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// SPDX-License-Identifier: GPL-2.0-or-later
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/*
* Linux - DVB Driver for DiBcom ' s DiB0090 base - band RF Tuner .
*
* Copyright ( C ) 2005 - 9 DiBcom ( http : //www.dibcom.fr/)
*
* This code is more or less generated from another driver , please
* excuse some codingstyle oddities .
*/
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# define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
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# include <linux/kernel.h>
include cleanup: Update gfp.h and slab.h includes to prepare for breaking implicit slab.h inclusion from percpu.h
percpu.h is included by sched.h and module.h and thus ends up being
included when building most .c files. percpu.h includes slab.h which
in turn includes gfp.h making everything defined by the two files
universally available and complicating inclusion dependencies.
percpu.h -> slab.h dependency is about to be removed. Prepare for
this change by updating users of gfp and slab facilities include those
headers directly instead of assuming availability. As this conversion
needs to touch large number of source files, the following script is
used as the basis of conversion.
http://userweb.kernel.org/~tj/misc/slabh-sweep.py
The script does the followings.
* Scan files for gfp and slab usages and update includes such that
only the necessary includes are there. ie. if only gfp is used,
gfp.h, if slab is used, slab.h.
* When the script inserts a new include, it looks at the include
blocks and try to put the new include such that its order conforms
to its surrounding. It's put in the include block which contains
core kernel includes, in the same order that the rest are ordered -
alphabetical, Christmas tree, rev-Xmas-tree or at the end if there
doesn't seem to be any matching order.
* If the script can't find a place to put a new include (mostly
because the file doesn't have fitting include block), it prints out
an error message indicating which .h file needs to be added to the
file.
The conversion was done in the following steps.
1. The initial automatic conversion of all .c files updated slightly
over 4000 files, deleting around 700 includes and adding ~480 gfp.h
and ~3000 slab.h inclusions. The script emitted errors for ~400
files.
2. Each error was manually checked. Some didn't need the inclusion,
some needed manual addition while adding it to implementation .h or
embedding .c file was more appropriate for others. This step added
inclusions to around 150 files.
3. The script was run again and the output was compared to the edits
from #2 to make sure no file was left behind.
4. Several build tests were done and a couple of problems were fixed.
e.g. lib/decompress_*.c used malloc/free() wrappers around slab
APIs requiring slab.h to be added manually.
5. The script was run on all .h files but without automatically
editing them as sprinkling gfp.h and slab.h inclusions around .h
files could easily lead to inclusion dependency hell. Most gfp.h
inclusion directives were ignored as stuff from gfp.h was usually
wildly available and often used in preprocessor macros. Each
slab.h inclusion directive was examined and added manually as
necessary.
6. percpu.h was updated not to include slab.h.
7. Build test were done on the following configurations and failures
were fixed. CONFIG_GCOV_KERNEL was turned off for all tests (as my
distributed build env didn't work with gcov compiles) and a few
more options had to be turned off depending on archs to make things
build (like ipr on powerpc/64 which failed due to missing writeq).
* x86 and x86_64 UP and SMP allmodconfig and a custom test config.
* powerpc and powerpc64 SMP allmodconfig
* sparc and sparc64 SMP allmodconfig
* ia64 SMP allmodconfig
* s390 SMP allmodconfig
* alpha SMP allmodconfig
* um on x86_64 SMP allmodconfig
8. percpu.h modifications were reverted so that it could be applied as
a separate patch and serve as bisection point.
Given the fact that I had only a couple of failures from tests on step
6, I'm fairly confident about the coverage of this conversion patch.
If there is a breakage, it's likely to be something in one of the arch
headers which should be easily discoverable easily on most builds of
the specific arch.
Signed-off-by: Tejun Heo <tj@kernel.org>
Guess-its-ok-by: Christoph Lameter <cl@linux-foundation.org>
Cc: Ingo Molnar <mingo@redhat.com>
Cc: Lee Schermerhorn <Lee.Schermerhorn@hp.com>
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# include <linux/slab.h>
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# include <linux/i2c.h>
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# include <linux/mutex.h>
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# include <media/dvb_frontend.h>
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# include "dib0090.h"
# include "dibx000_common.h"
static int debug ;
module_param ( debug , int , 0644 ) ;
MODULE_PARM_DESC ( debug , " turn on debugging (default: 0) " ) ;
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# define dprintk(fmt, arg...) do { \
if ( debug ) \
printk ( KERN_DEBUG pr_fmt ( " %s: " fmt ) , \
__func__ , # # arg ) ; \
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} while ( 0 )
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# define CONFIG_SYS_DVBT
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# define CONFIG_SYS_ISDBT
# define CONFIG_BAND_CBAND
# define CONFIG_BAND_VHF
# define CONFIG_BAND_UHF
# define CONFIG_DIB0090_USE_PWM_AGC
# define EN_LNA0 0x8000
# define EN_LNA1 0x4000
# define EN_LNA2 0x2000
# define EN_LNA3 0x1000
# define EN_MIX0 0x0800
# define EN_MIX1 0x0400
# define EN_MIX2 0x0200
# define EN_MIX3 0x0100
# define EN_IQADC 0x0040
# define EN_PLL 0x0020
# define EN_TX 0x0010
# define EN_BB 0x0008
# define EN_LO 0x0004
# define EN_BIAS 0x0001
# define EN_IQANA 0x0002
# define EN_DIGCLK 0x0080 /* not in the 0x24 reg, only in 0x1b */
# define EN_CRYSTAL 0x0002
# define EN_UHF 0x22E9
# define EN_VHF 0x44E9
# define EN_LBD 0x11E9
# define EN_SBD 0x44E9
# define EN_CAB 0x88E9
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/* Calibration defines */
# define DC_CAL 0x1
# define WBD_CAL 0x2
# define TEMP_CAL 0x4
# define CAPTRIM_CAL 0x8
# define KROSUS_PLL_LOCKED 0x800
# define KROSUS 0x2
/* Use those defines to identify SOC version */
# define SOC 0x02
# define SOC_7090_P1G_11R1 0x82
# define SOC_7090_P1G_21R1 0x8a
# define SOC_8090_P1G_11R1 0x86
# define SOC_8090_P1G_21R1 0x8e
/* else use thos ones to check */
# define P1A_B 0x0
# define P1C 0x1
# define P1D_E_F 0x3
# define P1G 0x7
# define P1G_21R2 0xf
# define MP001 0x1 /* Single 9090/8096 */
# define MP005 0x4 /* Single Sband */
# define MP008 0x6 /* Dual diversity VHF-UHF-LBAND */
# define MP009 0x7 /* Dual diversity 29098 CBAND-UHF-LBAND-SBAND */
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# define pgm_read_word(w) (*w)
struct dc_calibration ;
struct dib0090_tuning {
u32 max_freq ; /* for every frequency less than or equal to that field: this information is correct */
u8 switch_trim ;
u8 lna_tune ;
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u16 lna_bias ;
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u16 v2i ;
u16 mix ;
u16 load ;
u16 tuner_enable ;
} ;
struct dib0090_pll {
u32 max_freq ; /* for every frequency less than or equal to that field: this information is correct */
u8 vco_band ;
u8 hfdiv_code ;
u8 hfdiv ;
u8 topresc ;
} ;
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struct dib0090_identity {
u8 version ;
u8 product ;
u8 p1g ;
u8 in_soc ;
} ;
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struct dib0090_state {
struct i2c_adapter * i2c ;
struct dvb_frontend * fe ;
const struct dib0090_config * config ;
u8 current_band ;
enum frontend_tune_state tune_state ;
u32 current_rf ;
u16 wbd_offset ;
s16 wbd_target ; /* in dB */
s16 rf_gain_limit ; /* take-over-point: where to split between bb and rf gain */
s16 current_gain ; /* keeps the currently programmed gain */
u8 agc_step ; /* new binary search */
u16 gain [ 2 ] ; /* for channel monitoring */
const u16 * rf_ramp ;
const u16 * bb_ramp ;
/* for the software AGC ramps */
u16 bb_1_def ;
u16 rf_lt_def ;
u16 gain_reg [ 4 ] ;
/* for the captrim/dc-offset search */
s8 step ;
s16 adc_diff ;
s16 min_adc_diff ;
s8 captrim ;
s8 fcaptrim ;
const struct dc_calibration * dc ;
u16 bb6 , bb7 ;
const struct dib0090_tuning * current_tune_table_index ;
const struct dib0090_pll * current_pll_table_index ;
u8 tuner_is_tuned ;
u8 agc_freeze ;
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struct dib0090_identity identity ;
u32 rf_request ;
u8 current_standard ;
u8 calibrate ;
u32 rest ;
u16 bias ;
s16 temperature ;
u8 wbd_calibration_gain ;
const struct dib0090_wbd_slope * current_wbd_table ;
u16 wbdmux ;
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/* for the I2C transfer */
struct i2c_msg msg [ 2 ] ;
u8 i2c_write_buffer [ 3 ] ;
u8 i2c_read_buffer [ 2 ] ;
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struct mutex i2c_buffer_lock ;
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} ;
struct dib0090_fw_state {
struct i2c_adapter * i2c ;
struct dvb_frontend * fe ;
struct dib0090_identity identity ;
const struct dib0090_config * config ;
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/* for the I2C transfer */
struct i2c_msg msg ;
u8 i2c_write_buffer [ 2 ] ;
u8 i2c_read_buffer [ 2 ] ;
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struct mutex i2c_buffer_lock ;
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} ;
static u16 dib0090_read_reg ( struct dib0090_state * state , u8 reg )
{
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u16 ret ;
if ( mutex_lock_interruptible ( & state - > i2c_buffer_lock ) < 0 ) {
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dprintk ( " could not acquire lock \n " ) ;
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return 0 ;
}
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state - > i2c_write_buffer [ 0 ] = reg ;
memset ( state - > msg , 0 , 2 * sizeof ( struct i2c_msg ) ) ;
state - > msg [ 0 ] . addr = state - > config - > i2c_address ;
state - > msg [ 0 ] . flags = 0 ;
state - > msg [ 0 ] . buf = state - > i2c_write_buffer ;
state - > msg [ 0 ] . len = 1 ;
state - > msg [ 1 ] . addr = state - > config - > i2c_address ;
state - > msg [ 1 ] . flags = I2C_M_RD ;
state - > msg [ 1 ] . buf = state - > i2c_read_buffer ;
state - > msg [ 1 ] . len = 2 ;
if ( i2c_transfer ( state - > i2c , state - > msg , 2 ) ! = 2 ) {
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pr_warn ( " DiB0090 I2C read failed \n " ) ;
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ret = 0 ;
} else
ret = ( state - > i2c_read_buffer [ 0 ] < < 8 )
| state - > i2c_read_buffer [ 1 ] ;
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mutex_unlock ( & state - > i2c_buffer_lock ) ;
return ret ;
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}
static int dib0090_write_reg ( struct dib0090_state * state , u32 reg , u16 val )
{
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int ret ;
if ( mutex_lock_interruptible ( & state - > i2c_buffer_lock ) < 0 ) {
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dprintk ( " could not acquire lock \n " ) ;
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return - EINVAL ;
}
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state - > i2c_write_buffer [ 0 ] = reg & 0xff ;
state - > i2c_write_buffer [ 1 ] = val > > 8 ;
state - > i2c_write_buffer [ 2 ] = val & 0xff ;
memset ( state - > msg , 0 , sizeof ( struct i2c_msg ) ) ;
state - > msg [ 0 ] . addr = state - > config - > i2c_address ;
state - > msg [ 0 ] . flags = 0 ;
state - > msg [ 0 ] . buf = state - > i2c_write_buffer ;
state - > msg [ 0 ] . len = 3 ;
if ( i2c_transfer ( state - > i2c , state - > msg , 1 ) ! = 1 ) {
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pr_warn ( " DiB0090 I2C write failed \n " ) ;
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ret = - EREMOTEIO ;
} else
ret = 0 ;
mutex_unlock ( & state - > i2c_buffer_lock ) ;
return ret ;
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}
static u16 dib0090_fw_read_reg ( struct dib0090_fw_state * state , u8 reg )
{
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u16 ret ;
if ( mutex_lock_interruptible ( & state - > i2c_buffer_lock ) < 0 ) {
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dprintk ( " could not acquire lock \n " ) ;
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return 0 ;
}
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state - > i2c_write_buffer [ 0 ] = reg ;
memset ( & state - > msg , 0 , sizeof ( struct i2c_msg ) ) ;
state - > msg . addr = reg ;
state - > msg . flags = I2C_M_RD ;
state - > msg . buf = state - > i2c_read_buffer ;
state - > msg . len = 2 ;
if ( i2c_transfer ( state - > i2c , & state - > msg , 1 ) ! = 1 ) {
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pr_warn ( " DiB0090 I2C read failed \n " ) ;
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ret = 0 ;
} else
ret = ( state - > i2c_read_buffer [ 0 ] < < 8 )
| state - > i2c_read_buffer [ 1 ] ;
mutex_unlock ( & state - > i2c_buffer_lock ) ;
return ret ;
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}
static int dib0090_fw_write_reg ( struct dib0090_fw_state * state , u8 reg , u16 val )
{
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int ret ;
if ( mutex_lock_interruptible ( & state - > i2c_buffer_lock ) < 0 ) {
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dprintk ( " could not acquire lock \n " ) ;
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return - EINVAL ;
}
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state - > i2c_write_buffer [ 0 ] = val > > 8 ;
state - > i2c_write_buffer [ 1 ] = val & 0xff ;
memset ( & state - > msg , 0 , sizeof ( struct i2c_msg ) ) ;
state - > msg . addr = reg ;
state - > msg . flags = 0 ;
state - > msg . buf = state - > i2c_write_buffer ;
state - > msg . len = 2 ;
if ( i2c_transfer ( state - > i2c , & state - > msg , 1 ) ! = 1 ) {
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pr_warn ( " DiB0090 I2C write failed \n " ) ;
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ret = - EREMOTEIO ;
} else
ret = 0 ;
mutex_unlock ( & state - > i2c_buffer_lock ) ;
return ret ;
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}
# define HARD_RESET(state) do { if (cfg->reset) { if (cfg->sleep) cfg->sleep(fe, 0); msleep(10); cfg->reset(fe, 1); msleep(10); cfg->reset(fe, 0); msleep(10); } } while (0)
# define ADC_TARGET -220
# define GAIN_ALPHA 5
# define WBD_ALPHA 6
# define LPF 100
static void dib0090_write_regs ( struct dib0090_state * state , u8 r , const u16 * b , u8 c )
{
do {
dib0090_write_reg ( state , r + + , * b + + ) ;
} while ( - - c ) ;
}
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static int dib0090_identify ( struct dvb_frontend * fe )
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{
struct dib0090_state * state = fe - > tuner_priv ;
u16 v ;
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struct dib0090_identity * identity = & state - > identity ;
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v = dib0090_read_reg ( state , 0x1a ) ;
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identity - > p1g = 0 ;
identity - > in_soc = 0 ;
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dprintk ( " Tuner identification (Version = 0x%04x) \n " , v ) ;
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/* without PLL lock info */
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v & = ~ KROSUS_PLL_LOCKED ;
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identity - > version = v & 0xff ;
identity - > product = ( v > > 8 ) & 0xf ;
if ( identity - > product ! = KROSUS )
goto identification_error ;
if ( ( identity - > version & 0x3 ) = = SOC ) {
identity - > in_soc = 1 ;
switch ( identity - > version ) {
case SOC_8090_P1G_11R1 :
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dprintk ( " SOC 8090 P1-G11R1 Has been detected \n " ) ;
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identity - > p1g = 1 ;
break ;
case SOC_8090_P1G_21R1 :
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dprintk ( " SOC 8090 P1-G21R1 Has been detected \n " ) ;
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identity - > p1g = 1 ;
break ;
case SOC_7090_P1G_11R1 :
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dprintk ( " SOC 7090 P1-G11R1 Has been detected \n " ) ;
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identity - > p1g = 1 ;
break ;
case SOC_7090_P1G_21R1 :
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dprintk ( " SOC 7090 P1-G21R1 Has been detected \n " ) ;
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identity - > p1g = 1 ;
break ;
default :
goto identification_error ;
}
} else {
switch ( ( identity - > version > > 5 ) & 0x7 ) {
case MP001 :
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dprintk ( " MP001 : 9090/8096 \n " ) ;
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break ;
case MP005 :
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dprintk ( " MP005 : Single Sband \n " ) ;
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break ;
case MP008 :
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dprintk ( " MP008 : diversity VHF-UHF-LBAND \n " ) ;
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break ;
case MP009 :
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dprintk ( " MP009 : diversity 29098 CBAND-UHF-LBAND-SBAND \n " ) ;
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break ;
default :
goto identification_error ;
}
switch ( identity - > version & 0x1f ) {
case P1G_21R2 :
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dprintk ( " P1G_21R2 detected \n " ) ;
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identity - > p1g = 1 ;
break ;
case P1G :
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dprintk ( " P1G detected \n " ) ;
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identity - > p1g = 1 ;
break ;
case P1D_E_F :
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dprintk ( " P1D/E/F detected \n " ) ;
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break ;
case P1C :
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dprintk ( " P1C detected \n " ) ;
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break ;
case P1A_B :
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dprintk ( " P1-A/B detected: driver is deactivated - not available \n " ) ;
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goto identification_error ;
break ;
default :
goto identification_error ;
}
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}
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return 0 ;
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identification_error :
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return - EIO ;
}
static int dib0090_fw_identify ( struct dvb_frontend * fe )
{
struct dib0090_fw_state * state = fe - > tuner_priv ;
struct dib0090_identity * identity = & state - > identity ;
u16 v = dib0090_fw_read_reg ( state , 0x1a ) ;
identity - > p1g = 0 ;
identity - > in_soc = 0 ;
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dprintk ( " FE: Tuner identification (Version = 0x%04x) \n " , v ) ;
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/* without PLL lock info */
v & = ~ KROSUS_PLL_LOCKED ;
identity - > version = v & 0xff ;
identity - > product = ( v > > 8 ) & 0xf ;
if ( identity - > product ! = KROSUS )
goto identification_error ;
if ( ( identity - > version & 0x3 ) = = SOC ) {
identity - > in_soc = 1 ;
switch ( identity - > version ) {
case SOC_8090_P1G_11R1 :
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dprintk ( " SOC 8090 P1-G11R1 Has been detected \n " ) ;
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identity - > p1g = 1 ;
break ;
case SOC_8090_P1G_21R1 :
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dprintk ( " SOC 8090 P1-G21R1 Has been detected \n " ) ;
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identity - > p1g = 1 ;
break ;
case SOC_7090_P1G_11R1 :
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dprintk ( " SOC 7090 P1-G11R1 Has been detected \n " ) ;
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identity - > p1g = 1 ;
break ;
case SOC_7090_P1G_21R1 :
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dprintk ( " SOC 7090 P1-G21R1 Has been detected \n " ) ;
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identity - > p1g = 1 ;
break ;
default :
goto identification_error ;
}
} else {
switch ( ( identity - > version > > 5 ) & 0x7 ) {
case MP001 :
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dprintk ( " MP001 : 9090/8096 \n " ) ;
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break ;
case MP005 :
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dprintk ( " MP005 : Single Sband \n " ) ;
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break ;
case MP008 :
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dprintk ( " MP008 : diversity VHF-UHF-LBAND \n " ) ;
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break ;
case MP009 :
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dprintk ( " MP009 : diversity 29098 CBAND-UHF-LBAND-SBAND \n " ) ;
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break ;
default :
goto identification_error ;
}
switch ( identity - > version & 0x1f ) {
case P1G_21R2 :
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dprintk ( " P1G_21R2 detected \n " ) ;
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identity - > p1g = 1 ;
break ;
case P1G :
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dprintk ( " P1G detected \n " ) ;
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identity - > p1g = 1 ;
break ;
case P1D_E_F :
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dprintk ( " P1D/E/F detected \n " ) ;
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break ;
case P1C :
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dprintk ( " P1C detected \n " ) ;
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break ;
case P1A_B :
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dprintk ( " P1-A/B detected: driver is deactivated - not available \n " ) ;
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goto identification_error ;
break ;
default :
goto identification_error ;
}
}
return 0 ;
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identification_error :
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return - EIO ;
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}
static void dib0090_reset_digital ( struct dvb_frontend * fe , const struct dib0090_config * cfg )
{
struct dib0090_state * state = fe - > tuner_priv ;
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u16 PllCfg , i , v ;
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HARD_RESET ( state ) ;
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dib0090_write_reg ( state , 0x24 , EN_PLL | EN_CRYSTAL ) ;
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if ( cfg - > in_soc )
return ;
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dib0090_write_reg ( state , 0x1b , EN_DIGCLK | EN_PLL | EN_CRYSTAL ) ; /* PLL, DIG_CLK and CRYSTAL remain */
/* adcClkOutRatio=8->7, release reset */
dib0090_write_reg ( state , 0x20 , ( ( cfg - > io . adc_clock_ratio - 1 ) < < 11 ) | ( 0 < < 10 ) | ( 1 < < 9 ) | ( 1 < < 8 ) | ( 0 < < 4 ) | 0 ) ;
if ( cfg - > clkoutdrive ! = 0 )
dib0090_write_reg ( state , 0x23 , ( 0 < < 15 ) | ( ( ! cfg - > analog_output ) < < 14 ) | ( 2 < < 10 ) | ( 1 < < 9 ) | ( 0 < < 8 )
| ( cfg - > clkoutdrive < < 5 ) | ( cfg - > clkouttobamse < < 4 ) | ( 0 < < 2 ) | ( 0 ) ) ;
else
dib0090_write_reg ( state , 0x23 , ( 0 < < 15 ) | ( ( ! cfg - > analog_output ) < < 14 ) | ( 2 < < 10 ) | ( 1 < < 9 ) | ( 0 < < 8 )
| ( 7 < < 5 ) | ( cfg - > clkouttobamse < < 4 ) | ( 0 < < 2 ) | ( 0 ) ) ;
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/* Read Pll current config * */
PllCfg = dib0090_read_reg ( state , 0x21 ) ;
/** Reconfigure PLL if current setting is different from default setting **/
if ( ( PllCfg & 0x1FFF ) ! = ( ( cfg - > io . pll_range < < 12 ) | ( cfg - > io . pll_loopdiv < < 6 ) | ( cfg - > io . pll_prediv ) ) & & ( ! cfg - > in_soc )
& & ! cfg - > io . pll_bypass ) {
/* Set Bypass mode */
PllCfg | = ( 1 < < 15 ) ;
dib0090_write_reg ( state , 0x21 , PllCfg ) ;
/* Set Reset Pll */
PllCfg & = ~ ( 1 < < 13 ) ;
dib0090_write_reg ( state , 0x21 , PllCfg ) ;
/*** Set new Pll configuration in bypass and reset state ***/
PllCfg = ( 1 < < 15 ) | ( 0 < < 13 ) | ( cfg - > io . pll_range < < 12 ) | ( cfg - > io . pll_loopdiv < < 6 ) | ( cfg - > io . pll_prediv ) ;
dib0090_write_reg ( state , 0x21 , PllCfg ) ;
/* Remove Reset Pll */
PllCfg | = ( 1 < < 13 ) ;
dib0090_write_reg ( state , 0x21 , PllCfg ) ;
/*** Wait for PLL lock ***/
i = 100 ;
do {
v = ! ! ( dib0090_read_reg ( state , 0x1a ) & 0x800 ) ;
if ( v )
break ;
} while ( - - i ) ;
if ( i = = 0 ) {
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dprintk ( " Pll: Unable to lock Pll \n " ) ;
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return ;
}
/* Finally Remove Bypass mode */
PllCfg & = ~ ( 1 < < 15 ) ;
dib0090_write_reg ( state , 0x21 , PllCfg ) ;
}
if ( cfg - > io . pll_bypass ) {
PllCfg | = ( cfg - > io . pll_bypass < < 15 ) ;
dib0090_write_reg ( state , 0x21 , PllCfg ) ;
}
}
static int dib0090_fw_reset_digital ( struct dvb_frontend * fe , const struct dib0090_config * cfg )
{
struct dib0090_fw_state * state = fe - > tuner_priv ;
u16 PllCfg ;
u16 v ;
int i ;
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dprintk ( " fw reset digital \n " ) ;
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HARD_RESET ( state ) ;
dib0090_fw_write_reg ( state , 0x24 , EN_PLL | EN_CRYSTAL ) ;
dib0090_fw_write_reg ( state , 0x1b , EN_DIGCLK | EN_PLL | EN_CRYSTAL ) ; /* PLL, DIG_CLK and CRYSTAL remain */
dib0090_fw_write_reg ( state , 0x20 ,
( ( cfg - > io . adc_clock_ratio - 1 ) < < 11 ) | ( 0 < < 10 ) | ( 1 < < 9 ) | ( 1 < < 8 ) | ( cfg - > data_tx_drv < < 4 ) | cfg - > ls_cfg_pad_drv ) ;
v = ( 0 < < 15 ) | ( ( ! cfg - > analog_output ) < < 14 ) | ( 1 < < 9 ) | ( 0 < < 8 ) | ( cfg - > clkouttobamse < < 4 ) | ( 0 < < 2 ) | ( 0 ) ;
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if ( cfg - > clkoutdrive ! = 0 )
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v | = cfg - > clkoutdrive < < 5 ;
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else
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v | = 7 < < 5 ;
v | = 2 < < 10 ;
dib0090_fw_write_reg ( state , 0x23 , v ) ;
/* Read Pll current config * */
PllCfg = dib0090_fw_read_reg ( state , 0x21 ) ;
/** Reconfigure PLL if current setting is different from default setting **/
if ( ( PllCfg & 0x1FFF ) ! = ( ( cfg - > io . pll_range < < 12 ) | ( cfg - > io . pll_loopdiv < < 6 ) | ( cfg - > io . pll_prediv ) ) & & ! cfg - > io . pll_bypass ) {
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/* Set Bypass mode */
PllCfg | = ( 1 < < 15 ) ;
dib0090_fw_write_reg ( state , 0x21 , PllCfg ) ;
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/* Set Reset Pll */
PllCfg & = ~ ( 1 < < 13 ) ;
dib0090_fw_write_reg ( state , 0x21 , PllCfg ) ;
/*** Set new Pll configuration in bypass and reset state ***/
PllCfg = ( 1 < < 15 ) | ( 0 < < 13 ) | ( cfg - > io . pll_range < < 12 ) | ( cfg - > io . pll_loopdiv < < 6 ) | ( cfg - > io . pll_prediv ) ;
dib0090_fw_write_reg ( state , 0x21 , PllCfg ) ;
/* Remove Reset Pll */
PllCfg | = ( 1 < < 13 ) ;
dib0090_fw_write_reg ( state , 0x21 , PllCfg ) ;
/*** Wait for PLL lock ***/
i = 100 ;
do {
v = ! ! ( dib0090_fw_read_reg ( state , 0x1a ) & 0x800 ) ;
if ( v )
break ;
} while ( - - i ) ;
if ( i = = 0 ) {
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dprintk ( " Pll: Unable to lock Pll \n " ) ;
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return - EIO ;
}
/* Finally Remove Bypass mode */
PllCfg & = ~ ( 1 < < 15 ) ;
dib0090_fw_write_reg ( state , 0x21 , PllCfg ) ;
}
if ( cfg - > io . pll_bypass ) {
PllCfg | = ( cfg - > io . pll_bypass < < 15 ) ;
dib0090_fw_write_reg ( state , 0x21 , PllCfg ) ;
}
return dib0090_fw_identify ( fe ) ;
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}
static int dib0090_wakeup ( struct dvb_frontend * fe )
{
struct dib0090_state * state = fe - > tuner_priv ;
if ( state - > config - > sleep )
state - > config - > sleep ( fe , 0 ) ;
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/* enable dataTX in case we have been restarted in the wrong moment */
dib0090_write_reg ( state , 0x23 , dib0090_read_reg ( state , 0x23 ) | ( 1 < < 14 ) ) ;
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return 0 ;
}
static int dib0090_sleep ( struct dvb_frontend * fe )
{
struct dib0090_state * state = fe - > tuner_priv ;
if ( state - > config - > sleep )
state - > config - > sleep ( fe , 1 ) ;
return 0 ;
}
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void dib0090_dcc_freq ( struct dvb_frontend * fe , u8 fast )
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{
struct dib0090_state * state = fe - > tuner_priv ;
if ( fast )
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dib0090_write_reg ( state , 0x04 , 0 ) ;
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else
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dib0090_write_reg ( state , 0x04 , 1 ) ;
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}
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EXPORT_SYMBOL ( dib0090_dcc_freq ) ;
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static const u16 bb_ramp_pwm_normal_socs [ ] = {
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550 , /* max BB gain in 10th of dB */
( 1 < < 9 ) | 8 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> BB_RAMP2 */
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440 ,
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( 4 < < 9 ) | 0 , /* BB_RAMP3 = 26dB */
( 0 < < 9 ) | 208 , /* BB_RAMP4 */
( 4 < < 9 ) | 208 , /* BB_RAMP5 = 29dB */
( 0 < < 9 ) | 440 , /* BB_RAMP6 */
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} ;
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static const u16 rf_ramp_pwm_cband_7090p [ ] = {
280 , /* max RF gain in 10th of dB */
18 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> RF_RAMP2 */
504 , /* ramp_max = maximum X used on the ramp */
( 29 < < 10 ) | 364 , /* RF_RAMP5, LNA 1 = 8dB */
( 0 < < 10 ) | 504 , /* RF_RAMP6, LNA 1 */
( 60 < < 10 ) | 228 , /* RF_RAMP7, LNA 2 = 7.7dB */
( 0 < < 10 ) | 364 , /* RF_RAMP8, LNA 2 */
( 34 < < 10 ) | 109 , /* GAIN_4_1, LNA 3 = 6.8dB */
( 0 < < 10 ) | 228 , /* GAIN_4_2, LNA 3 */
( 37 < < 10 ) | 0 , /* RF_RAMP3, LNA 4 = 6.2dB */
( 0 < < 10 ) | 109 , /* RF_RAMP4, LNA 4 */
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} ;
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static const u16 rf_ramp_pwm_cband_7090e_sensitivity [ ] = {
186 , /* max RF gain in 10th of dB */
40 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> RF_RAMP2 */
746 , /* ramp_max = maximum X used on the ramp */
( 10 < < 10 ) | 345 , /* RF_RAMP5, LNA 1 = 10dB */
( 0 < < 10 ) | 746 , /* RF_RAMP6, LNA 1 */
( 0 < < 10 ) | 0 , /* RF_RAMP7, LNA 2 = 0 dB */
( 0 < < 10 ) | 0 , /* RF_RAMP8, LNA 2 */
( 28 < < 10 ) | 200 , /* GAIN_4_1, LNA 3 = 6.8dB */ /* 3.61 dB */
( 0 < < 10 ) | 345 , /* GAIN_4_2, LNA 3 */
( 20 < < 10 ) | 0 , /* RF_RAMP3, LNA 4 = 6.2dB */ /* 4.96 dB */
( 0 < < 10 ) | 200 , /* RF_RAMP4, LNA 4 */
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} ;
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static const u16 rf_ramp_pwm_cband_7090e_aci [ ] = {
86 , /* max RF gain in 10th of dB */
40 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> RF_RAMP2 */
345 , /* ramp_max = maximum X used on the ramp */
( 0 < < 10 ) | 0 , /* RF_RAMP5, LNA 1 = 8dB */ /* 7.47 dB */
( 0 < < 10 ) | 0 , /* RF_RAMP6, LNA 1 */
( 0 < < 10 ) | 0 , /* RF_RAMP7, LNA 2 = 0 dB */
( 0 < < 10 ) | 0 , /* RF_RAMP8, LNA 2 */
( 28 < < 10 ) | 200 , /* GAIN_4_1, LNA 3 = 6.8dB */ /* 3.61 dB */
( 0 < < 10 ) | 345 , /* GAIN_4_2, LNA 3 */
( 20 < < 10 ) | 0 , /* RF_RAMP3, LNA 4 = 6.2dB */ /* 4.96 dB */
( 0 < < 10 ) | 200 , /* RF_RAMP4, LNA 4 */
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} ;
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static const u16 rf_ramp_pwm_cband_8090 [ ] = {
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345 , /* max RF gain in 10th of dB */
29 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> RF_RAMP2 */
1000 , /* ramp_max = maximum X used on the ramp */
( 35 < < 10 ) | 772 , /* RF_RAMP3, LNA 1 = 8dB */
( 0 < < 10 ) | 1000 , /* RF_RAMP4, LNA 1 */
( 58 < < 10 ) | 496 , /* RF_RAMP5, LNA 2 = 9.5dB */
( 0 < < 10 ) | 772 , /* RF_RAMP6, LNA 2 */
( 27 < < 10 ) | 200 , /* RF_RAMP7, LNA 3 = 10.5dB */
( 0 < < 10 ) | 496 , /* RF_RAMP8, LNA 3 */
( 40 < < 10 ) | 0 , /* GAIN_4_1, LNA 4 = 7dB */
( 0 < < 10 ) | 200 , /* GAIN_4_2, LNA 4 */
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} ;
static const u16 rf_ramp_pwm_uhf_7090 [ ] = {
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407 , /* max RF gain in 10th of dB */
13 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> RF_RAMP2 */
529 , /* ramp_max = maximum X used on the ramp */
( 23 < < 10 ) | 0 , /* RF_RAMP3, LNA 1 = 14.7dB */
( 0 < < 10 ) | 176 , /* RF_RAMP4, LNA 1 */
( 63 < < 10 ) | 400 , /* RF_RAMP5, LNA 2 = 8dB */
( 0 < < 10 ) | 529 , /* RF_RAMP6, LNA 2 */
( 48 < < 10 ) | 316 , /* RF_RAMP7, LNA 3 = 6.8dB */
( 0 < < 10 ) | 400 , /* RF_RAMP8, LNA 3 */
( 29 < < 10 ) | 176 , /* GAIN_4_1, LNA 4 = 11.5dB */
( 0 < < 10 ) | 316 , /* GAIN_4_2, LNA 4 */
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} ;
static const u16 rf_ramp_pwm_uhf_8090 [ ] = {
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388 , /* max RF gain in 10th of dB */
26 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> RF_RAMP2 */
1008 , /* ramp_max = maximum X used on the ramp */
( 11 < < 10 ) | 0 , /* RF_RAMP3, LNA 1 = 14.7dB */
( 0 < < 10 ) | 369 , /* RF_RAMP4, LNA 1 */
( 41 < < 10 ) | 809 , /* RF_RAMP5, LNA 2 = 8dB */
( 0 < < 10 ) | 1008 , /* RF_RAMP6, LNA 2 */
( 27 < < 10 ) | 659 , /* RF_RAMP7, LNA 3 = 6dB */
( 0 < < 10 ) | 809 , /* RF_RAMP8, LNA 3 */
( 14 < < 10 ) | 369 , /* GAIN_4_1, LNA 4 = 11.5dB */
( 0 < < 10 ) | 659 , /* GAIN_4_2, LNA 4 */
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} ;
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/* GENERAL PWM ramp definition for all other Krosus */
static const u16 bb_ramp_pwm_normal [ ] = {
500 , /* max BB gain in 10th of dB */
8 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> BB_RAMP2 */
400 ,
( 2 < < 9 ) | 0 , /* BB_RAMP3 = 21dB */
( 0 < < 9 ) | 168 , /* BB_RAMP4 */
( 2 < < 9 ) | 168 , /* BB_RAMP5 = 29dB */
( 0 < < 9 ) | 400 , /* BB_RAMP6 */
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} ;
2016-06-24 22:12:17 +08:00
#if 0
/* Currently unused */
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static const u16 bb_ramp_pwm_boost [ ] = {
550 , /* max BB gain in 10th of dB */
8 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> BB_RAMP2 */
440 ,
( 2 < < 9 ) | 0 , /* BB_RAMP3 = 26dB */
( 0 < < 9 ) | 208 , /* BB_RAMP4 */
( 2 < < 9 ) | 208 , /* BB_RAMP5 = 29dB */
( 0 < < 9 ) | 440 , /* BB_RAMP6 */
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} ;
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# endif
2011-01-04 15:27:11 +08:00
2012-12-31 21:38:44 +08:00
static const u16 rf_ramp_pwm_cband [ ] = {
314 , /* max RF gain in 10th of dB */
33 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> RF_RAMP2 */
1023 , /* ramp_max = maximum X used on the ramp */
( 8 < < 10 ) | 743 , /* RF_RAMP3, LNA 1 = 0dB */
( 0 < < 10 ) | 1023 , /* RF_RAMP4, LNA 1 */
( 15 < < 10 ) | 469 , /* RF_RAMP5, LNA 2 = 0dB */
( 0 < < 10 ) | 742 , /* RF_RAMP6, LNA 2 */
( 9 < < 10 ) | 234 , /* RF_RAMP7, LNA 3 = 0dB */
( 0 < < 10 ) | 468 , /* RF_RAMP8, LNA 3 */
( 9 < < 10 ) | 0 , /* GAIN_4_1, LNA 4 = 0dB */
( 0 < < 10 ) | 233 , /* GAIN_4_2, LNA 4 */
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} ;
static const u16 rf_ramp_pwm_vhf [ ] = {
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398 , /* max RF gain in 10th of dB */
24 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> RF_RAMP2 */
954 , /* ramp_max = maximum X used on the ramp */
( 7 < < 10 ) | 0 , /* RF_RAMP3, LNA 1 = 13.2dB */
( 0 < < 10 ) | 290 , /* RF_RAMP4, LNA 1 */
( 16 < < 10 ) | 699 , /* RF_RAMP5, LNA 2 = 10.5dB */
( 0 < < 10 ) | 954 , /* RF_RAMP6, LNA 2 */
( 17 < < 10 ) | 580 , /* RF_RAMP7, LNA 3 = 5dB */
( 0 < < 10 ) | 699 , /* RF_RAMP8, LNA 3 */
( 7 < < 10 ) | 290 , /* GAIN_4_1, LNA 4 = 12.5dB */
( 0 < < 10 ) | 580 , /* GAIN_4_2, LNA 4 */
2009-12-05 00:27:57 +08:00
} ;
static const u16 rf_ramp_pwm_uhf [ ] = {
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398 , /* max RF gain in 10th of dB */
24 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> RF_RAMP2 */
954 , /* ramp_max = maximum X used on the ramp */
( 7 < < 10 ) | 0 , /* RF_RAMP3, LNA 1 = 13.2dB */
( 0 < < 10 ) | 290 , /* RF_RAMP4, LNA 1 */
( 16 < < 10 ) | 699 , /* RF_RAMP5, LNA 2 = 10.5dB */
( 0 < < 10 ) | 954 , /* RF_RAMP6, LNA 2 */
( 17 < < 10 ) | 580 , /* RF_RAMP7, LNA 3 = 5dB */
( 0 < < 10 ) | 699 , /* RF_RAMP8, LNA 3 */
( 7 < < 10 ) | 290 , /* GAIN_4_1, LNA 4 = 12.5dB */
( 0 < < 10 ) | 580 , /* GAIN_4_2, LNA 4 */
2009-12-05 00:27:57 +08:00
} ;
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#if 0
/* Currently unused */
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static const u16 rf_ramp_pwm_sband [ ] = {
253 , /* max RF gain in 10th of dB */
38 , /* ramp_slope = 1dB of gain -> clock_ticks_per_db = clk_khz / ramp_slope -> RF_RAMP2 */
961 ,
( 4 < < 10 ) | 0 , /* RF_RAMP3, LNA 1 = 14.1dB */
( 0 < < 10 ) | 508 , /* RF_RAMP4, LNA 1 */
( 9 < < 10 ) | 508 , /* RF_RAMP5, LNA 2 = 11.2dB */
( 0 < < 10 ) | 961 , /* RF_RAMP6, LNA 2 */
( 0 < < 10 ) | 0 , /* RF_RAMP7, LNA 3 = 0dB */
( 0 < < 10 ) | 0 , /* RF_RAMP8, LNA 3 */
( 0 < < 10 ) | 0 , /* GAIN_4_1, LNA 4 = 0dB */
( 0 < < 10 ) | 0 , /* GAIN_4_2, LNA 4 */
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} ;
2016-06-24 22:12:17 +08:00
# endif
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struct slope {
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s16 range ;
s16 slope ;
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} ;
static u16 slopes_to_scale ( const struct slope * slopes , u8 num , s16 val )
{
u8 i ;
u16 rest ;
u16 ret = 0 ;
for ( i = 0 ; i < num ; i + + ) {
if ( val > slopes [ i ] . range )
rest = slopes [ i ] . range ;
else
rest = val ;
ret + = ( rest * slopes [ i ] . slope ) / slopes [ i ] . range ;
val - = rest ;
}
return ret ;
}
static const struct slope dib0090_wbd_slopes [ 3 ] = {
{ 66 , 120 } , /* -64,-52: offset - 65 */
{ 600 , 170 } , /* -52,-35: 65 - 665 */
{ 170 , 250 } , /* -45,-10: 665 - 835 */
} ;
static s16 dib0090_wbd_to_db ( struct dib0090_state * state , u16 wbd )
{
wbd & = 0x3ff ;
if ( wbd < state - > wbd_offset )
wbd = 0 ;
else
wbd - = state - > wbd_offset ;
/* -64dB is the floor */
return - 640 + ( s16 ) slopes_to_scale ( dib0090_wbd_slopes , ARRAY_SIZE ( dib0090_wbd_slopes ) , wbd ) ;
}
static void dib0090_wbd_target ( struct dib0090_state * state , u32 rf )
{
u16 offset = 250 ;
/* TODO : DAB digital N+/-1 interferer perfs : offset = 10 */
if ( state - > current_band = = BAND_VHF )
offset = 650 ;
# ifndef FIRMWARE_FIREFLY
if ( state - > current_band = = BAND_VHF )
offset = state - > config - > wbd_vhf_offset ;
if ( state - > current_band = = BAND_CBAND )
offset = state - > config - > wbd_cband_offset ;
# endif
state - > wbd_target = dib0090_wbd_to_db ( state , state - > wbd_offset + offset ) ;
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dprintk ( " wbd-target: %d dB \n " , ( u32 ) state - > wbd_target ) ;
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}
static const int gain_reg_addr [ 4 ] = {
0x08 , 0x0a , 0x0f , 0x01
} ;
static void dib0090_gain_apply ( struct dib0090_state * state , s16 gain_delta , s16 top_delta , u8 force )
{
u16 rf , bb , ref ;
u16 i , v , gain_reg [ 4 ] = { 0 } , gain ;
const u16 * g ;
if ( top_delta < - 511 )
top_delta = - 511 ;
if ( top_delta > 511 )
top_delta = 511 ;
if ( force ) {
top_delta * = ( 1 < < WBD_ALPHA ) ;
gain_delta * = ( 1 < < GAIN_ALPHA ) ;
}
if ( top_delta > = ( ( s16 ) ( state - > rf_ramp [ 0 ] < < WBD_ALPHA ) - state - > rf_gain_limit ) ) /* overflow */
state - > rf_gain_limit = state - > rf_ramp [ 0 ] < < WBD_ALPHA ;
else
state - > rf_gain_limit + = top_delta ;
if ( state - > rf_gain_limit < 0 ) /*underflow */
state - > rf_gain_limit = 0 ;
/* use gain as a temporary variable and correct current_gain */
gain = ( ( state - > rf_gain_limit > > WBD_ALPHA ) + state - > bb_ramp [ 0 ] ) < < GAIN_ALPHA ;
if ( gain_delta > = ( ( s16 ) gain - state - > current_gain ) ) /* overflow */
state - > current_gain = gain ;
else
state - > current_gain + = gain_delta ;
/* cannot be less than 0 (only if gain_delta is less than 0 we can have current_gain < 0) */
if ( state - > current_gain < 0 )
state - > current_gain = 0 ;
/* now split total gain to rf and bb gain */
gain = state - > current_gain > > GAIN_ALPHA ;
/* requested gain is bigger than rf gain limit - ACI/WBD adjustment */
if ( gain > ( state - > rf_gain_limit > > WBD_ALPHA ) ) {
rf = state - > rf_gain_limit > > WBD_ALPHA ;
bb = gain - rf ;
if ( bb > state - > bb_ramp [ 0 ] )
bb = state - > bb_ramp [ 0 ] ;
} else { /* high signal level -> all gains put on RF */
rf = gain ;
bb = 0 ;
}
state - > gain [ 0 ] = rf ;
state - > gain [ 1 ] = bb ;
/* software ramp */
/* Start with RF gains */
g = state - > rf_ramp + 1 ; /* point on RF LNA1 max gain */
ref = rf ;
for ( i = 0 ; i < 7 ; i + + ) { /* Go over all amplifiers => 5RF amps + 2 BB amps = 7 amps */
if ( g [ 0 ] = = 0 | | ref < ( g [ 1 ] - g [ 0 ] ) ) /* if total gain of the current amp is null or this amp is not concerned because it starts to work from an higher gain value */
v = 0 ; /* force the gain to write for the current amp to be null */
else if ( ref > = g [ 1 ] ) /* Gain to set is higher than the high working point of this amp */
v = g [ 2 ] ; /* force this amp to be full gain */
else /* compute the value to set to this amp because we are somewhere in his range */
v = ( ( ref - ( g [ 1 ] - g [ 0 ] ) ) * g [ 2 ] ) / g [ 0 ] ;
if ( i = = 0 ) /* LNA 1 reg mapping */
gain_reg [ 0 ] = v ;
else if ( i = = 1 ) /* LNA 2 reg mapping */
gain_reg [ 0 ] | = v < < 7 ;
else if ( i = = 2 ) /* LNA 3 reg mapping */
gain_reg [ 1 ] = v ;
else if ( i = = 3 ) /* LNA 4 reg mapping */
gain_reg [ 1 ] | = v < < 7 ;
else if ( i = = 4 ) /* CBAND LNA reg mapping */
gain_reg [ 2 ] = v | state - > rf_lt_def ;
else if ( i = = 5 ) /* BB gain 1 reg mapping */
gain_reg [ 3 ] = v < < 3 ;
else if ( i = = 6 ) /* BB gain 2 reg mapping */
gain_reg [ 3 ] | = v < < 8 ;
g + = 3 ; /* go to next gain bloc */
/* When RF is finished, start with BB */
if ( i = = 4 ) {
g = state - > bb_ramp + 1 ; /* point on BB gain 1 max gain */
ref = bb ;
}
}
gain_reg [ 3 ] | = state - > bb_1_def ;
gain_reg [ 3 ] | = ( ( bb % 10 ) * 100 ) / 125 ;
# ifdef DEBUG_AGC
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dprintk ( " GA CALC: DB: %3d(rf) + %3d(bb) = %3d gain_reg[0]=%04x gain_reg[1]=%04x gain_reg[2]=%04x gain_reg[0]=%04x \n " , rf , bb , rf + bb ,
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gain_reg [ 0 ] , gain_reg [ 1 ] , gain_reg [ 2 ] , gain_reg [ 3 ] ) ;
# endif
/* Write the amplifier regs */
for ( i = 0 ; i < 4 ; i + + ) {
v = gain_reg [ i ] ;
if ( force | | state - > gain_reg [ i ] ! = v ) {
state - > gain_reg [ i ] = v ;
dib0090_write_reg ( state , gain_reg_addr [ i ] , v ) ;
}
}
}
static void dib0090_set_boost ( struct dib0090_state * state , int onoff )
{
state - > bb_1_def & = 0xdfff ;
state - > bb_1_def | = onoff < < 13 ;
}
static void dib0090_set_rframp ( struct dib0090_state * state , const u16 * cfg )
{
state - > rf_ramp = cfg ;
}
static void dib0090_set_rframp_pwm ( struct dib0090_state * state , const u16 * cfg )
{
state - > rf_ramp = cfg ;
dib0090_write_reg ( state , 0x2a , 0xffff ) ;
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dprintk ( " total RF gain: %ddB, step: %d \n " , ( u32 ) cfg [ 0 ] , dib0090_read_reg ( state , 0x2a ) ) ;
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dib0090_write_regs ( state , 0x2c , cfg + 3 , 6 ) ;
dib0090_write_regs ( state , 0x3e , cfg + 9 , 2 ) ;
}
static void dib0090_set_bbramp ( struct dib0090_state * state , const u16 * cfg )
{
state - > bb_ramp = cfg ;
dib0090_set_boost ( state , cfg [ 0 ] > 500 ) ; /* we want the boost if the gain is higher that 50dB */
}
static void dib0090_set_bbramp_pwm ( struct dib0090_state * state , const u16 * cfg )
{
state - > bb_ramp = cfg ;
dib0090_set_boost ( state , cfg [ 0 ] > 500 ) ; /* we want the boost if the gain is higher that 50dB */
dib0090_write_reg ( state , 0x33 , 0xffff ) ;
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dprintk ( " total BB gain: %ddB, step: %d \n " , ( u32 ) cfg [ 0 ] , dib0090_read_reg ( state , 0x33 ) ) ;
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dib0090_write_regs ( state , 0x35 , cfg + 3 , 4 ) ;
}
void dib0090_pwm_gain_reset ( struct dvb_frontend * fe )
{
struct dib0090_state * state = fe - > tuner_priv ;
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const u16 * bb_ramp = bb_ramp_pwm_normal ; /* default baseband config */
const u16 * rf_ramp = NULL ;
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u8 en_pwm_rf_mux = 1 ;
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/* reset the AGC */
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if ( state - > config - > use_pwm_agc ) {
if ( state - > current_band = = BAND_CBAND ) {
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if ( state - > identity . in_soc ) {
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bb_ramp = bb_ramp_pwm_normal_socs ;
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if ( state - > identity . version = = SOC_8090_P1G_11R1 | | state - > identity . version = = SOC_8090_P1G_21R1 )
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rf_ramp = rf_ramp_pwm_cband_8090 ;
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else if ( state - > identity . version = = SOC_7090_P1G_11R1 | | state - > identity . version = = SOC_7090_P1G_21R1 ) {
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if ( state - > config - > is_dib7090e ) {
if ( state - > rf_ramp = = NULL )
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rf_ramp = rf_ramp_pwm_cband_7090e_sensitivity ;
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else
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rf_ramp = state - > rf_ramp ;
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} else
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rf_ramp = rf_ramp_pwm_cband_7090p ;
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}
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} else
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rf_ramp = rf_ramp_pwm_cband ;
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} else
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if ( state - > current_band = = BAND_VHF ) {
if ( state - > identity . in_soc ) {
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bb_ramp = bb_ramp_pwm_normal_socs ;
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/* rf_ramp = &rf_ramp_pwm_vhf_socs; */ /* TODO */
} else
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rf_ramp = rf_ramp_pwm_vhf ;
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} else if ( state - > current_band = = BAND_UHF ) {
if ( state - > identity . in_soc ) {
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bb_ramp = bb_ramp_pwm_normal_socs ;
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if ( state - > identity . version = = SOC_8090_P1G_11R1 | | state - > identity . version = = SOC_8090_P1G_21R1 )
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rf_ramp = rf_ramp_pwm_uhf_8090 ;
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else if ( state - > identity . version = = SOC_7090_P1G_11R1 | | state - > identity . version = = SOC_7090_P1G_21R1 )
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rf_ramp = rf_ramp_pwm_uhf_7090 ;
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} else
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rf_ramp = rf_ramp_pwm_uhf ;
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}
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if ( rf_ramp )
dib0090_set_rframp_pwm ( state , rf_ramp ) ;
dib0090_set_bbramp_pwm ( state , bb_ramp ) ;
/* activate the ramp generator using PWM control */
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if ( state - > rf_ramp )
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dprintk ( " ramp RF gain = %d BAND = %s version = %d \n " ,
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state - > rf_ramp [ 0 ] ,
( state - > current_band = = BAND_CBAND ) ? " CBAND " : " NOT CBAND " ,
state - > identity . version & 0x1f ) ;
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if ( rf_ramp & & ( ( state - > rf_ramp & & state - > rf_ramp [ 0 ] = = 0 ) | |
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( state - > current_band = = BAND_CBAND & &
( state - > identity . version & 0x1f ) < = P1D_E_F ) ) ) {
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dprintk ( " DE-Engage mux for direct gain reg control \n " ) ;
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en_pwm_rf_mux = 0 ;
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} else
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dprintk ( " Engage mux for PWM control \n " ) ;
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dib0090_write_reg ( state , 0x32 , ( en_pwm_rf_mux < < 12 ) | ( en_pwm_rf_mux < < 11 ) ) ;
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/* Set fast servo cutoff to start AGC; 0 = 1KHz ; 1 = 50Hz ; 2 = 150Hz ; 3 = 50KHz ; 4 = servo fast*/
if ( state - > identity . version = = SOC_7090_P1G_11R1 | | state - > identity . version = = SOC_7090_P1G_21R1 )
dib0090_write_reg ( state , 0x04 , 3 ) ;
else
dib0090_write_reg ( state , 0x04 , 1 ) ;
dib0090_write_reg ( state , 0x39 , ( 1 < < 10 ) ) ; /* 0 gain by default */
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}
}
EXPORT_SYMBOL ( dib0090_pwm_gain_reset ) ;
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void dib0090_set_dc_servo ( struct dvb_frontend * fe , u8 DC_servo_cutoff )
{
struct dib0090_state * state = fe - > tuner_priv ;
if ( DC_servo_cutoff < 4 )
dib0090_write_reg ( state , 0x04 , DC_servo_cutoff ) ;
}
EXPORT_SYMBOL ( dib0090_set_dc_servo ) ;
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static u32 dib0090_get_slow_adc_val ( struct dib0090_state * state )
{
u16 adc_val = dib0090_read_reg ( state , 0x1d ) ;
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if ( state - > identity . in_soc )
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adc_val > > = 2 ;
return adc_val ;
}
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int dib0090_gain_control ( struct dvb_frontend * fe )
{
struct dib0090_state * state = fe - > tuner_priv ;
enum frontend_tune_state * tune_state = & state - > tune_state ;
int ret = 10 ;
u16 wbd_val = 0 ;
u8 apply_gain_immediatly = 1 ;
s16 wbd_error = 0 , adc_error = 0 ;
if ( * tune_state = = CT_AGC_START ) {
state - > agc_freeze = 0 ;
dib0090_write_reg ( state , 0x04 , 0x0 ) ;
# ifdef CONFIG_BAND_SBAND
if ( state - > current_band = = BAND_SBAND ) {
dib0090_set_rframp ( state , rf_ramp_sband ) ;
dib0090_set_bbramp ( state , bb_ramp_boost ) ;
} else
# endif
# ifdef CONFIG_BAND_VHF
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if ( state - > current_band = = BAND_VHF & & ! state - > identity . p1g ) {
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dib0090_set_rframp ( state , rf_ramp_pwm_vhf ) ;
dib0090_set_bbramp ( state , bb_ramp_pwm_normal ) ;
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} else
# endif
# ifdef CONFIG_BAND_CBAND
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if ( state - > current_band = = BAND_CBAND & & ! state - > identity . p1g ) {
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dib0090_set_rframp ( state , rf_ramp_pwm_cband ) ;
dib0090_set_bbramp ( state , bb_ramp_pwm_normal ) ;
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} else
# endif
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if ( ( state - > current_band = = BAND_CBAND | | state - > current_band = = BAND_VHF ) & & state - > identity . p1g ) {
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dib0090_set_rframp ( state , rf_ramp_pwm_cband_7090p ) ;
dib0090_set_bbramp ( state , bb_ramp_pwm_normal_socs ) ;
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} else {
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dib0090_set_rframp ( state , rf_ramp_pwm_uhf ) ;
dib0090_set_bbramp ( state , bb_ramp_pwm_normal ) ;
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}
dib0090_write_reg ( state , 0x32 , 0 ) ;
dib0090_write_reg ( state , 0x39 , 0 ) ;
dib0090_wbd_target ( state , state - > current_rf ) ;
state - > rf_gain_limit = state - > rf_ramp [ 0 ] < < WBD_ALPHA ;
state - > current_gain = ( ( state - > rf_ramp [ 0 ] + state - > bb_ramp [ 0 ] ) / 2 ) < < GAIN_ALPHA ;
* tune_state = CT_AGC_STEP_0 ;
} else if ( ! state - > agc_freeze ) {
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s16 wbd = 0 , i , cnt ;
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int adc ;
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wbd_val = dib0090_get_slow_adc_val ( state ) ;
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if ( * tune_state = = CT_AGC_STEP_0 )
cnt = 5 ;
else
cnt = 1 ;
for ( i = 0 ; i < cnt ; i + + ) {
wbd_val = dib0090_get_slow_adc_val ( state ) ;
wbd + = dib0090_wbd_to_db ( state , wbd_val ) ;
}
wbd / = cnt ;
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wbd_error = state - > wbd_target - wbd ;
if ( * tune_state = = CT_AGC_STEP_0 ) {
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if ( wbd_error < 0 & & state - > rf_gain_limit > 0 & & ! state - > identity . p1g ) {
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# ifdef CONFIG_BAND_CBAND
/* in case of CBAND tune reduce first the lt_gain2 before adjusting the RF gain */
u8 ltg2 = ( state - > rf_lt_def > > 10 ) & 0x7 ;
if ( state - > current_band = = BAND_CBAND & & ltg2 ) {
ltg2 > > = 1 ;
state - > rf_lt_def & = ltg2 < < 10 ; /* reduce in 3 steps from 7 to 0 */
}
# endif
} else {
state - > agc_step = 0 ;
* tune_state = CT_AGC_STEP_1 ;
}
} else {
/* calc the adc power */
adc = state - > config - > get_adc_power ( fe ) ;
adc = ( adc * ( ( s32 ) 355774 ) + ( ( ( s32 ) 1 ) < < 20 ) ) > > 21 ; /* included in [0:-700] */
adc_error = ( s16 ) ( ( ( s32 ) ADC_TARGET ) - adc ) ;
# ifdef CONFIG_STANDARD_DAB
if ( state - > fe - > dtv_property_cache . delivery_system = = STANDARD_DAB )
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adc_error - = 10 ;
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# endif
# ifdef CONFIG_STANDARD_DVBT
if ( state - > fe - > dtv_property_cache . delivery_system = = STANDARD_DVBT & &
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( state - > fe - > dtv_property_cache . modulation = = QAM_64 | | state - > fe - > dtv_property_cache . modulation = = QAM_16 ) )
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adc_error + = 60 ;
# endif
# ifdef CONFIG_SYS_ISDBT
if ( ( state - > fe - > dtv_property_cache . delivery_system = = SYS_ISDBT ) & & ( ( ( state - > fe - > dtv_property_cache . layer [ 0 ] . segment_count >
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0 )
& &
( ( state - > fe - > dtv_property_cache . layer [ 0 ] . modulation = =
QAM_64 )
| | ( state - > fe - > dtv_property_cache .
layer [ 0 ] . modulation = = QAM_16 ) ) )
| |
( ( state - > fe - > dtv_property_cache . layer [ 1 ] . segment_count >
0 )
& &
( ( state - > fe - > dtv_property_cache . layer [ 1 ] . modulation = =
QAM_64 )
| | ( state - > fe - > dtv_property_cache .
layer [ 1 ] . modulation = = QAM_16 ) ) )
| |
( ( state - > fe - > dtv_property_cache . layer [ 2 ] . segment_count >
0 )
& &
( ( state - > fe - > dtv_property_cache . layer [ 2 ] . modulation = =
QAM_64 )
| | ( state - > fe - > dtv_property_cache .
layer [ 2 ] . modulation = = QAM_16 ) ) )
)
)
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adc_error + = 60 ;
# endif
if ( * tune_state = = CT_AGC_STEP_1 ) { /* quickly go to the correct range of the ADC power */
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if ( abs ( adc_error ) < 50 | | state - > agc_step + + > 5 ) {
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# ifdef CONFIG_STANDARD_DAB
if ( state - > fe - > dtv_property_cache . delivery_system = = STANDARD_DAB ) {
dib0090_write_reg ( state , 0x02 , ( 1 < < 15 ) | ( 15 < < 11 ) | ( 31 < < 6 ) | ( 63 ) ) ; /* cap value = 63 : narrow BB filter : Fc = 1.8MHz */
dib0090_write_reg ( state , 0x04 , 0x0 ) ;
} else
# endif
{
dib0090_write_reg ( state , 0x02 , ( 1 < < 15 ) | ( 3 < < 11 ) | ( 6 < < 6 ) | ( 32 ) ) ;
dib0090_write_reg ( state , 0x04 , 0x01 ) ; /*0 = 1KHz ; 1 = 150Hz ; 2 = 50Hz ; 3 = 50KHz ; 4 = servo fast */
}
* tune_state = CT_AGC_STOP ;
}
} else {
/* everything higher than or equal to CT_AGC_STOP means tracking */
ret = 100 ; /* 10ms interval */
apply_gain_immediatly = 0 ;
}
}
# ifdef DEBUG_AGC
dprintk
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( " tune state %d, ADC = %3ddB (ADC err %3d) WBD %3ddB (WBD err %3d, WBD val SADC: %4d), RFGainLimit (TOP): %3d, signal: %3ddBm " ,
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( u32 ) * tune_state , ( u32 ) adc , ( u32 ) adc_error , ( u32 ) wbd , ( u32 ) wbd_error , ( u32 ) wbd_val ,
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( u32 ) state - > rf_gain_limit > > WBD_ALPHA , ( s32 ) 200 + adc - ( state - > current_gain > > GAIN_ALPHA ) ) ;
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# endif
}
/* apply gain */
if ( ! state - > agc_freeze )
dib0090_gain_apply ( state , adc_error , wbd_error , apply_gain_immediatly ) ;
return ret ;
}
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EXPORT_SYMBOL ( dib0090_gain_control ) ;
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void dib0090_get_current_gain ( struct dvb_frontend * fe , u16 * rf , u16 * bb , u16 * rf_gain_limit , u16 * rflt )
{
struct dib0090_state * state = fe - > tuner_priv ;
if ( rf )
* rf = state - > gain [ 0 ] ;
if ( bb )
* bb = state - > gain [ 1 ] ;
if ( rf_gain_limit )
* rf_gain_limit = state - > rf_gain_limit ;
if ( rflt )
* rflt = ( state - > rf_lt_def > > 10 ) & 0x7 ;
}
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EXPORT_SYMBOL ( dib0090_get_current_gain ) ;
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u16 dib0090_get_wbd_target ( struct dvb_frontend * fe )
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{
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struct dib0090_state * state = fe - > tuner_priv ;
u32 f_MHz = state - > fe - > dtv_property_cache . frequency / 1000000 ;
s32 current_temp = state - > temperature ;
s32 wbd_thot , wbd_tcold ;
const struct dib0090_wbd_slope * wbd = state - > current_wbd_table ;
while ( f_MHz > wbd - > max_freq )
wbd + + ;
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dprintk ( " using wbd-table-entry with max freq %d \n " , wbd - > max_freq ) ;
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if ( current_temp < 0 )
current_temp = 0 ;
if ( current_temp > 128 )
current_temp = 128 ;
state - > wbdmux & = ~ ( 7 < < 13 ) ;
if ( wbd - > wbd_gain ! = 0 )
state - > wbdmux | = ( wbd - > wbd_gain < < 13 ) ;
else
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state - > wbdmux | = ( 4 < < 13 ) ;
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dib0090_write_reg ( state , 0x10 , state - > wbdmux ) ;
wbd_thot = wbd - > offset_hot - ( ( ( u32 ) wbd - > slope_hot * f_MHz ) > > 6 ) ;
wbd_tcold = wbd - > offset_cold - ( ( ( u32 ) wbd - > slope_cold * f_MHz ) > > 6 ) ;
wbd_tcold + = ( ( wbd_thot - wbd_tcold ) * current_temp ) > > 7 ;
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state - > wbd_target = dib0090_wbd_to_db ( state , state - > wbd_offset + wbd_tcold ) ;
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dprintk ( " wbd-target: %d dB \n " , ( u32 ) state - > wbd_target ) ;
dprintk ( " wbd offset applied is %d \n " , wbd_tcold ) ;
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return state - > wbd_offset + wbd_tcold ;
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}
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EXPORT_SYMBOL ( dib0090_get_wbd_target ) ;
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u16 dib0090_get_wbd_offset ( struct dvb_frontend * fe )
{
struct dib0090_state * state = fe - > tuner_priv ;
return state - > wbd_offset ;
}
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EXPORT_SYMBOL ( dib0090_get_wbd_offset ) ;
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int dib0090_set_switch ( struct dvb_frontend * fe , u8 sw1 , u8 sw2 , u8 sw3 )
{
struct dib0090_state * state = fe - > tuner_priv ;
dib0090_write_reg ( state , 0x0b , ( dib0090_read_reg ( state , 0x0b ) & 0xfff8 )
| ( ( sw3 & 1 ) < < 2 ) | ( ( sw2 & 1 ) < < 1 ) | ( sw1 & 1 ) ) ;
return 0 ;
}
EXPORT_SYMBOL ( dib0090_set_switch ) ;
int dib0090_set_vga ( struct dvb_frontend * fe , u8 onoff )
{
struct dib0090_state * state = fe - > tuner_priv ;
dib0090_write_reg ( state , 0x09 , ( dib0090_read_reg ( state , 0x09 ) & 0x7fff )
| ( ( onoff & 1 ) < < 15 ) ) ;
return 0 ;
}
EXPORT_SYMBOL ( dib0090_set_vga ) ;
int dib0090_update_rframp_7090 ( struct dvb_frontend * fe , u8 cfg_sensitivity )
{
struct dib0090_state * state = fe - > tuner_priv ;
if ( ( ! state - > identity . p1g ) | | ( ! state - > identity . in_soc )
| | ( ( state - > identity . version ! = SOC_7090_P1G_21R1 )
& & ( state - > identity . version ! = SOC_7090_P1G_11R1 ) ) ) {
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dprintk ( " %s() function can only be used for dib7090P \n " , __func__ ) ;
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return - ENODEV ;
}
if ( cfg_sensitivity )
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state - > rf_ramp = rf_ramp_pwm_cband_7090e_sensitivity ;
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else
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state - > rf_ramp = rf_ramp_pwm_cband_7090e_aci ;
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dib0090_pwm_gain_reset ( fe ) ;
return 0 ;
}
EXPORT_SYMBOL ( dib0090_update_rframp_7090 ) ;
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static const u16 dib0090_defaults [ ] = {
25 , 0x01 ,
0x0000 ,
0x99a0 ,
0x6008 ,
0x0000 ,
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0x8bcb ,
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0x0000 ,
0x0405 ,
0x0000 ,
0x0000 ,
0x0000 ,
0xb802 ,
0x0300 ,
0x2d12 ,
0xbac0 ,
0x7c00 ,
0xdbb9 ,
0x0954 ,
0x0743 ,
0x8000 ,
0x0001 ,
0x0040 ,
0x0100 ,
0x0000 ,
0xe910 ,
0x149e ,
1 , 0x1c ,
0xff2d ,
1 , 0x39 ,
0x0000 ,
2 , 0x1e ,
0x07FF ,
0x0007 ,
1 , 0x24 ,
EN_UHF | EN_CRYSTAL ,
2 , 0x3c ,
0x3ff ,
0x111 ,
0
} ;
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static const u16 dib0090_p1g_additionnal_defaults [ ] = {
1 , 0x05 ,
0xabcd ,
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1 , 0x11 ,
0x00b4 ,
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1 , 0x1c ,
0xfffd ,
1 , 0x40 ,
0x108 ,
0
} ;
static void dib0090_set_default_config ( struct dib0090_state * state , const u16 * n )
{
u16 l , r ;
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l = pgm_read_word ( n + + ) ;
while ( l ) {
r = pgm_read_word ( n + + ) ;
do {
dib0090_write_reg ( state , r , pgm_read_word ( n + + ) ) ;
r + + ;
} while ( - - l ) ;
l = pgm_read_word ( n + + ) ;
}
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}
# define CAP_VALUE_MIN (u8) 9
# define CAP_VALUE_MAX (u8) 40
# define HR_MIN (u8) 25
# define HR_MAX (u8) 40
# define POLY_MIN (u8) 0
# define POLY_MAX (u8) 8
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static void dib0090_set_EFUSE ( struct dib0090_state * state )
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{
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u8 c , h , n ;
u16 e2 , e4 ;
u16 cal ;
e2 = dib0090_read_reg ( state , 0x26 ) ;
e4 = dib0090_read_reg ( state , 0x28 ) ;
if ( ( state - > identity . version = = P1D_E_F ) | |
( state - > identity . version = = P1G ) | | ( e2 = = 0xffff ) ) {
dib0090_write_reg ( state , 0x22 , 0x10 ) ;
cal = ( dib0090_read_reg ( state , 0x22 ) > > 6 ) & 0x3ff ;
if ( ( cal < 670 ) | | ( cal = = 1023 ) )
cal = 850 ;
n = 165 - ( ( cal * 10 ) > > 6 ) ;
e2 = e4 = ( 3 < < 12 ) | ( 34 < < 6 ) | ( n ) ;
}
if ( e2 ! = e4 )
e2 & = e4 ; /* Remove the redundancy */
if ( e2 ! = 0xffff ) {
c = e2 & 0x3f ;
n = ( e2 > > 12 ) & 0xf ;
h = ( e2 > > 6 ) & 0x3f ;
if ( ( c > = CAP_VALUE_MAX ) | | ( c < = CAP_VALUE_MIN ) )
c = 32 ;
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else
c + = 14 ;
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if ( ( h > = HR_MAX ) | | ( h < = HR_MIN ) )
h = 34 ;
if ( ( n > = POLY_MAX ) | | ( n < = POLY_MIN ) )
n = 3 ;
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dib0090_write_reg ( state , 0x13 , ( h < < 10 ) ) ;
e2 = ( n < < 11 ) | ( ( h > > 2 ) < < 6 ) | c ;
dib0090_write_reg ( state , 0x2 , e2 ) ; /* Load the BB_2 */
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}
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}
static int dib0090_reset ( struct dvb_frontend * fe )
{
struct dib0090_state * state = fe - > tuner_priv ;
dib0090_reset_digital ( fe , state - > config ) ;
if ( dib0090_identify ( fe ) < 0 )
return - EIO ;
# ifdef CONFIG_TUNER_DIB0090_P1B_SUPPORT
if ( ! ( state - > identity . version & 0x1 ) ) /* it is P1B - reset is already done */
return 0 ;
# endif
if ( ! state - > identity . in_soc ) {
if ( ( dib0090_read_reg ( state , 0x1a ) > > 5 ) & 0x2 )
dib0090_write_reg ( state , 0x1b , ( EN_IQADC | EN_BB | EN_BIAS | EN_DIGCLK | EN_PLL | EN_CRYSTAL ) ) ;
else
dib0090_write_reg ( state , 0x1b , ( EN_DIGCLK | EN_PLL | EN_CRYSTAL ) ) ;
}
dib0090_set_default_config ( state , dib0090_defaults ) ;
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if ( state - > identity . in_soc )
dib0090_write_reg ( state , 0x18 , 0x2910 ) ; /* charge pump current = 0 */
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if ( state - > identity . p1g )
dib0090_set_default_config ( state , dib0090_p1g_additionnal_defaults ) ;
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/* Update the efuse : Only available for KROSUS > P1C and SOC as well*/
if ( ( ( state - > identity . version & 0x1f ) > = P1D_E_F ) | | ( state - > identity . in_soc ) )
dib0090_set_EFUSE ( state ) ;
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/* Congigure in function of the crystal */
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if ( state - > config - > force_crystal_mode ! = 0 )
dib0090_write_reg ( state , 0x14 ,
state - > config - > force_crystal_mode & 3 ) ;
else if ( state - > config - > io . clock_khz > = 24000 )
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dib0090_write_reg ( state , 0x14 , 1 ) ;
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else
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dib0090_write_reg ( state , 0x14 , 2 ) ;
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dprintk ( " Pll lock : %d \n " , ( dib0090_read_reg ( state , 0x1a ) > > 11 ) & 0x1 ) ;
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state - > calibrate = DC_CAL | WBD_CAL | TEMP_CAL ; /* enable iq-offset-calibration and wbd-calibration when tuning next time */
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return 0 ;
}
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# define steps(u) (((u) > 15) ? ((u)-16) : (u))
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# define INTERN_WAIT 10
static int dib0090_get_offset ( struct dib0090_state * state , enum frontend_tune_state * tune_state )
{
int ret = INTERN_WAIT * 10 ;
switch ( * tune_state ) {
case CT_TUNER_STEP_2 :
/* Turns to positive */
dib0090_write_reg ( state , 0x1f , 0x7 ) ;
* tune_state = CT_TUNER_STEP_3 ;
break ;
case CT_TUNER_STEP_3 :
state - > adc_diff = dib0090_read_reg ( state , 0x1d ) ;
/* Turns to negative */
dib0090_write_reg ( state , 0x1f , 0x4 ) ;
* tune_state = CT_TUNER_STEP_4 ;
break ;
case CT_TUNER_STEP_4 :
state - > adc_diff - = dib0090_read_reg ( state , 0x1d ) ;
* tune_state = CT_TUNER_STEP_5 ;
ret = 0 ;
break ;
default :
break ;
}
return ret ;
}
struct dc_calibration {
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u8 addr ;
u8 offset ;
u8 pga : 1 ;
u16 bb1 ;
u8 i : 1 ;
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} ;
static const struct dc_calibration dc_table [ ] = {
/* Step1 BB gain1= 26 with boost 1, gain 2 = 0 */
{ 0x06 , 5 , 1 , ( 1 < < 13 ) | ( 0 < < 8 ) | ( 26 < < 3 ) , 1 } ,
{ 0x07 , 11 , 1 , ( 1 < < 13 ) | ( 0 < < 8 ) | ( 26 < < 3 ) , 0 } ,
/* Step 2 BB gain 1 = 26 with boost = 1 & gain 2 = 29 */
{ 0x06 , 0 , 0 , ( 1 < < 13 ) | ( 29 < < 8 ) | ( 26 < < 3 ) , 1 } ,
{ 0x06 , 10 , 0 , ( 1 < < 13 ) | ( 29 < < 8 ) | ( 26 < < 3 ) , 0 } ,
{ 0 } ,
} ;
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static const struct dc_calibration dc_p1g_table [ ] = {
/* Step1 BB gain1= 26 with boost 1, gain 2 = 0 */
/* addr ; trim reg offset ; pga ; CTRL_BB1 value ; i or q */
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{ 0x06 , 5 , 1 , ( 1 < < 13 ) | ( 0 < < 8 ) | ( 15 < < 3 ) , 1 } ,
{ 0x07 , 11 , 1 , ( 1 < < 13 ) | ( 0 < < 8 ) | ( 15 < < 3 ) , 0 } ,
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/* Step 2 BB gain 1 = 26 with boost = 1 & gain 2 = 29 */
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{ 0x06 , 0 , 0 , ( 1 < < 13 ) | ( 29 < < 8 ) | ( 15 < < 3 ) , 1 } ,
{ 0x06 , 10 , 0 , ( 1 < < 13 ) | ( 29 < < 8 ) | ( 15 < < 3 ) , 0 } ,
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{ 0 } ,
} ;
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static void dib0090_set_trim ( struct dib0090_state * state )
{
u16 * val ;
if ( state - > dc - > addr = = 0x07 )
val = & state - > bb7 ;
else
val = & state - > bb6 ;
* val & = ~ ( 0x1f < < state - > dc - > offset ) ;
* val | = state - > step < < state - > dc - > offset ;
dib0090_write_reg ( state , state - > dc - > addr , * val ) ;
}
static int dib0090_dc_offset_calibration ( struct dib0090_state * state , enum frontend_tune_state * tune_state )
{
int ret = 0 ;
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u16 reg ;
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switch ( * tune_state ) {
case CT_TUNER_START :
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dprintk ( " Start DC offset calibration " ) ;
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/* force vcm2 = 0.8V */
state - > bb6 = 0 ;
state - > bb7 = 0x040d ;
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/* the LNA AND LO are off */
reg = dib0090_read_reg ( state , 0x24 ) & 0x0ffb ; /* shutdown lna and lo */
dib0090_write_reg ( state , 0x24 , reg ) ;
state - > wbdmux = dib0090_read_reg ( state , 0x10 ) ;
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dib0090_write_reg ( state , 0x10 , ( state - > wbdmux & ~ ( 0xff < < 3 ) ) | ( 0x7 < < 3 ) | 0x3 ) ;
dib0090_write_reg ( state , 0x23 , dib0090_read_reg ( state , 0x23 ) & ~ ( 1 < < 14 ) ) ;
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state - > dc = dc_table ;
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if ( state - > identity . p1g )
state - > dc = dc_p1g_table ;
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fallthrough ;
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case CT_TUNER_STEP_0 :
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dprintk ( " Start/continue DC calibration for %s path \n " ,
( state - > dc - > i = = 1 ) ? " I " : " Q " ) ;
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dib0090_write_reg ( state , 0x01 , state - > dc - > bb1 ) ;
dib0090_write_reg ( state , 0x07 , state - > bb7 | ( state - > dc - > i < < 7 ) ) ;
state - > step = 0 ;
state - > min_adc_diff = 1023 ;
* tune_state = CT_TUNER_STEP_1 ;
ret = 50 ;
break ;
case CT_TUNER_STEP_1 :
dib0090_set_trim ( state ) ;
* tune_state = CT_TUNER_STEP_2 ;
break ;
case CT_TUNER_STEP_2 :
case CT_TUNER_STEP_3 :
case CT_TUNER_STEP_4 :
ret = dib0090_get_offset ( state , tune_state ) ;
break ;
case CT_TUNER_STEP_5 : /* found an offset */
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dprintk ( " adc_diff = %d, current step= %d \n " , ( u32 ) state - > adc_diff , state - > step ) ;
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if ( state - > step = = 0 & & state - > adc_diff < 0 ) {
state - > min_adc_diff = - 1023 ;
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dprintk ( " Change of sign of the minimum adc diff \n " ) ;
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}
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dprintk ( " adc_diff = %d, min_adc_diff = %d current_step = %d \n " , state - > adc_diff , state - > min_adc_diff , state - > step ) ;
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/* first turn for this frequency */
if ( state - > step = = 0 ) {
if ( state - > dc - > pga & & state - > adc_diff < 0 )
state - > step = 0x10 ;
if ( state - > dc - > pga = = 0 & & state - > adc_diff > 0 )
state - > step = 0x10 ;
}
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/* Look for a change of Sign in the Adc_diff.min_adc_diff is used to STORE the setp N-1 */
if ( ( state - > adc_diff & 0x8000 ) = = ( state - > min_adc_diff & 0x8000 ) & & steps ( state - > step ) < 15 ) {
/* stop search when the delta the sign is changing and Steps =15 and Step=0 is force for continuance */
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state - > step + + ;
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state - > min_adc_diff = state - > adc_diff ;
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* tune_state = CT_TUNER_STEP_1 ;
} else {
/* the minimum was what we have seen in the step before */
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if ( abs ( state - > adc_diff ) > abs ( state - > min_adc_diff ) ) {
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dprintk ( " Since adc_diff N = %d > adc_diff step N-1 = %d, Come back one step \n " , state - > adc_diff , state - > min_adc_diff ) ;
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state - > step - - ;
}
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dib0090_set_trim ( state ) ;
media: dib0090: incorrect format specifier detected by clang
drivers/media/dvb-frontends/dib0090.c:1751:67: warning: format specifies type 'short' but the argument has type 'u8' (aka 'unsigned char') [-Wformat]
dprintk("BB Offset Cal, BBreg=%hd,Offset=%hd,Value Set=%hd\n", state->dc->addr, state->adc_diff, state->step);
~~~ ^~~~~~~~~~~~~~~
%hhu
drivers/media/dvb-frontends/dib0090.c:30:22: note: expanded from macro 'dprintk'
__func__, ##arg); \
^~~
drivers/media/dvb-frontends/dib0090.c:1751:101: warning: format specifies type 'short' but the argument has type 's8' (aka 'signed char') [-Wformat]
dprintk("BB Offset Cal, BBreg=%hd,Offset=%hd,Value Set=%hd\n", state->dc->addr, state->adc_diff, state->step);
~~~ ^~~~~~~~~~~
%hhd
drivers/media/dvb-frontends/dib0090.c:30:22: note: expanded from macro 'dprintk'
__func__, ##arg); \
^~~
Signed-off-by: Sean Young <sean@mess.org>
Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org>
2020-01-01 17:19:20 +08:00
dprintk ( " BB Offset Cal, BBreg=%u,Offset=%d,Value Set=%d \n " ,
state - > dc - > addr , state - > adc_diff , state - > step ) ;
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state - > dc + + ;
if ( state - > dc - > addr = = 0 ) /* done */
* tune_state = CT_TUNER_STEP_6 ;
else
* tune_state = CT_TUNER_STEP_0 ;
}
break ;
case CT_TUNER_STEP_6 :
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dib0090_write_reg ( state , 0x07 , state - > bb7 & ~ 0x0008 ) ;
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dib0090_write_reg ( state , 0x1f , 0x7 ) ;
* tune_state = CT_TUNER_START ; /* reset done -> real tuning can now begin */
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state - > calibrate & = ~ DC_CAL ;
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break ;
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default :
break ;
}
return ret ;
}
static int dib0090_wbd_calibration ( struct dib0090_state * state , enum frontend_tune_state * tune_state )
{
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u8 wbd_gain ;
const struct dib0090_wbd_slope * wbd = state - > current_wbd_table ;
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switch ( * tune_state ) {
case CT_TUNER_START :
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while ( state - > current_rf / 1000 > wbd - > max_freq )
wbd + + ;
if ( wbd - > wbd_gain ! = 0 )
wbd_gain = wbd - > wbd_gain ;
else {
wbd_gain = 4 ;
# if defined(CONFIG_BAND_LBAND) || defined(CONFIG_BAND_SBAND)
if ( ( state - > current_band = = BAND_LBAND ) | | ( state - > current_band = = BAND_SBAND ) )
wbd_gain = 2 ;
# endif
}
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if ( wbd_gain = = state - > wbd_calibration_gain ) { /* the WBD calibration has already been done */
* tune_state = CT_TUNER_START ;
state - > calibrate & = ~ WBD_CAL ;
return 0 ;
}
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dib0090_write_reg ( state , 0x10 , 0x1b81 | ( 1 < < 10 ) | ( wbd_gain < < 13 ) | ( 1 < < 3 ) ) ;
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dib0090_write_reg ( state , 0x24 , ( ( EN_UHF & 0x0fff ) | ( 1 < < 1 ) ) ) ;
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* tune_state = CT_TUNER_STEP_0 ;
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state - > wbd_calibration_gain = wbd_gain ;
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return 90 ; /* wait for the WBDMUX to switch and for the ADC to sample */
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case CT_TUNER_STEP_0 :
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state - > wbd_offset = dib0090_get_slow_adc_val ( state ) ;
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dprintk ( " WBD calibration offset = %d \n " , state - > wbd_offset ) ;
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* tune_state = CT_TUNER_START ; /* reset done -> real tuning can now begin */
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state - > calibrate & = ~ WBD_CAL ;
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break ;
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default :
break ;
}
return 0 ;
}
static void dib0090_set_bandwidth ( struct dib0090_state * state )
{
u16 tmp ;
if ( state - > fe - > dtv_property_cache . bandwidth_hz / 1000 < = 5000 )
tmp = ( 3 < < 14 ) ;
else if ( state - > fe - > dtv_property_cache . bandwidth_hz / 1000 < = 6000 )
tmp = ( 2 < < 14 ) ;
else if ( state - > fe - > dtv_property_cache . bandwidth_hz / 1000 < = 7000 )
tmp = ( 1 < < 14 ) ;
else
tmp = ( 0 < < 14 ) ;
state - > bb_1_def & = 0x3fff ;
state - > bb_1_def | = tmp ;
dib0090_write_reg ( state , 0x01 , state - > bb_1_def ) ; /* be sure that we have the right bb-filter */
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dib0090_write_reg ( state , 0x03 , 0x6008 ) ; /* = 0x6008 : vcm3_trim = 1 ; filter2_gm1_trim = 8 ; filter2_cutoff_freq = 0 */
dib0090_write_reg ( state , 0x04 , 0x1 ) ; /* 0 = 1KHz ; 1 = 50Hz ; 2 = 150Hz ; 3 = 50KHz ; 4 = servo fast */
if ( state - > identity . in_soc ) {
dib0090_write_reg ( state , 0x05 , 0x9bcf ) ; /* attenuator_ibias_tri = 2 ; input_stage_ibias_tr = 1 ; nc = 11 ; ext_gm_trim = 1 ; obuf_ibias_trim = 4 ; filter13_gm2_ibias_t = 15 */
} else {
dib0090_write_reg ( state , 0x02 , ( 5 < < 11 ) | ( 8 < < 6 ) | ( 22 & 0x3f ) ) ; /* 22 = cap_value */
dib0090_write_reg ( state , 0x05 , 0xabcd ) ; /* = 0xabcd : attenuator_ibias_tri = 2 ; input_stage_ibias_tr = 2 ; nc = 11 ; ext_gm_trim = 1 ; obuf_ibias_trim = 4 ; filter13_gm2_ibias_t = 13 */
}
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}
static const struct dib0090_pll dib0090_pll_table [ ] = {
# ifdef CONFIG_BAND_CBAND
{ 56000 , 0 , 9 , 48 , 6 } ,
{ 70000 , 1 , 9 , 48 , 6 } ,
{ 87000 , 0 , 8 , 32 , 4 } ,
{ 105000 , 1 , 8 , 32 , 4 } ,
{ 115000 , 0 , 7 , 24 , 6 } ,
{ 140000 , 1 , 7 , 24 , 6 } ,
{ 170000 , 0 , 6 , 16 , 4 } ,
# endif
# ifdef CONFIG_BAND_VHF
{ 200000 , 1 , 6 , 16 , 4 } ,
{ 230000 , 0 , 5 , 12 , 6 } ,
{ 280000 , 1 , 5 , 12 , 6 } ,
{ 340000 , 0 , 4 , 8 , 4 } ,
{ 380000 , 1 , 4 , 8 , 4 } ,
{ 450000 , 0 , 3 , 6 , 6 } ,
# endif
# ifdef CONFIG_BAND_UHF
{ 580000 , 1 , 3 , 6 , 6 } ,
{ 700000 , 0 , 2 , 4 , 4 } ,
{ 860000 , 1 , 2 , 4 , 4 } ,
# endif
# ifdef CONFIG_BAND_LBAND
{ 1800000 , 1 , 0 , 2 , 4 } ,
# endif
# ifdef CONFIG_BAND_SBAND
{ 2900000 , 0 , 14 , 1 , 4 } ,
# endif
} ;
static const struct dib0090_tuning dib0090_tuning_table_fm_vhf_on_cband [ ] = {
# ifdef CONFIG_BAND_CBAND
{ 184000 , 4 , 1 , 15 , 0x280 , 0x2912 , 0xb94e , EN_CAB } ,
{ 227000 , 4 , 3 , 15 , 0x280 , 0x2912 , 0xb94e , EN_CAB } ,
{ 380000 , 4 , 7 , 15 , 0x280 , 0x2912 , 0xb94e , EN_CAB } ,
# endif
# ifdef CONFIG_BAND_UHF
{ 520000 , 2 , 0 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 550000 , 2 , 2 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 650000 , 2 , 3 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 750000 , 2 , 5 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 850000 , 2 , 6 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 900000 , 2 , 7 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
# endif
# ifdef CONFIG_BAND_LBAND
{ 1500000 , 4 , 0 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
{ 1600000 , 4 , 1 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
{ 1800000 , 4 , 3 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
# endif
# ifdef CONFIG_BAND_SBAND
{ 2300000 , 1 , 4 , 20 , 0x300 , 0x2d2A , 0x82c7 , EN_SBD } ,
{ 2900000 , 1 , 7 , 20 , 0x280 , 0x2deb , 0x8347 , EN_SBD } ,
# endif
} ;
static const struct dib0090_tuning dib0090_tuning_table [ ] = {
# ifdef CONFIG_BAND_CBAND
{ 170000 , 4 , 1 , 15 , 0x280 , 0x2912 , 0xb94e , EN_CAB } ,
# endif
# ifdef CONFIG_BAND_VHF
{ 184000 , 1 , 1 , 15 , 0x300 , 0x4d12 , 0xb94e , EN_VHF } ,
{ 227000 , 1 , 3 , 15 , 0x300 , 0x4d12 , 0xb94e , EN_VHF } ,
{ 380000 , 1 , 7 , 15 , 0x300 , 0x4d12 , 0xb94e , EN_VHF } ,
# endif
# ifdef CONFIG_BAND_UHF
{ 520000 , 2 , 0 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 550000 , 2 , 2 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 650000 , 2 , 3 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 750000 , 2 , 5 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 850000 , 2 , 6 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 900000 , 2 , 7 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
# endif
# ifdef CONFIG_BAND_LBAND
{ 1500000 , 4 , 0 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
{ 1600000 , 4 , 1 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
{ 1800000 , 4 , 3 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
# endif
# ifdef CONFIG_BAND_SBAND
{ 2300000 , 1 , 4 , 20 , 0x300 , 0x2d2A , 0x82c7 , EN_SBD } ,
{ 2900000 , 1 , 7 , 20 , 0x280 , 0x2deb , 0x8347 , EN_SBD } ,
# endif
} ;
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static const struct dib0090_tuning dib0090_p1g_tuning_table [ ] = {
# ifdef CONFIG_BAND_CBAND
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{ 170000 , 4 , 1 , 0x820f , 0x300 , 0x2d22 , 0x82cb , EN_CAB } ,
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# endif
# ifdef CONFIG_BAND_VHF
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{ 184000 , 1 , 1 , 15 , 0x300 , 0x4d12 , 0xb94e , EN_VHF } ,
{ 227000 , 1 , 3 , 15 , 0x300 , 0x4d12 , 0xb94e , EN_VHF } ,
{ 380000 , 1 , 7 , 15 , 0x300 , 0x4d12 , 0xb94e , EN_VHF } ,
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# endif
# ifdef CONFIG_BAND_UHF
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{ 510000 , 2 , 0 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 540000 , 2 , 1 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 600000 , 2 , 3 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 630000 , 2 , 4 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 680000 , 2 , 5 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 720000 , 2 , 6 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 900000 , 2 , 7 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
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# endif
# ifdef CONFIG_BAND_LBAND
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{ 1500000 , 4 , 0 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
{ 1600000 , 4 , 1 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
{ 1800000 , 4 , 3 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
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# endif
# ifdef CONFIG_BAND_SBAND
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{ 2300000 , 1 , 4 , 20 , 0x300 , 0x2d2A , 0x82c7 , EN_SBD } ,
{ 2900000 , 1 , 7 , 20 , 0x280 , 0x2deb , 0x8347 , EN_SBD } ,
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# endif
} ;
static const struct dib0090_pll dib0090_p1g_pll_table [ ] = {
# ifdef CONFIG_BAND_CBAND
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{ 57000 , 0 , 11 , 48 , 6 } ,
{ 70000 , 1 , 11 , 48 , 6 } ,
{ 86000 , 0 , 10 , 32 , 4 } ,
{ 105000 , 1 , 10 , 32 , 4 } ,
{ 115000 , 0 , 9 , 24 , 6 } ,
{ 140000 , 1 , 9 , 24 , 6 } ,
{ 170000 , 0 , 8 , 16 , 4 } ,
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# endif
# ifdef CONFIG_BAND_VHF
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{ 200000 , 1 , 8 , 16 , 4 } ,
{ 230000 , 0 , 7 , 12 , 6 } ,
{ 280000 , 1 , 7 , 12 , 6 } ,
{ 340000 , 0 , 6 , 8 , 4 } ,
{ 380000 , 1 , 6 , 8 , 4 } ,
{ 455000 , 0 , 5 , 6 , 6 } ,
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# endif
# ifdef CONFIG_BAND_UHF
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{ 580000 , 1 , 5 , 6 , 6 } ,
{ 680000 , 0 , 4 , 4 , 4 } ,
{ 860000 , 1 , 4 , 4 , 4 } ,
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# endif
# ifdef CONFIG_BAND_LBAND
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{ 1800000 , 1 , 2 , 2 , 4 } ,
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# endif
# ifdef CONFIG_BAND_SBAND
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{ 2900000 , 0 , 1 , 1 , 6 } ,
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# endif
} ;
static const struct dib0090_tuning dib0090_p1g_tuning_table_fm_vhf_on_cband [ ] = {
# ifdef CONFIG_BAND_CBAND
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{ 184000 , 4 , 3 , 0x4187 , 0x2c0 , 0x2d22 , 0x81cb , EN_CAB } ,
{ 227000 , 4 , 3 , 0x4187 , 0x2c0 , 0x2d22 , 0x81cb , EN_CAB } ,
{ 380000 , 4 , 3 , 0x4187 , 0x2c0 , 0x2d22 , 0x81cb , EN_CAB } ,
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# endif
# ifdef CONFIG_BAND_UHF
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{ 520000 , 2 , 0 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 550000 , 2 , 2 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 650000 , 2 , 3 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 750000 , 2 , 5 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 850000 , 2 , 6 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
{ 900000 , 2 , 7 , 15 , 0x300 , 0x1d12 , 0xb9ce , EN_UHF } ,
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# endif
# ifdef CONFIG_BAND_LBAND
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{ 1500000 , 4 , 0 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
{ 1600000 , 4 , 1 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
{ 1800000 , 4 , 3 , 20 , 0x300 , 0x1912 , 0x82c9 , EN_LBD } ,
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# endif
# ifdef CONFIG_BAND_SBAND
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{ 2300000 , 1 , 4 , 20 , 0x300 , 0x2d2A , 0x82c7 , EN_SBD } ,
{ 2900000 , 1 , 7 , 20 , 0x280 , 0x2deb , 0x8347 , EN_SBD } ,
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# endif
} ;
static const struct dib0090_tuning dib0090_tuning_table_cband_7090 [ ] = {
# ifdef CONFIG_BAND_CBAND
{ 300000 , 4 , 3 , 0x018F , 0x2c0 , 0x2d22 , 0xb9ce , EN_CAB } ,
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{ 380000 , 4 , 10 , 0x018F , 0x2c0 , 0x2d22 , 0xb9ce , EN_CAB } ,
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{ 570000 , 4 , 10 , 0x8190 , 0x2c0 , 0x2d22 , 0xb9ce , EN_CAB } ,
{ 858000 , 4 , 5 , 0x8190 , 0x2c0 , 0x2d22 , 0xb9ce , EN_CAB } ,
# endif
} ;
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static const struct dib0090_tuning dib0090_tuning_table_cband_7090e_sensitivity [ ] = {
# ifdef CONFIG_BAND_CBAND
{ 300000 , 0 , 3 , 0x8105 , 0x2c0 , 0x2d12 , 0xb84e , EN_CAB } ,
{ 380000 , 0 , 10 , 0x810F , 0x2c0 , 0x2d12 , 0xb84e , EN_CAB } ,
{ 600000 , 0 , 10 , 0x815E , 0x280 , 0x2d12 , 0xb84e , EN_CAB } ,
{ 660000 , 0 , 5 , 0x85E3 , 0x280 , 0x2d12 , 0xb84e , EN_CAB } ,
{ 720000 , 0 , 5 , 0x852E , 0x280 , 0x2d12 , 0xb84e , EN_CAB } ,
{ 860000 , 0 , 4 , 0x85E5 , 0x280 , 0x2d12 , 0xb84e , EN_CAB } ,
# endif
} ;
int dib0090_update_tuning_table_7090 ( struct dvb_frontend * fe ,
u8 cfg_sensitivity )
{
struct dib0090_state * state = fe - > tuner_priv ;
const struct dib0090_tuning * tune =
dib0090_tuning_table_cband_7090e_sensitivity ;
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static const struct dib0090_tuning dib0090_tuning_table_cband_7090e_aci [ ] = {
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{ 300000 , 0 , 3 , 0x8165 , 0x2c0 , 0x2d12 , 0xb84e , EN_CAB } ,
{ 650000 , 0 , 4 , 0x815B , 0x280 , 0x2d12 , 0xb84e , EN_CAB } ,
{ 860000 , 0 , 5 , 0x84EF , 0x280 , 0x2d12 , 0xb84e , EN_CAB } ,
} ;
if ( ( ! state - > identity . p1g ) | | ( ! state - > identity . in_soc )
| | ( ( state - > identity . version ! = SOC_7090_P1G_21R1 )
& & ( state - > identity . version ! = SOC_7090_P1G_11R1 ) ) ) {
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dprintk ( " %s() function can only be used for dib7090 \n " , __func__ ) ;
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return - ENODEV ;
}
if ( cfg_sensitivity )
tune = dib0090_tuning_table_cband_7090e_sensitivity ;
else
tune = dib0090_tuning_table_cband_7090e_aci ;
while ( state - > rf_request > tune - > max_freq )
tune + + ;
dib0090_write_reg ( state , 0x09 , ( dib0090_read_reg ( state , 0x09 ) & 0x8000 )
| ( tune - > lna_bias & 0x7fff ) ) ;
dib0090_write_reg ( state , 0x0b , ( dib0090_read_reg ( state , 0x0b ) & 0xf83f )
| ( ( tune - > lna_tune < < 6 ) & 0x07c0 ) ) ;
return 0 ;
}
EXPORT_SYMBOL ( dib0090_update_tuning_table_7090 ) ;
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static int dib0090_captrim_search ( struct dib0090_state * state , enum frontend_tune_state * tune_state )
{
int ret = 0 ;
u16 lo4 = 0xe900 ;
s16 adc_target ;
u16 adc ;
s8 step_sign ;
u8 force_soft_search = 0 ;
if ( state - > identity . version = = SOC_8090_P1G_11R1 | | state - > identity . version = = SOC_8090_P1G_21R1 )
force_soft_search = 1 ;
if ( * tune_state = = CT_TUNER_START ) {
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dprintk ( " Start Captrim search : %s \n " ,
( force_soft_search = = 1 ) ? " FORCE SOFT SEARCH " : " AUTO " ) ;
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dib0090_write_reg ( state , 0x10 , 0x2B1 ) ;
dib0090_write_reg ( state , 0x1e , 0x0032 ) ;
if ( ! state - > tuner_is_tuned ) {
/* prepare a complete captrim */
if ( ! state - > identity . p1g | | force_soft_search )
state - > step = state - > captrim = state - > fcaptrim = 64 ;
state - > current_rf = state - > rf_request ;
} else { /* we are already tuned to this frequency - the configuration is correct */
if ( ! state - > identity . p1g | | force_soft_search ) {
/* do a minimal captrim even if the frequency has not changed */
state - > step = 4 ;
state - > captrim = state - > fcaptrim = dib0090_read_reg ( state , 0x18 ) & 0x7f ;
}
}
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state - > adc_diff = 3000 ;
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* tune_state = CT_TUNER_STEP_0 ;
} else if ( * tune_state = = CT_TUNER_STEP_0 ) {
if ( state - > identity . p1g & & ! force_soft_search ) {
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u8 ratio = 31 ;
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dib0090_write_reg ( state , 0x40 , ( 3 < < 7 ) | ( ratio < < 2 ) | ( 1 < < 1 ) | 1 ) ;
dib0090_read_reg ( state , 0x40 ) ;
ret = 50 ;
} else {
state - > step / = 2 ;
dib0090_write_reg ( state , 0x18 , lo4 | state - > captrim ) ;
if ( state - > identity . in_soc )
ret = 25 ;
}
* tune_state = CT_TUNER_STEP_1 ;
} else if ( * tune_state = = CT_TUNER_STEP_1 ) {
if ( state - > identity . p1g & & ! force_soft_search ) {
dib0090_write_reg ( state , 0x40 , 0x18c | ( 0 < < 1 ) | 0 ) ;
dib0090_read_reg ( state , 0x40 ) ;
state - > fcaptrim = dib0090_read_reg ( state , 0x18 ) & 0x7F ;
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dprintk ( " ***Final Captrim= 0x%x \n " , state - > fcaptrim ) ;
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* tune_state = CT_TUNER_STEP_3 ;
} else {
/* MERGE for all krosus before P1G */
adc = dib0090_get_slow_adc_val ( state ) ;
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dprintk ( " CAPTRIM=%d; ADC = %d (ADC) & %dmV \n " , ( u32 ) state - > captrim , ( u32 ) adc , ( u32 ) ( adc ) * ( u32 ) 1800 / ( u32 ) 1024 ) ;
2011-01-04 15:27:11 +08:00
if ( state - > rest = = 0 | | state - > identity . in_soc ) { /* Just for 8090P SOCS where auto captrim HW bug : TO CHECK IN ACI for SOCS !!! if 400 for 8090p SOC => tune issue !!! */
adc_target = 200 ;
} else
adc_target = 400 ;
if ( adc > = adc_target ) {
adc - = adc_target ;
step_sign = - 1 ;
} else {
adc = adc_target - adc ;
step_sign = 1 ;
}
if ( adc < state - > adc_diff ) {
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dprintk ( " CAPTRIM=%d is closer to target (%d/%d) \n " , ( u32 ) state - > captrim , ( u32 ) adc , ( u32 ) state - > adc_diff ) ;
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state - > adc_diff = adc ;
state - > fcaptrim = state - > captrim ;
}
state - > captrim + = step_sign * state - > step ;
if ( state - > step > = 1 )
* tune_state = CT_TUNER_STEP_0 ;
else
* tune_state = CT_TUNER_STEP_2 ;
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ret = 25 ;
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}
} else if ( * tune_state = = CT_TUNER_STEP_2 ) { /* this step is only used by krosus < P1G */
/*write the final cptrim config */
dib0090_write_reg ( state , 0x18 , lo4 | state - > fcaptrim ) ;
* tune_state = CT_TUNER_STEP_3 ;
} else if ( * tune_state = = CT_TUNER_STEP_3 ) {
state - > calibrate & = ~ CAPTRIM_CAL ;
* tune_state = CT_TUNER_STEP_0 ;
}
return ret ;
}
static int dib0090_get_temperature ( struct dib0090_state * state , enum frontend_tune_state * tune_state )
{
int ret = 15 ;
s16 val ;
switch ( * tune_state ) {
case CT_TUNER_START :
state - > wbdmux = dib0090_read_reg ( state , 0x10 ) ;
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dib0090_write_reg ( state , 0x10 , ( state - > wbdmux & ~ ( 0xff < < 3 ) ) | ( 0x8 < < 3 ) ) ;
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state - > bias = dib0090_read_reg ( state , 0x13 ) ;
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dib0090_write_reg ( state , 0x13 , state - > bias | ( 0x3 < < 8 ) ) ;
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* tune_state = CT_TUNER_STEP_0 ;
/* wait for the WBDMUX to switch and for the ADC to sample */
break ;
case CT_TUNER_STEP_0 :
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state - > adc_diff = dib0090_get_slow_adc_val ( state ) ;
dib0090_write_reg ( state , 0x13 , ( state - > bias & ~ ( 0x3 < < 8 ) ) | ( 0x2 < < 8 ) ) ;
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* tune_state = CT_TUNER_STEP_1 ;
break ;
case CT_TUNER_STEP_1 :
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val = dib0090_get_slow_adc_val ( state ) ;
state - > temperature = ( ( s16 ) ( ( val - state - > adc_diff ) * 180 ) > > 8 ) + 55 ;
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dprintk ( " temperature: %d C \n " , state - > temperature - 30 ) ;
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* tune_state = CT_TUNER_STEP_2 ;
break ;
case CT_TUNER_STEP_2 :
dib0090_write_reg ( state , 0x13 , state - > bias ) ;
dib0090_write_reg ( state , 0x10 , state - > wbdmux ) ; /* write back original WBDMUX */
* tune_state = CT_TUNER_START ;
state - > calibrate & = ~ TEMP_CAL ;
if ( state - > config - > analog_output = = 0 )
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dib0090_write_reg ( state , 0x23 , dib0090_read_reg ( state , 0x23 ) | ( 1 < < 14 ) ) ;
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break ;
default :
ret = 0 ;
break ;
}
return ret ;
}
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# define WBD 0x781 /* 1 1 1 1 0000 0 0 1 */
static int dib0090_tune ( struct dvb_frontend * fe )
{
struct dib0090_state * state = fe - > tuner_priv ;
const struct dib0090_tuning * tune = state - > current_tune_table_index ;
const struct dib0090_pll * pll = state - > current_pll_table_index ;
enum frontend_tune_state * tune_state = & state - > tune_state ;
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u16 lo5 , lo6 , Den , tmp ;
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u32 FBDiv , Rest , FREF , VCOF_kHz = 0 ;
int ret = 10 ; /* 1ms is the default delay most of the time */
u8 c , i ;
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/************************* VCO ***************************/
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/* Default values for FG */
/* from these are needed : */
/* Cp,HFdiv,VCOband,SD,Num,Den,FB and REFDiv */
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/* in any case we first need to do a calibration if needed */
if ( * tune_state = = CT_TUNER_START ) {
/* deactivate DataTX before some calibrations */
if ( state - > calibrate & ( DC_CAL | TEMP_CAL | WBD_CAL ) )
dib0090_write_reg ( state , 0x23 , dib0090_read_reg ( state , 0x23 ) & ~ ( 1 < < 14 ) ) ;
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else
/* Activate DataTX in case a calibration has been done before */
if ( state - > config - > analog_output = = 0 )
dib0090_write_reg ( state , 0x23 , dib0090_read_reg ( state , 0x23 ) | ( 1 < < 14 ) ) ;
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}
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2011-01-04 15:27:11 +08:00
if ( state - > calibrate & DC_CAL )
return dib0090_dc_offset_calibration ( state , tune_state ) ;
else if ( state - > calibrate & WBD_CAL ) {
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if ( state - > current_rf = = 0 )
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state - > current_rf = state - > fe - > dtv_property_cache . frequency / 1000 ;
return dib0090_wbd_calibration ( state , tune_state ) ;
} else if ( state - > calibrate & TEMP_CAL )
return dib0090_get_temperature ( state , tune_state ) ;
else if ( state - > calibrate & CAPTRIM_CAL )
return dib0090_captrim_search ( state , tune_state ) ;
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2011-01-04 15:27:11 +08:00
if ( * tune_state = = CT_TUNER_START ) {
/* if soc and AGC pwm control, disengage mux to be able to R/W access to 0x01 register to set the right filter (cutoff_freq_select) during the tune sequence, otherwise, SOC SERPAR error when accessing to 0x01 */
if ( state - > config - > use_pwm_agc & & state - > identity . in_soc ) {
tmp = dib0090_read_reg ( state , 0x39 ) ;
if ( ( tmp > > 10 ) & 0x1 )
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dib0090_write_reg ( state , 0x39 , tmp & ~ ( 1 < < 10 ) ) ;
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}
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2011-01-04 15:27:11 +08:00
state - > current_band = ( u8 ) BAND_OF_FREQUENCY ( state - > fe - > dtv_property_cache . frequency / 1000 ) ;
state - > rf_request =
state - > fe - > dtv_property_cache . frequency / 1000 + ( state - > current_band = =
BAND_UHF ? state - > config - > freq_offset_khz_uhf : state - > config - >
freq_offset_khz_vhf ) ;
/* in ISDB-T 1seg we shift tuning frequency */
if ( ( state - > fe - > dtv_property_cache . delivery_system = = SYS_ISDBT & & state - > fe - > dtv_property_cache . isdbt_sb_mode = = 1
& & state - > fe - > dtv_property_cache . isdbt_partial_reception = = 0 ) ) {
const struct dib0090_low_if_offset_table * LUT_offset = state - > config - > low_if ;
u8 found_offset = 0 ;
u32 margin_khz = 100 ;
if ( LUT_offset ! = NULL ) {
while ( LUT_offset - > RF_freq ! = 0xffff ) {
if ( ( ( state - > rf_request > ( LUT_offset - > RF_freq - margin_khz ) )
& & ( state - > rf_request < ( LUT_offset - > RF_freq + margin_khz ) ) )
& & LUT_offset - > std = = state - > fe - > dtv_property_cache . delivery_system ) {
state - > rf_request + = LUT_offset - > offset_khz ;
found_offset = 1 ;
break ;
}
LUT_offset + + ;
}
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}
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if ( found_offset = = 0 )
state - > rf_request + = 400 ;
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}
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if ( state - > current_rf ! = state - > rf_request | | ( state - > current_standard ! = state - > fe - > dtv_property_cache . delivery_system ) ) {
state - > tuner_is_tuned = 0 ;
state - > current_rf = 0 ;
state - > current_standard = 0 ;
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tune = dib0090_tuning_table ;
if ( state - > identity . p1g )
tune = dib0090_p1g_tuning_table ;
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tmp = ( state - > identity . version > > 5 ) & 0x7 ;
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2011-01-04 15:27:11 +08:00
if ( state - > identity . in_soc ) {
if ( state - > config - > force_cband_input ) { /* Use the CBAND input for all band */
if ( state - > current_band & BAND_CBAND | | state - > current_band & BAND_FM | | state - > current_band & BAND_VHF
| | state - > current_band & BAND_UHF ) {
state - > current_band = BAND_CBAND ;
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if ( state - > config - > is_dib7090e )
tune = dib0090_tuning_table_cband_7090e_sensitivity ;
else
tune = dib0090_tuning_table_cband_7090 ;
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}
} else { /* Use the CBAND input for all band under UHF */
if ( state - > current_band & BAND_CBAND | | state - > current_band & BAND_FM | | state - > current_band & BAND_VHF ) {
state - > current_band = BAND_CBAND ;
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if ( state - > config - > is_dib7090e )
tune = dib0090_tuning_table_cband_7090e_sensitivity ;
else
tune = dib0090_tuning_table_cband_7090 ;
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}
}
} else
if ( tmp = = 0x4 | | tmp = = 0x7 ) {
/* CBAND tuner version for VHF */
if ( state - > current_band = = BAND_FM | | state - > current_band = = BAND_CBAND | | state - > current_band = = BAND_VHF ) {
state - > current_band = BAND_CBAND ; /* Force CBAND */
tune = dib0090_tuning_table_fm_vhf_on_cband ;
if ( state - > identity . p1g )
tune = dib0090_p1g_tuning_table_fm_vhf_on_cband ;
}
}
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pll = dib0090_pll_table ;
if ( state - > identity . p1g )
pll = dib0090_p1g_pll_table ;
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/* Look for the interval */
while ( state - > rf_request > tune - > max_freq )
tune + + ;
while ( state - > rf_request > pll - > max_freq )
pll + + ;
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state - > current_tune_table_index = tune ;
state - > current_pll_table_index = pll ;
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2011-01-04 15:27:11 +08:00
dib0090_write_reg ( state , 0x0b , 0xb800 | ( tune - > switch_trim ) ) ;
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VCOF_kHz = ( pll - > hfdiv * state - > rf_request ) * 2 ;
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FREF = state - > config - > io . clock_khz ;
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if ( state - > config - > fref_clock_ratio ! = 0 )
FREF / = state - > config - > fref_clock_ratio ;
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FBDiv = ( VCOF_kHz / pll - > topresc / FREF ) ;
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Rest = ( VCOF_kHz / pll - > topresc ) - FBDiv * FREF ;
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if ( Rest < LPF )
Rest = 0 ;
else if ( Rest < 2 * LPF )
Rest = 2 * LPF ;
else if ( Rest > ( FREF - LPF ) ) {
Rest = 0 ;
FBDiv + = 1 ;
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} else if ( Rest > ( FREF - 2 * LPF ) )
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Rest = FREF - 2 * LPF ;
Rest = ( Rest * 6528 ) / ( FREF / 10 ) ;
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state - > rest = Rest ;
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2011-01-04 15:27:11 +08:00
/* external loop filter, otherwise:
* lo5 = ( 0 < < 15 ) | ( 0 < < 12 ) | ( 0 < < 11 ) | ( 3 < < 9 ) | ( 4 < < 6 ) | ( 3 < < 4 ) | 4 ;
* lo6 = 0x0e34 */
if ( Rest = = 0 ) {
if ( pll - > vco_band )
lo5 = 0x049f ;
else
lo5 = 0x041f ;
} else {
if ( pll - > vco_band )
lo5 = 0x049e ;
else if ( state - > config - > analog_output )
lo5 = 0x041d ;
else
lo5 = 0x041c ;
}
if ( state - > identity . p1g ) { /* Bias is done automatically in P1G */
if ( state - > identity . in_soc ) {
if ( state - > identity . version = = SOC_8090_P1G_11R1 )
lo5 = 0x46f ;
else
lo5 = 0x42f ;
} else
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lo5 = 0x42c ;
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}
lo5 | = ( pll - > hfdiv_code < < 11 ) | ( pll - > vco_band < < 7 ) ; /* bit 15 is the split to the slave, we do not do it here */
if ( ! state - > config - > io . pll_int_loop_filt ) {
if ( state - > identity . in_soc )
lo6 = 0xff98 ;
else if ( state - > identity . p1g | | ( Rest = = 0 ) )
lo6 = 0xfff8 ;
else
lo6 = 0xff28 ;
} else
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lo6 = ( state - > config - > io . pll_int_loop_filt < < 3 ) ;
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Den = 1 ;
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if ( Rest > 0 ) {
2017-08-18 09:23:44 +08:00
lo6 | = ( 1 < < 2 ) | 2 ;
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Den = 255 ;
}
dib0090_write_reg ( state , 0x15 , ( u16 ) FBDiv ) ;
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if ( state - > config - > fref_clock_ratio ! = 0 )
dib0090_write_reg ( state , 0x16 , ( Den < < 8 ) | state - > config - > fref_clock_ratio ) ;
else
dib0090_write_reg ( state , 0x16 , ( Den < < 8 ) | 1 ) ;
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dib0090_write_reg ( state , 0x17 , ( u16 ) Rest ) ;
dib0090_write_reg ( state , 0x19 , lo5 ) ;
dib0090_write_reg ( state , 0x1c , lo6 ) ;
lo6 = tune - > tuner_enable ;
if ( state - > config - > analog_output )
lo6 = ( lo6 & 0xff9f ) | 0x2 ;
2011-01-04 15:27:11 +08:00
dib0090_write_reg ( state , 0x24 , lo6 | EN_LO | state - > config - > use_pwm_agc * EN_CRYSTAL ) ;
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}
2011-01-04 15:27:11 +08:00
state - > current_rf = state - > rf_request ;
state - > current_standard = state - > fe - > dtv_property_cache . delivery_system ;
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ret = 20 ;
2019-02-19 03:28:55 +08:00
state - > calibrate = CAPTRIM_CAL ; /* captrim search now */
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}
2009-12-05 00:27:57 +08:00
2011-01-04 15:27:11 +08:00
else if ( * tune_state = = CT_TUNER_STEP_0 ) { /* Warning : because of captrim cal, if you change this step, change it also in _cal.c file because it is the step following captrim cal state machine */
const struct dib0090_wbd_slope * wbd = state - > current_wbd_table ;
2009-12-05 00:27:57 +08:00
2011-01-04 15:27:11 +08:00
while ( state - > current_rf / 1000 > wbd - > max_freq )
wbd + + ;
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2011-01-04 15:27:11 +08:00
dib0090_write_reg ( state , 0x1e , 0x07ff ) ;
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dprintk ( " Final Captrim: %d \n " , ( u32 ) state - > fcaptrim ) ;
dprintk ( " HFDIV code: %d \n " , ( u32 ) pll - > hfdiv_code ) ;
dprintk ( " VCO = %d \n " , ( u32 ) pll - > vco_band ) ;
dprintk ( " VCOF in kHz: %d ((%d*%d) << 1)) \n " , ( u32 ) ( ( pll - > hfdiv * state - > rf_request ) * 2 ) , ( u32 ) pll - > hfdiv , ( u32 ) state - > rf_request ) ;
dprintk ( " REFDIV: %d, FREF: %d \n " , ( u32 ) 1 , ( u32 ) state - > config - > io . clock_khz ) ;
dprintk ( " FBDIV: %d, Rest: %d \n " , ( u32 ) dib0090_read_reg ( state , 0x15 ) , ( u32 ) dib0090_read_reg ( state , 0x17 ) ) ;
dprintk ( " Num: %d, Den: %d, SD: %d \n " , ( u32 ) dib0090_read_reg ( state , 0x17 ) , ( u32 ) ( dib0090_read_reg ( state , 0x16 ) > > 8 ) ,
2011-01-04 15:27:11 +08:00
( u32 ) dib0090_read_reg ( state , 0x1c ) & 0x3 ) ;
2009-12-05 00:27:57 +08:00
2011-01-04 15:27:11 +08:00
# define WBD 0x781 /* 1 1 1 1 0000 0 0 1 */
c = 4 ;
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i = 3 ;
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2011-01-05 00:08:14 +08:00
if ( wbd - > wbd_gain ! = 0 )
2011-01-04 15:27:11 +08:00
c = wbd - > wbd_gain ;
2009-12-05 00:27:57 +08:00
2011-01-04 15:27:11 +08:00
state - > wbdmux = ( c < < 13 ) | ( i < < 11 ) | ( WBD | ( state - > config - > use_pwm_agc < < 1 ) ) ;
dib0090_write_reg ( state , 0x10 , state - > wbdmux ) ;
2009-12-05 00:27:57 +08:00
2011-01-04 15:27:11 +08:00
if ( ( tune - > tuner_enable = = EN_CAB ) & & state - > identity . p1g ) {
2016-10-14 19:16:43 +08:00
dprintk ( " P1G : The cable band is selected and lna_tune = %d \n " , tune - > lna_tune ) ;
2011-01-04 15:27:11 +08:00
dib0090_write_reg ( state , 0x09 , tune - > lna_bias ) ;
dib0090_write_reg ( state , 0x0b , 0xb800 | ( tune - > lna_tune < < 6 ) | ( tune - > switch_trim ) ) ;
} else
dib0090_write_reg ( state , 0x09 , ( tune - > lna_tune < < 5 ) | tune - > lna_bias ) ;
2009-12-05 00:27:57 +08:00
dib0090_write_reg ( state , 0x0c , tune - > v2i ) ;
dib0090_write_reg ( state , 0x0d , tune - > mix ) ;
dib0090_write_reg ( state , 0x0e , tune - > load ) ;
2011-01-04 15:27:11 +08:00
* tune_state = CT_TUNER_STEP_1 ;
2009-12-05 00:27:57 +08:00
2011-01-04 15:27:11 +08:00
} else if ( * tune_state = = CT_TUNER_STEP_1 ) {
2009-12-05 00:27:57 +08:00
/* initialize the lt gain register */
state - > rf_lt_def = 0x7c00 ;
dib0090_set_bandwidth ( state ) ;
state - > tuner_is_tuned = 1 ;
2011-01-04 15:27:11 +08:00
2011-01-05 00:08:14 +08:00
state - > calibrate | = WBD_CAL ;
state - > calibrate | = TEMP_CAL ;
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* tune_state = CT_TUNER_STOP ;
} else
ret = FE_CALLBACK_TIME_NEVER ;
return ret ;
}
2016-11-19 06:30:51 +08:00
static void dib0090_release ( struct dvb_frontend * fe )
{
kfree ( fe - > tuner_priv ) ;
fe - > tuner_priv = NULL ;
}
2009-12-05 00:27:57 +08:00
enum frontend_tune_state dib0090_get_tune_state ( struct dvb_frontend * fe )
{
struct dib0090_state * state = fe - > tuner_priv ;
return state - > tune_state ;
}
2011-01-04 15:27:11 +08:00
2009-12-05 00:27:57 +08:00
EXPORT_SYMBOL ( dib0090_get_tune_state ) ;
int dib0090_set_tune_state ( struct dvb_frontend * fe , enum frontend_tune_state tune_state )
{
struct dib0090_state * state = fe - > tuner_priv ;
state - > tune_state = tune_state ;
return 0 ;
}
2011-01-04 15:27:11 +08:00
2009-12-05 00:27:57 +08:00
EXPORT_SYMBOL ( dib0090_set_tune_state ) ;
static int dib0090_get_frequency ( struct dvb_frontend * fe , u32 * frequency )
{
struct dib0090_state * state = fe - > tuner_priv ;
* frequency = 1000 * state - > current_rf ;
return 0 ;
}
2011-12-24 23:24:33 +08:00
static int dib0090_set_params ( struct dvb_frontend * fe )
2009-12-05 00:27:57 +08:00
{
struct dib0090_state * state = fe - > tuner_priv ;
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u32 ret ;
2009-12-05 00:27:57 +08:00
state - > tune_state = CT_TUNER_START ;
do {
ret = dib0090_tune ( fe ) ;
2014-07-05 01:15:36 +08:00
if ( ret = = FE_CALLBACK_TIME_NEVER )
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break ;
2014-07-05 01:15:36 +08:00
/*
* Despite dib0090_tune returns time at a 0.1 ms range ,
* the actual sleep time depends on CONFIG_HZ . The worse case
* is when CONFIG_HZ = 100. In such case , the minimum granularity
* is 10 ms . On some real field tests , the tuner sometimes don ' t
* lock when this timer is lower than 10 ms . So , enforce a 10 ms
* granularity and use usleep_range ( ) instead of msleep ( ) .
*/
ret = 10 * ( ret + 99 ) / 100 ;
usleep_range ( ret * 1000 , ( ret + 1 ) * 1000 ) ;
2009-12-05 00:27:57 +08:00
} while ( state - > tune_state ! = CT_TUNER_STOP ) ;
return 0 ;
}
static const struct dvb_tuner_ops dib0090_ops = {
. info = {
. name = " DiBcom DiB0090 " ,
2018-07-06 06:59:35 +08:00
. frequency_min_hz = 45 * MHz ,
. frequency_max_hz = 860 * MHz ,
. frequency_step_hz = 1 * kHz ,
2009-12-05 00:27:57 +08:00
} ,
2016-11-19 06:30:51 +08:00
. release = dib0090_release ,
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. init = dib0090_wakeup ,
. sleep = dib0090_sleep ,
. set_params = dib0090_set_params ,
. get_frequency = dib0090_get_frequency ,
} ;
2011-01-04 15:27:11 +08:00
static const struct dvb_tuner_ops dib0090_fw_ops = {
. info = {
. name = " DiBcom DiB0090 " ,
2018-07-06 06:59:35 +08:00
. frequency_min_hz = 45 * MHz ,
. frequency_max_hz = 860 * MHz ,
. frequency_step_hz = 1 * kHz ,
2011-01-04 15:27:11 +08:00
} ,
2016-11-19 06:30:51 +08:00
. release = dib0090_release ,
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. init = NULL ,
. sleep = NULL ,
. set_params = NULL ,
. get_frequency = NULL ,
} ;
static const struct dib0090_wbd_slope dib0090_wbd_table_default [ ] = {
{ 470 , 0 , 250 , 0 , 100 , 4 } ,
{ 860 , 51 , 866 , 21 , 375 , 4 } ,
2011-01-05 00:08:14 +08:00
{ 1700 , 0 , 800 , 0 , 850 , 4 } ,
{ 2900 , 0 , 250 , 0 , 100 , 6 } ,
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{ 0xFFFF , 0 , 0 , 0 , 0 , 0 } ,
} ;
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struct dvb_frontend * dib0090_register ( struct dvb_frontend * fe , struct i2c_adapter * i2c , const struct dib0090_config * config )
{
struct dib0090_state * st = kzalloc ( sizeof ( struct dib0090_state ) , GFP_KERNEL ) ;
if ( st = = NULL )
return NULL ;
st - > config = config ;
st - > i2c = i2c ;
st - > fe = fe ;
2011-08-03 23:08:21 +08:00
mutex_init ( & st - > i2c_buffer_lock ) ;
2009-12-05 00:27:57 +08:00
fe - > tuner_priv = st ;
2011-01-04 15:27:11 +08:00
if ( config - > wbd = = NULL )
st - > current_wbd_table = dib0090_wbd_table_default ;
else
st - > current_wbd_table = config - > wbd ;
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if ( dib0090_reset ( fe ) ! = 0 )
goto free_mem ;
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pr_info ( " DiB0090: successfully identified \n " ) ;
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memcpy ( & fe - > ops . tuner_ops , & dib0090_ops , sizeof ( struct dvb_tuner_ops ) ) ;
return fe ;
free_mem :
kfree ( st ) ;
fe - > tuner_priv = NULL ;
return NULL ;
}
2011-01-04 15:27:11 +08:00
2009-12-05 00:27:57 +08:00
EXPORT_SYMBOL ( dib0090_register ) ;
2011-01-04 15:27:11 +08:00
struct dvb_frontend * dib0090_fw_register ( struct dvb_frontend * fe , struct i2c_adapter * i2c , const struct dib0090_config * config )
{
struct dib0090_fw_state * st = kzalloc ( sizeof ( struct dib0090_fw_state ) , GFP_KERNEL ) ;
if ( st = = NULL )
return NULL ;
st - > config = config ;
st - > i2c = i2c ;
st - > fe = fe ;
2011-08-03 23:08:21 +08:00
mutex_init ( & st - > i2c_buffer_lock ) ;
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fe - > tuner_priv = st ;
if ( dib0090_fw_reset_digital ( fe , st - > config ) ! = 0 )
goto free_mem ;
2016-10-14 19:16:43 +08:00
dprintk ( " DiB0090 FW: successfully identified \n " ) ;
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memcpy ( & fe - > ops . tuner_ops , & dib0090_fw_ops , sizeof ( struct dvb_tuner_ops ) ) ;
return fe ;
2011-01-05 00:08:14 +08:00
free_mem :
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kfree ( st ) ;
fe - > tuner_priv = NULL ;
return NULL ;
}
EXPORT_SYMBOL ( dib0090_fw_register ) ;
2016-01-24 22:56:58 +08:00
MODULE_AUTHOR ( " Patrick Boettcher <patrick.boettcher@posteo.de> " ) ;
MODULE_AUTHOR ( " Olivier Grenie <olivier.grenie@parrot.com> " ) ;
2009-12-05 00:27:57 +08:00
MODULE_DESCRIPTION ( " Driver for the DiBcom 0090 base-band RF Tuner " ) ;
MODULE_LICENSE ( " GPL " ) ;