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source: titan/titan/frontenddev.h @ 41115

Last change on this file since 41115 was 41115, checked in by gost, 6 years ago
test frontenddev
File size: 65.5 KB

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1	#ifndef FRONTENDDEV_H
2	#define FRONTENDDEV_H
3
4	enum {
5	T_Bandwidth_8MHz, T_Bandwidth_7MHz, T_Bandwidth_6MHz, T_Bandwidth_Auto, T_Bandwidth_5MHz, T_Bandwidth_1_712MHz, T_Bandwidth_10MHz
6	};
7
8	enum {
9	T_FEC_1_2=0, T_FEC_2_3=1, T_FEC_3_4=2, T_FEC_5_6=3, T_FEC_7_8=4, T_FEC_Auto=5, T_FEC_6_7=6, T_FEC_8_9=7
10	};
11
12	enum {
13	System_DVB_T_T2 = -1, System_DVB_T, System_DVB_T2
14	};
15
16	enum {
17	T_TransmissionMode_2k, T_TransmissionMode_8k, T_TransmissionMode_Auto, T_TransmissionMode_4k, T_TransmissionMode_1k, T_TransmissionMode_16k, T_TransmissionMode_32k
18	};
19
20	enum {
21	T_GuardInterval_1_32, T_GuardInterval_1_16, T_GuardInterval_1_8, T_GuardInterval_1_4, T_GuardInterval_Auto, T_GuardInterval_1_128, T_GuardInterval_19_128, T_GuardInterval_19_256
22	};
23
24	enum {
25	T_Hierarchy_None, T_Hierarchy_1, T_Hierarchy_2, T_Hierarchy_4, T_Hierarchy_Auto
26	};
27
28	enum {
29	T_Modulation_QPSK, T_Modulation_QAM16, T_Modulation_QAM64, T_Modulation_Auto, T_Modulation_QAM256
30	};
31
32	enum {
33	T_Inversion_Off, T_Inversion_On, T_Inversion_Unknown
34	};
35
36	int calclof(struct dvbdev* node, struct transponder* tpnode, char* feaktnr, int flag)
37	{
38	int loftype = 0;
39	int lofl, lofh, lofthreshold;
40	int satcrfrequ = 0;
41	char* tmpstr = NULL;
42
43	if(node == NULL \|\| tpnode == NULL)
44	{
45	err("NULL detect");
46	return -1;
47	}
48
49	if(node->feinfo->type != FE_QPSK)
50	return 0;
51
52	unsigned int frequency = tpnode->frequency;
53	node->feunicable = 0;
54
55	if(feaktnr == NULL) feaktnr = node->feaktnr;
56
57	tmpstr = ostrcat(node->feshortname, "_lnb_loftype", 0, 0);
58	loftype = getconfigint(tmpstr, feaktnr);
59	free(tmpstr); tmpstr = NULL;
60	switch(loftype)
61	{
62	case 1: //c-band
63	lofl = 5150 * 1000;
64	lofh = 5150 * 1000;
65	lofthreshold = 5150 * 1000;
66	break;
67	case 2: //user
68	tmpstr = ostrcat(node->feshortname, "_lnb_lofl", 0, 0);
69	lofl = getconfigint(tmpstr, feaktnr) * 1000;
70	free(tmpstr); tmpstr = NULL;
71	tmpstr = ostrcat(node->feshortname, "_lnb_lofh", 0, 0);
72	lofh = getconfigint(tmpstr, feaktnr) * 1000;
73	free(tmpstr); tmpstr = NULL;
74	tmpstr = ostrcat(node->feshortname, "_lnb_lofthreshold", 0, 0);
75	lofthreshold = getconfigint(tmpstr, feaktnr) * 1000;
76	free(tmpstr); tmpstr = NULL;
77	break;
78	case 3: //unicable
79	case 4: //user unicable
80	tmpstr = ostrcat(node->feshortname, "_lnb_lofl", 0, 0);
81	lofl = getconfigint(tmpstr, feaktnr) * 1000;
82	free(tmpstr); tmpstr = NULL;
83	if(lofl == 0) lofl = 9750 * 1000;
84	tmpstr = ostrcat(node->feshortname, "_lnb_lofh", 0, 0);
85	lofh = getconfigint(tmpstr, feaktnr) * 1000;
86	free(tmpstr); tmpstr = NULL;
87	if(lofh == 0) lofh = 10600 * 1000;
88	tmpstr = ostrcat(node->feshortname, "_lnb_lofthreshold", 0, 0);
89	lofthreshold = getconfigint(tmpstr, feaktnr) * 1000;
90	free(tmpstr); tmpstr = NULL;
91	if(lofthreshold == 0) lofthreshold = 11700 * 1000;
92	tmpstr = ostrcat(node->feshortname, "_lnb_satcrfrequ", 0, 0);
93	satcrfrequ = getconfigint(tmpstr, feaktnr) * 1000;
94	free(tmpstr); tmpstr = NULL;
95	break;
96	default: //standard lnb
97	lofl = 9750 * 1000;
98	lofh = 10600 * 1000;
99	lofthreshold = 11700 * 1000;
100	}
101
102	if(lofthreshold && lofh && frequency >= lofthreshold)
103	{
104	if(flag == 1) return 1;
105	node->feaktband = 1;
106	}
107	else
108	{
109	if(flag == 1) return 0;
110	node->feaktband = 0;
111	}
112
113	if(satcrfrequ == 0)
114	{
115	if(node->feaktband)
116	node->feloffrequency = frequency - lofh;
117	else
118	{
119	if(frequency < lofl)
120	node->feloffrequency = lofl - frequency;
121	else
122	node->feloffrequency = frequency - lofl;
123	}
124	}
125	else
126	{
127	int lof = (node->feaktband & 1) ? lofh : lofl;
128	unsigned int tmp = (frequency - lof) + satcrfrequ;
129	node->feloffrequency = (tmp / 4) - 350000;
130	node->feunicable = 1;
131	}
132
133	debug(200, "tuning to freq %d (befor lof %d), band=%d, unicable=%d", node->feloffrequency, frequency, node->feaktband, node->feunicable);
134	return node->feaktband;
135	}
136
137	char* fegettypestr(struct dvbdev* dvbnode)
138	{
139	char* text = NULL;
140
141	if(dvbnode == NULL)
142	{
143	err("NULL detect");
144	return NULL;
145	}
146
147	switch(dvbnode->feinfo->type)
148	{
149	case FE_QPSK: text = ostrcat(text, "DVB-S", 1, 0); break;
150	case FE_QAM: text = ostrcat(text, "DVB-C", 1, 0); break;
151	case FE_OFDM: text = ostrcat(text, "DVB-T", 1, 0); break;
152	default: text = ostrcat(text, "unknown", 1, 0);
153	}
154
155	return text;
156	}
157
158	struct dvbdev* fegetbyshortname(char* feshortname)
159	{
160	struct dvbdev* dvbnode = dvbdev;
161
162	while(dvbnode != NULL)
163	{
164	if(dvbnode->type == FRONTENDDEV && ostrcmp(dvbnode->feshortname, feshortname) == 0)
165	return dvbnode;
166	dvbnode = dvbnode->next;
167	}
168	return NULL;
169	}
170
171	void fegetconfig(struct dvbdev dvbnode, struct transponder tpnode, char** aktnr, char* tmpnr)
172	{
173	char* tmpstr = NULL;
174
175	if(dvbnode == NULL \|\| tpnode == NULL)
176	{
177	err("NULL detect");
178	return;
179	}
180
181	tmpstr = ostrcat(dvbnode->feshortname, "_satnr", 0, 0);
182	*aktnr = getconfig(tmpstr, tmpnr);
183	free(tmpstr); tmpstr = NULL;
184	}
185
186	struct dvbdev* fegetdummy()
187	{
188	struct dvbdev* dvbnode = dvbdev;
189
190	while(dvbnode != NULL)
191	{
192	if(dvbnode->type == FRONTENDDEVDUMMY)
193	return dvbnode;
194	dvbnode = dvbnode->next;
195	}
196	return NULL;
197	}
198
199	void settunerstatus()
200	{
201	struct dvbdev* dvbnode = dvbdev;
202	char *tmpstr = NULL;
203	char *buf = NULL;
204	int fbc = 0;
205	while(dvbnode != NULL)
206	{
207	//FRONTENDDEV first in the list
208	if(dvbnode->type != FRONTENDDEV) break;
209
210	if(dvbnode != NULL && ostrstr(dvbnode->feinfo->name, "BCM45208") != NULL)
211	fbc = 1;
212	else
213	fbc = 0;
214
215	if((checkbox("DM900") == 1 \|\| checkbox("DM520") == 1 \|\| checkbox("DM525") == 1) && fbc != 1)
216	{
217	if(ostrcmp("fe_01", dvbnode->feshortname) == 0)
218	{
219	if(ostrcmp("fe_00", getconfig(dvbnode->feshortname, NULL)) == 0)
220	system("echo internal > /proc/stb/frontend/1/rf_switch");
221	else
222	system("echo external > /proc/stb/frontend/1/rf_switch");
223	}
224	}
225	if(fbc == 1)
226	{
227	buf = malloc(MINMALLOC);
228	if(buf == NULL)
229	{
230	err("no memory");
231	return;
232	}
233	sprintf(buf, "/proc/stb/frontend/%d/input",dvbnode->devnr);
234	tmpstr = ostrcat(dvbnode->feshortname, "_fbc", 0, 0);
235	if(ostrcmp("AM", getconfig(tmpstr, NULL)) == 0 \|\| ostrcmp("AU", getconfig(tmpstr, NULL)) == 0 \|\| ostrcmp("A", getconfig(tmpstr, NULL)) == 0)
236	writesys(buf, "A", 1);
237	else
238	writesys(buf, "B", 1);
239	free(buf); buf = NULL;
240	free(tmpstr); tmpstr = NULL;
241	}
242	//check if tuner is deactivate
243	if(ostrcmp("x", getconfig(dvbnode->feshortname, NULL)) == 0)
244	dvbnode->deactive = 1;
245	else
246	dvbnode->deactive = 0;
247
248	dvbnode = dvbnode->next;
249	}
250	}
251
252	//flag 0 = normal
253	//flag 1 = check only
254	//flag 2 = from record
255	//flag 3 = from rectimer
256	struct dvbdev* fegetfree(struct transponder* tpnode, int flag, struct dvbdev* dvbfirst)
257	{
258	struct dvbdev* dvbnode = NULL;
259	struct dvbdev* tmpdvbnode = NULL;
260	char* tmpstr = NULL, tmpnr = NULL, aktnr = NULL;
261	int i, orbitalpos = 0, band = 0;
262	int found = 0;
263	//char *CharPtrTmp[20];
264	struct dvbdev* CharPtrTmp[20];
265
266	if(dvbfirst != NULL)
267	dvbnode = dvbfirst;
268	else
269	dvbnode = dvbdev;
270
271	if(tpnode == NULL)
272	{
273	err("NULL detect");
274	return NULL;
275	}
276
277	//suche tuner der auf der gleichen orbitalpos/frequency/pol/band ist
278	if(flag != 1) printf("****** gesucht wird.. orbitalpos:%d frequency:%d feaktpolarization:%d\n", tpnode->orbitalpos, tpnode->frequency, tpnode->polarization);
279	while(dvbnode != NULL)
280	{
281	//FRONTENDDEV first in the list
282	if(dvbnode->type != FRONTENDDEV) break;
283
284	//check if tuner is deactivate
285	if(dvbnode->deactive == 1)
286	{
287	dvbnode = dvbnode->next;
288	continue;
289	}
290	if(dvbnode->type == FRONTENDDEV && dvbnode->feinfo->type == tpnode->fetype)
291	{
292	if(flag != 1 && dvbnode->feakttransponder != NULL) printf("-----11 %s orbitalpos:%d frequency:%d feaktpolarization:%d lock:%d\n", dvbnode->feshortname, dvbnode->feakttransponder->orbitalpos, dvbnode->feakttransponder->frequency, dvbnode->feaktpolarization, dvbnode->felock);
293	else if(flag != 1) printf("-----11 %s feakttransponder = NULL\n", dvbnode->feshortname);
294	if(dvbnode->feakttransponder != NULL && dvbnode->feakttransponder->orbitalpos == tpnode->orbitalpos && dvbnode->feakttransponder->frequency == tpnode->frequency && dvbnode->feaktpolarization == tpnode->polarization)
295	{
296	band = calclof(dvbnode, tpnode, dvbnode->feaktnr, 1);
297	if(dvbnode->feaktband != band)
298	{
299	if(flag != 1) printf("-----1 Band passt nicht\n");
300	dvbnode = dvbnode->next;
301	continue;
302	}
303	dvbnode->felasttransponder = dvbnode->feakttransponder;
304	dvbnode->feakttransponder = tpnode;
305	if(flag != 1) debug(200, "found tuner with same orbitalpos/frequency/pol/band %s", dvbnode->feshortname);
306	if(flag != 1) printf("------ found tuner with same orbitalpos/frequency/pol/band %s\n", dvbnode->feshortname);
307	return(dvbnode);
308	}
309	}
310	dvbnode = dvbnode->next;
311	}
312	if(dvbfirst != NULL)
313	dvbnode = dvbfirst;
314	else
315	dvbnode = dvbdev;
316
317	//suche tuner der die gewuenschte orbitalpos kann und belegt ist und dessen looptuner es kann
318	while(dvbnode != NULL)
319	{
320	//FRONTENDDEV first in the list
321	if(dvbnode->type != FRONTENDDEV) break;
322
323	//check if tuner is deactivate
324	if(dvbnode->deactive == 1)
325	{
326	dvbnode = dvbnode->next;
327	continue;
328	}
329	if(dvbnode->type == FRONTENDDEV && dvbnode->feinfo->type == tpnode->fetype && dvbnode->felock != 0)
330	{
331	if(flag == 2 && status.aktservice->fedev == dvbnode)
332	{
333	dvbnode = dvbnode->next;
334	continue;
335	}
336	//check if tuner is main tuner
337	if(getconfig(dvbnode->feshortname, NULL) != NULL)
338	{
339	dvbnode = dvbnode->next;
340	continue;
341	}
342	if(flag != 1 && dvbnode->feakttransponder != NULL) printf("*****xx %s orbitalpos:%d frequency:%d feaktpolarization:%d lock:%d\n", tmpstr, dvbnode->feakttransponder->orbitalpos, dvbnode->feakttransponder->frequency, dvbnode->feaktpolarization, dvbnode->felock);
343	else if(flag != 1) printf("*****xx %s feakttransponder = NULL\n", tmpstr);
344	if(dvbnode->feaktpolarization != tpnode->polarization \|\| dvbnode->feakttransponder->orbitalpos != tpnode->orbitalpos)
345	{
346	dvbnode = dvbnode->next;
347	continue;
348	}
349	found = 0;
350	//check looptuner is free
351	tmpstr = getconfigbyval(dvbnode->feshortname, NULL);
352	CharPtrTmp[0] = NULL;
353	while(tmpstr != NULL) //found loop tuner
354	{
355	tmpdvbnode = fegetbyshortname(tmpstr);
356	if(flag != 1 && tmpdvbnode->feakttransponder != NULL) printf("-----xx %s orbitalpos:%d frequency:%d feaktpolarization:%d lock:%d\n", tmpstr, tmpdvbnode->feakttransponder->orbitalpos, tmpdvbnode->feakttransponder->frequency, tmpdvbnode->feaktpolarization, tmpdvbnode->felock);
357	else if(flag != 1) printf("-----xx %s feakttransponder = NULL\n", tmpstr);
358	//if(flag != 1) printf("****** test tuner1 %s -> %s\n", dvbnode->feshortname, tmpdvbnode->feshortname);
359	if(tmpdvbnode != NULL && tmpdvbnode->felock == 0)
360	{
361	found = 99;
362	break;
363	}
364	else
365	{
366	CharPtrTmp[found] = tmpdvbnode;
367	found = found + 1;
368	}
369	tmpstr = getconfigbyval(tmpstr, NULL); //loop tuner also loop ?
370	}
371	CharPtrTmp[0] = NULL;
372	if(found != 99)
373	{
374	dvbnode = dvbnode->next;
375	continue;
376	}
377	tmpstr = ostrcat(dvbnode->feshortname, "_sat", 0, 0);
378	for(i = 1; i <= getmaxsat(dvbnode->feshortname); i++)
379	{
380	tmpnr = oitoa(i);
381	orbitalpos = getconfigint(tmpstr, tmpnr);
382	if(orbitalpos == tpnode->orbitalpos)
383	{
384	fegetconfig(dvbnode, tpnode, &aktnr, tmpnr);
385	if(flag == 3)
386	band = calclof(dvbnode, tpnode, aktnr, 0);
387	else
388	band = calclof(dvbnode, tpnode, aktnr, 1);
389	found = 0;
390	if(tmpdvbnode != NULL && tmpdvbnode->feaktband != band)
391	{
392	found = -1;
393	break;
394	}
395
396	if(flag == 1)
397	{
398	free(tmpstr); tmpstr = NULL;
399	free(tmpnr); tmpnr = NULL;
400	return tmpdvbnode;
401	}
402	dvbnode->feaktband = band;
403	dvbnode->feaktpolarization = tpnode->polarization;
404
405	tmpdvbnode->felasttransponder = tmpdvbnode->feakttransponder;
406	tmpdvbnode->feakttransponder = tpnode;
407	tmpdvbnode->feaktpolarization = tpnode->polarization;
408	free(tmpdvbnode->feaktnr);
409	if(aktnr != NULL)
410	tmpdvbnode->feaktnr = ostrcat(aktnr, NULL, 0, 0);
411	else
412	tmpdvbnode->feaktnr = NULL;
413
414	free(tmpstr); tmpstr = NULL;
415	free(tmpnr); tmpnr = NULL;
416	if(flag != 1) debug(200, "found free tuner witch same orbitalpos %s", dvbnode->feshortname);
417	if(flag != 1) printf("------ found free loop tuner: %s witch same orbitalpos main tuner: %s\n", tmpdvbnode->feshortname, dvbnode->feshortname);
418	return tmpdvbnode;
419	}
420	free(tmpnr); tmpnr = NULL;
421	}
422	free(tmpstr); tmpstr = NULL;
423	if(found == -1)
424	break;
425	}
426	dvbnode = dvbnode->next;
427	}
428	if(dvbfirst != NULL)
429	dvbnode = dvbfirst;
430	else
431	dvbnode = dvbdev;
432
433	//suche tuner der die gewuenschte orbitalpos kann und nicht belegt ist
434	while(dvbnode != NULL)
435	{
436	//FRONTENDDEV first in the list
437	if(dvbnode->type != FRONTENDDEV) break;
438
439	//check if tuner is deactivate
440	if(dvbnode->deactive == 1)
441	{
442	dvbnode = dvbnode->next;
443	continue;
444	}
445	if(dvbnode->type == FRONTENDDEV && dvbnode->feinfo->type == tpnode->fetype && dvbnode->felock == 0)
446	{
447	if(flag == 2 && status.aktservice->fedev == dvbnode)
448	{
449	dvbnode = dvbnode->next;
450	continue;
451	}
452	//check if tuner is main tuner
453	if(getconfig(dvbnode->feshortname, NULL) != NULL)
454	{
455	dvbnode = dvbnode->next;
456	continue;
457	}
458	found = 0;
459	//check if tuner is loop and looptuner is locked
460	tmpstr = getconfigbyval(dvbnode->feshortname, NULL);
461	CharPtrTmp[0] = NULL;
462	if(flag != 1 && dvbnode->feakttransponder != NULL) printf("*****22 %s orbitalpos:%d frequency:%d feaktpolarization:%d lock:%d\n", tmpstr, dvbnode->feakttransponder->orbitalpos, dvbnode->feakttransponder->frequency, dvbnode->feaktpolarization, dvbnode->felock);
463	else if(flag != 1) printf("*****22 %s feakttransponder = NULL\n", tmpstr);
464	while(tmpstr != NULL) //found loop tuner
465	{
466	tmpdvbnode = fegetbyshortname(tmpstr);
467	if(flag != 1 && tmpdvbnode->feakttransponder != NULL) printf("-----22 %s orbitalpos:%d frequency:%d feaktpolarization:%d lock:%d\n", tmpstr, tmpdvbnode->feakttransponder->orbitalpos, tmpdvbnode->feakttransponder->frequency, tmpdvbnode->feaktpolarization, tmpdvbnode->felock);
468	else if(flag != 1) printf("-----22 %s feakttransponder = NULL\n", tmpstr);
469	//if(flag != 1) printf("****** test tuner1 %s -> %s\n", dvbnode->feshortname, tmpdvbnode->feshortname);
470	if(tmpdvbnode != NULL && tmpdvbnode->feakttransponder != NULL && (tmpdvbnode->feaktpolarization != tpnode->polarization \|\| tmpdvbnode->feakttransponder->orbitalpos != tpnode->orbitalpos) && (tmpdvbnode->felock != 0 \|\| (flag == 2 && tmpdvbnode->felock == 0)))
471	{
472	found = -1;
473	break;
474	}
475	else
476	{
477	CharPtrTmp[found] = tmpdvbnode;
478	found = found + 1;
479	}
480	tmpstr = getconfigbyval(tmpstr, NULL); //loop tuner also loop ?
481	}
482	CharPtrTmp[found] = NULL;
483
484	if(found == -1)
485	{
486	dvbnode = dvbnode->next;
487	continue;
488	}
489
490	tmpstr = ostrcat(dvbnode->feshortname, "_sat", 0, 0);
491	for(i = 1; i <= getmaxsat(dvbnode->feshortname); i++)
492	{
493	tmpnr = oitoa(i);
494
495	orbitalpos = getconfigint(tmpstr, tmpnr);
496	if(orbitalpos == tpnode->orbitalpos)
497	{
498	fegetconfig(dvbnode, tpnode, &aktnr, tmpnr);
499	if(flag == 3)
500	band = calclof(dvbnode, tpnode, aktnr, 0);
501	else
502	band = calclof(dvbnode, tpnode, aktnr, 1);
503	found = 0;
504	while(CharPtrTmp[found] != NULL)
505	{
506	//if(flag != 1) printf("++++++ test band1 %s\n", CharPtrTmp[found]->feshortname);
507	if(CharPtrTmp[found] != NULL && CharPtrTmp[found]->feaktband != band && (CharPtrTmp[found]->felock != 0 \|\| (flag == 2 && CharPtrTmp[found]->felock == 0)))
508	{
509	found = 99;
510	break;
511	}
512	found = found + 1;
513	}
514	//if(tmpdvbnode != NULL && tmpdvbnode->feaktband != band && (tmpdvbnode->felock != 0 \|\| (flag == 2 && tmpdvbnode->felock == 0)))
515	//{
516	// free(tmpnr); tmpnr = NULL;
517	// continue;
518	//}
519	if(found == 99)
520	{
521	found = 0;
522	free(tmpnr); tmpnr = NULL;
523	continue;
524	}
525	if(flag == 1)
526	{
527	free(tmpstr); tmpstr = NULL;
528	free(tmpnr); tmpnr = NULL;
529	return dvbnode;
530	}
531
532	found = 0;
533	while(CharPtrTmp[found] != NULL)
534	{
535	CharPtrTmp[found]->feaktband = band;
536	CharPtrTmp[found]->feaktpolarization = tpnode->polarization;
537	found = found + 1;
538	}
539	//if(tmpdvbnode != NULL)
540	//{
541	// tmpdvbnode->feaktband = band;
542	// tmpdvbnode->feaktpolarization = tpnode->polarization;
543	//}
544	dvbnode->felasttransponder = dvbnode->feakttransponder;
545	dvbnode->feakttransponder = tpnode;
546	dvbnode->feaktpolarization = tpnode->polarization;
547	free(dvbnode->feaktnr);
548	if(aktnr != NULL)
549	dvbnode->feaktnr = ostrcat(aktnr, NULL, 0, 0);
550	else
551	dvbnode->feaktnr = NULL;
552
553	free(tmpstr); tmpstr = NULL;
554	free(tmpnr); tmpnr = NULL;
555	if(flag != 1) debug(200, "found free tuner witch same orbitalpos %s", dvbnode->feshortname);
556	if(flag != 1) printf("------ found free tuner witch same orbitalpos %s\n", dvbnode->feshortname);
557	return dvbnode;
558	}
559	free(tmpnr); tmpnr = NULL;
560	}
561	free(tmpstr); tmpstr = NULL;
562	}
563	dvbnode = dvbnode->next;
564	}
565	if(dvbfirst != NULL)
566	dvbnode = dvbfirst;
567	else
568	dvbnode = dvbdev;
569
570	//suche loop tuner, wo der haupttuner
571	//die gewuenschte orbitalpos kann, nicht belegt ist
572	//und auf der gleichen poarization/band ist, wo wir hintunen wollen
573	while(dvbnode != NULL)
574	{
575	//FRONTENDDEV first in the list
576	if(dvbnode->type != FRONTENDDEV) break;
577
578	//check if tuner is deactivate
579	if(dvbnode->deactive == 1)
580	{
581	dvbnode = dvbnode->next;
582	continue;
583	}
584	if(dvbnode->type == FRONTENDDEV && dvbnode->feinfo->type == tpnode->fetype && dvbnode->felock == 0)
585	{
586	if(flag == 2 && status.aktservice->fedev == dvbnode)
587	{
588	dvbnode = dvbnode->next;
589	continue;
590	}
591	if(getconfig(dvbnode->feshortname, NULL) == NULL)
592	{
593	dvbnode = dvbnode->next;
594	continue;
595	}
596	//check if tuner is loop and an other loopt is locked
597	found = 0;
598	tmpstr = getconfigbyval(dvbnode->feshortname, NULL);
599	if(flag != 1 && dvbnode->feakttransponder != NULL) printf("*****33 %s orbitalpos:%d frequency:%d feaktpolarization:%d lock:%d\n", tmpstr, dvbnode->feakttransponder->orbitalpos, dvbnode->feakttransponder->frequency, dvbnode->feaktpolarization, dvbnode->felock);
600	else if(flag != 1) printf("*****22 %s feakttransponder = NULL\n", tmpstr);
601	while(tmpstr != NULL) //found loop tuner
602	{
603	tmpdvbnode = fegetbyshortname(tmpstr);
604	if(flag != 1 && tmpdvbnode->feakttransponder != NULL) printf("-----33 %s orbitalpos:%d frequency:%d feaktpolarization:%d lock:%d\n", tmpstr, tmpdvbnode->feakttransponder->orbitalpos, tmpdvbnode->feakttransponder->frequency, tmpdvbnode->feaktpolarization, tmpdvbnode->felock);
605	else if(flag != 1) printf("-----33 %s feakttransponder = NULL\n", dvbnode->feshortname);
606	//if(flag != 1) printf("****** test tuner2 %s -> %s\n", dvbnode->feshortname, tmpdvbnode->feshortname);
607	if(tmpdvbnode != NULL && tmpdvbnode->feakttransponder != NULL && (tmpdvbnode->feaktpolarization != tpnode->polarization \|\| tmpdvbnode->feakttransponder->orbitalpos != tpnode->orbitalpos) && (tmpdvbnode->felock != 0 \|\| (flag == 2 && tmpdvbnode->felock == 0)))
608	{
609	found = -1;
610	break;
611	}
612	else
613	{
614	CharPtrTmp[found] = tmpdvbnode;
615	found = found + 1;
616	}
617	tmpstr = getconfigbyval(tmpstr, NULL); //loop tuner also loop ?
618	}
619	if(found == -1)
620	{
621	dvbnode = dvbnode->next;
622	continue;
623	}
624	//check if tuner is loop an looptuner is locked
625	tmpstr = getconfig(dvbnode->feshortname, NULL);
626	while(tmpstr != NULL) //found loop tuner
627	{
628	tmpdvbnode = fegetbyshortname(tmpstr);
629	if(flag != 1 && tmpdvbnode->feakttransponder != NULL) printf("-----44 %s orbitalpos:%d frequency:%d feaktpolarization:%d lock:%d\n", tmpstr, tmpdvbnode->feakttransponder->orbitalpos, tmpdvbnode->feakttransponder->frequency, tmpdvbnode->feaktpolarization, tmpdvbnode->felock);
630	else if(flag != 1) printf("-----44 %s feakttransponder = NULL\n", tmpstr);
631	//if(flag != 1) printf("****** test tuner1 %s -> %s\n", dvbnode->feshortname, tmpdvbnode->feshortname);
632	if(tmpdvbnode != NULL && tmpdvbnode->feakttransponder != NULL && (tmpdvbnode->feaktpolarization != tpnode->polarization \|\| tmpdvbnode->feakttransponder->orbitalpos != tpnode->orbitalpos) && (tmpdvbnode->felock != 0 \|\| (flag == 2 && tmpdvbnode->felock == 0)))
633	{
634	found = -1;
635	break;
636	}
637	else
638	{
639	CharPtrTmp[found] = tmpdvbnode;
640	found = found + 1;
641	}
642	tmpstr = getconfig(tmpstr, NULL);
643	}
644	CharPtrTmp[found] = NULL;
645	if(found == -1)
646	{
647	dvbnode = dvbnode->next;
648	continue;
649	}
650
651	tmpstr = ostrcat(tmpdvbnode->feshortname, "_sat", 0, 0);
652	for(i = 1; i <= getmaxsat(tmpdvbnode->feshortname); i++)
653	{
654	tmpnr = oitoa(i);
655	orbitalpos = getconfigint(tmpstr, tmpnr);
656	if(orbitalpos == tpnode->orbitalpos)
657	{
658	fegetconfig(tmpdvbnode, tpnode, &aktnr, tmpnr);
659	if(flag == 3)
660	band = calclof(dvbnode, tpnode, aktnr, 0);
661	else
662	band = calclof(dvbnode, tpnode, aktnr, 1);
663	found = 0;
664	while(CharPtrTmp[found] != NULL)
665	{
666	//if(flag != 1) printf("++++++ test band2 %s\n", CharPtrTmp[found]->feshortname);
667	if(CharPtrTmp[found] != NULL && CharPtrTmp[found]->feaktband != band && (CharPtrTmp[found]->felock != 0 \|\| (flag >= 2 && CharPtrTmp[found]->felock == 0)))
668	{
669	found = 99;
670	break;
671	}
672	found = found + 1;
673	//if(tmpdvbnode != NULL && tmpdvbnode->feaktband != band && (tmpdvbnode->felock != 0 \|\| (flag >= 2 && tmpdvbnode->felock == 0)))
674	//{
675	// free(tmpnr); tmpnr = NULL;
676	// continue;
677	//}
678	}
679	if(found == 99)
680	{
681	found = 0;
682	free(tmpnr); tmpnr = NULL;
683	continue;
684	}
685
686	if(flag == 1)
687	{
688	free(tmpstr); tmpstr = NULL;
689	free(tmpnr); tmpnr = NULL;
690	return dvbnode;
691	}
692	found = 0;
693	while(CharPtrTmp[found] != NULL)
694	{
695	CharPtrTmp[found]->feaktband = band;
696	CharPtrTmp[found]->feaktpolarization = tpnode->polarization;
697	found = found + 1;
698	}
699	//if(tmpdvbnode != NULL)
700	//{
701	// tmpdvbnode->feaktband = band;
702	// tmpdvbnode->feaktpolarization = tpnode->polarization;
703	//}
704	dvbnode->felasttransponder = dvbnode->feakttransponder;
705	dvbnode->feakttransponder = tpnode;
706	dvbnode->feaktpolarization = tpnode->polarization;
707	free(dvbnode->feaktnr);
708	if(aktnr != NULL)
709	dvbnode->feaktnr = ostrcat(aktnr, NULL, 0, 0);
710	else
711	dvbnode->feaktnr = NULL;
712	free(tmpstr); tmpstr = NULL;
713	free(tmpnr); tmpnr = NULL;
714	if(flag != 1) debug(200, "found free looptuner witch same orbitalpos/polarization/band %s main: %s", dvbnode->feshortname, tmpdvbnode->feshortname);
715	if(flag != 1) printf("------ found free looptuner witch same orbitalpos/polarization/band %s main: %s\n", dvbnode->feshortname, tmpdvbnode->feshortname);
716	return dvbnode;
717	}
718	free(tmpnr); tmpnr = NULL;
719	}
720	free(tmpstr); tmpstr = NULL;
721	}
722	dvbnode = dvbnode->next;
723	}
724
725	return NULL;
726	}
727
728	int feopen(struct dvbdev* node, char *fedev)
729	{
730	int fd = -1;
731
732	if(node != NULL)
733	{
734	if((fd = open(node->dev, O_RDWR \| O_NONBLOCK)) < 0)
735	debug(200, "open frontend failed %s", node->dev);
736	node->fd = fd;
737	}
738	else
739	{
740	if((fd = open(fedev, O_RDWR \| O_NONBLOCK)) < 0)
741	debug(200, "open frontend failed %s", fedev);
742	}
743
744	closeonexec(fd);
745	return fd;
746	}
747
748	void feclose(struct dvbdev* node, int fd)
749	{
750	if(node != NULL)
751	{
752	close(node->fd);
753	node->fd = -1;
754	}
755	else
756	close(fd);
757	}
758
759	int fegetunlock(struct dvbdev* node)
760	{
761	fe_status_t status;
762
763	if(node == NULL)
764	{
765	err("NULL detect");
766	return 1;
767	}
768
769	#ifdef SIMULATE
770	return 0;
771	#endif
772
773	if(ioctl(node->fd, FE_READ_STATUS, &status) == -1)
774	perr("FE_READ_STATUS");
775
776	if(status & FE_HAS_LOCK)
777	return 0;
778	else
779	return 1;
780	}
781
782	int fewait(struct dvbdev* node)
783	{
784	//struct dvb_frontend_event ev;
785	fe_status_t status;
786	fe_status_t status_m = 0;
787
788	int count = 0;
789
790	if(node == NULL)
791	{
792	err("NULL detect");
793	return 1;
794	}
795
796	#ifdef SIMULATE
797	return 0;
798	#endif
799
800	int timer = 500;
801
802	#ifdef MIPSEL
803	timer = 2000;
804	#endif
805
806	#ifdef ARM
807	timer = 300;
808	#endif
809
810	//wait for tuner ready
811	debug(200, "wait for tuner start");
812	while(count <= timer)
813	{
814	count++;
815
816	//ioctl(node->fd, FE_GET_EVENT, &ev);
817	//if(ev.status & FE_HAS_LOCK)
818	// return 0;
819	ioctl(node->fd, FE_READ_STATUS, &status);
820	if(status != 0)
821	{
822	if(status_m != status)
823	{
824	debug(200, "status=%02x, fe_lock=%02x, count=%d", status, FE_HAS_LOCK, count);
825	status_m = status;
826	}
827	}
828
829	if(errno == ERANGE)
830	{
831	usleep(1000);
832	continue;
833	}
834
835	if(status & FE_HAS_LOCK)
836	{
837	// if(FE_HAS_SYNC \| FE_HAS_LOCK)
838	debug(200, "wait for tuner end with 0");
839	return 0;
840	}
841	if(node != NULL && ostrstr(node->feinfo->name, "BCM45208") != NULL)
842	{
843	if(status & FE_TIMEDOUT)
844	{
845	debug(200, "wait for tuner end with FE_TIMEDOUT");
846	return 1;
847	}
848	}
849	usleep(1000);
850	}
851	debug(200, "wait for tuner end");
852	//if(ev.status & FE_HAS_LOCK)
853	// return 0;
854	if(status & FE_HAS_LOCK)
855	// if(FE_HAS_SYNC \| FE_HAS_LOCK)
856	return 0;
857	else
858	return 1;
859	}
860
861	void fegetfrontend(struct dvbdev* node)
862	{
863	if(node == NULL)
864	{
865	err("NULL detect");
866	return;
867	}
868
869	#if DVB_API_VERSION >= 5
870	struct dtv_property p[8];
871	struct dtv_properties cmdseq;
872	cmdseq.props = p;
873
874	p[0].cmd = DTV_DELIVERY_SYSTEM;
875	p[1].cmd = DTV_FREQUENCY;
876	p[2].cmd = DTV_MODULATION;
877	p[3].cmd = DTV_SYMBOL_RATE;
878	p[4].cmd = DTV_INNER_FEC;
879	p[5].cmd = DTV_INVERSION;
880	p[6].cmd = DTV_ROLLOFF;
881	p[7].cmd = DTV_PILOT;
882	cmdseq.num = 8;
883
884	if(ioctl(node->fd, FE_GET_PROPERTY, &cmdseq) < 0)
885	{
886	perr("FE_GET_PROPERTY");
887	}
888	else
889	{
890	debug(200, "frontend akt delivery system = %d", p[0].u.data);
891	debug(200, "frontend akt frequency = %d", p[1].u.data);
892	debug(200, "frontend akt inversion = %d", p[5].u.data);
893	debug(200, "frontend akt symbol_rate = %d", p[3].u.data);
894	debug(200, "frontend akt fec_inner = %d", p[4].u.data);
895	debug(200, "frontend akt modulation = %d", p[2].u.data);
896	debug(200, "frontend akt rolloff = %d", p[6].u.data);
897	debug(200, "frontend akt pilot = %d", p[7].u.data);
898	}
899	#else
900	struct dvb_frontend_parameters fe_param;
901
902	if(ioctl(node->fd, FE_GET_FRONTEND, &fe_param) < 0)
903	{
904	perr("FE_GET_FRONTEND");
905	}
906	else
907	{
908	debug(200, "frontend akt frequency = %d", fe_param.frequency);
909	debug(200, "frontend akt inversion = %d", fe_param.inversion);
910	debug(200, "frontend akt u.qpsk.symbol_rate = %d", fe_param.u.qpsk.symbol_rate);
911	debug(200, "frontend akt u.qam.symbol_rate = %d", fe_param.u.qam.symbol_rate);
912	debug(200, "frontend akt u.qpsk.fec_inner = %d", fe_param.u.qpsk.fec_inner);
913	debug(200, "frontend akt u.qam.fec_inner = %d", fe_param.u.qam.fec_inner);
914	debug(200, "frontend akt u.qam.modulation = %d", fe_param.u.qam.modulation);
915	}
916	#endif
917	}
918
919	int fesettone(struct dvbdev* node, fe_sec_tone_mode_t tone, int wait)
920	{
921	int ret = 0;
922
923	if(node == NULL)
924	{
925	err("NULL detect");
926	return 1;
927	}
928
929	debug(200, "FE_SET_TONE: %d (%s)", tone, node->feshortname);
930	if(ioctl(node->fd, FE_SET_TONE, tone) == -1)
931	{
932	perr("FE_SET_TONE");
933	ret = 1;
934	}
935	else
936	{
937	node->feakttone = tone;
938	usleep(wait * 1000);
939	}
940
941	return ret;
942	}
943
944	//flag 0: reset tuner params on volt off
945	//flag 1: don't reset tuner params on volt off
946	int fesetvoltage(struct dvbdev* node, fe_sec_voltage_t volt, int wait)
947	{
948	int ret = 0;
949
950	if(node == NULL)
951	{
952	err("NULL detect");
953	return 1;
954	}
955
956	debug(200, "FE_SET_VOLT: %d (%s)", volt, node->feshortname);
957	if(ioctl(node->fd, FE_SET_VOLTAGE, volt) == -1)
958	{
959	perr("FE_SET_VOLTAGE");
960	ret = 1;
961	}
962	else
963	{
964	node->feaktvolt = volt;
965	if(wait > 0) usleep(wait * 1000);
966
967	if(volt == SEC_VOLTAGE_OFF)
968	{
969	node->feakttransponder = NULL;
970	node->felasttransponder = NULL;
971	node->feunicable = 0;
972	node->feloffrequency = 0;
973	node->feaktband = 0;
974	node->feaktpolarization = 0;
975	node->feakttone = 0;
976	}
977	}
978
979	return ret;
980	}
981
982	void fediseqcsendburst(struct dvbdev* node, fe_sec_mini_cmd_t burst, int wait)
983	{
984	if(node == NULL)
985	{
986	err("NULL detect");
987	return;
988	}
989
990	debug(200, "FE_DISEQC_SEND_BURST: %d (%s)", burst, node->feshortname);
991	if(ioctl(node->fd, FE_DISEQC_SEND_BURST, burst) == -1)
992	perr("FE_DISEQC_SEND_BURST");
993	usleep(wait * 1000);
994	}
995
996	void fediseqcsendmastercmd(struct dvbdev* node, struct dvb_diseqc_master_cmd *cmd, int wait)
997	{
998	int i, repeat = 0, imsg = 0;
999	char* tmpstr = NULL;
1000
1001	if(node == NULL)
1002	{
1003	err("NULL detect");
1004	return;
1005	}
1006
1007	if(cmd == NULL) return;
1008	if(cmd->msg_len == 0) return;
1009
1010	tmpstr = ostrcat(node->feshortname, "_diseqc_repeat", 0, 0);
1011	repeat = getconfigint(tmpstr, node->feaktnr);
1012	free(tmpstr); tmpstr = NULL;
1013	if(repeat < 1) repeat = 1;
1014
1015	for(i = 0; i < repeat; i++)
1016	{
1017	if(ioctl(node->fd, FE_DISEQC_SEND_MASTER_CMD, cmd) == -1)
1018	{
1019	perr("FE_DISEQC_SEND_MASTER_CMD");
1020	}
1021	usleep(wait * 1000);
1022	}
1023	imsg = (cmd->msg[0] << 24) \| (cmd->msg[1] << 16) \| (cmd->msg[2] << 8) \| cmd->msg[3];
1024	debug(200, "DISEQC Master cmd (%s -> %04X)", node->feshortname, imsg);
1025	}
1026
1027	void fesdiseqcpoweron(struct dvbdev* node)
1028	{
1029	struct dvb_diseqc_master_cmd cmd = {{0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, 0};
1030
1031	if(node == NULL)
1032	{
1033	err("NULL detect");
1034	return;
1035	}
1036
1037	cmd.msg[0] = 0xE0;
1038	cmd.msg[1] = 0x00;
1039	cmd.msg[2] = 0x03;
1040	cmd.msg_len = 3;
1041
1042	debug(200, "DISEQC Power on (%s)", node->feshortname);
1043	fediseqcsendmastercmd(node, &cmd, 100);
1044	}
1045
1046	void fesdiseqcreset(struct dvbdev* node)
1047	{
1048	struct dvb_diseqc_master_cmd cmd = {{0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, 0};
1049
1050	if(node == NULL)
1051	{
1052	err("NULL detect");
1053	return;
1054	}
1055
1056	cmd.msg[0] = 0xE0;
1057	cmd.msg[1] = 0x00;
1058	cmd.msg[2] = 0x00;
1059	cmd.msg_len = 3;
1060
1061	debug(200, "DISEQC Reset (%s)", node->feshortname);
1062	fediseqcsendmastercmd(node, &cmd, 100);
1063	}
1064
1065	void fesdiseqcstandby(struct dvbdev* node)
1066	{
1067	struct dvb_diseqc_master_cmd cmd = {{0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, 0};
1068
1069	if(node == NULL)
1070	{
1071	err("NULL detect");
1072	return;
1073	}
1074
1075	cmd.msg[0] = 0xE0;
1076	cmd.msg[1] = 0x00;
1077	cmd.msg[2] = 0x02;
1078	cmd.msg_len = 3;
1079
1080	debug(200, "DISEQC Standby (%s)", node->feshortname);
1081	fediseqcsendmastercmd(node, &cmd, 100);
1082	}
1083
1084	void fediseqcrotor(struct dvbdev* node, struct transponder* tpnode, int pos, int flag)
1085	{
1086	int orbitalpos = 0;
1087	fe_sec_voltage_t oldvolt = 0;
1088	fe_sec_tone_mode_t oldtone = 0;
1089	struct dvb_diseqc_master_cmd cmd = {{0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, 0};
1090
1091	if(node == NULL)
1092	{
1093	err("NULL detect");
1094	return;
1095	}
1096
1097	fesdiseqcpoweron(node);
1098
1099	oldvolt = node->feaktvolt;
1100	oldtone = node->feakttone;
1101
1102	if(tpnode == NULL)
1103	orbitalpos = 0;
1104	else
1105	orbitalpos = tpnode->orbitalpos;
1106
1107	//float speed13V = 1.5; //1.5 Grad pro sec
1108	float speed18V = 1; //2.4 Grad pro sek
1109	float degreesmov, waittime;
1110
1111	switch(flag)
1112	{
1113	case 0: //stop move
1114	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x60; cmd.msg_len = 3;
1115	debug(200, "DISEQC Rotorpos stop move (%s)", node->feshortname);
1116	break;
1117	case 1: //disable limits
1118	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x63; cmd.msg_len = 3;
1119	debug(200, "DISEQC Rotorpos disable limits (%s)", node->feshortname);
1120	break;
1121	case 2: //enable limits
1122	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x6A; cmd.msg[3] = 0x00; cmd.msg_len = 4;
1123	debug(200, "DISEQC Rotorpos enable limits (%s)", node->feshortname);
1124	break;
1125	case 3: //set east limit
1126	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x66; cmd.msg_len = 3;
1127	debug(200, "DISEQC Rotorpos set east limit (%s)", node->feshortname);
1128	break;
1129	case 4: //set west limit
1130	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x67; cmd.msg_len = 3;
1131	debug(200, "DISEQC Rotorpos set west limit (%s)", node->feshortname);
1132	break;
1133	case 5: //move east cont.
1134	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x68; cmd.msg[3] = 0x00; cmd.msg_len = 4;
1135	debug(200, "DISEQC Rotorpos move east cont. (%s)", node->feshortname);
1136	break;
1137	case 6: //move west cont.
1138	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x69; cmd.msg[3] = 0x00; cmd.msg_len = 4;
1139	debug(200, "DISEQC Rotorpos move west cont. (%s)", node->feshortname);
1140	break;
1141	case 7: //store pos
1142	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x6A; cmd.msg[3] = pos; cmd.msg_len = 4;
1143	debug(200, "DISEQC Rotorpos store pos=%d (%s)", pos, node->feshortname);
1144	break;
1145	case 8: //goto pos
1146	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x6B; cmd.msg[3] = pos; cmd.msg_len = 4;
1147	debug(200, "DISEQC Rotorpos goto pos=%d (%s)", pos, node->feshortname);
1148	break;
1149	case 9: //step xx pos east
1150	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x68; cmd.msg[3] = 256 - pos; cmd.msg_len = 4;
1151	debug(200, "DISEQC Rotorpos step east pos=%d (%s)", pos, node->feshortname);
1152	break;
1153	case 10: //step xx pos west
1154	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x69; cmd.msg[3] = 256 - pos; cmd.msg_len = 4;
1155	debug(200, "DISEQC Rotorpos step west pos=%d (%s)", pos, node->feshortname);
1156	break;
1157	case 11: //goto xx
1158	cmd.msg[0] = 0xE0; cmd.msg[1] = 0x31; cmd.msg[2] = 0x6E; cmd.msg[3] = (pos >> 8) & 0xff; cmd.msg[4] = pos & 0xff; cmd.msg_len = 5;
1159	debug(200, "DISEQC Rotorpos goto xx pos=%d (%s)", pos, node->feshortname);
1160	break;
1161	}
1162
1163	if(flag >= 0 && flag < 7)
1164	{
1165	fesetvoltage(node, SEC_VOLTAGE_18, 15);
1166	fesettone(node, SEC_TONE_OFF, 15);
1167	fediseqcsendmastercmd(node, &cmd, 100);
1168	}
1169
1170	if((flag == 7 \|\| flag == 9 \|\| flag == 10) && pos != 0)
1171	{
1172	fesetvoltage(node, SEC_VOLTAGE_18, 15);
1173	fesettone(node, SEC_TONE_OFF, 15);
1174	fediseqcsendmastercmd(node, &cmd, 100);
1175	}
1176
1177	if((flag == 8 \|\| flag == 11) && (orbitalpos == 0 \|\| status.rotoroldorbitalpos == 0 \|\| orbitalpos != status.rotoroldorbitalpos))
1178	{
1179	fesetvoltage(node, SEC_VOLTAGE_18, 15);
1180	fesettone(node, SEC_TONE_OFF, 15);
1181	fediseqcsendmastercmd(node, &cmd, 100);
1182
1183	if(status.rotoroldorbitalpos == 0 \|\| orbitalpos == 0)
1184	waittime = 15;
1185	else
1186	{
1187	degreesmov = abs(orbitalpos - status.rotoroldorbitalpos) / 10;
1188	waittime = (int)ceil((float)degreesmov / (float)speed18V);
1189	}
1190
1191	status.rotoroldorbitalpos = orbitalpos;
1192	sleep(waittime);
1193	}
1194
1195	fesetvoltage(node, oldvolt, 15);
1196	fesettone(node, oldtone, 15);
1197	}
1198
1199	void fesetunicable(struct dvbdev* node)
1200	{
1201	int unicabletune = 0;
1202	char* tmpstr = NULL;
1203	struct dvb_diseqc_master_cmd cmd = {{0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, 0};
1204
1205	if(node == NULL)
1206	{
1207	err("NULL detect");
1208	return;
1209	}
1210
1211	tmpstr = ostrcat(node->feshortname, "_lnb_satcr", 0, 0);
1212	int satcr = getconfigint(tmpstr, node->feaktnr) - 1;
1213	if(satcr < 0) satcr = 0;
1214	free(tmpstr); tmpstr = NULL;
1215
1216	tmpstr = ostrcat(node->feshortname, "_diseqc", 0, 0);
1217	int aktdiseqc = getconfigint(tmpstr, node->feaktnr);
1218	if(aktdiseqc < 1) aktdiseqc = 1;
1219	free(tmpstr); tmpstr = NULL;
1220
1221	unicabletune \|= ((satcr & 0x7) << 13);
1222	unicabletune \|= (((aktdiseqc - 1) & 0x1) << 12);
1223	unicabletune \|= (((!node->feaktpolarization) & 0x1) << 11);
1224	unicabletune \|= ((node->feaktband & 0x1) << 10);
1225	unicabletune \|= ((node->feloffrequency / 1000) & 0x3ff);
1226
1227	debug(200, "unicabletune %04X", unicabletune);
1228
1229	if(status.firstunicablewait == 0)
1230	{
1231	status.firstunicablewait = getconfigint("firstunicablewait", NULL);
1232	if(status.firstunicablewait == 0)
1233	status.firstunicablewait = 1000;
1234	}
1235
1236	if(status.firstunicablewait > 0)
1237	{
1238	usleep(status.firstunicablewait * 1000);
1239	status.firstunicablewait = -1;
1240	}
1241
1242	fesetvoltage(node, SEC_VOLTAGE_13, 15);
1243	fesetvoltage(node, SEC_VOLTAGE_18, 15);
1244	fesettone(node, SEC_TONE_OFF, 15);
1245
1246	//feunicable
1247	//byte1 (bit 7/6/5) -> satcr number
1248	//byte1 (bit 4/3/2) -> lnb number
1249	//byte1 (bit 1/0) -> frequ
1250	//byte0 -> frequ
1251
1252	cmd.msg[0] = 0xE0;
1253	cmd.msg[1] = 0x10;
1254	cmd.msg[2] = 0x5A;
1255	cmd.msg[3] = (unicabletune >> 8) & 0xff;
1256	cmd.msg[4] = unicabletune & 0xff;
1257	cmd.msg_len = 5;
1258
1259	debug(200, "send diseqc unicable cmd (%s)", node->feshortname);
1260	fediseqcsendmastercmd(node, &cmd, 100);
1261	fesetvoltage(node, SEC_VOLTAGE_13, 15);
1262	}
1263
1264	void fediseqcset(struct dvbdev* node, struct transponder* tpnode)
1265	{
1266	char* tmpstr = NULL;
1267	int toneburst = 0, cmdorder = 0, input = 0, uinput = 0, diseqmode = 0, rotorpos = 0, latpos = 0, longpos = 0;
1268	float latitude = 0, longitude = 0;
1269	fe_sec_mini_cmd_t mini = -1;
1270	struct dvb_diseqc_master_cmd cmd = {{0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, 0};
1271	struct dvb_diseqc_master_cmd ucmd = {{0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, 0};
1272
1273	if(node == NULL) return;
1274
1275	tmpstr = ostrcat(node->feshortname, "_diseqc_committedcmd", 0, 0);
1276	input = getconfigint(tmpstr, node->feaktnr);
1277	free(tmpstr); tmpstr = NULL;
1278	tmpstr = ostrcat(node->feshortname, "_diseqc_uncommittedcmd", 0, 0);
1279	uinput = getconfigint(tmpstr, node->feaktnr);
1280	free(tmpstr); tmpstr = NULL;
1281	tmpstr = ostrcat(node->feshortname, "_diseqc_mode", 0, 0);
1282	diseqmode = getconfigint(tmpstr, node->feaktnr);
1283	free(tmpstr); tmpstr = NULL;
1284	tmpstr = ostrcat(node->feshortname, "_diseqc_cmdorder", 0, 0);
1285	cmdorder = getconfigint(tmpstr, node->feaktnr);
1286	free(tmpstr); tmpstr = NULL;
1287	tmpstr = ostrcat(node->feshortname, "_diseqc_toneburst", 0, 0);
1288	toneburst = getconfigint(tmpstr, node->feaktnr);
1289	free(tmpstr); tmpstr = NULL;
1290	tmpstr = ostrcat(node->feshortname, "_diseqc_rotorpos", 0, 0);
1291	rotorpos = getconfigint(tmpstr, node->feaktnr);
1292	free(tmpstr); tmpstr = NULL;
1293
1294	latitude = getconfigfloat("latitude", NULL);
1295	longitude = getconfigfloat("longitude", NULL);
1296	latpos = getconfigint("latpos", NULL);
1297	longpos = getconfigint("longpos", NULL);
1298
1299	tmpstr = ostrcat(node->feshortname, "_diseqc", 0, 0);
1300	int aktdiseqc = getconfigint(tmpstr, node->feaktnr);
1301	if(aktdiseqc < 1) aktdiseqc = 1;
1302	free(tmpstr); tmpstr = NULL;
1303
1304	debug(200, "set diseqc: number=%d, band=%d, pol=%d, diseqmode=%d, input=%d, uinput=%d, cmdorder=%d, toneburst=%d (%s)", aktdiseqc, node->feaktband, node->feaktpolarization, diseqmode, input, uinput, cmdorder, toneburst, node->feshortname);
1305
1306	switch(toneburst)
1307	{
1308	case 1: mini = SEC_MINI_A; break;
1309	case 2: mini = SEC_MINI_B; break;
1310	}
1311
1312	if(diseqmode == 100) // Tonburst A/B
1313	{
1314	debug(200, "set diseqc: Tonburst A/B (%s)", node->feshortname);
1315	if(mini == -1)
1316	mini = (aktdiseqc - 1) % 2 ? SEC_MINI_B : SEC_MINI_A;
1317	fediseqcsendburst(node, mini, 15);
1318	return;
1319	}
1320
1321	if(diseqmode == 0 \|\| diseqmode == 1) // Diseqc 1.0 + 1.1
1322	{
1323	debug(200, "set committed switch (%s)", node->feshortname);
1324	fesdiseqcpoweron(node);
1325	cmd.msg[0] = 0xE0;
1326	cmd.msg[1] = 0x10;
1327	cmd.msg[2] = 0x38;
1328
1329	if(input == 0)
1330	cmd.msg[3] = 0xF0 \| ((((aktdiseqc - 1) * 4) & 0x0F) \| (node->feaktband ? 1 : 0) \| (node->feaktpolarization ? 0 : 2));
1331	else
1332	cmd.msg[3] = 0xF0 + ((input - 1) & 0x0F);
1333
1334	cmd.msg_len = 4;
1335	}
1336
1337	if(diseqmode == 1) // Diseqc 1.1
1338	{
1339	if(uinput > 0)
1340	{
1341	debug(200, "set uncommitted switch (%s)", node->feshortname);
1342	fesdiseqcpoweron(node);
1343	ucmd.msg[0] = 0xE0;
1344	ucmd.msg[1] = 0x10;
1345	ucmd.msg[2] = 0x39;
1346	ucmd.msg[3] = 0xF0 + ((uinput - 1) & 0x0F);
1347	ucmd.msg_len = 4;
1348	}
1349	}
1350
1351	switch(cmdorder)
1352	{
1353	case 1:
1354	if(mini != -1) fediseqcsendburst(node, mini, 15);
1355	fediseqcsendmastercmd(node, &cmd, 100);
1356	break;
1357	case 2:
1358	fediseqcsendmastercmd(node, &cmd, 100);
1359	if(uinput > 0) fediseqcsendmastercmd(node, &ucmd, 100);
1360	if(mini != -1) fediseqcsendburst(node, mini, 15);
1361	break;
1362	case 3:
1363	if(mini != -1) fediseqcsendburst(node, mini, 15);
1364	fediseqcsendmastercmd(node, &cmd, 100);
1365	if(uinput > 0) fediseqcsendmastercmd(node, &ucmd, 100);
1366	break;
1367	case 4:
1368	if(uinput > 0) fediseqcsendmastercmd(node, &ucmd, 100);
1369	fediseqcsendmastercmd(node, &cmd, 100);
1370	if(mini != -1) fediseqcsendburst(node, mini, 15);
1371	break;
1372	case 5:
1373	if(mini != -1) fediseqcsendburst(node, mini, 15);
1374	if(uinput > 0) fediseqcsendmastercmd(node, &ucmd, 100);
1375	fediseqcsendmastercmd(node, &cmd, 100);
1376	break;
1377	default:
1378	fediseqcsendmastercmd(node, &cmd, 100);
1379	if(mini != -1) fediseqcsendburst(node, mini, 15);
1380	break;
1381	}
1382
1383	if(diseqmode == 2) // Diseqc 1.2
1384	{
1385	fediseqcrotor(node, tpnode, rotorpos, 8);
1386	}
1387
1388	if(diseqmode == 3) // Diseqc 1.3 (USALS)
1389	{
1390	double orbitalpos = tpnode->orbitalpos / 10.00;
1391
1392	if(latpos == 1) // south
1393	latitude = -latitude;
1394
1395	if(longpos == 1) // west
1396	longitude = 360 - longitude;
1397
1398	double satHourAngle = calcSatHourangle(orbitalpos, latitude, longitude);
1399	int gotoXTable[10] = {0x00, 0x02, 0x03, 0x05, 0x06, 0x08, 0x0A, 0x0B, 0x0D, 0x0E};
1400
1401	if(latitude >= 0) // Northern Hemisphere
1402	{
1403	int tmp = (int)round(fabs(180 - satHourAngle) * 10.0);
1404	rotorpos = (tmp / 10) * 0x10 + gotoXTable[tmp % 10];
1405
1406	if(satHourAngle < 180) // the east
1407	rotorpos \|= 0xE000;
1408	else // west
1409	rotorpos \|= 0xD000;
1410	}
1411	else // Southern Hemisphere
1412	{
1413	if(satHourAngle < 180) // the east
1414	{
1415	int tmp = (int)round(fabs(satHourAngle) * 10.0);
1416	rotorpos = (tmp / 10) * 0x10 + gotoXTable[tmp % 10];
1417	rotorpos \|= 0xD000;
1418	}
1419	else // west
1420	{
1421	int tmp = (int)round(fabs(360 - satHourAngle) * 10.0);
1422	rotorpos = (tmp / 10) * 0x10 + gotoXTable[tmp % 10];
1423	rotorpos \|= 0xE000;
1424	}
1425	}
1426	debug(200, "orbitalpos=%f, latitude=%f, longitude=%f, rotorpos=%04x", orbitalpos, latitude, longitude, rotorpos);
1427
1428	fediseqcrotor(node, tpnode, rotorpos, 11);
1429	}
1430	}
1431
1432	void feset(struct dvbdev* node, struct transponder* tpnode)
1433	{
1434	int voltagemode = 0, tonemode = 0;
1435	fe_sec_tone_mode_t tone;
1436	fe_sec_voltage_t volt;
1437	struct dvbdev* dvbnode = dvbdev;
1438	char* tmpstr = NULL;
1439
1440	if(node == NULL)
1441	{
1442	err("NULL detect");
1443	return;
1444	}
1445
1446	// set volage off from other unused frontend
1447	while(dvbnode != NULL)
1448	{
1449	if(dvbnode->type != FRONTENDDEV) break;
1450	if(dvbnode->type == FRONTENDDEV && dvbnode != node && dvbnode->felock == 0 && dvbnode != status.aktservice->fedev)
1451	{
1452	fesetvoltage(dvbnode, SEC_VOLTAGE_OFF, 0);
1453	}
1454	dvbnode = dvbnode->next;
1455	}
1456
1457	calclof(node, tpnode, NULL, 0);
1458
1459	tmpstr = ostrcat(node->feshortname, "lnb_voltagemode", 0, 0);
1460	voltagemode = getconfigint(tmpstr, node->feaktnr);
1461	free(tmpstr); tmpstr = NULL;
1462	switch(voltagemode)
1463	{
1464	case 1: volt = SEC_VOLTAGE_13; break;
1465	case 2: volt = SEC_VOLTAGE_18; break;
1466	default: volt = node->feaktpolarization ? SEC_VOLTAGE_13 : SEC_VOLTAGE_18;
1467	if(node->feunicable == 1) volt = SEC_VOLTAGE_13;
1468	}
1469	fesetvoltage(node, volt, 15);
1470
1471	tmpstr = ostrcat(node->feshortname, "_diseqc", 0, 0);
1472	if(getconfigint(tmpstr, node->feaktnr) == 0 \|\| node->feunicable == 1)
1473	{
1474	debug(200, "don't use diseqc");
1475	}
1476	else
1477	{
1478	fesettone(node, SEC_TONE_OFF, 15);
1479	fediseqcset(node, tpnode);
1480	}
1481	free(tmpstr); tmpstr = NULL;
1482
1483	tmpstr = ostrcat(node->feshortname, "_lnb_tonemode", 0, 0);
1484	tonemode = getconfigint(tmpstr, node->feaktnr);
1485	free(tmpstr); tmpstr = NULL;
1486	switch(tonemode)
1487	{
1488	case 1: tone = SEC_TONE_ON; break;
1489	case 2: tone = SEC_TONE_OFF; break;
1490	default: tone = node->feaktband ? SEC_TONE_ON : SEC_TONE_OFF;
1491	if(node->feunicable == 1) tone = SEC_TONE_OFF;
1492	}
1493	fesettone(node, tone, 15);
1494	}
1495
1496	void fediscard(struct dvbdev* node)
1497	{
1498	struct dvb_frontend_event ev;
1499	int count = 0;
1500
1501	if(node == NULL)
1502	{
1503	err("NULL detect");
1504	return;
1505	}
1506
1507	/* discard stale QPSK events */
1508	while(count < 20)
1509	{
1510	count++;
1511	if(ioctl(node->fd, FE_GET_EVENT, &ev) == -1)
1512	break;
1513	}
1514	}
1515
1516	uint16_t fereadsnr(struct dvbdev* node)
1517	{
1518	uint16_t snr = 0;
1519	if(node == NULL)
1520	{
1521	err("NULL detect");
1522	return 0;
1523	}
1524	int signalquality = 0;
1525	int signalqualitydb = 0;
1526	#ifdef ARM
1527	//#ifdef MIPSEL
1528	#if DVB_API_VERSION >= 5
1529	//#if DVB_API_VERSION > 5 \|\| DVB_API_VERSION == 5 && DVB_API_VERSION_MINOR >= 10
1530
1531	int test1 = 0;
1532	int test2 = 0;
1533	struct dtv_property prop[1];
1534	prop[0].cmd = DTV_STAT_CNR;
1535	struct dtv_properties props;
1536	props.props = prop;
1537	props.num = 1;
1538
1539	if(ioctl(node->fd, FE_GET_PROPERTY, &props) < 0 && errno != ERANGE)
1540	{
1541	perr("FE_GET_PROPERTY");
1542	}
1543	else
1544	{
1545	for(unsigned int i=0; i<prop[0].u.st.len; i++)
1546	{
1547	if (prop[0].u.st.stat[i].scale == FE_SCALE_DECIBEL && test1 == 0)
1548	{
1549	test1 = 1;
1550	signalqualitydb = prop[0].u.st.stat[i].svalue / 10;
1551	printf("***** new snr signalqualitydb:%d\n", signalqualitydb);
1552	}
1553	else if (prop[0].u.st.stat[i].scale == FE_SCALE_RELATIVE && test2 == 0)
1554	{
1555	test2 = 1;
1556	signalquality = prop[0].u.st.stat[i].svalue;
1557	printf("***** new snr signalquality:%d\n", signalquality);
1558	}
1559	}
1560	}
1561	#endif
1562	if(!signalquality && !signalqualitydb)
1563	{
1564	int ret = 0x12345678;
1565	int sat_max = 1600; // we assume a max of 16db here
1566	int ter_max = 2900; // we assume a max of 29db here
1567	int cab_max = 4200; // we assume a max of 42db here
1568	//int atsc_max = 4200; // we assume a max of 42db here
1569
1570	ioctl(node->fd, FE_READ_SNR, &snr);
1571
1572	printf("***** old snr signalquality\n");
1573
1574	if(ostrstr(node->feinfo->name, "Si2166B") != NULL)
1575	{
1576	ret = (snr * 240) >> 8;
1577	}
1578	else if (ostrstr(node->feinfo->name, "ATBM781x") != NULL)
1579	{
1580	ret = snr*10;
1581	}
1582	else if(ostrstr(node->feinfo->name, "BCM4506") != NULL \|\| ostrstr(node->feinfo->name, "BCM4506 (internal)") != NULL \|\| ostrstr(node->feinfo->name, "BCM4505") != NULL \|\| ostrstr(node->feinfo->name, "BCM73625 (G3)") != NULL \|\| ostrstr(node->feinfo->name, "BCM45208") != NULL)
1583	{
1584	ret = (snr * 100) >> 8;
1585	}
1586	else if (ostrstr(node->feinfo->name, "Si216") != NULL) // all new Models with SI Tuners
1587	{
1588	ret = snr;
1589	}
1590	signalqualitydb = ret;
1591	if (ret == 0x12345678) // no snr db calculation avail.. return untouched snr value..
1592	{
1593	signalquality = snr;
1594	}
1595	else
1596	{
1597	if(node->feinfo->type == FE_QPSK)
1598	signalquality = (ret >= sat_max ? 65536 : ret * 65536 / sat_max);
1599	else if(node->feinfo->type == FE_QAM)
1600	signalquality = (ret >= cab_max ? 65536 : ret * 65536 / cab_max);
1601	else if(node->feinfo->type == FE_OFDM)
1602	signalquality = (ret >= ter_max ? 65536 : ret * 65536 / ter_max);
1603	}
1604	}
1605	debug(200, "frontend snr = %02x", signalquality );
1606	return signalquality;
1607	#else
1608	ioctl(node->fd, FE_READ_SNR, &snr);
1609	debug(200, "frontend snr = %02x", (snr * 100) / 0xffff);
1610	return snr;
1611	#endif
1612	}
1613
1614	uint16_t fereadsignalstrength(struct dvbdev* node)
1615	{
1616	uint16_t signal = 0;
1617
1618	if(node == NULL)
1619	{
1620	err("NULL detect");
1621	return 0;
1622	}
1623	#ifdef MIPSEL
1624	#if DVB_API_VERSION >= 5
1625	struct dtv_property prop[1];
1626	prop[0].cmd = DTV_STAT_SIGNAL_STRENGTH;
1627	struct dtv_properties props;
1628	props.props = prop;
1629	props.num = 1;
1630	if (ioctl(node->fd, FE_GET_PROPERTY, &props) < 0 && errno != ERANGE)
1631	{
1632	debug(200, "DTV_STAT_SIGNAL_STRENGTH failed");
1633	}
1634	else
1635	{
1636	for(unsigned int i=0; i<prop[0].u.st.len; i++)
1637	{
1638	if (prop[0].u.st.stat[i].scale == FE_SCALE_RELATIVE)
1639	signal = prop[0].u.st.stat[i].uvalue;
1640	}
1641	}
1642	if (signal)
1643	return signal;
1644	// fallback to old DVB API
1645	#endif
1646	#endif
1647	if(ioctl(node->fd, FE_READ_SIGNAL_STRENGTH, &signal) < 0 && errno != ERANGE)
1648	{
1649	debug(200, "FE_READ_SIGNAL_STRENGTH failed");
1650	}
1651	else
1652	{
1653	if(ostrstr(node->feinfo->name, "Si2166B") != NULL \|\| ostrstr(node->feinfo->name, "BCM45208") != NULL)
1654	signal = signal * 1000;
1655	debug(200, "frontend signal = %02x", (signal * 100) / 0xffff);
1656	}
1657	return signal;
1658	}
1659
1660	uint32_t fereadber(struct dvbdev* node)
1661	{
1662	uint32_t ber = 0;
1663
1664	if(node == NULL)
1665	{
1666	err("NULL detect");
1667	return 0;
1668	}
1669
1670	ioctl(node->fd, FE_READ_BER, &ber);
1671	debug(200, "frontend ber = %02x", ber);
1672	return ber;
1673	}
1674
1675	uint32_t fereaduncorrectedblocks(struct dvbdev* node)
1676	{
1677	uint32_t unc = 0;
1678
1679	if(node == NULL)
1680	{
1681	err("NULL detect");
1682	return 0;
1683	}
1684
1685	ioctl(node->fd, FE_READ_UNCORRECTED_BLOCKS, &unc);
1686	debug(200, "frontend unc = %02x", unc);
1687	return unc;
1688	}
1689
1690	fe_status_t fereadstatus(struct dvbdev* node)
1691	{
1692	fe_status_t status;
1693
1694	if(node == NULL)
1695	{
1696	err("NULL detect");
1697	return -1;
1698	}
1699
1700	if(ioctl(node->fd, FE_READ_STATUS, &status) == -1)
1701	perr("FE_READ_STATUS");
1702
1703	debug(200, "frontend status = %02x", status);
1704	if(status & FE_HAS_LOCK) debug(200, "frontend = FE_HAS_LOCK");
1705	if(status & FE_HAS_SIGNAL) debug(200, "frontend = FE_HAS_SIGNAL");
1706	if(status & FE_HAS_CARRIER) debug(200, "frontend = FE_HAS_CARRIER");
1707	if(status & FE_HAS_VITERBI) debug(200, "frontend = FE_HAS_VITERBI");
1708	if(status & FE_HAS_SYNC) debug(200, "frontend = FE_HAS_SYNC");
1709	if(status & FE_TIMEDOUT) debug(200, "frontend = FE_TIMEDOUT");
1710	if(status & FE_REINIT) debug(200, "frontend = FE_REINIT");
1711
1712	return status;
1713	}
1714
1715	int fetunedvbs(struct dvbdev* node, struct transponder* tpnode)
1716	{
1717	if(node == NULL \|\| tpnode == NULL)
1718	{
1719	err("NULL detect");
1720	return 1;
1721	}
1722
1723	if(node->feunicable == 1)
1724	{
1725	fesetunicable(node);
1726	char* tmpstr = ostrcat(node->feshortname, "_lnb_satcrfrequ", 0, 0);
1727	node->feloffrequency = getconfigint(tmpstr, node->feaktnr) * 1000;
1728	free(tmpstr); tmpstr = NULL;
1729	}
1730
1731	#if DVB_API_VERSION >= 5
1732	struct dtv_property p[10];
1733	struct dtv_properties cmdseq;
1734	cmdseq.props = p;
1735
1736	//convert transponderlist for dvbapi5
1737	int system = tpnode->system;
1738	switch(system)
1739	{
1740	case 0: system = SYS_DVBS; break;
1741	case 1: system = SYS_DVBS2; break;
1742	default: system = SYS_DVBS; break;
1743	}
1744
1745	int fec = tpnode->fec;
1746	switch(fec)
1747	{
1748	case 0: fec = FEC_AUTO; break;
1749	case 1: fec = FEC_1_2; break;
1750	case 2: fec = FEC_2_3; break;
1751	case 3: fec = FEC_3_4; break;
1752	case 4: fec = FEC_5_6; break;
1753	case 5: fec = FEC_7_8; break;
1754	case 6: fec = FEC_8_9; break;
1755	case 7: fec = FEC_3_5; break;
1756	case 8: fec = FEC_4_5; break;
1757	case 9: fec = FEC_9_10; break;
1758	case 15: fec = FEC_NONE; break;
1759	default: fec = FEC_AUTO; break;
1760	}
1761	int pilot = tpnode->pilot;
1762	switch(pilot)
1763	{
1764	case 0: pilot = PILOT_OFF; break;
1765	case 1: pilot = PILOT_ON; break;
1766	case 2: pilot = PILOT_AUTO; break;
1767	default: pilot = PILOT_AUTO; break;
1768	}
1769	int rolloff = tpnode->rolloff;
1770	switch(rolloff)
1771	{
1772	case 0: rolloff = ROLLOFF_35; break;
1773	case 1: rolloff = ROLLOFF_25; break;
1774	case 2: rolloff = ROLLOFF_20; break;
1775	default: rolloff = ROLLOFF_35; break;
1776	}
1777
1778	int modulation = tpnode->modulation;
1779	switch(modulation)
1780	{
1781	case 0: modulation = QPSK; break;
1782	case 1: modulation = QPSK; break;
1783	case 2: modulation = PSK_8; break;
1784	case 3: modulation = QAM_16; break;
1785	default: modulation = QPSK; break;
1786	}
1787
1788	p[0].cmd = DTV_CLEAR;
1789	p[1].cmd = DTV_DELIVERY_SYSTEM, p[1].u.data = system;
1790	p[2].cmd = DTV_FREQUENCY, p[2].u.data = node->feloffrequency;
1791	p[3].cmd = DTV_MODULATION, p[3].u.data = modulation;
1792	p[4].cmd = DTV_SYMBOL_RATE, p[4].u.data = tpnode->symbolrate;
1793	p[5].cmd = DTV_INNER_FEC, p[5].u.data = fec;
1794	p[6].cmd = DTV_INVERSION, p[6].u.data = (fe_spectral_inversion_t) tpnode->inversion;
1795	if(system == SYS_DVBS2)
1796	{
1797	p[7].cmd = DTV_ROLLOFF, p[7].u.data = rolloff;
1798	p[8].cmd = DTV_PILOT, p[8].u.data = pilot;
1799	p[9].cmd = DTV_TUNE;
1800	cmdseq.num = 10;
1801	}
1802	else
1803	{
1804	p[7].cmd = DTV_TUNE;
1805	cmdseq.num = 8;
1806	}
1807
1808	debug(200, "new dvbapi: frequ=%d, inversion=%d, pilot=%d, rolloff=%d, fec=%d, sr=%d, modulation=%d, system=%d (%s)", node->feloffrequency, tpnode->inversion, pilot, rolloff, fec, tpnode->symbolrate, modulation, system, node->feshortname);
1809	#else
1810	struct dvb_frontend_parameters tuneto;
1811	fe_spectral_inversion_t inversion = tpnode->inversion;
1812
1813	//convert transponderlist for dvbapi3
1814	int fec = tpnode->fec;
1815	if(tpnode->system == 1)
1816	{
1817	if(tpnode->modulation == 1) fec = fec + 9;
1818	if(tpnode->modulation == 2) fec = fec + 18;
1819	}
1820
1821	inversion \|= (tpnode->rolloff << 2) \| inversion; // use bit 2..3 of inversion for rolloff
1822	inversion \|= (tpnode->pilot << 4) \| inversion; // use bit 4..5 of inversion for pilot
1823
1824	tuneto.frequency = node->feloffrequency;
1825	tuneto.inversion = inversion;
1826	tuneto.u.qpsk.symbol_rate = tpnode->symbolrate;
1827	tuneto.u.qpsk.fec_inner = fec;
1828
1829	debug(200, "old dvbapi: frequ=%d, inversion=%d, pilot=%d, rolloff=%d, fec=%d, sr=%d modulation=%d, system=%d (%s)", node->feloffrequency, inversion, tpnode->pilot, tpnode->rolloff, fec, tpnode->symbolrate, tpnode->modulation, tpnode->system, node->feshortname);
1830	#endif
1831
1832	fediscard(node);
1833
1834	#if DVB_API_VERSION >= 5
1835	if((ioctl(node->fd, FE_SET_PROPERTY, &cmdseq)) == -1)
1836	{
1837	perr("FE_SET_PROPERTY");
1838	return 1;
1839	}
1840	#else
1841	if(ioctl(node->fd, FE_SET_FRONTEND, &tuneto) == -1)
1842	{
1843	perr("FE_SET_FRONTEND");
1844	return 1;
1845	}
1846	#endif
1847
1848	return 0;
1849	}
1850
1851	int fetunedvbc(struct dvbdev* node, struct transponder* tpnode)
1852	{
1853	if(node == NULL \|\| tpnode == NULL)
1854	{
1855	err("NULL detect");
1856	return 1;
1857	}
1858
1859	int fec = tpnode->fec;
1860	switch(fec)
1861	{
1862	case 0: fec = FEC_AUTO; break;
1863	case 1: fec = FEC_1_2; break;
1864	case 2: fec = FEC_2_3; break;
1865	case 3: fec = FEC_3_4; break;
1866	case 4: fec = FEC_5_6; break;
1867	case 5: fec = FEC_7_8; break;
1868	case 6: fec = FEC_8_9; break;
1869	case 7: fec = FEC_3_5; break;
1870	case 8: fec = FEC_4_5; break;
1871	case 9: fec = FEC_9_10; break;
1872	case 15: fec = FEC_NONE; break;
1873	default: fec = FEC_AUTO; break;
1874	}
1875
1876	int modulation = tpnode->modulation;
1877	switch(modulation)
1878	{
1879	case 0: modulation = QAM_AUTO; break;
1880	case 1: modulation = QAM_16; break;
1881	case 2: modulation = QAM_32; break;
1882	case 3: modulation = QAM_64; break;
1883	case 4: modulation = QAM_128; break;
1884	case 5: modulation = QAM_256; break;
1885	default: modulation = QAM_AUTO; break;
1886	}
1887
1888	#if DVB_API_VERSION >= 5
1889	struct dtv_property p[8];
1890	struct dtv_properties cmdseq;
1891	cmdseq.props = p;
1892
1893	int system = tpnode->system;
1894
1895	#if DREAMBOX
1896	switch(system)
1897	{
1898	//case 0: system = SYS_DVBC_ANNEX_A; break;
1899	//case 1: system = SYS_DVBC_ANNEX_C; break;
1900	//default: system = SYS_DVBC_ANNEX_A; break;
1901	case 0: system = 1; break;
1902	case 1: system = 18; break;
1903	default: system = 1; break;
1904	}
1905	#endif
1906
1907	p[0].cmd = DTV_CLEAR;
1908	p[1].cmd = DTV_DELIVERY_SYSTEM, p[1].u.data = system;
1909	p[2].cmd = DTV_FREQUENCY, p[2].u.data = tpnode->frequency;
1910	p[3].cmd = DTV_MODULATION, p[3].u.data = modulation;
1911	p[4].cmd = DTV_SYMBOL_RATE, p[4].u.data = tpnode->symbolrate;
1912	p[5].cmd = DTV_INVERSION, p[5].u.data = (fe_spectral_inversion_t) tpnode->inversion;
1913	p[6].cmd = DTV_INNER_FEC, p[6].u.data = fec;
1914	p[7].cmd = DTV_TUNE;
1915	cmdseq.num = 8;
1916
1917	debug(200, "new dvbapi: frequ=%d, inversion=%d, fec=%d, sr=%d, modulation=%d, system=%d (%s)", tpnode->frequency, tpnode->inversion, fec, tpnode->symbolrate, modulation, tpnode->system, node->feshortname);
1918	#else
1919	struct dvb_frontend_parameters tuneto;
1920
1921	tuneto.frequency = tpnode->frequency;
1922	tuneto.inversion = tpnode->inversion;
1923	tuneto.u.qam.symbol_rate = tpnode->symbolrate;
1924	tuneto.u.qam.fec_inner = tpnode->fec;
1925	tuneto.u.qam.modulation = tpnode->modulation;
1926
1927	debug(200, "old dvbapi: frequ=%d, inversion=%d, fec=%d, sr=%d, modulation=%d (%s)", tpnode->frequency, tpnode->inversion, fec, tpnode->symbolrate, modulation, node->feshortname);
1928	#endif
1929
1930	fediscard(node);
1931
1932	#if DVB_API_VERSION >= 5
1933	if((ioctl(node->fd, FE_SET_PROPERTY, &cmdseq)) == -1)
1934	{
1935	perr("FE_SET_PROPERTY");
1936	return 1;
1937	}
1938	#else
1939	if(ioctl(node->fd, FE_SET_FRONTEND, &tuneto) == -1)
1940	{
1941	perr("FE_SET_FRONTEND");
1942	return 1;
1943	}
1944	#endif
1945
1946	return 0;
1947	}
1948
1949	int fetunedvbt(struct dvbdev* node, struct transponder* tpnode)
1950	{
1951	if(node == NULL \|\| tpnode == NULL)
1952	{
1953	err("NULL detect");
1954	return 1;
1955	}
1956	debug(200, "transponder:frequ=%d, inversion=%d, bandwidth=%d, hp=%d, lp=%d, modulation=%d transmission=%d guardinterval=%d hierarchy=%d system=%d (%s)", tpnode->frequency, tpnode->inversion, tpnode->symbolrate, tpnode->fec, tpnode->polarization, tpnode->modulation, tpnode->pilot, tpnode->rolloff, tpnode->system, tpnode->system, node->feshortname);
1957
1958	int system = tpnode->system;
1959
1960	int hp = tpnode->fec; //fec = hp on DVBT
1961	switch(hp)
1962	{
1963	case T_FEC_1_2: hp = FEC_1_2; break;
1964	case T_FEC_2_3: hp = FEC_2_3; break;
1965	case T_FEC_3_4: hp = FEC_3_4; break;
1966	case T_FEC_5_6: hp = FEC_5_6; break;
1967	case T_FEC_6_7: hp = FEC_6_7; break;
1968	case T_FEC_7_8: hp = FEC_7_8; break;
1969	case T_FEC_8_9: hp = FEC_8_9; break;
1970	default: hp = FEC_AUTO; break;
1971	}
1972
1973	int lp = tpnode->polarization; //polarization = lp on DVBT
1974	switch(lp)
1975	{
1976	case T_FEC_1_2: lp = FEC_1_2; break;
1977	case T_FEC_2_3: lp = FEC_2_3; break;
1978	case T_FEC_3_4: lp = FEC_3_4; break;
1979	case T_FEC_5_6: lp = FEC_5_6; break;
1980	case T_FEC_6_7: lp = FEC_6_7; break;
1981	case T_FEC_7_8: lp = FEC_7_8; break;
1982	case T_FEC_8_9: lp = FEC_8_9; break;
1983	default: lp = FEC_AUTO; break;
1984	}
1985
1986	int modulation = tpnode->modulation;
1987	switch(modulation)
1988	{
1989	case T_Modulation_QPSK: modulation = QPSK; break;
1990	case T_Modulation_QAM16: modulation = QAM_16; break;
1991	case T_Modulation_QAM64: modulation = QAM_64; break;
1992	case T_Modulation_QAM256: modulation = QAM_256; break;
1993	default: modulation = QAM_AUTO; break;
1994	}
1995
1996	int bandwidth = tpnode->symbolrate; //symbolrate = bandwidth on DVBT
1997	switch(bandwidth)
1998	{
1999	case T_Bandwidth_8MHz: bandwidth = 8000000; break;
2000	case T_Bandwidth_7MHz: bandwidth = 7000000; break;
2001	case T_Bandwidth_6MHz: bandwidth = 6000000; break;
2002	case T_Bandwidth_5MHz: bandwidth = 5000000; break;
2003	case T_Bandwidth_1_712MHz: bandwidth = 1712000; break;
2004	case T_Bandwidth_10MHz: bandwidth = 10000000; break;
2005	case T_Bandwidth_Auto: bandwidth = 0; break;
2006	default: bandwidth = 0; break;
2007	}
2008
2009	int transmission = tpnode->pilot; //pilot = transmission on DVBT
2010	switch(transmission)
2011	{
2012	case T_TransmissionMode_2k: transmission = TRANSMISSION_MODE_2K; break;
2013	case T_TransmissionMode_4k: transmission = TRANSMISSION_MODE_4K; break;
2014	case T_TransmissionMode_8k: transmission = TRANSMISSION_MODE_8K; break;
2015	case T_TransmissionMode_Auto: transmission = TRANSMISSION_MODE_AUTO; break;
2016	#if defined TRANSMISSION_MODE_1K
2017	case T_TransmissionMode_1k: transmission = TRANSMISSION_MODE_1K; break;
2018	case T_TransmissionMode_16k: transmission = TRANSMISSION_MODE_16K; break;
2019	case T_TransmissionMode_32k: transmission = TRANSMISSION_MODE_32K; break;
2020	#endif
2021	default: transmission = TRANSMISSION_MODE_AUTO; break;
2022	}
2023
2024	int guardinterval = tpnode->rolloff; //rolloff = guardinterval on DVBT
2025	switch(guardinterval)
2026	{
2027	case T_GuardInterval_1_32: guardinterval = GUARD_INTERVAL_1_32; break;
2028	case T_GuardInterval_1_16: guardinterval = GUARD_INTERVAL_1_16; break;
2029	case T_GuardInterval_1_8: guardinterval = GUARD_INTERVAL_1_8; break;
2030	case T_GuardInterval_1_4: guardinterval = GUARD_INTERVAL_1_4; break;
2031	case T_GuardInterval_Auto: guardinterval = GUARD_INTERVAL_AUTO; break;
2032	#if defined GUARD_INTERVAL_1_128
2033	case T_GuardInterval_1_128: guardinterval = GUARD_INTERVAL_1_128; break;
2034	case T_GuardInterval_19_128: guardinterval = GUARD_INTERVAL_19_128; break;
2035	case T_GuardInterval_19_256: guardinterval = GUARD_INTERVAL_19_256; break;
2036	#endif
2037	default: guardinterval = GUARD_INTERVAL_AUTO; break;
2038	}
2039
2040	int hierarchy = tpnode->system; //system = hierarchy on DVBT
2041	if(tpnode->system == System_DVB_T2) //system = DVB-T2 then hierarchy = HIERARCHY_AUTO
2042	hierarchy = T_Hierarchy_Auto;
2043
2044	switch(hierarchy)
2045	{
2046	case T_Hierarchy_None: hierarchy = HIERARCHY_NONE;
2047	case T_Hierarchy_1: hierarchy = HIERARCHY_1;
2048	case T_Hierarchy_2: hierarchy = HIERARCHY_2;
2049	case T_Hierarchy_4: hierarchy = HIERARCHY_4;
2050	case T_Hierarchy_Auto: hierarchy = HIERARCHY_AUTO;
2051	default: hierarchy = HIERARCHY_AUTO; break;
2052	}
2053
2054	int ret = 0;
2055	fediscard(node);
2056
2057	#if DVB_API_VERSION >= 5
2058	struct dtv_property p[12];
2059	struct dtv_properties cmdseq;
2060	cmdseq.props = p;
2061
2062	// suchlauf geht an nemesis mit system=0
2063	#if DREAMBOX
2064	switch(system)
2065	{
2066	case System_DVB_T: system = SYS_DVBT; break; //3
2067	case System_DVB_T2: system = SYS_DVBT2; break; //16
2068	default: system = SYS_DVBT; break;
2069	}
2070	#endif
2071
2072	p[0].cmd = DTV_CLEAR;
2073	p[1].cmd = DTV_DELIVERY_SYSTEM, p[1].u.data = system;
2074	p[2].cmd = DTV_FREQUENCY, p[2].u.data = tpnode->frequency;
2075	p[3].cmd = DTV_INVERSION, p[3].u.data = (fe_spectral_inversion_t) tpnode->inversion;
2076	p[4].cmd = DTV_BANDWIDTH_HZ, p[4].u.data = bandwidth;
2077	p[5].cmd = DTV_CODE_RATE_LP, p[5].u.data = lp;
2078	p[6].cmd = DTV_CODE_RATE_HP, p[6].u.data = hp;
2079	p[7].cmd = DTV_MODULATION, p[7].u.data = modulation;
2080	p[8].cmd = DTV_TRANSMISSION_MODE, p[8].u.data = transmission;
2081	p[9].cmd = DTV_GUARD_INTERVAL, p[9].u.data = guardinterval;
2082	p[10].cmd = DTV_HIERARCHY, p[10].u.data = hierarchy;
2083	p[11].cmd = DTV_TUNE;
2084	cmdseq.num = 12;
2085
2086	if((ioctl(node->fd, FE_SET_PROPERTY, &cmdseq)) == -1)
2087	{
2088	perr("FE_SET_PROPERTY");
2089	ret = 1;
2090	}
2091
2092	debug(200, "new dvbapi 1: frequ=%d, inversion=%d, bandwidth=%d, hp=%d, lp=%d, modulation=%d transmission=%d guardinterval=%d hierarchy=%d system=%d (%s)", tpnode->frequency, tpnode->inversion, bandwidth, hp, lp, modulation, transmission, guardinterval, hierarchy, system, node->feshortname);
2093
2094	#else
2095	struct dvb_frontend_parameters tuneto;
2096
2097	tuneto.frequency = tpnode->frequency;
2098	tuneto.inversion = tpnode->inversion;
2099	tuneto.u.ofdm.bandwidth = bandwidth;
2100	tuneto.u.ofdm.code_rate_HP = hp;
2101	tuneto.u.ofdm.code_rate_LP = lp;
2102	tuneto.u.ofdm.constellation = modulation;
2103	tuneto.u.ofdm.transmission_mode = transmission;
2104	tuneto.u.ofdm.guard_interval = guardinterval;
2105	tuneto.u.ofdm.hierarchy_information = hierarchy;
2106
2107	if(ioctl(node->fd, FE_SET_FRONTEND, &tuneto) == -1)
2108	{
2109	perr("FE_SET_FRONTEND");
2110	ret = 1;
2111	}
2112
2113	debug(200, "old dvbapi 1: frequ=%d, inversion=%d, bandwidth=%d, hp=%d, lp=%d, modulation=%d transmission=%d guardinterval=%d hierarchy=%d system=%d (%s)", tpnode->frequency, tpnode->inversion, bandwidth, hp, lp, modulation, transmission, guardinterval, hierarchy, system, node->feshortname);
2114
2115	#endif
2116	return ret;
2117	}
2118
2119	#ifdef SIMULATE
2120	int tunercount = 0;
2121	#endif
2122	struct dvb_frontend_info* fegetinfo(struct dvbdev* node, int fd)
2123	{
2124	struct dvb_frontend_info* feinfo = NULL;
2125	int tmpfd = -1;
2126
2127	if(node != NULL)
2128	tmpfd = node->fd;
2129	else
2130	tmpfd = fd;
2131
2132	feinfo = (struct dvb_frontend_info*)malloc(sizeof(struct dvb_frontend_info));
2133	if(feinfo == NULL)
2134	{
2135	err("no mem");
2136	return NULL;
2137	}
2138
2139	#ifndef SIMULATE
2140	if(ioctl(tmpfd, FE_GET_INFO, feinfo) < 0)
2141	{
2142	perr("FE_GET_INFO");
2143	free(feinfo);
2144	return NULL;
2145	}
2146	#else
2147	tunercount++;
2148	if(tunercount == 1)
2149	{
2150	sprintf(feinfo->name, "%s", "Conax 7500 DVB-C");
2151	feinfo->type = FE_QAM;
2152	}
2153	else
2154	{
2155	sprintf(feinfo->name, "%s", "Conax 7500 DVB-S");
2156	feinfo->type = FE_QPSK;
2157	//feinfo->type = FE_QAM;
2158	}
2159	#endif
2160	return feinfo;
2161	}
2162
2163	int fegetdev()
2164	{
2165	int i, y, fd = -1, count = 0;
2166	char buf = NULL, frontenddev = NULL, fehyprid = NULL, tmpstr = NULL, *tmpstr1 = NULL;
2167	struct dvb_frontend_info* feinfo = NULL;
2168	struct dvbdev* dvbnode = NULL;
2169
2170	frontenddev = getconfig("frontenddev", NULL);
2171	if(frontenddev == NULL)
2172	{
2173	err("NULL detect");
2174	return count;
2175	}
2176
2177	buf = malloc(MINMALLOC);
2178	if(buf == NULL)
2179	{
2180	err("no memory");
2181	return count;
2182	}
2183
2184	for(i = 0; i < MAXDVBADAPTER; i++)
2185	{
2186	for(y = 0; y < MAXFRONTENDDEV; y++)
2187	{
2188	sprintf(buf, frontenddev, i, y);
2189	fd = feopen(NULL, buf);
2190	if(fd >= 0)
2191	{
2192	fehyprid = gethypridtunerchoicesvalue(y);
2193	if(fehyprid != NULL)
2194	{
2195	if(y < 10)
2196	tmpstr = ostrcat(tmpstr, "fe_0", 1, 0);
2197	else
2198	tmpstr = ostrcat(tmpstr, "fe_1", 1, 0);
2199
2200	tmpstr = ostrcat(tmpstr, oitoa(y), 1, 1);
2201	tmpstr = ostrcat(tmpstr, "_hyprid", 1, 0);
2202	tmpstr1 = ostrcat(tmpstr, "_last", 0, 0);
2203	addconfig(tmpstr1, "999"); //first set
2204	free(tmpstr1), tmpstr1 = NULL;
2205	#ifndef MIPSEL
2206	if(getconfig(tmpstr, NULL) != NULL)
2207	sethypridtuner(y, getconfig(tmpstr, NULL));
2208	free(tmpstr), tmpstr = NULL;
2209	#endif
2210	}
2211
2212	feinfo = fegetinfo(NULL, fd);
2213	if(feinfo != NULL)
2214	{
2215	count++;
2216	dvbnode = adddvbdev(buf, i, y, fd, FRONTENDDEV, feinfo, NULL, fehyprid, 0);
2217	#ifdef MIPSEL
2218	if(fehyprid != NULL && getconfig(tmpstr, NULL) != NULL)
2219	sethypridtunernew(dvbnode, getconfig(tmpstr, NULL));
2220	free(tmpstr), tmpstr = NULL;
2221	#endif
2222	if(dvbnode->feinfo->type == FE_QPSK)
2223	fesetvoltage(dvbnode, SEC_VOLTAGE_OFF, 15);
2224
2225	if(y < 10)
2226	tmpstr = ostrcat(tmpstr, "fe_0", 1, 0);
2227	else
2228	tmpstr = ostrcat(tmpstr, "fe_1", 1, 0);
2229	tmpstr = ostrcat(tmpstr, oitoa(y), 1, 1);
2230	tmpstr = ostrcat(tmpstr, "_fbc", 1, 0);
2231	if(ostrstr(feinfo->name, "BCM45208") != NULL) //fbc Tuner
2232	{
2233	if(getconfig(tmpstr, NULL) == NULL)
2234	addconfig(tmpstr, "A");
2235	}
2236	else
2237	addconfig(tmpstr, "");
2238	free(tmpstr), tmpstr = NULL;
2239	}
2240	}
2241	}
2242	}
2243
2244	free(buf);
2245	return count;
2246	}
2247
2248	int fecreatedummy()
2249	{
2250	//create dummy frontend for playback
2251	char buf = NULL, frontenddev = NULL;
2252	struct dvbdev* dvbnode = NULL;
2253
2254	frontenddev = getconfig("frontenddev", NULL);
2255	if(frontenddev == NULL)
2256	{
2257	err("NULL detect");
2258	return 1;
2259	}
2260
2261	buf = malloc(MINMALLOC);
2262	if(buf == NULL)
2263	{
2264	err("no memory");
2265	return 1;
2266	}
2267
2268	dvbnode = dmxgetlast(0);
2269	if(dvbnode != NULL)
2270	{
2271	sprintf(buf, frontenddev, 0, dvbnode->devnr);
2272	adddvbdev(buf, 0, dvbnode->devnr, -1, FRONTENDDEVDUMMY, NULL, NULL, NULL, 0);
2273	}
2274
2275	free(buf);
2276	return 0;
2277	}
2278
2279	int fegetlock(int tunernr)
2280	{
2281	struct dvbdev* dvbnode = NULL;
2282	dvbnode = dvbdev;
2283
2284	while(dvbnode != NULL)
2285	{
2286	if(dvbnode->deactive == 1)
2287	{
2288	dvbnode = dvbnode->next;
2289	continue;
2290	}
2291	if(dvbnode->type == FRONTENDDEV && dvbnode->devnr == tunernr)
2292	{
2293	return dvbnode->felock;
2294	}
2295	dvbnode = dvbnode->next;
2296	}
2297	return -1;
2298	}
2299
2300	#ifdef MIPSEL
2301	int fechangetype(struct dvbdev* tuner, char* value)
2302	{
2303	#if DVB_API_VERSION >= 5
2304
2305	struct dtv_property p[2];
2306	memset(p, 0, sizeof(p));
2307	struct dtv_properties cmdseq;
2308	cmdseq.props = p;
2309	cmdseq.num = 2;
2310	p[0].cmd = DTV_CLEAR;
2311	p[1].cmd = DTV_DELIVERY_SYSTEM;
2312	p[1].u.data = SYS_UNDEFINED;
2313	char* buf = NULL, *hypridtuner = NULL;
2314	int type = 0;
2315	int ret = 0;
2316	char* realname = gethypridtunerchoicesvaluename(tuner->devnr, value);
2317
2318
2319	printf("**** > realname: %s\n", realname);
2320
2321	if(realname != NULL && ostrstr(realname, "DVB-S") != NULL)
2322	type = feSatellite;
2323	else if(realname != NULL && ostrstr(realname, "DVB-C") != NULL)
2324	type = feCable;
2325	else if(realname != NULL && ostrstr(realname, "DVB-T") != NULL)
2326	type = feTerrestrial;
2327	else
2328	type = -1;
2329
2330	switch (type)
2331	{
2332	case feSatellite:
2333	{
2334	p[1].u.data = SYS_DVBS;
2335	break;
2336	}
2337	case feTerrestrial:
2338	{
2339	//fesetvoltage(tuner, SEC_VOLTAGE_OFF, 10);
2340	//to do set voltage --> wenn der Tuner es kann
2341	//fesetvoltage(tuner, SEC_VOLTAGE_13, 10);
2342	if(realname != NULL && ostrstr(realname, "DVB-T2") != NULL)
2343	p[1].u.data = SYS_DVBT2;
2344	else
2345	p[1].u.data = SYS_DVBT;
2346	break;
2347	}
2348	case feCable:
2349	{
2350	fesetvoltage(tuner, SEC_VOLTAGE_OFF, 10);
2351	#ifdef SYS_DVBC_ANNEX_A
2352	p[1].u.data = SYS_DVBC_ANNEX_A;
2353	#else
2354	p[1].u.data = SYS_DVBC_ANNEX_AC;
2355	#endif
2356	break;
2357	}
2358	#ifdef feATSC
2359	case feATSC:
2360	{
2361	p[1].u.data = SYS_ATSC;
2362	break;
2363	}
2364	#endif
2365	default:
2366	debug(200, "not supported delivery system type %i", type);
2367	return 0; //false
2368	}
2369	debug(200, "data %d",p[1].u.data );
2370	if (ioctl(tuner->fd, FE_SET_PROPERTY, &cmdseq) == -1)
2371	{
2372	err("FE_SET_PROPERTY failed -> use procfs to switch delivery system tuner %d mode %s type %d",tuner->devnr ,value, type);
2373	}
2374	hypridtuner = getconfig("hypridtuner", NULL);
2375	if(hypridtuner != NULL)
2376	{
2377	buf = malloc(MINMALLOC);
2378	if(buf == NULL)
2379	{
2380	err("no memory");
2381	return 0;
2382	}
2383	}
2384	sprintf(buf, hypridtuner, tuner->devnr);
2385	if(file_exist(buf))
2386	{
2387	if(tuner->fd > -1)
2388	{
2389	feclose(tuner, -1);
2390	ret = writesys(buf, value, 0);
2391	tuner->fd = feopen(tuner, NULL);
2392	}
2393	else
2394	ret = writesys(buf, value, 0);
2395	printf("set %s to %s RC:%i\n", buf, value, ret);
2396	}
2397	else
2398	err("set system tuner to %d ... file not found -> %s", value, buf);
2399	free(buf); buf = NULL;
2400	return 1; //true
2401
2402	return 0; //true
2403
2404	#else //if DVB_API_VERSION < 5
2405	printf("Hinweis -> DVB API kleiner Version 5\n");
2406	if(sethypridtuner(tuner, value) == 0)
2407	return 1;
2408	return 0; //false
2409	#endif
2410	}
2411	#endif
2412
2413
2414	#endif

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