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dddvb/frontends/stv0910.c

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/*
* Driver for the ST STV0910 DVB-S/S2 demodulator.
*
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* Copyright (C) 2014-2017 Ralph Metzler <rjkm@metzlerbros.de>
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* Marcus Metzler <mocm@metzlerbros.de>
* developed for Digital Devices GmbH
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* version 2 only, as published by the Free Software Foundation.
*
*
* 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
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* along with this program; if not, point your browser to
* http://www.gnu.org/copyleft/gpl.html
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*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/moduleparam.h>
#include <linux/init.h>
#include <linux/delay.h>
#include <linux/firmware.h>
#include <linux/i2c.h>
#include <linux/version.h>
#include <asm/div64.h>
#include "dvb_frontend.h"
#include "stv0910.h"
#include "stv0910_regs.h"
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#define EXT_CLOCK 30000000
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#define TUNING_DELAY 200
#define BER_SRC_S 0x20
#define BER_SRC_S2 0x20
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static LIST_HEAD(stvlist);
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enum receive_mode { RCVMODE_NONE, RCVMODE_DVBS, RCVMODE_DVBS2, RCVMODE_AUTO };
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enum dvbs2_fec_type { DVBS2_64K, DVBS2_16K };
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enum dvbs2_modcod {
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DVBS2_DUMMY_PLF, DVBS2_QPSK_1_4, DVBS2_QPSK_1_3, DVBS2_QPSK_2_5,
DVBS2_QPSK_1_2, DVBS2_QPSK_3_5, DVBS2_QPSK_2_3, DVBS2_QPSK_3_4,
DVBS2_QPSK_4_5, DVBS2_QPSK_5_6, DVBS2_QPSK_8_9, DVBS2_QPSK_9_10,
DVBS2_8PSK_3_5, DVBS2_8PSK_2_3, DVBS2_8PSK_3_4, DVBS2_8PSK_5_6,
DVBS2_8PSK_8_9, DVBS2_8PSK_9_10, DVBS2_16APSK_2_3, DVBS2_16APSK_3_4,
DVBS2_16APSK_4_5, DVBS2_16APSK_5_6, DVBS2_16APSK_8_9, DVBS2_16APSK_9_10,
DVBS2_32APSK_3_4, DVBS2_32APSK_4_5, DVBS2_32APSK_5_6, DVBS2_32APSK_8_9,
DVBS2_32APSK_9_10
};
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enum fe_stv0910_modcod {
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FE_DUMMY_PLF, FE_QPSK_14, FE_QPSK_13, FE_QPSK_25,
FE_QPSK_12, FE_QPSK_35, FE_QPSK_23, FE_QPSK_34,
FE_QPSK_45, FE_QPSK_56, FE_QPSK_89, FE_QPSK_910,
FE_8PSK_35, FE_8PSK_23, FE_8PSK_34, FE_8PSK_56,
FE_8PSK_89, FE_8PSK_910, FE_16APSK_23, FE_16APSK_34,
FE_16APSK_45, FE_16APSK_56, FE_16APSK_89, FE_16APSK_910,
FE_32APSK_34, FE_32APSK_45, FE_32APSK_56, FE_32APSK_89,
FE_32APSK_910
};
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enum fe_stv0910_roll_off { FE_SAT_35, FE_SAT_25, FE_SAT_20, FE_SAT_15 };
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static inline u32 muldiv32(u32 a, u32 b, u32 c)
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{
u64 tmp64;
tmp64 = (u64)a * (u64)b;
do_div(tmp64, c);
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return (u32)tmp64;
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}
struct stv_base {
struct list_head stvlist;
u8 adr;
struct i2c_adapter *i2c;
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struct mutex i2c_lock; /* i2c gate lock */
struct mutex reg_lock; /* lock access to shared registers */
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int count;
u32 extclk;
u32 mclk;
};
struct stv {
struct stv_base *base;
struct dvb_frontend fe;
int nr;
u16 regoff;
u8 i2crpt;
u8 tscfgh;
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u8 tsgeneral;
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u8 tsspeed;
u8 single;
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unsigned long tune_time;
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s32 search_range;
u32 started;
u32 demod_lock_time;
enum receive_mode receive_mode;
u32 demod_timeout;
u32 fec_timeout;
u32 first_time_lock;
u8 demod;
u32 symbol_rate;
enum fe_code_rate puncture_rate;
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enum fe_stv0910_modcod modcod;
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enum dvbs2_fec_type fec_type;
u32 pilots;
enum fe_stv0910_roll_off fe_roll_off;
int is_standard_broadcast;
int is_vcm;
u32 cur_scrambling_code;
u32 scrambling_code;
u32 last_ber_numerator;
u32 last_ber_denominator;
u8 ber_scale;
u8 vth[6];
unsigned long stat_time;
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};
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struct slookup {
s16 value;
u16 reg_value;
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};
static int write_reg(struct stv *state, u16 reg, u8 val)
{
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u8 data[3] = {reg >> 8, reg & 0xff, val};
struct i2c_msg msg = {.addr = state->base->adr, .flags = 0,
.buf = data, .len = 3};
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return (i2c_transfer(state->base->i2c, &msg, 1) == 1) ? 0 : -1;
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}
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static int write_reg_off(struct stv *state, u16 reg, u8 val)
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{
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return write_reg(state, reg + state->regoff, val);
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}
static inline int i2c_read_regs16(struct i2c_adapter *adapter, u8 adr,
u16 reg, u8 *val, int len)
{
u8 msg[2] = {reg >> 8, reg & 0xff};
struct i2c_msg msgs[2] = {{.addr = adr, .flags = 0,
.buf = msg, .len = 2},
{.addr = adr, .flags = I2C_M_RD,
.buf = val, .len = len } };
return (i2c_transfer(adapter, msgs, 2) == 2) ? 0 : -1;
}
static int read_regs(struct stv *state, u16 reg, u8 *val, int len)
{
return i2c_read_regs16(state->base->i2c, state->base->adr,
reg, val, len);
}
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static int read_reg(struct stv *state, u16 reg, u8 *val)
{
return read_regs(state, reg, val, 1);
}
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static int write_shared_reg(struct stv *state, u16 reg, u8 mask, u8 val)
{
int status;
u8 tmp;
mutex_lock(&state->base->reg_lock);
status = read_reg(state, reg, &tmp);
if (!status)
status = write_reg(state, reg, (tmp & ~mask) | (val & mask));
mutex_unlock(&state->base->reg_lock);
return status;
}
static int write_field(struct stv *state, u32 field, u8 val)
{
int status;
u8 shift, mask, old, new;
status = read_reg(state, field >> 16, &old);
if (status)
return status;
mask = field & 0xff;
shift = (field >> 12) & 0xf;
new = ((val << shift) & mask) | (old & ~mask);
if (new == old)
return 0;
return write_reg(state, field >> 16, new);
}
#define set_field(_reg, _val) \
write_field(state, state->nr ? FSTV0910_P2_##_reg : \
FSTV0910_P1_##_reg, _val)
#define set_reg(_reg, _val) \
write_reg(state, state->nr ? RSTV0910_P2_##_reg : \
RSTV0910_P1_##_reg, _val)
#define get_reg(_reg, _val) \
read_reg(state, state->nr ? RSTV0910_P2_##_reg : \
RTV0910_P1_##_reg, _val)
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static const struct slookup s1_sn_lookup[] = {
{ 0, 9242 }, /* C/N= 0dB */
{ 05, 9105 }, /* C/N=0.5dB */
{ 10, 8950 }, /* C/N=1.0dB */
{ 15, 8780 }, /* C/N=1.5dB */
{ 20, 8566 }, /* C/N=2.0dB */
{ 25, 8366 }, /* C/N=2.5dB */
{ 30, 8146 }, /* C/N=3.0dB */
{ 35, 7908 }, /* C/N=3.5dB */
{ 40, 7666 }, /* C/N=4.0dB */
{ 45, 7405 }, /* C/N=4.5dB */
{ 50, 7136 }, /* C/N=5.0dB */
{ 55, 6861 }, /* C/N=5.5dB */
{ 60, 6576 }, /* C/N=6.0dB */
{ 65, 6330 }, /* C/N=6.5dB */
{ 70, 6048 }, /* C/N=7.0dB */
{ 75, 5768 }, /* C/N=7.5dB */
{ 80, 5492 }, /* C/N=8.0dB */
{ 85, 5224 }, /* C/N=8.5dB */
{ 90, 4959 }, /* C/N=9.0dB */
{ 95, 4709 }, /* C/N=9.5dB */
{ 100, 4467 }, /* C/N=10.0dB */
{ 105, 4236 }, /* C/N=10.5dB */
{ 110, 4013 }, /* C/N=11.0dB */
{ 115, 3800 }, /* C/N=11.5dB */
{ 120, 3598 }, /* C/N=12.0dB */
{ 125, 3406 }, /* C/N=12.5dB */
{ 130, 3225 }, /* C/N=13.0dB */
{ 135, 3052 }, /* C/N=13.5dB */
{ 140, 2889 }, /* C/N=14.0dB */
{ 145, 2733 }, /* C/N=14.5dB */
{ 150, 2587 }, /* C/N=15.0dB */
{ 160, 2318 }, /* C/N=16.0dB */
{ 170, 2077 }, /* C/N=17.0dB */
{ 180, 1862 }, /* C/N=18.0dB */
{ 190, 1670 }, /* C/N=19.0dB */
{ 200, 1499 }, /* C/N=20.0dB */
{ 210, 1347 }, /* C/N=21.0dB */
{ 220, 1213 }, /* C/N=22.0dB */
{ 230, 1095 }, /* C/N=23.0dB */
{ 240, 992 }, /* C/N=24.0dB */
{ 250, 900 }, /* C/N=25.0dB */
{ 260, 826 }, /* C/N=26.0dB */
{ 270, 758 }, /* C/N=27.0dB */
{ 280, 702 }, /* C/N=28.0dB */
{ 290, 653 }, /* C/N=29.0dB */
{ 300, 613 }, /* C/N=30.0dB */
{ 310, 579 }, /* C/N=31.0dB */
{ 320, 550 }, /* C/N=32.0dB */
{ 330, 526 }, /* C/N=33.0dB */
{ 350, 490 }, /* C/N=33.0dB */
{ 400, 445 }, /* C/N=40.0dB */
{ 450, 430 }, /* C/N=45.0dB */
{ 500, 426 }, /* C/N=50.0dB */
{ 510, 425 }, /* C/N=51.0dB */
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};
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struct slookup s2_sn_lookup[] = {
{ -30, 13950 }, /* C/N=-2.5dB */
{ -25, 13580 }, /* C/N=-2.5dB */
{ -20, 13150 }, /* C/N=-2.0dB */
{ -15, 12760 }, /* C/N=-1.5dB */
{ -10, 12345 }, /* C/N=-1.0dB */
{ -5, 11900 }, /* C/N=-0.5dB */
{ 0, 11520 }, /* C/N= 0dB */
{ 5, 11080 }, /* C/N= 0.5dB */
{ 10, 10630 }, /* C/N= 1.0dB */
{ 15, 10210 }, /* C/N= 1.5dB */
{ 20, 9790 }, /* C/N= 2.0dB */
{ 25, 9390 }, /* C/N= 2.5dB */
{ 30, 8970 }, /* C/N= 3.0dB */
{ 35, 8575 }, /* C/N= 3.5dB */
{ 40, 8180 }, /* C/N= 4.0dB */
{ 45, 7800 }, /* C/N= 4.5dB */
{ 50, 7430 }, /* C/N= 5.0dB */
{ 55, 7080 }, /* C/N= 5.5dB */
{ 60, 6720 }, /* C/N= 6.0dB */
{ 65, 6320 }, /* C/N= 6.5dB */
{ 70, 6060 }, /* C/N= 7.0dB */
{ 75, 5760 }, /* C/N= 7.5dB */
{ 80, 5480 }, /* C/N= 8.0dB */
{ 85, 5200 }, /* C/N= 8.5dB */
{ 90, 4930 }, /* C/N= 9.0dB */
{ 95, 4680 }, /* C/N= 9.5dB */
{ 100, 4425 }, /* C/N=10.0dB */
{ 105, 4210 }, /* C/N=10.5dB */
{ 110, 3980 }, /* C/N=11.0dB */
{ 115, 3765 }, /* C/N=11.5dB */
{ 120, 3570 }, /* C/N=12.0dB */
{ 125, 3315 }, /* C/N=12.5dB */
{ 130, 3140 }, /* C/N=13.0dB */
{ 135, 2980 }, /* C/N=13.5dB */
{ 140, 2820 }, /* C/N=14.0dB */
{ 145, 2670 }, /* C/N=14.5dB */
{ 150, 2535 }, /* C/N=15.0dB */
{ 160, 2270 }, /* C/N=16.0dB */
{ 170, 2035 }, /* C/N=17.0dB */
{ 180, 1825 }, /* C/N=18.0dB */
{ 190, 1650 }, /* C/N=19.0dB */
{ 200, 1485 }, /* C/N=20.0dB */
{ 210, 1340 }, /* C/N=21.0dB */
{ 220, 1212 }, /* C/N=22.0dB */
{ 230, 1100 }, /* C/N=23.0dB */
{ 240, 1000 }, /* C/N=24.0dB */
{ 250, 910 }, /* C/N=25.0dB */
{ 260, 836 }, /* C/N=26.0dB */
{ 270, 772 }, /* C/N=27.0dB */
{ 280, 718 }, /* C/N=28.0dB */
{ 290, 671 }, /* C/N=29.0dB */
{ 300, 635 }, /* C/N=30.0dB */
{ 310, 602 }, /* C/N=31.0dB */
{ 320, 575 }, /* C/N=32.0dB */
{ 330, 550 }, /* C/N=33.0dB */
{ 350, 517 }, /* C/N=35.0dB */
{ 400, 480 }, /* C/N=40.0dB */
{ 450, 466 }, /* C/N=45.0dB */
{ 500, 464 }, /* C/N=50.0dB */
{ 510, 463 }, /* C/N=51.0dB */
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};
/*********************************************************************
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* Tracking carrier loop carrier QPSK 1/4 to 8PSK 9/10 long Frame
*********************************************************************/
static const u8 s2car_loop[] = {
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/* Modcod 2MPon 2MPoff 5MPon 5MPoff 10MPon 10MPoff
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* 20MPon 20MPoff 30MPon 30MPoff
*/
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/* FE_QPSK_14 */
0x0C, 0x3C, 0x0B, 0x3C, 0x2A, 0x2C, 0x2A, 0x1C, 0x3A, 0x3B,
/* FE_QPSK_13 */
0x0C, 0x3C, 0x0B, 0x3C, 0x2A, 0x2C, 0x3A, 0x0C, 0x3A, 0x2B,
/* FE_QPSK_25 */
0x1C, 0x3C, 0x1B, 0x3C, 0x3A, 0x1C, 0x3A, 0x3B, 0x3A, 0x2B,
/* FE_QPSK_12 */
0x0C, 0x1C, 0x2B, 0x1C, 0x0B, 0x2C, 0x0B, 0x0C, 0x2A, 0x2B,
/* FE_QPSK_35 */
0x1C, 0x1C, 0x2B, 0x1C, 0x0B, 0x2C, 0x0B, 0x0C, 0x2A, 0x2B,
/* FE_QPSK_23 */
0x2C, 0x2C, 0x2B, 0x1C, 0x0B, 0x2C, 0x0B, 0x0C, 0x2A, 0x2B,
/* FE_QPSK_34 */
0x3C, 0x2C, 0x3B, 0x2C, 0x1B, 0x1C, 0x1B, 0x3B, 0x3A, 0x1B,
/* FE_QPSK_45 */
0x0D, 0x3C, 0x3B, 0x2C, 0x1B, 0x1C, 0x1B, 0x3B, 0x3A, 0x1B,
/* FE_QPSK_56 */
0x1D, 0x3C, 0x0C, 0x2C, 0x2B, 0x1C, 0x1B, 0x3B, 0x0B, 0x1B,
/* FE_QPSK_89 */
0x3D, 0x0D, 0x0C, 0x2C, 0x2B, 0x0C, 0x2B, 0x2B, 0x0B, 0x0B,
/* FE_QPSK_910 */
0x1E, 0x0D, 0x1C, 0x2C, 0x3B, 0x0C, 0x2B, 0x2B, 0x1B, 0x0B,
/* FE_8PSK_35 */
0x28, 0x09, 0x28, 0x09, 0x28, 0x09, 0x28, 0x08, 0x28, 0x27,
/* FE_8PSK_23 */
0x19, 0x29, 0x19, 0x29, 0x19, 0x29, 0x38, 0x19, 0x28, 0x09,
/* FE_8PSK_34 */
0x1A, 0x0B, 0x1A, 0x3A, 0x0A, 0x2A, 0x39, 0x2A, 0x39, 0x1A,
/* FE_8PSK_56 */
0x2B, 0x2B, 0x1B, 0x1B, 0x0B, 0x1B, 0x1A, 0x0B, 0x1A, 0x1A,
/* FE_8PSK_89 */
0x0C, 0x0C, 0x3B, 0x3B, 0x1B, 0x1B, 0x2A, 0x0B, 0x2A, 0x2A,
/* FE_8PSK_910 */
0x0C, 0x1C, 0x0C, 0x3B, 0x2B, 0x1B, 0x3A, 0x0B, 0x2A, 0x2A,
/**********************************************************************
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* Tracking carrier loop carrier 16APSK 2/3 to 32APSK 9/10 long Frame
**********************************************************************/
/*
* Modcod 2MPon 2MPoff 5MPon 5MPoff 10MPon 10MPoff 20MPon
* 20MPoff 30MPon 30MPoff
*/
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/* FE_16APSK_23 */
0x0A, 0x0A, 0x0A, 0x0A, 0x1A, 0x0A, 0x39, 0x0A, 0x29, 0x0A,
/* FE_16APSK_34 */
0x0A, 0x0A, 0x0A, 0x0A, 0x0B, 0x0A, 0x2A, 0x0A, 0x1A, 0x0A,
/* FE_16APSK_45 */
0x0A, 0x0A, 0x0A, 0x0A, 0x1B, 0x0A, 0x3A, 0x0A, 0x2A, 0x0A,
/* FE_16APSK_56 */
0x0A, 0x0A, 0x0A, 0x0A, 0x1B, 0x0A, 0x3A, 0x0A, 0x2A, 0x0A,
/* FE_16APSK_89 */
0x0A, 0x0A, 0x0A, 0x0A, 0x2B, 0x0A, 0x0B, 0x0A, 0x3A, 0x0A,
/* FE_16APSK_910 */
0x0A, 0x0A, 0x0A, 0x0A, 0x2B, 0x0A, 0x0B, 0x0A, 0x3A, 0x0A,
/* FE_32APSK_34 */
0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09,
/* FE_32APSK_45 */
0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09,
/* FE_32APSK_56 */
0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09,
/* FE_32APSK_89 */
0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09,
/* FE_32APSK_910 */
0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x09,
};
static u8 get_optim_cloop(struct stv *state,
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enum fe_stv0910_modcod modcod, u32 pilots)
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{
int i = 0;
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if (modcod >= FE_32APSK_910)
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i = ((int)FE_32APSK_910 - (int)FE_QPSK_14) * 10;
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else if (modcod >= FE_QPSK_14)
i = ((int)modcod - (int)FE_QPSK_14) * 10;
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if (state->symbol_rate <= 3000000)
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i += 0;
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else if (state->symbol_rate <= 7000000)
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i += 2;
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else if (state->symbol_rate <= 15000000)
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i += 4;
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else if (state->symbol_rate <= 25000000)
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i += 6;
else
i += 8;
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if (!pilots)
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i += 1;
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return s2car_loop[i];
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}
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static int get_cur_symbol_rate(struct stv *state, u32 *psymbol_rate)
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{
int status = 0;
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u8 symb_freq0;
u8 symb_freq1;
u8 symb_freq2;
u8 symb_freq3;
u8 tim_offs0;
u8 tim_offs1;
u8 tim_offs2;
u32 symbol_rate;
s32 timing_offset;
*psymbol_rate = 0;
if (!state->started)
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return status;
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read_reg(state, RSTV0910_P2_SFR3 + state->regoff, &symb_freq3);
read_reg(state, RSTV0910_P2_SFR2 + state->regoff, &symb_freq2);
read_reg(state, RSTV0910_P2_SFR1 + state->regoff, &symb_freq1);
read_reg(state, RSTV0910_P2_SFR0 + state->regoff, &symb_freq0);
read_reg(state, RSTV0910_P2_TMGREG2 + state->regoff, &tim_offs2);
read_reg(state, RSTV0910_P2_TMGREG1 + state->regoff, &tim_offs1);
read_reg(state, RSTV0910_P2_TMGREG0 + state->regoff, &tim_offs0);
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symbol_rate = ((u32)symb_freq3 << 24) | ((u32)symb_freq2 << 16) |
((u32)symb_freq1 << 8) | (u32)symb_freq0;
timing_offset = ((u32)tim_offs2 << 16) | ((u32)tim_offs1 << 8) |
(u32)tim_offs0;
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if ((timing_offset & (1 << 23)) != 0)
timing_offset |= 0xFF000000; /* Sign extent */
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symbol_rate = (u32)(((u64)symbol_rate * state->base->mclk) >> 32);
timing_offset = (s32)(((s64)symbol_rate * (s64)timing_offset) >> 29);
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*psymbol_rate = symbol_rate + timing_offset;
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return 0;
}
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static int get_signal_parameters(struct stv *state)
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{
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u8 tmp;
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if (!state->started)
return -EINVAL;
if (state->receive_mode == RCVMODE_DVBS2) {
read_reg(state, RSTV0910_P2_DMDMODCOD + state->regoff, &tmp);
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state->modcod = (enum fe_stv0910_modcod)((tmp & 0x7c) >> 2);
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state->pilots = (tmp & 0x01) != 0;
state->fec_type = (enum dvbs2_fec_type)((tmp & 0x02) >> 1);
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#if 0
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read_reg(state, RSTV0910_P2_TMGOBS + state->regoff, &rolloff);
rolloff = rolloff >> 6;
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state->fe_roll_off = (enum fe_stv0910_roll_off)rolloff;
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#endif
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} else if (state->receive_mode == RCVMODE_DVBS) {
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read_reg(state, RSTV0910_P2_VITCURPUN + state->regoff, &tmp);
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state->puncture_rate = FEC_NONE;
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switch (tmp & 0x1F) {
case 0x0d:
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state->puncture_rate = FEC_1_2;
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break;
case 0x12:
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state->puncture_rate = FEC_2_3;
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break;
case 0x15:
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state->puncture_rate = FEC_3_4;
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break;
case 0x18:
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state->puncture_rate = FEC_5_6;
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break;
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case 0x1a:
state->puncture_rate = FEC_7_8;
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break;
}
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state->is_vcm = 0;
state->is_standard_broadcast = 1;
state->fe_roll_off = FE_SAT_35;
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}
return 0;
}
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static int tracking_optimization(struct stv *state)
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{
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u32 symbol_rate = 0;
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u8 tmp;
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get_cur_symbol_rate(state, &symbol_rate);
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read_reg(state, RSTV0910_P2_DMDCFGMD + state->regoff, &tmp);
tmp &= ~0xC0;
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switch (state->receive_mode) {
case RCVMODE_DVBS:
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tmp |= 0x40;
break;
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case RCVMODE_DVBS2:
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tmp |= 0x80;
break;
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default:
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tmp |= 0xC0;
break;
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}
write_reg(state, RSTV0910_P2_DMDCFGMD + state->regoff, tmp);
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if (state->receive_mode == RCVMODE_DVBS2) {
/* Disable Reed-Solomon */
write_shared_reg(state, RSTV0910_TSTTSRS,
state->nr ? 0x02 : 0x01, 0x03);
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if (state->fec_type == DVBS2_64K) {
u8 aclc = get_optim_cloop(state, state->modcod,
state->pilots);
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if (state->modcod <= FE_QPSK_910) {
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write_reg(state, RSTV0910_P2_ACLC2S2Q +
state->regoff, aclc);
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} else if (state->modcod <= FE_8PSK_910) {
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write_reg(state, RSTV0910_P2_ACLC2S2Q +
state->regoff, 0x2a);
write_reg(state, RSTV0910_P2_ACLC2S28 +
state->regoff, aclc);
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} else if (state->modcod <= FE_16APSK_910) {
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write_reg(state, RSTV0910_P2_ACLC2S2Q +
state->regoff, 0x2a);
write_reg(state, RSTV0910_P2_ACLC2S216A +
state->regoff, aclc);
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} else if (state->modcod <= FE_32APSK_910) {
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write_reg(state, RSTV0910_P2_ACLC2S2Q +
state->regoff, 0x2a);
write_reg(state, RSTV0910_P2_ACLC2S232A +
state->regoff, aclc);
}
}
}
return 0;
}
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static s32 table_lookup(const struct slookup *table,
int table_size, u16 reg_value)
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{
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s32 value;
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int imin = 0;
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int imax = table_size - 1;
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int i;
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s32 reg_diff;
/* Assumes table[0].reg_value > table[imax].reg_value */
if (reg_value >= table[0].reg_value) {
value = table[0].value;
} else if (reg_value <= table[imax].reg_value) {
value = table[imax].value;
} else {
while (imax - imin > 1) {
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i = (imax + imin) / 2;
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if ((table[imin].reg_value >= reg_value) &&
(reg_value >= table[i].reg_value))
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imax = i;
else
imin = i;
}
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reg_diff = table[imax].reg_value - table[imin].reg_value;
value = table[imin].value;
if (reg_diff != 0)
value += ((s32)(reg_value - table[imin].reg_value) *
(s32)(table[imax].value -
table[imin].value)) / reg_diff;
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}
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return value;
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}
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static int get_signal_to_noise(struct stv *state, s32 *snr)
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{
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u8 data0;
u8 data1;
u16 data;
int n_lookup;
const struct slookup *lookup;
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*snr = 0;
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if (!state->started)
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return 0;
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if (state->receive_mode == RCVMODE_DVBS2) {
read_reg(state, RSTV0910_P2_NNOSPLHT1 + state->regoff, &data1);
read_reg(state, RSTV0910_P2_NNOSPLHT0 + state->regoff, &data0);
n_lookup = ARRAY_SIZE(s2_sn_lookup);
lookup = s2_sn_lookup;
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} else {
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read_reg(state, RSTV0910_P2_NNOSDATAT1 + state->regoff, &data1);
read_reg(state, RSTV0910_P2_NNOSDATAT0 + state->regoff, &data0);
n_lookup = ARRAY_SIZE(s1_sn_lookup);
lookup = s1_sn_lookup;
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}
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data = (((u16)data1) << 8) | (u16)data0;
*snr = table_lookup(lookup, n_lookup, data);
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return 0;
}
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static int get_ber_s(struct stv *state, u32 *ber_numerator,
u32 *ber_denominator)
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{
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u8 regs[3];
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int status = read_regs(state, RSTV0910_P2_ERRCNT12 + state->regoff,
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regs, 3);
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if (status)
return -1;
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if ((regs[0] & 0x80) == 0) {
state->last_ber_denominator = 1 << ((state->ber_scale * 2) +
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10 + 3);
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state->last_ber_numerator = ((u32)(regs[0] & 0x7f) << 16) |
((u32)regs[1] << 8) | regs[2];
if (state->last_ber_numerator < 256 && state->ber_scale < 6) {
state->ber_scale += 1;
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status = write_reg(state, RSTV0910_P2_ERRCTRL1 +
state->regoff,
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0x20 | state->ber_scale);
} else if (state->last_ber_numerator > 1024 &&
state->ber_scale > 2) {
state->ber_scale -= 1;
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status = write_reg(state, RSTV0910_P2_ERRCTRL1 +
state->regoff, 0x20 |
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state->ber_scale);
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}
}
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*ber_numerator = state->last_ber_numerator;
*ber_denominator = state->last_ber_denominator;
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return 0;
}
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static u32 dvbs_nbch(enum dvbs2_modcod modcod, enum dvbs2_fec_type fec_type)
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{
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static const u32 nbch[][2] = {
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{ 0, 0}, /* dummy */
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{16200, 3240}, /* QPSK_1_4, */
{21600, 5400}, /* QPSK_1_3, */
{25920, 6480}, /* QPSK_2_5, */
{32400, 7200}, /* QPSK_1_2, */
{38880, 9720}, /* QPSK_3_5, */
{43200, 10800}, /* QPSK_2_3, */
{48600, 11880}, /* QPSK_3_4, */
{51840, 12600}, /* QPSK_4_5, */
{54000, 13320}, /* QPSK_5_6, */
{57600, 14400}, /* QPSK_8_9, */
{58320, 16000}, /* QPSK_9_10, */
{43200, 9720}, /* 8PSK_3_5, */
{48600, 10800}, /* 8PSK_2_3, */
{51840, 11880}, /* 8PSK_3_4, */
{54000, 13320}, /* 8PSK_5_6, */
{57600, 14400}, /* 8PSK_8_9, */
{58320, 16000}, /* 8PSK_9_10, */
{43200, 10800}, /* 16APSK_2_3, */
{48600, 11880}, /* 16APSK_3_4, */
{51840, 12600}, /* 16APSK_4_5, */
{54000, 13320}, /* 16APSK_5_6, */
{57600, 14400}, /* 16APSK_8_9, */
{58320, 16000}, /* 16APSK_9_10 */
{48600, 11880}, /* 32APSK_3_4, */
{51840, 12600}, /* 32APSK_4_5, */
{54000, 13320}, /* 32APSK_5_6, */
{57600, 14400}, /* 32APSK_8_9, */
{58320, 16000}, /* 32APSK_9_10 */
};
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if (modcod >= DVBS2_QPSK_1_4 &&
modcod <= DVBS2_32APSK_9_10 && fec_type <= DVBS2_16K)
return nbch[modcod][fec_type];
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return 64800;
}
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static int get_ber_s2(struct stv *state,
u32 *ber_numerator,
u32 *ber_denominator)
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{
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u8 regs[3];
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int status = read_regs(state, RSTV0910_P2_ERRCNT12 + state->regoff,
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regs, 3);
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if (status)
return -1;
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if ((regs[0] & 0x80) == 0) {
state->last_ber_denominator =
dvbs_nbch((enum dvbs2_modcod)state->modcod,
state->fec_type) <<
(state->ber_scale * 2);
state->last_ber_numerator = (((u32)regs[0] & 0x7f) << 16) |
((u32)regs[1] << 8) | regs[2];
if (state->last_ber_numerator < 256 && state->ber_scale < 6) {
state->ber_scale += 1;
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write_reg(state, RSTV0910_P2_ERRCTRL1 + state->regoff,
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0x20 | state->ber_scale);
} else if (state->last_ber_numerator > 1024 &&
state->ber_scale > 2) {
state->ber_scale -= 1;
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write_reg(state, RSTV0910_P2_ERRCTRL1 + state->regoff,
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0x20 | state->ber_scale);
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}
}
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*ber_numerator = state->last_ber_numerator;
*ber_denominator = state->last_ber_denominator;
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return status;
}
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static int get_ber(struct stv *state, u32 *ber_numerator, u32 *ber_denominator)
2015-08-05 17:22:42 +02:00
{
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*ber_numerator = 0;
*ber_denominator = 1;
switch (state->receive_mode) {
case RCVMODE_DVBS:
return get_ber_s(state, ber_numerator, ber_denominator);
case RCVMODE_DVBS2:
return get_ber_s2(state, ber_numerator, ber_denominator);
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default:
break;
}
return 0;
}
static int init(struct dvb_frontend *fe)
{
return 0;
}
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static int set_mclock(struct stv *state, u32 master_clock)
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{
u32 idf = 1;
u32 odf = 4;
u32 quartz = state->base->extclk / 1000000;
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u32 fphi = master_clock / 1000000;
u32 ndiv = (fphi * odf * idf) / quartz;
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u32 cp = 7;
u32 fvco;
if (ndiv >= 7 && ndiv <= 71)
cp = 7;
else if (ndiv >= 72 && ndiv <= 79)
cp = 8;
else if (ndiv >= 80 && ndiv <= 87)
cp = 9;
else if (ndiv >= 88 && ndiv <= 95)
cp = 10;
else if (ndiv >= 96 && ndiv <= 103)
cp = 11;
else if (ndiv >= 104 && ndiv <= 111)
cp = 12;
else if (ndiv >= 112 && ndiv <= 119)
cp = 13;
else if (ndiv >= 120 && ndiv <= 127)
cp = 14;
else if (ndiv >= 128 && ndiv <= 135)
cp = 15;
else if (ndiv >= 136 && ndiv <= 143)
cp = 16;
else if (ndiv >= 144 && ndiv <= 151)
cp = 17;
else if (ndiv >= 152 && ndiv <= 159)
cp = 18;
else if (ndiv >= 160 && ndiv <= 167)
cp = 19;
else if (ndiv >= 168 && ndiv <= 175)
cp = 20;
else if (ndiv >= 176 && ndiv <= 183)
cp = 21;
else if (ndiv >= 184 && ndiv <= 191)
cp = 22;
else if (ndiv >= 192 && ndiv <= 199)
cp = 23;
else if (ndiv >= 200 && ndiv <= 207)
cp = 24;
else if (ndiv >= 208 && ndiv <= 215)
cp = 25;
else if (ndiv >= 216 && ndiv <= 223)
cp = 26;
else if (ndiv >= 224 && ndiv <= 225)
cp = 27;
write_reg(state, RSTV0910_NCOARSE, (cp << 3) | idf);
write_reg(state, RSTV0910_NCOARSE2, odf);
write_reg(state, RSTV0910_NCOARSE1, ndiv);
fvco = (quartz * 2 * ndiv) / idf;
state->base->mclk = fvco / (2 * odf) * 1000000;
/*pr_info("ndiv = %d, MasterClock = %d\n", ndiv, state->base->mclk);*/
return 0;
}
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static int stop(struct stv *state)
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{
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if (state->started) {
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u8 tmp;
write_reg(state, RSTV0910_P2_TSCFGH + state->regoff,
state->tscfgh | 0x01);
read_reg(state, RSTV0910_P2_PDELCTRL1 + state->regoff, &tmp);
tmp &= ~0x01; /*release reset DVBS2 packet delin*/
write_reg(state, RSTV0910_P2_PDELCTRL1 + state->regoff, tmp);
/* Blind optim*/
write_reg(state, RSTV0910_P2_AGC2O + state->regoff, 0x5B);
/* Stop the demod */
write_reg(state, RSTV0910_P2_DMDISTATE + state->regoff, 0x5c);
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state->started = 0;
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}
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state->receive_mode = RCVMODE_NONE;
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return 0;
}
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static int init_search_param(struct stv *state)
{
u8 tmp;
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read_reg(state, RSTV0910_P2_PDELCTRL1 + state->regoff, &tmp);
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tmp |= 0x20; // Filter_en (no effect if SIS=non-MIS
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write_reg(state, RSTV0910_P2_PDELCTRL1 + state->regoff, tmp);
2017-09-16 15:31:52 +02:00
2016-05-31 17:01:46 +02:00
read_reg(state, RSTV0910_P2_PDELCTRL2 + state->regoff, &tmp);
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tmp &= ~0x02; // frame mode = 0
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write_reg(state, RSTV0910_P2_PDELCTRL2 + state->regoff, tmp);
2017-09-16 15:31:52 +02:00
2016-05-31 17:01:46 +02:00
write_reg(state, RSTV0910_P2_UPLCCST0 + state->regoff, 0xe0);
write_reg(state, RSTV0910_P2_ISIBITENA + state->regoff, 0x00);
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read_reg(state, RSTV0910_P2_TSSTATEM + state->regoff, &tmp);
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tmp &= ~0x01; // nosync = 0, in case next signal is standard TS
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write_reg(state, RSTV0910_P2_TSSTATEM + state->regoff, tmp);
2017-09-16 15:31:52 +02:00
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read_reg(state, RSTV0910_P2_TSCFGL + state->regoff, &tmp);
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tmp &= ~0x04; // embindvb = 0
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write_reg(state, RSTV0910_P2_TSCFGL + state->regoff, tmp);
2017-09-16 15:31:52 +02:00
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read_reg(state, RSTV0910_P2_TSINSDELH + state->regoff, &tmp);
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tmp &= ~0x80; // syncbyte = 0
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write_reg(state, RSTV0910_P2_TSINSDELH + state->regoff, tmp);
2017-09-16 15:31:52 +02:00
2016-05-31 17:01:46 +02:00
read_reg(state, RSTV0910_P2_TSINSDELM + state->regoff, &tmp);
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tmp &= ~0x08; // token = 0
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write_reg(state, RSTV0910_P2_TSINSDELM + state->regoff, tmp);
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read_reg(state, RSTV0910_P2_TSDLYSET2 + state->regoff, &tmp);
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tmp &= ~0x30; // hysteresis threshold = 0
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write_reg(state, RSTV0910_P2_TSDLYSET2 + state->regoff, tmp);
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read_reg(state, RSTV0910_P2_PDELCTRL0 + state->regoff, &tmp);
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tmp = (tmp & ~0x30) | 0x10; // isi obs mode = 1, observe min ISI
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write_reg(state, RSTV0910_P2_PDELCTRL0 + state->regoff, tmp);
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return 0;
}
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static int enable_puncture_rate(struct stv *state, enum fe_code_rate rate)
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{
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u8 val;
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switch (rate) {
case FEC_1_2:
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val = 0x01;
break;
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case FEC_2_3:
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val = 0x02;
break;
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case FEC_3_4:
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val = 0x04;
break;
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case FEC_5_6:
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val = 0x08;
break;
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case FEC_7_8:
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val = 0x20;
break;
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case FEC_NONE:
default:
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val = 0x2f;
break;
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}
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return write_reg(state, RSTV0910_P2_PRVIT + state->regoff, val);
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}
static int set_vth_default(struct stv *state)
{
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state->vth[0] = 0xd7;
state->vth[1] = 0x85;
state->vth[2] = 0x58;
state->vth[3] = 0x3a;
state->vth[4] = 0x34;
state->vth[5] = 0x28;
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 0, state->vth[0]);
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 1, state->vth[1]);
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 2, state->vth[2]);
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 3, state->vth[3]);
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 4, state->vth[4]);
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 5, state->vth[5]);
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return 0;
}
static int set_vth(struct stv *state)
{
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static struct slookup vth_lookup_table[] = {
{250, 8780}, /* C/N= 1.5dB */
{100, 7405}, /* C/N= 4.5dB */
{40, 6330}, /* C/N= 6.5dB */
{12, 5224}, /* C/N= 8.5dB */
{5, 4236}, /* C/N=10.5dB */
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};
int i;
u8 tmp[2];
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int status = read_regs(state, RSTV0910_P2_NNOSDATAT1 + state->regoff,
tmp, 2);
u16 value = (tmp[0] << 8) | tmp[1];
s32 vth = table_lookup(vth_lookup_table,
ARRAY_SIZE(vth_lookup_table), value);
for (i = 0; i < 6; i += 1)
if (state->vth[i] > vth)
state->vth[i] = vth;
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 0, state->vth[0]);
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 1, state->vth[1]);
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 2, state->vth[2]);
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 3, state->vth[3]);
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 4, state->vth[4]);
write_reg(state, RSTV0910_P2_VTH12 + state->regoff + 5, state->vth[5]);
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return status;
}
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static int start(struct stv *state, struct dtv_frontend_properties *p)
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{
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s32 freq;
u8 reg_dmdcfgmd;
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u16 symb;
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u32 scrambling_code = 1;
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if (p->symbol_rate < 100000 || p->symbol_rate > 70000000)
return -EINVAL;
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state->receive_mode = RCVMODE_NONE;
state->demod_lock_time = 0;
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/* Demod Stop */
if (state->started)
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write_reg(state, RSTV0910_P2_DMDISTATE + state->regoff, 0x5C);
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init_search_param(state);
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if (p->stream_id != NO_STREAM_ID_FILTER) {
/* Backwards compatibility to "crazy" API.
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* PRBS X root cannot be 0, so this should always work.
*/
if (p->stream_id & 0xffffff00)
scrambling_code = p->stream_id >> 8;
write_reg(state, RSTV0910_P2_ISIENTRY + state->regoff,
p->stream_id & 0xff);
write_reg(state, RSTV0910_P2_ISIBITENA + state->regoff, 0xff);
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}
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/* props->pls is always gold code ! */
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if (p->pls != NO_SCRAMBLING_CODE)
scrambling_code = p->pls | 0x40000;
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if (scrambling_code != state->cur_scrambling_code) {
write_reg(state, RSTV0910_P2_PLROOT0 + state->regoff,
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scrambling_code & 0xff);
write_reg(state, RSTV0910_P2_PLROOT1 + state->regoff,
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(scrambling_code >> 8) & 0xff);
write_reg(state, RSTV0910_P2_PLROOT2 + state->regoff,
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(scrambling_code >> 16) & 0x0f);
state->cur_scrambling_code = scrambling_code;
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}
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if (p->symbol_rate <= 1000000) { /*SR <=1Msps*/
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state->demod_timeout = 3000;
state->fec_timeout = 2000;
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} else if (p->symbol_rate <= 2000000) { /*1Msps < SR <=2Msps*/
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state->demod_timeout = 2500;
state->fec_timeout = 1300;
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} else if (p->symbol_rate <= 5000000) { /*2Msps< SR <=5Msps*/
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state->demod_timeout = 1000;
state->fec_timeout = 650;
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} else if (p->symbol_rate <= 10000000) { /*5Msps< SR <=10Msps*/
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state->demod_timeout = 700;
state->fec_timeout = 350;
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} else if (p->symbol_rate < 20000000) { /*10Msps< SR <=20Msps*/
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state->demod_timeout = 400;
state->fec_timeout = 200;
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} else { /*SR >=20Msps*/
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state->demod_timeout = 300;
state->fec_timeout = 200;
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}
/* Set the Init Symbol rate*/
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symb = muldiv32(p->symbol_rate, 65536, state->base->mclk);
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write_reg(state, RSTV0910_P2_SFRINIT1 + state->regoff,
((symb >> 8) & 0x7F));
write_reg(state, RSTV0910_P2_SFRINIT0 + state->regoff, (symb & 0xFF));
/*pr_info("symb = %u\n", symb);*/
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state->demod |= 0x80;
write_reg(state, RSTV0910_P2_DEMOD + state->regoff, state->demod);
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/* FE_STV0910_SetSearchStandard */
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read_reg(state, RSTV0910_P2_DMDCFGMD + state->regoff, &reg_dmdcfgmd);
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write_reg(state, RSTV0910_P2_DMDCFGMD + state->regoff,
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reg_dmdcfgmd |= 0xC0);
write_shared_reg(state, RSTV0910_TSTTSRS,
state->nr ? 0x02 : 0x01, 0x00);
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/* Disable DSS */
write_reg(state, RSTV0910_P2_FECM + state->regoff, 0x00);
write_reg(state, RSTV0910_P2_PRVIT + state->regoff, 0x2F);
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enable_puncture_rate(state, FEC_NONE);
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/* 8PSK 3/5, 8PSK 2/3 Poff tracking optimization WA*/
write_reg(state, RSTV0910_P2_ACLC2S2Q + state->regoff, 0x0B);
write_reg(state, RSTV0910_P2_ACLC2S28 + state->regoff, 0x0A);
write_reg(state, RSTV0910_P2_BCLC2S2Q + state->regoff, 0x84);
write_reg(state, RSTV0910_P2_BCLC2S28 + state->regoff, 0x84);
write_reg(state, RSTV0910_P2_CARHDR + state->regoff, 0x1C);
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write_reg(state, RSTV0910_P2_CARFREQ + state->regoff, 0x79);
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write_reg(state, RSTV0910_P2_ACLC2S216A + state->regoff, 0x29);
write_reg(state, RSTV0910_P2_ACLC2S232A + state->regoff, 0x09);
write_reg(state, RSTV0910_P2_BCLC2S216A + state->regoff, 0x84);
write_reg(state, RSTV0910_P2_BCLC2S232A + state->regoff, 0x84);
/* Reset CAR3, bug DVBS2->DVBS1 lock*/
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/* Note: The bit is only pulsed -> no lock on shared register needed */
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write_reg(state, RSTV0910_TSTRES0, state->nr ? 0x04 : 0x08);
write_reg(state, RSTV0910_TSTRES0, 0);
set_vth_default(state);
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/* Reset demod */
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write_reg(state, RSTV0910_P2_DMDISTATE + state->regoff, 0x1F);
write_reg(state, RSTV0910_P2_CARCFG + state->regoff, 0x46);
if (p->symbol_rate <= 5000000)
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freq = (state->search_range / 2000) + 80;
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else
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freq = (state->search_range / 2000) + 1600;
freq = (freq << 16) / (state->base->mclk / 1000);
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write_reg(state, RSTV0910_P2_CFRUP1 + state->regoff,
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(freq >> 8) & 0xff);
write_reg(state, RSTV0910_P2_CFRUP0 + state->regoff, (freq & 0xff));
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/*CFR Low Setting*/
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freq = -freq;
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write_reg(state, RSTV0910_P2_CFRLOW1 + state->regoff,
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(freq >> 8) & 0xff);
write_reg(state, RSTV0910_P2_CFRLOW0 + state->regoff, (freq & 0xff));
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/* init the demod frequency offset to 0 */
write_reg(state, RSTV0910_P2_CFRINIT1 + state->regoff, 0);
write_reg(state, RSTV0910_P2_CFRINIT0 + state->regoff, 0);
write_reg(state, RSTV0910_P2_DMDISTATE + state->regoff, 0x1F);
/* Trigger acq */
write_reg(state, RSTV0910_P2_DMDISTATE + state->regoff, 0x15);
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state->demod_lock_time += TUNING_DELAY;
state->started = 1;
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return 0;
}
static int init_diseqc(struct stv *state)
{
u16 offs = state->nr ? 0x40 : 0; /* Address offset */
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u8 freq = ((state->base->mclk + 11000 * 32) / (22000 * 32));
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/* Disable receiver */
write_reg(state, RSTV0910_P1_DISRXCFG + offs, 0x00);
write_reg(state, RSTV0910_P1_DISTXCFG + offs, 0xBA); /* Reset = 1 */
write_reg(state, RSTV0910_P1_DISTXCFG + offs, 0x3A); /* Reset = 0 */
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write_reg(state, RSTV0910_P1_DISTXF22 + offs, freq);
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return 0;
}
static int probe(struct stv *state)
{
u8 id;
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state->receive_mode = RCVMODE_NONE;
state->started = 0;
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if (read_reg(state, RSTV0910_MID, &id) < 0)
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return -EINVAL;
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if (id != 0x51)
return -EINVAL;
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/* pr_info("stv0910: found STV0910 id=0x%02x\n", id); */
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/* Configure the I2C repeater to off */
write_reg(state, RSTV0910_P1_I2CRPT, 0x24);
/* Configure the I2C repeater to off */
write_reg(state, RSTV0910_P2_I2CRPT, 0x24);
/* Set the I2C to oversampling ratio */
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write_reg(state, RSTV0910_I2CCFG, 0x88); /* state->i2ccfg */
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write_reg(state, RSTV0910_OUTCFG, 0x00); /* OUTCFG */
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write_reg(state, RSTV0910_PADCFG, 0x05); /* RFAGC Pads Dev = 05 */
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write_reg(state, RSTV0910_SYNTCTRL, 0x02); /* SYNTCTRL */
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write_reg(state, RSTV0910_TSGENERAL, state->tsgeneral); /* TSGENERAL */
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write_reg(state, RSTV0910_CFGEXT, 0x02); /* CFGEXT */
if (state->single)
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write_reg(state, RSTV0910_GENCFG, 0x14); /* GENCFG */
else
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write_reg(state, RSTV0910_GENCFG, 0x15); /* GENCFG */
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write_reg(state, RSTV0910_P1_TNRCFG2, 0x02); /* IQSWAP = 0 */
write_reg(state, RSTV0910_P2_TNRCFG2, 0x82); /* IQSWAP = 1 */
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write_reg(state, RSTV0910_P1_CAR3CFG, 0x02);
write_reg(state, RSTV0910_P2_CAR3CFG, 0x02);
write_reg(state, RSTV0910_P1_DMDCFG4, 0x04);
write_reg(state, RSTV0910_P2_DMDCFG4, 0x04);
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write_reg(state, RSTV0910_TSTRES0, 0x80); /* LDPC Reset */
write_reg(state, RSTV0910_TSTRES0, 0x00);
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write_reg(state, RSTV0910_P1_TSPIDFLT1, 0x00);
write_reg(state, RSTV0910_P2_TSPIDFLT1, 0x00);
write_reg(state, RSTV0910_P1_TMGCFG2, 0x80);
write_reg(state, RSTV0910_P2_TMGCFG2, 0x80);
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set_mclock(state, 135000000);
/* TS output */
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write_reg(state, RSTV0910_P1_TSCFGH, state->tscfgh | 0x01);
write_reg(state, RSTV0910_P1_TSCFGH, state->tscfgh);
write_reg(state, RSTV0910_P1_TSCFGM, 0xC0); /* Manual speed */
write_reg(state, RSTV0910_P1_TSCFGL, 0x20);
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/* Speed = 67.5 MHz */
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write_reg(state, RSTV0910_P1_TSSPEED, state->tsspeed);
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write_reg(state, RSTV0910_P2_TSCFGH, state->tscfgh | 0x01);
write_reg(state, RSTV0910_P2_TSCFGH, state->tscfgh);
write_reg(state, RSTV0910_P2_TSCFGM, 0xC0); /* Manual speed */
write_reg(state, RSTV0910_P2_TSCFGL, 0x20);
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/* Speed = 67.5 MHz */
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write_reg(state, RSTV0910_P2_TSSPEED, state->tsspeed);
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/* Reset stream merger */
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write_reg(state, RSTV0910_P1_TSCFGH, state->tscfgh | 0x01);
write_reg(state, RSTV0910_P2_TSCFGH, state->tscfgh | 0x01);
write_reg(state, RSTV0910_P1_TSCFGH, state->tscfgh);
write_reg(state, RSTV0910_P2_TSCFGH, state->tscfgh);
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write_reg(state, RSTV0910_P1_I2CRPT, state->i2crpt);
write_reg(state, RSTV0910_P2_I2CRPT, state->i2crpt);
init_diseqc(state);
return 0;
}
static int gate_ctrl(struct dvb_frontend *fe, int enable)
{
struct stv *state = fe->demodulator_priv;
u8 i2crpt = state->i2crpt & ~0x86;
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int stat;
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if (enable) {
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mutex_lock(&state->base->i2c_lock);
i2crpt |= 0x80;
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} else
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i2crpt |= 0x02;
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stat = write_reg(state, state->nr ? RSTV0910_P2_I2CRPT :
RSTV0910_P1_I2CRPT, i2crpt);
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state->i2crpt = i2crpt;
if (!enable)
mutex_unlock(&state->base->i2c_lock);
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return stat;
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}
static void release(struct dvb_frontend *fe)
{
struct stv *state = fe->demodulator_priv;
state->base->count--;
if (state->base->count == 0) {
list_del(&state->base->stvlist);
kfree(state->base);
}
kfree(state);
}
static int set_parameters(struct dvb_frontend *fe)
{
int stat = 0;
struct stv *state = fe->demodulator_priv;
u32 IF;
struct dtv_frontend_properties *p = &fe->dtv_property_cache;
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stop(state);
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if (fe->ops.tuner_ops.set_params)
fe->ops.tuner_ops.set_params(fe);
if (fe->ops.tuner_ops.get_if_frequency)
fe->ops.tuner_ops.get_if_frequency(fe, &IF);
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state->symbol_rate = p->symbol_rate;
stat = start(state, p);
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return stat;
}
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static int get_frequency_offset(struct stv *state, s32 *off)
{
u8 cfr0, cfr1, cfr2;
s32 derot;
read_reg(state, RSTV0910_P2_CFR2 + state->regoff, &cfr2);
read_reg(state, RSTV0910_P2_CFR1 + state->regoff, &cfr1);
read_reg(state, RSTV0910_P2_CFR0 + state->regoff, &cfr0);
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derot = ((u32)cfr2 << 16) | ((u32)cfr1 << 8) | cfr0;
if (derot & (1 << 23))
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derot |= 0xFF000000;
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*off = (s32)(((s64)derot * (s64)state->base->mclk) >> 24);
//pr_info("foff = %d\n", *off);
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return 0;
}
static int get_frontend(struct dvb_frontend *fe, struct dtv_frontend_properties *p)
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{
struct stv *state = fe->demodulator_priv;
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u8 tmp;
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if (state->receive_mode == RCVMODE_DVBS2) {
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u32 mc;
enum fe_modulation modcod2mod[0x20] = {
QPSK, QPSK, QPSK, QPSK,
QPSK, QPSK, QPSK, QPSK,
QPSK, QPSK, QPSK, QPSK,
PSK_8, PSK_8, PSK_8, PSK_8,
PSK_8, PSK_8, APSK_16, APSK_16,
APSK_16, APSK_16, APSK_16, APSK_16,
APSK_32, APSK_32, APSK_32, APSK_32,
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APSK_32,
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};
enum fe_code_rate modcod2fec[0x20] = {
FEC_NONE, FEC_1_4, FEC_1_3, FEC_2_5,
FEC_1_2, FEC_3_5, FEC_2_3, FEC_3_4,
FEC_4_5, FEC_5_6, FEC_8_9, FEC_9_10,
FEC_3_5, FEC_2_3, FEC_3_4, FEC_5_6,
FEC_8_9, FEC_9_10, FEC_2_3, FEC_3_4,
FEC_4_5, FEC_5_6, FEC_8_9, FEC_9_10,
FEC_3_4, FEC_4_5, FEC_5_6, FEC_8_9,
FEC_9_10
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};
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read_reg(state, RSTV0910_P2_DMDMODCOD + state->regoff, &tmp);
mc = ((tmp & 0x7c) >> 2);
p->pilot = (tmp & 0x01) ? PILOT_ON : PILOT_OFF;
p->modulation = modcod2mod[mc];
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p->fec_inner = modcod2fec[mc];
} else if (state->receive_mode == RCVMODE_DVBS) {
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read_reg(state, RSTV0910_P2_VITCURPUN + state->regoff, &tmp);
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switch (tmp & 0x1f) {
case 0x0d:
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p->fec_inner = FEC_1_2;
break;
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case 0x12:
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p->fec_inner = FEC_2_3;
break;
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case 0x15:
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p->fec_inner = FEC_3_4;
break;
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case 0x18:
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p->fec_inner = FEC_5_6;
break;
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case 0x1a:
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p->fec_inner = FEC_7_8;
break;
default:
p->fec_inner = FEC_NONE;
break;
}
p->rolloff = ROLLOFF_35;
}
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return 0;
}
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static int manage_matype_info(struct stv *state)
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{
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if (!state->started)
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return -1;
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if (state->receive_mode == RCVMODE_DVBS2) {
u8 bbheader[2];
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read_regs(state, RSTV0910_P2_MATSTR1 + state->regoff,
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bbheader, 2);
state->fe_roll_off =
(enum fe_stv0910_roll_off)(bbheader[0] & 0x03);
state->is_vcm = (bbheader[0] & 0x10) == 0;
state->is_standard_broadcast = (bbheader[0] & 0xFC) == 0xF0;
} else if (state->receive_mode == RCVMODE_DVBS) {
state->is_vcm = 0;
state->is_standard_broadcast = 1;
state->fe_roll_off = FE_SAT_35;
}
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return 0;
}
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static int read_snr(struct dvb_frontend *fe, u16 *snr);
static int read_signal_strength(struct dvb_frontend *fe, u16 *strength);
static int read_ber(struct dvb_frontend *fe, u32 *ber);
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static int read_status(struct dvb_frontend *fe, enum fe_status *status)
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{
struct stv *state = fe->demodulator_priv;
struct dtv_frontend_properties *p = &fe->dtv_property_cache;
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u8 dmdstate = 0;
enum receive_mode cur_receive_mode = RCVMODE_NONE;
u32 fec_lock = 0;
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u16 val;
u32 ber;
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s32 foff;
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*status = 0;
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read_reg(state, RSTV0910_P2_DMDSTATE + state->regoff, &dmdstate);
if (dmdstate & 0x40) {
u8 dstatus = 0;
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read_reg(state, RSTV0910_P2_DSTATUS + state->regoff,
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&dstatus);
if (dstatus & 0x08)
cur_receive_mode = (dmdstate & 0x20) ?
RCVMODE_DVBS : RCVMODE_DVBS2;
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}
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if (cur_receive_mode == RCVMODE_NONE) {
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set_vth(state);
/*if( Time >= state->demod_timeout )
**pLockStatus = NEVER_LOCK;
*/
goto get_stat;
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}
*status = (FE_HAS_SIGNAL | FE_HAS_CARRIER |
FE_HAS_VITERBI | FE_HAS_SYNC);
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if (state->receive_mode == RCVMODE_NONE) {
state->receive_mode = cur_receive_mode;
state->demod_lock_time = jiffies;
state->first_time_lock = 1;
get_signal_parameters(state);
tracking_optimization(state);
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#if 0
if (cur_receive_mode == RCVMODE_DVBS2 && state->pilots &&
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(m_modcod == FE_8PSK_23 || m_modcod == FE_8PSK_35)) {
u32 cn;
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get_signal_to_noise(&cn);
if (cn < 80) {
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write_reg(RSTV0910_P2_CARHDR + state->regoff,
0x04);
write_reg(RSTV0910_P2_BCLC2S28 + state->regoff,
0x31);
}
}
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#endif
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write_reg(state, RSTV0910_P2_TSCFGH + state->regoff,
state->tscfgh);
usleep_range(3000, 4000);
write_reg(state, RSTV0910_P2_TSCFGH + state->regoff,
state->tscfgh | 0x01);
write_reg(state, RSTV0910_P2_TSCFGH + state->regoff,
state->tscfgh);
}
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if (dmdstate & 0x40) {
if (state->receive_mode == RCVMODE_DVBS2) {
u8 pdel;
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read_reg(state,
RSTV0910_P2_PDELSTATUS1 + state->regoff,
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&pdel);
fec_lock = (pdel & 0x02) != 0;
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} else {
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u8 vstatus;
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read_reg(state,
RSTV0910_P2_VSTATUSVIT + state->regoff,
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&vstatus);
fec_lock = (vstatus & 0x08) != 0;
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}
}
if (fec_lock) {
*status |= FE_HAS_LOCK;
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if (state->first_time_lock) {
u8 tmp;
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state->first_time_lock = 0;
manage_matype_info(state);
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#if 0
u32 bitrate = get_bitrate(&bitrate);
u8 new_tsspeed = (bitrate > 67000000) ? 0x30 : 0x40;
if (new_tsspeed != state->tsspeed) {
write_reg(state,
RSTV0910_P2_TSSPEED + state->regoff,
new_tsspeed);
state->tsspeed = new_tsspeed;
}
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#endif
if (state->receive_mode == RCVMODE_DVBS2) {
/* FSTV0910_P2_MANUALSX_ROLLOFF,
* FSTV0910_P2_MANUALS2_ROLLOFF = 0
*/
state->demod &= ~0x84;
write_reg(state,
RSTV0910_P2_DEMOD + state->regoff,
state->demod);
read_reg(state,
RSTV0910_P2_PDELCTRL2 + state->regoff,
&tmp);
/*reset DVBS2 packet delinator error counter */
tmp |= 0x40;
write_reg(state, RSTV0910_P2_PDELCTRL2 +
state->regoff,
tmp);
/*reset DVBS2 packet delinator error counter */
tmp &= ~0x40;
write_reg(state, RSTV0910_P2_PDELCTRL2 +
state->regoff,
tmp);
state->ber_scale = 2;
state->last_ber_numerator = 0;
state->last_ber_denominator = 1;
/* force to PRE BCH Rate */
write_reg(state,
RSTV0910_P2_ERRCTRL1 + state->regoff,
BER_SRC_S2 | state->ber_scale);
} else {
state->ber_scale = 2;
state->last_ber_numerator = 0;
state->last_ber_denominator = 1;
/* force to PRE RS Rate */
write_reg(state,
RSTV0910_P2_ERRCTRL1 + state->regoff,
BER_SRC_S | state->ber_scale);
}
/* Reset the Total packet counter */
write_reg(state,
RSTV0910_P2_FBERCPT4 + state->regoff, 0x00);
/* Reset the packet Error counter2 (and Set it to
* infinite error count mode )
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*/
write_reg(state,
RSTV0910_P2_ERRCTRL2 + state->regoff, 0xc1);
set_vth_default(state);
if (state->receive_mode == RCVMODE_DVBS)
enable_puncture_rate(state,
state->puncture_rate);
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}
/* Use highest signaled ModCod for quality */
if (state->is_vcm) {
u8 tmp;
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enum fe_stv0910_modcod modcod;
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read_reg(state, RSTV0910_P2_DMDMODCOD + state->regoff,
&tmp);
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modcod = (enum fe_stv0910_modcod)((tmp & 0x7c) >> 2);
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if (modcod > state->modcod)
state->modcod = modcod;
}
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}
get_stat:
if (time_in_range(state->stat_time, jiffies, jiffies + HZ))
return 0;
state->stat_time = jiffies + HZ;
read_signal_strength(fe, &val);
if (*status & FE_HAS_CARRIER)
read_snr(fe, &val);
else
p->cnr.stat[0].scale = FE_SCALE_NOT_AVAILABLE;
if (*status & FE_HAS_VITERBI) {
read_ber(fe, &ber);
} else {
p->pre_bit_error.stat[0].scale = FE_SCALE_NOT_AVAILABLE;
p->pre_bit_count.stat[0].scale = FE_SCALE_NOT_AVAILABLE;
}
get_frequency_offset(state, &foff);
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return 0;
}
static int tune(struct dvb_frontend *fe, bool re_tune,
unsigned int mode_flags,
unsigned int *delay, enum fe_status *status)
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{
struct stv *state = fe->demodulator_priv;
int r;
if (re_tune) {
r = set_parameters(fe);
if (r)
return r;
state->tune_time = jiffies;
}
r = read_status(fe, status);
if (r)
return r;
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if (*status & FE_HAS_LOCK)
return 0;
*delay = HZ / 10;
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return 0;
}
static int get_algo(struct dvb_frontend *fe)
{
return DVBFE_ALGO_HW;
}
static int set_tone(struct dvb_frontend *fe, enum fe_sec_tone_mode tone)
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{
struct stv *state = fe->demodulator_priv;
u16 offs = state->nr ? 0x40 : 0;
switch (tone) {
case SEC_TONE_ON:
return write_reg(state, RSTV0910_P1_DISTXCFG + offs, 0x38);
case SEC_TONE_OFF:
return write_reg(state, RSTV0910_P1_DISTXCFG + offs, 0x3a);
default:
break;
}
return -EINVAL;
}
static int wait_dis(struct stv *state, u8 flag, u8 val)
{
int i;
u8 stat;
u16 offs = state->nr ? 0x40 : 0;
for (i = 0; i < 10; i++) {
read_reg(state, RSTV0910_P1_DISTXSTATUS + offs, &stat);
if ((stat & flag) == val)
return 0;
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usleep_range(10000, 11000);
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}
return -1;
}
static int send_master_cmd(struct dvb_frontend *fe,
struct dvb_diseqc_master_cmd *cmd)
{
struct stv *state = fe->demodulator_priv;
u16 offs = state->nr ? 0x40 : 0;
int i;
write_reg(state, RSTV0910_P1_DISTXCFG + offs, 0x3E);
for (i = 0; i < cmd->msg_len; i++) {
wait_dis(state, 0x40, 0x00);
write_reg(state, RSTV0910_P1_DISTXFIFO + offs, cmd->msg[i]);
}
write_reg(state, RSTV0910_P1_DISTXCFG + offs, 0x3A);
wait_dis(state, 0x20, 0x20);
return 0;
}
static int recv_slave_reply(struct dvb_frontend *fe,
struct dvb_diseqc_slave_reply *reply)
{
return 0;
}
static int send_burst(struct dvb_frontend *fe, enum fe_sec_mini_cmd burst)
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{
#if 0
struct stv *state = fe->demodulator_priv;
u16 offs = state->nr ? 0x40 : 0;
u8 value;
if (burst == SEC_MINI_A) {
write_reg(state, RSTV0910_P1_DISTXCFG + offs, 0x3F);
value = 0x00;
} else {
write_reg(state, RSTV0910_P1_DISTXCFG + offs, 0x3E);
value = 0xFF;
}
wait_dis(state, 0x40, 0x00);
write_reg(state, RSTV0910_P1_DISTXFIFO + offs, value);
write_reg(state, RSTV0910_P1_DISTXCFG + offs, 0x3A);
wait_dis(state, 0x20, 0x20);
#endif
return 0;
}
static int sleep(struct dvb_frontend *fe)
{
struct stv *state = fe->demodulator_priv;
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stop(state);
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return 0;
}
static int read_snr(struct dvb_frontend *fe, u16 *snr)
{
struct stv *state = fe->demodulator_priv;
2016-03-23 22:02:24 +01:00
struct dtv_frontend_properties *p = &fe->dtv_property_cache;
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s32 snr32;
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*snr = 0;
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if (get_signal_to_noise(state, &snr32))
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return -EIO;
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*snr = snr32;
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p->cnr.len = 1;
p->cnr.stat[0].scale = FE_SCALE_DECIBEL;
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p->cnr.stat[0].uvalue = 100 * (s64)snr32;
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return 0;
}
static int read_ber(struct dvb_frontend *fe, u32 *ber)
{
struct stv *state = fe->demodulator_priv;
2016-03-22 22:18:13 +01:00
struct dtv_frontend_properties *p = &fe->dtv_property_cache;
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u32 n, d;
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get_ber(state, &n, &d);
if (d)
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*ber = n / d;
else
*ber = 0;
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p->pre_bit_error.len = 1;
p->pre_bit_error.stat[0].scale = FE_SCALE_COUNTER;
p->pre_bit_error.stat[0].uvalue = n;
p->pre_bit_count.len = 1;
p->pre_bit_count.stat[0].scale = FE_SCALE_COUNTER;
p->pre_bit_count.stat[0].uvalue = d;
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return 0;
}
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static s32 log10x100(u32 x)
2016-03-22 22:18:13 +01:00
{
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static const u32 lookup_table[100] = {
2016-03-22 22:18:13 +01:00
101157945, 103514217, 105925373, 108392691, 110917482,
113501082, 116144861, 118850223, 121618600, 124451461,
127350308, 130316678, 133352143, 136458314, 139636836,
142889396, 146217717, 149623566, 153108746, 156675107,
160324539, 164058977, 167880402, 171790839, 175792361,
179887092, 184077200, 188364909, 192752491, 197242274,
201836636, 206538016, 211348904, 216271852, 221309471,
226464431, 231739465, 237137371, 242661010, 248313311,
254097271, 260015956, 266072506, 272270131, 278612117,
285101827, 291742701, 298538262, 305492111, 312607937,
319889511, 327340695, 334965439, 342767787, 350751874,
358921935, 367282300, 375837404, 384591782, 393550075,
402717034, 412097519, 421696503, 431519077, 441570447,
451855944, 462381021, 473151259, 484172368, 495450191,
506990708, 518800039, 530884444, 543250331, 555904257,
568852931, 582103218, 595662144, 609536897, 623734835,
638263486, 653130553, 668343918, 683911647, 699841996,
716143410, 732824533, 749894209, 767361489, 785235635,
803526122, 822242650, 841395142, 860993752, 881048873,
901571138, 922571427, 944060876, 966050879, 988553095,
};
s32 y;
int i;
if (x == 0)
return 0;
y = 800;
if (x >= 1000000000) {
x /= 10;
y += 100;
}
while (x < 100000000) {
x *= 10;
y -= 100;
}
i = 0;
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while (i < 100 && x > lookup_table[i])
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i += 1;
y += i;
return y;
}
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static int read_signal_strength(struct dvb_frontend *fe, u16 *strength)
{
struct stv *state = fe->demodulator_priv;
2016-03-22 22:18:13 +01:00
struct dtv_frontend_properties *p = &fe->dtv_property_cache;
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u8 reg[2];
2016-03-23 22:02:24 +01:00
s32 bbgain;
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s32 power = 0;
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int i;
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read_regs(state, RSTV0910_P2_AGCIQIN1 + state->regoff, reg, 2);
*strength = (((u32)reg[0]) << 8) | reg[1];
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for (i = 0; i < 5; i += 1) {
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read_regs(state, RSTV0910_P2_POWERI + state->regoff, reg, 2);
power += (u32)reg[0] * (u32)reg[0] +
(u32)reg[1] * (u32)reg[1];
usleep_range(3000, 4000);
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}
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power /= 5;
bbgain = (465 - log10x100(power)) * 10;
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if (fe->ops.tuner_ops.get_rf_strength)
fe->ops.tuner_ops.get_rf_strength(fe, strength);
else
*strength = 0;
2016-03-23 22:02:24 +01:00
2017-09-16 15:31:52 +02:00
if (bbgain < (s32)*strength)
2016-03-23 22:02:24 +01:00
*strength -= bbgain;
2016-03-22 22:43:26 +01:00
else
*strength = 0;
2017-09-16 15:31:52 +02:00
2016-03-22 22:18:13 +01:00
p->strength.len = 1;
p->strength.stat[0].scale = FE_SCALE_DECIBEL;
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p->strength.stat[0].uvalue = 10 * (s64)(s16)*strength - 108750;
2016-07-31 21:39:20 +02:00
/* *strength is in hundredth dBuv, uvalue is in thousandth dBm */
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return 0;
}
static int read_ucblocks(struct dvb_frontend *fe, u32 *ucblocks)
{
/* struct stv *state = fe->demodulator_priv; */
return 0;
}
static struct dvb_frontend_ops stv0910_ops = {
.delsys = { SYS_DVBS, SYS_DVBS2, SYS_DSS },
.info = {
.name = "STV0910",
.frequency_min = 950000,
.frequency_max = 2150000,
.frequency_stepsize = 0,
.frequency_tolerance = 0,
2017-08-25 23:30:28 +02:00
.symbol_rate_min = 100000,
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.symbol_rate_max = 70000000,
.caps = FE_CAN_INVERSION_AUTO |
FE_CAN_FEC_AUTO |
FE_CAN_QPSK |
FE_CAN_2G_MODULATION |
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FE_CAN_MULTISTREAM,
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},
.init = init,
.sleep = sleep,
.release = release,
.i2c_gate_ctrl = gate_ctrl,
.get_frontend_algo = get_algo,
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.get_frontend = get_frontend,
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.tune = tune,
.read_status = read_status,
.set_tone = set_tone,
.diseqc_send_master_cmd = send_master_cmd,
.diseqc_send_burst = send_burst,
.diseqc_recv_slave_reply = recv_slave_reply,
.read_snr = read_snr,
.read_ber = read_ber,
.read_signal_strength = read_signal_strength,
.read_ucblocks = read_ucblocks,
};
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static struct stv_base *match_base(struct i2c_adapter *i2c, u8 adr)
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{
struct stv_base *p;
list_for_each_entry(p, &stvlist, stvlist)
if (p->i2c == i2c && p->adr == adr)
return p;
return NULL;
}
struct dvb_frontend *stv0910_attach(struct i2c_adapter *i2c,
struct stv0910_cfg *cfg,
int nr)
{
struct stv *state;
struct stv_base *base;
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state = kzalloc(sizeof(*state), GFP_KERNEL);
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if (!state)
return NULL;
state->tscfgh = 0x20 | (cfg->parallel ? 0 : 0x40);
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state->tsgeneral = (cfg->parallel == 2) ? 0x02 : 0x00;
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state->i2crpt = 0x0A | ((cfg->rptlvl & 0x07) << 4);
state->tsspeed = 0x28;
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state->nr = nr;
state->regoff = state->nr ? 0 : 0x200;
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state->search_range = 16000000;
state->demod = 0x10; /* Inversion : Auto with reset to 0 */
state->receive_mode = RCVMODE_NONE;
state->cur_scrambling_code = NO_SCRAMBLING_CODE;
state->single = cfg->single ? 1 : 0;
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base = match_base(i2c, cfg->adr);
if (base) {
base->count++;
state->base = base;
} else {
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base = kzalloc(sizeof(*base), GFP_KERNEL);
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if (!base)
goto fail;
base->i2c = i2c;
base->adr = cfg->adr;
base->count = 1;
base->extclk = cfg->clk ? cfg->clk : 30000000;
mutex_init(&base->i2c_lock);
mutex_init(&base->reg_lock);
state->base = base;
if (probe(state) < 0) {
kfree(base);
goto fail;
}
list_add(&base->stvlist, &stvlist);
}
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state->fe.ops = stv0910_ops;
state->fe.demodulator_priv = state;
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state->nr = nr;
return &state->fe;
fail:
kfree(state);
return NULL;
}
EXPORT_SYMBOL_GPL(stv0910_attach);
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MODULE_DESCRIPTION("STV0910 DVB-S/S2 demodulator driver");
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MODULE_AUTHOR("Ralph und Marcus Metzler, Manfred Voelkel");
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MODULE_LICENSE("GPL");