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authorIgor M. Liplianin <liplianin@me.by>2011-01-25 15:02:00 -0500
committerMauro Carvalho Chehab <mchehab@redhat.com>2011-03-21 19:32:17 -0400
commit17cce932e8be9a3e32e1928524b73795b3f0e3aa (patch)
tree2c57bb48d6a7a23754f1f9abfe87e41d359c2e68 /drivers/media/dvb/frontends/stv0367.c
parent349bcf02e3615556e9c49ea73a04abab2a4d8ed7 (diff)
[media] Support for stv0367 multi-standard demodulator
The STV0367 is a multi-standard demodulator which is capable of processing DVB-T as well as DVB-C signals. It is fully compliant with DVB-T and DVB-C recommendations for broadcast services. Signed-off-by: Igor M. Liplianin <liplianin@netup.ru> Signed-off-by: Mauro Carvalho Chehab <mchehab@redhat.com>
Diffstat (limited to 'drivers/media/dvb/frontends/stv0367.c')
-rw-r--r--drivers/media/dvb/frontends/stv0367.c3441
1 files changed, 3441 insertions, 0 deletions
diff --git a/drivers/media/dvb/frontends/stv0367.c b/drivers/media/dvb/frontends/stv0367.c
new file mode 100644
index 000000000000..eecdf23642eb
--- /dev/null
+++ b/drivers/media/dvb/frontends/stv0367.c
@@ -0,0 +1,3441 @@
1/*
2 * stv0367.c
3 *
4 * Driver for ST STV0367 DVB-T & DVB-C demodulator IC.
5 *
6 * Copyright (C) ST Microelectronics.
7 * Copyright (C) 2010,2011 NetUP Inc.
8 * Copyright (C) 2010,2011 Igor M. Liplianin <liplianin@netup.ru>
9 *
10 * This program is free software; you can redistribute it and/or modify
11 * it under the terms of the GNU General Public License as published by
12 * the Free Software Foundation; either version 2 of the License, or
13 * (at your option) any later version.
14 *
15 * This program is distributed in the hope that it will be useful,
16 * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 *
19 * GNU General Public License for more details.
20 *
21 * You should have received a copy of the GNU General Public License
22 * along with this program; if not, write to the Free Software
23 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
24 */
25
26#include <linux/kernel.h>
27#include <linux/module.h>
28#include <linux/string.h>
29#include <linux/slab.h>
30#include <linux/i2c.h>
31
32#include "stv0367.h"
33#include "stv0367_regs.h"
34#include "stv0367_priv.h"
35
36static int stvdebug;
37module_param_named(debug, stvdebug, int, 0644);
38
39static int i2cdebug;
40module_param_named(i2c_debug, i2cdebug, int, 0644);
41
42#define dprintk(args...) \
43 do { \
44 if (stvdebug) \
45 printk(KERN_DEBUG args); \
46 } while (0)
47 /* DVB-C */
48
49struct stv0367cab_state {
50 enum stv0367_cab_signal_type state;
51 u32 mclk;
52 u32 adc_clk;
53 s32 search_range;
54 s32 derot_offset;
55 /* results */
56 int locked; /* channel found */
57 u32 freq_khz; /* found frequency (in kHz) */
58 u32 symbol_rate; /* found symbol rate (in Bds) */
59 enum stv0367cab_mod modulation; /* modulation */
60 fe_spectral_inversion_t spect_inv; /* Spectrum Inversion */
61};
62
63struct stv0367ter_state {
64 /* DVB-T */
65 enum stv0367_ter_signal_type state;
66 enum stv0367_ter_if_iq_mode if_iq_mode;
67 enum stv0367_ter_mode mode;/* mode 2K or 8K */
68 fe_guard_interval_t guard;
69 enum stv0367_ter_hierarchy hierarchy;
70 u32 frequency;
71 fe_spectral_inversion_t sense; /* current search spectrum */
72 u8 force; /* force mode/guard */
73 u8 bw; /* channel width 6, 7 or 8 in MHz */
74 u8 pBW; /* channel width used during previous lock */
75 u32 pBER;
76 u32 pPER;
77 u32 ucblocks;
78 s8 echo_pos; /* echo position */
79 u8 first_lock;
80 u8 unlock_counter;
81 u32 agc_val;
82};
83
84struct stv0367_state {
85 struct dvb_frontend fe;
86 struct i2c_adapter *i2c;
87 /* config settings */
88 const struct stv0367_config *config;
89 u8 chip_id;
90 /* DVB-C */
91 struct stv0367cab_state *cab_state;
92 /* DVB-T */
93 struct stv0367ter_state *ter_state;
94};
95
96struct st_register {
97 u16 addr;
98 u8 value;
99};
100
101/* values for STV4100 XTAL=30M int clk=53.125M*/
102static struct st_register def0367ter[STV0367TER_NBREGS] = {
103 {R367TER_ID, 0x60},
104 {R367TER_I2CRPT, 0xa0},
105 /* {R367TER_I2CRPT, 0x22},*/
106 {R367TER_TOPCTRL, 0x00},/* for xc5000; was 0x02 */
107 {R367TER_IOCFG0, 0x40},
108 {R367TER_DAC0R, 0x00},
109 {R367TER_IOCFG1, 0x00},
110 {R367TER_DAC1R, 0x00},
111 {R367TER_IOCFG2, 0x62},
112 {R367TER_SDFR, 0x00},
113 {R367TER_STATUS, 0xf8},
114 {R367TER_AUX_CLK, 0x0a},
115 {R367TER_FREESYS1, 0x00},
116 {R367TER_FREESYS2, 0x00},
117 {R367TER_FREESYS3, 0x00},
118 {R367TER_GPIO_CFG, 0x55},
119 {R367TER_GPIO_CMD, 0x00},
120 {R367TER_AGC2MAX, 0xff},
121 {R367TER_AGC2MIN, 0x00},
122 {R367TER_AGC1MAX, 0xff},
123 {R367TER_AGC1MIN, 0x00},
124 {R367TER_AGCR, 0xbc},
125 {R367TER_AGC2TH, 0x00},
126 {R367TER_AGC12C, 0x00},
127 {R367TER_AGCCTRL1, 0x85},
128 {R367TER_AGCCTRL2, 0x1f},
129 {R367TER_AGC1VAL1, 0x00},
130 {R367TER_AGC1VAL2, 0x00},
131 {R367TER_AGC2VAL1, 0x6f},
132 {R367TER_AGC2VAL2, 0x05},
133 {R367TER_AGC2PGA, 0x00},
134 {R367TER_OVF_RATE1, 0x00},
135 {R367TER_OVF_RATE2, 0x00},
136 {R367TER_GAIN_SRC1, 0xaa},/* for xc5000; was 0x2b */
137 {R367TER_GAIN_SRC2, 0xd6},/* for xc5000; was 0x04 */
138 {R367TER_INC_DEROT1, 0x55},
139 {R367TER_INC_DEROT2, 0x55},
140 {R367TER_PPM_CPAMP_DIR, 0x2c},
141 {R367TER_PPM_CPAMP_INV, 0x00},
142 {R367TER_FREESTFE_1, 0x00},
143 {R367TER_FREESTFE_2, 0x1c},
144 {R367TER_DCOFFSET, 0x00},
145 {R367TER_EN_PROCESS, 0x05},
146 {R367TER_SDI_SMOOTHER, 0x80},
147 {R367TER_FE_LOOP_OPEN, 0x1c},
148 {R367TER_FREQOFF1, 0x00},
149 {R367TER_FREQOFF2, 0x00},
150 {R367TER_FREQOFF3, 0x00},
151 {R367TER_TIMOFF1, 0x00},
152 {R367TER_TIMOFF2, 0x00},
153 {R367TER_EPQ, 0x02},
154 {R367TER_EPQAUTO, 0x01},
155 {R367TER_SYR_UPDATE, 0xf5},
156 {R367TER_CHPFREE, 0x00},
157 {R367TER_PPM_STATE_MAC, 0x23},
158 {R367TER_INR_THRESHOLD, 0xff},
159 {R367TER_EPQ_TPS_ID_CELL, 0xf9},
160 {R367TER_EPQ_CFG, 0x00},
161 {R367TER_EPQ_STATUS, 0x01},
162 {R367TER_AUTORELOCK, 0x81},
163 {R367TER_BER_THR_VMSB, 0x00},
164 {R367TER_BER_THR_MSB, 0x00},
165 {R367TER_BER_THR_LSB, 0x00},
166 {R367TER_CCD, 0x83},
167 {R367TER_SPECTR_CFG, 0x00},
168 {R367TER_CHC_DUMMY, 0x18},
169 {R367TER_INC_CTL, 0x88},
170 {R367TER_INCTHRES_COR1, 0xb4},
171 {R367TER_INCTHRES_COR2, 0x96},
172 {R367TER_INCTHRES_DET1, 0x0e},
173 {R367TER_INCTHRES_DET2, 0x11},
174 {R367TER_IIR_CELLNB, 0x8d},
175 {R367TER_IIRCX_COEFF1_MSB, 0x00},
176 {R367TER_IIRCX_COEFF1_LSB, 0x00},
177 {R367TER_IIRCX_COEFF2_MSB, 0x09},
178 {R367TER_IIRCX_COEFF2_LSB, 0x18},
179 {R367TER_IIRCX_COEFF3_MSB, 0x14},
180 {R367TER_IIRCX_COEFF3_LSB, 0x9c},
181 {R367TER_IIRCX_COEFF4_MSB, 0x00},
182 {R367TER_IIRCX_COEFF4_LSB, 0x00},
183 {R367TER_IIRCX_COEFF5_MSB, 0x36},
184 {R367TER_IIRCX_COEFF5_LSB, 0x42},
185 {R367TER_FEPATH_CFG, 0x00},
186 {R367TER_PMC1_FUNC, 0x65},
187 {R367TER_PMC1_FOR, 0x00},
188 {R367TER_PMC2_FUNC, 0x00},
189 {R367TER_STATUS_ERR_DA, 0xe0},
190 {R367TER_DIG_AGC_R, 0xfe},
191 {R367TER_COMAGC_TARMSB, 0x0b},
192 {R367TER_COM_AGC_TAR_ENMODE, 0x41},
193 {R367TER_COM_AGC_CFG, 0x3e},
194 {R367TER_COM_AGC_GAIN1, 0x39},
195 {R367TER_AUT_AGC_TARGETMSB, 0x0b},
196 {R367TER_LOCK_DET_MSB, 0x01},
197 {R367TER_AGCTAR_LOCK_LSBS, 0x40},
198 {R367TER_AUT_GAIN_EN, 0xf4},
199 {R367TER_AUT_CFG, 0xf0},
200 {R367TER_LOCKN, 0x23},
201 {R367TER_INT_X_3, 0x00},
202 {R367TER_INT_X_2, 0x03},
203 {R367TER_INT_X_1, 0x8d},
204 {R367TER_INT_X_0, 0xa0},
205 {R367TER_MIN_ERRX_MSB, 0x00},
206 {R367TER_COR_CTL, 0x23},
207 {R367TER_COR_STAT, 0xf6},
208 {R367TER_COR_INTEN, 0x00},
209 {R367TER_COR_INTSTAT, 0x3f},
210 {R367TER_COR_MODEGUARD, 0x03},
211 {R367TER_AGC_CTL, 0x08},
212 {R367TER_AGC_MANUAL1, 0x00},
213 {R367TER_AGC_MANUAL2, 0x00},
214 {R367TER_AGC_TARG, 0x16},
215 {R367TER_AGC_GAIN1, 0x53},
216 {R367TER_AGC_GAIN2, 0x1d},
217 {R367TER_RESERVED_1, 0x00},
218 {R367TER_RESERVED_2, 0x00},
219 {R367TER_RESERVED_3, 0x00},
220 {R367TER_CAS_CTL, 0x44},
221 {R367TER_CAS_FREQ, 0xb3},
222 {R367TER_CAS_DAGCGAIN, 0x12},
223 {R367TER_SYR_CTL, 0x04},
224 {R367TER_SYR_STAT, 0x10},
225 {R367TER_SYR_NCO1, 0x00},
226 {R367TER_SYR_NCO2, 0x00},
227 {R367TER_SYR_OFFSET1, 0x00},
228 {R367TER_SYR_OFFSET2, 0x00},
229 {R367TER_FFT_CTL, 0x00},
230 {R367TER_SCR_CTL, 0x70},
231 {R367TER_PPM_CTL1, 0xf8},
232 {R367TER_TRL_CTL, 0x14},/* for xc5000; was 0xac */
233 {R367TER_TRL_NOMRATE1, 0xae},/* for xc5000; was 0x1e */
234 {R367TER_TRL_NOMRATE2, 0x56},/* for xc5000; was 0x58 */
235 {R367TER_TRL_TIME1, 0x1d},
236 {R367TER_TRL_TIME2, 0xfc},
237 {R367TER_CRL_CTL, 0x24},
238 {R367TER_CRL_FREQ1, 0xad},
239 {R367TER_CRL_FREQ2, 0x9d},
240 {R367TER_CRL_FREQ3, 0xff},
241 {R367TER_CHC_CTL, 0x01},
242 {R367TER_CHC_SNR, 0xf0},
243 {R367TER_BDI_CTL, 0x00},
244 {R367TER_DMP_CTL, 0x00},
245 {R367TER_TPS_RCVD1, 0x30},
246 {R367TER_TPS_RCVD2, 0x02},
247 {R367TER_TPS_RCVD3, 0x01},
248 {R367TER_TPS_RCVD4, 0x00},
249 {R367TER_TPS_ID_CELL1, 0x00},
250 {R367TER_TPS_ID_CELL2, 0x00},
251 {R367TER_TPS_RCVD5_SET1, 0x02},
252 {R367TER_TPS_SET2, 0x02},
253 {R367TER_TPS_SET3, 0x01},
254 {R367TER_TPS_CTL, 0x00},
255 {R367TER_CTL_FFTOSNUM, 0x34},
256 {R367TER_TESTSELECT, 0x09},
257 {R367TER_MSC_REV, 0x0a},
258 {R367TER_PIR_CTL, 0x00},
259 {R367TER_SNR_CARRIER1, 0xa1},
260 {R367TER_SNR_CARRIER2, 0x9a},
261 {R367TER_PPM_CPAMP, 0x2c},
262 {R367TER_TSM_AP0, 0x00},
263 {R367TER_TSM_AP1, 0x00},
264 {R367TER_TSM_AP2 , 0x00},
265 {R367TER_TSM_AP3, 0x00},
266 {R367TER_TSM_AP4, 0x00},
267 {R367TER_TSM_AP5, 0x00},
268 {R367TER_TSM_AP6, 0x00},
269 {R367TER_TSM_AP7, 0x00},
270 {R367TER_TSTRES, 0x00},
271 {R367TER_ANACTRL, 0x0D},/* PLL stoped, restart at init!!! */
272 {R367TER_TSTBUS, 0x00},
273 {R367TER_TSTRATE, 0x00},
274 {R367TER_CONSTMODE, 0x01},
275 {R367TER_CONSTCARR1, 0x00},
276 {R367TER_CONSTCARR2, 0x00},
277 {R367TER_ICONSTEL, 0x0a},
278 {R367TER_QCONSTEL, 0x15},
279 {R367TER_TSTBISTRES0, 0x00},
280 {R367TER_TSTBISTRES1, 0x00},
281 {R367TER_TSTBISTRES2, 0x28},
282 {R367TER_TSTBISTRES3, 0x00},
283 {R367TER_RF_AGC1, 0xff},
284 {R367TER_RF_AGC2, 0x83},
285 {R367TER_ANADIGCTRL, 0x19},
286 {R367TER_PLLMDIV, 0x01},/* for xc5000; was 0x0c */
287 {R367TER_PLLNDIV, 0x06},/* for xc5000; was 0x55 */
288 {R367TER_PLLSETUP, 0x18},
289 {R367TER_DUAL_AD12, 0x04},/* for xc5000; was 0x00 */
290 {R367TER_TSTBIST, 0x00},
291 {R367TER_PAD_COMP_CTRL, 0x00},
292 {R367TER_PAD_COMP_WR, 0x00},
293 {R367TER_PAD_COMP_RD, 0xe0},
294 {R367TER_SYR_TARGET_FFTADJT_MSB, 0x00},
295 {R367TER_SYR_TARGET_FFTADJT_LSB, 0x00},
296 {R367TER_SYR_TARGET_CHCADJT_MSB, 0x00},
297 {R367TER_SYR_TARGET_CHCADJT_LSB, 0x00},
298 {R367TER_SYR_FLAG, 0x00},
299 {R367TER_CRL_TARGET1, 0x00},
300 {R367TER_CRL_TARGET2, 0x00},
301 {R367TER_CRL_TARGET3, 0x00},
302 {R367TER_CRL_TARGET4, 0x00},
303 {R367TER_CRL_FLAG, 0x00},
304 {R367TER_TRL_TARGET1, 0x00},
305 {R367TER_TRL_TARGET2, 0x00},
306 {R367TER_TRL_CHC, 0x00},
307 {R367TER_CHC_SNR_TARG, 0x00},
308 {R367TER_TOP_TRACK, 0x00},
309 {R367TER_TRACKER_FREE1, 0x00},
310 {R367TER_ERROR_CRL1, 0x00},
311 {R367TER_ERROR_CRL2, 0x00},
312 {R367TER_ERROR_CRL3, 0x00},
313 {R367TER_ERROR_CRL4, 0x00},
314 {R367TER_DEC_NCO1, 0x2c},
315 {R367TER_DEC_NCO2, 0x0f},
316 {R367TER_DEC_NCO3, 0x20},
317 {R367TER_SNR, 0xf1},
318 {R367TER_SYR_FFTADJ1, 0x00},
319 {R367TER_SYR_FFTADJ2, 0x00},
320 {R367TER_SYR_CHCADJ1, 0x00},
321 {R367TER_SYR_CHCADJ2, 0x00},
322 {R367TER_SYR_OFF, 0x00},
323 {R367TER_PPM_OFFSET1, 0x00},
324 {R367TER_PPM_OFFSET2, 0x03},
325 {R367TER_TRACKER_FREE2, 0x00},
326 {R367TER_DEBG_LT10, 0x00},
327 {R367TER_DEBG_LT11, 0x00},
328 {R367TER_DEBG_LT12, 0x00},
329 {R367TER_DEBG_LT13, 0x00},
330 {R367TER_DEBG_LT14, 0x00},
331 {R367TER_DEBG_LT15, 0x00},
332 {R367TER_DEBG_LT16, 0x00},
333 {R367TER_DEBG_LT17, 0x00},
334 {R367TER_DEBG_LT18, 0x00},
335 {R367TER_DEBG_LT19, 0x00},
336 {R367TER_DEBG_LT1A, 0x00},
337 {R367TER_DEBG_LT1B, 0x00},
338 {R367TER_DEBG_LT1C, 0x00},
339 {R367TER_DEBG_LT1D, 0x00},
340 {R367TER_DEBG_LT1E, 0x00},
341 {R367TER_DEBG_LT1F, 0x00},
342 {R367TER_RCCFGH, 0x00},
343 {R367TER_RCCFGM, 0x00},
344 {R367TER_RCCFGL, 0x00},
345 {R367TER_RCINSDELH, 0x00},
346 {R367TER_RCINSDELM, 0x00},
347 {R367TER_RCINSDELL, 0x00},
348 {R367TER_RCSTATUS, 0x00},
349 {R367TER_RCSPEED, 0x6f},
350 {R367TER_RCDEBUGM, 0xe7},
351 {R367TER_RCDEBUGL, 0x9b},
352 {R367TER_RCOBSCFG, 0x00},
353 {R367TER_RCOBSM, 0x00},
354 {R367TER_RCOBSL, 0x00},
355 {R367TER_RCFECSPY, 0x00},
356 {R367TER_RCFSPYCFG, 0x00},
357 {R367TER_RCFSPYDATA, 0x00},
358 {R367TER_RCFSPYOUT, 0x00},
359 {R367TER_RCFSTATUS, 0x00},
360 {R367TER_RCFGOODPACK, 0x00},
361 {R367TER_RCFPACKCNT, 0x00},
362 {R367TER_RCFSPYMISC, 0x00},
363 {R367TER_RCFBERCPT4, 0x00},
364 {R367TER_RCFBERCPT3, 0x00},
365 {R367TER_RCFBERCPT2, 0x00},
366 {R367TER_RCFBERCPT1, 0x00},
367 {R367TER_RCFBERCPT0, 0x00},
368 {R367TER_RCFBERERR2, 0x00},
369 {R367TER_RCFBERERR1, 0x00},
370 {R367TER_RCFBERERR0, 0x00},
371 {R367TER_RCFSTATESM, 0x00},
372 {R367TER_RCFSTATESL, 0x00},
373 {R367TER_RCFSPYBER, 0x00},
374 {R367TER_RCFSPYDISTM, 0x00},
375 {R367TER_RCFSPYDISTL, 0x00},
376 {R367TER_RCFSPYOBS7, 0x00},
377 {R367TER_RCFSPYOBS6, 0x00},
378 {R367TER_RCFSPYOBS5, 0x00},
379 {R367TER_RCFSPYOBS4, 0x00},
380 {R367TER_RCFSPYOBS3, 0x00},
381 {R367TER_RCFSPYOBS2, 0x00},
382 {R367TER_RCFSPYOBS1, 0x00},
383 {R367TER_RCFSPYOBS0, 0x00},
384 {R367TER_TSGENERAL, 0x00},
385 {R367TER_RC1SPEED, 0x6f},
386 {R367TER_TSGSTATUS, 0x18},
387 {R367TER_FECM, 0x01},
388 {R367TER_VTH12, 0xff},
389 {R367TER_VTH23, 0xa1},
390 {R367TER_VTH34, 0x64},
391 {R367TER_VTH56, 0x40},
392 {R367TER_VTH67, 0x00},
393 {R367TER_VTH78, 0x2c},
394 {R367TER_VITCURPUN, 0x12},
395 {R367TER_VERROR, 0x01},
396 {R367TER_PRVIT, 0x3f},
397 {R367TER_VAVSRVIT, 0x00},
398 {R367TER_VSTATUSVIT, 0xbd},
399 {R367TER_VTHINUSE, 0xa1},
400 {R367TER_KDIV12, 0x20},
401 {R367TER_KDIV23, 0x40},
402 {R367TER_KDIV34, 0x20},
403 {R367TER_KDIV56, 0x30},
404 {R367TER_KDIV67, 0x00},
405 {R367TER_KDIV78, 0x30},
406 {R367TER_SIGPOWER, 0x54},
407 {R367TER_DEMAPVIT, 0x40},
408 {R367TER_VITSCALE, 0x00},
409 {R367TER_FFEC1PRG, 0x00},
410 {R367TER_FVITCURPUN, 0x12},
411 {R367TER_FVERROR, 0x01},
412 {R367TER_FVSTATUSVIT, 0xbd},
413 {R367TER_DEBUG_LT1, 0x00},
414 {R367TER_DEBUG_LT2, 0x00},
415 {R367TER_DEBUG_LT3, 0x00},
416 {R367TER_TSTSFMET, 0x00},
417 {R367TER_SELOUT, 0x00},
418 {R367TER_TSYNC, 0x00},
419 {R367TER_TSTERR, 0x00},
420 {R367TER_TSFSYNC, 0x00},
421 {R367TER_TSTSFERR, 0x00},
422 {R367TER_TSTTSSF1, 0x01},
423 {R367TER_TSTTSSF2, 0x1f},
424 {R367TER_TSTTSSF3, 0x00},
425 {R367TER_TSTTS1, 0x00},
426 {R367TER_TSTTS2, 0x1f},
427 {R367TER_TSTTS3, 0x01},
428 {R367TER_TSTTS4, 0x00},
429 {R367TER_TSTTSRC, 0x00},
430 {R367TER_TSTTSRS, 0x00},
431 {R367TER_TSSTATEM, 0xb0},
432 {R367TER_TSSTATEL, 0x40},
433 {R367TER_TSCFGH, 0xC0},
434 {R367TER_TSCFGM, 0xc0},/* for xc5000; was 0x00 */
435 {R367TER_TSCFGL, 0x20},
436 {R367TER_TSSYNC, 0x00},
437 {R367TER_TSINSDELH, 0x00},
438 {R367TER_TSINSDELM, 0x00},
439 {R367TER_TSINSDELL, 0x00},
440 {R367TER_TSDIVN, 0x03},
441 {R367TER_TSDIVPM, 0x00},
442 {R367TER_TSDIVPL, 0x00},
443 {R367TER_TSDIVQM, 0x00},
444 {R367TER_TSDIVQL, 0x00},
445 {R367TER_TSDILSTKM, 0x00},
446 {R367TER_TSDILSTKL, 0x00},
447 {R367TER_TSSPEED, 0x40},/* for xc5000; was 0x6f */
448 {R367TER_TSSTATUS, 0x81},
449 {R367TER_TSSTATUS2, 0x6a},
450 {R367TER_TSBITRATEM, 0x0f},
451 {R367TER_TSBITRATEL, 0xc6},
452 {R367TER_TSPACKLENM, 0x00},
453 {R367TER_TSPACKLENL, 0xfc},
454 {R367TER_TSBLOCLENM, 0x0a},
455 {R367TER_TSBLOCLENL, 0x80},
456 {R367TER_TSDLYH, 0x90},
457 {R367TER_TSDLYM, 0x68},
458 {R367TER_TSDLYL, 0x01},
459 {R367TER_TSNPDAV, 0x00},
460 {R367TER_TSBUFSTATH, 0x00},
461 {R367TER_TSBUFSTATM, 0x00},
462 {R367TER_TSBUFSTATL, 0x00},
463 {R367TER_TSDEBUGM, 0xcf},
464 {R367TER_TSDEBUGL, 0x1e},
465 {R367TER_TSDLYSETH, 0x00},
466 {R367TER_TSDLYSETM, 0x68},
467 {R367TER_TSDLYSETL, 0x00},
468 {R367TER_TSOBSCFG, 0x00},
469 {R367TER_TSOBSM, 0x47},
470 {R367TER_TSOBSL, 0x1f},
471 {R367TER_ERRCTRL1, 0x95},
472 {R367TER_ERRCNT1H, 0x80},
473 {R367TER_ERRCNT1M, 0x00},
474 {R367TER_ERRCNT1L, 0x00},
475 {R367TER_ERRCTRL2, 0x95},
476 {R367TER_ERRCNT2H, 0x00},
477 {R367TER_ERRCNT2M, 0x00},
478 {R367TER_ERRCNT2L, 0x00},
479 {R367TER_FECSPY, 0x88},
480 {R367TER_FSPYCFG, 0x2c},
481 {R367TER_FSPYDATA, 0x3a},
482 {R367TER_FSPYOUT, 0x06},
483 {R367TER_FSTATUS, 0x61},
484 {R367TER_FGOODPACK, 0xff},
485 {R367TER_FPACKCNT, 0xff},
486 {R367TER_FSPYMISC, 0x66},
487 {R367TER_FBERCPT4, 0x00},
488 {R367TER_FBERCPT3, 0x00},
489 {R367TER_FBERCPT2, 0x36},
490 {R367TER_FBERCPT1, 0x36},
491 {R367TER_FBERCPT0, 0x14},
492 {R367TER_FBERERR2, 0x00},
493 {R367TER_FBERERR1, 0x03},
494 {R367TER_FBERERR0, 0x28},
495 {R367TER_FSTATESM, 0x00},
496 {R367TER_FSTATESL, 0x02},
497 {R367TER_FSPYBER, 0x00},
498 {R367TER_FSPYDISTM, 0x01},
499 {R367TER_FSPYDISTL, 0x9f},
500 {R367TER_FSPYOBS7, 0xc9},
501 {R367TER_FSPYOBS6, 0x99},
502 {R367TER_FSPYOBS5, 0x08},
503 {R367TER_FSPYOBS4, 0xec},
504 {R367TER_FSPYOBS3, 0x01},
505 {R367TER_FSPYOBS2, 0x0f},
506 {R367TER_FSPYOBS1, 0xf5},
507 {R367TER_FSPYOBS0, 0x08},
508 {R367TER_SFDEMAP, 0x40},
509 {R367TER_SFERROR, 0x00},
510 {R367TER_SFAVSR, 0x30},
511 {R367TER_SFECSTATUS, 0xcc},
512 {R367TER_SFKDIV12, 0x20},
513 {R367TER_SFKDIV23, 0x40},
514 {R367TER_SFKDIV34, 0x20},
515 {R367TER_SFKDIV56, 0x20},
516 {R367TER_SFKDIV67, 0x00},
517 {R367TER_SFKDIV78, 0x20},
518 {R367TER_SFDILSTKM, 0x00},
519 {R367TER_SFDILSTKL, 0x00},
520 {R367TER_SFSTATUS, 0xb5},
521 {R367TER_SFDLYH, 0x90},
522 {R367TER_SFDLYM, 0x60},
523 {R367TER_SFDLYL, 0x01},
524 {R367TER_SFDLYSETH, 0xc0},
525 {R367TER_SFDLYSETM, 0x60},
526 {R367TER_SFDLYSETL, 0x00},
527 {R367TER_SFOBSCFG, 0x00},
528 {R367TER_SFOBSM, 0x47},
529 {R367TER_SFOBSL, 0x05},
530 {R367TER_SFECINFO, 0x40},
531 {R367TER_SFERRCTRL, 0x74},
532 {R367TER_SFERRCNTH, 0x80},
533 {R367TER_SFERRCNTM , 0x00},
534 {R367TER_SFERRCNTL, 0x00},
535 {R367TER_SYMBRATEM, 0x2f},
536 {R367TER_SYMBRATEL, 0x50},
537 {R367TER_SYMBSTATUS, 0x7f},
538 {R367TER_SYMBCFG, 0x00},
539 {R367TER_SYMBFIFOM, 0xf4},
540 {R367TER_SYMBFIFOL, 0x0d},
541 {R367TER_SYMBOFFSM, 0xf0},
542 {R367TER_SYMBOFFSL, 0x2d},
543 {R367TER_DEBUG_LT4, 0x00},
544 {R367TER_DEBUG_LT5, 0x00},
545 {R367TER_DEBUG_LT6, 0x00},
546 {R367TER_DEBUG_LT7, 0x00},
547 {R367TER_DEBUG_LT8, 0x00},
548 {R367TER_DEBUG_LT9, 0x00},
549};
550
551#define RF_LOOKUP_TABLE_SIZE 31
552#define RF_LOOKUP_TABLE2_SIZE 16
553/* RF Level (for RF AGC->AGC1) Lookup Table, depends on the board and tuner.*/
554s32 stv0367cab_RF_LookUp1[RF_LOOKUP_TABLE_SIZE][RF_LOOKUP_TABLE_SIZE] = {
555 {/*AGC1*/
556 48, 50, 51, 53, 54, 56, 57, 58, 60, 61, 62, 63,
557 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75,
558 76, 77, 78, 80, 83, 85, 88,
559 }, {/*RF(dbm)*/
560 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33,
561 34, 35, 36, 37, 38, 39, 41, 42, 43, 44, 46, 47,
562 49, 50, 52, 53, 54, 55, 56,
563 }
564};
565/* RF Level (for IF AGC->AGC2) Lookup Table, depends on the board and tuner.*/
566s32 stv0367cab_RF_LookUp2[RF_LOOKUP_TABLE2_SIZE][RF_LOOKUP_TABLE2_SIZE] = {
567 {/*AGC2*/
568 28, 29, 31, 32, 34, 35, 36, 37,
569 38, 39, 40, 41, 42, 43, 44, 45,
570 }, {/*RF(dbm)*/
571 57, 58, 59, 60, 61, 62, 63, 64,
572 65, 66, 67, 68, 69, 70, 71, 72,
573 }
574};
575
576static struct st_register def0367cab[STV0367CAB_NBREGS] = {
577 {R367CAB_ID, 0x60},
578 {R367CAB_I2CRPT, 0xa0},
579 /*{R367CAB_I2CRPT, 0x22},*/
580 {R367CAB_TOPCTRL, 0x10},
581 {R367CAB_IOCFG0, 0x80},
582 {R367CAB_DAC0R, 0x00},
583 {R367CAB_IOCFG1, 0x00},
584 {R367CAB_DAC1R, 0x00},
585 {R367CAB_IOCFG2, 0x00},
586 {R367CAB_SDFR, 0x00},
587 {R367CAB_AUX_CLK, 0x00},
588 {R367CAB_FREESYS1, 0x00},
589 {R367CAB_FREESYS2, 0x00},
590 {R367CAB_FREESYS3, 0x00},
591 {R367CAB_GPIO_CFG, 0x55},
592 {R367CAB_GPIO_CMD, 0x01},
593 {R367CAB_TSTRES, 0x00},
594 {R367CAB_ANACTRL, 0x0d},/* was 0x00 need to check - I.M.L.*/
595 {R367CAB_TSTBUS, 0x00},
596 {R367CAB_RF_AGC1, 0xea},
597 {R367CAB_RF_AGC2, 0x82},
598 {R367CAB_ANADIGCTRL, 0x0b},
599 {R367CAB_PLLMDIV, 0x01},
600 {R367CAB_PLLNDIV, 0x08},
601 {R367CAB_PLLSETUP, 0x18},
602 {R367CAB_DUAL_AD12, 0x04},
603 {R367CAB_TSTBIST, 0x00},
604 {R367CAB_CTRL_1, 0x00},
605 {R367CAB_CTRL_2, 0x03},
606 {R367CAB_IT_STATUS1, 0x2b},
607 {R367CAB_IT_STATUS2, 0x08},
608 {R367CAB_IT_EN1, 0x00},
609 {R367CAB_IT_EN2, 0x00},
610 {R367CAB_CTRL_STATUS, 0x04},
611 {R367CAB_TEST_CTL, 0x00},
612 {R367CAB_AGC_CTL, 0x73},
613 {R367CAB_AGC_IF_CFG, 0x50},
614 {R367CAB_AGC_RF_CFG, 0x00},
615 {R367CAB_AGC_PWM_CFG, 0x03},
616 {R367CAB_AGC_PWR_REF_L, 0x5a},
617 {R367CAB_AGC_PWR_REF_H, 0x00},
618 {R367CAB_AGC_RF_TH_L, 0xff},
619 {R367CAB_AGC_RF_TH_H, 0x07},
620 {R367CAB_AGC_IF_LTH_L, 0x00},
621 {R367CAB_AGC_IF_LTH_H, 0x08},
622 {R367CAB_AGC_IF_HTH_L, 0xff},
623 {R367CAB_AGC_IF_HTH_H, 0x07},
624 {R367CAB_AGC_PWR_RD_L, 0xa0},
625 {R367CAB_AGC_PWR_RD_M, 0xe9},
626 {R367CAB_AGC_PWR_RD_H, 0x03},
627 {R367CAB_AGC_PWM_IFCMD_L, 0xe4},
628 {R367CAB_AGC_PWM_IFCMD_H, 0x00},
629 {R367CAB_AGC_PWM_RFCMD_L, 0xff},
630 {R367CAB_AGC_PWM_RFCMD_H, 0x07},
631 {R367CAB_IQDEM_CFG, 0x01},
632 {R367CAB_MIX_NCO_LL, 0x22},
633 {R367CAB_MIX_NCO_HL, 0x96},
634 {R367CAB_MIX_NCO_HH, 0x55},
635 {R367CAB_SRC_NCO_LL, 0xff},
636 {R367CAB_SRC_NCO_LH, 0x0c},
637 {R367CAB_SRC_NCO_HL, 0xf5},
638 {R367CAB_SRC_NCO_HH, 0x20},
639 {R367CAB_IQDEM_GAIN_SRC_L, 0x06},
640 {R367CAB_IQDEM_GAIN_SRC_H, 0x01},
641 {R367CAB_IQDEM_DCRM_CFG_LL, 0xfe},
642 {R367CAB_IQDEM_DCRM_CFG_LH, 0xff},
643 {R367CAB_IQDEM_DCRM_CFG_HL, 0x0f},
644 {R367CAB_IQDEM_DCRM_CFG_HH, 0x00},
645 {R367CAB_IQDEM_ADJ_COEFF0, 0x34},
646 {R367CAB_IQDEM_ADJ_COEFF1, 0xae},
647 {R367CAB_IQDEM_ADJ_COEFF2, 0x46},
648 {R367CAB_IQDEM_ADJ_COEFF3, 0x77},
649 {R367CAB_IQDEM_ADJ_COEFF4, 0x96},
650 {R367CAB_IQDEM_ADJ_COEFF5, 0x69},
651 {R367CAB_IQDEM_ADJ_COEFF6, 0xc7},
652 {R367CAB_IQDEM_ADJ_COEFF7, 0x01},
653 {R367CAB_IQDEM_ADJ_EN, 0x04},
654 {R367CAB_IQDEM_ADJ_AGC_REF, 0x94},
655 {R367CAB_ALLPASSFILT1, 0xc9},
656 {R367CAB_ALLPASSFILT2, 0x2d},
657 {R367CAB_ALLPASSFILT3, 0xa3},
658 {R367CAB_ALLPASSFILT4, 0xfb},
659 {R367CAB_ALLPASSFILT5, 0xf6},
660 {R367CAB_ALLPASSFILT6, 0x45},
661 {R367CAB_ALLPASSFILT7, 0x6f},
662 {R367CAB_ALLPASSFILT8, 0x7e},
663 {R367CAB_ALLPASSFILT9, 0x05},
664 {R367CAB_ALLPASSFILT10, 0x0a},
665 {R367CAB_ALLPASSFILT11, 0x51},
666 {R367CAB_TRL_AGC_CFG, 0x20},
667 {R367CAB_TRL_LPF_CFG, 0x28},
668 {R367CAB_TRL_LPF_ACQ_GAIN, 0x44},
669 {R367CAB_TRL_LPF_TRK_GAIN, 0x22},
670 {R367CAB_TRL_LPF_OUT_GAIN, 0x03},
671 {R367CAB_TRL_LOCKDET_LTH, 0x04},
672 {R367CAB_TRL_LOCKDET_HTH, 0x11},
673 {R367CAB_TRL_LOCKDET_TRGVAL, 0x20},
674 {R367CAB_IQ_QAM, 0x01},
675 {R367CAB_FSM_STATE, 0xa0},
676 {R367CAB_FSM_CTL, 0x08},
677 {R367CAB_FSM_STS, 0x0c},
678 {R367CAB_FSM_SNR0_HTH, 0x00},
679 {R367CAB_FSM_SNR1_HTH, 0x00},
680 {R367CAB_FSM_SNR2_HTH, 0x23},/* 0x00 */
681 {R367CAB_FSM_SNR0_LTH, 0x00},
682 {R367CAB_FSM_SNR1_LTH, 0x00},
683 {R367CAB_FSM_EQA1_HTH, 0x00},
684 {R367CAB_FSM_TEMPO, 0x32},
685 {R367CAB_FSM_CONFIG, 0x03},
686 {R367CAB_EQU_I_TESTTAP_L, 0x11},
687 {R367CAB_EQU_I_TESTTAP_M, 0x00},
688 {R367CAB_EQU_I_TESTTAP_H, 0x00},
689 {R367CAB_EQU_TESTAP_CFG, 0x00},
690 {R367CAB_EQU_Q_TESTTAP_L, 0xff},
691 {R367CAB_EQU_Q_TESTTAP_M, 0x00},
692 {R367CAB_EQU_Q_TESTTAP_H, 0x00},
693 {R367CAB_EQU_TAP_CTRL, 0x00},
694 {R367CAB_EQU_CTR_CRL_CONTROL_L, 0x11},
695 {R367CAB_EQU_CTR_CRL_CONTROL_H, 0x05},
696 {R367CAB_EQU_CTR_HIPOW_L, 0x00},
697 {R367CAB_EQU_CTR_HIPOW_H, 0x00},
698 {R367CAB_EQU_I_EQU_LO, 0xef},
699 {R367CAB_EQU_I_EQU_HI, 0x00},
700 {R367CAB_EQU_Q_EQU_LO, 0xee},
701 {R367CAB_EQU_Q_EQU_HI, 0x00},
702 {R367CAB_EQU_MAPPER, 0xc5},
703 {R367CAB_EQU_SWEEP_RATE, 0x80},
704 {R367CAB_EQU_SNR_LO, 0x64},
705 {R367CAB_EQU_SNR_HI, 0x03},
706 {R367CAB_EQU_GAMMA_LO, 0x00},
707 {R367CAB_EQU_GAMMA_HI, 0x00},
708 {R367CAB_EQU_ERR_GAIN, 0x36},
709 {R367CAB_EQU_RADIUS, 0xaa},
710 {R367CAB_EQU_FFE_MAINTAP, 0x00},
711 {R367CAB_EQU_FFE_LEAKAGE, 0x63},
712 {R367CAB_EQU_FFE_MAINTAP_POS, 0xdf},
713 {R367CAB_EQU_GAIN_WIDE, 0x88},
714 {R367CAB_EQU_GAIN_NARROW, 0x41},
715 {R367CAB_EQU_CTR_LPF_GAIN, 0xd1},
716 {R367CAB_EQU_CRL_LPF_GAIN, 0xa7},
717 {R367CAB_EQU_GLOBAL_GAIN, 0x06},
718 {R367CAB_EQU_CRL_LD_SEN, 0x85},
719 {R367CAB_EQU_CRL_LD_VAL, 0xe2},
720 {R367CAB_EQU_CRL_TFR, 0x20},
721 {R367CAB_EQU_CRL_BISTH_LO, 0x00},
722 {R367CAB_EQU_CRL_BISTH_HI, 0x00},
723 {R367CAB_EQU_SWEEP_RANGE_LO, 0x00},
724 {R367CAB_EQU_SWEEP_RANGE_HI, 0x00},
725 {R367CAB_EQU_CRL_LIMITER, 0x40},
726 {R367CAB_EQU_MODULUS_MAP, 0x90},
727 {R367CAB_EQU_PNT_GAIN, 0xa7},
728 {R367CAB_FEC_AC_CTR_0, 0x16},
729 {R367CAB_FEC_AC_CTR_1, 0x0b},
730 {R367CAB_FEC_AC_CTR_2, 0x88},
731 {R367CAB_FEC_AC_CTR_3, 0x02},
732 {R367CAB_FEC_STATUS, 0x12},
733 {R367CAB_RS_COUNTER_0, 0x7d},
734 {R367CAB_RS_COUNTER_1, 0xd0},
735 {R367CAB_RS_COUNTER_2, 0x19},
736 {R367CAB_RS_COUNTER_3, 0x0b},
737 {R367CAB_RS_COUNTER_4, 0xa3},
738 {R367CAB_RS_COUNTER_5, 0x00},
739 {R367CAB_BERT_0, 0x01},
740 {R367CAB_BERT_1, 0x25},
741 {R367CAB_BERT_2, 0x41},
742 {R367CAB_BERT_3, 0x39},
743 {R367CAB_OUTFORMAT_0, 0xc2},
744 {R367CAB_OUTFORMAT_1, 0x22},
745 {R367CAB_SMOOTHER_2, 0x28},
746 {R367CAB_TSMF_CTRL_0, 0x01},
747 {R367CAB_TSMF_CTRL_1, 0xc6},
748 {R367CAB_TSMF_CTRL_3, 0x43},
749 {R367CAB_TS_ON_ID_0, 0x00},
750 {R367CAB_TS_ON_ID_1, 0x00},
751 {R367CAB_TS_ON_ID_2, 0x00},
752 {R367CAB_TS_ON_ID_3, 0x00},
753 {R367CAB_RE_STATUS_0, 0x00},
754 {R367CAB_RE_STATUS_1, 0x00},
755 {R367CAB_RE_STATUS_2, 0x00},
756 {R367CAB_RE_STATUS_3, 0x00},
757 {R367CAB_TS_STATUS_0, 0x00},
758 {R367CAB_TS_STATUS_1, 0x00},
759 {R367CAB_TS_STATUS_2, 0xa0},
760 {R367CAB_TS_STATUS_3, 0x00},
761 {R367CAB_T_O_ID_0, 0x00},
762 {R367CAB_T_O_ID_1, 0x00},
763 {R367CAB_T_O_ID_2, 0x00},
764 {R367CAB_T_O_ID_3, 0x00},
765};
766
767static
768int stv0367_writeregs(struct stv0367_state *state, u16 reg, u8 *data, int len)
769{
770 u8 buf[len + 2];
771 struct i2c_msg msg = {
772 .addr = state->config->demod_address,
773 .flags = 0,
774 .buf = buf,
775 .len = len + 2
776 };
777 int ret;
778
779 buf[0] = MSB(reg);
780 buf[1] = LSB(reg);
781 memcpy(buf + 2, data, len);
782
783 if (i2cdebug)
784 printk(KERN_DEBUG "%s: %02x: %02x\n", __func__, reg, buf[2]);
785
786 ret = i2c_transfer(state->i2c, &msg, 1);
787 if (ret != 1)
788 printk(KERN_ERR "%s: i2c write error!\n", __func__);
789
790 return (ret != 1) ? -EREMOTEIO : 0;
791}
792
793static int stv0367_writereg(struct stv0367_state *state, u16 reg, u8 data)
794{
795 return stv0367_writeregs(state, reg, &data, 1);
796}
797
798static u8 stv0367_readreg(struct stv0367_state *state, u16 reg)
799{
800 u8 b0[] = { 0, 0 };
801 u8 b1[] = { 0 };
802 struct i2c_msg msg[] = {
803 {
804 .addr = state->config->demod_address,
805 .flags = 0,
806 .buf = b0,
807 .len = 2
808 }, {
809 .addr = state->config->demod_address,
810 .flags = I2C_M_RD,
811 .buf = b1,
812 .len = 1
813 }
814 };
815 int ret;
816
817 b0[0] = MSB(reg);
818 b0[1] = LSB(reg);
819
820 ret = i2c_transfer(state->i2c, msg, 2);
821 if (ret != 2)
822 printk(KERN_ERR "%s: i2c read error\n", __func__);
823
824 if (i2cdebug)
825 printk(KERN_DEBUG "%s: %02x: %02x\n", __func__, reg, b1[0]);
826
827 return b1[0];
828}
829
830static void extract_mask_pos(u32 label, u8 *mask, u8 *pos)
831{
832 u8 position = 0, i = 0;
833
834 (*mask) = label & 0xff;
835
836 while ((position == 0) && (i < 8)) {
837 position = ((*mask) >> i) & 0x01;
838 i++;
839 }
840
841 (*pos) = (i - 1);
842}
843
844static void stv0367_writebits(struct stv0367_state *state, u32 label, u8 val)
845{
846 u8 reg, mask, pos;
847
848 reg = stv0367_readreg(state, (label >> 16) & 0xffff);
849 extract_mask_pos(label, &mask, &pos);
850
851 val = mask & (val << pos);
852
853 reg = (reg & (~mask)) | val;
854 stv0367_writereg(state, (label >> 16) & 0xffff, reg);
855
856}
857
858static void stv0367_setbits(u8 *reg, u32 label, u8 val)
859{
860 u8 mask, pos;
861
862 extract_mask_pos(label, &mask, &pos);
863
864 val = mask & (val << pos);
865
866 (*reg) = ((*reg) & (~mask)) | val;
867}
868
869static u8 stv0367_readbits(struct stv0367_state *state, u32 label)
870{
871 u8 val = 0xff;
872 u8 mask, pos;
873
874 extract_mask_pos(label, &mask, &pos);
875
876 val = stv0367_readreg(state, label >> 16);
877 val = (val & mask) >> pos;
878
879 return val;
880}
881
882u8 stv0367_getbits(u8 reg, u32 label)
883{
884 u8 mask, pos;
885
886 extract_mask_pos(label, &mask, &pos);
887
888 return (reg & mask) >> pos;
889}
890
891static int stv0367ter_gate_ctrl(struct dvb_frontend *fe, int enable)
892{
893 struct stv0367_state *state = fe->demodulator_priv;
894 u8 tmp = stv0367_readreg(state, R367TER_I2CRPT);
895
896 dprintk("%s:\n", __func__);
897
898 if (enable) {
899 stv0367_setbits(&tmp, F367TER_STOP_ENABLE, 0);
900 stv0367_setbits(&tmp, F367TER_I2CT_ON, 1);
901 } else {
902 stv0367_setbits(&tmp, F367TER_STOP_ENABLE, 1);
903 stv0367_setbits(&tmp, F367TER_I2CT_ON, 0);
904 }
905
906 stv0367_writereg(state, R367TER_I2CRPT, tmp);
907
908 return 0;
909}
910
911static u32 stv0367_get_tuner_freq(struct dvb_frontend *fe)
912{
913 struct dvb_frontend_ops *frontend_ops = NULL;
914 struct dvb_tuner_ops *tuner_ops = NULL;
915 u32 freq = 0;
916 u32 err = 0;
917
918 dprintk("%s:\n", __func__);
919
920
921 if (&fe->ops)
922 frontend_ops = &fe->ops;
923 if (&frontend_ops->tuner_ops)
924 tuner_ops = &frontend_ops->tuner_ops;
925 if (tuner_ops->get_frequency) {
926 err = tuner_ops->get_frequency(fe, &freq);
927 if (err < 0) {
928 printk(KERN_ERR "%s: Invalid parameter\n", __func__);
929 return err;
930 }
931
932 dprintk("%s: frequency=%d\n", __func__, freq);
933
934 } else
935 return -1;
936
937 return freq;
938}
939
940static u16 CellsCoeffs_8MHz_367cofdm[3][6][5] = {
941 {
942 {0x10EF, 0xE205, 0x10EF, 0xCE49, 0x6DA7}, /* CELL 1 COEFFS 27M*/
943 {0x2151, 0xc557, 0x2151, 0xc705, 0x6f93}, /* CELL 2 COEFFS */
944 {0x2503, 0xc000, 0x2503, 0xc375, 0x7194}, /* CELL 3 COEFFS */
945 {0x20E9, 0xca94, 0x20e9, 0xc153, 0x7194}, /* CELL 4 COEFFS */
946 {0x06EF, 0xF852, 0x06EF, 0xC057, 0x7207}, /* CELL 5 COEFFS */
947 {0x0000, 0x0ECC, 0x0ECC, 0x0000, 0x3647} /* CELL 6 COEFFS */
948 }, {
949 {0x10A0, 0xE2AF, 0x10A1, 0xCE76, 0x6D6D}, /* CELL 1 COEFFS 25M*/
950 {0x20DC, 0xC676, 0x20D9, 0xC80A, 0x6F29},
951 {0x2532, 0xC000, 0x251D, 0xC391, 0x706F},
952 {0x1F7A, 0xCD2B, 0x2032, 0xC15E, 0x711F},
953 {0x0698, 0xFA5E, 0x0568, 0xC059, 0x7193},
954 {0x0000, 0x0918, 0x149C, 0x0000, 0x3642} /* CELL 6 COEFFS */
955 }, {
956 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000}, /* 30M */
957 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
958 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
959 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
960 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
961 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000}
962 }
963};
964
965static u16 CellsCoeffs_7MHz_367cofdm[3][6][5] = {
966 {
967 {0x12CA, 0xDDAF, 0x12CA, 0xCCEB, 0x6FB1}, /* CELL 1 COEFFS 27M*/
968 {0x2329, 0xC000, 0x2329, 0xC6B0, 0x725F}, /* CELL 2 COEFFS */
969 {0x2394, 0xC000, 0x2394, 0xC2C7, 0x7410}, /* CELL 3 COEFFS */
970 {0x251C, 0xC000, 0x251C, 0xC103, 0x74D9}, /* CELL 4 COEFFS */
971 {0x0804, 0xF546, 0x0804, 0xC040, 0x7544}, /* CELL 5 COEFFS */
972 {0x0000, 0x0CD9, 0x0CD9, 0x0000, 0x370A} /* CELL 6 COEFFS */
973 }, {
974 {0x1285, 0xDE47, 0x1285, 0xCD17, 0x6F76}, /*25M*/
975 {0x234C, 0xC000, 0x2348, 0xC6DA, 0x7206},
976 {0x23B4, 0xC000, 0x23AC, 0xC2DB, 0x73B3},
977 {0x253D, 0xC000, 0x25B6, 0xC10B, 0x747F},
978 {0x0721, 0xF79C, 0x065F, 0xC041, 0x74EB},
979 {0x0000, 0x08FA, 0x1162, 0x0000, 0x36FF}
980 }, {
981 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000}, /* 30M */
982 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
983 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
984 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
985 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
986 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000}
987 }
988};
989
990static u16 CellsCoeffs_6MHz_367cofdm[3][6][5] = {
991 {
992 {0x1699, 0xD5B8, 0x1699, 0xCBC3, 0x713B}, /* CELL 1 COEFFS 27M*/
993 {0x2245, 0xC000, 0x2245, 0xC568, 0x74D5}, /* CELL 2 COEFFS */
994 {0x227F, 0xC000, 0x227F, 0xC1FC, 0x76C6}, /* CELL 3 COEFFS */
995 {0x235E, 0xC000, 0x235E, 0xC0A7, 0x778A}, /* CELL 4 COEFFS */
996 {0x0ECB, 0xEA0B, 0x0ECB, 0xC027, 0x77DD}, /* CELL 5 COEFFS */
997 {0x0000, 0x0B68, 0x0B68, 0x0000, 0xC89A}, /* CELL 6 COEFFS */
998 }, {
999 {0x1655, 0xD64E, 0x1658, 0xCBEF, 0x70FE}, /*25M*/
1000 {0x225E, 0xC000, 0x2256, 0xC589, 0x7489},
1001 {0x2293, 0xC000, 0x2295, 0xC209, 0x767E},
1002 {0x2377, 0xC000, 0x23AA, 0xC0AB, 0x7746},
1003 {0x0DC7, 0xEBC8, 0x0D07, 0xC027, 0x7799},
1004 {0x0000, 0x0888, 0x0E9C, 0x0000, 0x3757}
1005
1006 }, {
1007 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000}, /* 30M */
1008 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
1009 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
1010 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
1011 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
1012 {0x0000, 0x0000, 0x0000, 0x0000, 0x0000}
1013 }
1014};
1015
1016static u32 stv0367ter_get_mclk(struct stv0367_state *state, u32 ExtClk_Hz)
1017{
1018 u32 mclk_Hz = 0; /* master clock frequency (Hz) */
1019 u32 m, n, p;
1020
1021 dprintk("%s:\n", __func__);
1022
1023 if (stv0367_readbits(state, F367TER_BYPASS_PLLXN) == 0) {
1024 n = (u32)stv0367_readbits(state, F367TER_PLL_NDIV);
1025 if (n == 0)
1026 n = n + 1;
1027
1028 m = (u32)stv0367_readbits(state, F367TER_PLL_MDIV);
1029 if (m == 0)
1030 m = m + 1;
1031
1032 p = (u32)stv0367_readbits(state, F367TER_PLL_PDIV);
1033 if (p > 5)
1034 p = 5;
1035
1036 mclk_Hz = ((ExtClk_Hz / 2) * n) / (m * (1 << p));
1037
1038 dprintk("N=%d M=%d P=%d mclk_Hz=%d ExtClk_Hz=%d\n",
1039 n, m, p, mclk_Hz, ExtClk_Hz);
1040 } else
1041 mclk_Hz = ExtClk_Hz;
1042
1043 dprintk("%s: mclk_Hz=%d\n", __func__, mclk_Hz);
1044
1045 return mclk_Hz;
1046}
1047
1048static int stv0367ter_filt_coeff_init(struct stv0367_state *state,
1049 u16 CellsCoeffs[2][6][5], u32 DemodXtal)
1050{
1051 int i, j, k, freq;
1052
1053 dprintk("%s:\n", __func__);
1054
1055 freq = stv0367ter_get_mclk(state, DemodXtal);
1056
1057 if (freq == 53125000)
1058 k = 1; /* equivalent to Xtal 25M on 362*/
1059 else if (freq == 54000000)
1060 k = 0; /* equivalent to Xtal 27M on 362*/
1061 else if (freq == 52500000)
1062 k = 2; /* equivalent to Xtal 30M on 362*/
1063 else
1064 return 0;
1065
1066 for (i = 1; i <= 6; i++) {
1067 stv0367_writebits(state, F367TER_IIR_CELL_NB, i - 1);
1068
1069 for (j = 1; j <= 5; j++) {
1070 stv0367_writereg(state,
1071 (R367TER_IIRCX_COEFF1_MSB + 2 * (j - 1)),
1072 MSB(CellsCoeffs[k][i-1][j-1]));
1073 stv0367_writereg(state,
1074 (R367TER_IIRCX_COEFF1_LSB + 2 * (j - 1)),
1075 LSB(CellsCoeffs[k][i-1][j-1]));
1076 }
1077 }
1078
1079 return 1;
1080
1081}
1082
1083static void stv0367ter_agc_iir_lock_detect_set(struct stv0367_state *state)
1084{
1085 dprintk("%s:\n", __func__);
1086
1087 stv0367_writebits(state, F367TER_LOCK_DETECT_LSB, 0x00);
1088
1089 /* Lock detect 1 */
1090 stv0367_writebits(state, F367TER_LOCK_DETECT_CHOICE, 0x00);
1091 stv0367_writebits(state, F367TER_LOCK_DETECT_MSB, 0x06);
1092 stv0367_writebits(state, F367TER_AUT_AGC_TARGET_LSB, 0x04);
1093
1094 /* Lock detect 2 */
1095 stv0367_writebits(state, F367TER_LOCK_DETECT_CHOICE, 0x01);
1096 stv0367_writebits(state, F367TER_LOCK_DETECT_MSB, 0x06);
1097 stv0367_writebits(state, F367TER_AUT_AGC_TARGET_LSB, 0x04);
1098
1099 /* Lock detect 3 */
1100 stv0367_writebits(state, F367TER_LOCK_DETECT_CHOICE, 0x02);
1101 stv0367_writebits(state, F367TER_LOCK_DETECT_MSB, 0x01);
1102 stv0367_writebits(state, F367TER_AUT_AGC_TARGET_LSB, 0x00);
1103
1104 /* Lock detect 4 */
1105 stv0367_writebits(state, F367TER_LOCK_DETECT_CHOICE, 0x03);
1106 stv0367_writebits(state, F367TER_LOCK_DETECT_MSB, 0x01);
1107 stv0367_writebits(state, F367TER_AUT_AGC_TARGET_LSB, 0x00);
1108
1109}
1110
1111static int stv0367_iir_filt_init(struct stv0367_state *state, u8 Bandwidth,
1112 u32 DemodXtalValue)
1113{
1114 dprintk("%s:\n", __func__);
1115
1116 stv0367_writebits(state, F367TER_NRST_IIR, 0);
1117
1118 switch (Bandwidth) {
1119 case 6:
1120 if (!stv0367ter_filt_coeff_init(state,
1121 CellsCoeffs_6MHz_367cofdm,
1122 DemodXtalValue))
1123 return 0;
1124 break;
1125 case 7:
1126 if (!stv0367ter_filt_coeff_init(state,
1127 CellsCoeffs_7MHz_367cofdm,
1128 DemodXtalValue))
1129 return 0;
1130 break;
1131 case 8:
1132 if (!stv0367ter_filt_coeff_init(state,
1133 CellsCoeffs_8MHz_367cofdm,
1134 DemodXtalValue))
1135 return 0;
1136 break;
1137 default:
1138 return 0;
1139 }
1140
1141 stv0367_writebits(state, F367TER_NRST_IIR, 1);
1142
1143 return 1;
1144}
1145
1146static void stv0367ter_agc_iir_rst(struct stv0367_state *state)
1147{
1148
1149 u8 com_n;
1150
1151 dprintk("%s:\n", __func__);
1152
1153 com_n = stv0367_readbits(state, F367TER_COM_N);
1154
1155 stv0367_writebits(state, F367TER_COM_N, 0x07);
1156
1157 stv0367_writebits(state, F367TER_COM_SOFT_RSTN, 0x00);
1158 stv0367_writebits(state, F367TER_COM_AGC_ON, 0x00);
1159
1160 stv0367_writebits(state, F367TER_COM_SOFT_RSTN, 0x01);
1161 stv0367_writebits(state, F367TER_COM_AGC_ON, 0x01);
1162
1163 stv0367_writebits(state, F367TER_COM_N, com_n);
1164
1165}
1166
1167static int stv0367ter_duration(s32 mode, int tempo1, int tempo2, int tempo3)
1168{
1169 int local_tempo = 0;
1170 switch (mode) {
1171 case 0:
1172 local_tempo = tempo1;
1173 break;
1174 case 1:
1175 local_tempo = tempo2;
1176 break ;
1177
1178 case 2:
1179 local_tempo = tempo3;
1180 break;
1181
1182 default:
1183 break;
1184 }
1185 /* msleep(local_tempo); */
1186 return local_tempo;
1187}
1188
1189static enum
1190stv0367_ter_signal_type stv0367ter_check_syr(struct stv0367_state *state)
1191{
1192 int wd = 100;
1193 unsigned short int SYR_var;
1194 s32 SYRStatus;
1195
1196 dprintk("%s:\n", __func__);
1197
1198 SYR_var = stv0367_readbits(state, F367TER_SYR_LOCK);
1199
1200 while ((!SYR_var) && (wd > 0)) {
1201 usleep_range(2000, 3000);
1202 wd -= 2;
1203 SYR_var = stv0367_readbits(state, F367TER_SYR_LOCK);
1204 }
1205
1206 if (!SYR_var)
1207 SYRStatus = FE_TER_NOSYMBOL;
1208 else
1209 SYRStatus = FE_TER_SYMBOLOK;
1210
1211 dprintk("stv0367ter_check_syr SYRStatus %s\n",
1212 SYR_var == 0 ? "No Symbol" : "OK");
1213
1214 return SYRStatus;
1215}
1216
1217static enum
1218stv0367_ter_signal_type stv0367ter_check_cpamp(struct stv0367_state *state,
1219 s32 FFTmode)
1220{
1221
1222 s32 CPAMPvalue = 0, CPAMPStatus, CPAMPMin;
1223 int wd = 0;
1224
1225 dprintk("%s:\n", __func__);
1226
1227 switch (FFTmode) {
1228 case 0: /*2k mode*/
1229 CPAMPMin = 20;
1230 wd = 10;
1231 break;
1232 case 1: /*8k mode*/
1233 CPAMPMin = 80;
1234 wd = 55;
1235 break;
1236 case 2: /*4k mode*/
1237 CPAMPMin = 40;
1238 wd = 30;
1239 break;
1240 default:
1241 CPAMPMin = 0xffff; /*drives to NOCPAMP */
1242 break;
1243 }
1244
1245 dprintk("%s: CPAMPMin=%d wd=%d\n", __func__, CPAMPMin, wd);
1246
1247 CPAMPvalue = stv0367_readbits(state, F367TER_PPM_CPAMP_DIRECT);
1248 while ((CPAMPvalue < CPAMPMin) && (wd > 0)) {
1249 usleep_range(1000, 2000);
1250 wd -= 1;
1251 CPAMPvalue = stv0367_readbits(state, F367TER_PPM_CPAMP_DIRECT);
1252 /*dprintk("CPAMPvalue= %d at wd=%d\n",CPAMPvalue,wd); */
1253 }
1254 dprintk("******last CPAMPvalue= %d at wd=%d\n", CPAMPvalue, wd);
1255 if (CPAMPvalue < CPAMPMin) {
1256 CPAMPStatus = FE_TER_NOCPAMP;
1257 printk(KERN_ERR "CPAMP failed\n");
1258 } else {
1259 printk(KERN_ERR "CPAMP OK !\n");
1260 CPAMPStatus = FE_TER_CPAMPOK;
1261 }
1262
1263 return CPAMPStatus;
1264}
1265
1266enum
1267stv0367_ter_signal_type stv0367ter_lock_algo(struct stv0367_state *state)
1268{
1269 enum stv0367_ter_signal_type ret_flag;
1270 short int wd, tempo;
1271 u8 try, u_var1 = 0, u_var2 = 0, u_var3 = 0, u_var4 = 0, mode, guard;
1272 u8 tmp, tmp2;
1273
1274 dprintk("%s:\n", __func__);
1275
1276 if (state == NULL)
1277 return FE_TER_SWNOK;
1278
1279 try = 0;
1280 do {
1281 ret_flag = FE_TER_LOCKOK;
1282
1283 stv0367_writebits(state, F367TER_CORE_ACTIVE, 0);
1284
1285 if (state->config->if_iq_mode != 0)
1286 stv0367_writebits(state, F367TER_COM_N, 0x07);
1287
1288 stv0367_writebits(state, F367TER_GUARD, 3);/* suggest 2k 1/4 */
1289 stv0367_writebits(state, F367TER_MODE, 0);
1290 stv0367_writebits(state, F367TER_SYR_TR_DIS, 0);
1291 usleep_range(5000, 10000);
1292
1293 stv0367_writebits(state, F367TER_CORE_ACTIVE, 1);
1294
1295
1296 if (stv0367ter_check_syr(state) == FE_TER_NOSYMBOL)
1297 return FE_TER_NOSYMBOL;
1298 else { /*
1299 if chip locked on wrong mode first try,
1300 it must lock correctly second try */
1301 mode = stv0367_readbits(state, F367TER_SYR_MODE);
1302 if (stv0367ter_check_cpamp(state, mode) ==
1303 FE_TER_NOCPAMP) {
1304 if (try == 0)
1305 ret_flag = FE_TER_NOCPAMP;
1306
1307 }
1308 }
1309
1310 try++;
1311 } while ((try < 10) && (ret_flag != FE_TER_LOCKOK));
1312
1313 tmp = stv0367_readreg(state, R367TER_SYR_STAT);
1314 tmp2 = stv0367_readreg(state, R367TER_STATUS);
1315 dprintk("state=0x%x\n", (int)state);
1316 dprintk("LOCK OK! mode=%d SYR_STAT=0x%x R367TER_STATUS=0x%x\n",
1317 mode, tmp, tmp2);
1318
1319 tmp = stv0367_readreg(state, R367TER_PRVIT);
1320 tmp2 = stv0367_readreg(state, R367TER_I2CRPT);
1321 dprintk("PRVIT=0x%x I2CRPT=0x%x\n", tmp, tmp2);
1322
1323 tmp = stv0367_readreg(state, R367TER_GAIN_SRC1);
1324 dprintk("GAIN_SRC1=0x%x\n", tmp);
1325
1326 if ((mode != 0) && (mode != 1) && (mode != 2))
1327 return FE_TER_SWNOK;
1328
1329 /*guard=stv0367_readbits(state,F367TER_SYR_GUARD); */
1330
1331 /*supress EPQ auto for SYR_GARD 1/16 or 1/32
1332 and set channel predictor in automatic */
1333#if 0
1334 switch (guard) {
1335
1336 case 0:
1337 case 1:
1338 stv0367_writebits(state, F367TER_AUTO_LE_EN, 0);
1339 stv0367_writereg(state, R367TER_CHC_CTL, 0x01);
1340 break;
1341 case 2:
1342 case 3:
1343 stv0367_writebits(state, F367TER_AUTO_LE_EN, 1);
1344 stv0367_writereg(state, R367TER_CHC_CTL, 0x11);
1345 break;
1346
1347 default:
1348 return FE_TER_SWNOK;
1349 }
1350#endif
1351
1352 /*reset fec an reedsolo FOR 367 only*/
1353 stv0367_writebits(state, F367TER_RST_SFEC, 1);
1354 stv0367_writebits(state, F367TER_RST_REEDSOLO, 1);
1355 usleep_range(1000, 2000);
1356 stv0367_writebits(state, F367TER_RST_SFEC, 0);
1357 stv0367_writebits(state, F367TER_RST_REEDSOLO, 0);
1358
1359 u_var1 = stv0367_readbits(state, F367TER_LK);
1360 u_var2 = stv0367_readbits(state, F367TER_PRF);
1361 u_var3 = stv0367_readbits(state, F367TER_TPS_LOCK);
1362 /* u_var4=stv0367_readbits(state,F367TER_TSFIFO_LINEOK); */
1363
1364 wd = stv0367ter_duration(mode, 125, 500, 250);
1365 tempo = stv0367ter_duration(mode, 4, 16, 8);
1366
1367 /*while ( ((!u_var1)||(!u_var2)||(!u_var3)||(!u_var4)) && (wd>=0)) */
1368 while (((!u_var1) || (!u_var2) || (!u_var3)) && (wd >= 0)) {
1369 usleep_range(1000 * tempo, 1000 * (tempo + 1));
1370 wd -= tempo;
1371 u_var1 = stv0367_readbits(state, F367TER_LK);
1372 u_var2 = stv0367_readbits(state, F367TER_PRF);
1373 u_var3 = stv0367_readbits(state, F367TER_TPS_LOCK);
1374 /*u_var4=stv0367_readbits(state, F367TER_TSFIFO_LINEOK); */
1375 }
1376
1377 if (!u_var1)
1378 return FE_TER_NOLOCK;
1379
1380
1381 if (!u_var2)
1382 return FE_TER_NOPRFOUND;
1383
1384 if (!u_var3)
1385 return FE_TER_NOTPS;
1386
1387 guard = stv0367_readbits(state, F367TER_SYR_GUARD);
1388 stv0367_writereg(state, R367TER_CHC_CTL, 0x11);
1389 switch (guard) {
1390 case 0:
1391 case 1:
1392 stv0367_writebits(state, F367TER_AUTO_LE_EN, 0);
1393 /*stv0367_writereg(state,R367TER_CHC_CTL, 0x1);*/
1394 stv0367_writebits(state, F367TER_SYR_FILTER, 0);
1395 break;
1396 case 2:
1397 case 3:
1398 stv0367_writebits(state, F367TER_AUTO_LE_EN, 1);
1399 /*stv0367_writereg(state,R367TER_CHC_CTL, 0x11);*/
1400 stv0367_writebits(state, F367TER_SYR_FILTER, 1);
1401 break;
1402
1403 default:
1404 return FE_TER_SWNOK;
1405 }
1406
1407 /* apply Sfec workaround if 8K 64QAM CR!=1/2*/
1408 if ((stv0367_readbits(state, F367TER_TPS_CONST) == 2) &&
1409 (mode == 1) &&
1410 (stv0367_readbits(state, F367TER_TPS_HPCODE) != 0)) {
1411 stv0367_writereg(state, R367TER_SFDLYSETH, 0xc0);
1412 stv0367_writereg(state, R367TER_SFDLYSETM, 0x60);
1413 stv0367_writereg(state, R367TER_SFDLYSETL, 0x0);
1414 } else
1415 stv0367_writereg(state, R367TER_SFDLYSETH, 0x0);
1416
1417 wd = stv0367ter_duration(mode, 125, 500, 250);
1418 u_var4 = stv0367_readbits(state, F367TER_TSFIFO_LINEOK);
1419
1420 while ((!u_var4) && (wd >= 0)) {
1421 usleep_range(1000 * tempo, 1000 * (tempo + 1));
1422 wd -= tempo;
1423 u_var4 = stv0367_readbits(state, F367TER_TSFIFO_LINEOK);
1424 }
1425
1426 if (!u_var4)
1427 return FE_TER_NOLOCK;
1428
1429 /* for 367 leave COM_N at 0x7 for IQ_mode*/
1430 /*if(ter_state->if_iq_mode!=FE_TER_NORMAL_IF_TUNER) {
1431 tempo=0;
1432 while ((stv0367_readbits(state,F367TER_COM_USEGAINTRK)!=1) &&
1433 (stv0367_readbits(state,F367TER_COM_AGCLOCK)!=1)&&(tempo<100)) {
1434 ChipWaitOrAbort(state,1);
1435 tempo+=1;
1436 }
1437
1438 stv0367_writebits(state,F367TER_COM_N,0x17);
1439 } */
1440
1441 stv0367_writebits(state, F367TER_SYR_TR_DIS, 1);
1442
1443 dprintk("FE_TER_LOCKOK !!!\n");
1444
1445 return FE_TER_LOCKOK;
1446
1447}
1448
1449static void stv0367ter_set_ts_mode(struct stv0367_state *state,
1450 enum stv0367_ts_mode PathTS)
1451{
1452
1453 dprintk("%s:\n", __func__);
1454
1455 if (state == NULL)
1456 return;
1457
1458 stv0367_writebits(state, F367TER_TS_DIS, 0);
1459 switch (PathTS) {
1460 default:
1461 /*for removing warning :default we can assume in parallel mode*/
1462 case STV0367_PARALLEL_PUNCT_CLOCK:
1463 stv0367_writebits(state, F367TER_TSFIFO_SERIAL, 0);
1464 stv0367_writebits(state, F367TER_TSFIFO_DVBCI, 0);
1465 break;
1466 case STV0367_SERIAL_PUNCT_CLOCK:
1467 stv0367_writebits(state, F367TER_TSFIFO_SERIAL, 1);
1468 stv0367_writebits(state, F367TER_TSFIFO_DVBCI, 1);
1469 break;
1470 }
1471}
1472
1473static void stv0367ter_set_clk_pol(struct stv0367_state *state,
1474 enum stv0367_clk_pol clock)
1475{
1476
1477 dprintk("%s:\n", __func__);
1478
1479 if (state == NULL)
1480 return;
1481
1482 switch (clock) {
1483 case STV0367_RISINGEDGE_CLOCK:
1484 stv0367_writebits(state, F367TER_TS_BYTE_CLK_INV, 1);
1485 break;
1486 case STV0367_FALLINGEDGE_CLOCK:
1487 stv0367_writebits(state, F367TER_TS_BYTE_CLK_INV, 0);
1488 break;
1489 /*case FE_TER_CLOCK_POLARITY_DEFAULT:*/
1490 default:
1491 stv0367_writebits(state, F367TER_TS_BYTE_CLK_INV, 0);
1492 break;
1493 }
1494}
1495
1496#if 0
1497static void stv0367ter_core_sw(struct stv0367_state *state)
1498{
1499
1500 dprintk("%s:\n", __func__);
1501
1502 stv0367_writebits(state, F367TER_CORE_ACTIVE, 0);
1503 stv0367_writebits(state, F367TER_CORE_ACTIVE, 1);
1504 msleep(350);
1505}
1506#endif
1507static int stv0367ter_standby(struct dvb_frontend *fe, u8 standby_on)
1508{
1509 struct stv0367_state *state = fe->demodulator_priv;
1510
1511 dprintk("%s:\n", __func__);
1512
1513 if (standby_on) {
1514 stv0367_writebits(state, F367TER_STDBY, 1);
1515 stv0367_writebits(state, F367TER_STDBY_FEC, 1);
1516 stv0367_writebits(state, F367TER_STDBY_CORE, 1);
1517 } else {
1518 stv0367_writebits(state, F367TER_STDBY, 0);
1519 stv0367_writebits(state, F367TER_STDBY_FEC, 0);
1520 stv0367_writebits(state, F367TER_STDBY_CORE, 0);
1521 }
1522
1523 return 0;
1524}
1525
1526static int stv0367ter_sleep(struct dvb_frontend *fe)
1527{
1528 return stv0367ter_standby(fe, 1);
1529}
1530
1531int stv0367ter_init(struct dvb_frontend *fe)
1532{
1533 struct stv0367_state *state = fe->demodulator_priv;
1534 struct stv0367ter_state *ter_state = state->ter_state;
1535 int i;
1536
1537 dprintk("%s:\n", __func__);
1538
1539 ter_state->pBER = 0;
1540
1541 for (i = 0; i < STV0367TER_NBREGS; i++)
1542 stv0367_writereg(state, def0367ter[i].addr,
1543 def0367ter[i].value);
1544
1545 switch (state->config->xtal) {
1546 /*set internal freq to 53.125MHz */
1547 case 25000000:
1548 stv0367_writereg(state, R367TER_PLLMDIV, 0xa);
1549 stv0367_writereg(state, R367TER_PLLNDIV, 0x55);
1550 stv0367_writereg(state, R367TER_PLLSETUP, 0x18);
1551 break;
1552 default:
1553 case 27000000:
1554 dprintk("FE_STV0367TER_SetCLKgen for 27Mhz\n");
1555 stv0367_writereg(state, R367TER_PLLMDIV, 0x1);
1556 stv0367_writereg(state, R367TER_PLLNDIV, 0x8);
1557 stv0367_writereg(state, R367TER_PLLSETUP, 0x18);
1558 break;
1559 case 30000000:
1560 stv0367_writereg(state, R367TER_PLLMDIV, 0xc);
1561 stv0367_writereg(state, R367TER_PLLNDIV, 0x55);
1562 stv0367_writereg(state, R367TER_PLLSETUP, 0x18);
1563 break;
1564 }
1565
1566 stv0367_writereg(state, R367TER_I2CRPT, 0xa0);
1567 stv0367_writereg(state, R367TER_ANACTRL, 0x00);
1568
1569 /*Set TS1 and TS2 to serial or parallel mode */
1570 stv0367ter_set_ts_mode(state, state->config->ts_mode);
1571 stv0367ter_set_clk_pol(state, state->config->clk_pol);
1572
1573 state->chip_id = stv0367_readreg(state, R367TER_ID);
1574 ter_state->first_lock = 0;
1575 ter_state->unlock_counter = 2;
1576
1577 return 0;
1578}
1579
1580static int stv0367ter_algo(struct dvb_frontend *fe,
1581 struct dvb_frontend_parameters *param)
1582{
1583 struct stv0367_state *state = fe->demodulator_priv;
1584 struct stv0367ter_state *ter_state = state->ter_state;
1585 int offset = 0, tempo = 0;
1586 u8 u_var;
1587 u8 /*constell,*/ counter, tps_rcvd[2];
1588 s8 step;
1589 s32 timing_offset = 0;
1590 u32 trl_nomrate = 0, InternalFreq = 0, temp = 0;
1591
1592 dprintk("%s:\n", __func__);
1593
1594 ter_state->frequency = param->frequency;
1595 ter_state->force = FE_TER_FORCENONE
1596 + stv0367_readbits(state, F367TER_FORCE) * 2;
1597 ter_state->if_iq_mode = state->config->if_iq_mode;
1598 switch (state->config->if_iq_mode) {
1599 case FE_TER_NORMAL_IF_TUNER: /* Normal IF mode */
1600 dprintk("ALGO: FE_TER_NORMAL_IF_TUNER selected\n");
1601 stv0367_writebits(state, F367TER_TUNER_BB, 0);
1602 stv0367_writebits(state, F367TER_LONGPATH_IF, 0);
1603 stv0367_writebits(state, F367TER_DEMUX_SWAP, 0);
1604 break;
1605 case FE_TER_LONGPATH_IF_TUNER: /* Long IF mode */
1606 dprintk("ALGO: FE_TER_LONGPATH_IF_TUNER selected\n");
1607 stv0367_writebits(state, F367TER_TUNER_BB, 0);
1608 stv0367_writebits(state, F367TER_LONGPATH_IF, 1);
1609 stv0367_writebits(state, F367TER_DEMUX_SWAP, 1);
1610 break;
1611 case FE_TER_IQ_TUNER: /* IQ mode */
1612 dprintk("ALGO: FE_TER_IQ_TUNER selected\n");
1613 stv0367_writebits(state, F367TER_TUNER_BB, 1);
1614 stv0367_writebits(state, F367TER_PPM_INVSEL, 0);
1615 break;
1616 default:
1617 printk(KERN_ERR "ALGO: wrong TUNER type selected\n");
1618 return -EINVAL;
1619 }
1620
1621 usleep_range(5000, 7000);
1622
1623 switch (param->inversion) {
1624 case INVERSION_AUTO:
1625 default:
1626 dprintk("%s: inversion AUTO\n", __func__);
1627 if (ter_state->if_iq_mode == FE_TER_IQ_TUNER)
1628 stv0367_writebits(state, F367TER_IQ_INVERT,
1629 ter_state->sense);
1630 else
1631 stv0367_writebits(state, F367TER_INV_SPECTR,
1632 ter_state->sense);
1633
1634 break;
1635 case INVERSION_ON:
1636 case INVERSION_OFF:
1637 if (ter_state->if_iq_mode == FE_TER_IQ_TUNER)
1638 stv0367_writebits(state, F367TER_IQ_INVERT,
1639 param->inversion);
1640 else
1641 stv0367_writebits(state, F367TER_INV_SPECTR,
1642 param->inversion);
1643
1644 break;
1645 }
1646
1647 if ((ter_state->if_iq_mode != FE_TER_NORMAL_IF_TUNER) &&
1648 (ter_state->pBW != ter_state->bw)) {
1649 stv0367ter_agc_iir_lock_detect_set(state);
1650
1651 /*set fine agc target to 180 for LPIF or IQ mode*/
1652 /* set Q_AGCTarget */
1653 stv0367_writebits(state, F367TER_SEL_IQNTAR, 1);
1654 stv0367_writebits(state, F367TER_AUT_AGC_TARGET_MSB, 0xB);
1655 /*stv0367_writebits(state,AUT_AGC_TARGET_LSB,0x04); */
1656
1657 /* set Q_AGCTarget */
1658 stv0367_writebits(state, F367TER_SEL_IQNTAR, 0);
1659 stv0367_writebits(state, F367TER_AUT_AGC_TARGET_MSB, 0xB);
1660 /*stv0367_writebits(state,AUT_AGC_TARGET_LSB,0x04); */
1661
1662 if (!stv0367_iir_filt_init(state, ter_state->bw,
1663 state->config->xtal))
1664 return -EINVAL;
1665 /*set IIR filter once for 6,7 or 8MHz BW*/
1666 ter_state->pBW = ter_state->bw;
1667
1668 stv0367ter_agc_iir_rst(state);
1669 }
1670
1671 if (ter_state->hierarchy == FE_TER_HIER_LOW_PRIO)
1672 stv0367_writebits(state, F367TER_BDI_LPSEL, 0x01);
1673 else
1674 stv0367_writebits(state, F367TER_BDI_LPSEL, 0x00);
1675
1676 InternalFreq = stv0367ter_get_mclk(state, state->config->xtal) / 1000;
1677 temp = (int)
1678 ((((ter_state->bw * 64 * (1 << 15) * 100)
1679 / (InternalFreq)) * 10) / 7);
1680
1681 stv0367_writebits(state, F367TER_TRL_NOMRATE_LSB, temp % 2);
1682 temp = temp / 2;
1683 stv0367_writebits(state, F367TER_TRL_NOMRATE_HI, temp / 256);
1684 stv0367_writebits(state, F367TER_TRL_NOMRATE_LO, temp % 256);
1685
1686 temp = stv0367_readbits(state, F367TER_TRL_NOMRATE_HI) * 512 +
1687 stv0367_readbits(state, F367TER_TRL_NOMRATE_LO) * 2 +
1688 stv0367_readbits(state, F367TER_TRL_NOMRATE_LSB);
1689 temp = (int)(((1 << 17) * ter_state->bw * 1000) / (7 * (InternalFreq)));
1690 stv0367_writebits(state, F367TER_GAIN_SRC_HI, temp / 256);
1691 stv0367_writebits(state, F367TER_GAIN_SRC_LO, temp % 256);
1692 temp = stv0367_readbits(state, F367TER_GAIN_SRC_HI) * 256 +
1693 stv0367_readbits(state, F367TER_GAIN_SRC_LO);
1694
1695 temp = (int)
1696 ((InternalFreq - state->config->if_khz) * (1 << 16)
1697 / (InternalFreq));
1698
1699 dprintk("DEROT temp=0x%x\n", temp);
1700 stv0367_writebits(state, F367TER_INC_DEROT_HI, temp / 256);
1701 stv0367_writebits(state, F367TER_INC_DEROT_LO, temp % 256);
1702
1703 ter_state->echo_pos = 0;
1704 ter_state->ucblocks = 0; /* liplianin */
1705 ter_state->pBER = 0; /* liplianin */
1706 stv0367_writebits(state, F367TER_LONG_ECHO, ter_state->echo_pos);
1707
1708 if (stv0367ter_lock_algo(state) != FE_TER_LOCKOK)
1709 return 0;
1710
1711 ter_state->state = FE_TER_LOCKOK;
1712 /* update results */
1713 tps_rcvd[0] = stv0367_readreg(state, R367TER_TPS_RCVD2);
1714 tps_rcvd[1] = stv0367_readreg(state, R367TER_TPS_RCVD3);
1715
1716 ter_state->mode = stv0367_readbits(state, F367TER_SYR_MODE);
1717 ter_state->guard = stv0367_readbits(state, F367TER_SYR_GUARD);
1718
1719 ter_state->first_lock = 1; /* we know sense now :) */
1720
1721 ter_state->agc_val =
1722 (stv0367_readbits(state, F367TER_AGC1_VAL_LO) << 16) +
1723 (stv0367_readbits(state, F367TER_AGC1_VAL_HI) << 24) +
1724 stv0367_readbits(state, F367TER_AGC2_VAL_LO) +
1725 (stv0367_readbits(state, F367TER_AGC2_VAL_HI) << 8);
1726
1727 /* Carrier offset calculation */
1728 stv0367_writebits(state, F367TER_FREEZE, 1);
1729 offset = (stv0367_readbits(state, F367TER_CRL_FOFFSET_VHI) << 16) ;
1730 offset += (stv0367_readbits(state, F367TER_CRL_FOFFSET_HI) << 8);
1731 offset += (stv0367_readbits(state, F367TER_CRL_FOFFSET_LO));
1732 stv0367_writebits(state, F367TER_FREEZE, 0);
1733 if (offset > 8388607)
1734 offset -= 16777216;
1735
1736 offset = offset * 2 / 16384;
1737
1738 if (ter_state->mode == FE_TER_MODE_2K)
1739 offset = (offset * 4464) / 1000;/*** 1 FFT BIN=4.464khz***/
1740 else if (ter_state->mode == FE_TER_MODE_4K)
1741 offset = (offset * 223) / 100;/*** 1 FFT BIN=2.23khz***/
1742 else if (ter_state->mode == FE_TER_MODE_8K)
1743 offset = (offset * 111) / 100;/*** 1 FFT BIN=1.1khz***/
1744
1745 if (stv0367_readbits(state, F367TER_PPM_INVSEL) == 1) {
1746 if ((stv0367_readbits(state, F367TER_INV_SPECTR) ==
1747 (stv0367_readbits(state,
1748 F367TER_STATUS_INV_SPECRUM) == 1)))
1749 offset = offset * -1;
1750 }
1751
1752 if (ter_state->bw == 6)
1753 offset = (offset * 6) / 8;
1754 else if (ter_state->bw == 7)
1755 offset = (offset * 7) / 8;
1756
1757 ter_state->frequency += offset;
1758
1759 tempo = 10; /* exit even if timing_offset stays null */
1760 while ((timing_offset == 0) && (tempo > 0)) {
1761 usleep_range(10000, 20000); /*was 20ms */
1762 /* fine tuning of timing offset if required */
1763 timing_offset = stv0367_readbits(state, F367TER_TRL_TOFFSET_LO)
1764 + 256 * stv0367_readbits(state,
1765 F367TER_TRL_TOFFSET_HI);
1766 if (timing_offset >= 32768)
1767 timing_offset -= 65536;
1768 trl_nomrate = (512 * stv0367_readbits(state,
1769 F367TER_TRL_NOMRATE_HI)
1770 + stv0367_readbits(state, F367TER_TRL_NOMRATE_LO) * 2
1771 + stv0367_readbits(state, F367TER_TRL_NOMRATE_LSB));
1772
1773 timing_offset = ((signed)(1000000 / trl_nomrate) *
1774 timing_offset) / 2048;
1775 tempo--;
1776 }
1777
1778 if (timing_offset <= 0) {
1779 timing_offset = (timing_offset - 11) / 22;
1780 step = -1;
1781 } else {
1782 timing_offset = (timing_offset + 11) / 22;
1783 step = 1;
1784 }
1785
1786 for (counter = 0; counter < abs(timing_offset); counter++) {
1787 trl_nomrate += step;
1788 stv0367_writebits(state, F367TER_TRL_NOMRATE_LSB,
1789 trl_nomrate % 2);
1790 stv0367_writebits(state, F367TER_TRL_NOMRATE_LO,
1791 trl_nomrate / 2);
1792 usleep_range(1000, 2000);
1793 }
1794
1795 usleep_range(5000, 6000);
1796 /* unlocks could happen in case of trl centring big step,
1797 then a core off/on restarts demod */
1798 u_var = stv0367_readbits(state, F367TER_LK);
1799
1800 if (!u_var) {
1801 stv0367_writebits(state, F367TER_CORE_ACTIVE, 0);
1802 msleep(20);
1803 stv0367_writebits(state, F367TER_CORE_ACTIVE, 1);
1804 }
1805
1806 return 0;
1807}
1808
1809static int stv0367ter_set_frontend(struct dvb_frontend *fe,
1810 struct dvb_frontend_parameters *param)
1811{
1812 struct dvb_ofdm_parameters *op = &param->u.ofdm;
1813 struct stv0367_state *state = fe->demodulator_priv;
1814 struct stv0367ter_state *ter_state = state->ter_state;
1815
1816 /*u8 trials[2]; */
1817 s8 num_trials, index;
1818 u8 SenseTrials[] = { INVERSION_ON, INVERSION_OFF };
1819
1820 stv0367ter_init(fe);
1821
1822 if (fe->ops.tuner_ops.set_params) {
1823 if (fe->ops.i2c_gate_ctrl)
1824 fe->ops.i2c_gate_ctrl(fe, 1);
1825 fe->ops.tuner_ops.set_params(fe, param);
1826 if (fe->ops.i2c_gate_ctrl)
1827 fe->ops.i2c_gate_ctrl(fe, 0);
1828 }
1829
1830 switch (op->transmission_mode) {
1831 default:
1832 case TRANSMISSION_MODE_AUTO:
1833 case TRANSMISSION_MODE_2K:
1834 ter_state->mode = FE_TER_MODE_2K;
1835 break;
1836/* case TRANSMISSION_MODE_4K:
1837 pLook.mode = FE_TER_MODE_4K;
1838 break;*/
1839 case TRANSMISSION_MODE_8K:
1840 ter_state->mode = FE_TER_MODE_8K;
1841 break;
1842 }
1843
1844 switch (op->guard_interval) {
1845 default:
1846 case GUARD_INTERVAL_1_32:
1847 case GUARD_INTERVAL_1_16:
1848 case GUARD_INTERVAL_1_8:
1849 case GUARD_INTERVAL_1_4:
1850 ter_state->guard = op->guard_interval;
1851 break;
1852 case GUARD_INTERVAL_AUTO:
1853 ter_state->guard = GUARD_INTERVAL_1_32;
1854 break;
1855 }
1856
1857 switch (op->bandwidth) {
1858 case BANDWIDTH_6_MHZ:
1859 ter_state->bw = FE_TER_CHAN_BW_6M;
1860 break;
1861 case BANDWIDTH_7_MHZ:
1862 ter_state->bw = FE_TER_CHAN_BW_7M;
1863 break;
1864 case BANDWIDTH_8_MHZ:
1865 default:
1866 ter_state->bw = FE_TER_CHAN_BW_8M;
1867 }
1868
1869 ter_state->hierarchy = FE_TER_HIER_NONE;
1870
1871 switch (param->inversion) {
1872 case INVERSION_OFF:
1873 case INVERSION_ON:
1874 num_trials = 1;
1875 break;
1876 default:
1877 num_trials = 2;
1878 if (ter_state->first_lock)
1879 num_trials = 1;
1880 break;
1881 }
1882
1883 ter_state->state = FE_TER_NOLOCK;
1884 index = 0;
1885
1886 while (((index) < num_trials) && (ter_state->state != FE_TER_LOCKOK)) {
1887 if (!ter_state->first_lock) {
1888 if (param->inversion == INVERSION_AUTO)
1889 ter_state->sense = SenseTrials[index];
1890
1891 }
1892 stv0367ter_algo(fe,/* &pLook, result,*/ param);
1893
1894 if ((ter_state->state == FE_TER_LOCKOK) &&
1895 (param->inversion == INVERSION_AUTO) &&
1896 (index == 1)) {
1897 /* invert spectrum sense */
1898 SenseTrials[index] = SenseTrials[0];
1899 SenseTrials[(index + 1) % 2] = (SenseTrials[1] + 1) % 2;
1900 }
1901
1902 index++;
1903 }
1904
1905 return 0;
1906}
1907
1908static int stv0367ter_read_ucblocks(struct dvb_frontend *fe, u32 *ucblocks)
1909{
1910 struct stv0367_state *state = fe->demodulator_priv;
1911 struct stv0367ter_state *ter_state = state->ter_state;
1912 u32 errs = 0;
1913
1914 /*wait for counting completion*/
1915 if (stv0367_readbits(state, F367TER_SFERRC_OLDVALUE) == 0) {
1916 errs =
1917 ((u32)stv0367_readbits(state, F367TER_ERR_CNT1)
1918 * (1 << 16))
1919 + ((u32)stv0367_readbits(state, F367TER_ERR_CNT1_HI)
1920 * (1 << 8))
1921 + ((u32)stv0367_readbits(state, F367TER_ERR_CNT1_LO));
1922 ter_state->ucblocks = errs;
1923 }
1924
1925 (*ucblocks) = ter_state->ucblocks;
1926
1927 return 0;
1928}
1929
1930static int stv0367ter_get_frontend(struct dvb_frontend *fe,
1931 struct dvb_frontend_parameters *param)
1932{
1933 struct stv0367_state *state = fe->demodulator_priv;
1934 struct stv0367ter_state *ter_state = state->ter_state;
1935 struct dvb_ofdm_parameters *op = &param->u.ofdm;
1936 struct dtv_frontend_properties *c = &fe->dtv_property_cache;
1937
1938 int error = 0;
1939 enum stv0367_ter_mode mode;
1940 int constell = 0,/* snr = 0,*/ Data = 0;
1941
1942 param->frequency = stv0367_get_tuner_freq(fe);
1943 if (param->frequency < 0)
1944 param->frequency = c->frequency;
1945
1946 constell = stv0367_readbits(state, F367TER_TPS_CONST);
1947 if (constell == 0)
1948 op->constellation = QPSK;
1949 else if (constell == 1)
1950 op->constellation = QAM_16;
1951 else
1952 op->constellation = QAM_64;
1953
1954 param->inversion = stv0367_readbits(state, F367TER_INV_SPECTR);
1955
1956 /* Get the Hierarchical mode */
1957 Data = stv0367_readbits(state, F367TER_TPS_HIERMODE);
1958
1959 switch (Data) {
1960 case 0:
1961 op->hierarchy_information = HIERARCHY_NONE;
1962 break;
1963 case 1:
1964 op->hierarchy_information = HIERARCHY_1;
1965 break;
1966 case 2:
1967 op->hierarchy_information = HIERARCHY_2;
1968 break;
1969 case 3:
1970 op->hierarchy_information = HIERARCHY_4;
1971 break;
1972 default:
1973 op->hierarchy_information = HIERARCHY_AUTO;
1974 break; /* error */
1975 }
1976
1977 /* Get the FEC Rate */
1978 if (ter_state->hierarchy == FE_TER_HIER_LOW_PRIO)
1979 Data = stv0367_readbits(state, F367TER_TPS_LPCODE);
1980 else
1981 Data = stv0367_readbits(state, F367TER_TPS_HPCODE);
1982
1983 switch (Data) {
1984 case 0:
1985 op->code_rate_HP = FEC_1_2;
1986 break;
1987 case 1:
1988 op->code_rate_HP = FEC_2_3;
1989 break;
1990 case 2:
1991 op->code_rate_HP = FEC_3_4;
1992 break;
1993 case 3:
1994 op->code_rate_HP = FEC_5_6;
1995 break;
1996 case 4:
1997 op->code_rate_HP = FEC_7_8;
1998 break;
1999 default:
2000 op->code_rate_HP = FEC_AUTO;
2001 break; /* error */
2002 }
2003
2004 mode = stv0367_readbits(state, F367TER_SYR_MODE);
2005
2006 switch (mode) {
2007 case FE_TER_MODE_2K:
2008 op->transmission_mode = TRANSMISSION_MODE_2K;
2009 break;
2010/* case FE_TER_MODE_4K:
2011 op->transmission_mode = TRANSMISSION_MODE_4K;
2012 break;*/
2013 case FE_TER_MODE_8K:
2014 op->transmission_mode = TRANSMISSION_MODE_8K;
2015 break;
2016 default:
2017 op->transmission_mode = TRANSMISSION_MODE_AUTO;
2018 }
2019
2020 op->guard_interval = stv0367_readbits(state, F367TER_SYR_GUARD);
2021
2022 return error;
2023}
2024
2025static int stv0367ter_read_snr(struct dvb_frontend *fe, u16 *snr)
2026{
2027 struct stv0367_state *state = fe->demodulator_priv;
2028 u32 snru32 = 0;
2029 int cpt = 0;
2030 u8 cut = stv0367_readbits(state, F367TER_IDENTIFICATIONREG);
2031
2032 while (cpt < 10) {
2033 usleep_range(2000, 3000);
2034 if (cut == 0x50) /*cut 1.0 cut 1.1*/
2035 snru32 += stv0367_readbits(state, F367TER_CHCSNR) / 4;
2036 else /*cu2.0*/
2037 snru32 += 125 * stv0367_readbits(state, F367TER_CHCSNR);
2038
2039 cpt++;
2040 }
2041
2042 snru32 /= 10;/*average on 10 values*/
2043
2044 *snr = snru32 / 1000;
2045
2046 return 0;
2047}
2048
2049#if 0
2050static int stv0367ter_status(struct dvb_frontend *fe)
2051{
2052
2053 struct stv0367_state *state = fe->demodulator_priv;
2054 struct stv0367ter_state *ter_state = state->ter_state;
2055 int locked = FALSE;
2056
2057 locked = (stv0367_readbits(state, F367TER_LK));
2058 if (!locked)
2059 ter_state->unlock_counter += 1;
2060 else
2061 ter_state->unlock_counter = 0;
2062
2063 if (ter_state->unlock_counter > 2) {
2064 if (!stv0367_readbits(state, F367TER_TPS_LOCK) ||
2065 (!stv0367_readbits(state, F367TER_LK))) {
2066 stv0367_writebits(state, F367TER_CORE_ACTIVE, 0);
2067 usleep_range(2000, 3000);
2068 stv0367_writebits(state, F367TER_CORE_ACTIVE, 1);
2069 msleep(350);
2070 locked = (stv0367_readbits(state, F367TER_TPS_LOCK)) &&
2071 (stv0367_readbits(state, F367TER_LK));
2072 }
2073
2074 }
2075
2076 return locked;
2077}
2078#endif
2079static int stv0367ter_read_status(struct dvb_frontend *fe, fe_status_t *status)
2080{
2081 struct stv0367_state *state = fe->demodulator_priv;
2082
2083 dprintk("%s:\n", __func__);
2084
2085 *status = 0;
2086
2087 if (stv0367_readbits(state, F367TER_LK)) {
2088 *status |= FE_HAS_LOCK;
2089 dprintk("%s: stv0367 has locked\n", __func__);
2090 }
2091
2092 return 0;
2093}
2094
2095static int stv0367ter_read_ber(struct dvb_frontend *fe, u32 *ber)
2096{
2097 struct stv0367_state *state = fe->demodulator_priv;
2098 struct stv0367ter_state *ter_state = state->ter_state;
2099 u32 Errors = 0, tber = 0, temporary = 0;
2100 int abc = 0, def = 0;
2101
2102
2103 /*wait for counting completion*/
2104 if (stv0367_readbits(state, F367TER_SFERRC_OLDVALUE) == 0)
2105 Errors = ((u32)stv0367_readbits(state, F367TER_SFEC_ERR_CNT)
2106 * (1 << 16))
2107 + ((u32)stv0367_readbits(state, F367TER_SFEC_ERR_CNT_HI)
2108 * (1 << 8))
2109 + ((u32)stv0367_readbits(state,
2110 F367TER_SFEC_ERR_CNT_LO));
2111 /*measurement not completed, load previous value*/
2112 else {
2113 tber = ter_state->pBER;
2114 return 0;
2115 }
2116
2117 abc = stv0367_readbits(state, F367TER_SFEC_ERR_SOURCE);
2118 def = stv0367_readbits(state, F367TER_SFEC_NUM_EVENT);
2119
2120 if (Errors == 0) {
2121 tber = 0;
2122 } else if (abc == 0x7) {
2123 if (Errors <= 4) {
2124 temporary = (Errors * 1000000000) / (8 * (1 << 14));
2125 temporary = temporary;
2126 } else if (Errors <= 42) {
2127 temporary = (Errors * 100000000) / (8 * (1 << 14));
2128 temporary = temporary * 10;
2129 } else if (Errors <= 429) {
2130 temporary = (Errors * 10000000) / (8 * (1 << 14));
2131 temporary = temporary * 100;
2132 } else if (Errors <= 4294) {
2133 temporary = (Errors * 1000000) / (8 * (1 << 14));
2134 temporary = temporary * 1000;
2135 } else if (Errors <= 42949) {
2136 temporary = (Errors * 100000) / (8 * (1 << 14));
2137 temporary = temporary * 10000;
2138 } else if (Errors <= 429496) {
2139 temporary = (Errors * 10000) / (8 * (1 << 14));
2140 temporary = temporary * 100000;
2141 } else { /*if (Errors<4294967) 2^22 max error*/
2142 temporary = (Errors * 1000) / (8 * (1 << 14));
2143 temporary = temporary * 100000; /* still to *10 */
2144 }
2145
2146 /* Byte error*/
2147 if (def == 2)
2148 /*tber=Errors/(8*(1 <<14));*/
2149 tber = temporary;
2150 else if (def == 3)
2151 /*tber=Errors/(8*(1 <<16));*/
2152 tber = temporary / 4;
2153 else if (def == 4)
2154 /*tber=Errors/(8*(1 <<18));*/
2155 tber = temporary / 16;
2156 else if (def == 5)
2157 /*tber=Errors/(8*(1 <<20));*/
2158 tber = temporary / 64;
2159 else if (def == 6)
2160 /*tber=Errors/(8*(1 <<22));*/
2161 tber = temporary / 256;
2162 else
2163 /* should not pass here*/
2164 tber = 0;
2165
2166 if ((Errors < 4294967) && (Errors > 429496))
2167 tber *= 10;
2168
2169 }
2170
2171 /* save actual value */
2172 ter_state->pBER = tber;
2173
2174 (*ber) = tber;
2175
2176 return 0;
2177}
2178#if 0
2179static u32 stv0367ter_get_per(struct stv0367_state *state)
2180{
2181 struct stv0367ter_state *ter_state = state->ter_state;
2182 u32 Errors = 0, Per = 0, temporary = 0;
2183 int abc = 0, def = 0, cpt = 0;
2184
2185 while (((stv0367_readbits(state, F367TER_SFERRC_OLDVALUE) == 1) &&
2186 (cpt < 400)) || ((Errors == 0) && (cpt < 400))) {
2187 usleep_range(1000, 2000);
2188 Errors = ((u32)stv0367_readbits(state, F367TER_ERR_CNT1)
2189 * (1 << 16))
2190 + ((u32)stv0367_readbits(state, F367TER_ERR_CNT1_HI)
2191 * (1 << 8))
2192 + ((u32)stv0367_readbits(state, F367TER_ERR_CNT1_LO));
2193 cpt++;
2194 }
2195 abc = stv0367_readbits(state, F367TER_ERR_SRC1);
2196 def = stv0367_readbits(state, F367TER_NUM_EVT1);
2197
2198 if (Errors == 0)
2199 Per = 0;
2200 else if (abc == 0x9) {
2201 if (Errors <= 4) {
2202 temporary = (Errors * 1000000000) / (8 * (1 << 8));
2203 temporary = temporary;
2204 } else if (Errors <= 42) {
2205 temporary = (Errors * 100000000) / (8 * (1 << 8));
2206 temporary = temporary * 10;
2207 } else if (Errors <= 429) {
2208 temporary = (Errors * 10000000) / (8 * (1 << 8));
2209 temporary = temporary * 100;
2210 } else if (Errors <= 4294) {
2211 temporary = (Errors * 1000000) / (8 * (1 << 8));
2212 temporary = temporary * 1000;
2213 } else if (Errors <= 42949) {
2214 temporary = (Errors * 100000) / (8 * (1 << 8));
2215 temporary = temporary * 10000;
2216 } else { /*if(Errors<=429496) 2^16 errors max*/
2217 temporary = (Errors * 10000) / (8 * (1 << 8));
2218 temporary = temporary * 100000;
2219 }
2220
2221 /* pkt error*/
2222 if (def == 2)
2223 /*Per=Errors/(1 << 8);*/
2224 Per = temporary;
2225 else if (def == 3)
2226 /*Per=Errors/(1 << 10);*/
2227 Per = temporary / 4;
2228 else if (def == 4)
2229 /*Per=Errors/(1 << 12);*/
2230 Per = temporary / 16;
2231 else if (def == 5)
2232 /*Per=Errors/(1 << 14);*/
2233 Per = temporary / 64;
2234 else if (def == 6)
2235 /*Per=Errors/(1 << 16);*/
2236 Per = temporary / 256;
2237 else
2238 Per = 0;
2239
2240 }
2241 /* save actual value */
2242 ter_state->pPER = Per;
2243
2244 return Per;
2245}
2246#endif
2247static int stv0367_get_tune_settings(struct dvb_frontend *fe,
2248 struct dvb_frontend_tune_settings
2249 *fe_tune_settings)
2250{
2251 fe_tune_settings->min_delay_ms = 1000;
2252 fe_tune_settings->step_size = 0;
2253 fe_tune_settings->max_drift = 0;
2254
2255 return 0;
2256}
2257
2258static void stv0367_release(struct dvb_frontend *fe)
2259{
2260 struct stv0367_state *state = fe->demodulator_priv;
2261
2262 kfree(state->ter_state);
2263 kfree(state->cab_state);
2264 kfree(state);
2265}
2266
2267static struct dvb_frontend_ops stv0367ter_ops = {
2268 .info = {
2269 .name = "ST STV0367 DVB-T",
2270 .type = FE_OFDM,
2271 .frequency_min = 47000000,
2272 .frequency_max = 862000000,
2273 .frequency_stepsize = 15625,
2274 .frequency_tolerance = 0,
2275 .caps = FE_CAN_FEC_1_2 | FE_CAN_FEC_2_3 |
2276 FE_CAN_FEC_3_4 | FE_CAN_FEC_5_6 | FE_CAN_FEC_7_8 |
2277 FE_CAN_FEC_AUTO |
2278 FE_CAN_QPSK | FE_CAN_QAM_16 | FE_CAN_QAM_64 |
2279 FE_CAN_QAM_128 | FE_CAN_QAM_256 | FE_CAN_QAM_AUTO |
2280 FE_CAN_TRANSMISSION_MODE_AUTO | FE_CAN_RECOVER |
2281 FE_CAN_INVERSION_AUTO |
2282 FE_CAN_MUTE_TS
2283 },
2284 .release = stv0367_release,
2285 .init = stv0367ter_init,
2286 .sleep = stv0367ter_sleep,
2287 .i2c_gate_ctrl = stv0367ter_gate_ctrl,
2288 .set_frontend = stv0367ter_set_frontend,
2289 .get_frontend = stv0367ter_get_frontend,
2290 .get_tune_settings = stv0367_get_tune_settings,
2291 .read_status = stv0367ter_read_status,
2292 .read_ber = stv0367ter_read_ber,/* too slow */
2293/* .read_signal_strength = stv0367_read_signal_strength,*/
2294 .read_snr = stv0367ter_read_snr,
2295 .read_ucblocks = stv0367ter_read_ucblocks,
2296};
2297
2298struct dvb_frontend *stv0367ter_attach(const struct stv0367_config *config,
2299 struct i2c_adapter *i2c)
2300{
2301 struct stv0367_state *state = NULL;
2302 struct stv0367ter_state *ter_state = NULL;
2303
2304 /* allocate memory for the internal state */
2305 state = kzalloc(sizeof(struct stv0367_state), GFP_KERNEL);
2306 if (state == NULL)
2307 goto error;
2308 ter_state = kzalloc(sizeof(struct stv0367ter_state), GFP_KERNEL);
2309 if (ter_state == NULL)
2310 goto error;
2311
2312 /* setup the state */
2313 state->i2c = i2c;
2314 state->config = config;
2315 state->ter_state = ter_state;
2316 state->fe.ops = stv0367ter_ops;
2317 state->fe.demodulator_priv = state;
2318 state->chip_id = stv0367_readreg(state, 0xf000);
2319
2320 dprintk("%s: chip_id = 0x%x\n", __func__, state->chip_id);
2321
2322 /* check if the demod is there */
2323 if ((state->chip_id != 0x50) && (state->chip_id != 0x60))
2324 goto error;
2325
2326 return &state->fe;
2327
2328error:
2329 kfree(ter_state);
2330 kfree(state);
2331 return NULL;
2332}
2333EXPORT_SYMBOL(stv0367ter_attach);
2334
2335static int stv0367cab_gate_ctrl(struct dvb_frontend *fe, int enable)
2336{
2337 struct stv0367_state *state = fe->demodulator_priv;
2338
2339 dprintk("%s:\n", __func__);
2340
2341 stv0367_writebits(state, F367CAB_I2CT_ON, (enable > 0) ? 1 : 0);
2342
2343 return 0;
2344}
2345
2346static u32 stv0367cab_get_mclk(struct dvb_frontend *fe, u32 ExtClk_Hz)
2347{
2348 struct stv0367_state *state = fe->demodulator_priv;
2349 u32 mclk_Hz = 0;/* master clock frequency (Hz) */
2350 u32 M, N, P;
2351
2352
2353 if (stv0367_readbits(state, F367CAB_BYPASS_PLLXN) == 0) {
2354 N = (u32)stv0367_readbits(state, F367CAB_PLL_NDIV);
2355 if (N == 0)
2356 N = N + 1;
2357
2358 M = (u32)stv0367_readbits(state, F367CAB_PLL_MDIV);
2359 if (M == 0)
2360 M = M + 1;
2361
2362 P = (u32)stv0367_readbits(state, F367CAB_PLL_PDIV);
2363
2364 if (P > 5)
2365 P = 5;
2366
2367 mclk_Hz = ((ExtClk_Hz / 2) * N) / (M * (1 << P));
2368 dprintk("stv0367cab_get_mclk BYPASS_PLLXN mclk_Hz=%d\n",
2369 mclk_Hz);
2370 } else
2371 mclk_Hz = ExtClk_Hz;
2372
2373 dprintk("stv0367cab_get_mclk final mclk_Hz=%d\n", mclk_Hz);
2374
2375 return mclk_Hz;
2376}
2377
2378static u32 stv0367cab_get_adc_freq(struct dvb_frontend *fe, u32 ExtClk_Hz)
2379{
2380 u32 ADCClk_Hz = ExtClk_Hz;
2381
2382 ADCClk_Hz = stv0367cab_get_mclk(fe, ExtClk_Hz);
2383
2384 return ADCClk_Hz;
2385}
2386
2387enum stv0367cab_mod stv0367cab_SetQamSize(struct stv0367_state *state,
2388 u32 SymbolRate,
2389 enum stv0367cab_mod QAMSize)
2390{
2391 /* Set QAM size */
2392 stv0367_writebits(state, F367CAB_QAM_MODE, QAMSize);
2393
2394 /* Set Registers settings specific to the QAM size */
2395 switch (QAMSize) {
2396 case FE_CAB_MOD_QAM4:
2397 stv0367_writereg(state, R367CAB_IQDEM_ADJ_AGC_REF, 0x00);
2398 break;
2399 case FE_CAB_MOD_QAM16:
2400 stv0367_writereg(state, R367CAB_AGC_PWR_REF_L, 0x64);
2401 stv0367_writereg(state, R367CAB_IQDEM_ADJ_AGC_REF, 0x00);
2402 stv0367_writereg(state, R367CAB_FSM_STATE, 0x90);
2403 stv0367_writereg(state, R367CAB_EQU_CTR_LPF_GAIN, 0xc1);
2404 stv0367_writereg(state, R367CAB_EQU_CRL_LPF_GAIN, 0xa7);
2405 stv0367_writereg(state, R367CAB_EQU_CRL_LD_SEN, 0x95);
2406 stv0367_writereg(state, R367CAB_EQU_CRL_LIMITER, 0x40);
2407 stv0367_writereg(state, R367CAB_EQU_PNT_GAIN, 0x8a);
2408 break;
2409 case FE_CAB_MOD_QAM32:
2410 stv0367_writereg(state, R367CAB_IQDEM_ADJ_AGC_REF, 0x00);
2411 stv0367_writereg(state, R367CAB_AGC_PWR_REF_L, 0x6e);
2412 stv0367_writereg(state, R367CAB_FSM_STATE, 0xb0);
2413 stv0367_writereg(state, R367CAB_EQU_CTR_LPF_GAIN, 0xc1);
2414 stv0367_writereg(state, R367CAB_EQU_CRL_LPF_GAIN, 0xb7);
2415 stv0367_writereg(state, R367CAB_EQU_CRL_LD_SEN, 0x9d);
2416 stv0367_writereg(state, R367CAB_EQU_CRL_LIMITER, 0x7f);
2417 stv0367_writereg(state, R367CAB_EQU_PNT_GAIN, 0xa7);
2418 break;
2419 case FE_CAB_MOD_QAM64:
2420 stv0367_writereg(state, R367CAB_IQDEM_ADJ_AGC_REF, 0x82);
2421 stv0367_writereg(state, R367CAB_AGC_PWR_REF_L, 0x5a);
2422 if (SymbolRate > 45000000) {
2423 stv0367_writereg(state, R367CAB_FSM_STATE, 0xb0);
2424 stv0367_writereg(state, R367CAB_EQU_CTR_LPF_GAIN, 0xc1);
2425 stv0367_writereg(state, R367CAB_EQU_CRL_LPF_GAIN, 0xa5);
2426 } else if (SymbolRate > 25000000) {
2427 stv0367_writereg(state, R367CAB_FSM_STATE, 0xa0);
2428 stv0367_writereg(state, R367CAB_EQU_CTR_LPF_GAIN, 0xc1);
2429 stv0367_writereg(state, R367CAB_EQU_CRL_LPF_GAIN, 0xa6);
2430 } else {
2431 stv0367_writereg(state, R367CAB_FSM_STATE, 0xa0);
2432 stv0367_writereg(state, R367CAB_EQU_CTR_LPF_GAIN, 0xd1);
2433 stv0367_writereg(state, R367CAB_EQU_CRL_LPF_GAIN, 0xa7);
2434 }
2435 stv0367_writereg(state, R367CAB_EQU_CRL_LD_SEN, 0x95);
2436 stv0367_writereg(state, R367CAB_EQU_CRL_LIMITER, 0x40);
2437 stv0367_writereg(state, R367CAB_EQU_PNT_GAIN, 0x99);
2438 break;
2439 case FE_CAB_MOD_QAM128:
2440 stv0367_writereg(state, R367CAB_IQDEM_ADJ_AGC_REF, 0x00);
2441 stv0367_writereg(state, R367CAB_AGC_PWR_REF_L, 0x76);
2442 stv0367_writereg(state, R367CAB_FSM_STATE, 0x90);
2443 stv0367_writereg(state, R367CAB_EQU_CTR_LPF_GAIN, 0xb1);
2444 if (SymbolRate > 45000000)
2445 stv0367_writereg(state, R367CAB_EQU_CRL_LPF_GAIN, 0xa7);
2446 else if (SymbolRate > 25000000)
2447 stv0367_writereg(state, R367CAB_EQU_CRL_LPF_GAIN, 0xa6);
2448 else
2449 stv0367_writereg(state, R367CAB_EQU_CRL_LPF_GAIN, 0x97);
2450
2451 stv0367_writereg(state, R367CAB_EQU_CRL_LD_SEN, 0x8e);
2452 stv0367_writereg(state, R367CAB_EQU_CRL_LIMITER, 0x7f);
2453 stv0367_writereg(state, R367CAB_EQU_PNT_GAIN, 0xa7);
2454 break;
2455 case FE_CAB_MOD_QAM256:
2456 stv0367_writereg(state, R367CAB_IQDEM_ADJ_AGC_REF, 0x94);
2457 stv0367_writereg(state, R367CAB_AGC_PWR_REF_L, 0x5a);
2458 stv0367_writereg(state, R367CAB_FSM_STATE, 0xa0);
2459 if (SymbolRate > 45000000)
2460 stv0367_writereg(state, R367CAB_EQU_CTR_LPF_GAIN, 0xc1);
2461 else if (SymbolRate > 25000000)
2462 stv0367_writereg(state, R367CAB_EQU_CTR_LPF_GAIN, 0xc1);
2463 else
2464 stv0367_writereg(state, R367CAB_EQU_CTR_LPF_GAIN, 0xd1);
2465
2466 stv0367_writereg(state, R367CAB_EQU_CRL_LPF_GAIN, 0xa7);
2467 stv0367_writereg(state, R367CAB_EQU_CRL_LD_SEN, 0x85);
2468 stv0367_writereg(state, R367CAB_EQU_CRL_LIMITER, 0x40);
2469 stv0367_writereg(state, R367CAB_EQU_PNT_GAIN, 0xa7);
2470 break;
2471 case FE_CAB_MOD_QAM512:
2472 stv0367_writereg(state, R367CAB_IQDEM_ADJ_AGC_REF, 0x00);
2473 break;
2474 case FE_CAB_MOD_QAM1024:
2475 stv0367_writereg(state, R367CAB_IQDEM_ADJ_AGC_REF, 0x00);
2476 break;
2477 default:
2478 break;
2479 }
2480
2481 return QAMSize;
2482}
2483
2484static u32 stv0367cab_set_derot_freq(struct stv0367_state *state,
2485 u32 adc_hz, s32 derot_hz)
2486{
2487 u32 sampled_if = 0;
2488 u32 adc_khz;
2489
2490 adc_khz = adc_hz / 1000;
2491
2492 dprintk("%s: adc_hz=%d derot_hz=%d\n", __func__, adc_hz, derot_hz);
2493
2494 if (adc_khz != 0) {
2495 if (derot_hz < 1000000)
2496 derot_hz = adc_hz / 4; /* ZIF operation */
2497 if (derot_hz > adc_hz)
2498 derot_hz = derot_hz - adc_hz;
2499 sampled_if = (u32)derot_hz / 1000;
2500 sampled_if *= 32768;
2501 sampled_if /= adc_khz;
2502 sampled_if *= 256;
2503 }
2504
2505 if (sampled_if > 8388607)
2506 sampled_if = 8388607;
2507
2508 dprintk("%s: sampled_if=0x%x\n", __func__, sampled_if);
2509
2510 stv0367_writereg(state, R367CAB_MIX_NCO_LL, sampled_if);
2511 stv0367_writereg(state, R367CAB_MIX_NCO_HL, (sampled_if >> 8));
2512 stv0367_writebits(state, F367CAB_MIX_NCO_INC_HH, (sampled_if >> 16));
2513
2514 return derot_hz;
2515}
2516
2517static u32 stv0367cab_get_derot_freq(struct stv0367_state *state, u32 adc_hz)
2518{
2519 u32 sampled_if;
2520
2521 sampled_if = stv0367_readbits(state, F367CAB_MIX_NCO_INC_LL) +
2522 (stv0367_readbits(state, F367CAB_MIX_NCO_INC_HL) << 8) +
2523 (stv0367_readbits(state, F367CAB_MIX_NCO_INC_HH) << 16);
2524
2525 sampled_if /= 256;
2526 sampled_if *= (adc_hz / 1000);
2527 sampled_if += 1;
2528 sampled_if /= 32768;
2529
2530 return sampled_if;
2531}
2532
2533static u32 stv0367cab_set_srate(struct stv0367_state *state, u32 adc_hz,
2534 u32 mclk_hz, u32 SymbolRate,
2535 enum stv0367cab_mod QAMSize)
2536{
2537 u32 QamSizeCorr = 0;
2538 u32 u32_tmp = 0, u32_tmp1 = 0;
2539 u32 adp_khz;
2540
2541 dprintk("%s:\n", __func__);
2542
2543 /* Set Correction factor of SRC gain */
2544 switch (QAMSize) {
2545 case FE_CAB_MOD_QAM4:
2546 QamSizeCorr = 1110;
2547 break;
2548 case FE_CAB_MOD_QAM16:
2549 QamSizeCorr = 1032;
2550 break;
2551 case FE_CAB_MOD_QAM32:
2552 QamSizeCorr = 954;
2553 break;
2554 case FE_CAB_MOD_QAM64:
2555 QamSizeCorr = 983;
2556 break;
2557 case FE_CAB_MOD_QAM128:
2558 QamSizeCorr = 957;
2559 break;
2560 case FE_CAB_MOD_QAM256:
2561 QamSizeCorr = 948;
2562 break;
2563 case FE_CAB_MOD_QAM512:
2564 QamSizeCorr = 0;
2565 break;
2566 case FE_CAB_MOD_QAM1024:
2567 QamSizeCorr = 944;
2568 break;
2569 default:
2570 break;
2571 }
2572
2573 /* Transfer ratio calculation */
2574 if (adc_hz != 0) {
2575 u32_tmp = 256 * SymbolRate;
2576 u32_tmp = u32_tmp / adc_hz;
2577 }
2578 stv0367_writereg(state, R367CAB_EQU_CRL_TFR, (u8)u32_tmp);
2579
2580 /* Symbol rate and SRC gain calculation */
2581 adp_khz = (mclk_hz >> 1) / 1000;/* TRL works at half the system clock */
2582 if (adp_khz != 0) {
2583 u32_tmp = SymbolRate;
2584 u32_tmp1 = SymbolRate;
2585
2586 if (u32_tmp < 2097152) { /* 2097152 = 2^21 */
2587 /* Symbol rate calculation */
2588 u32_tmp *= 2048; /* 2048 = 2^11 */
2589 u32_tmp = u32_tmp / adp_khz;
2590 u32_tmp = u32_tmp * 16384; /* 16384 = 2^14 */
2591 u32_tmp /= 125 ; /* 125 = 1000/2^3 */
2592 u32_tmp = u32_tmp * 8; /* 8 = 2^3 */
2593
2594 /* SRC Gain Calculation */
2595 u32_tmp1 *= 2048; /* *2*2^10 */
2596 u32_tmp1 /= 439; /* *2/878 */
2597 u32_tmp1 *= 256; /* *2^8 */
2598 u32_tmp1 = u32_tmp1 / adp_khz; /* /(AdpClk in kHz) */
2599 u32_tmp1 *= QamSizeCorr * 9; /* *1000*corr factor */
2600 u32_tmp1 = u32_tmp1 / 10000000;
2601
2602 } else if (u32_tmp < 4194304) { /* 4194304 = 2**22 */
2603 /* Symbol rate calculation */
2604 u32_tmp *= 1024 ; /* 1024 = 2**10 */
2605 u32_tmp = u32_tmp / adp_khz;
2606 u32_tmp = u32_tmp * 16384; /* 16384 = 2**14 */
2607 u32_tmp /= 125 ; /* 125 = 1000/2**3 */
2608 u32_tmp = u32_tmp * 16; /* 16 = 2**4 */
2609
2610 /* SRC Gain Calculation */
2611 u32_tmp1 *= 1024; /* *2*2^9 */
2612 u32_tmp1 /= 439; /* *2/878 */
2613 u32_tmp1 *= 256; /* *2^8 */
2614 u32_tmp1 = u32_tmp1 / adp_khz; /* /(AdpClk in kHz)*/
2615 u32_tmp1 *= QamSizeCorr * 9; /* *1000*corr factor */
2616 u32_tmp1 = u32_tmp1 / 5000000;
2617 } else if (u32_tmp < 8388607) { /* 8388607 = 2**23 */
2618 /* Symbol rate calculation */
2619 u32_tmp *= 512 ; /* 512 = 2**9 */
2620 u32_tmp = u32_tmp / adp_khz;
2621 u32_tmp = u32_tmp * 16384; /* 16384 = 2**14 */
2622 u32_tmp /= 125 ; /* 125 = 1000/2**3 */
2623 u32_tmp = u32_tmp * 32; /* 32 = 2**5 */
2624
2625 /* SRC Gain Calculation */
2626 u32_tmp1 *= 512; /* *2*2^8 */
2627 u32_tmp1 /= 439; /* *2/878 */
2628 u32_tmp1 *= 256; /* *2^8 */
2629 u32_tmp1 = u32_tmp1 / adp_khz; /* /(AdpClk in kHz) */
2630 u32_tmp1 *= QamSizeCorr * 9; /* *1000*corr factor */
2631 u32_tmp1 = u32_tmp1 / 2500000;
2632 } else {
2633 /* Symbol rate calculation */
2634 u32_tmp *= 256 ; /* 256 = 2**8 */
2635 u32_tmp = u32_tmp / adp_khz;
2636 u32_tmp = u32_tmp * 16384; /* 16384 = 2**13 */
2637 u32_tmp /= 125 ; /* 125 = 1000/2**3 */
2638 u32_tmp = u32_tmp * 64; /* 64 = 2**6 */
2639
2640 /* SRC Gain Calculation */
2641 u32_tmp1 *= 256; /* 2*2^7 */
2642 u32_tmp1 /= 439; /* *2/878 */
2643 u32_tmp1 *= 256; /* *2^8 */
2644 u32_tmp1 = u32_tmp1 / adp_khz; /* /(AdpClk in kHz) */
2645 u32_tmp1 *= QamSizeCorr * 9; /* *1000*corr factor */
2646 u32_tmp1 = u32_tmp1 / 1250000;
2647 }
2648 }
2649#if 0
2650 /* Filters' coefficients are calculated and written
2651 into registers only if the filters are enabled */
2652 if (stv0367_readbits(state, F367CAB_ADJ_EN)) {
2653 stv0367cab_SetIirAdjacentcoefficient(state, mclk_hz,
2654 SymbolRate);
2655 /* AllPass filter must be enabled
2656 when the adjacents filter is used */
2657 stv0367_writebits(state, F367CAB_ALLPASSFILT_EN, 1);
2658 stv0367cab_SetAllPasscoefficient(state, mclk_hz, SymbolRate);
2659 } else
2660 /* AllPass filter must be disabled
2661 when the adjacents filter is not used */
2662#endif
2663 stv0367_writebits(state, F367CAB_ALLPASSFILT_EN, 0);
2664
2665 stv0367_writereg(state, R367CAB_SRC_NCO_LL, u32_tmp);
2666 stv0367_writereg(state, R367CAB_SRC_NCO_LH, (u32_tmp >> 8));
2667 stv0367_writereg(state, R367CAB_SRC_NCO_HL, (u32_tmp >> 16));
2668 stv0367_writereg(state, R367CAB_SRC_NCO_HH, (u32_tmp >> 24));
2669
2670 stv0367_writereg(state, R367CAB_IQDEM_GAIN_SRC_L, u32_tmp1 & 0x00ff);
2671 stv0367_writebits(state, F367CAB_GAIN_SRC_HI, (u32_tmp1 >> 8) & 0x00ff);
2672
2673 return SymbolRate ;
2674}
2675
2676static u32 stv0367cab_GetSymbolRate(struct stv0367_state *state, u32 mclk_hz)
2677{
2678 u32 regsym;
2679 u32 adp_khz;
2680
2681 regsym = stv0367_readreg(state, R367CAB_SRC_NCO_LL) +
2682 (stv0367_readreg(state, R367CAB_SRC_NCO_LH) << 8) +
2683 (stv0367_readreg(state, R367CAB_SRC_NCO_HL) << 16) +
2684 (stv0367_readreg(state, R367CAB_SRC_NCO_HH) << 24);
2685
2686 adp_khz = (mclk_hz >> 1) / 1000;/* TRL works at half the system clock */
2687
2688 if (regsym < 134217728) { /* 134217728L = 2**27*/
2689 regsym = regsym * 32; /* 32 = 2**5 */
2690 regsym = regsym / 32768; /* 32768L = 2**15 */
2691 regsym = adp_khz * regsym; /* AdpClk in kHz */
2692 regsym = regsym / 128; /* 128 = 2**7 */
2693 regsym *= 125 ; /* 125 = 1000/2**3 */
2694 regsym /= 2048 ; /* 2048 = 2**11 */
2695 } else if (regsym < 268435456) { /* 268435456L = 2**28 */
2696 regsym = regsym * 16; /* 16 = 2**4 */
2697 regsym = regsym / 32768; /* 32768L = 2**15 */
2698 regsym = adp_khz * regsym; /* AdpClk in kHz */
2699 regsym = regsym / 128; /* 128 = 2**7 */
2700 regsym *= 125 ; /* 125 = 1000/2**3*/
2701 regsym /= 1024 ; /* 256 = 2**10*/
2702 } else if (regsym < 536870912) { /* 536870912L = 2**29*/
2703 regsym = regsym * 8; /* 8 = 2**3 */
2704 regsym = regsym / 32768; /* 32768L = 2**15 */
2705 regsym = adp_khz * regsym; /* AdpClk in kHz */
2706 regsym = regsym / 128; /* 128 = 2**7 */
2707 regsym *= 125 ; /* 125 = 1000/2**3 */
2708 regsym /= 512 ; /* 128 = 2**9 */
2709 } else {
2710 regsym = regsym * 4; /* 4 = 2**2 */
2711 regsym = regsym / 32768; /* 32768L = 2**15 */
2712 regsym = adp_khz * regsym; /* AdpClk in kHz */
2713 regsym = regsym / 128; /* 128 = 2**7 */
2714 regsym *= 125 ; /* 125 = 1000/2**3 */
2715 regsym /= 256 ; /* 64 = 2**8 */
2716 }
2717
2718 return regsym;
2719}
2720
2721static int stv0367cab_read_status(struct dvb_frontend *fe, fe_status_t *status)
2722{
2723 struct stv0367_state *state = fe->demodulator_priv;
2724
2725 dprintk("%s:\n", __func__);
2726
2727 *status = 0;
2728
2729 if (stv0367_readbits(state, F367CAB_QAMFEC_LOCK)) {
2730 *status |= FE_HAS_LOCK;
2731 dprintk("%s: stv0367 has locked\n", __func__);
2732 }
2733
2734 return 0;
2735}
2736
2737static int stv0367cab_standby(struct dvb_frontend *fe, u8 standby_on)
2738{
2739 struct stv0367_state *state = fe->demodulator_priv;
2740
2741 dprintk("%s:\n", __func__);
2742
2743 if (standby_on) {
2744 stv0367_writebits(state, F367CAB_BYPASS_PLLXN, 0x03);
2745 stv0367_writebits(state, F367CAB_STDBY_PLLXN, 0x01);
2746 stv0367_writebits(state, F367CAB_STDBY, 1);
2747 stv0367_writebits(state, F367CAB_STDBY_CORE, 1);
2748 stv0367_writebits(state, F367CAB_EN_BUFFER_I, 0);
2749 stv0367_writebits(state, F367CAB_EN_BUFFER_Q, 0);
2750 stv0367_writebits(state, F367CAB_POFFQ, 1);
2751 stv0367_writebits(state, F367CAB_POFFI, 1);
2752 } else {
2753 stv0367_writebits(state, F367CAB_STDBY_PLLXN, 0x00);
2754 stv0367_writebits(state, F367CAB_BYPASS_PLLXN, 0x00);
2755 stv0367_writebits(state, F367CAB_STDBY, 0);
2756 stv0367_writebits(state, F367CAB_STDBY_CORE, 0);
2757 stv0367_writebits(state, F367CAB_EN_BUFFER_I, 1);
2758 stv0367_writebits(state, F367CAB_EN_BUFFER_Q, 1);
2759 stv0367_writebits(state, F367CAB_POFFQ, 0);
2760 stv0367_writebits(state, F367CAB_POFFI, 0);
2761 }
2762
2763 return 0;
2764}
2765
2766static int stv0367cab_sleep(struct dvb_frontend *fe)
2767{
2768 return stv0367cab_standby(fe, 1);
2769}
2770
2771int stv0367cab_init(struct dvb_frontend *fe)
2772{
2773 struct stv0367_state *state = fe->demodulator_priv;
2774 struct stv0367cab_state *cab_state = state->cab_state;
2775 int i;
2776
2777 dprintk("%s:\n", __func__);
2778
2779 for (i = 0; i < STV0367CAB_NBREGS; i++)
2780 stv0367_writereg(state, def0367cab[i].addr,
2781 def0367cab[i].value);
2782
2783 switch (state->config->ts_mode) {
2784 case STV0367_DVBCI_CLOCK:
2785 dprintk("Setting TSMode = STV0367_DVBCI_CLOCK\n");
2786 stv0367_writebits(state, F367CAB_OUTFORMAT, 0x03);
2787 break;
2788 case STV0367_SERIAL_PUNCT_CLOCK:
2789 case STV0367_SERIAL_CONT_CLOCK:
2790 stv0367_writebits(state, F367CAB_OUTFORMAT, 0x01);
2791 break;
2792 case STV0367_PARALLEL_PUNCT_CLOCK:
2793 case STV0367_OUTPUTMODE_DEFAULT:
2794 stv0367_writebits(state, F367CAB_OUTFORMAT, 0x00);
2795 break;
2796 }
2797
2798 switch (state->config->clk_pol) {
2799 case STV0367_RISINGEDGE_CLOCK:
2800 stv0367_writebits(state, F367CAB_CLK_POLARITY, 0x00);
2801 break;
2802 case STV0367_FALLINGEDGE_CLOCK:
2803 case STV0367_CLOCKPOLARITY_DEFAULT:
2804 stv0367_writebits(state, F367CAB_CLK_POLARITY, 0x01);
2805 break;
2806 }
2807
2808 stv0367_writebits(state, F367CAB_SYNC_STRIP, 0x00);
2809
2810 stv0367_writebits(state, F367CAB_CT_NBST, 0x01);
2811
2812 stv0367_writebits(state, F367CAB_TS_SWAP, 0x01);
2813
2814 stv0367_writebits(state, F367CAB_FIFO_BYPASS, 0x00);
2815
2816 stv0367_writereg(state, R367CAB_ANACTRL, 0x00);/*PLL enabled and used */
2817
2818 cab_state->mclk = stv0367cab_get_mclk(fe, state->config->xtal);
2819 cab_state->adc_clk = stv0367cab_get_adc_freq(fe, state->config->xtal);
2820
2821 return 0;
2822}
2823static
2824enum stv0367_cab_signal_type stv0367cab_algo(struct stv0367_state *state,
2825 struct dvb_frontend_parameters *param)
2826{
2827 struct dvb_qam_parameters *op = &param->u.qam;
2828 struct stv0367cab_state *cab_state = state->cab_state;
2829 enum stv0367_cab_signal_type signalType = FE_CAB_NOAGC;
2830 u32 QAMFEC_Lock, QAM_Lock, u32_tmp,
2831 LockTime, TRLTimeOut, AGCTimeOut, CRLSymbols,
2832 CRLTimeOut, EQLTimeOut, DemodTimeOut, FECTimeOut;
2833 u8 TrackAGCAccum;
2834 s32 tmp;
2835
2836 dprintk("%s:\n", __func__);
2837
2838 /* Timeouts calculation */
2839 /* A max lock time of 25 ms is allowed for delayed AGC */
2840 AGCTimeOut = 25;
2841 /* 100000 symbols needed by the TRL as a maximum value */
2842 TRLTimeOut = 100000000 / op->symbol_rate;
2843 /* CRLSymbols is the needed number of symbols to achieve a lock
2844 within [-4%, +4%] of the symbol rate.
2845 CRL timeout is calculated
2846 for a lock within [-search_range, +search_range].
2847 EQL timeout can be changed depending on
2848 the micro-reflections we want to handle.
2849 A characterization must be performed
2850 with these echoes to get new timeout values.
2851 */
2852 switch (op->modulation) {
2853 case QAM_16:
2854 CRLSymbols = 150000;
2855 EQLTimeOut = 100;
2856 break;
2857 case QAM_32:
2858 CRLSymbols = 250000;
2859 EQLTimeOut = 100;
2860 break;
2861 case QAM_64:
2862 CRLSymbols = 200000;
2863 EQLTimeOut = 100;
2864 break;
2865 case QAM_128:
2866 CRLSymbols = 250000;
2867 EQLTimeOut = 100;
2868 break;
2869 case QAM_256:
2870 CRLSymbols = 250000;
2871 EQLTimeOut = 100;
2872 break;
2873 default:
2874 CRLSymbols = 200000;
2875 EQLTimeOut = 100;
2876 break;
2877 }
2878#if 0
2879 if (pIntParams->search_range < 0) {
2880 CRLTimeOut = (25 * CRLSymbols *
2881 (-pIntParams->search_range / 1000)) /
2882 (pIntParams->symbol_rate / 1000);
2883 } else
2884#endif
2885 CRLTimeOut = (25 * CRLSymbols * (cab_state->search_range / 1000)) /
2886 (op->symbol_rate / 1000);
2887
2888 CRLTimeOut = (1000 * CRLTimeOut) / op->symbol_rate;
2889 /* Timeouts below 50ms are coerced */
2890 if (CRLTimeOut < 50)
2891 CRLTimeOut = 50;
2892 /* A maximum of 100 TS packets is needed to get FEC lock even in case
2893 the spectrum inversion needs to be changed.
2894 This is equal to 20 ms in case of the lowest symbol rate of 0.87Msps
2895 */
2896 FECTimeOut = 20;
2897 DemodTimeOut = AGCTimeOut + TRLTimeOut + CRLTimeOut + EQLTimeOut;
2898
2899 dprintk("%s: DemodTimeOut=%d\n", __func__, DemodTimeOut);
2900
2901 /* Reset the TRL to ensure nothing starts until the
2902 AGC is stable which ensures a better lock time
2903 */
2904 stv0367_writereg(state, R367CAB_CTRL_1, 0x04);
2905 /* Set AGC accumulation time to minimum and lock threshold to maximum
2906 in order to speed up the AGC lock */
2907 TrackAGCAccum = stv0367_readbits(state, F367CAB_AGC_ACCUMRSTSEL);
2908 stv0367_writebits(state, F367CAB_AGC_ACCUMRSTSEL, 0x0);
2909 /* Modulus Mapper is disabled */
2910 stv0367_writebits(state, F367CAB_MODULUSMAP_EN, 0);
2911 /* Disable the sweep function */
2912 stv0367_writebits(state, F367CAB_SWEEP_EN, 0);
2913 /* The sweep function is never used, Sweep rate must be set to 0 */
2914 /* Set the derotator frequency in Hz */
2915 stv0367cab_set_derot_freq(state, cab_state->adc_clk,
2916 (1000 * (s32)state->config->if_khz + cab_state->derot_offset));
2917 /* Disable the Allpass Filter when the symbol rate is out of range */
2918 if ((op->symbol_rate > 10800000) | (op->symbol_rate < 1800000)) {
2919 stv0367_writebits(state, F367CAB_ADJ_EN, 0);
2920 stv0367_writebits(state, F367CAB_ALLPASSFILT_EN, 0);
2921 }
2922#if 0
2923 /* Check if the tuner is locked */
2924 tuner_lock = stv0367cab_tuner_get_status(fe);
2925 if (tuner_lock == 0)
2926 return FE_367CAB_NOTUNER;
2927#endif
2928 /* Relase the TRL to start demodulator acquisition */
2929 /* Wait for QAM lock */
2930 LockTime = 0;
2931 stv0367_writereg(state, R367CAB_CTRL_1, 0x00);
2932 do {
2933 QAM_Lock = stv0367_readbits(state, F367CAB_FSM_STATUS);
2934 if ((LockTime >= (DemodTimeOut - EQLTimeOut)) &&
2935 (QAM_Lock == 0x04))
2936 /*
2937 * We don't wait longer, the frequency/phase offset
2938 * must be too big
2939 */
2940 LockTime = DemodTimeOut;
2941 else if ((LockTime >= (AGCTimeOut + TRLTimeOut)) &&
2942 (QAM_Lock == 0x02))
2943 /*
2944 * We don't wait longer, either there is no signal or
2945 * it is not the right symbol rate or it is an analog
2946 * carrier
2947 */
2948 {
2949 LockTime = DemodTimeOut;
2950 u32_tmp = stv0367_readbits(state,
2951 F367CAB_AGC_PWR_WORD_LO) +
2952 (stv0367_readbits(state,
2953 F367CAB_AGC_PWR_WORD_ME) << 8) +
2954 (stv0367_readbits(state,
2955 F367CAB_AGC_PWR_WORD_HI) << 16);
2956 if (u32_tmp >= 131072)
2957 u32_tmp = 262144 - u32_tmp;
2958 u32_tmp = u32_tmp / (1 << (11 - stv0367_readbits(state,
2959 F367CAB_AGC_IF_BWSEL)));
2960
2961 if (u32_tmp < stv0367_readbits(state,
2962 F367CAB_AGC_PWRREF_LO) +
2963 256 * stv0367_readbits(state,
2964 F367CAB_AGC_PWRREF_HI) - 10)
2965 QAM_Lock = 0x0f;
2966 } else {
2967 usleep_range(10000, 20000);
2968 LockTime += 10;
2969 }
2970 dprintk("QAM_Lock=0x%x LockTime=%d\n", QAM_Lock, LockTime);
2971 tmp = stv0367_readreg(state, R367CAB_IT_STATUS1);
2972
2973 dprintk("R367CAB_IT_STATUS1=0x%x\n", tmp);
2974
2975 } while (((QAM_Lock != 0x0c) && (QAM_Lock != 0x0b)) &&
2976 (LockTime < DemodTimeOut));
2977
2978 dprintk("QAM_Lock=0x%x\n", QAM_Lock);
2979
2980 tmp = stv0367_readreg(state, R367CAB_IT_STATUS1);
2981 dprintk("R367CAB_IT_STATUS1=0x%x\n", tmp);
2982 tmp = stv0367_readreg(state, R367CAB_IT_STATUS2);
2983 dprintk("R367CAB_IT_STATUS2=0x%x\n", tmp);
2984
2985 tmp = stv0367cab_get_derot_freq(state, cab_state->adc_clk);
2986 dprintk("stv0367cab_get_derot_freq=0x%x\n", tmp);
2987
2988 if ((QAM_Lock == 0x0c) || (QAM_Lock == 0x0b)) {
2989 /* Wait for FEC lock */
2990 LockTime = 0;
2991 do {
2992 usleep_range(5000, 7000);
2993 LockTime += 5;
2994 QAMFEC_Lock = stv0367_readbits(state,
2995 F367CAB_QAMFEC_LOCK);
2996 } while (!QAMFEC_Lock && (LockTime < FECTimeOut));
2997 } else
2998 QAMFEC_Lock = 0;
2999
3000 if (QAMFEC_Lock) {
3001 signalType = FE_CAB_DATAOK;
3002 cab_state->modulation = op->modulation;
3003 cab_state->spect_inv = stv0367_readbits(state,
3004 F367CAB_QUAD_INV);
3005#if 0
3006/* not clear for me */
3007 if (state->config->if_khz != 0) {
3008 if (state->config->if_khz > cab_state->adc_clk / 1000) {
3009 cab_state->freq_khz =
3010 FE_Cab_TunerGetFrequency(pIntParams->hTuner)
3011 - stv0367cab_get_derot_freq(state, cab_state->adc_clk)
3012 - cab_state->adc_clk / 1000 + state->config->if_khz;
3013 } else {
3014 cab_state->freq_khz =
3015 FE_Cab_TunerGetFrequency(pIntParams->hTuner)
3016 - stv0367cab_get_derot_freq(state, cab_state->adc_clk)
3017 + state->config->if_khz;
3018 }
3019 } else {
3020 cab_state->freq_khz =
3021 FE_Cab_TunerGetFrequency(pIntParams->hTuner) +
3022 stv0367cab_get_derot_freq(state,
3023 cab_state->adc_clk) -
3024 cab_state->adc_clk / 4000;
3025 }
3026#endif
3027 cab_state->symbol_rate = stv0367cab_GetSymbolRate(state,
3028 cab_state->mclk);
3029 cab_state->locked = 1;
3030
3031 /* stv0367_setbits(state, F367CAB_AGC_ACCUMRSTSEL,7);*/
3032 } else {
3033 switch (QAM_Lock) {
3034 case 1:
3035 signalType = FE_CAB_NOAGC;
3036 break;
3037 case 2:
3038 signalType = FE_CAB_NOTIMING;
3039 break;
3040 case 3:
3041 signalType = FE_CAB_TIMINGOK;
3042 break;
3043 case 4:
3044 signalType = FE_CAB_NOCARRIER;
3045 break;
3046 case 5:
3047 signalType = FE_CAB_CARRIEROK;
3048 break;
3049 case 7:
3050 signalType = FE_CAB_NOBLIND;
3051 break;
3052 case 8:
3053 signalType = FE_CAB_BLINDOK;
3054 break;
3055 case 10:
3056 signalType = FE_CAB_NODEMOD;
3057 break;
3058 case 11:
3059 signalType = FE_CAB_DEMODOK;
3060 break;
3061 case 12:
3062 signalType = FE_CAB_DEMODOK;
3063 break;
3064 case 13:
3065 signalType = FE_CAB_NODEMOD;
3066 break;
3067 case 14:
3068 signalType = FE_CAB_NOBLIND;
3069 break;
3070 case 15:
3071 signalType = FE_CAB_NOSIGNAL;
3072 break;
3073 default:
3074 break;
3075 }
3076
3077 }
3078
3079 /* Set the AGC control values to tracking values */
3080 stv0367_writebits(state, F367CAB_AGC_ACCUMRSTSEL, TrackAGCAccum);
3081 return signalType;
3082}
3083
3084static int stv0367cab_set_frontend(struct dvb_frontend *fe,
3085 struct dvb_frontend_parameters *param)
3086{
3087 struct stv0367_state *state = fe->demodulator_priv;
3088 struct stv0367cab_state *cab_state = state->cab_state;
3089 struct dvb_qam_parameters *op = &param->u.qam;
3090 enum stv0367cab_mod QAMSize = 0;
3091
3092 dprintk("%s: freq = %d, srate = %d\n", __func__,
3093 param->frequency, op->symbol_rate);
3094
3095 cab_state->derot_offset = 0;
3096
3097 switch (op->modulation) {
3098 case QAM_16:
3099 QAMSize = FE_CAB_MOD_QAM16;
3100 break;
3101 case QAM_32:
3102 QAMSize = FE_CAB_MOD_QAM32;
3103 break;
3104 case QAM_64:
3105 QAMSize = FE_CAB_MOD_QAM64;
3106 break;
3107 case QAM_128:
3108 QAMSize = FE_CAB_MOD_QAM128;
3109 break;
3110 case QAM_256:
3111 QAMSize = FE_CAB_MOD_QAM256;
3112 break;
3113 default:
3114 break;
3115 }
3116
3117 stv0367cab_init(fe);
3118
3119 /* Tuner Frequency Setting */
3120 if (fe->ops.tuner_ops.set_params) {
3121 if (fe->ops.i2c_gate_ctrl)
3122 fe->ops.i2c_gate_ctrl(fe, 1);
3123 fe->ops.tuner_ops.set_params(fe, param);
3124 if (fe->ops.i2c_gate_ctrl)
3125 fe->ops.i2c_gate_ctrl(fe, 0);
3126 }
3127
3128 stv0367cab_SetQamSize(
3129 state,
3130 op->symbol_rate,
3131 QAMSize);
3132
3133 stv0367cab_set_srate(state,
3134 cab_state->adc_clk,
3135 cab_state->mclk,
3136 op->symbol_rate,
3137 QAMSize);
3138 /* Search algorithm launch, [-1.1*RangeOffset, +1.1*RangeOffset] scan */
3139 cab_state->state = stv0367cab_algo(state, param);
3140 return 0;
3141}
3142
3143static int stv0367cab_get_frontend(struct dvb_frontend *fe,
3144 struct dvb_frontend_parameters *param)
3145{
3146 struct stv0367_state *state = fe->demodulator_priv;
3147 struct stv0367cab_state *cab_state = state->cab_state;
3148 struct dvb_qam_parameters *op = &param->u.qam;
3149
3150 enum stv0367cab_mod QAMSize;
3151
3152 dprintk("%s:\n", __func__);
3153
3154 op->symbol_rate = stv0367cab_GetSymbolRate(state, cab_state->mclk);
3155
3156 QAMSize = stv0367_readbits(state, F367CAB_QAM_MODE);
3157 switch (QAMSize) {
3158 case FE_CAB_MOD_QAM16:
3159 op->modulation = QAM_16;
3160 break;
3161 case FE_CAB_MOD_QAM32:
3162 op->modulation = QAM_32;
3163 break;
3164 case FE_CAB_MOD_QAM64:
3165 op->modulation = QAM_64;
3166 break;
3167 case FE_CAB_MOD_QAM128:
3168 op->modulation = QAM_128;
3169 break;
3170 case QAM_256:
3171 op->modulation = QAM_256;
3172 break;
3173 default:
3174 break;
3175 }
3176
3177 param->frequency = stv0367_get_tuner_freq(fe);
3178
3179 dprintk("%s: tuner frequency = %d\n", __func__, param->frequency);
3180
3181 if (state->config->if_khz == 0) {
3182 param->frequency +=
3183 (stv0367cab_get_derot_freq(state, cab_state->adc_clk) -
3184 cab_state->adc_clk / 4000);
3185 return 0;
3186 }
3187
3188 if (state->config->if_khz > cab_state->adc_clk / 1000)
3189 param->frequency += (state->config->if_khz
3190 - stv0367cab_get_derot_freq(state, cab_state->adc_clk)
3191 - cab_state->adc_clk / 1000);
3192 else
3193 param->frequency += (state->config->if_khz
3194 - stv0367cab_get_derot_freq(state, cab_state->adc_clk));
3195
3196 return 0;
3197}
3198
3199#if 0
3200void stv0367cab_GetErrorCount(state, enum stv0367cab_mod QAMSize,
3201 u32 symbol_rate, FE_367qam_Monitor *Monitor_results)
3202{
3203 stv0367cab_OptimiseNByteAndGetBER(state, QAMSize, symbol_rate, Monitor_results);
3204 stv0367cab_GetPacketsCount(state, Monitor_results);
3205
3206 return;
3207}
3208
3209static int stv0367cab_read_ber(struct dvb_frontend *fe, u32 *ber)
3210{
3211 struct stv0367_state *state = fe->demodulator_priv;
3212
3213 return 0;
3214}
3215#endif
3216static s32 stv0367cab_get_rf_lvl(struct stv0367_state *state)
3217{
3218 s32 rfLevel = 0;
3219 s32 RfAgcPwm = 0, IfAgcPwm = 0;
3220 u8 i;
3221
3222 stv0367_writebits(state, F367CAB_STDBY_ADCGP, 0x0);
3223
3224 RfAgcPwm =
3225 (stv0367_readbits(state, F367CAB_RF_AGC1_LEVEL_LO) & 0x03) +
3226 (stv0367_readbits(state, F367CAB_RF_AGC1_LEVEL_HI) << 2);
3227 RfAgcPwm = 100 * RfAgcPwm / 1023;
3228
3229 IfAgcPwm =
3230 stv0367_readbits(state, F367CAB_AGC_IF_PWMCMD_LO) +
3231 (stv0367_readbits(state, F367CAB_AGC_IF_PWMCMD_HI) << 8);
3232 if (IfAgcPwm >= 2048)
3233 IfAgcPwm -= 2048;
3234 else
3235 IfAgcPwm += 2048;
3236
3237 IfAgcPwm = 100 * IfAgcPwm / 4095;
3238
3239 /* For DTT75467 on NIM */
3240 if (RfAgcPwm < 90 && IfAgcPwm < 28) {
3241 for (i = 0; i < RF_LOOKUP_TABLE_SIZE; i++) {
3242 if (RfAgcPwm <= stv0367cab_RF_LookUp1[0][i]) {
3243 rfLevel = (-1) * stv0367cab_RF_LookUp1[1][i];
3244 break;
3245 }
3246 }
3247 if (i == RF_LOOKUP_TABLE_SIZE)
3248 rfLevel = -56;
3249 } else { /*if IF AGC>10*/
3250 for (i = 0; i < RF_LOOKUP_TABLE2_SIZE; i++) {
3251 if (IfAgcPwm <= stv0367cab_RF_LookUp2[0][i]) {
3252 rfLevel = (-1) * stv0367cab_RF_LookUp2[1][i];
3253 break;
3254 }
3255 }
3256 if (i == RF_LOOKUP_TABLE2_SIZE)
3257 rfLevel = -72;
3258 }
3259 return rfLevel;
3260}
3261
3262static int stv0367cab_read_strength(struct dvb_frontend *fe, u16 *strength)
3263{
3264 struct stv0367_state *state = fe->demodulator_priv;
3265
3266 s32 signal = stv0367cab_get_rf_lvl(state);
3267
3268 dprintk("%s: signal=%d dBm\n", __func__, signal);
3269
3270 if (signal <= -72)
3271 *strength = 65535;
3272 else
3273 *strength = (22 + signal) * (-1311);
3274
3275 dprintk("%s: strength=%d\n", __func__, (*strength));
3276
3277 return 0;
3278}
3279
3280static int stv0367cab_read_snr(struct dvb_frontend *fe, u16 *snr)
3281{
3282 struct stv0367_state *state = fe->demodulator_priv;
3283 u32 noisepercentage;
3284 enum stv0367cab_mod QAMSize;
3285 u32 regval = 0, temp = 0;
3286 int power, i;
3287
3288 QAMSize = stv0367_readbits(state, F367CAB_QAM_MODE);
3289 switch (QAMSize) {
3290 case FE_CAB_MOD_QAM4:
3291 power = 21904;
3292 break;
3293 case FE_CAB_MOD_QAM16:
3294 power = 20480;
3295 break;
3296 case FE_CAB_MOD_QAM32:
3297 power = 23040;
3298 break;
3299 case FE_CAB_MOD_QAM64:
3300 power = 21504;
3301 break;
3302 case FE_CAB_MOD_QAM128:
3303 power = 23616;
3304 break;
3305 case FE_CAB_MOD_QAM256:
3306 power = 21760;
3307 break;
3308 case FE_CAB_MOD_QAM512:
3309 power = 1;
3310 break;
3311 case FE_CAB_MOD_QAM1024:
3312 power = 21280;
3313 break;
3314 default:
3315 power = 1;
3316 break;
3317 }
3318
3319 for (i = 0; i < 10; i++) {
3320 regval += (stv0367_readbits(state, F367CAB_SNR_LO)
3321 + 256 * stv0367_readbits(state, F367CAB_SNR_HI));
3322 }
3323
3324 regval /= 10; /*for average over 10 times in for loop above*/
3325 if (regval != 0) {
3326 temp = power
3327 * (1 << (3 + stv0367_readbits(state, F367CAB_SNR_PER)));
3328 temp /= regval;
3329 }
3330
3331 /* table values, not needed to calculate logarithms */
3332 if (temp >= 5012)
3333 noisepercentage = 100;
3334 else if (temp >= 3981)
3335 noisepercentage = 93;
3336 else if (temp >= 3162)
3337 noisepercentage = 86;
3338 else if (temp >= 2512)
3339 noisepercentage = 79;
3340 else if (temp >= 1995)
3341 noisepercentage = 72;
3342 else if (temp >= 1585)
3343 noisepercentage = 65;
3344 else if (temp >= 1259)
3345 noisepercentage = 58;
3346 else if (temp >= 1000)
3347 noisepercentage = 50;
3348 else if (temp >= 794)
3349 noisepercentage = 43;
3350 else if (temp >= 501)
3351 noisepercentage = 36;
3352 else if (temp >= 316)
3353 noisepercentage = 29;
3354 else if (temp >= 200)
3355 noisepercentage = 22;
3356 else if (temp >= 158)
3357 noisepercentage = 14;
3358 else if (temp >= 126)
3359 noisepercentage = 7;
3360 else
3361 noisepercentage = 0;
3362
3363 dprintk("%s: noisepercentage=%d\n", __func__, noisepercentage);
3364
3365 *snr = (noisepercentage * 65535) / 100;
3366
3367 return 0;
3368}
3369
3370static struct dvb_frontend_ops stv0367cab_ops = {
3371 .info = {
3372 .name = "ST STV0367 DVB-C",
3373 .type = FE_QAM,
3374 .frequency_min = 47000000,
3375 .frequency_max = 862000000,
3376 .frequency_stepsize = 62500,
3377 .symbol_rate_min = 870000,
3378 .symbol_rate_max = 11700000,
3379 .caps = 0x400 |/* FE_CAN_QAM_4 */
3380 FE_CAN_QAM_16 | FE_CAN_QAM_32 |
3381 FE_CAN_QAM_64 | FE_CAN_QAM_128 |
3382 FE_CAN_QAM_256 | FE_CAN_FEC_AUTO
3383 },
3384 .release = stv0367_release,
3385 .init = stv0367cab_init,
3386 .sleep = stv0367cab_sleep,
3387 .i2c_gate_ctrl = stv0367cab_gate_ctrl,
3388 .set_frontend = stv0367cab_set_frontend,
3389 .get_frontend = stv0367cab_get_frontend,
3390 .read_status = stv0367cab_read_status,
3391/* .read_ber = stv0367cab_read_ber, */
3392 .read_signal_strength = stv0367cab_read_strength,
3393 .read_snr = stv0367cab_read_snr,
3394/* .read_ucblocks = stv0367cab_read_ucblcks,*/
3395 .get_tune_settings = stv0367_get_tune_settings,
3396};
3397
3398struct dvb_frontend *stv0367cab_attach(const struct stv0367_config *config,
3399 struct i2c_adapter *i2c)
3400{
3401 struct stv0367_state *state = NULL;
3402 struct stv0367cab_state *cab_state = NULL;
3403
3404 /* allocate memory for the internal state */
3405 state = kzalloc(sizeof(struct stv0367_state), GFP_KERNEL);
3406 if (state == NULL)
3407 goto error;
3408 cab_state = kzalloc(sizeof(struct stv0367cab_state), GFP_KERNEL);
3409 if (cab_state == NULL)
3410 goto error;
3411
3412 /* setup the state */
3413 state->i2c = i2c;
3414 state->config = config;
3415 cab_state->search_range = 280000;
3416 state->cab_state = cab_state;
3417 state->fe.ops = stv0367cab_ops;
3418 state->fe.demodulator_priv = state;
3419 state->chip_id = stv0367_readreg(state, 0xf000);
3420
3421 dprintk("%s: chip_id = 0x%x\n", __func__, state->chip_id);
3422
3423 /* check if the demod is there */
3424 if ((state->chip_id != 0x50) && (state->chip_id != 0x60))
3425 goto error;
3426
3427 return &state->fe;
3428
3429error:
3430 kfree(cab_state);
3431 kfree(state);
3432 return NULL;
3433}
3434EXPORT_SYMBOL(stv0367cab_attach);
3435
3436MODULE_PARM_DESC(debug, "Set debug");
3437MODULE_PARM_DESC(i2c_debug, "Set i2c debug");
3438
3439MODULE_AUTHOR("Igor M. Liplianin");
3440MODULE_DESCRIPTION("ST STV0367 DVB-C/T demodulator driver");
3441MODULE_LICENSE("GPL");
generated by cgit v1.2.2 (git 2.25.0) at 2024-12-28 18:14:08 -0500