 1
mi[69] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
mi[70] = (1 & (dibit >> 1)) + 48; // bit 1
mi[71] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
stats = 19;
}
else if (i == 4)
{
dibit = getDibit (opts, state);
algid[0] = (1 & (dibit >> 1)) + 48; // bit 1
algid[1] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
algid[2] = (1 & (dibit >> 1)) + 48; // bit 1
algid[3] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
algid[4] = (1 & (dibit >> 1)) + 48; // bit 1
algid[5] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
dibit = getDibit (opts, state);
algid[6] = (1 & (dibit >> 1)) + 48; // bit 1
algid[7] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
kid[0] = (1 & (dibit >> 1)) + 48; // bit 1
kid[1] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
kid[2] = (1 & (dibit >> 1)) + 48; // bit 1
kid[3] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
dibit = getDibit (opts, state);
kid[4] = (1 & (dibit >> 1)) + 48; // bit 1
kid[5] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
kid[6] = (1 & (dibit >> 1)) + 48; // bit 1
kid[7] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
kid[8] = (1 & (dibit >> 1)) + 48; // bit 1
kid[9] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 1);
status[scount] = getDibit (opts, state) + 48;
scount++;
skipDibit (opts, state, 1);
dibit = getDibit (opts, state);
kid[10] = (1 & (dibit >> 1)) + 48; // bit 1
kid[11] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
kid[12] = (1 & (dibit >> 1)) + 48; // bit 1
kid[13] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
kid[14] = (1 & (dibit >> 1)) + 48; // bit 1
kid[15] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 2);
stats = 6;
}
else if (i == 7)
{
dibit = getDibit (opts, state);
lsd3[0] = (1 & (dibit >> 1)) + 48; // bit 1
lsd3[1] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
lsd3[2] = (1 & (dibit >> 1)) + 48; // bit 1
lsd3[3] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
lsd3[4] = (1 & (dibit >> 1)) + 48; // bit 1
lsd3[5] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
lsd3[6] = (1 & (dibit >> 1)) + 48; // bit 1
lsd3[7] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 4);
dibit = getDibit (opts, state);
lsd4[0] = (1 & (dibit >> 1)) + 48; // bit 1
lsd4[1] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
lsd4[2] = (1 & (dibit >> 1)) + 48; // bit 1
lsd4[3] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
lsd4[4] = (1 & (dibit >> 1)) + 48; // bit 1
lsd4[5] = (1 & dibit) + 48; // bit 0
dibit = getDibit (opts, state);
lsd4[6] = (1 & (dibit >> 1)) + 48; // bit 1
lsd4[7] = (1 & dibit) + 48; // bit 0
skipDibit (opts, state, 4);
stats = 33;
}
}
//trailing status symbol
status[scount] = getDibit (opts, state) + 48;
scount++;
if (opts->errorbars == 1)
{
printf ("\n");
}
if (opts->p25status == 1)
{
printf ("status: %s lsd3: %s lsd4: %s\n", status, lsd3, lsd4);
}
if (opts->p25enc == 1)
{
algidhex = strtol (algid, NULL, 2);
kidhex = strtol (kid, NULL, 2);
printf ("mi: %s algid: $%x kid: $%x\n", mi, algidhex, kidhex);
}
}
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