qt1010.c source code [linux/drivers/media/tuners/qt1010.c]

1	// SPDX-License-Identifier: GPL-2.0-or-later
2	/*
3	* Driver for Quantek QT1010 silicon tuner
4	*
5	* Copyright (C) 2006 Antti Palosaari <crope@iki.fi>
6	* Aapo Tahkola <aet@rasterburn.org>
7	*/
8	#include "qt1010.h"
9	#include "qt1010_priv.h"
10
11	/ read single register /
12	static int qt1010_readreg(struct qt1010_priv priv, u8 reg, u8 val)
13	{
14	struct i2c_msg msg[`2`] = {
15	{ .addr = priv->cfg->i2c_address,
16	.flags = `0`, .buf = &reg, .len = `1` },
17	{ .addr = priv->cfg->i2c_address,
18	.flags = I2C_M_RD, .buf = val, .len = `1` },
19	};
20
21	if (i2c_transfer(adap: priv->i2c, msgs: msg, num: `2`) != `2`) {
22	dev_warn(&priv->i2c->dev, "%s: i2c rd failed reg=%02x\n",
23	KBUILD_MODNAME, reg);
24	return -EREMOTEIO;
25	}
26	return `0`;
27	}
28
29	/ write single register /
30	static int qt1010_writereg(struct qt1010_priv *priv, u8 reg, u8 val)
31	{
32	u8 buf[`2`] = { reg, val };
33	struct i2c_msg msg = { .addr = priv->cfg->i2c_address,
34	.flags = `0`, .buf = buf, .len = `2` };
35
36	if (i2c_transfer(adap: priv->i2c, msgs: &msg, num: `1`) != `1`) {
37	dev_warn(&priv->i2c->dev, "%s: i2c wr failed reg=%02x\n",
38	KBUILD_MODNAME, reg);
39	return -EREMOTEIO;
40	}
41	return `0`;
42	}
43
44	static int qt1010_set_params(struct dvb_frontend *fe)
45	{
46	struct dtv_frontend_properties *c = &fe->dtv_property_cache;
47	struct qt1010_priv *priv;
48	int err;
49	u32 freq, div, mod1, mod2;
50	u8 i, tmpval, reg05;
51	qt1010_i2c_oper_t rd[`48`] = {
52	{ QT1010_WR, `0x01`, `0x80` },
53	{ QT1010_WR, `0x02`, `0x3f` },
54	{ QT1010_WR, `0x05`, `0xff` }, / 02 c write /
55	{ QT1010_WR, `0x06`, `0x44` },
56	{ QT1010_WR, `0x07`, `0xff` }, / 04 c write /
57	{ QT1010_WR, `0x08`, `0x08` },
58	{ QT1010_WR, `0x09`, `0xff` }, / 06 c write /
59	{ QT1010_WR, `0x0a`, `0xff` }, / 07 c write /
60	{ QT1010_WR, `0x0b`, `0xff` }, / 08 c write /
61	{ QT1010_WR, `0x0c`, `0xe1` },
62	{ QT1010_WR, `0x1a`, `0xff` }, / 10 c write /
63	{ QT1010_WR, `0x1b`, `0x00` },
64	{ QT1010_WR, `0x1c`, `0x89` },
65	{ QT1010_WR, `0x11`, `0xff` }, / 13 c write /
66	{ QT1010_WR, `0x12`, `0xff` }, / 14 c write /
67	{ QT1010_WR, `0x22`, `0xff` }, / 15 c write /
68	{ QT1010_WR, `0x1e`, `0x00` },
69	{ QT1010_WR, `0x1e`, `0xd0` },
70	{ QT1010_RD, `0x22`, `0xff` }, / 16 c read /
71	{ QT1010_WR, `0x1e`, `0x00` },
72	{ QT1010_RD, `0x05`, `0xff` }, / 20 c read /
73	{ QT1010_RD, `0x22`, `0xff` }, / 21 c read /
74	{ QT1010_WR, `0x23`, `0xd0` },
75	{ QT1010_WR, `0x1e`, `0x00` },
76	{ QT1010_WR, `0x1e`, `0xe0` },
77	{ QT1010_RD, `0x23`, `0xff` }, / 25 c read /
78	{ QT1010_RD, `0x23`, `0xff` }, / 26 c read /
79	{ QT1010_WR, `0x1e`, `0x00` },
80	{ QT1010_WR, `0x24`, `0xd0` },
81	{ QT1010_WR, `0x1e`, `0x00` },
82	{ QT1010_WR, `0x1e`, `0xf0` },
83	{ QT1010_RD, `0x24`, `0xff` }, / 31 c read /
84	{ QT1010_WR, `0x1e`, `0x00` },
85	{ QT1010_WR, `0x14`, `0x7f` },
86	{ QT1010_WR, `0x15`, `0x7f` },
87	{ QT1010_WR, `0x05`, `0xff` }, / 35 c write /
88	{ QT1010_WR, `0x06`, `0x00` },
89	{ QT1010_WR, `0x15`, `0x1f` },
90	{ QT1010_WR, `0x16`, `0xff` },
91	{ QT1010_WR, `0x18`, `0xff` },
92	{ QT1010_WR, `0x1f`, `0xff` }, / 40 c write /
93	{ QT1010_WR, `0x20`, `0xff` }, / 41 c write /
94	{ QT1010_WR, `0x21`, `0x53` },
95	{ QT1010_WR, `0x25`, `0xff` }, / 43 c write /
96	{ QT1010_WR, `0x26`, `0x15` },
97	{ QT1010_WR, `0x00`, `0xff` }, / 45 c write /
98	{ QT1010_WR, `0x02`, `0x00` },
99	{ QT1010_WR, `0x01`, `0x00` }
100	};
101
102	#define FREQ1 32000000 /* 32 MHz */
103	#define FREQ2 4000000 /* 4 MHz Quartz oscillator in the stick? */
104
105	priv = fe->tuner_priv;
106	freq = c->frequency;
107	div = (freq + QT1010_OFFSET) / QT1010_STEP;
108	freq = (div * QT1010_STEP) - QT1010_OFFSET;
109	mod1 = (freq + QT1010_OFFSET) % FREQ1;
110	mod2 = (freq + QT1010_OFFSET) % FREQ2;
111	priv->frequency = freq;
112
113	if (fe->ops.i2c_gate_ctrl)
114	fe->ops.i2c_gate_ctrl(fe, `1`); / open i2c_gate /
115
116	/ reg 05 base value /
117	if (freq < `290000000`) reg05 = `0x14`; / 290 MHz /
118	else if (freq < `610000000`) reg05 = `0x34`; / 610 MHz /
119	else if (freq < `802000000`) reg05 = `0x54`; / 802 MHz /
120	else reg05 = `0x74`;
121
122	/ 0x5 /
123	rd[`2`].val = reg05;
124
125	/ 07 - set frequency: 32 MHz scale /
126	rd[`4`].val = (freq + QT1010_OFFSET) / FREQ1;
127
128	/ 09 - changes every 8/24 MHz /
129	if (mod1 < `8000000`) rd[`6`].val = `0x1d`;
130	else rd[`6`].val = `0x1c`;
131
132	/ 0a - set frequency: 4 MHz scale (max 28 MHz) /
133	if (mod1 < `1`FREQ2) rd[`7`].val = `0x09`; /* +0 MHz /
134	else if (mod1 < `2`FREQ2) rd[`7`].val = `0x08`; /* +4 MHz /
135	else if (mod1 < `3`FREQ2) rd[`7`].val = `0x0f`; /* +8 MHz /
136	else if (mod1 < `4`FREQ2) rd[`7`].val = `0x0e`; /* +12 MHz /
137	else if (mod1 < `5`FREQ2) rd[`7`].val = `0x0d`; /* +16 MHz /
138	else if (mod1 < `6`FREQ2) rd[`7`].val = `0x0c`; /* +20 MHz /
139	else if (mod1 < `7`FREQ2) rd[`7`].val = `0x0b`; /* +24 MHz /
140	else rd[`7`].val = `0x0a`; / +28 MHz /
141
142	/ 0b - changes every 2/2 MHz /
143	if (mod2 < `2000000`) rd[`8`].val = `0x45`;
144	else rd[`8`].val = `0x44`;
145
146	/ 1a - set frequency: 125 kHz scale (max 3875 kHz)/
147	tmpval = `0x78`; / byte, overflows intentionally /
148	rd[`10`].val = tmpval-((mod2/QT1010_STEP)*`0x08`);
149
150	/ 11 /
151	rd[`13`].val = `0xfd`; / TODO: correct value calculation /
152
153	/ 12 /
154	rd[`14`].val = `0x91`; / TODO: correct value calculation /
155
156	/ 22 /
157	if (freq < `450000000`) rd[`15`].val = `0xd0`; / 450 MHz /
158	else if (freq < `482000000`) rd[`15`].val = `0xd1`; / 482 MHz /
159	else if (freq < `514000000`) rd[`15`].val = `0xd4`; / 514 MHz /
160	else if (freq < `546000000`) rd[`15`].val = `0xd7`; / 546 MHz /
161	else if (freq < `610000000`) rd[`15`].val = `0xda`; / 610 MHz /
162	else rd[`15`].val = `0xd0`;
163
164	/ 05 /
165	rd[`35`].val = (reg05 & `0xf0`);
166
167	/ 1f /
168	if (mod1 < `8000000`) tmpval = `0x00`;
169	else if (mod1 < `12000000`) tmpval = `0x01`;
170	else if (mod1 < `16000000`) tmpval = `0x02`;
171	else if (mod1 < `24000000`) tmpval = `0x03`;
172	else if (mod1 < `28000000`) tmpval = `0x04`;
173	else tmpval = `0x05`;
174	rd[`40`].val = (priv->reg1f_init_val + `0x0e` + tmpval);
175
176	/ 20 /
177	if (mod1 < `8000000`) tmpval = `0x00`;
178	else if (mod1 < `12000000`) tmpval = `0x01`;
179	else if (mod1 < `20000000`) tmpval = `0x02`;
180	else if (mod1 < `24000000`) tmpval = `0x03`;
181	else if (mod1 < `28000000`) tmpval = `0x04`;
182	else tmpval = `0x05`;
183	rd[`41`].val = (priv->reg20_init_val + `0x0d` + tmpval);
184
185	/ 25 /
186	rd[`43`].val = priv->reg25_init_val;
187
188	/ 00 /
189	rd[`45`].val = `0x92`; / TODO: correct value calculation /
190
191	dev_dbg(&priv->i2c->dev,
192	"%s: freq:%u 05:%02x 07:%02x 09:%02x 0a:%02x 0b:%02x " \
193	"1a:%02x 11:%02x 12:%02x 22:%02x 05:%02x 1f:%02x " \
194	"20:%02x 25:%02x 00:%02x\n", __func__, \
195	freq, rd[`2`].val, rd[`4`].val, rd[`6`].val, rd[`7`].val, \
196	rd[`8`].val, rd[`10`].val, rd[`13`].val, rd[`14`].val, \
197	rd[`15`].val, rd[`35`].val, rd[`40`].val, rd[`41`].val, \
198	rd[`43`].val, rd[`45`].val);
199
200	for (i = `0`; i < ARRAY_SIZE(rd); i++) {
201	if (rd[i].oper == QT1010_WR) {
202	err = qt1010_writereg(priv, reg: rd[i].reg, val: rd[i].val);
203	} else { / read is required to proper locking /
204	err = qt1010_readreg(priv, reg: rd[i].reg, val: &tmpval);
205	}
206	if (err) return err;
207	}
208
209	if (fe->ops.i2c_gate_ctrl)
210	fe->ops.i2c_gate_ctrl(fe, `0`); / close i2c_gate /
211
212	return `0`;
213	}
214
215	static int qt1010_init_meas1(struct qt1010_priv *priv,
216	u8 oper, u8 reg, u8 reg_init_val, u8 *retval)
217	{
218	u8 i, val1, val2;
219	int err;
220
221	qt1010_i2c_oper_t i2c_data[] = {
222	{ QT1010_WR, reg, reg_init_val },
223	{ QT1010_WR, `0x1e`, `0x00` },
224	{ QT1010_WR, `0x1e`, oper },
225	};
226
227	for (i = `0`; i < ARRAY_SIZE(i2c_data); i++) {
228	err = qt1010_writereg(priv, reg: i2c_data[i].reg,
229	val: i2c_data[i].val);
230	if (err)
231	return err;
232	}
233
234	err = qt1010_readreg(priv, reg, val: &val2);
235	if (err)
236	return err;
237	do {
238	val1 = val2;
239	err = qt1010_readreg(priv, reg, val: &val2);
240	if (err)
241	return err;
242
243	dev_dbg(&priv->i2c->dev, "%s: compare reg:%02x %02x %02x\n",
244	__func__, reg, val1, val2);
245	} while (val1 != val2);
246	*retval = val1;
247
248	return qt1010_writereg(priv, reg: `0x1e`, val: `0x00`);
249	}
250
251	static int qt1010_init_meas2(struct qt1010_priv *priv,
252	u8 reg_init_val, u8 *retval)
253	{
254	u8 i, val = `0xff`;
255	int err;
256	qt1010_i2c_oper_t i2c_data[] = {
257	{ QT1010_WR, `0x07`, reg_init_val },
258	{ QT1010_WR, `0x22`, `0xd0` },
259	{ QT1010_WR, `0x1e`, `0x00` },
260	{ QT1010_WR, `0x1e`, `0xd0` },
261	{ QT1010_RD, `0x22`, `0xff` },
262	{ QT1010_WR, `0x1e`, `0x00` },
263	{ QT1010_WR, `0x22`, `0xff` }
264	};
265
266	for (i = `0`; i < ARRAY_SIZE(i2c_data); i++) {
267	if (i2c_data[i].oper == QT1010_WR) {
268	err = qt1010_writereg(priv, reg: i2c_data[i].reg,
269	val: i2c_data[i].val);
270	} else {
271	err = qt1010_readreg(priv, reg: i2c_data[i].reg, val: &val);
272	}
273	if (err)
274	return err;
275	}
276	*retval = val;
277	return `0`;
278	}
279
280	static int qt1010_init(struct dvb_frontend *fe)
281	{
282	struct qt1010_priv *priv = fe->tuner_priv;
283	struct dtv_frontend_properties *c = &fe->dtv_property_cache;
284	int err = `0`;
285	u8 i, tmpval, *valptr = NULL;
286
287	static const qt1010_i2c_oper_t i2c_data[] = {
288	{ QT1010_WR, `0x01`, `0x80` },
289	{ QT1010_WR, `0x0d`, `0x84` },
290	{ QT1010_WR, `0x0e`, `0xb7` },
291	{ QT1010_WR, `0x2a`, `0x23` },
292	{ QT1010_WR, `0x2c`, `0xdc` },
293	{ QT1010_M1, `0x25`, `0x40` }, / get reg 25 init value /
294	{ QT1010_M1, `0x81`, `0xff` }, / get reg 25 init value /
295	{ QT1010_WR, `0x2b`, `0x70` },
296	{ QT1010_WR, `0x2a`, `0x23` },
297	{ QT1010_M1, `0x26`, `0x08` },
298	{ QT1010_M1, `0x82`, `0xff` },
299	{ QT1010_WR, `0x05`, `0x14` },
300	{ QT1010_WR, `0x06`, `0x44` },
301	{ QT1010_WR, `0x07`, `0x28` },
302	{ QT1010_WR, `0x08`, `0x0b` },
303	{ QT1010_WR, `0x11`, `0xfd` },
304	{ QT1010_M1, `0x22`, `0x0d` },
305	{ QT1010_M1, `0xd0`, `0xff` },
306	{ QT1010_WR, `0x06`, `0x40` },
307	{ QT1010_WR, `0x16`, `0xf0` },
308	{ QT1010_WR, `0x02`, `0x38` },
309	{ QT1010_WR, `0x03`, `0x18` },
310	{ QT1010_WR, `0x20`, `0xe0` },
311	{ QT1010_M1, `0x1f`, `0x20` }, / get reg 1f init value /
312	{ QT1010_M1, `0x84`, `0xff` }, / get reg 1f init value /
313	{ QT1010_RD, `0x20`, `0x20` }, / get reg 20 init value /
314	{ QT1010_WR, `0x03`, `0x19` },
315	{ QT1010_WR, `0x02`, `0x3f` },
316	{ QT1010_WR, `0x21`, `0x53` },
317	{ QT1010_RD, `0x21`, `0xff` },
318	{ QT1010_WR, `0x11`, `0xfd` },
319	{ QT1010_WR, `0x05`, `0x34` },
320	{ QT1010_WR, `0x06`, `0x44` },
321	{ QT1010_WR, `0x08`, `0x08` }
322	};
323
324	if (fe->ops.i2c_gate_ctrl)
325	fe->ops.i2c_gate_ctrl(fe, `1`); / open i2c_gate /
326
327	for (i = `0`; i < ARRAY_SIZE(i2c_data); i++) {
328	switch (i2c_data[i].oper) {
329	case QT1010_WR:
330	err = qt1010_writereg(priv, reg: i2c_data[i].reg,
331	val: i2c_data[i].val);
332	break;
333	case QT1010_RD:
334	if (i2c_data[i].val == `0x20`)
335	valptr = &priv->reg20_init_val;
336	else
337	valptr = &tmpval;
338	err = qt1010_readreg(priv, reg: i2c_data[i].reg, val: valptr);
339	break;
340	case QT1010_M1:
341	if (i2c_data[i].val == `0x25`)
342	valptr = &priv->reg25_init_val;
343	else if (i2c_data[i].val == `0x1f`)
344	valptr = &priv->reg1f_init_val;
345	else
346	valptr = &tmpval;
347
348	if (i >= ARRAY_SIZE(i2c_data) - `1`)
349	err = -EIO;
350	else
351	err = qt1010_init_meas1(priv, oper: i2c_data[i + `1`].reg,
352	reg: i2c_data[i].reg,
353	reg_init_val: i2c_data[i].val, retval: valptr);
354	i++;
355	break;
356	}
357	if (err)
358	return err;
359	}
360
361	for (i = `0x31`; i < `0x3a`; i++) / 0x31 - 0x39 /
362	if ((err = qt1010_init_meas2(priv, reg_init_val: i, retval: &tmpval)))
363	return err;
364
365	if (!c->frequency)
366	c->frequency = `545000000`; / Sigmatek DVB-110 545000000 /
367	/ MSI Megasky 580 GL861 533000000 /
368	return qt1010_set_params(fe);
369	}
370
371	static void qt1010_release(struct dvb_frontend *fe)
372	{
373	kfree(objp: fe->tuner_priv);
374	fe->tuner_priv = NULL;
375	}
376
377	static int qt1010_get_frequency(struct dvb_frontend fe, u32 frequency)
378	{
379	struct qt1010_priv *priv = fe->tuner_priv;
380	*frequency = priv->frequency;
381	return `0`;
382	}
383
384	static int qt1010_get_if_frequency(struct dvb_frontend fe, u32 frequency)
385	{
386	*frequency = `36125000`;
387	return `0`;
388	}
389
390	static const struct dvb_tuner_ops qt1010_tuner_ops = {
391	.info = {
392	.name = "Quantek QT1010",
393	.frequency_min_hz = QT1010_MIN_FREQ,
394	.frequency_max_hz = QT1010_MAX_FREQ,
395	.frequency_step_hz = QT1010_STEP,
396	},
397
398	.release = qt1010_release,
399	.init = qt1010_init,
400	/ TODO: implement sleep /
401
402	.set_params = qt1010_set_params,
403	.get_frequency = qt1010_get_frequency,
404	.get_if_frequency = qt1010_get_if_frequency,
405	};
406
407	struct dvb_frontend * qt1010_attach(struct dvb_frontend *fe,
408	struct i2c_adapter *i2c,
409	struct qt1010_config *cfg)
410	{
411	struct qt1010_priv *priv = NULL;
412	u8 id;
413
414	priv = kzalloc(size: sizeof(struct qt1010_priv), GFP_KERNEL);
415	if (priv == NULL)
416	return NULL;
417
418	priv->cfg = cfg;
419	priv->i2c = i2c;
420
421	if (fe->ops.i2c_gate_ctrl)
422	fe->ops.i2c_gate_ctrl(fe, `1`); / open i2c_gate /
423
424
425	/ Try to detect tuner chip. Probably this is not correct register. /
426	if (qt1010_readreg(priv, reg: `0x29`, val: &id) != `0` \|\| (id != `0x39`)) {
427	kfree(objp: priv);
428	return NULL;
429	}
430
431	if (fe->ops.i2c_gate_ctrl)
432	fe->ops.i2c_gate_ctrl(fe, `0`); / close i2c_gate /
433
434	dev_info(&priv->i2c->dev,
435	"%s: Quantek QT1010 successfully identified\n",
436	KBUILD_MODNAME);
437
438	memcpy(&fe->ops.tuner_ops, &qt1010_tuner_ops,
439	sizeof(struct dvb_tuner_ops));
440
441	fe->tuner_priv = priv;
442	return fe;
443	}
444	EXPORT_SYMBOL_GPL(qt1010_attach);
445
446	MODULE_DESCRIPTION("Quantek QT1010 silicon tuner driver");
447	MODULE_AUTHOR("Antti Palosaari <crope@iki.fi>");
448	MODULE_AUTHOR("Aapo Tahkola <aet@rasterburn.org>");
449	MODULE_VERSION("0.1");
450	MODULE_LICENSE("GPL");
451

source code of linux/drivers/media/tuners/qt1010.c