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[/] [or1k/] [trunk/] [uclinux/] [uClinux-2.0.x/] [drivers/] [net/] [soundmodem/] [sm_hapn4800.c] - Blame information for rev 1765

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Line No. Rev Author Line
1 199 simons
/*****************************************************************************/
2
 
3
/*
4
 *      sm_hapn4800.c  -- soundcard radio modem driver, 4800 baud HAPN modem
5
 *
6
 *      Copyright (C) 1996  Thomas Sailer (sailer@ife.ee.ethz.ch)
7
 *
8
 *      This program is free software; you can redistribute it and/or modify
9
 *      it under the terms of the GNU General Public License as published by
10
 *      the Free Software Foundation; either version 2 of the License, or
11
 *      (at your option) any later version.
12
 *
13
 *      This program is distributed in the hope that it will be useful,
14
 *      but WITHOUT ANY WARRANTY; without even the implied warranty of
15
 *      MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
16
 *      GNU General Public License for more details.
17
 *
18
 *      You should have received a copy of the GNU General Public License
19
 *      along with this program; if not, write to the Free Software
20
 *      Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
21
 *
22
 *  Please note that the GPL allows you to use the driver, NOT the radio.
23
 *  In order to use the radio, you need a license from the communications
24
 *  authority of your country.
25
 *
26
 *
27
 *  This module implements a (hopefully) HAPN (Hamilton Area Packet
28
 *  Network) compatible 4800 baud modem.
29
 *  The HAPN modem uses kind of "duobinary signalling" (not really,
30
 *  duobinary signalling gives ... 0 0 -1 0 1 0 0 ... at the sampling
31
 *  instants, whereas HAPN signalling gives ... 0 0 -1 1 0 0 ..., see
32
 *  Proakis, Digital Communications).
33
 *  The code is untested. It is compatible with itself (i.e. it can decode
34
 *  the packets it sent), but I could not test if it is compatible with
35
 *  any "real" HAPN modem, since noone uses it in my region of the world.
36
 *  Feedback therefore welcome.
37
 */
38
 
39
#include "sm.h"
40
#include "sm_tbl_hapn4800.h"
41
 
42
/* --------------------------------------------------------------------- */
43
 
44
struct demod_state_hapn48 {
45
        unsigned int shreg;
46
        unsigned int bit_pll;
47
        unsigned char last_bit;
48
        unsigned char last_bit2;
49
        unsigned int dcd_shreg;
50
        int dcd_sum0, dcd_sum1, dcd_sum2;
51
        unsigned int dcd_time;
52
        int lvlhi, lvllo;
53
};
54
 
55
struct mod_state_hapn48 {
56
        unsigned int shreg;
57
        unsigned char tx_bit;
58
        unsigned int tx_seq;
59
        const unsigned char *tbl;
60
};
61
 
62
/* --------------------------------------------------------------------- */
63
 
64
static void modulator_hapn4800_10_u8(struct sm_state *sm, unsigned char *buf, unsigned int buflen)
65
{
66
        struct mod_state_hapn48 *st = (struct mod_state_hapn48 *)(&sm->m);
67
 
68
        for (; buflen > 0; buflen--, buf++) {
69
                if (!st->tx_seq++) {
70
                        if (st->shreg <= 1)
71
                                st->shreg = hdlcdrv_getbits(&sm->hdrv) | 0x10000;
72
                        st->tx_bit = ((st->tx_bit << 1) |
73
                                      (st->tx_bit & 1));
74
                        st->tx_bit ^= (!(st->shreg & 1));
75
                        st->shreg >>= 1;
76
                        st->tbl = hapn48_txfilt_10 + (st->tx_bit & 0xf);
77
                }
78
                if (st->tx_seq >= 10)
79
                        st->tx_seq = 0;
80
                *buf = *st->tbl;
81
                st->tbl += 0x10;
82
        }
83
}
84
 
85
/* --------------------------------------------------------------------- */
86
 
87
static void modulator_hapn4800_10_s16(struct sm_state *sm, short *buf, unsigned int buflen)
88
{
89
        struct mod_state_hapn48 *st = (struct mod_state_hapn48 *)(&sm->m);
90
 
91
        for (; buflen > 0; buflen--, buf++) {
92
                if (!st->tx_seq++) {
93
                        if (st->shreg <= 1)
94
                                st->shreg = hdlcdrv_getbits(&sm->hdrv) | 0x10000;
95
                        st->tx_bit = ((st->tx_bit << 1) |
96
                                      (st->tx_bit & 1));
97
                        st->tx_bit ^= (!(st->shreg & 1));
98
                        st->shreg >>= 1;
99
                        st->tbl = hapn48_txfilt_10 + (st->tx_bit & 0xf);
100
                }
101
                if (st->tx_seq >= 10)
102
                        st->tx_seq = 0;
103
                *buf = ((*st->tbl)-0x80)<<8;
104
                st->tbl += 0x10;
105
        }
106
}
107
 
108
/* --------------------------------------------------------------------- */
109
 
110
static void modulator_hapn4800_8_u8(struct sm_state *sm, unsigned char *buf, unsigned int buflen)
111
{
112
        struct mod_state_hapn48 *st = (struct mod_state_hapn48 *)(&sm->m);
113
 
114
        for (; buflen > 0; buflen--, buf++) {
115
                if (!st->tx_seq++) {
116
                        if (st->shreg <= 1)
117
                                st->shreg = hdlcdrv_getbits(&sm->hdrv) | 0x10000;
118
                        st->tx_bit = (st->tx_bit << 1) | (st->tx_bit & 1);
119
                        st->tx_bit ^= !(st->shreg & 1);
120
                        st->shreg >>= 1;
121
                        st->tbl = hapn48_txfilt_8 + (st->tx_bit & 0xf);
122
                }
123
                if (st->tx_seq >= 8)
124
                        st->tx_seq = 0;
125
                *buf = *st->tbl;
126
                st->tbl += 0x10;
127
        }
128
}
129
 
130
/* --------------------------------------------------------------------- */
131
 
132
static void modulator_hapn4800_8_s16(struct sm_state *sm, short *buf, unsigned int buflen)
133
{
134
        struct mod_state_hapn48 *st = (struct mod_state_hapn48 *)(&sm->m);
135
 
136
        for (; buflen > 0; buflen--, buf++) {
137
                if (!st->tx_seq++) {
138
                        if (st->shreg <= 1)
139
                                st->shreg = hdlcdrv_getbits(&sm->hdrv) | 0x10000;
140
                        st->tx_bit = (st->tx_bit << 1) | (st->tx_bit & 1);
141
                        st->tx_bit ^= !(st->shreg & 1);
142
                        st->shreg >>= 1;
143
                        st->tbl = hapn48_txfilt_8 + (st->tx_bit & 0xf);
144
                }
145
                if (st->tx_seq >= 8)
146
                        st->tx_seq = 0;
147
                *buf = ((*st->tbl)-0x80)<<8;
148
                st->tbl += 0x10;
149
        }
150
}
151
 
152
/* --------------------------------------------------------------------- */
153
 
154
static void modulator_hapn4800_pm10_u8(struct sm_state *sm, unsigned char *buf, unsigned int buflen)
155
{
156
        struct mod_state_hapn48 *st = (struct mod_state_hapn48 *)(&sm->m);
157
 
158
        for (; buflen > 0; buflen--, buf++) {
159
                if (!st->tx_seq++) {
160
                        if (st->shreg <= 1)
161
                                st->shreg = hdlcdrv_getbits(&sm->hdrv) | 0x10000;
162
                        st->tx_bit = ((st->tx_bit << 1) |
163
                                      (st->tx_bit & 1));
164
                        st->tx_bit ^= (!(st->shreg & 1));
165
                        st->shreg >>= 1;
166
                        st->tbl = hapn48_txfilt_pm10 + (st->tx_bit & 0xf);
167
                }
168
                if (st->tx_seq >= 10)
169
                        st->tx_seq = 0;
170
                *buf = *st->tbl;
171
                st->tbl += 0x10;
172
        }
173
}
174
 
175
/* --------------------------------------------------------------------- */
176
 
177
static void modulator_hapn4800_pm10_s16(struct sm_state *sm, short *buf, unsigned int buflen)
178
{
179
        struct mod_state_hapn48 *st = (struct mod_state_hapn48 *)(&sm->m);
180
 
181
        for (; buflen > 0; buflen--, buf++) {
182
                if (!st->tx_seq++) {
183
                        if (st->shreg <= 1)
184
                                st->shreg = hdlcdrv_getbits(&sm->hdrv) | 0x10000;
185
                        st->tx_bit = ((st->tx_bit << 1) |
186
                                      (st->tx_bit & 1));
187
                        st->tx_bit ^= (!(st->shreg & 1));
188
                        st->shreg >>= 1;
189
                        st->tbl = hapn48_txfilt_pm10 + (st->tx_bit & 0xf);
190
                }
191
                if (st->tx_seq >= 10)
192
                        st->tx_seq = 0;
193
                *buf = ((*st->tbl)-0x80)<<8;
194
                st->tbl += 0x10;
195
        }
196
}
197
 
198
/* --------------------------------------------------------------------- */
199
 
200
static void modulator_hapn4800_pm8_u8(struct sm_state *sm, unsigned char *buf, unsigned int buflen)
201
{
202
        struct mod_state_hapn48 *st = (struct mod_state_hapn48 *)(&sm->m);
203
 
204
        for (; buflen > 0; buflen--, buf++) {
205
                if (!st->tx_seq++) {
206
                        if (st->shreg <= 1)
207
                                st->shreg = hdlcdrv_getbits(&sm->hdrv) | 0x10000;
208
                        st->tx_bit = (st->tx_bit << 1) | (st->tx_bit & 1);
209
                        st->tx_bit ^= !(st->shreg & 1);
210
                        st->shreg >>= 1;
211
                        st->tbl = hapn48_txfilt_pm8 + (st->tx_bit & 0xf);
212
                }
213
                if (st->tx_seq >= 8)
214
                        st->tx_seq = 0;
215
                *buf = *st->tbl;
216
                st->tbl += 0x10;
217
        }
218
}
219
 
220
/* --------------------------------------------------------------------- */
221
 
222
static void modulator_hapn4800_pm8_s16(struct sm_state *sm, short *buf, unsigned int buflen)
223
{
224
        struct mod_state_hapn48 *st = (struct mod_state_hapn48 *)(&sm->m);
225
 
226
        for (; buflen > 0; buflen--, buf++) {
227
                if (!st->tx_seq++) {
228
                        if (st->shreg <= 1)
229
                                st->shreg = hdlcdrv_getbits(&sm->hdrv) | 0x10000;
230
                        st->tx_bit = (st->tx_bit << 1) | (st->tx_bit & 1);
231
                        st->tx_bit ^= !(st->shreg & 1);
232
                        st->shreg >>= 1;
233
                        st->tbl = hapn48_txfilt_pm8 + (st->tx_bit & 0xf);
234
                }
235
                if (st->tx_seq >= 8)
236
                        st->tx_seq = 0;
237
                *buf = ((*st->tbl)-0x80)<<8;
238
                st->tbl += 0x10;
239
        }
240
}
241
 
242
/* --------------------------------------------------------------------- */
243
 
244
static void demodulator_hapn4800_10_u8(struct sm_state *sm, const unsigned char *buf, unsigned int buflen)
245
{
246
        struct demod_state_hapn48 *st = (struct demod_state_hapn48 *)(&sm->d);
247
        static const int pll_corr[2] = { -0x800, 0x800 };
248
        int curst, cursync;
249
        int inv;
250
 
251
        for (; buflen > 0; buflen--, buf++) {
252
                inv = ((int)(buf[-2])-0x80) << 8;
253
                st->lvlhi = (st->lvlhi * 65309) >> 16; /* decay */
254
                st->lvllo = (st->lvllo * 65309) >> 16; /* decay */
255
                if (inv > st->lvlhi)
256
                        st->lvlhi = inv;
257
                if (inv < st->lvllo)
258
                        st->lvllo = inv;
259
                if (buflen & 1)
260
                        st->dcd_shreg <<= 1;
261
                st->bit_pll += 0x199a;
262
                curst = cursync = 0;
263
                if (inv > st->lvlhi >> 1) {
264
                        curst = 1;
265
                        cursync = (buf[-2] > buf[-1] && buf[-2] > buf[-3] &&
266
                                   buf[-2] > buf[-0] && buf[-2] > buf[-4]);
267
                } else if (inv < st->lvllo >> 1) {
268
                        curst = -1;
269
                        cursync = (buf[-2] < buf[-1] && buf[-2] < buf[-3] &&
270
                                   buf[-2] < buf[-0] && buf[-2] < buf[-4]);
271
                }
272
                if (cursync) {
273
                        st->dcd_shreg |= cursync;
274
                        st->bit_pll += pll_corr[((st->bit_pll - 0x8000u) & 0xffffu) < 0x8ccdu];
275
                        st->dcd_sum0 += 16 * hweight32(st->dcd_shreg & 0x18c6318c) -
276
                                hweight32(st->dcd_shreg & 0xe739ce70);
277
                }
278
                hdlcdrv_channelbit(&sm->hdrv, cursync);
279
                if ((--st->dcd_time) <= 0) {
280
                        hdlcdrv_setdcd(&sm->hdrv, (st->dcd_sum0 +
281
                                                   st->dcd_sum1 +
282
                                                   st->dcd_sum2) < 0);
283
                        st->dcd_sum2 = st->dcd_sum1;
284
                        st->dcd_sum1 = st->dcd_sum0;
285
                        st->dcd_sum0 = 2; /* slight bias */
286
                        st->dcd_time = 240;
287
                }
288
                if (st->bit_pll >= 0x10000) {
289
                        st->bit_pll &= 0xffff;
290
                        st->last_bit2 = st->last_bit;
291
                        if (curst < 0)
292
                                st->last_bit = 0;
293
                        else if (curst > 0)
294
                                st->last_bit = 1;
295
                        st->shreg >>= 1;
296
                        st->shreg |= ((st->last_bit ^ st->last_bit2 ^ 1) & 1) << 16;
297
                        if (st->shreg & 1) {
298
                                hdlcdrv_putbits(&sm->hdrv, st->shreg >> 1);
299
                                st->shreg = 0x10000;
300
                        }
301
                        diag_trigger(sm);
302
                }
303
                diag_add_one(sm, inv);
304
        }
305
}
306
 
307
/* --------------------------------------------------------------------- */
308
 
309
static void demodulator_hapn4800_10_s16(struct sm_state *sm, const short *buf, unsigned int buflen)
310
{
311
        struct demod_state_hapn48 *st = (struct demod_state_hapn48 *)(&sm->d);
312
        static const int pll_corr[2] = { -0x800, 0x800 };
313
        int curst, cursync;
314
        int inv;
315
 
316
        for (; buflen > 0; buflen--, buf++) {
317
                inv = buf[-2];
318
                st->lvlhi = (st->lvlhi * 65309) >> 16; /* decay */
319
                st->lvllo = (st->lvllo * 65309) >> 16; /* decay */
320
                if (inv > st->lvlhi)
321
                        st->lvlhi = inv;
322
                if (inv < st->lvllo)
323
                        st->lvllo = inv;
324
                if (buflen & 1)
325
                        st->dcd_shreg <<= 1;
326
                st->bit_pll += 0x199a;
327
                curst = cursync = 0;
328
                if (inv > st->lvlhi >> 1) {
329
                        curst = 1;
330
                        cursync = (buf[-2] > buf[-1] && buf[-2] > buf[-3] &&
331
                                   buf[-2] > buf[-0] && buf[-2] > buf[-4]);
332
                } else if (inv < st->lvllo >> 1) {
333
                        curst = -1;
334
                        cursync = (buf[-2] < buf[-1] && buf[-2] < buf[-3] &&
335
                                   buf[-2] < buf[-0] && buf[-2] < buf[-4]);
336
                }
337
                if (cursync) {
338
                        st->dcd_shreg |= cursync;
339
                        st->bit_pll += pll_corr[((st->bit_pll - 0x8000u) & 0xffffu) < 0x8ccdu];
340
                        st->dcd_sum0 += 16 * hweight32(st->dcd_shreg & 0x18c6318c) -
341
                                hweight32(st->dcd_shreg & 0xe739ce70);
342
                }
343
                hdlcdrv_channelbit(&sm->hdrv, cursync);
344
                if ((--st->dcd_time) <= 0) {
345
                        hdlcdrv_setdcd(&sm->hdrv, (st->dcd_sum0 +
346
                                                   st->dcd_sum1 +
347
                                                   st->dcd_sum2) < 0);
348
                        st->dcd_sum2 = st->dcd_sum1;
349
                        st->dcd_sum1 = st->dcd_sum0;
350
                        st->dcd_sum0 = 2; /* slight bias */
351
                        st->dcd_time = 240;
352
                }
353
                if (st->bit_pll >= 0x10000) {
354
                        st->bit_pll &= 0xffff;
355
                        st->last_bit2 = st->last_bit;
356
                        if (curst < 0)
357
                                st->last_bit = 0;
358
                        else if (curst > 0)
359
                                st->last_bit = 1;
360
                        st->shreg >>= 1;
361
                        st->shreg |= ((st->last_bit ^ st->last_bit2 ^ 1) & 1) << 16;
362
                        if (st->shreg & 1) {
363
                                hdlcdrv_putbits(&sm->hdrv, st->shreg >> 1);
364
                                st->shreg = 0x10000;
365
                        }
366
                        diag_trigger(sm);
367
                }
368
                diag_add_one(sm, inv);
369
        }
370
}
371
 
372
/* --------------------------------------------------------------------- */
373
 
374
static void demodulator_hapn4800_8_u8(struct sm_state *sm, const unsigned char *buf, unsigned int buflen)
375
{
376
        struct demod_state_hapn48 *st = (struct demod_state_hapn48 *)(&sm->d);
377
        static const int pll_corr[2] = { -0x800, 0x800 };
378
        int curst, cursync;
379
        int inv;
380
 
381
        for (; buflen > 0; buflen--, buf++) {
382
                inv = ((int)(buf[-2])-0x80) << 8;
383
                st->lvlhi = (st->lvlhi * 65309) >> 16; /* decay */
384
                st->lvllo = (st->lvllo * 65309) >> 16; /* decay */
385
                if (inv > st->lvlhi)
386
                        st->lvlhi = inv;
387
                if (inv < st->lvllo)
388
                        st->lvllo = inv;
389
                if (buflen & 1)
390
                        st->dcd_shreg <<= 1;
391
                st->bit_pll += 0x2000;
392
                curst = cursync = 0;
393
                if (inv > st->lvlhi >> 1) {
394
                        curst = 1;
395
                        cursync = (buf[-2] > buf[-1] && buf[-2] > buf[-3] &&
396
                                   buf[-2] > buf[-0] && buf[-2] > buf[-4]);
397
                } else if (inv < st->lvllo >> 1) {
398
                        curst = -1;
399
                        cursync = (buf[-2] < buf[-1] && buf[-2] < buf[-3] &&
400
                                   buf[-2] < buf[-0] && buf[-2] < buf[-4]);
401
                }
402
                if (cursync) {
403
                        st->dcd_shreg |= cursync;
404
                        st->bit_pll += pll_corr[((st->bit_pll - 0x8000u) & 0xffffu) < 0x9000u];
405
                        st->dcd_sum0 += 16 * hweight32(st->dcd_shreg & 0x44444444) -
406
                                hweight32(st->dcd_shreg & 0xbbbbbbbb);
407
                }
408
                hdlcdrv_channelbit(&sm->hdrv, cursync);
409
                if ((--st->dcd_time) <= 0) {
410
                        hdlcdrv_setdcd(&sm->hdrv, (st->dcd_sum0 +
411
                                                   st->dcd_sum1 +
412
                                                   st->dcd_sum2) < 0);
413
                        st->dcd_sum2 = st->dcd_sum1;
414
                        st->dcd_sum1 = st->dcd_sum0;
415
                        st->dcd_sum0 = 2; /* slight bias */
416
                        st->dcd_time = 240;
417
                }
418
                if (st->bit_pll >= 0x10000) {
419
                        st->bit_pll &= 0xffff;
420
                        st->last_bit2 = st->last_bit;
421
                        if (curst < 0)
422
                                st->last_bit = 0;
423
                        else if (curst > 0)
424
                                st->last_bit = 1;
425
                        st->shreg >>= 1;
426
                        st->shreg |= ((st->last_bit ^ st->last_bit2 ^ 1) & 1) << 16;
427
                        if (st->shreg & 1) {
428
                                hdlcdrv_putbits(&sm->hdrv, st->shreg >> 1);
429
                                st->shreg = 0x10000;
430
                        }
431
                        diag_trigger(sm);
432
                }
433
                diag_add_one(sm, inv);
434
        }
435
}
436
 
437
/* --------------------------------------------------------------------- */
438
 
439
static void demodulator_hapn4800_8_s16(struct sm_state *sm, const short *buf, unsigned int buflen)
440
{
441
        struct demod_state_hapn48 *st = (struct demod_state_hapn48 *)(&sm->d);
442
        static const int pll_corr[2] = { -0x800, 0x800 };
443
        int curst, cursync;
444
        int inv;
445
 
446
        for (; buflen > 0; buflen--, buf++) {
447
                inv = buf[-2];
448
                st->lvlhi = (st->lvlhi * 65309) >> 16; /* decay */
449
                st->lvllo = (st->lvllo * 65309) >> 16; /* decay */
450
                if (inv > st->lvlhi)
451
                        st->lvlhi = inv;
452
                if (inv < st->lvllo)
453
                        st->lvllo = inv;
454
                if (buflen & 1)
455
                        st->dcd_shreg <<= 1;
456
                st->bit_pll += 0x2000;
457
                curst = cursync = 0;
458
                if (inv > st->lvlhi >> 1) {
459
                        curst = 1;
460
                        cursync = (buf[-2] > buf[-1] && buf[-2] > buf[-3] &&
461
                                   buf[-2] > buf[-0] && buf[-2] > buf[-4]);
462
                } else if (inv < st->lvllo >> 1) {
463
                        curst = -1;
464
                        cursync = (buf[-2] < buf[-1] && buf[-2] < buf[-3] &&
465
                                   buf[-2] < buf[-0] && buf[-2] < buf[-4]);
466
                }
467
                if (cursync) {
468
                        st->dcd_shreg |= cursync;
469
                        st->bit_pll += pll_corr[((st->bit_pll - 0x8000u) & 0xffffu) < 0x9000u];
470
                        st->dcd_sum0 += 16 * hweight32(st->dcd_shreg & 0x44444444) -
471
                                hweight32(st->dcd_shreg & 0xbbbbbbbb);
472
                }
473
                hdlcdrv_channelbit(&sm->hdrv, cursync);
474
                if ((--st->dcd_time) <= 0) {
475
                        hdlcdrv_setdcd(&sm->hdrv, (st->dcd_sum0 +
476
                                                   st->dcd_sum1 +
477
                                                   st->dcd_sum2) < 0);
478
                        st->dcd_sum2 = st->dcd_sum1;
479
                        st->dcd_sum1 = st->dcd_sum0;
480
                        st->dcd_sum0 = 2; /* slight bias */
481
                        st->dcd_time = 240;
482
                }
483
                if (st->bit_pll >= 0x10000) {
484
                        st->bit_pll &= 0xffff;
485
                        st->last_bit2 = st->last_bit;
486
                        if (curst < 0)
487
                                st->last_bit = 0;
488
                        else if (curst > 0)
489
                                st->last_bit = 1;
490
                        st->shreg >>= 1;
491
                        st->shreg |= ((st->last_bit ^ st->last_bit2 ^ 1) & 1) << 16;
492
                        if (st->shreg & 1) {
493
                                hdlcdrv_putbits(&sm->hdrv, st->shreg >> 1);
494
                                st->shreg = 0x10000;
495
                        }
496
                        diag_trigger(sm);
497
                }
498
                diag_add_one(sm, inv);
499
        }
500
}
501
 
502
/* --------------------------------------------------------------------- */
503
 
504
static void demod_init_hapn4800(struct sm_state *sm)
505
{
506
        struct demod_state_hapn48 *st = (struct demod_state_hapn48 *)(&sm->d);
507
 
508
        st->dcd_time = 120;
509
        st->dcd_sum0 = 2;
510
}
511
 
512
/* --------------------------------------------------------------------- */
513
 
514
const struct modem_tx_info sm_hapn4800_8_tx = {
515
        "hapn4800", sizeof(struct mod_state_hapn48), 38400, 4800,
516
        modulator_hapn4800_8_u8, modulator_hapn4800_8_s16, NULL
517
};
518
 
519
const struct modem_rx_info sm_hapn4800_8_rx = {
520
        "hapn4800", sizeof(struct demod_state_hapn48), 38400, 4800, 5, 8,
521
        demodulator_hapn4800_8_u8, demodulator_hapn4800_8_s16, demod_init_hapn4800
522
};
523
 
524
/* --------------------------------------------------------------------- */
525
 
526
const struct modem_tx_info sm_hapn4800_10_tx = {
527
        "hapn4800", sizeof(struct mod_state_hapn48), 48000, 4800,
528
        modulator_hapn4800_10_u8, modulator_hapn4800_10_s16, NULL
529
};
530
 
531
const struct modem_rx_info sm_hapn4800_10_rx = {
532
        "hapn4800", sizeof(struct demod_state_hapn48), 48000, 4800, 5, 10,
533
        demodulator_hapn4800_10_u8, demodulator_hapn4800_10_s16, demod_init_hapn4800
534
};
535
 
536
/* --------------------------------------------------------------------- */
537
 
538
const struct modem_tx_info sm_hapn4800_pm8_tx = {
539
        "hapn4800pm", sizeof(struct mod_state_hapn48), 38400, 4800,
540
        modulator_hapn4800_pm8_u8, modulator_hapn4800_pm8_s16, NULL
541
};
542
 
543
const struct modem_rx_info sm_hapn4800_pm8_rx = {
544
        "hapn4800pm", sizeof(struct demod_state_hapn48), 38400, 4800, 5, 8,
545
        demodulator_hapn4800_8_u8, demodulator_hapn4800_8_s16, demod_init_hapn4800
546
};
547
 
548
/* --------------------------------------------------------------------- */
549
 
550
const struct modem_tx_info sm_hapn4800_pm10_tx = {
551
        "hapn4800pm", sizeof(struct mod_state_hapn48), 48000, 4800,
552
        modulator_hapn4800_pm10_u8, modulator_hapn4800_pm10_s16, NULL
553
};
554
 
555
const struct modem_rx_info sm_hapn4800_pm10_rx = {
556
        "hapn4800pm", sizeof(struct demod_state_hapn48), 48000, 4800, 5, 10,
557
        demodulator_hapn4800_10_u8, demodulator_hapn4800_10_s16, demod_init_hapn4800
558
};
559
 
560
/* --------------------------------------------------------------------- */

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