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linux-next/drivers/media/dvb-frontends/stv0900_sw.c
Cong Ding 4880f56438 [media] stv0900: remove unnecessary null pointer check
The address of a variable is impossible to be null, so we remove the check.

Signed-off-by: Cong Ding <dinggnu@gmail.com>
Signed-off-by: Michael Krufky <mkrufky@linuxtv.org>
Signed-off-by: Mauro Carvalho Chehab <mchehab@redhat.com>
2013-02-08 18:05:48 -02:00

2030 lines
50 KiB
C

/*
* stv0900_sw.c
*
* Driver for ST STV0900 satellite demodulator IC.
*
* Copyright (C) ST Microelectronics.
* Copyright (C) 2009 NetUP Inc.
* Copyright (C) 2009 Igor M. Liplianin <liplianin@netup.ru>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
*
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include "stv0900.h"
#include "stv0900_reg.h"
#include "stv0900_priv.h"
s32 shiftx(s32 x, int demod, s32 shift)
{
if (demod == 1)
return x - shift;
return x;
}
int stv0900_check_signal_presence(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod)
{
s32 carr_offset,
agc2_integr,
max_carrier;
int no_signal = FALSE;
carr_offset = (stv0900_read_reg(intp, CFR2) << 8)
| stv0900_read_reg(intp, CFR1);
carr_offset = ge2comp(carr_offset, 16);
agc2_integr = (stv0900_read_reg(intp, AGC2I1) << 8)
| stv0900_read_reg(intp, AGC2I0);
max_carrier = intp->srch_range[demod] / 1000;
max_carrier += (max_carrier / 10);
max_carrier = 65536 * (max_carrier / 2);
max_carrier /= intp->mclk / 1000;
if (max_carrier > 0x4000)
max_carrier = 0x4000;
if ((agc2_integr > 0x2000)
|| (carr_offset > (2 * max_carrier))
|| (carr_offset < (-2 * max_carrier)))
no_signal = TRUE;
return no_signal;
}
static void stv0900_get_sw_loop_params(struct stv0900_internal *intp,
s32 *frequency_inc, s32 *sw_timeout,
s32 *steps,
enum fe_stv0900_demod_num demod)
{
s32 timeout, freq_inc, max_steps, srate, max_carrier;
enum fe_stv0900_search_standard standard;
srate = intp->symbol_rate[demod];
max_carrier = intp->srch_range[demod] / 1000;
max_carrier += max_carrier / 10;
standard = intp->srch_standard[demod];
max_carrier = 65536 * (max_carrier / 2);
max_carrier /= intp->mclk / 1000;
if (max_carrier > 0x4000)
max_carrier = 0x4000;
freq_inc = srate;
freq_inc /= intp->mclk >> 10;
freq_inc = freq_inc << 6;
switch (standard) {
case STV0900_SEARCH_DVBS1:
case STV0900_SEARCH_DSS:
freq_inc *= 3;
timeout = 20;
break;
case STV0900_SEARCH_DVBS2:
freq_inc *= 4;
timeout = 25;
break;
case STV0900_AUTO_SEARCH:
default:
freq_inc *= 3;
timeout = 25;
break;
}
freq_inc /= 100;
if ((freq_inc > max_carrier) || (freq_inc < 0))
freq_inc = max_carrier / 2;
timeout *= 27500;
if (srate > 0)
timeout /= srate / 1000;
if ((timeout > 100) || (timeout < 0))
timeout = 100;
max_steps = (max_carrier / freq_inc) + 1;
if ((max_steps > 100) || (max_steps < 0)) {
max_steps = 100;
freq_inc = max_carrier / max_steps;
}
*frequency_inc = freq_inc;
*sw_timeout = timeout;
*steps = max_steps;
}
static int stv0900_search_carr_sw_loop(struct stv0900_internal *intp,
s32 FreqIncr, s32 Timeout, int zigzag,
s32 MaxStep, enum fe_stv0900_demod_num demod)
{
int no_signal,
lock = FALSE;
s32 stepCpt,
freqOffset,
max_carrier;
max_carrier = intp->srch_range[demod] / 1000;
max_carrier += (max_carrier / 10);
max_carrier = 65536 * (max_carrier / 2);
max_carrier /= intp->mclk / 1000;
if (max_carrier > 0x4000)
max_carrier = 0x4000;
if (zigzag == TRUE)
freqOffset = 0;
else
freqOffset = -max_carrier + FreqIncr;
stepCpt = 0;
do {
stv0900_write_reg(intp, DMDISTATE, 0x1c);
stv0900_write_reg(intp, CFRINIT1, (freqOffset / 256) & 0xff);
stv0900_write_reg(intp, CFRINIT0, freqOffset & 0xff);
stv0900_write_reg(intp, DMDISTATE, 0x18);
stv0900_write_bits(intp, ALGOSWRST, 1);
if (intp->chip_id == 0x12) {
stv0900_write_bits(intp, RST_HWARE, 1);
stv0900_write_bits(intp, RST_HWARE, 0);
}
if (zigzag == TRUE) {
if (freqOffset >= 0)
freqOffset = -freqOffset - 2 * FreqIncr;
else
freqOffset = -freqOffset;
} else
freqOffset += + 2 * FreqIncr;
stepCpt++;
lock = stv0900_get_demod_lock(intp, demod, Timeout);
no_signal = stv0900_check_signal_presence(intp, demod);
} while ((lock == FALSE)
&& (no_signal == FALSE)
&& ((freqOffset - FreqIncr) < max_carrier)
&& ((freqOffset + FreqIncr) > -max_carrier)
&& (stepCpt < MaxStep));
stv0900_write_bits(intp, ALGOSWRST, 0);
return lock;
}
static int stv0900_sw_algo(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod)
{
int lock = FALSE,
no_signal,
zigzag;
s32 s2fw,
fqc_inc,
sft_stp_tout,
trial_cntr,
max_steps;
stv0900_get_sw_loop_params(intp, &fqc_inc, &sft_stp_tout,
&max_steps, demod);
switch (intp->srch_standard[demod]) {
case STV0900_SEARCH_DVBS1:
case STV0900_SEARCH_DSS:
if (intp->chip_id >= 0x20)
stv0900_write_reg(intp, CARFREQ, 0x3b);
else
stv0900_write_reg(intp, CARFREQ, 0xef);
stv0900_write_reg(intp, DMDCFGMD, 0x49);
zigzag = FALSE;
break;
case STV0900_SEARCH_DVBS2:
if (intp->chip_id >= 0x20)
stv0900_write_reg(intp, CORRELABS, 0x79);
else
stv0900_write_reg(intp, CORRELABS, 0x68);
stv0900_write_reg(intp, DMDCFGMD, 0x89);
zigzag = TRUE;
break;
case STV0900_AUTO_SEARCH:
default:
if (intp->chip_id >= 0x20) {
stv0900_write_reg(intp, CARFREQ, 0x3b);
stv0900_write_reg(intp, CORRELABS, 0x79);
} else {
stv0900_write_reg(intp, CARFREQ, 0xef);
stv0900_write_reg(intp, CORRELABS, 0x68);
}
stv0900_write_reg(intp, DMDCFGMD, 0xc9);
zigzag = FALSE;
break;
}
trial_cntr = 0;
do {
lock = stv0900_search_carr_sw_loop(intp,
fqc_inc,
sft_stp_tout,
zigzag,
max_steps,
demod);
no_signal = stv0900_check_signal_presence(intp, demod);
trial_cntr++;
if ((lock == TRUE)
|| (no_signal == TRUE)
|| (trial_cntr == 2)) {
if (intp->chip_id >= 0x20) {
stv0900_write_reg(intp, CARFREQ, 0x49);
stv0900_write_reg(intp, CORRELABS, 0x9e);
} else {
stv0900_write_reg(intp, CARFREQ, 0xed);
stv0900_write_reg(intp, CORRELABS, 0x88);
}
if ((stv0900_get_bits(intp, HEADER_MODE) ==
STV0900_DVBS2_FOUND) &&
(lock == TRUE)) {
msleep(sft_stp_tout);
s2fw = stv0900_get_bits(intp, FLYWHEEL_CPT);
if (s2fw < 0xd) {
msleep(sft_stp_tout);
s2fw = stv0900_get_bits(intp,
FLYWHEEL_CPT);
}
if (s2fw < 0xd) {
lock = FALSE;
if (trial_cntr < 2) {
if (intp->chip_id >= 0x20)
stv0900_write_reg(intp,
CORRELABS,
0x79);
else
stv0900_write_reg(intp,
CORRELABS,
0x68);
stv0900_write_reg(intp,
DMDCFGMD,
0x89);
}
}
}
}
} while ((lock == FALSE)
&& (trial_cntr < 2)
&& (no_signal == FALSE));
return lock;
}
static u32 stv0900_get_symbol_rate(struct stv0900_internal *intp,
u32 mclk,
enum fe_stv0900_demod_num demod)
{
s32 rem1, rem2, intval1, intval2, srate;
srate = (stv0900_get_bits(intp, SYMB_FREQ3) << 24) +
(stv0900_get_bits(intp, SYMB_FREQ2) << 16) +
(stv0900_get_bits(intp, SYMB_FREQ1) << 8) +
(stv0900_get_bits(intp, SYMB_FREQ0));
dprintk("lock: srate=%d r0=0x%x r1=0x%x r2=0x%x r3=0x%x \n",
srate, stv0900_get_bits(intp, SYMB_FREQ0),
stv0900_get_bits(intp, SYMB_FREQ1),
stv0900_get_bits(intp, SYMB_FREQ2),
stv0900_get_bits(intp, SYMB_FREQ3));
intval1 = (mclk) >> 16;
intval2 = (srate) >> 16;
rem1 = (mclk) % 0x10000;
rem2 = (srate) % 0x10000;
srate = (intval1 * intval2) +
((intval1 * rem2) >> 16) +
((intval2 * rem1) >> 16);
return srate;
}
static void stv0900_set_symbol_rate(struct stv0900_internal *intp,
u32 mclk, u32 srate,
enum fe_stv0900_demod_num demod)
{
u32 symb;
dprintk("%s: Mclk %d, SR %d, Dmd %d\n", __func__, mclk,
srate, demod);
if (srate > 60000000) {
symb = srate << 4;
symb /= (mclk >> 12);
} else if (srate > 6000000) {
symb = srate << 6;
symb /= (mclk >> 10);
} else {
symb = srate << 9;
symb /= (mclk >> 7);
}
stv0900_write_reg(intp, SFRINIT1, (symb >> 8) & 0x7f);
stv0900_write_reg(intp, SFRINIT1 + 1, (symb & 0xff));
}
static void stv0900_set_max_symbol_rate(struct stv0900_internal *intp,
u32 mclk, u32 srate,
enum fe_stv0900_demod_num demod)
{
u32 symb;
srate = 105 * (srate / 100);
if (srate > 60000000) {
symb = srate << 4;
symb /= (mclk >> 12);
} else if (srate > 6000000) {
symb = srate << 6;
symb /= (mclk >> 10);
} else {
symb = srate << 9;
symb /= (mclk >> 7);
}
if (symb < 0x7fff) {
stv0900_write_reg(intp, SFRUP1, (symb >> 8) & 0x7f);
stv0900_write_reg(intp, SFRUP1 + 1, (symb & 0xff));
} else {
stv0900_write_reg(intp, SFRUP1, 0x7f);
stv0900_write_reg(intp, SFRUP1 + 1, 0xff);
}
}
static void stv0900_set_min_symbol_rate(struct stv0900_internal *intp,
u32 mclk, u32 srate,
enum fe_stv0900_demod_num demod)
{
u32 symb;
srate = 95 * (srate / 100);
if (srate > 60000000) {
symb = srate << 4;
symb /= (mclk >> 12);
} else if (srate > 6000000) {
symb = srate << 6;
symb /= (mclk >> 10);
} else {
symb = srate << 9;
symb /= (mclk >> 7);
}
stv0900_write_reg(intp, SFRLOW1, (symb >> 8) & 0xff);
stv0900_write_reg(intp, SFRLOW1 + 1, (symb & 0xff));
}
static s32 stv0900_get_timing_offst(struct stv0900_internal *intp,
u32 srate,
enum fe_stv0900_demod_num demod)
{
s32 timingoffset;
timingoffset = (stv0900_read_reg(intp, TMGREG2) << 16) +
(stv0900_read_reg(intp, TMGREG2 + 1) << 8) +
(stv0900_read_reg(intp, TMGREG2 + 2));
timingoffset = ge2comp(timingoffset, 24);
if (timingoffset == 0)
timingoffset = 1;
timingoffset = ((s32)srate * 10) / ((s32)0x1000000 / timingoffset);
timingoffset /= 320;
return timingoffset;
}
static void stv0900_set_dvbs2_rolloff(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod)
{
s32 rolloff;
if (intp->chip_id == 0x10) {
stv0900_write_bits(intp, MANUALSX_ROLLOFF, 1);
rolloff = stv0900_read_reg(intp, MATSTR1) & 0x03;
stv0900_write_bits(intp, ROLLOFF_CONTROL, rolloff);
} else if (intp->chip_id <= 0x20)
stv0900_write_bits(intp, MANUALSX_ROLLOFF, 0);
else /* cut 3.0 */
stv0900_write_bits(intp, MANUALS2_ROLLOFF, 0);
}
static u32 stv0900_carrier_width(u32 srate, enum fe_stv0900_rolloff ro)
{
u32 rolloff;
switch (ro) {
case STV0900_20:
rolloff = 20;
break;
case STV0900_25:
rolloff = 25;
break;
case STV0900_35:
default:
rolloff = 35;
break;
}
return srate + (srate * rolloff) / 100;
}
static int stv0900_check_timing_lock(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod)
{
int timingLock = FALSE;
s32 i,
timingcpt = 0;
u8 car_freq,
tmg_th_high,
tmg_th_low;
car_freq = stv0900_read_reg(intp, CARFREQ);
tmg_th_high = stv0900_read_reg(intp, TMGTHRISE);
tmg_th_low = stv0900_read_reg(intp, TMGTHFALL);
stv0900_write_reg(intp, TMGTHRISE, 0x20);
stv0900_write_reg(intp, TMGTHFALL, 0x0);
stv0900_write_bits(intp, CFR_AUTOSCAN, 0);
stv0900_write_reg(intp, RTC, 0x80);
stv0900_write_reg(intp, RTCS2, 0x40);
stv0900_write_reg(intp, CARFREQ, 0x0);
stv0900_write_reg(intp, CFRINIT1, 0x0);
stv0900_write_reg(intp, CFRINIT0, 0x0);
stv0900_write_reg(intp, AGC2REF, 0x65);
stv0900_write_reg(intp, DMDISTATE, 0x18);
msleep(7);
for (i = 0; i < 10; i++) {
if (stv0900_get_bits(intp, TMGLOCK_QUALITY) >= 2)
timingcpt++;
msleep(1);
}
if (timingcpt >= 3)
timingLock = TRUE;
stv0900_write_reg(intp, AGC2REF, 0x38);
stv0900_write_reg(intp, RTC, 0x88);
stv0900_write_reg(intp, RTCS2, 0x68);
stv0900_write_reg(intp, CARFREQ, car_freq);
stv0900_write_reg(intp, TMGTHRISE, tmg_th_high);
stv0900_write_reg(intp, TMGTHFALL, tmg_th_low);
return timingLock;
}
static int stv0900_get_demod_cold_lock(struct dvb_frontend *fe,
s32 demod_timeout)
{
struct stv0900_state *state = fe->demodulator_priv;
struct stv0900_internal *intp = state->internal;
enum fe_stv0900_demod_num demod = state->demod;
int lock = FALSE,
d = demod;
s32 srate,
search_range,
locktimeout,
currier_step,
nb_steps,
current_step,
direction,
tuner_freq,
timeout,
freq;
srate = intp->symbol_rate[d];
search_range = intp->srch_range[d];
if (srate >= 10000000)
locktimeout = demod_timeout / 3;
else
locktimeout = demod_timeout / 2;
lock = stv0900_get_demod_lock(intp, d, locktimeout);
if (lock != FALSE)
return lock;
if (srate >= 10000000) {
if (stv0900_check_timing_lock(intp, d) == TRUE) {
stv0900_write_reg(intp, DMDISTATE, 0x1f);
stv0900_write_reg(intp, DMDISTATE, 0x15);
lock = stv0900_get_demod_lock(intp, d, demod_timeout);
} else
lock = FALSE;
return lock;
}
if (intp->chip_id <= 0x20) {
if (srate <= 1000000)
currier_step = 500;
else if (srate <= 4000000)
currier_step = 1000;
else if (srate <= 7000000)
currier_step = 2000;
else if (srate <= 10000000)
currier_step = 3000;
else
currier_step = 5000;
if (srate >= 2000000) {
timeout = (demod_timeout / 3);
if (timeout > 1000)
timeout = 1000;
} else
timeout = (demod_timeout / 2);
} else {
/*cut 3.0 */
currier_step = srate / 4000;
timeout = (demod_timeout * 3) / 4;
}
nb_steps = ((search_range / 1000) / currier_step);
if ((nb_steps % 2) != 0)
nb_steps += 1;
if (nb_steps <= 0)
nb_steps = 2;
else if (nb_steps > 12)
nb_steps = 12;
current_step = 1;
direction = 1;
if (intp->chip_id <= 0x20) {
tuner_freq = intp->freq[d];
intp->bw[d] = stv0900_carrier_width(intp->symbol_rate[d],
intp->rolloff) + intp->symbol_rate[d];
} else
tuner_freq = 0;
while ((current_step <= nb_steps) && (lock == FALSE)) {
if (direction > 0)
tuner_freq += (current_step * currier_step);
else
tuner_freq -= (current_step * currier_step);
if (intp->chip_id <= 0x20) {
if (intp->tuner_type[d] == 3)
stv0900_set_tuner_auto(intp, tuner_freq,
intp->bw[d], demod);
else
stv0900_set_tuner(fe, tuner_freq, intp->bw[d]);
stv0900_write_reg(intp, DMDISTATE, 0x1c);
stv0900_write_reg(intp, CFRINIT1, 0);
stv0900_write_reg(intp, CFRINIT0, 0);
stv0900_write_reg(intp, DMDISTATE, 0x1f);
stv0900_write_reg(intp, DMDISTATE, 0x15);
} else {
stv0900_write_reg(intp, DMDISTATE, 0x1c);
freq = (tuner_freq * 65536) / (intp->mclk / 1000);
stv0900_write_bits(intp, CFR_INIT1, MSB(freq));
stv0900_write_bits(intp, CFR_INIT0, LSB(freq));
stv0900_write_reg(intp, DMDISTATE, 0x1f);
stv0900_write_reg(intp, DMDISTATE, 0x05);
}
lock = stv0900_get_demod_lock(intp, d, timeout);
direction *= -1;
current_step++;
}
return lock;
}
static void stv0900_get_lock_timeout(s32 *demod_timeout, s32 *fec_timeout,
s32 srate,
enum fe_stv0900_search_algo algo)
{
switch (algo) {
case STV0900_BLIND_SEARCH:
if (srate <= 1500000) {
(*demod_timeout) = 1500;
(*fec_timeout) = 400;
} else if (srate <= 5000000) {
(*demod_timeout) = 1000;
(*fec_timeout) = 300;
} else {
(*demod_timeout) = 700;
(*fec_timeout) = 100;
}
break;
case STV0900_COLD_START:
case STV0900_WARM_START:
default:
if (srate <= 1000000) {
(*demod_timeout) = 3000;
(*fec_timeout) = 1700;
} else if (srate <= 2000000) {
(*demod_timeout) = 2500;
(*fec_timeout) = 1100;
} else if (srate <= 5000000) {
(*demod_timeout) = 1000;
(*fec_timeout) = 550;
} else if (srate <= 10000000) {
(*demod_timeout) = 700;
(*fec_timeout) = 250;
} else if (srate <= 20000000) {
(*demod_timeout) = 400;
(*fec_timeout) = 130;
} else {
(*demod_timeout) = 300;
(*fec_timeout) = 100;
}
break;
}
if (algo == STV0900_WARM_START)
(*demod_timeout) /= 2;
}
static void stv0900_set_viterbi_tracq(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod)
{
s32 vth_reg = VTH12;
dprintk("%s\n", __func__);
stv0900_write_reg(intp, vth_reg++, 0xd0);
stv0900_write_reg(intp, vth_reg++, 0x7d);
stv0900_write_reg(intp, vth_reg++, 0x53);
stv0900_write_reg(intp, vth_reg++, 0x2f);
stv0900_write_reg(intp, vth_reg++, 0x24);
stv0900_write_reg(intp, vth_reg++, 0x1f);
}
static void stv0900_set_viterbi_standard(struct stv0900_internal *intp,
enum fe_stv0900_search_standard standard,
enum fe_stv0900_fec fec,
enum fe_stv0900_demod_num demod)
{
dprintk("%s: ViterbiStandard = ", __func__);
switch (standard) {
case STV0900_AUTO_SEARCH:
dprintk("Auto\n");
stv0900_write_reg(intp, FECM, 0x10);
stv0900_write_reg(intp, PRVIT, 0x3f);
break;
case STV0900_SEARCH_DVBS1:
dprintk("DVBS1\n");
stv0900_write_reg(intp, FECM, 0x00);
switch (fec) {
case STV0900_FEC_UNKNOWN:
default:
stv0900_write_reg(intp, PRVIT, 0x2f);
break;
case STV0900_FEC_1_2:
stv0900_write_reg(intp, PRVIT, 0x01);
break;
case STV0900_FEC_2_3:
stv0900_write_reg(intp, PRVIT, 0x02);
break;
case STV0900_FEC_3_4:
stv0900_write_reg(intp, PRVIT, 0x04);
break;
case STV0900_FEC_5_6:
stv0900_write_reg(intp, PRVIT, 0x08);
break;
case STV0900_FEC_7_8:
stv0900_write_reg(intp, PRVIT, 0x20);
break;
}
break;
case STV0900_SEARCH_DSS:
dprintk("DSS\n");
stv0900_write_reg(intp, FECM, 0x80);
switch (fec) {
case STV0900_FEC_UNKNOWN:
default:
stv0900_write_reg(intp, PRVIT, 0x13);
break;
case STV0900_FEC_1_2:
stv0900_write_reg(intp, PRVIT, 0x01);
break;
case STV0900_FEC_2_3:
stv0900_write_reg(intp, PRVIT, 0x02);
break;
case STV0900_FEC_6_7:
stv0900_write_reg(intp, PRVIT, 0x10);
break;
}
break;
default:
break;
}
}
static enum fe_stv0900_fec stv0900_get_vit_fec(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod)
{
enum fe_stv0900_fec prate;
s32 rate_fld = stv0900_get_bits(intp, VIT_CURPUN);
switch (rate_fld) {
case 13:
prate = STV0900_FEC_1_2;
break;
case 18:
prate = STV0900_FEC_2_3;
break;
case 21:
prate = STV0900_FEC_3_4;
break;
case 24:
prate = STV0900_FEC_5_6;
break;
case 25:
prate = STV0900_FEC_6_7;
break;
case 26:
prate = STV0900_FEC_7_8;
break;
default:
prate = STV0900_FEC_UNKNOWN;
break;
}
return prate;
}
static void stv0900_set_dvbs1_track_car_loop(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod,
u32 srate)
{
if (intp->chip_id >= 0x30) {
if (srate >= 15000000) {
stv0900_write_reg(intp, ACLC, 0x2b);
stv0900_write_reg(intp, BCLC, 0x1a);
} else if ((srate >= 7000000) && (15000000 > srate)) {
stv0900_write_reg(intp, ACLC, 0x0c);
stv0900_write_reg(intp, BCLC, 0x1b);
} else if (srate < 7000000) {
stv0900_write_reg(intp, ACLC, 0x2c);
stv0900_write_reg(intp, BCLC, 0x1c);
}
} else { /*cut 2.0 and 1.x*/
stv0900_write_reg(intp, ACLC, 0x1a);
stv0900_write_reg(intp, BCLC, 0x09);
}
}
static void stv0900_track_optimization(struct dvb_frontend *fe)
{
struct stv0900_state *state = fe->demodulator_priv;
struct stv0900_internal *intp = state->internal;
enum fe_stv0900_demod_num demod = state->demod;
s32 srate,
pilots,
aclc,
freq1,
freq0,
i = 0,
timed,
timef,
blind_tun_sw = 0,
modulation;
enum fe_stv0900_modcode foundModcod;
dprintk("%s\n", __func__);
srate = stv0900_get_symbol_rate(intp, intp->mclk, demod);
srate += stv0900_get_timing_offst(intp, srate, demod);
switch (intp->result[demod].standard) {
case STV0900_DVBS1_STANDARD:
case STV0900_DSS_STANDARD:
dprintk("%s: found DVB-S or DSS\n", __func__);
if (intp->srch_standard[demod] == STV0900_AUTO_SEARCH) {
stv0900_write_bits(intp, DVBS1_ENABLE, 1);
stv0900_write_bits(intp, DVBS2_ENABLE, 0);
}
stv0900_write_bits(intp, ROLLOFF_CONTROL, intp->rolloff);
stv0900_write_bits(intp, MANUALSX_ROLLOFF, 1);
if (intp->chip_id < 0x30) {
stv0900_write_reg(intp, ERRCTRL1, 0x75);
break;
}
if (stv0900_get_vit_fec(intp, demod) == STV0900_FEC_1_2) {
stv0900_write_reg(intp, GAUSSR0, 0x98);
stv0900_write_reg(intp, CCIR0, 0x18);
} else {
stv0900_write_reg(intp, GAUSSR0, 0x18);
stv0900_write_reg(intp, CCIR0, 0x18);
}
stv0900_write_reg(intp, ERRCTRL1, 0x75);
break;
case STV0900_DVBS2_STANDARD:
dprintk("%s: found DVB-S2\n", __func__);
stv0900_write_bits(intp, DVBS1_ENABLE, 0);
stv0900_write_bits(intp, DVBS2_ENABLE, 1);
stv0900_write_reg(intp, ACLC, 0);
stv0900_write_reg(intp, BCLC, 0);
if (intp->result[demod].frame_len == STV0900_LONG_FRAME) {
foundModcod = stv0900_get_bits(intp, DEMOD_MODCOD);
pilots = stv0900_get_bits(intp, DEMOD_TYPE) & 0x01;
aclc = stv0900_get_optim_carr_loop(srate,
foundModcod,
pilots,
intp->chip_id);
if (foundModcod <= STV0900_QPSK_910)
stv0900_write_reg(intp, ACLC2S2Q, aclc);
else if (foundModcod <= STV0900_8PSK_910) {
stv0900_write_reg(intp, ACLC2S2Q, 0x2a);
stv0900_write_reg(intp, ACLC2S28, aclc);
}
if ((intp->demod_mode == STV0900_SINGLE) &&
(foundModcod > STV0900_8PSK_910)) {
if (foundModcod <= STV0900_16APSK_910) {
stv0900_write_reg(intp, ACLC2S2Q, 0x2a);
stv0900_write_reg(intp, ACLC2S216A,
aclc);
} else if (foundModcod <= STV0900_32APSK_910) {
stv0900_write_reg(intp, ACLC2S2Q, 0x2a);
stv0900_write_reg(intp, ACLC2S232A,
aclc);
}
}
} else {
modulation = intp->result[demod].modulation;
aclc = stv0900_get_optim_short_carr_loop(srate,
modulation, intp->chip_id);
if (modulation == STV0900_QPSK)
stv0900_write_reg(intp, ACLC2S2Q, aclc);
else if (modulation == STV0900_8PSK) {
stv0900_write_reg(intp, ACLC2S2Q, 0x2a);
stv0900_write_reg(intp, ACLC2S28, aclc);
} else if (modulation == STV0900_16APSK) {
stv0900_write_reg(intp, ACLC2S2Q, 0x2a);
stv0900_write_reg(intp, ACLC2S216A, aclc);
} else if (modulation == STV0900_32APSK) {
stv0900_write_reg(intp, ACLC2S2Q, 0x2a);
stv0900_write_reg(intp, ACLC2S232A, aclc);
}
}
if (intp->chip_id <= 0x11) {
if (intp->demod_mode != STV0900_SINGLE)
stv0900_activate_s2_modcod(intp, demod);
}
stv0900_write_reg(intp, ERRCTRL1, 0x67);
break;
case STV0900_UNKNOWN_STANDARD:
default:
dprintk("%s: found unknown standard\n", __func__);
stv0900_write_bits(intp, DVBS1_ENABLE, 1);
stv0900_write_bits(intp, DVBS2_ENABLE, 1);
break;
}
freq1 = stv0900_read_reg(intp, CFR2);
freq0 = stv0900_read_reg(intp, CFR1);
if (intp->srch_algo[demod] == STV0900_BLIND_SEARCH) {
stv0900_write_reg(intp, SFRSTEP, 0x00);
stv0900_write_bits(intp, SCAN_ENABLE, 0);
stv0900_write_bits(intp, CFR_AUTOSCAN, 0);
stv0900_write_reg(intp, TMGCFG2, 0xc1);
stv0900_set_symbol_rate(intp, intp->mclk, srate, demod);
blind_tun_sw = 1;
if (intp->result[demod].standard != STV0900_DVBS2_STANDARD)
stv0900_set_dvbs1_track_car_loop(intp, demod, srate);
}
if (intp->chip_id >= 0x20) {
if ((intp->srch_standard[demod] == STV0900_SEARCH_DVBS1) ||
(intp->srch_standard[demod] ==
STV0900_SEARCH_DSS) ||
(intp->srch_standard[demod] ==
STV0900_AUTO_SEARCH)) {
stv0900_write_reg(intp, VAVSRVIT, 0x0a);
stv0900_write_reg(intp, VITSCALE, 0x0);
}
}
if (intp->chip_id < 0x20)
stv0900_write_reg(intp, CARHDR, 0x08);
if (intp->chip_id == 0x10)
stv0900_write_reg(intp, CORRELEXP, 0x0a);
stv0900_write_reg(intp, AGC2REF, 0x38);
if ((intp->chip_id >= 0x20) ||
(blind_tun_sw == 1) ||
(intp->symbol_rate[demod] < 10000000)) {
stv0900_write_reg(intp, CFRINIT1, freq1);
stv0900_write_reg(intp, CFRINIT0, freq0);
intp->bw[demod] = stv0900_carrier_width(srate,
intp->rolloff) + 10000000;
if ((intp->chip_id >= 0x20) || (blind_tun_sw == 1)) {
if (intp->srch_algo[demod] != STV0900_WARM_START) {
if (intp->tuner_type[demod] == 3)
stv0900_set_tuner_auto(intp,
intp->freq[demod],
intp->bw[demod],
demod);
else
stv0900_set_bandwidth(fe,
intp->bw[demod]);
}
}
if ((intp->srch_algo[demod] == STV0900_BLIND_SEARCH) ||
(intp->symbol_rate[demod] < 10000000))
msleep(50);
else
msleep(5);
stv0900_get_lock_timeout(&timed, &timef, srate,
STV0900_WARM_START);
if (stv0900_get_demod_lock(intp, demod, timed / 2) == FALSE) {
stv0900_write_reg(intp, DMDISTATE, 0x1f);
stv0900_write_reg(intp, CFRINIT1, freq1);
stv0900_write_reg(intp, CFRINIT0, freq0);
stv0900_write_reg(intp, DMDISTATE, 0x18);
i = 0;
while ((stv0900_get_demod_lock(intp,
demod,
timed / 2) == FALSE) &&
(i <= 2)) {
stv0900_write_reg(intp, DMDISTATE, 0x1f);
stv0900_write_reg(intp, CFRINIT1, freq1);
stv0900_write_reg(intp, CFRINIT0, freq0);
stv0900_write_reg(intp, DMDISTATE, 0x18);
i++;
}
}
}
if (intp->chip_id >= 0x20)
stv0900_write_reg(intp, CARFREQ, 0x49);
if ((intp->result[demod].standard == STV0900_DVBS1_STANDARD) ||
(intp->result[demod].standard == STV0900_DSS_STANDARD))
stv0900_set_viterbi_tracq(intp, demod);
}
static int stv0900_get_fec_lock(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod, s32 time_out)
{
s32 timer = 0, lock = 0;
enum fe_stv0900_search_state dmd_state;
dprintk("%s\n", __func__);
dmd_state = stv0900_get_bits(intp, HEADER_MODE);
while ((timer < time_out) && (lock == 0)) {
switch (dmd_state) {
case STV0900_SEARCH:
case STV0900_PLH_DETECTED:
default:
lock = 0;
break;
case STV0900_DVBS2_FOUND:
lock = stv0900_get_bits(intp, PKTDELIN_LOCK);
break;
case STV0900_DVBS_FOUND:
lock = stv0900_get_bits(intp, LOCKEDVIT);
break;
}
if (lock == 0) {
msleep(10);
timer += 10;
}
}
if (lock)
dprintk("%s: DEMOD FEC LOCK OK\n", __func__);
else
dprintk("%s: DEMOD FEC LOCK FAIL\n", __func__);
return lock;
}
static int stv0900_wait_for_lock(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod,
s32 dmd_timeout, s32 fec_timeout)
{
s32 timer = 0, lock = 0;
dprintk("%s\n", __func__);
lock = stv0900_get_demod_lock(intp, demod, dmd_timeout);
if (lock)
lock = lock && stv0900_get_fec_lock(intp, demod, fec_timeout);
if (lock) {
lock = 0;
dprintk("%s: Timer = %d, time_out = %d\n",
__func__, timer, fec_timeout);
while ((timer < fec_timeout) && (lock == 0)) {
lock = stv0900_get_bits(intp, TSFIFO_LINEOK);
msleep(1);
timer++;
}
}
if (lock)
dprintk("%s: DEMOD LOCK OK\n", __func__);
else
dprintk("%s: DEMOD LOCK FAIL\n", __func__);
if (lock)
return TRUE;
else
return FALSE;
}
enum fe_stv0900_tracking_standard stv0900_get_standard(struct dvb_frontend *fe,
enum fe_stv0900_demod_num demod)
{
struct stv0900_state *state = fe->demodulator_priv;
struct stv0900_internal *intp = state->internal;
enum fe_stv0900_tracking_standard fnd_standard;
int hdr_mode = stv0900_get_bits(intp, HEADER_MODE);
switch (hdr_mode) {
case 2:
fnd_standard = STV0900_DVBS2_STANDARD;
break;
case 3:
if (stv0900_get_bits(intp, DSS_DVB) == 1)
fnd_standard = STV0900_DSS_STANDARD;
else
fnd_standard = STV0900_DVBS1_STANDARD;
break;
default:
fnd_standard = STV0900_UNKNOWN_STANDARD;
}
dprintk("%s: standard %d\n", __func__, fnd_standard);
return fnd_standard;
}
static s32 stv0900_get_carr_freq(struct stv0900_internal *intp, u32 mclk,
enum fe_stv0900_demod_num demod)
{
s32 derot,
rem1,
rem2,
intval1,
intval2;
derot = (stv0900_get_bits(intp, CAR_FREQ2) << 16) +
(stv0900_get_bits(intp, CAR_FREQ1) << 8) +
(stv0900_get_bits(intp, CAR_FREQ0));
derot = ge2comp(derot, 24);
intval1 = mclk >> 12;
intval2 = derot >> 12;
rem1 = mclk % 0x1000;
rem2 = derot % 0x1000;
derot = (intval1 * intval2) +
((intval1 * rem2) >> 12) +
((intval2 * rem1) >> 12);
return derot;
}
static u32 stv0900_get_tuner_freq(struct dvb_frontend *fe)
{
struct dvb_frontend_ops *frontend_ops = NULL;
struct dvb_tuner_ops *tuner_ops = NULL;
u32 freq = 0;
frontend_ops = &fe->ops;
tuner_ops = &frontend_ops->tuner_ops;
if (tuner_ops->get_frequency) {
if ((tuner_ops->get_frequency(fe, &freq)) < 0)
dprintk("%s: Invalid parameter\n", __func__);
else
dprintk("%s: Frequency=%d\n", __func__, freq);
}
return freq;
}
static enum
fe_stv0900_signal_type stv0900_get_signal_params(struct dvb_frontend *fe)
{
struct stv0900_state *state = fe->demodulator_priv;
struct stv0900_internal *intp = state->internal;
enum fe_stv0900_demod_num demod = state->demod;
enum fe_stv0900_signal_type range = STV0900_OUTOFRANGE;
struct stv0900_signal_info *result = &intp->result[demod];
s32 offsetFreq,
srate_offset;
int i = 0,
d = demod;
u8 timing;
msleep(5);
if (intp->srch_algo[d] == STV0900_BLIND_SEARCH) {
timing = stv0900_read_reg(intp, TMGREG2);
i = 0;
stv0900_write_reg(intp, SFRSTEP, 0x5c);
while ((i <= 50) && (timing != 0) && (timing != 0xff)) {
timing = stv0900_read_reg(intp, TMGREG2);
msleep(5);
i += 5;
}
}
result->standard = stv0900_get_standard(fe, d);
if (intp->tuner_type[demod] == 3)
result->frequency = stv0900_get_freq_auto(intp, d);
else
result->frequency = stv0900_get_tuner_freq(fe);
offsetFreq = stv0900_get_carr_freq(intp, intp->mclk, d) / 1000;
result->frequency += offsetFreq;
result->symbol_rate = stv0900_get_symbol_rate(intp, intp->mclk, d);
srate_offset = stv0900_get_timing_offst(intp, result->symbol_rate, d);
result->symbol_rate += srate_offset;
result->fec = stv0900_get_vit_fec(intp, d);
result->modcode = stv0900_get_bits(intp, DEMOD_MODCOD);
result->pilot = stv0900_get_bits(intp, DEMOD_TYPE) & 0x01;
result->frame_len = ((u32)stv0900_get_bits(intp, DEMOD_TYPE)) >> 1;
result->rolloff = stv0900_get_bits(intp, ROLLOFF_STATUS);
dprintk("%s: modcode=0x%x \n", __func__, result->modcode);
switch (result->standard) {
case STV0900_DVBS2_STANDARD:
result->spectrum = stv0900_get_bits(intp, SPECINV_DEMOD);
if (result->modcode <= STV0900_QPSK_910)
result->modulation = STV0900_QPSK;
else if (result->modcode <= STV0900_8PSK_910)
result->modulation = STV0900_8PSK;
else if (result->modcode <= STV0900_16APSK_910)
result->modulation = STV0900_16APSK;
else if (result->modcode <= STV0900_32APSK_910)
result->modulation = STV0900_32APSK;
else
result->modulation = STV0900_UNKNOWN;
break;
case STV0900_DVBS1_STANDARD:
case STV0900_DSS_STANDARD:
result->spectrum = stv0900_get_bits(intp, IQINV);
result->modulation = STV0900_QPSK;
break;
default:
break;
}
if ((intp->srch_algo[d] == STV0900_BLIND_SEARCH) ||
(intp->symbol_rate[d] < 10000000)) {
offsetFreq = result->frequency - intp->freq[d];
if (intp->tuner_type[demod] == 3)
intp->freq[d] = stv0900_get_freq_auto(intp, d);
else
intp->freq[d] = stv0900_get_tuner_freq(fe);
if (ABS(offsetFreq) <= ((intp->srch_range[d] / 2000) + 500))
range = STV0900_RANGEOK;
else if (ABS(offsetFreq) <=
(stv0900_carrier_width(result->symbol_rate,
result->rolloff) / 2000))
range = STV0900_RANGEOK;
} else if (ABS(offsetFreq) <= ((intp->srch_range[d] / 2000) + 500))
range = STV0900_RANGEOK;
dprintk("%s: range %d\n", __func__, range);
return range;
}
static enum
fe_stv0900_signal_type stv0900_dvbs1_acq_workaround(struct dvb_frontend *fe)
{
struct stv0900_state *state = fe->demodulator_priv;
struct stv0900_internal *intp = state->internal;
enum fe_stv0900_demod_num demod = state->demod;
enum fe_stv0900_signal_type signal_type = STV0900_NODATA;
s32 srate,
demod_timeout,
fec_timeout,
freq1,
freq0;
intp->result[demod].locked = FALSE;
if (stv0900_get_bits(intp, HEADER_MODE) == STV0900_DVBS_FOUND) {
srate = stv0900_get_symbol_rate(intp, intp->mclk, demod);
srate += stv0900_get_timing_offst(intp, srate, demod);
if (intp->srch_algo[demod] == STV0900_BLIND_SEARCH)
stv0900_set_symbol_rate(intp, intp->mclk, srate, demod);
stv0900_get_lock_timeout(&demod_timeout, &fec_timeout,
srate, STV0900_WARM_START);
freq1 = stv0900_read_reg(intp, CFR2);
freq0 = stv0900_read_reg(intp, CFR1);
stv0900_write_bits(intp, CFR_AUTOSCAN, 0);
stv0900_write_bits(intp, SPECINV_CONTROL,
STV0900_IQ_FORCE_SWAPPED);
stv0900_write_reg(intp, DMDISTATE, 0x1c);
stv0900_write_reg(intp, CFRINIT1, freq1);
stv0900_write_reg(intp, CFRINIT0, freq0);
stv0900_write_reg(intp, DMDISTATE, 0x18);
if (stv0900_wait_for_lock(intp, demod,
demod_timeout, fec_timeout) == TRUE) {
intp->result[demod].locked = TRUE;
signal_type = stv0900_get_signal_params(fe);
stv0900_track_optimization(fe);
} else {
stv0900_write_bits(intp, SPECINV_CONTROL,
STV0900_IQ_FORCE_NORMAL);
stv0900_write_reg(intp, DMDISTATE, 0x1c);
stv0900_write_reg(intp, CFRINIT1, freq1);
stv0900_write_reg(intp, CFRINIT0, freq0);
stv0900_write_reg(intp, DMDISTATE, 0x18);
if (stv0900_wait_for_lock(intp, demod,
demod_timeout, fec_timeout) == TRUE) {
intp->result[demod].locked = TRUE;
signal_type = stv0900_get_signal_params(fe);
stv0900_track_optimization(fe);
}
}
} else
intp->result[demod].locked = FALSE;
return signal_type;
}
static u16 stv0900_blind_check_agc2_min_level(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod)
{
u32 minagc2level = 0xffff,
agc2level,
init_freq, freq_step;
s32 i, j, nb_steps, direction;
dprintk("%s\n", __func__);
stv0900_write_reg(intp, AGC2REF, 0x38);
stv0900_write_bits(intp, SCAN_ENABLE, 0);
stv0900_write_bits(intp, CFR_AUTOSCAN, 0);
stv0900_write_bits(intp, AUTO_GUP, 1);
stv0900_write_bits(intp, AUTO_GLOW, 1);
stv0900_write_reg(intp, DMDT0M, 0x0);
stv0900_set_symbol_rate(intp, intp->mclk, 1000000, demod);
nb_steps = -1 + (intp->srch_range[demod] / 1000000);
nb_steps /= 2;
nb_steps = (2 * nb_steps) + 1;
if (nb_steps < 0)
nb_steps = 1;
direction = 1;
freq_step = (1000000 << 8) / (intp->mclk >> 8);
init_freq = 0;
for (i = 0; i < nb_steps; i++) {
if (direction > 0)
init_freq = init_freq + (freq_step * i);
else
init_freq = init_freq - (freq_step * i);
direction *= -1;
stv0900_write_reg(intp, DMDISTATE, 0x5C);
stv0900_write_reg(intp, CFRINIT1, (init_freq >> 8) & 0xff);
stv0900_write_reg(intp, CFRINIT0, init_freq & 0xff);
stv0900_write_reg(intp, DMDISTATE, 0x58);
msleep(10);
agc2level = 0;
for (j = 0; j < 10; j++)
agc2level += (stv0900_read_reg(intp, AGC2I1) << 8)
| stv0900_read_reg(intp, AGC2I0);
agc2level /= 10;
if (agc2level < minagc2level)
minagc2level = agc2level;
}
return (u16)minagc2level;
}
static u32 stv0900_search_srate_coarse(struct dvb_frontend *fe)
{
struct stv0900_state *state = fe->demodulator_priv;
struct stv0900_internal *intp = state->internal;
enum fe_stv0900_demod_num demod = state->demod;
int timing_lck = FALSE;
s32 i, timingcpt = 0,
direction = 1,
nb_steps,
current_step = 0,
tuner_freq;
u32 agc2_th,
coarse_srate = 0,
agc2_integr = 0,
currier_step = 1200;
if (intp->chip_id >= 0x30)
agc2_th = 0x2e00;
else
agc2_th = 0x1f00;
stv0900_write_bits(intp, DEMOD_MODE, 0x1f);
stv0900_write_reg(intp, TMGCFG, 0x12);
stv0900_write_reg(intp, TMGTHRISE, 0xf0);
stv0900_write_reg(intp, TMGTHFALL, 0xe0);
stv0900_write_bits(intp, SCAN_ENABLE, 1);
stv0900_write_bits(intp, CFR_AUTOSCAN, 1);
stv0900_write_reg(intp, SFRUP1, 0x83);
stv0900_write_reg(intp, SFRUP0, 0xc0);
stv0900_write_reg(intp, SFRLOW1, 0x82);
stv0900_write_reg(intp, SFRLOW0, 0xa0);
stv0900_write_reg(intp, DMDT0M, 0x0);
stv0900_write_reg(intp, AGC2REF, 0x50);
if (intp->chip_id >= 0x30) {
stv0900_write_reg(intp, CARFREQ, 0x99);
stv0900_write_reg(intp, SFRSTEP, 0x98);
} else if (intp->chip_id >= 0x20) {
stv0900_write_reg(intp, CARFREQ, 0x6a);
stv0900_write_reg(intp, SFRSTEP, 0x95);
} else {
stv0900_write_reg(intp, CARFREQ, 0xed);
stv0900_write_reg(intp, SFRSTEP, 0x73);
}
if (intp->symbol_rate[demod] <= 2000000)
currier_step = 1000;
else if (intp->symbol_rate[demod] <= 5000000)
currier_step = 2000;
else if (intp->symbol_rate[demod] <= 12000000)
currier_step = 3000;
else
currier_step = 5000;
nb_steps = -1 + ((intp->srch_range[demod] / 1000) / currier_step);
nb_steps /= 2;
nb_steps = (2 * nb_steps) + 1;
if (nb_steps < 0)
nb_steps = 1;
else if (nb_steps > 10) {
nb_steps = 11;
currier_step = (intp->srch_range[demod] / 1000) / 10;
}
current_step = 0;
direction = 1;
tuner_freq = intp->freq[demod];
while ((timing_lck == FALSE) && (current_step < nb_steps)) {
stv0900_write_reg(intp, DMDISTATE, 0x5f);
stv0900_write_bits(intp, DEMOD_MODE, 0);
msleep(50);
for (i = 0; i < 10; i++) {
if (stv0900_get_bits(intp, TMGLOCK_QUALITY) >= 2)
timingcpt++;
agc2_integr += (stv0900_read_reg(intp, AGC2I1) << 8) |
stv0900_read_reg(intp, AGC2I0);
}
agc2_integr /= 10;
coarse_srate = stv0900_get_symbol_rate(intp, intp->mclk, demod);
current_step++;
direction *= -1;
dprintk("lock: I2C_DEMOD_MODE_FIELD =0. Search started."
" tuner freq=%d agc2=0x%x srate_coarse=%d tmg_cpt=%d\n",
tuner_freq, agc2_integr, coarse_srate, timingcpt);
if ((timingcpt >= 5) &&
(agc2_integr < agc2_th) &&
(coarse_srate < 55000000) &&
(coarse_srate > 850000))
timing_lck = TRUE;
else if (current_step < nb_steps) {
if (direction > 0)
tuner_freq += (current_step * currier_step);
else
tuner_freq -= (current_step * currier_step);
if (intp->tuner_type[demod] == 3)
stv0900_set_tuner_auto(intp, tuner_freq,
intp->bw[demod], demod);
else
stv0900_set_tuner(fe, tuner_freq,
intp->bw[demod]);
}
}
if (timing_lck == FALSE)
coarse_srate = 0;
else
coarse_srate = stv0900_get_symbol_rate(intp, intp->mclk, demod);
return coarse_srate;
}
static u32 stv0900_search_srate_fine(struct dvb_frontend *fe)
{
struct stv0900_state *state = fe->demodulator_priv;
struct stv0900_internal *intp = state->internal;
enum fe_stv0900_demod_num demod = state->demod;
u32 coarse_srate,
coarse_freq,
symb,
symbmax,
symbmin,
symbcomp;
coarse_srate = stv0900_get_symbol_rate(intp, intp->mclk, demod);
if (coarse_srate > 3000000) {
symbmax = 13 * (coarse_srate / 10);
symbmax = (symbmax / 1000) * 65536;
symbmax /= (intp->mclk / 1000);
symbmin = 10 * (coarse_srate / 13);
symbmin = (symbmin / 1000)*65536;
symbmin /= (intp->mclk / 1000);
symb = (coarse_srate / 1000) * 65536;
symb /= (intp->mclk / 1000);
} else {
symbmax = 13 * (coarse_srate / 10);
symbmax = (symbmax / 100) * 65536;
symbmax /= (intp->mclk / 100);
symbmin = 10 * (coarse_srate / 14);
symbmin = (symbmin / 100) * 65536;
symbmin /= (intp->mclk / 100);
symb = (coarse_srate / 100) * 65536;
symb /= (intp->mclk / 100);
}
symbcomp = 13 * (coarse_srate / 10);
coarse_freq = (stv0900_read_reg(intp, CFR2) << 8)
| stv0900_read_reg(intp, CFR1);
if (symbcomp < intp->symbol_rate[demod])
coarse_srate = 0;
else {
stv0900_write_reg(intp, DMDISTATE, 0x1f);
stv0900_write_reg(intp, TMGCFG2, 0xc1);
stv0900_write_reg(intp, TMGTHRISE, 0x20);
stv0900_write_reg(intp, TMGTHFALL, 0x00);
stv0900_write_reg(intp, TMGCFG, 0xd2);
stv0900_write_bits(intp, CFR_AUTOSCAN, 0);
stv0900_write_reg(intp, AGC2REF, 0x38);
if (intp->chip_id >= 0x30)
stv0900_write_reg(intp, CARFREQ, 0x79);
else if (intp->chip_id >= 0x20)
stv0900_write_reg(intp, CARFREQ, 0x49);
else
stv0900_write_reg(intp, CARFREQ, 0xed);
stv0900_write_reg(intp, SFRUP1, (symbmax >> 8) & 0x7f);
stv0900_write_reg(intp, SFRUP0, (symbmax & 0xff));
stv0900_write_reg(intp, SFRLOW1, (symbmin >> 8) & 0x7f);
stv0900_write_reg(intp, SFRLOW0, (symbmin & 0xff));
stv0900_write_reg(intp, SFRINIT1, (symb >> 8) & 0xff);
stv0900_write_reg(intp, SFRINIT0, (symb & 0xff));
stv0900_write_reg(intp, DMDT0M, 0x20);
stv0900_write_reg(intp, CFRINIT1, (coarse_freq >> 8) & 0xff);
stv0900_write_reg(intp, CFRINIT0, coarse_freq & 0xff);
stv0900_write_reg(intp, DMDISTATE, 0x15);
}
return coarse_srate;
}
static int stv0900_blind_search_algo(struct dvb_frontend *fe)
{
struct stv0900_state *state = fe->demodulator_priv;
struct stv0900_internal *intp = state->internal;
enum fe_stv0900_demod_num demod = state->demod;
u8 k_ref_tmg,
k_ref_tmg_max,
k_ref_tmg_min;
u32 coarse_srate,
agc2_th;
int lock = FALSE,
coarse_fail = FALSE;
s32 demod_timeout = 500,
fec_timeout = 50,
fail_cpt,
i,
agc2_overflow;
u16 agc2_int;
u8 dstatus2;
dprintk("%s\n", __func__);
if (intp->chip_id < 0x20) {
k_ref_tmg_max = 233;
k_ref_tmg_min = 143;
} else {
k_ref_tmg_max = 110;
k_ref_tmg_min = 10;
}
if (intp->chip_id <= 0x20)
agc2_th = STV0900_BLIND_SEARCH_AGC2_TH;
else
agc2_th = STV0900_BLIND_SEARCH_AGC2_TH_CUT30;
agc2_int = stv0900_blind_check_agc2_min_level(intp, demod);
dprintk("%s agc2_int=%d agc2_th=%d \n", __func__, agc2_int, agc2_th);
if (agc2_int > agc2_th)
return FALSE;
if (intp->chip_id == 0x10)
stv0900_write_reg(intp, CORRELEXP, 0xaa);
if (intp->chip_id < 0x20)
stv0900_write_reg(intp, CARHDR, 0x55);
else
stv0900_write_reg(intp, CARHDR, 0x20);
if (intp->chip_id <= 0x20)
stv0900_write_reg(intp, CARCFG, 0xc4);
else
stv0900_write_reg(intp, CARCFG, 0x6);
stv0900_write_reg(intp, RTCS2, 0x44);
if (intp->chip_id >= 0x20) {
stv0900_write_reg(intp, EQUALCFG, 0x41);
stv0900_write_reg(intp, FFECFG, 0x41);
stv0900_write_reg(intp, VITSCALE, 0x82);
stv0900_write_reg(intp, VAVSRVIT, 0x0);
}
k_ref_tmg = k_ref_tmg_max;
do {
stv0900_write_reg(intp, KREFTMG, k_ref_tmg);
if (stv0900_search_srate_coarse(fe) != 0) {
coarse_srate = stv0900_search_srate_fine(fe);
if (coarse_srate != 0) {
stv0900_get_lock_timeout(&demod_timeout,
&fec_timeout,
coarse_srate,
STV0900_BLIND_SEARCH);
lock = stv0900_get_demod_lock(intp,
demod,
demod_timeout);
} else
lock = FALSE;
} else {
fail_cpt = 0;
agc2_overflow = 0;
for (i = 0; i < 10; i++) {
agc2_int = (stv0900_read_reg(intp, AGC2I1) << 8)
| stv0900_read_reg(intp, AGC2I0);
if (agc2_int >= 0xff00)
agc2_overflow++;
dstatus2 = stv0900_read_reg(intp, DSTATUS2);
if (((dstatus2 & 0x1) == 0x1) &&
((dstatus2 >> 7) == 1))
fail_cpt++;
}
if ((fail_cpt > 7) || (agc2_overflow > 7))
coarse_fail = TRUE;
lock = FALSE;
}
k_ref_tmg -= 30;
} while ((k_ref_tmg >= k_ref_tmg_min) &&
(lock == FALSE) &&
(coarse_fail == FALSE));
return lock;
}
static void stv0900_set_viterbi_acq(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod)
{
s32 vth_reg = VTH12;
dprintk("%s\n", __func__);
stv0900_write_reg(intp, vth_reg++, 0x96);
stv0900_write_reg(intp, vth_reg++, 0x64);
stv0900_write_reg(intp, vth_reg++, 0x36);
stv0900_write_reg(intp, vth_reg++, 0x23);
stv0900_write_reg(intp, vth_reg++, 0x1e);
stv0900_write_reg(intp, vth_reg++, 0x19);
}
static void stv0900_set_search_standard(struct stv0900_internal *intp,
enum fe_stv0900_demod_num demod)
{
dprintk("%s\n", __func__);
switch (intp->srch_standard[demod]) {
case STV0900_SEARCH_DVBS1:
dprintk("Search Standard = DVBS1\n");
break;
case STV0900_SEARCH_DSS:
dprintk("Search Standard = DSS\n");
case STV0900_SEARCH_DVBS2:
break;
dprintk("Search Standard = DVBS2\n");
case STV0900_AUTO_SEARCH:
default:
dprintk("Search Standard = AUTO\n");
break;
}
switch (intp->srch_standard[demod]) {
case STV0900_SEARCH_DVBS1:
case STV0900_SEARCH_DSS:
stv0900_write_bits(intp, DVBS1_ENABLE, 1);
stv0900_write_bits(intp, DVBS2_ENABLE, 0);
stv0900_write_bits(intp, STOP_CLKVIT, 0);
stv0900_set_dvbs1_track_car_loop(intp,
demod,
intp->symbol_rate[demod]);
stv0900_write_reg(intp, CAR2CFG, 0x22);
stv0900_set_viterbi_acq(intp, demod);
stv0900_set_viterbi_standard(intp,
intp->srch_standard[demod],
intp->fec[demod], demod);
break;
case STV0900_SEARCH_DVBS2:
stv0900_write_bits(intp, DVBS1_ENABLE, 0);
stv0900_write_bits(intp, DVBS2_ENABLE, 1);
stv0900_write_bits(intp, STOP_CLKVIT, 1);
stv0900_write_reg(intp, ACLC, 0x1a);
stv0900_write_reg(intp, BCLC, 0x09);
if (intp->chip_id <= 0x20) /*cut 1.x and 2.0*/
stv0900_write_reg(intp, CAR2CFG, 0x26);
else
stv0900_write_reg(intp, CAR2CFG, 0x66);
if (intp->demod_mode != STV0900_SINGLE) {
if (intp->chip_id <= 0x11)
stv0900_stop_all_s2_modcod(intp, demod);
else
stv0900_activate_s2_modcod(intp, demod);
} else
stv0900_activate_s2_modcod_single(intp, demod);
stv0900_set_viterbi_tracq(intp, demod);
break;
case STV0900_AUTO_SEARCH:
default:
stv0900_write_bits(intp, DVBS1_ENABLE, 1);
stv0900_write_bits(intp, DVBS2_ENABLE, 1);
stv0900_write_bits(intp, STOP_CLKVIT, 0);
stv0900_write_reg(intp, ACLC, 0x1a);
stv0900_write_reg(intp, BCLC, 0x09);
stv0900_set_dvbs1_track_car_loop(intp,
demod,
intp->symbol_rate[demod]);
if (intp->chip_id <= 0x20) /*cut 1.x and 2.0*/
stv0900_write_reg(intp, CAR2CFG, 0x26);
else
stv0900_write_reg(intp, CAR2CFG, 0x66);
if (intp->demod_mode != STV0900_SINGLE) {
if (intp->chip_id <= 0x11)
stv0900_stop_all_s2_modcod(intp, demod);
else
stv0900_activate_s2_modcod(intp, demod);
} else
stv0900_activate_s2_modcod_single(intp, demod);
stv0900_set_viterbi_tracq(intp, demod);
stv0900_set_viterbi_standard(intp,
intp->srch_standard[demod],
intp->fec[demod], demod);
break;
}
}
enum fe_stv0900_signal_type stv0900_algo(struct dvb_frontend *fe)
{
struct stv0900_state *state = fe->demodulator_priv;
struct stv0900_internal *intp = state->internal;
enum fe_stv0900_demod_num demod = state->demod;
s32 demod_timeout = 500, fec_timeout = 50;
s32 aq_power, agc1_power, i;
int lock = FALSE, low_sr = FALSE;
enum fe_stv0900_signal_type signal_type = STV0900_NOCARRIER;
enum fe_stv0900_search_algo algo;
int no_signal = FALSE;
dprintk("%s\n", __func__);
algo = intp->srch_algo[demod];
stv0900_write_bits(intp, RST_HWARE, 1);
stv0900_write_reg(intp, DMDISTATE, 0x5c);
if (intp->chip_id >= 0x20) {
if (intp->symbol_rate[demod] > 5000000)
stv0900_write_reg(intp, CORRELABS, 0x9e);
else
stv0900_write_reg(intp, CORRELABS, 0x82);
} else
stv0900_write_reg(intp, CORRELABS, 0x88);
stv0900_get_lock_timeout(&demod_timeout, &fec_timeout,
intp->symbol_rate[demod],
intp->srch_algo[demod]);
if (intp->srch_algo[demod] == STV0900_BLIND_SEARCH) {
intp->bw[demod] = 2 * 36000000;
stv0900_write_reg(intp, TMGCFG2, 0xc0);
stv0900_write_reg(intp, CORRELMANT, 0x70);
stv0900_set_symbol_rate(intp, intp->mclk, 1000000, demod);
} else {
stv0900_write_reg(intp, DMDT0M, 0x20);
stv0900_write_reg(intp, TMGCFG, 0xd2);
if (intp->symbol_rate[demod] < 2000000)
stv0900_write_reg(intp, CORRELMANT, 0x63);
else
stv0900_write_reg(intp, CORRELMANT, 0x70);
stv0900_write_reg(intp, AGC2REF, 0x38);
intp->bw[demod] =
stv0900_carrier_width(intp->symbol_rate[demod],
intp->rolloff);
if (intp->chip_id >= 0x20) {
stv0900_write_reg(intp, KREFTMG, 0x5a);
if (intp->srch_algo[demod] == STV0900_COLD_START) {
intp->bw[demod] += 10000000;
intp->bw[demod] *= 15;
intp->bw[demod] /= 10;
} else if (intp->srch_algo[demod] == STV0900_WARM_START)
intp->bw[demod] += 10000000;
} else {
stv0900_write_reg(intp, KREFTMG, 0xc1);
intp->bw[demod] += 10000000;
intp->bw[demod] *= 15;
intp->bw[demod] /= 10;
}
stv0900_write_reg(intp, TMGCFG2, 0xc1);
stv0900_set_symbol_rate(intp, intp->mclk,
intp->symbol_rate[demod], demod);
stv0900_set_max_symbol_rate(intp, intp->mclk,
intp->symbol_rate[demod], demod);
stv0900_set_min_symbol_rate(intp, intp->mclk,
intp->symbol_rate[demod], demod);
if (intp->symbol_rate[demod] >= 10000000)
low_sr = FALSE;
else
low_sr = TRUE;
}
if (intp->tuner_type[demod] == 3)
stv0900_set_tuner_auto(intp, intp->freq[demod],
intp->bw[demod], demod);
else
stv0900_set_tuner(fe, intp->freq[demod], intp->bw[demod]);
agc1_power = MAKEWORD(stv0900_get_bits(intp, AGCIQ_VALUE1),
stv0900_get_bits(intp, AGCIQ_VALUE0));
aq_power = 0;
if (agc1_power == 0) {
for (i = 0; i < 5; i++)
aq_power += (stv0900_get_bits(intp, POWER_I) +
stv0900_get_bits(intp, POWER_Q)) / 2;
aq_power /= 5;
}
if ((agc1_power == 0) && (aq_power < IQPOWER_THRESHOLD)) {
intp->result[demod].locked = FALSE;
signal_type = STV0900_NOAGC1;
dprintk("%s: NO AGC1, POWERI, POWERQ\n", __func__);
} else {
stv0900_write_bits(intp, SPECINV_CONTROL,
intp->srch_iq_inv[demod]);
if (intp->chip_id <= 0x20) /*cut 2.0*/
stv0900_write_bits(intp, MANUALSX_ROLLOFF, 1);
else /*cut 3.0*/
stv0900_write_bits(intp, MANUALS2_ROLLOFF, 1);
stv0900_set_search_standard(intp, demod);
if (intp->srch_algo[demod] != STV0900_BLIND_SEARCH)
stv0900_start_search(intp, demod);
}
if (signal_type == STV0900_NOAGC1)
return signal_type;
if (intp->chip_id == 0x12) {
stv0900_write_bits(intp, RST_HWARE, 0);
msleep(3);
stv0900_write_bits(intp, RST_HWARE, 1);
stv0900_write_bits(intp, RST_HWARE, 0);
}
if (algo == STV0900_BLIND_SEARCH)
lock = stv0900_blind_search_algo(fe);
else if (algo == STV0900_COLD_START)
lock = stv0900_get_demod_cold_lock(fe, demod_timeout);
else if (algo == STV0900_WARM_START)
lock = stv0900_get_demod_lock(intp, demod, demod_timeout);
if ((lock == FALSE) && (algo == STV0900_COLD_START)) {
if (low_sr == FALSE) {
if (stv0900_check_timing_lock(intp, demod) == TRUE)
lock = stv0900_sw_algo(intp, demod);
}
}
if (lock == TRUE)
signal_type = stv0900_get_signal_params(fe);
if ((lock == TRUE) && (signal_type == STV0900_RANGEOK)) {
stv0900_track_optimization(fe);
if (intp->chip_id <= 0x11) {
if ((stv0900_get_standard(fe, 0) ==
STV0900_DVBS1_STANDARD) &&
(stv0900_get_standard(fe, 1) ==
STV0900_DVBS1_STANDARD)) {
msleep(20);
stv0900_write_bits(intp, RST_HWARE, 0);
} else {
stv0900_write_bits(intp, RST_HWARE, 0);
msleep(3);
stv0900_write_bits(intp, RST_HWARE, 1);
stv0900_write_bits(intp, RST_HWARE, 0);
}
} else if (intp->chip_id >= 0x20) {
stv0900_write_bits(intp, RST_HWARE, 0);
msleep(3);
stv0900_write_bits(intp, RST_HWARE, 1);
stv0900_write_bits(intp, RST_HWARE, 0);
}
if (stv0900_wait_for_lock(intp, demod,
fec_timeout, fec_timeout) == TRUE) {
lock = TRUE;
intp->result[demod].locked = TRUE;
if (intp->result[demod].standard ==
STV0900_DVBS2_STANDARD) {
stv0900_set_dvbs2_rolloff(intp, demod);
stv0900_write_bits(intp, RESET_UPKO_COUNT, 1);
stv0900_write_bits(intp, RESET_UPKO_COUNT, 0);
stv0900_write_reg(intp, ERRCTRL1, 0x67);
} else {
stv0900_write_reg(intp, ERRCTRL1, 0x75);
}
stv0900_write_reg(intp, FBERCPT4, 0);
stv0900_write_reg(intp, ERRCTRL2, 0xc1);
} else {
lock = FALSE;
signal_type = STV0900_NODATA;
no_signal = stv0900_check_signal_presence(intp, demod);
intp->result[demod].locked = FALSE;
}
}
if ((signal_type != STV0900_NODATA) || (no_signal != FALSE))
return signal_type;
if (intp->chip_id > 0x11) {
intp->result[demod].locked = FALSE;
return signal_type;
}
if ((stv0900_get_bits(intp, HEADER_MODE) == STV0900_DVBS_FOUND) &&
(intp->srch_iq_inv[demod] <= STV0900_IQ_AUTO_NORMAL_FIRST))
signal_type = stv0900_dvbs1_acq_workaround(fe);
return signal_type;
}