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rockbox/firmware/target/arm/imx233/audioin-imx233.c
Amaury Pouly ac4e76d072 imx233: implement audioin 
Change-Id: I0cf896f59fd2176217d0dd1f6032c3463b936669
2013-06-18 15:43:43 +02:00

190 lines
6.2 KiB
C
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/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2011 by Amaury Pouly
*
* 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 "audioin-imx233.h"
#include "pcm_sampr.h"
/* values in half-dB, one for each setting */
static int audioin_vol[2][4]; /* 0=left, 1=right */
static int audioin_select[2]; /* idem */
void imx233_audioin_preinit(void)
{
/* Enable AUDIOIN block */
imx233_reset_block(&HW_AUDIOIN_CTRL);
/* Set word-length to 16-bit */
BF_SET(AUDIOIN_CTRL, WORD_LENGTH);
/* Gate Off */
BF_SET(AUDIOIN_CTRL, CLKGATE);
}
void imx233_audioin_postinit(void)
{
}
void imx233_audioin_open(void)
{
/* Gate On */
BF_CLR(AUDIOIN_CTRL, CLKGATE);
/* Enable ADC clock */
BF_CLR(AUDIOIN_ANACLKCTRL, CLKGATE);
/* Power up ADC (WARNING audioout register) */
BF_CLR(AUDIOOUT_PWRDN, ADC);
/* Start ADC */
BF_SET(AUDIOIN_CTRL, RUN);
}
void imx233_audioin_close(void)
{
/* Stop ADC (doc says it gate off the module but that's not the case) */
BF_CLR(AUDIOIN_CTRL, RUN);
/* Disable ADC clock */
BF_SET(AUDIOIN_ANACLKCTRL, CLKGATE);
/* Power down ADC (WARNING audioout register) */
BF_SET(AUDIOOUT_PWRDN, ADC);
/* Gate Off */
BF_SET(AUDIOIN_CTRL, CLKGATE);
}
static void apply_config(void)
{
int select_l = audioin_select[0];
int select_r = audioin_select[1];
int vol_l = audioin_vol[0][select_l];
int vol_r = audioin_vol[1][select_r];
/* Depending on the input, we have three available volumes to tweak:
* - adc volume: -100dB -> -0.5dB in 0.5dB steps
* - mux gain: 0dB -> 22.5dB in 1.5dB steps
* - mic gain: 0dB -> 40dB in 10dB steps (except for 10)
*
* This means two available volume ranges:
* - line1/line2/hp: -100dB -> 22dB in 0.5dB steps
* - microphone: -100dB -> 62dB in 0.5dB steps
*/
/* First apply mic gain of possible and necessary
* Only left volume is relevant with microphone
* If gain is > 22dB, use mic gain */
if(select_l == AUDIOIN_SELECT_MICROPHONE && vol_l > 22 * 2)
{
/* take lowest microphone gain to get back into the -100..22 range
* achievable with mux+adc.*/
/* from 52.5 dB and beyond: 40dB gain */
if(vol_l > 52 * 2)
{
BF_WR_V(AUDIOIN_MICLINE, MIC_GAIN, 40dB);
vol_l -= 40 * 2;
}
/* from 42.5 dB to 52dB: 30dB gain */
else if(vol_l > 42 * 2)
{
BF_WR_V(AUDIOIN_MICLINE, MIC_GAIN, 30dB);
vol_l -= 30 * 2;
}
/* from 22.5 dB to 42dB: 20dB gain */
else if(vol_l > 22 * 2)
{
BF_WR_V(AUDIOIN_MICLINE, MIC_GAIN, 20dB);
vol_l -= 20 * 2;
}
/* otherwise 0dB gain */
else
BF_WR_V(AUDIOIN_MICLINE, MIC_GAIN, 0dB);
}
/* max is 22dB */
vol_l = MIN(vol_l, 44);
vol_r = MIN(vol_r, 44);
/* we use the mux volume to reach the volume or higher with 1.5dB steps
* and then we use the ADC to go below 0dB or to obtain 0.5dB accuracy */
int mux_vol_l = MAX(0, (vol_l + 2) / 3); /* 1.5dB = 3 * 0.5dB */
int mux_vol_r = MAX(0, (vol_r + 2) / 3);
#if IMX233_SUBTARGET >= 3700
unsigned adc_zcd = BM_AUDIOIN_ADCVOL_EN_ADC_ZCD;
#else
unsigned adc_zcd = 0;
#endif
HW_AUDIOIN_ADCVOL = adc_zcd | BF_OR4(AUDIOIN_ADCVOL, SELECT_LEFT(select_l),
SELECT_RIGHT(select_r), GAIN_LEFT(mux_vol_l), GAIN_RIGHT(mux_vol_r));
vol_l -= mux_vol_l * 3; /* mux vol is in 1.5dB = 3 * 0.5dB steps */
vol_r -= mux_vol_l * 3;
vol_l = MIN(MAX(-200, vol_l), -1);
vol_r = MIN(MAX(-200, vol_r), -1);
/* unmute, enable zero cross and set volume.
* 0xfe is -0.5dB */
HW_AUDIOIN_ADCVOLUME = BF_OR3(AUDIOIN_ADCVOLUME, EN_ZCD(1),
VOLUME_LEFT(0xff + vol_l), VOLUME_RIGHT(0xff + vol_r));
}
void imx233_audioin_select_mux_input(bool right, int select)
{
audioin_select[right] = select;
apply_config();
}
void imx233_audioin_set_vol(bool right, int vol, int select)
{
audioin_vol[right][select] = vol;
apply_config();
}
void imx233_audioin_enable_mic(bool enable)
{
if(enable)
{
BF_WR_V(AUDIOIN_MICLINE, MIC_RESISTOR, 2KOhm);
BF_WR(AUDIOIN_MICLINE, MIC_BIAS, 4);
BF_WR(AUDIOIN_MICLINE, MIC_SELECT, 1);
}
else
BF_WR_V(AUDIOIN_MICLINE, MIC_RESISTOR, Off);
}
void imx233_audioin_set_freq(int fsel)
{
static struct
{
int base_mult;
int src_hold;
int src_int;
int src_frac;
}dacssr[HW_NUM_FREQ] =
{
HW_HAVE_8_([HW_FREQ_8] = { 0x1, 0x3, 0x17, 0xe00 } ,)
HW_HAVE_11_([HW_FREQ_11] = { 0x1, 0x3, 0x11, 0x37 } ,)
HW_HAVE_12_([HW_FREQ_12] = { 0x1, 0x3, 0xf, 0x13ff },)
HW_HAVE_16_([HW_FREQ_16] = { 0x1, 0x1, 0x17, 0xe00},)
HW_HAVE_22_([HW_FREQ_22] = { 0x1, 0x1, 0x11, 0x37 },)
HW_HAVE_24_([HW_FREQ_24] = { 0x1, 0x1, 0xf, 0x13ff },)
HW_HAVE_32_([HW_FREQ_32] = { 0x1, 0x0, 0x17, 0xe00},)
HW_HAVE_44_([HW_FREQ_44] = { 0x1, 0x0, 0x11, 0x37 },)
HW_HAVE_48_([HW_FREQ_48] = { 0x1, 0x0, 0xf, 0x13ff },)
HW_HAVE_64_([HW_FREQ_64] = { 0x2, 0x0, 0x17, 0xe00},)
HW_HAVE_88_([HW_FREQ_88] = { 0x2, 0x0, 0x11, 0x37 },)
HW_HAVE_96_([HW_FREQ_96] = { 0x2, 0x0, 0xf, 0x13ff },)
};
HW_AUDIOIN_ADCSRR = BF_OR4(AUDIOIN_ADCSRR,
SRC_FRAC(dacssr[fsel].src_frac), SRC_INT(dacssr[fsel].src_int),
SRC_HOLD(dacssr[fsel].src_hold), BASEMULT(dacssr[fsel].base_mult));
}
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