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|
/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2008 by Michael Sevakis
*
* Driver for WM8978 audio codec
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include "config.h"
#include "system.h"
#include "audiohw.h"
#include "wmcodec.h"
#include "audio.h"
/*#define LOGF_ENABLE*/
#include "logf.h"
/* TODO: Define/refine an API for special hardware steps outside the
* main codec driver such as special GPIO handling. */
/* NOTE: Much of the volume code is very interdependent and calibrated for
* the Gigabeat S. If you change anything for another device that uses this
* file it may break things. */
extern void audiohw_enable_headphone_jack(bool enable);
const struct sound_settings_info audiohw_settings[] =
{
[SOUND_VOLUME] = {"dB", 0, 1, -90, 6, -25},
[SOUND_BALANCE] = {"%", 0, 1,-100, 100, 0},
[SOUND_CHANNELS] = {"", 0, 1, 0, 5, 0},
[SOUND_STEREO_WIDTH] = {"%", 0, 5, 0, 250, 100},
[SOUND_EQ_BAND1_GAIN] = {"dB", 0, 1, -12, 12, 0},
[SOUND_EQ_BAND2_GAIN] = {"dB", 0, 1, -12, 12, 0},
[SOUND_EQ_BAND3_GAIN] = {"dB", 0, 1, -12, 12, 0},
[SOUND_EQ_BAND4_GAIN] = {"dB", 0, 1, -12, 12, 0},
[SOUND_EQ_BAND5_GAIN] = {"dB", 0, 1, -12, 12, 0},
[SOUND_EQ_BAND1_FREQUENCY] = {"", 0, 1, 0, 3, 0},
[SOUND_EQ_BAND2_FREQUENCY] = {"", 0, 1, 0, 3, 0},
[SOUND_EQ_BAND3_FREQUENCY] = {"", 0, 1, 0, 3, 0},
[SOUND_EQ_BAND4_FREQUENCY] = {"", 0, 1, 0, 3, 0},
[SOUND_EQ_BAND5_FREQUENCY] = {"", 0, 1, 0, 3, 0},
[SOUND_EQ_BAND2_WIDTH] = {"", 0, 1, 0, 1, 0},
[SOUND_EQ_BAND3_WIDTH] = {"", 0, 1, 0, 1, 0},
[SOUND_EQ_BAND4_WIDTH] = {"", 0, 1, 0, 1, 0},
[SOUND_DEPTH_3D] = {"%", 0, 1, 0, 15, 0},
#ifdef HAVE_RECORDING
/* Digital: -119.0dB to +8.0dB in 0.5dB increments
* Analog: Relegated to volume control
* Circumstances unfortunately do not allow a great deal of positive
* gain. */
[SOUND_LEFT_GAIN] = {"dB", 1, 1,-238, 16, 0},
[SOUND_RIGHT_GAIN] = {"dB", 1, 1,-238, 16, 0},
#if 0
[SOUND_MIC_GAIN] = {"dB", 1, 1,-238, 16, 0},
#endif
#endif
};
static uint16_t wmc_regs[WMC_NUM_REGISTERS] =
{
/* Initialized with post-reset default values - the 2-wire interface
* cannot be read. Or-in additional bits desired for some registers. */
[0 ... WMC_NUM_REGISTERS-1] = 0x8000, /* To ID invalids in gaps */
[WMC_SOFTWARE_RESET] = 0x000,
[WMC_POWER_MANAGEMENT1] = 0x000,
[WMC_POWER_MANAGEMENT2] = 0x000,
[WMC_POWER_MANAGEMENT3] = 0x000,
[WMC_AUDIO_INTERFACE] = 0x050,
[WMC_COMPANDING_CTRL] = 0x000,
[WMC_CLOCK_GEN_CTRL] = 0x140,
[WMC_ADDITIONAL_CTRL] = 0x000,
[WMC_GPIO] = 0x000,
[WMC_JACK_DETECT_CONTROL1] = 0x000,
[WMC_DAC_CONTROL] = 0x000,
[WMC_LEFT_DAC_DIGITAL_VOL] = 0x0ff, /* Latch left first */
[WMC_RIGHT_DAC_DIGITAL_VOL] = 0x0ff | WMC_VU,
[WMC_JACK_DETECT_CONTROL2] = 0x000,
[WMC_ADC_CONTROL] = 0x100,
[WMC_LEFT_ADC_DIGITAL_VOL] = 0x0ff, /* Latch left first */
[WMC_RIGHT_ADC_DIGITAL_VOL] = 0x0ff | WMC_VU,
[WMC_EQ1_LOW_SHELF] = 0x12c,
[WMC_EQ2_PEAK1] = 0x02c,
[WMC_EQ3_PEAK2] = 0x02c,
[WMC_EQ4_PEAK3] = 0x02c,
[WMC_EQ5_HIGH_SHELF] = 0x02c,
[WMC_DAC_LIMITER1] = 0x032,
[WMC_DAC_LIMITER2] = 0x000,
[WMC_NOTCH_FILTER1] = 0x000,
[WMC_NOTCH_FILTER2] = 0x000,
[WMC_NOTCH_FILTER3] = 0x000,
[WMC_NOTCH_FILTER4] = 0x000,
[WMC_ALC_CONTROL1] = 0x038,
[WMC_ALC_CONTROL2] = 0x00b,
[WMC_ALC_CONTROL3] = 0x032,
[WMC_NOISE_GATE] = 0x000,
[WMC_PLL_N] = 0x008,
[WMC_PLL_K1] = 0x00c,
[WMC_PLL_K2] = 0x093,
[WMC_PLL_K3] = 0x0e9,
[WMC_3D_CONTROL] = 0x000,
[WMC_BEEP_CONTROL] = 0x000,
[WMC_INPUT_CTRL] = 0x033,
[WMC_LEFT_INP_PGA_GAIN_CTRL] = 0x010 | WMC_ZC, /* Latch left first */
[WMC_RIGHT_INP_PGA_GAIN_CTRL] = 0x010 | WMC_VU | WMC_ZC,
[WMC_LEFT_ADC_BOOST_CTRL] = 0x100,
[WMC_RIGHT_ADC_BOOST_CTRL] = 0x100,
[WMC_OUTPUT_CTRL] = 0x002,
[WMC_LEFT_MIXER_CTRL] = 0x001,
[WMC_RIGHT_MIXER_CTRL] = 0x001,
[WMC_LOUT1_HP_VOLUME_CTRL] = 0x039 | WMC_ZC, /* Latch left first */
[WMC_ROUT1_HP_VOLUME_CTRL] = 0x039 | WMC_VU | WMC_ZC,
[WMC_LOUT2_SPK_VOLUME_CTRL] = 0x039 | WMC_ZC, /* Latch left first */
[WMC_ROUT2_SPK_VOLUME_CTRL] = 0x039 | WMC_VU | WMC_ZC,
[WMC_OUT3_MIXER_CTRL] = 0x001,
[WMC_OUT4_MONO_MIXER_CTRL] = 0x001,
};
struct
{
signed char vol_l;
signed char vol_r;
unsigned char dac_l;
unsigned char dac_r;
unsigned char ahw_mute;
unsigned char prescaler; /* Attenuation */
unsigned char eq_on; /* Enabled */
signed char band_gain[5]; /* Setting */
unsigned char enh_3d_prescaler; /* Attenuation */
unsigned char enh_3d_on; /* Enabled */
unsigned char enh_3d; /* Setting */
} wmc_vol =
{
.vol_l = 0,
.vol_r = 0,
.dac_l = 0,
.dac_r = 0,
.ahw_mute = false,
.prescaler = 0,
.eq_on = true,
.band_gain = { 0, 0, 0, 0, 0 },
.enh_3d_prescaler = 0,
.enh_3d_on = true,
.enh_3d = 0,
};
static void wmc_write(unsigned int reg, unsigned int val)
{
if (reg >= WMC_NUM_REGISTERS || (wmc_regs[reg] & 0x8000))
{
logf("wm8978 invalid register: %d", reg);
return;
}
wmc_regs[reg] = val & ~0x8000;
wmcodec_write(reg, val);
}
void wmc_set(unsigned int reg, unsigned int bits)
{
wmc_write(reg, wmc_regs[reg] | bits);
}
void wmc_clear(unsigned int reg, unsigned int bits)
{
wmc_write(reg, wmc_regs[reg] & ~bits);
}
static void wmc_write_masked(unsigned int reg, unsigned int bits,
unsigned int mask)
{
wmc_write(reg, (wmc_regs[reg] & ~mask) | (bits & mask));
}
/* convert tenth of dB volume (-890..60) to master volume register value
* (000000...111111) */
int tenthdb2master(int db)
{
/* -90dB to +6dB 1dB steps (96 levels) 7bits */
/* 1100000 == +6dB (0x60,96) */
/* 1101010 == 0dB (0x5a,90) */
/* 1000001 == -57dB (0x21,33,DAC) */
/* 0000001 == -89dB (0x01,01) */
/* 0000000 == -90dB (0x00,00,Mute) */
if (db <= VOLUME_MIN)
{
return 0x0;
}
else
{
return (db - VOLUME_MIN) / 10;
}
}
int sound_val2phys(int setting, int value)
{
int result;
switch (setting)
{
#ifdef HAVE_RECORDING
case SOUND_LEFT_GAIN:
case SOUND_RIGHT_GAIN:
case SOUND_MIC_GAIN:
result = value * 5;
break;
#endif
case SOUND_DEPTH_3D:
result = (100 * value + 8) / 15;
break;
default:
result = value;
}
return result;
}
void audiohw_preinit(void)
{
/* 1. Turn on external power supplies. Wait for supply voltage to settle. */
/* Step 1 should be completed already. Reset and return all registers to
* defaults */
wmcodec_write(WMC_SOFTWARE_RESET, 0xff);
sleep(HZ/10);
/* 2. Mute all analogue outputs */
wmc_set(WMC_LOUT1_HP_VOLUME_CTRL, WMC_MUTE);
wmc_set(WMC_ROUT1_HP_VOLUME_CTRL, WMC_MUTE);
wmc_set(WMC_LOUT2_SPK_VOLUME_CTRL, WMC_MUTE);
wmc_set(WMC_ROUT2_SPK_VOLUME_CTRL, WMC_MUTE);
wmc_set(WMC_OUT3_MIXER_CTRL, WMC_MUTE);
wmc_set(WMC_OUT4_MONO_MIXER_CTRL, WMC_MUTE);
/* 3. Set L/RMIXEN = 1 and DACENL/R = 1 in register R3. */
wmc_write(WMC_POWER_MANAGEMENT3, WMC_RMIXEN | WMC_LMIXEN);
/* EQ and 3D applied to DAC (Set before DAC enable!) */
wmc_set(WMC_EQ1_LOW_SHELF, WMC_EQ3DMODE);
wmc_set(WMC_POWER_MANAGEMENT3, WMC_DACENR | WMC_DACENL);
/* 4. Set BUFIOEN = 1 and VMIDSEL[1:0] to required value in register
* R1. Wait for VMID supply to settle */
wmc_write(WMC_POWER_MANAGEMENT1, WMC_BUFIOEN | WMC_VMIDSEL_300K);
sleep(HZ/10);
/* 5. Set BIASEN = 1 in register R1. */
wmc_set(WMC_POWER_MANAGEMENT1, WMC_BIASEN);
/* 6. Set L/ROUTEN = 1 in register R2. */
wmc_write(WMC_POWER_MANAGEMENT2, WMC_LOUT1EN | WMC_ROUT1EN);
}
void audiohw_postinit(void)
{
sleep(5*HZ/4);
/* 7. Enable other mixers as required */
/* 8. Enable other outputs as required */
/* 9. Set remaining registers */
wmc_write(WMC_AUDIO_INTERFACE, WMC_WL_16 | WMC_FMT_I2S);
wmc_write(WMC_DAC_CONTROL, WMC_DACOSR_128 | WMC_AMUTE);
/* No ADC, no HP filter, no popping */
wmc_clear(WMC_ADC_CONTROL, WMC_HPFEN);
wmc_clear(WMC_LEFT_ADC_BOOST_CTRL, WMC_PGABOOSTL);
wmc_clear(WMC_RIGHT_ADC_BOOST_CTRL, WMC_PGABOOSTR);
/* Specific to HW clocking */
wmc_write_masked(WMC_CLOCK_GEN_CTRL, WMC_BCLKDIV_4 | WMC_MS,
WMC_BCLKDIV | WMC_MS | WMC_CLKSEL);
audiohw_set_frequency(HW_FREQ_DEFAULT);
audiohw_enable_headphone_jack(true);
}
static void get_headphone_levels(int val, int *dac_p, int *hp_p,
int *mix_p, int *boost_p)
{
int dac, hp, mix, boost;
if (val >= 33)
{
dac = 255;
hp = val - 33;
mix = 7;
boost = 5;
}
else if (val >= 21)
{
dac = 189 + val / 3 * 6;
hp = val % 3;
mix = 7;
boost = (val - 18) / 3;
}
else
{
dac = 189 + val / 3 * 6;
hp = val % 3;
mix = val / 3;
boost = 1;
}
*dac_p = dac;
*hp_p = hp;
*mix_p = mix;
*boost_p = boost;
}
static void sync_prescaler(void)
{
int prescaler = 0;
/* Combine all prescaling into a single DAC attenuation */
if (wmc_vol.eq_on)
prescaler = wmc_vol.prescaler * 2;
if (wmc_vol.enh_3d_on)
prescaler += wmc_vol.enh_3d_prescaler;
wmc_write_masked(WMC_LEFT_DAC_DIGITAL_VOL, wmc_vol.dac_l - prescaler,
WMC_DVOL);
wmc_write_masked(WMC_RIGHT_DAC_DIGITAL_VOL, wmc_vol.dac_r - prescaler,
WMC_DVOL);
}
void audiohw_set_headphone_vol(int vol_l, int vol_r)
{
int prev_l = wmc_vol.vol_l;
int prev_r = wmc_vol.vol_r;
int dac_l, dac_r, hp_l, hp_r;
int mix_l, mix_r, boost_l, boost_r;
wmc_vol.vol_l = vol_l;
wmc_vol.vol_r = vol_r;
/* Mixers are synced to provide full volume range on both the analogue
* and digital pathways */
get_headphone_levels(vol_l, &dac_l, &hp_l, &mix_l, &boost_l);
get_headphone_levels(vol_r, &dac_r, &hp_r, &mix_r, &boost_r);
wmc_vol.dac_l = dac_l;
wmc_vol.dac_r = dac_r;
sync_prescaler();
wmc_write_masked(WMC_LEFT_MIXER_CTRL, mix_l << WMC_BYPLMIXVOL_POS,
WMC_BYPLMIXVOL);
wmc_write_masked(WMC_LEFT_ADC_BOOST_CTRL,
boost_l << WMC_L2_2BOOSTVOL_POS, WMC_L2_2BOOSTVOL);
wmc_write_masked(WMC_LOUT1_HP_VOLUME_CTRL, hp_l, WMC_AVOL);
wmc_write_masked(WMC_RIGHT_MIXER_CTRL, mix_r << WMC_BYPRMIXVOL_POS,
WMC_BYPRMIXVOL);
wmc_write_masked(WMC_RIGHT_ADC_BOOST_CTRL,
boost_r << WMC_R2_2BOOSTVOL_POS, WMC_R2_2BOOSTVOL);
wmc_write_masked(WMC_ROUT1_HP_VOLUME_CTRL, hp_r, WMC_AVOL);
if (vol_l > 0)
{
/* Not muted and going up from mute level? */
if (prev_l <= 0 && !wmc_vol.ahw_mute)
wmc_clear(WMC_LOUT1_HP_VOLUME_CTRL, WMC_MUTE);
}
else
{
/* Going to mute level? */
if (prev_l > 0)
wmc_set(WMC_LOUT1_HP_VOLUME_CTRL, WMC_MUTE);
}
if (vol_r > 0)
{
/* Not muted and going up from mute level? */
if (prev_r <= 0 && !wmc_vol.ahw_mute)
wmc_clear(WMC_ROUT1_HP_VOLUME_CTRL, WMC_MUTE);
}
else
{
/* Going to mute level? */
if (prev_r > 0)
wmc_set(WMC_ROUT1_HP_VOLUME_CTRL, WMC_MUTE);
}
}
static void audiohw_mute(bool mute)
{
wmc_vol.ahw_mute = mute;
/* No DAC mute here, please - take care of each enabled output. */
if (mute)
{
wmc_set(WMC_LOUT1_HP_VOLUME_CTRL, WMC_MUTE);
wmc_set(WMC_ROUT1_HP_VOLUME_CTRL, WMC_MUTE);
}
else
{
/* Unmute outputs not at mute level */
if (wmc_vol.vol_l > 0)
wmc_clear(WMC_LOUT1_HP_VOLUME_CTRL, WMC_MUTE);
if (wmc_vol.vol_r > 0)
wmc_clear(WMC_ROUT1_HP_VOLUME_CTRL, WMC_MUTE);
}
}
/* Equalizer - set the eq band level -12 to +12 dB. */
void audiohw_set_eq_band_gain(unsigned int band, int val)
{
if (band > 4)
return;
wmc_vol.band_gain[band] = val;
if (!wmc_vol.eq_on)
val = 0;
wmc_write_masked(band + WMC_EQ1_LOW_SHELF, 12 - val, WMC_EQG);
}
/* Equalizer - set the eq band frequency index. */
void audiohw_set_eq_band_frequency(unsigned int band, int val)
{
if (band > 4)
return;
wmc_write_masked(band + WMC_EQ1_LOW_SHELF,
val << WMC_EQC_POS, WMC_EQC);
}
/* Equalizer - set bandwidth for peaking filters to wide (!= 0) or
* narrow (0); only valid for peaking filter bands 1-3. */
void audiohw_set_eq_band_width(unsigned int band, int val)
{
if (band < 1 || band > 3)
return;
wmc_write_masked(band + WMC_EQ1_LOW_SHELF,
(val == 0) ? 0 : WMC_EQBW, WMC_EQBW);
}
/* Set prescaler to prevent clipping the output amp when applying positive
* gain to EQ bands. */
void audiohw_set_prescaler(int val)
{
wmc_vol.prescaler = val;
sync_prescaler();
}
/* Set the depth of the 3D effect */
void audiohw_set_depth_3d(int val)
{
wmc_vol.enh_3d_prescaler = 10*val / 15; /* -5 dB @ full setting */
wmc_vol.enh_3d = val;
if (!wmc_vol.enh_3d_on)
val = 0;
sync_prescaler();
wmc_write_masked(WMC_3D_CONTROL, val, WMC_DEPTH3D);
}
void audiohw_close(void)
{
/* 1. Mute all analogue outputs */
audiohw_mute(true);
audiohw_enable_headphone_jack(false);
/* 2. Disable power management register 1. R1 = 00 */
wmc_write(WMC_POWER_MANAGEMENT1, 0x000);
/* 3. Disable power management register 2. R2 = 00 */
wmc_write(WMC_POWER_MANAGEMENT2, 0x000);
/* 4. Disable power management register 3. R3 = 00 */
wmc_write(WMC_POWER_MANAGEMENT3, 0x000);
/* 5. Remove external power supplies. */
}
void audiohw_set_frequency(int fsel)
{
/* For 16.9344MHz MCLK, codec as master. */
static const struct
{
uint32_t plln : 8;
uint32_t pllk1 : 6;
uint32_t pllk2 : 9;
uint32_t pllk3 : 9;
unsigned char mclkdiv;
unsigned char filter;
} srctrl_table[HW_NUM_FREQ] =
{
[HW_FREQ_8] = /* PLL = 65.536MHz */
{
.plln = 7 | WMC_PLL_PRESCALE,
.pllk1 = 0x2f, /* 12414886 */
.pllk2 = 0x0b7,
.pllk3 = 0x1a6,
.mclkdiv = WMC_MCLKDIV_8, /* 2.0480 MHz */
.filter = WMC_SR_8KHZ,
},
[HW_FREQ_11] = /* PLL = off */
{
.mclkdiv = WMC_MCLKDIV_6, /* 2.8224 MHz */
.filter = WMC_SR_12KHZ,
},
[HW_FREQ_12] = /* PLL = 73.728 MHz */
{
.plln = 8 | WMC_PLL_PRESCALE,
.pllk1 = 0x2d, /* 11869595 */
.pllk2 = 0x08e,
.pllk3 = 0x19b,
.mclkdiv = WMC_MCLKDIV_6, /* 3.0720 MHz */
.filter = WMC_SR_12KHZ,
},
[HW_FREQ_16] = /* PLL = 65.536MHz */
{
.plln = 7 | WMC_PLL_PRESCALE,
.pllk1 = 0x2f, /* 12414886 */
.pllk2 = 0x0b7,
.pllk3 = 0x1a6,
.mclkdiv = WMC_MCLKDIV_4, /* 4.0960 MHz */
.filter = WMC_SR_16KHZ,
},
[HW_FREQ_22] = /* PLL = off */
{
.mclkdiv = WMC_MCLKDIV_3, /* 5.6448 MHz */
.filter = WMC_SR_24KHZ,
},
[HW_FREQ_24] = /* PLL = 73.728 MHz */
{
.plln = 8 | WMC_PLL_PRESCALE,
.pllk1 = 0x2d, /* 11869595 */
.pllk2 = 0x08e,
.pllk3 = 0x19b,
.mclkdiv = WMC_MCLKDIV_3, /* 6.1440 MHz */
.filter = WMC_SR_24KHZ,
},
[HW_FREQ_32] = /* PLL = 65.536MHz */
{
.plln = 7 | WMC_PLL_PRESCALE,
.pllk1 = 0x2f, /* 12414886 */
.pllk2 = 0x0b7,
.pllk3 = 0x1a6,
.mclkdiv = WMC_MCLKDIV_2, /* 8.1920 MHz */
.filter = WMC_SR_32KHZ,
},
[HW_FREQ_44] = /* PLL = off */
{
.mclkdiv = WMC_MCLKDIV_1_5, /* 11.2896 MHz */
.filter = WMC_SR_48KHZ,
},
[HW_FREQ_48] = /* PLL = 73.728 MHz */
{
.plln = 8 | WMC_PLL_PRESCALE,
.pllk1 = 0x2d, /* 11869595 */
.pllk2 = 0x08e,
.pllk3 = 0x19b,
.mclkdiv = WMC_MCLKDIV_1_5, /* 12.2880 MHz */
.filter = WMC_SR_48KHZ,
},
};
unsigned int plln;
unsigned int mclkdiv;
if ((unsigned)fsel >= HW_NUM_FREQ)
fsel = HW_FREQ_DEFAULT;
/* Setup filters. */
wmc_write(WMC_ADDITIONAL_CTRL, srctrl_table[fsel].filter);
plln = srctrl_table[fsel].plln;
mclkdiv = srctrl_table[fsel].mclkdiv;
if (plln != 0)
{
/* Using PLL to generate SYSCLK */
/* Program PLL. */
wmc_write(WMC_PLL_N, plln);
wmc_write(WMC_PLL_K1, srctrl_table[fsel].pllk1);
wmc_write(WMC_PLL_K2, srctrl_table[fsel].pllk2);
wmc_write(WMC_PLL_K3, srctrl_table[fsel].pllk3);
/* Turn on PLL. */
wmc_set(WMC_POWER_MANAGEMENT1, WMC_PLLEN);
/* Switch to PLL and set divider. */
wmc_write_masked(WMC_CLOCK_GEN_CTRL, mclkdiv | WMC_CLKSEL,
WMC_MCLKDIV | WMC_CLKSEL);
}
else
{
/* Switch away from PLL and set MCLKDIV. */
wmc_write_masked(WMC_CLOCK_GEN_CTRL, mclkdiv,
WMC_MCLKDIV | WMC_CLKSEL);
/* Turn off PLL. */
wmc_clear(WMC_POWER_MANAGEMENT1, WMC_PLLEN);
}
}
void audiohw_enable_tone_controls(bool enable)
{
int i;
wmc_vol.eq_on = enable;
audiohw_set_prescaler(wmc_vol.prescaler);
for (i = 0; i < 5; i++)
audiohw_set_eq_band_gain(i, wmc_vol.band_gain[i]);
}
void audiohw_enable_depth_3d(bool enable)
{
wmc_vol.enh_3d_on = enable;
audiohw_set_depth_3d(wmc_vol.enh_3d);
}
#ifdef HAVE_RECORDING
void audiohw_set_recsrc(int source, bool recording)
{
switch (source)
{
case AUDIO_SRC_PLAYBACK:
/* Disable all audio paths but DAC */
/* Disable ADCs */
wmc_clear(WMC_ADC_CONTROL, WMC_HPFEN);
wmc_clear(WMC_POWER_MANAGEMENT2, WMC_ADCENL | WMC_ADCENR);
/* Disable bypass */
wmc_clear(WMC_LEFT_MIXER_CTRL, WMC_BYPL2LMIX);
wmc_clear(WMC_RIGHT_MIXER_CTRL, WMC_BYPR2RMIX);
/* Disable IP BOOSTMIX and PGA */
wmc_clear(WMC_POWER_MANAGEMENT2, WMC_INPPGAENL | WMC_INPPGAENR |
WMC_BOOSTENL | WMC_BOOSTENR);
wmc_clear(WMC_INPUT_CTRL, WMC_L2_2INPPGA | WMC_R2_2INPPGA |
WMC_LIP2INPPGA | WMC_RIP2INPPGA |
WMC_LIN2INPPGA | WMC_RIN2INPPGA);
wmc_clear(WMC_LEFT_ADC_BOOST_CTRL, WMC_PGABOOSTL);
wmc_clear(WMC_RIGHT_ADC_BOOST_CTRL, WMC_PGABOOSTR);
break;
case AUDIO_SRC_FMRADIO:
if (recording)
{
/* Disable bypass */
wmc_clear(WMC_LEFT_MIXER_CTRL, WMC_BYPL2LMIX);
wmc_clear(WMC_RIGHT_MIXER_CTRL, WMC_BYPR2RMIX);
/* Enable ADCs, IP BOOSTMIX and PGA, route L/R2 through PGA */
wmc_set(WMC_POWER_MANAGEMENT2, WMC_ADCENL | WMC_ADCENR |
WMC_BOOSTENL | WMC_BOOSTENR | WMC_INPPGAENL |
WMC_INPPGAENR);
wmc_set(WMC_ADC_CONTROL, WMC_ADCOSR | WMC_HPFEN);
/* PGA at 0dB with +20dB boost */
wmc_write_masked(WMC_LEFT_INP_PGA_GAIN_CTRL, 0x10, WMC_AVOL);
wmc_write_masked(WMC_RIGHT_INP_PGA_GAIN_CTRL, 0x10, WMC_AVOL);
wmc_set(WMC_LEFT_ADC_BOOST_CTRL, WMC_PGABOOSTL);
wmc_set(WMC_RIGHT_ADC_BOOST_CTRL, WMC_PGABOOSTR);
/* Connect L/R2 inputs to PGA */
wmc_write_masked(WMC_INPUT_CTRL, WMC_L2_2INPPGA | WMC_R2_2INPPGA |
WMC_LIN2INPPGA | WMC_RIN2INPPGA,
WMC_L2_2INPPGA | WMC_R2_2INPPGA |
WMC_LIP2INPPGA | WMC_RIP2INPPGA |
WMC_LIN2INPPGA | WMC_RIN2INPPGA);
}
else
{
/* Disable PGA and ADC, enable IP BOOSTMIX, route L/R2 directly to
* IP BOOSTMIX */
wmc_clear(WMC_ADC_CONTROL, WMC_HPFEN);
wmc_write_masked(WMC_POWER_MANAGEMENT2, WMC_BOOSTENL | WMC_BOOSTENR,
WMC_BOOSTENL | WMC_BOOSTENR | WMC_INPPGAENL |
WMC_INPPGAENR | WMC_ADCENL | WMC_ADCENR);
wmc_clear(WMC_INPUT_CTRL, WMC_L2_2INPPGA | WMC_R2_2INPPGA |
WMC_LIP2INPPGA | WMC_RIP2INPPGA |
WMC_LIN2INPPGA | WMC_RIN2INPPGA);
wmc_clear(WMC_LEFT_ADC_BOOST_CTRL, WMC_PGABOOSTL);
wmc_clear(WMC_RIGHT_ADC_BOOST_CTRL, WMC_PGABOOSTR);
/* Enable bypass to L/R mixers */
wmc_set(WMC_LEFT_MIXER_CTRL, WMC_BYPL2LMIX);
wmc_set(WMC_RIGHT_MIXER_CTRL, WMC_BYPR2RMIX);
}
break;
}
}
void audiohw_set_recvol(int left, int right, int type)
{
switch (type)
{
case AUDIO_GAIN_LINEIN:
wmc_write_masked(WMC_LEFT_ADC_DIGITAL_VOL, left + 239, WMC_DVOL);
wmc_write_masked(WMC_RIGHT_ADC_DIGITAL_VOL, right + 239, WMC_DVOL);
return;
}
}
#endif /* HAVE_RECORDING */
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