79e8cd4cfe
On STMP3700 there is no dedicated speaker amplifier but speaker is always on lineout so it makes sense to report volume and power down of lineout. Change-Id: If666bccf36d3a5ecc6d892823522d023f3206184
362 lines
12 KiB
C
362 lines
12 KiB
C
/***************************************************************************
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* __________ __ ___.
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* Open \______ \ ____ ____ | | _\_ |__ _______ ___
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* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
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* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
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* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
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* \/ \/ \/ \/ \/
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* $Id$
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*
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* Copyright (C) 2011 by Amaury Pouly
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
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* KIND, either express or implied.
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*
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****************************************************************************/
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#include <string.h>
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#include "config.h"
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#include "kernel.h"
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#include "audioout-imx233.h"
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#include "clkctrl-imx233.h"
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#include "rtc-imx233.h"
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#include "pcm_sampr.h"
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#include "audio-target.h"
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#include "power-imx233.h"
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#include "regs/audioout.h"
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#ifndef IMX233_AUDIO_COUPLING_MODE
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#error You must define IMX233_AUDIO_COUPLING_MODE
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#endif
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#if IMX233_AUDIO_COUPLING_MODE != ACM_CAP && IMX233_AUDIO_COUPLING_MODE != ACM_CAPLESS
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#error Invalid value for IMX233_AUDIO_COUPLING_MODE
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#endif
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static int hp_vol_l, hp_vol_r;
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static bool input_line1;
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static struct timeout hp_unmute_oneshort;
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static int hp_unmute_cb(struct timeout *tmo)
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{
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(void) tmo;
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/* unmute HP */
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BF_CLR(AUDIOOUT_HPVOL, MUTE);
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return 0;
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}
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void imx233_audioout_preinit(void)
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{
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/* Enable AUDIOOUT block */
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imx233_reset_block(&HW_AUDIOOUT_CTRL);
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/* Enable digital filter clock */
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imx233_clkctrl_enable(CLK_FILT, true);
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/* Enable DAC */
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BF_CLR(AUDIOOUT_ANACLKCTRL, CLKGATE);
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/* Set capless mode */
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#if IMX233_AUDIO_COUPLING_MODE == ACM_CAP
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BF_SET(AUDIOOUT_PWRDN, CAPLESS);
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#else
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BF_CLR(AUDIOOUT_PWRDN, CAPLESS);
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#endif
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/* Set word-length to 16-bit */
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BF_SET(AUDIOOUT_CTRL, WORD_LENGTH);
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/* Power up DAC */
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BF_CLR(AUDIOOUT_PWRDN, DAC);
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/* Hold HP to ground to avoid pop, then release and power up HP */
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BF_SET(AUDIOOUT_ANACTRL, HP_HOLD_GND);
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BF_CLR(AUDIOOUT_PWRDN, HEADPHONE);
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/* Set HP mode to AB */
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BF_SET(AUDIOOUT_ANACTRL, HP_CLASSAB);
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/* change bias to -50% */
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BF_WR(AUDIOOUT_TEST, HP_I1_ADJ(1));
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BF_WR(AUDIOOUT_REFCTRL, BIAS_CTRL(1));
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#if IMX233_SUBTARGET >= 3700
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BF_SET(AUDIOOUT_REFCTRL, RAISE_REF);
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#endif
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BF_SET(AUDIOOUT_REFCTRL, XTAL_BGR_BIAS);
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/* Stop holding to ground */
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BF_CLR(AUDIOOUT_ANACTRL, HP_HOLD_GND);
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/* Set dmawait count to 31 (see errata, workaround random stop) */
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BF_WR(AUDIOOUT_CTRL, DMAWAIT_COUNT(31));
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/* start converting audio */
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BF_SET(AUDIOOUT_CTRL, RUN);
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/* unmute DAC */
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BF_CLR(AUDIOOUT_DACVOLUME, MUTE_LEFT, MUTE_RIGHT);
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/* send a few samples to avoid pop */
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HW_AUDIOOUT_DATA = 0;
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HW_AUDIOOUT_DATA = 0;
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HW_AUDIOOUT_DATA = 0;
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HW_AUDIOOUT_DATA = 0;
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}
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void imx233_audioout_postinit(void)
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{
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/* wait for everything to stabilize before unmuting */
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timeout_register(&hp_unmute_oneshort, hp_unmute_cb, HZ / 2, 0);
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}
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void imx233_audioout_close(void)
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{
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/* Switch to class A */
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BF_CLR(AUDIOOUT_ANACTRL, HP_CLASSAB);
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/* Hold HP to ground */
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BF_SET(AUDIOOUT_ANACTRL, HP_HOLD_GND);
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/* Mute HP and power down */
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BF_SET(AUDIOOUT_HPVOL, MUTE);
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/* Power down HP */
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BF_SET(AUDIOOUT_PWRDN, HEADPHONE);
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/* Mute DAC */
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BF_SET(AUDIOOUT_DACVOLUME, MUTE_LEFT, MUTE_RIGHT);
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/* Power down DAC */
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BF_SET(AUDIOOUT_PWRDN, DAC);
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/* Gate off DAC */
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BF_SET(AUDIOOUT_ANACLKCTRL, CLKGATE);
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/* Disable digital filter clock */
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imx233_clkctrl_enable(CLK_FILT, false);
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/* will also gate off the module */
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BF_CLR(AUDIOOUT_CTRL, RUN);
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}
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/* volume in half dB
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* don't check input values */
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static void set_dac_vol(int vol_l, int vol_r)
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{
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/* minimum is -100dB and max is 0dB */
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vol_l = MAX(-200, MIN(vol_l, 0));
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vol_r = MAX(-200, MIN(vol_r, 0));
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/* unmute, enable zero cross and set volume.
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* 0xff is 0dB */
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BF_WR_ALL(AUDIOOUT_DACVOLUME, VOLUME_LEFT(0xff + vol_l),
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VOLUME_RIGHT(0xff + vol_r), EN_ZCD(1));
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}
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/* volume in half dB
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* don't check input values */
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static void set_hp_vol(int vol_l, int vol_r)
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{
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/* minimum is -57.5dB and max is 6dB in DAC mode
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* and -51.5dB / 12dB in Line1 mode */
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int min = input_line1 ? -103 : -115;
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int max = input_line1 ? 24 : 12;
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vol_l = MAX(min, MIN(vol_l, max));
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vol_r = MAX(min, MIN(vol_r, max));
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/* unmute, enable zero cross and set volume.*/
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#if IMX233_SUBTARGET >= 3700
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unsigned mstr_zcd = BM_AUDIOOUT_HPVOL_EN_MSTR_ZCD;
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#else
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unsigned mstr_zcd = 0;
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#endif
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HW_AUDIOOUT_HPVOL = mstr_zcd | BF_OR(AUDIOOUT_HPVOL, SELECT(input_line1),
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VOL_LEFT(max - vol_l), VOL_RIGHT(max - vol_r));
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}
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static void apply_volume(void)
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{
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/* Two cases: line1 and dac */
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if(input_line1)
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{
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/* In line1 mode, the HP is the only way to adjust the volume */
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set_hp_vol(hp_vol_l, hp_vol_r);
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}
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else
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{
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/* In DAC mode we can use both the HP and the DAC volume.
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* Use the DAC for volume <0 and HP for volume >0 */
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set_dac_vol(MIN(0, hp_vol_l), MIN(0, hp_vol_r));
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set_hp_vol(MAX(0, hp_vol_l), MAX(0, hp_vol_r));
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}
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}
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void imx233_audioout_set_hp_vol(int vol_l, int vol_r)
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{
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hp_vol_l = vol_l;
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hp_vol_r = vol_r;
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apply_volume();
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}
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void imx233_audioout_set_freq(int fsel)
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{
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static struct
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{
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int base_mult;
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int src_hold;
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int src_int;
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int src_frac;
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}dacssr[HW_NUM_FREQ] =
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{
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HW_HAVE_8_([HW_FREQ_8] = { 0x1, 0x3, 0x17, 0xe00 } ,)
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HW_HAVE_11_([HW_FREQ_11] = { 0x1, 0x3, 0x11, 0x37 } ,)
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HW_HAVE_12_([HW_FREQ_12] = { 0x1, 0x3, 0xf, 0x13ff },)
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HW_HAVE_16_([HW_FREQ_16] = { 0x1, 0x1, 0x17, 0xe00},)
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HW_HAVE_22_([HW_FREQ_22] = { 0x1, 0x1, 0x11, 0x37 },)
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HW_HAVE_24_([HW_FREQ_24] = { 0x1, 0x1, 0xf, 0x13ff },)
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HW_HAVE_32_([HW_FREQ_32] = { 0x1, 0x0, 0x17, 0xe00},)
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HW_HAVE_44_([HW_FREQ_44] = { 0x1, 0x0, 0x11, 0x37 },)
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HW_HAVE_48_([HW_FREQ_48] = { 0x1, 0x0, 0xf, 0x13ff },)
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HW_HAVE_64_([HW_FREQ_64] = { 0x2, 0x0, 0x17, 0xe00},)
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HW_HAVE_88_([HW_FREQ_88] = { 0x2, 0x0, 0x11, 0x37 },)
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HW_HAVE_96_([HW_FREQ_96] = { 0x2, 0x0, 0xf, 0x13ff },)
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};
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BF_WR_ALL(AUDIOOUT_DACSRR,
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SRC_FRAC(dacssr[fsel].src_frac), SRC_INT(dacssr[fsel].src_int),
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SRC_HOLD(dacssr[fsel].src_hold), BASEMULT(dacssr[fsel].base_mult));
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#if 0
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/* Select base_mult and src_hold depending on the audio range:
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* 0 < f <= 12000 --> base_mult = 1, src_hold = 3 (div by 4)
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* 12000 < f <= 24000 --> base_mult = 1, src_hold = 1 (div by 2)
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* 24000 < f <= 48000 --> base_mult = 1, src_hold = 0 (div by 1)
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* 48000 < f <= 96000 --> base_mult = 2, src_hold = 0 (mul by 2)
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* 96000 < f <= ..... --> base_mult = 4, src_hold = 0 (mul by 4) */
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int base_mult = 1;
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int src_hold = 0;
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if(f > 96000)
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base_mult = 4;
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else if(f > 48000)
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base_mult = 2;
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else if(f <= 12000)
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src_hold = 3;
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else if(f <= 24000)
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src_hold = 1;
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/* compute the divisor (a tricky to keep to do it with 32-bit words only) */
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int src_int = (750000 * base_mult) / (f * (src_hold + 1));
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int src_frac = ((750000 * base_mult - src_int * f * (src_hold + 1)) << 13) / (f * (src_hold + 1));
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HW_AUDIOOUT_DACSRR = BF_OR4(AUDIOOUT_DACSRR,
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SRC_FRAC(src_frac), SRC_INT(src_int),
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SRC_HOLD(src_hold), BASEMULT(base_mult));
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#endif
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}
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/* select between DAC and Line1 */
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void imx233_audioout_select_hp_input(bool line1)
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{
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input_line1 = line1;
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/* reapply volume setting */
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apply_volume();
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}
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void imx233_audioout_set_3d_effect(int val)
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{
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switch(val)
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{
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/* 0 and 1.5dB: off */
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case 0: case 1: BF_WR(AUDIOOUT_CTRL, SS3D_EFFECT(0)); break;
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/* 3dB: low */
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case 2: BF_WR(AUDIOOUT_CTRL, SS3D_EFFECT(1)); break;
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/* 4.5dB: low */
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case 3: BF_WR(AUDIOOUT_CTRL, SS3D_EFFECT(2)); break;
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/* 6dB: low */
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case 4: BF_WR(AUDIOOUT_CTRL, SS3D_EFFECT(3)); break;
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/* others: off */
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default: BF_WR(AUDIOOUT_CTRL, SS3D_EFFECT(0)); break;
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}
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}
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void imx233_audioout_enable_spkr(bool en)
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{
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/* avoid power sequence if not needed */
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static bool spkr_en = false;
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if(en == spkr_en)
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return;
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spkr_en = en;
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#if IMX233_SUBTARGET >= 3780
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if(en)
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{
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BF_CLR(AUDIOOUT_PWRDN, SPEAKER);
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BF_CLR(AUDIOOUT_SPEAKERCTRL, MUTE);
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}
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else
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{
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BF_SET(AUDIOOUT_SPEAKERCTRL, MUTE);
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/* despite what the manual says, we can perfectly set and clear this bit
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* at will, no need for a reset */
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BF_SET(AUDIOOUT_PWRDN, SPEAKER);
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}
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#elif IMX233_SUBTARGET >= 3700
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/* assume speaker is wired to lineout */
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if(en)
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{
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/** 1) make sure charge capacitors are discharged */
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BF_WR(AUDIOOUT_LINEOUTCTRL, CHARGE_CAP(2));
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/** 2) set min gain, nominal vag levels and zerocross desires */
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/* volume is decreasing with the value in the register */
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BF_SET(AUDIOOUT_LINEOUTCTRL, VOLUME_LEFT);
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BF_SET(AUDIOOUT_LINEOUTCTRL, VOLUME_RIGHT);
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BF_SET(AUDIOOUT_LINEOUTCTRL, EN_LINEOUT_ZCD);
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/* vag should be set to VDDIO/2, 0 is 1.725V, 15 is 1.350V, 25mV steps */
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int vddio;
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imx233_power_get_regulator(REGULATOR_VDDIO, &vddio, NULL);
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BF_WR(AUDIOOUT_LINEOUTCTRL, VAG_CTRL(15 - (vddio / 2 - 1350) / 25));
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/** 3) Power up lineout */
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BF_CLR(AUDIOOUT_PWRDN, LINEOUT);
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/** 4) Ramp the vag */
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BF_WR(AUDIOOUT_LINEOUTCTRL, CHARGE_CAP(1));
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/** 5) Unmute */
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BF_CLR(AUDIOOUT_LINEOUTCTRL, MUTE);
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/** 6) Ramp volume */
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BF_WR(AUDIOOUT_LINEOUTCTRL, VOLUME_LEFT(0));
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BF_WR(AUDIOOUT_LINEOUTCTRL, VOLUME_RIGHT(0));
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}
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else
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{
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/** Reverse procedure */
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BF_SET(AUDIOOUT_LINEOUTCTRL, MUTE);
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BF_WR(AUDIOOUT_LINEOUTCTRL, CHARGE_CAP(2));
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/* despite what the manual says, we can perfectly set and clear this bit
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* at will, no need for a reset */
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BF_SET(AUDIOOUT_PWRDN, LINEOUT);
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}
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#else
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(void) en;
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#endif
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}
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struct imx233_audioout_info_t imx233_audioout_get_info(void)
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{
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struct imx233_audioout_info_t info;
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memset(&info, 0, sizeof(info));
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/* 6*10^6*basemult/(src_frac*8*(src_hold+1)) in Hz */
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info.freq = 60000000 * BF_RD(AUDIOOUT_DACSRR, BASEMULT) / 8 /
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BF_RD(AUDIOOUT_DACSRR, SRC_FRAC) / (1 + BF_RD(AUDIOOUT_DACSRR, SRC_HOLD));
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info.hpselect = BF_RD(AUDIOOUT_HPVOL, SELECT);
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/* convert half-dB to tenth-dB */
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info.dacvol[0] = MAX((int)BF_RD(AUDIOOUT_DACVOLUME, VOLUME_LEFT) - 0xff, -100) * 5;
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info.dacvol[1] = MAX((int)BF_RD(AUDIOOUT_DACVOLUME, VOLUME_RIGHT) - 0xff, -100) * 5;
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info.dacmute[0] = BF_RD(AUDIOOUT_DACVOLUME, MUTE_LEFT);
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info.dacmute[1] = BF_RD(AUDIOOUT_DACVOLUME, MUTE_RIGHT);
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info.hpvol[0] = (info.hpselect ? 120 : 60) - 5 * BF_RD(AUDIOOUT_HPVOL, VOL_LEFT);
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info.hpvol[1] = (info.hpselect ? 120 : 60) - 5 * BF_RD(AUDIOOUT_HPVOL, VOL_RIGHT);
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info.hpmute[0] = info.hpmute[1] = BF_RD(AUDIOOUT_HPVOL, MUTE);
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#if IMX233_SUBTARGET >= 3780
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info.spkrvol[0] = info.spkrvol[1] = 155; // volume is fixed to 15.5 dB gain
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info.spkrmute[0] = info.spkrmute[1] = BF_RD(AUDIOOUT_SPEAKERCTRL, MUTE);
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info.spkr = !BF_RD(AUDIOOUT_PWRDN, SPEAKER);
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#elif IMX233_SUBTARGET < 3700
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/* convert 2-dB to tenth-dB */
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info.spkrvol[0] = MIN(info.spkrvol[1] = BF_RD(AUDIOOUT_SPKRVOL, VOL), 6) * 20;
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info.spkrmute[0] = info.spkrmute[1] = BF_RD(AUDIOOUT_SPKRVOL, MUTE);
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info.spkr = !BF_RD(AUDIOOUT_PWRDN, SPEAKER);
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#else
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/* STMP3700/3770 has not speaker amplifier, assume it is on lineout */
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info.spkrvol[0] = info.spkrvol[1] = 0;
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info.spkrmute[0] = info.spkrmute[1] = BF_RD(AUDIOOUT_LINEOUTCTRL, MUTE);
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info.spkr = !BF_RD(AUDIOOUT_PWRDN, LINEOUT);
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#endif
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info.ss3d = BF_RD(AUDIOOUT_CTRL, SS3D_EFFECT);
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info.ss3d = info.ss3d == 0 ? 0 : 15 * (1 + info.ss3d);
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info.hp = !BF_RD(AUDIOOUT_PWRDN, HEADPHONE);
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info.dac = !BF_RD(AUDIOOUT_PWRDN, DAC);
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info.capless = BF_RD(AUDIOOUT_PWRDN, CAPLESS);
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return info;
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}
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