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GUI: Fix Tomato RAF theme for all builds. Compilation typo.
[tomato.git] / release / src-rt-6.x.4708 / linux / linux-2.6.36 / drivers / media / dvb / frontends / drx397xD.c
blob5b96f1b91dfc05e2b2b2087d1d427f4e21e7aa72
1 /*
2 * Driver for Micronas drx397xD demodulator
3 *
4 * Copyright (C) 2007 Henk Vergonet <Henk.Vergonet@gmail.com>
5 *
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
10 *
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
15 *
16 * You should have received a copy of the GNU General Public License
17 * along with this program; If not, see <http://www.gnu.org/licenses/>.
18 */
19
20 #define DEBUG /* uncomment if you want debugging output */
21 #include <linux/kernel.h>
22 #include <linux/module.h>
23 #include <linux/moduleparam.h>
24 #include <linux/init.h>
25 #include <linux/device.h>
26 #include <linux/delay.h>
27 #include <linux/string.h>
28 #include <linux/firmware.h>
29 #include <linux/slab.h>
30 #include <asm/div64.h>
31
32 #include "dvb_frontend.h"
33 #include "drx397xD.h"
34
35 static const char mod_name[] = "drx397xD";
36
37 #define MAX_CLOCK_DRIFT 200 /* maximal 200 PPM allowed */
38
39 #define F_SET_0D0h 1
40 #define F_SET_0D4h 2
41
42 enum fw_ix {
43 #define _FW_ENTRY(a, b, c) b
44 #include "drx397xD_fw.h"
45 };
46
47 /* chip specifics */
48 struct drx397xD_state {
49 struct i2c_adapter *i2c;
50 struct dvb_frontend frontend;
51 struct drx397xD_config config;
52 enum fw_ix chip_rev;
53 int flags;
54 u32 bandwidth_parm; /* internal bandwidth conversions */
55 u32 f_osc; /* w90: actual osc frequency [Hz] */
56 };
57
58 /* Firmware */
59 static const char *blob_name[] = {
60 #define _BLOB_ENTRY(a, b) a
61 #include "drx397xD_fw.h"
62 };
63
64 enum blob_ix {
65 #define _BLOB_ENTRY(a, b) b
66 #include "drx397xD_fw.h"
67 };
68
69 static struct {
70 const char *name;
71 const struct firmware *file;
72 rwlock_t lock;
73 int refcnt;
74 const u8 *data[ARRAY_SIZE(blob_name)];
75 } fw[] = {
76 #define _FW_ENTRY(a, b, c) { \
77 .name = a, \
78 .file = NULL, \
79 .lock = __RW_LOCK_UNLOCKED(fw[c].lock), \
80 .refcnt = 0, \
81 .data = { } }
82 #include "drx397xD_fw.h"
83 };
84
85 /* use only with writer lock acquired */
86 static void _drx_release_fw(struct drx397xD_state *s, enum fw_ix ix)
87 {
88 memset(&fw[ix].data[0], 0, sizeof(fw[0].data));
89 if (fw[ix].file)
90 release_firmware(fw[ix].file);
91 }
92
93 static void drx_release_fw(struct drx397xD_state *s)
94 {
95 enum fw_ix ix = s->chip_rev;
96
97 pr_debug("%s\n", __func__);
98
99 write_lock(&fw[ix].lock);
100 if (fw[ix].refcnt) {
101 fw[ix].refcnt--;
102 if (fw[ix].refcnt == 0)
103 _drx_release_fw(s, ix);
104 }
105 write_unlock(&fw[ix].lock);
106 }
107
108 static int drx_load_fw(struct drx397xD_state *s, enum fw_ix ix)
109 {
110 const u8 *data;
111 size_t size, len;
112 int i = 0, j, rc = -EINVAL;
113
114 pr_debug("%s\n", __func__);
115
116 if (ix < 0 || ix >= ARRAY_SIZE(fw))
117 return -EINVAL;
118 s->chip_rev = ix;
119
120 write_lock(&fw[ix].lock);
121 if (fw[ix].file) {
122 rc = 0;
123 goto exit_ok;
124 }
125 memset(&fw[ix].data[0], 0, sizeof(fw[0].data));
126
127 rc = request_firmware(&fw[ix].file, fw[ix].name, s->i2c->dev.parent);
128 if (rc != 0) {
129 printk(KERN_ERR "%s: Firmware \"%s\" not available\n",
130 mod_name, fw[ix].name);
131 goto exit_err;
132 }
133
134 if (!fw[ix].file->data || fw[ix].file->size < 10)
135 goto exit_corrupt;
136
137 data = fw[ix].file->data;
138 size = fw[ix].file->size;
139
140 if (data[i++] != 2) /* check firmware version */
141 goto exit_corrupt;
142
143 do {
144 switch (data[i++]) {
145 case 0x00: /* bytecode */
146 if (i >= size)
147 break;
148 i += data[i];
149 case 0x01: /* reset */
150 case 0x02: /* sleep */
151 i++;
152 break;
153 case 0xfe: /* name */
154 len = strnlen(&data[i], size - i);
155 if (i + len + 1 >= size)
156 goto exit_corrupt;
157 if (data[i + len + 1] != 0)
158 goto exit_corrupt;
159 for (j = 0; j < ARRAY_SIZE(blob_name); j++) {
160 if (strcmp(blob_name[j], &data[i]) == 0) {
161 fw[ix].data[j] = &data[i + len + 1];
162 pr_debug("Loading %s\n", blob_name[j]);
163 }
164 }
165 i += len + 1;
166 break;
167 case 0xff: /* file terminator */
168 if (i == size) {
169 rc = 0;
170 goto exit_ok;
171 }
172 default:
173 goto exit_corrupt;
174 }
175 } while (i < size);
176
177 exit_corrupt:
178 printk(KERN_ERR "%s: Firmware is corrupt\n", mod_name);
179 exit_err:
180 _drx_release_fw(s, ix);
181 fw[ix].refcnt--;
182 exit_ok:
183 fw[ix].refcnt++;
184 write_unlock(&fw[ix].lock);
185
186 return rc;
187 }
188
189 /* i2c bus IO */
190 static int write_fw(struct drx397xD_state *s, enum blob_ix ix)
191 {
192 const u8 *data;
193 int len, rc = 0, i = 0;
194 struct i2c_msg msg = {
195 .addr = s->config.demod_address,
196 .flags = 0
197 };
198
199 if (ix < 0 || ix >= ARRAY_SIZE(blob_name)) {
200 pr_debug("%s drx_fw_ix_t out of range\n", __func__);
201 return -EINVAL;
202 }
203 pr_debug("%s %s\n", __func__, blob_name[ix]);
204
205 read_lock(&fw[s->chip_rev].lock);
206 data = fw[s->chip_rev].data[ix];
207 if (!data) {
208 rc = -EINVAL;
209 goto exit_rc;
210 }
211
212 for (;;) {
213 switch (data[i++]) {
214 case 0: /* bytecode */
215 len = data[i++];
216 msg.len = len;
217 msg.buf = (__u8 *) &data[i];
218 if (i2c_transfer(s->i2c, &msg, 1) != 1) {
219 rc = -EIO;
220 goto exit_rc;
221 }
222 i += len;
223 break;
224 case 1: /* reset */
225 case 2: /* sleep */
226 i++;
227 break;
228 default:
229 goto exit_rc;
230 }
231 }
232 exit_rc:
233 read_unlock(&fw[s->chip_rev].lock);
234
235 return 0;
236 }
237
238 /* Function is not endian safe, use the RD16 wrapper below */
239 static int _read16(struct drx397xD_state *s, __le32 i2c_adr)
240 {
241 int rc;
242 u8 a[4];
243 __le16 v;
244 struct i2c_msg msg[2] = {
245 {
246 .addr = s->config.demod_address,
247 .flags = 0,
248 .buf = a,
249 .len = sizeof(a)
250 }, {
251 .addr = s->config.demod_address,
252 .flags = I2C_M_RD,
253 .buf = (u8 *)&v,
254 .len = sizeof(v)
255 }
256 };
257
258 *(__le32 *) a = i2c_adr;
259
260 rc = i2c_transfer(s->i2c, msg, 2);
261 if (rc != 2)
262 return -EIO;
263
264 return le16_to_cpu(v);
265 }
266
267 /* Function is not endian safe, use the WR16.. wrappers below */
268 static int _write16(struct drx397xD_state *s, __le32 i2c_adr, __le16 val)
269 {
270 u8 a[6];
271 int rc;
272 struct i2c_msg msg = {
273 .addr = s->config.demod_address,
274 .flags = 0,
275 .buf = a,
276 .len = sizeof(a)
277 };
278
279 *(__le32 *)a = i2c_adr;
280 *(__le16 *)&a[4] = val;
281
282 rc = i2c_transfer(s->i2c, &msg, 1);
283 if (rc != 1)
284 return -EIO;
285
286 return 0;
287 }
288
289 #define WR16(ss, adr, val) \
290 _write16(ss, I2C_ADR_C0(adr), cpu_to_le16(val))
291 #define WR16_E0(ss, adr, val) \
292 _write16(ss, I2C_ADR_E0(adr), cpu_to_le16(val))
293 #define RD16(ss, adr) \
294 _read16(ss, I2C_ADR_C0(adr))
295
296 #define EXIT_RC(cmd) \
297 if ((rc = (cmd)) < 0) \
298 goto exit_rc
299
300 /* Tuner callback */
301 static int PLL_Set(struct drx397xD_state *s,
302 struct dvb_frontend_parameters *fep, int *df_tuner)
303 {
304 struct dvb_frontend *fe = &s->frontend;
305 u32 f_tuner, f = fep->frequency;
306 int rc;
307
308 pr_debug("%s\n", __func__);
309
310 if ((f > s->frontend.ops.tuner_ops.info.frequency_max) ||
311 (f < s->frontend.ops.tuner_ops.info.frequency_min))
312 return -EINVAL;
313
314 *df_tuner = 0;
315 if (!s->frontend.ops.tuner_ops.set_params ||
316 !s->frontend.ops.tuner_ops.get_frequency)
317 return -ENOSYS;
318
319 rc = s->frontend.ops.tuner_ops.set_params(fe, fep);
320 if (rc < 0)
321 return rc;
322
323 rc = s->frontend.ops.tuner_ops.get_frequency(fe, &f_tuner);
324 if (rc < 0)
325 return rc;
326
327 *df_tuner = f_tuner - f;
328 pr_debug("%s requested %d [Hz] tuner %d [Hz]\n", __func__, f,
329 f_tuner);
330
331 return 0;
332 }
333
334 /* Demodulator helper functions */
335 static int SC_WaitForReady(struct drx397xD_state *s)
336 {
337 int cnt = 1000;
338 int rc;
339
340 pr_debug("%s\n", __func__);
341
342 while (cnt--) {
343 rc = RD16(s, 0x820043);
344 if (rc == 0)
345 return 0;
346 }
347
348 return -1;
349 }
350
351 static int SC_SendCommand(struct drx397xD_state *s, int cmd)
352 {
353 int rc;
354
355 pr_debug("%s\n", __func__);
356
357 WR16(s, 0x820043, cmd);
358 SC_WaitForReady(s);
359 rc = RD16(s, 0x820042);
360 if ((rc & 0xffff) == 0xffff)
361 return -1;
362
363 return 0;
364 }
365
366 static int HI_Command(struct drx397xD_state *s, u16 cmd)
367 {
368 int rc, cnt = 1000;
369
370 pr_debug("%s\n", __func__);
371
372 rc = WR16(s, 0x420032, cmd);
373 if (rc < 0)
374 return rc;
375
376 do {
377 rc = RD16(s, 0x420032);
378 if (rc == 0) {
379 rc = RD16(s, 0x420031);
380 return rc;
381 }
382 if (rc < 0)
383 return rc;
384 } while (--cnt);
385
386 return rc;
387 }
388
389 static int HI_CfgCommand(struct drx397xD_state *s)
390 {
391
392 pr_debug("%s\n", __func__);
393
394 WR16(s, 0x420033, 0x3973);
395 WR16(s, 0x420034, s->config.w50); /* code 4, log 4 */
396 WR16(s, 0x420035, s->config.w52); /* code 15, log 9 */
397 WR16(s, 0x420036, s->config.demod_address << 1);
398 WR16(s, 0x420037, s->config.w56); /* code (set_i2c ?? initX 1 ), log 1 */
399 /* WR16(s, 0x420033, 0x3973); */
400 if ((s->config.w56 & 8) == 0)
401 return HI_Command(s, 3);
402
403 return WR16(s, 0x420032, 0x3);
404 }
405
406 static const u8 fastIncrDecLUT_15273[] = {
407 0x0e, 0x0f, 0x0f, 0x10, 0x11, 0x12, 0x12, 0x13, 0x14,
408 0x15, 0x16, 0x17, 0x18, 0x1a, 0x1b, 0x1c, 0x1d, 0x1f
409 };
410
411 static const u8 slowIncrDecLUT_15272[] = {
412 3, 4, 4, 5, 6
413 };
414
415 static int SetCfgIfAgc(struct drx397xD_state *s, struct drx397xD_CfgIfAgc *agc)
416 {
417 u16 w06 = agc->w06;
418 u16 w08 = agc->w08;
419 u16 w0A = agc->w0A;
420 u16 w0C = agc->w0C;
421 int quot, rem, i, rc = -EINVAL;
422
423 pr_debug("%s\n", __func__);
424
425 if (agc->w04 > 0x3ff)
426 goto exit_rc;
427
428 if (agc->d00 == 1) {
429 EXIT_RC(RD16(s, 0x0c20010));
430 rc &= ~0x10;
431 EXIT_RC(WR16(s, 0x0c20010, rc));
432 return WR16(s, 0x0c20030, agc->w04 & 0x7ff);
433 }
434
435 if (agc->d00 != 0)
436 goto exit_rc;
437 if (w0A < w08)
438 goto exit_rc;
439 if (w0A > 0x3ff)
440 goto exit_rc;
441 if (w0C > 0x3ff)
442 goto exit_rc;
443 if (w06 > 0x3ff)
444 goto exit_rc;
445
446 EXIT_RC(RD16(s, 0x0c20010));
447 rc |= 0x10;
448 EXIT_RC(WR16(s, 0x0c20010, rc));
449
450 EXIT_RC(WR16(s, 0x0c20025, (w06 >> 1) & 0x1ff));
451 EXIT_RC(WR16(s, 0x0c20031, (w0A - w08) >> 1));
452 EXIT_RC(WR16(s, 0x0c20032, ((w0A + w08) >> 1) - 0x1ff));
453
454 quot = w0C / 113;
455 rem = w0C % 113;
456 if (quot <= 8) {
457 quot = 8 - quot;
458 } else {
459 quot = 0;
460 rem += 113;
461 }
462
463 EXIT_RC(WR16(s, 0x0c20024, quot));
464
465 i = fastIncrDecLUT_15273[rem / 8];
466 EXIT_RC(WR16(s, 0x0c2002d, i));
467 EXIT_RC(WR16(s, 0x0c2002e, i));
468
469 i = slowIncrDecLUT_15272[rem / 28];
470 EXIT_RC(WR16(s, 0x0c2002b, i));
471 rc = WR16(s, 0x0c2002c, i);
472 exit_rc:
473 return rc;
474 }
475
476 static int SetCfgRfAgc(struct drx397xD_state *s, struct drx397xD_CfgRfAgc *agc)
477 {
478 u16 w04 = agc->w04;
479 u16 w06 = agc->w06;
480 int rc = -1;
481
482 pr_debug("%s %d 0x%x 0x%x\n", __func__, agc->d00, w04, w06);
483
484 if (w04 > 0x3ff)
485 goto exit_rc;
486
487 switch (agc->d00) {
488 case 1:
489 if (w04 == 0x3ff)
490 w04 = 0x400;
491
492 EXIT_RC(WR16(s, 0x0c20036, w04));
493 s->config.w9C &= ~2;
494 EXIT_RC(WR16(s, 0x0c20015, s->config.w9C));
495 EXIT_RC(RD16(s, 0x0c20010));
496 rc &= 0xbfdf;
497 EXIT_RC(WR16(s, 0x0c20010, rc));
498 EXIT_RC(RD16(s, 0x0c20013));
499 rc &= ~2;
500 break;
501 case 0:
502 /* loc_8000659 */
503 s->config.w9C &= ~2;
504 EXIT_RC(WR16(s, 0x0c20015, s->config.w9C));
505 EXIT_RC(RD16(s, 0x0c20010));
506 rc &= 0xbfdf;
507 rc |= 0x4000;
508 EXIT_RC(WR16(s, 0x0c20010, rc));
509 EXIT_RC(WR16(s, 0x0c20051, (w06 >> 4) & 0x3f));
510 EXIT_RC(RD16(s, 0x0c20013));
511 rc &= ~2;
512 break;
513 default:
514 s->config.w9C |= 2;
515 EXIT_RC(WR16(s, 0x0c20015, s->config.w9C));
516 EXIT_RC(RD16(s, 0x0c20010));
517 rc &= 0xbfdf;
518 EXIT_RC(WR16(s, 0x0c20010, rc));
519
520 EXIT_RC(WR16(s, 0x0c20036, 0));
521
522 EXIT_RC(RD16(s, 0x0c20013));
523 rc |= 2;
524 }
525 rc = WR16(s, 0x0c20013, rc);
526
527 exit_rc:
528 return rc;
529 }
530
531 static int GetLockStatus(struct drx397xD_state *s, int *lockstat)
532 {
533 int rc;
534
535 *lockstat = 0;
536
537 rc = RD16(s, 0x082004b);
538 if (rc < 0)
539 return rc;
540
541 if (s->config.d60 != 2)
542 return 0;
543
544 if ((rc & 7) == 7)
545 *lockstat |= 1;
546 if ((rc & 3) == 3)
547 *lockstat |= 2;
548 if (rc & 1)
549 *lockstat |= 4;
550 return 0;
551 }
552
553 static int CorrectSysClockDeviation(struct drx397xD_state *s)
554 {
555 int rc = -EINVAL;
556 int lockstat;
557 u32 clk, clk_limit;
558
559 pr_debug("%s\n", __func__);
560
561 if (s->config.d5C == 0) {
562 EXIT_RC(WR16(s, 0x08200e8, 0x010));
563 EXIT_RC(WR16(s, 0x08200e9, 0x113));
564 s->config.d5C = 1;
565 return rc;
566 }
567 if (s->config.d5C != 1)
568 goto exit_rc;
569
570 rc = RD16(s, 0x0820048);
571
572 rc = GetLockStatus(s, &lockstat);
573 if (rc < 0)
574 goto exit_rc;
575 if ((lockstat & 1) == 0)
576 goto exit_rc;
577
578 EXIT_RC(WR16(s, 0x0420033, 0x200));
579 EXIT_RC(WR16(s, 0x0420034, 0xc5));
580 EXIT_RC(WR16(s, 0x0420035, 0x10));
581 EXIT_RC(WR16(s, 0x0420036, 0x1));
582 EXIT_RC(WR16(s, 0x0420037, 0xa));
583 EXIT_RC(HI_Command(s, 6));
584 EXIT_RC(RD16(s, 0x0420040));
585 clk = rc;
586 EXIT_RC(RD16(s, 0x0420041));
587 clk |= rc << 16;
588
589 if (clk <= 0x26ffff)
590 goto exit_rc;
591 if (clk > 0x610000)
592 goto exit_rc;
593
594 if (!s->bandwidth_parm)
595 return -EINVAL;
596
597 /* round & convert to Hz */
598 clk = ((u64) (clk + 0x800000) * s->bandwidth_parm + (1 << 20)) >> 21;
599 clk_limit = s->config.f_osc * MAX_CLOCK_DRIFT / 1000;
600
601 if (clk - s->config.f_osc * 1000 + clk_limit <= 2 * clk_limit) {
602 s->f_osc = clk;
603 pr_debug("%s: osc %d %d [Hz]\n", __func__,
604 s->config.f_osc * 1000, clk - s->config.f_osc * 1000);
605 }
606 rc = WR16(s, 0x08200e8, 0);
607
608 exit_rc:
609 return rc;
610 }
611
612 static int ConfigureMPEGOutput(struct drx397xD_state *s, int type)
613 {
614 int rc, si, bp;
615
616 pr_debug("%s\n", __func__);
617
618 si = s->config.wA0;
619 if (s->config.w98 == 0) {
620 si |= 1;
621 bp = 0;
622 } else {
623 si &= ~1;
624 bp = 0x200;
625 }
626 if (s->config.w9A == 0)
627 si |= 0x80;
628 else
629 si &= ~0x80;
630
631 EXIT_RC(WR16(s, 0x2150045, 0));
632 EXIT_RC(WR16(s, 0x2150010, si));
633 EXIT_RC(WR16(s, 0x2150011, bp));
634 rc = WR16(s, 0x2150012, (type == 0 ? 0xfff : 0));
635
636 exit_rc:
637 return rc;
638 }
639
640 static int drx_tune(struct drx397xD_state *s,
641 struct dvb_frontend_parameters *fep)
642 {
643 u16 v22 = 0;
644 u16 v1C = 0;
645 u16 v1A = 0;
646 u16 v18 = 0;
647 u32 edi = 0, ebx = 0, ebp = 0, edx = 0;
648 u16 v20 = 0, v1E = 0, v16 = 0, v14 = 0, v12 = 0, v10 = 0, v0E = 0;
649
650 int rc, df_tuner = 0;
651 int a, b, c, d;
652 pr_debug("%s %d\n", __func__, s->config.d60);
653
654 if (s->config.d60 != 2)
655 goto set_tuner;
656 rc = CorrectSysClockDeviation(s);
657 if (rc < 0)
658 goto set_tuner;
659
660 s->config.d60 = 1;
661 rc = ConfigureMPEGOutput(s, 0);
662 if (rc < 0)
663 goto set_tuner;
664 set_tuner:
665
666 rc = PLL_Set(s, fep, &df_tuner);
667 if (rc < 0) {
668 printk(KERN_ERR "Error in pll_set\n");
669 goto exit_rc;
670 }
671 msleep(200);
672
673 a = rc = RD16(s, 0x2150016);
674 if (rc < 0)
675 goto exit_rc;
676 b = rc = RD16(s, 0x2150010);
677 if (rc < 0)
678 goto exit_rc;
679 c = rc = RD16(s, 0x2150034);
680 if (rc < 0)
681 goto exit_rc;
682 d = rc = RD16(s, 0x2150035);
683 if (rc < 0)
684 goto exit_rc;
685 rc = WR16(s, 0x2150014, c);
686 rc = WR16(s, 0x2150015, d);
687 rc = WR16(s, 0x2150010, 0);
688 rc = WR16(s, 0x2150000, 2);
689 rc = WR16(s, 0x2150036, 0x0fff);
690 rc = WR16(s, 0x2150016, a);
691
692 rc = WR16(s, 0x2150010, 2);
693 rc = WR16(s, 0x2150007, 0);
694 rc = WR16(s, 0x2150000, 1);
695 rc = WR16(s, 0x2110000, 0);
696 rc = WR16(s, 0x0800000, 0);
697 rc = WR16(s, 0x2800000, 0);
698 rc = WR16(s, 0x2110010, 0x664);
699
700 rc = write_fw(s, DRXD_ResetECRAM);
701 rc = WR16(s, 0x2110000, 1);
702
703 rc = write_fw(s, DRXD_InitSC);
704 if (rc < 0)
705 goto exit_rc;
706
707 rc = SetCfgIfAgc(s, &s->config.ifagc);
708 if (rc < 0)
709 goto exit_rc;
710
711 rc = SetCfgRfAgc(s, &s->config.rfagc);
712 if (rc < 0)
713 goto exit_rc;
714
715 if (fep->u.ofdm.transmission_mode != TRANSMISSION_MODE_2K)
716 v22 = 1;
717 switch (fep->u.ofdm.transmission_mode) {
718 case TRANSMISSION_MODE_8K:
719 edi = 1;
720 if (s->chip_rev == DRXD_FW_B1)
721 break;
722
723 rc = WR16(s, 0x2010010, 0);
724 if (rc < 0)
725 break;
726 v1C = 0x63;
727 v1A = 0x53;
728 v18 = 0x43;
729 break;
730 default:
731 edi = 0;
732 if (s->chip_rev == DRXD_FW_B1)
733 break;
734
735 rc = WR16(s, 0x2010010, 1);
736 if (rc < 0)
737 break;
738
739 v1C = 0x61;
740 v1A = 0x47;
741 v18 = 0x41;
742 }
743
744 switch (fep->u.ofdm.guard_interval) {
745 case GUARD_INTERVAL_1_4:
746 edi |= 0x0c;
747 break;
748 case GUARD_INTERVAL_1_8:
749 edi |= 0x08;
750 break;
751 case GUARD_INTERVAL_1_16:
752 edi |= 0x04;
753 break;
754 case GUARD_INTERVAL_1_32:
755 break;
756 default:
757 v22 |= 2;
758 }
759
760 ebx = 0;
761 ebp = 0;
762 v20 = 0;
763 v1E = 0;
764 v16 = 0;
765 v14 = 0;
766 v12 = 0;
767 v10 = 0;
768 v0E = 0;
769
770 switch (fep->u.ofdm.hierarchy_information) {
771 case HIERARCHY_1:
772 edi |= 0x40;
773 if (s->chip_rev == DRXD_FW_B1)
774 break;
775 rc = WR16(s, 0x1c10047, 1);
776 if (rc < 0)
777 goto exit_rc;
778 rc = WR16(s, 0x2010012, 1);
779 if (rc < 0)
780 goto exit_rc;
781 ebx = 0x19f;
782 ebp = 0x1fb;
783 v20 = 0x0c0;
784 v1E = 0x195;
785 v16 = 0x1d6;
786 v14 = 0x1ef;
787 v12 = 4;
788 v10 = 5;
789 v0E = 5;
790 break;
791 case HIERARCHY_2:
792 edi |= 0x80;
793 if (s->chip_rev == DRXD_FW_B1)
794 break;
795 rc = WR16(s, 0x1c10047, 2);
796 if (rc < 0)
797 goto exit_rc;
798 rc = WR16(s, 0x2010012, 2);
799 if (rc < 0)
800 goto exit_rc;
801 ebx = 0x08f;
802 ebp = 0x12f;
803 v20 = 0x0c0;
804 v1E = 0x11e;
805 v16 = 0x1d6;
806 v14 = 0x15e;
807 v12 = 4;
808 v10 = 5;
809 v0E = 5;
810 break;
811 case HIERARCHY_4:
812 edi |= 0xc0;
813 if (s->chip_rev == DRXD_FW_B1)
814 break;
815 rc = WR16(s, 0x1c10047, 3);
816 if (rc < 0)
817 goto exit_rc;
818 rc = WR16(s, 0x2010012, 3);
819 if (rc < 0)
820 goto exit_rc;
821 ebx = 0x14d;
822 ebp = 0x197;
823 v20 = 0x0c0;
824 v1E = 0x1ce;
825 v16 = 0x1d6;
826 v14 = 0x11a;
827 v12 = 4;
828 v10 = 6;
829 v0E = 5;
830 break;
831 default:
832 v22 |= 8;
833 if (s->chip_rev == DRXD_FW_B1)
834 break;
835 rc = WR16(s, 0x1c10047, 0);
836 if (rc < 0)
837 goto exit_rc;
838 rc = WR16(s, 0x2010012, 0);
839 if (rc < 0)
840 goto exit_rc;
841 /* QPSK QAM16 QAM64 */
842 ebx = 0x19f; /* 62 */
843 ebp = 0x1fb; /* 15 */
844 v20 = 0x16a; /* 62 */
845 v1E = 0x195; /* 62 */
846 v16 = 0x1bb; /* 15 */
847 v14 = 0x1ef; /* 15 */
848 v12 = 5; /* 16 */
849 v10 = 5; /* 16 */
850 v0E = 5; /* 16 */
851 }
852
853 switch (fep->u.ofdm.constellation) {
854 default:
855 v22 |= 4;
856 case QPSK:
857 if (s->chip_rev == DRXD_FW_B1)
858 break;
859
860 rc = WR16(s, 0x1c10046, 0);
861 if (rc < 0)
862 goto exit_rc;
863 rc = WR16(s, 0x2010011, 0);
864 if (rc < 0)
865 goto exit_rc;
866 rc = WR16(s, 0x201001a, 0x10);
867 if (rc < 0)
868 goto exit_rc;
869 rc = WR16(s, 0x201001b, 0);
870 if (rc < 0)
871 goto exit_rc;
872 rc = WR16(s, 0x201001c, 0);
873 if (rc < 0)
874 goto exit_rc;
875 rc = WR16(s, 0x1c10062, v20);
876 if (rc < 0)
877 goto exit_rc;
878 rc = WR16(s, 0x1c1002a, v1C);
879 if (rc < 0)
880 goto exit_rc;
881 rc = WR16(s, 0x1c10015, v16);
882 if (rc < 0)
883 goto exit_rc;
884 rc = WR16(s, 0x1c10016, v12);
885 if (rc < 0)
886 goto exit_rc;
887 break;
888 case QAM_16:
889 edi |= 0x10;
890 if (s->chip_rev == DRXD_FW_B1)
891 break;
892
893 rc = WR16(s, 0x1c10046, 1);
894 if (rc < 0)
895 goto exit_rc;
896 rc = WR16(s, 0x2010011, 1);
897 if (rc < 0)
898 goto exit_rc;
899 rc = WR16(s, 0x201001a, 0x10);
900 if (rc < 0)
901 goto exit_rc;
902 rc = WR16(s, 0x201001b, 4);
903 if (rc < 0)
904 goto exit_rc;
905 rc = WR16(s, 0x201001c, 0);
906 if (rc < 0)
907 goto exit_rc;
908 rc = WR16(s, 0x1c10062, v1E);
909 if (rc < 0)
910 goto exit_rc;
911 rc = WR16(s, 0x1c1002a, v1A);
912 if (rc < 0)
913 goto exit_rc;
914 rc = WR16(s, 0x1c10015, v14);
915 if (rc < 0)
916 goto exit_rc;
917 rc = WR16(s, 0x1c10016, v10);
918 if (rc < 0)
919 goto exit_rc;
920 break;
921 case QAM_64:
922 edi |= 0x20;
923 rc = WR16(s, 0x1c10046, 2);
924 if (rc < 0)
925 goto exit_rc;
926 rc = WR16(s, 0x2010011, 2);
927 if (rc < 0)
928 goto exit_rc;
929 rc = WR16(s, 0x201001a, 0x20);
930 if (rc < 0)
931 goto exit_rc;
932 rc = WR16(s, 0x201001b, 8);
933 if (rc < 0)
934 goto exit_rc;
935 rc = WR16(s, 0x201001c, 2);
936 if (rc < 0)
937 goto exit_rc;
938 rc = WR16(s, 0x1c10062, ebx);
939 if (rc < 0)
940 goto exit_rc;
941 rc = WR16(s, 0x1c1002a, v18);
942 if (rc < 0)
943 goto exit_rc;
944 rc = WR16(s, 0x1c10015, ebp);
945 if (rc < 0)
946 goto exit_rc;
947 rc = WR16(s, 0x1c10016, v0E);
948 if (rc < 0)
949 goto exit_rc;
950 break;
951 }
952
953 if (s->config.s20d24 == 1) {
954 rc = WR16(s, 0x2010013, 0);
955 } else {
956 rc = WR16(s, 0x2010013, 1);
957 edi |= 0x1000;
958 }
959
960 switch (fep->u.ofdm.code_rate_HP) {
961 default:
962 v22 |= 0x10;
963 case FEC_1_2:
964 if (s->chip_rev == DRXD_FW_B1)
965 break;
966 rc = WR16(s, 0x2090011, 0);
967 break;
968 case FEC_2_3:
969 edi |= 0x200;
970 if (s->chip_rev == DRXD_FW_B1)
971 break;
972 rc = WR16(s, 0x2090011, 1);
973 break;
974 case FEC_3_4:
975 edi |= 0x400;
976 if (s->chip_rev == DRXD_FW_B1)
977 break;
978 rc = WR16(s, 0x2090011, 2);
979 break;
980 case FEC_5_6: /* 5 */
981 edi |= 0x600;
982 if (s->chip_rev == DRXD_FW_B1)
983 break;
984 rc = WR16(s, 0x2090011, 3);
985 break;
986 case FEC_7_8: /* 7 */
987 edi |= 0x800;
988 if (s->chip_rev == DRXD_FW_B1)
989 break;
990 rc = WR16(s, 0x2090011, 4);
991 break;
992 };
993 if (rc < 0)
994 goto exit_rc;
995
996 switch (fep->u.ofdm.bandwidth) {
997 default:
998 rc = -EINVAL;
999 goto exit_rc;
1000 case BANDWIDTH_8_MHZ: /* 0 */
1001 case BANDWIDTH_AUTO:
1002 rc = WR16(s, 0x0c2003f, 0x32);
1003 s->bandwidth_parm = ebx = 0x8b8249;
1004 edx = 0;
1005 break;
1006 case BANDWIDTH_7_MHZ:
1007 rc = WR16(s, 0x0c2003f, 0x3b);
1008 s->bandwidth_parm = ebx = 0x7a1200;
1009 edx = 0x4807;
1010 break;
1011 case BANDWIDTH_6_MHZ:
1012 rc = WR16(s, 0x0c2003f, 0x47);
1013 s->bandwidth_parm = ebx = 0x68a1b6;
1014 edx = 0x0f07;
1015 break;
1016 };
1017
1018 if (rc < 0)
1019 goto exit_rc;
1020
1021 rc = WR16(s, 0x08200ec, edx);
1022 if (rc < 0)
1023 goto exit_rc;
1024
1025 rc = RD16(s, 0x0820050);
1026 if (rc < 0)
1027 goto exit_rc;
1028 rc = WR16(s, 0x0820050, rc);
1029
1030 {
1031 /* Configure bandwidth specific factor */
1032 ebx = div64_u64(((u64) (s->f_osc) << 21) + (ebx >> 1),
1033 (u64)ebx) - 0x800000;
1034 EXIT_RC(WR16(s, 0x0c50010, ebx & 0xffff));
1035 EXIT_RC(WR16(s, 0x0c50011, ebx >> 16));
1036
1037 /* drx397xD oscillator calibration */
1038 ebx = div64_u64(((u64) (s->config.f_if + df_tuner) << 28) +
1039 (s->f_osc >> 1), (u64)s->f_osc);
1040 }
1041 ebx &= 0xfffffff;
1042 if (fep->inversion == INVERSION_ON)
1043 ebx = 0x10000000 - ebx;
1044
1045 EXIT_RC(WR16(s, 0x0c30010, ebx & 0xffff));
1046 EXIT_RC(WR16(s, 0x0c30011, ebx >> 16));
1047
1048 EXIT_RC(WR16(s, 0x0800000, 1));
1049 EXIT_RC(RD16(s, 0x0800000));
1050
1051
1052 EXIT_RC(SC_WaitForReady(s));
1053 EXIT_RC(WR16(s, 0x0820042, 0));
1054 EXIT_RC(WR16(s, 0x0820041, v22));
1055 EXIT_RC(WR16(s, 0x0820040, edi));
1056 EXIT_RC(SC_SendCommand(s, 3));
1057
1058 rc = RD16(s, 0x0800000);
1059
1060 SC_WaitForReady(s);
1061 WR16(s, 0x0820042, 0);
1062 WR16(s, 0x0820041, 1);
1063 WR16(s, 0x0820040, 1);
1064 SC_SendCommand(s, 1);
1065
1066
1067 rc = WR16(s, 0x2150000, 2);
1068 rc = WR16(s, 0x2150016, a);
1069 rc = WR16(s, 0x2150010, 4);
1070 rc = WR16(s, 0x2150036, 0);
1071 rc = WR16(s, 0x2150000, 1);
1072 s->config.d60 = 2;
1073
1074 exit_rc:
1075 return rc;
1076 }
1077
1078 /*******************************************************************************
1079 * DVB interface
1080 ******************************************************************************/
1081
1082 static int drx397x_init(struct dvb_frontend *fe)
1083 {
1084 struct drx397xD_state *s = fe->demodulator_priv;
1085 int rc;
1086
1087 pr_debug("%s\n", __func__);
1088
1089 s->config.rfagc.d00 = 2; /* 0x7c */
1090 s->config.rfagc.w04 = 0;
1091 s->config.rfagc.w06 = 0x3ff;
1092
1093 s->config.ifagc.d00 = 0; /* 0x68 */
1094 s->config.ifagc.w04 = 0;
1095 s->config.ifagc.w06 = 140;
1096 s->config.ifagc.w08 = 0;
1097 s->config.ifagc.w0A = 0x3ff;
1098 s->config.ifagc.w0C = 0x388;
1099
1100 /* for signal strenght calculations */
1101 s->config.ss76 = 820;
1102 s->config.ss78 = 2200;
1103 s->config.ss7A = 150;
1104
1105 /* HI_CfgCommand */
1106 s->config.w50 = 4;
1107 s->config.w52 = 9;
1108
1109 s->config.f_if = 42800000; /* d14: intermediate frequency [Hz] */
1110 s->config.f_osc = 48000; /* s66 : oscillator frequency [kHz] */
1111 s->config.w92 = 12000;
1112
1113 s->config.w9C = 0x000e;
1114 s->config.w9E = 0x0000;
1115
1116 /* ConfigureMPEGOutput params */
1117 s->config.wA0 = 4;
1118 s->config.w98 = 1;
1119 s->config.w9A = 1;
1120
1121 /* get chip revision */
1122 rc = RD16(s, 0x2410019);
1123 if (rc < 0)
1124 return -ENODEV;
1125
1126 if (rc == 0) {
1127 printk(KERN_INFO "%s: chip revision A2\n", mod_name);
1128 rc = drx_load_fw(s, DRXD_FW_A2);
1129 } else {
1130
1131 rc = (rc >> 12) - 3;
1132 switch (rc) {
1133 case 1:
1134 s->flags |= F_SET_0D4h;
1135 case 0:
1136 case 4:
1137 s->flags |= F_SET_0D0h;
1138 break;
1139 case 2:
1140 case 5:
1141 break;
1142 case 3:
1143 s->flags |= F_SET_0D4h;
1144 break;
1145 default:
1146 return -ENODEV;
1147 };
1148 printk(KERN_INFO "%s: chip revision B1.%d\n", mod_name, rc);
1149 rc = drx_load_fw(s, DRXD_FW_B1);
1150 }
1151 if (rc < 0)
1152 goto error;
1153
1154 rc = WR16(s, 0x0420033, 0x3973);
1155 if (rc < 0)
1156 goto error;
1157
1158 rc = HI_Command(s, 2);
1159
1160 msleep(1);
1161
1162 if (s->chip_rev == DRXD_FW_A2) {
1163 rc = WR16(s, 0x043012d, 0x47F);
1164 if (rc < 0)
1165 goto error;
1166 }
1167 rc = WR16_E0(s, 0x0400000, 0);
1168 if (rc < 0)
1169 goto error;
1170
1171 if (s->config.w92 > 20000 || s->config.w92 % 4000) {
1172 printk(KERN_ERR "%s: invalid osc frequency\n", mod_name);
1173 rc = -1;
1174 goto error;
1175 }
1176
1177 rc = WR16(s, 0x2410010, 1);
1178 if (rc < 0)
1179 goto error;
1180 rc = WR16(s, 0x2410011, 0x15);
1181 if (rc < 0)
1182 goto error;
1183 rc = WR16(s, 0x2410012, s->config.w92 / 4000);
1184 if (rc < 0)
1185 goto error;
1186 #ifdef ORIG_FW
1187 rc = WR16(s, 0x2410015, 2);
1188 if (rc < 0)
1189 goto error;
1190 #endif
1191 rc = WR16(s, 0x2410017, 0x3973);
1192 if (rc < 0)
1193 goto error;
1194
1195 s->f_osc = s->config.f_osc * 1000; /* initial estimator */
1196
1197 s->config.w56 = 1;
1198
1199 rc = HI_CfgCommand(s);
1200 if (rc < 0)
1201 goto error;
1202
1203 rc = write_fw(s, DRXD_InitAtomicRead);
1204 if (rc < 0)
1205 goto error;
1206
1207 if (s->chip_rev == DRXD_FW_A2) {
1208 rc = WR16(s, 0x2150013, 0);
1209 if (rc < 0)
1210 goto error;
1211 }
1212
1213 rc = WR16_E0(s, 0x0400002, 0);
1214 if (rc < 0)
1215 goto error;
1216 rc = WR16(s, 0x0400002, 0);
1217 if (rc < 0)
1218 goto error;
1219
1220 if (s->chip_rev == DRXD_FW_A2) {
1221 rc = write_fw(s, DRXD_ResetCEFR);
1222 if (rc < 0)
1223 goto error;
1224 }
1225 rc = write_fw(s, DRXD_microcode);
1226 if (rc < 0)
1227 goto error;
1228
1229 s->config.w9C = 0x0e;
1230 if (s->flags & F_SET_0D0h) {
1231 s->config.w9C = 0;
1232 rc = RD16(s, 0x0c20010);
1233 if (rc < 0)
1234 goto write_DRXD_InitFE_1;
1235
1236 rc &= ~0x1000;
1237 rc = WR16(s, 0x0c20010, rc);
1238 if (rc < 0)
1239 goto write_DRXD_InitFE_1;
1240
1241 rc = RD16(s, 0x0c20011);
1242 if (rc < 0)
1243 goto write_DRXD_InitFE_1;
1244
1245 rc &= ~0x8;
1246 rc = WR16(s, 0x0c20011, rc);
1247 if (rc < 0)
1248 goto write_DRXD_InitFE_1;
1249
1250 rc = WR16(s, 0x0c20012, 1);
1251 }
1252
1253 write_DRXD_InitFE_1:
1254
1255 rc = write_fw(s, DRXD_InitFE_1);
1256 if (rc < 0)
1257 goto error;
1258
1259 rc = 1;
1260 if (s->chip_rev == DRXD_FW_B1) {
1261 if (s->flags & F_SET_0D0h)
1262 rc = 0;
1263 } else {
1264 if (s->flags & F_SET_0D0h)
1265 rc = 4;
1266 }
1267
1268 rc = WR16(s, 0x0C20012, rc);
1269 if (rc < 0)
1270 goto error;
1271
1272 rc = WR16(s, 0x0C20013, s->config.w9E);
1273 if (rc < 0)
1274 goto error;
1275 rc = WR16(s, 0x0C20015, s->config.w9C);
1276 if (rc < 0)
1277 goto error;
1278
1279 rc = write_fw(s, DRXD_InitFE_2);
1280 if (rc < 0)
1281 goto error;
1282 rc = write_fw(s, DRXD_InitFT);
1283 if (rc < 0)
1284 goto error;
1285 rc = write_fw(s, DRXD_InitCP);
1286 if (rc < 0)
1287 goto error;
1288 rc = write_fw(s, DRXD_InitCE);
1289 if (rc < 0)
1290 goto error;
1291 rc = write_fw(s, DRXD_InitEQ);
1292 if (rc < 0)
1293 goto error;
1294 rc = write_fw(s, DRXD_InitEC);
1295 if (rc < 0)
1296 goto error;
1297 rc = write_fw(s, DRXD_InitSC);
1298 if (rc < 0)
1299 goto error;
1300
1301 rc = SetCfgIfAgc(s, &s->config.ifagc);
1302 if (rc < 0)
1303 goto error;
1304
1305 rc = SetCfgRfAgc(s, &s->config.rfagc);
1306 if (rc < 0)
1307 goto error;
1308
1309 rc = ConfigureMPEGOutput(s, 1);
1310 rc = WR16(s, 0x08201fe, 0x0017);
1311 rc = WR16(s, 0x08201ff, 0x0101);
1312
1313 s->config.d5C = 0;
1314 s->config.d60 = 1;
1315 s->config.d48 = 1;
1316
1317 error:
1318 return rc;
1319 }
1320
1321 static int drx397x_get_frontend(struct dvb_frontend *fe,
1322 struct dvb_frontend_parameters *params)
1323 {
1324 return 0;
1325 }
1326
1327 static int drx397x_set_frontend(struct dvb_frontend *fe,
1328 struct dvb_frontend_parameters *params)
1329 {
1330 struct drx397xD_state *s = fe->demodulator_priv;
1331
1332 s->config.s20d24 = 1;
1333
1334 return drx_tune(s, params);
1335 }
1336
1337 static int drx397x_get_tune_settings(struct dvb_frontend *fe,
1338 struct dvb_frontend_tune_settings
1339 *fe_tune_settings)
1340 {
1341 fe_tune_settings->min_delay_ms = 10000;
1342 fe_tune_settings->step_size = 0;
1343 fe_tune_settings->max_drift = 0;
1344
1345 return 0;
1346 }
1347
1348 static int drx397x_read_status(struct dvb_frontend *fe, fe_status_t *status)
1349 {
1350 struct drx397xD_state *s = fe->demodulator_priv;
1351 int lockstat;
1352
1353 GetLockStatus(s, &lockstat);
1354
1355 *status = 0;
1356 if (lockstat & 2) {
1357 CorrectSysClockDeviation(s);
1358 ConfigureMPEGOutput(s, 1);
1359 *status = FE_HAS_LOCK | FE_HAS_SYNC | FE_HAS_VITERBI;
1360 }
1361 if (lockstat & 4)
1362 *status |= FE_HAS_CARRIER | FE_HAS_SIGNAL;
1363
1364 return 0;
1365 }
1366
1367 static int drx397x_read_ber(struct dvb_frontend *fe, unsigned int *ber)
1368 {
1369 *ber = 0;
1370
1371 return 0;
1372 }
1373
1374 static int drx397x_read_snr(struct dvb_frontend *fe, u16 *snr)
1375 {
1376 *snr = 0;
1377
1378 return 0;
1379 }
1380
1381 static int drx397x_read_signal_strength(struct dvb_frontend *fe, u16 *strength)
1382 {
1383 struct drx397xD_state *s = fe->demodulator_priv;
1384 int rc;
1385
1386 if (s->config.ifagc.d00 == 2) {
1387 *strength = 0xffff;
1388 return 0;
1389 }
1390 rc = RD16(s, 0x0c20035);
1391 if (rc < 0) {
1392 *strength = 0;
1393 return 0;
1394 }
1395 rc &= 0x3ff;
1396 /* Signal strength is calculated using the following formula:
1397 *
1398 * a = 2200 * 150 / (2200 + 150);
1399 * a = a * 3300 / (a + 820);
1400 * b = 2200 * 3300 / (2200 + 820);
1401 * c = (((b-a) * rc) >> 10 + a) << 4;
1402 * strength = ~c & 0xffff;
1403 *
1404 * The following does the same but with less rounding errors:
1405 */
1406 *strength = ~(7720 + (rc * 30744 >> 10));
1407
1408 return 0;
1409 }
1410
1411 static int drx397x_read_ucblocks(struct dvb_frontend *fe,
1412 unsigned int *ucblocks)
1413 {
1414 *ucblocks = 0;
1415
1416 return 0;
1417 }
1418
1419 static int drx397x_sleep(struct dvb_frontend *fe)
1420 {
1421 return 0;
1422 }
1423
1424 static void drx397x_release(struct dvb_frontend *fe)
1425 {
1426 struct drx397xD_state *s = fe->demodulator_priv;
1427 printk(KERN_INFO "%s: release demodulator\n", mod_name);
1428 if (s) {
1429 drx_release_fw(s);
1430 kfree(s);
1431 }
1432
1433 }
1434
1435 static struct dvb_frontend_ops drx397x_ops = {
1436
1437 .info = {
1438 .name = "Micronas DRX397xD DVB-T Frontend",
1439 .type = FE_OFDM,
1440 .frequency_min = 47125000,
1441 .frequency_max = 855250000,
1442 .frequency_stepsize = 166667,
1443 .frequency_tolerance = 0,
1444 .caps = /* 0x0C01B2EAE */
1445 FE_CAN_FEC_1_2 | /* = 0x2, */
1446 FE_CAN_FEC_2_3 | /* = 0x4, */
1447 FE_CAN_FEC_3_4 | /* = 0x8, */
1448 FE_CAN_FEC_5_6 | /* = 0x20, */
1449 FE_CAN_FEC_7_8 | /* = 0x80, */
1450 FE_CAN_FEC_AUTO | /* = 0x200, */
1451 FE_CAN_QPSK | /* = 0x400, */
1452 FE_CAN_QAM_16 | /* = 0x800, */
1453 FE_CAN_QAM_64 | /* = 0x2000, */
1454 FE_CAN_QAM_AUTO | /* = 0x10000, */
1455 FE_CAN_TRANSMISSION_MODE_AUTO | /* = 0x20000, */
1456 FE_CAN_GUARD_INTERVAL_AUTO | /* = 0x80000, */
1457 FE_CAN_HIERARCHY_AUTO | /* = 0x100000, */
1458 FE_CAN_RECOVER | /* = 0x40000000, */
1459 FE_CAN_MUTE_TS /* = 0x80000000 */
1460 },
1461
1462 .release = drx397x_release,
1463 .init = drx397x_init,
1464 .sleep = drx397x_sleep,
1465
1466 .set_frontend = drx397x_set_frontend,
1467 .get_tune_settings = drx397x_get_tune_settings,
1468 .get_frontend = drx397x_get_frontend,
1469
1470 .read_status = drx397x_read_status,
1471 .read_snr = drx397x_read_snr,
1472 .read_signal_strength = drx397x_read_signal_strength,
1473 .read_ber = drx397x_read_ber,
1474 .read_ucblocks = drx397x_read_ucblocks,
1475 };
1476
1477 struct dvb_frontend *drx397xD_attach(const struct drx397xD_config *config,
1478 struct i2c_adapter *i2c)
1479 {
1480 struct drx397xD_state *state;
1481
1482 /* allocate memory for the internal state */
1483 state = kzalloc(sizeof(struct drx397xD_state), GFP_KERNEL);
1484 if (!state)
1485 goto error;
1486
1487 /* setup the state */
1488 state->i2c = i2c;
1489 memcpy(&state->config, config, sizeof(struct drx397xD_config));
1490
1491 /* check if the demod is there */
1492 if (RD16(state, 0x2410019) < 0)
1493 goto error;
1494
1495 /* create dvb_frontend */
1496 memcpy(&state->frontend.ops, &drx397x_ops,
1497 sizeof(struct dvb_frontend_ops));
1498 state->frontend.demodulator_priv = state;
1499
1500 return &state->frontend;
1501 error:
1502 kfree(state);
1503
1504 return NULL;
1505 }
1506 EXPORT_SYMBOL(drx397xD_attach);
1507
1508 MODULE_DESCRIPTION("Micronas DRX397xD DVB-T Frontend");
1509 MODULE_AUTHOR("Henk Vergonet");
1510 MODULE_LICENSE("GPL");
Tomato firmware and modifications.