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077ef70b0c
nuttx/boards/arm/cxd56xx/drivers/audio/cxd56_audio_aca.c
Alin Jerpelea 077ef70b0c cxd56xx improvements (#48) 
* arch: cxd56xx: Add size limitation for I2C SCU xfer

This is a fw restriction, unroll loop because it can be transfer
up to 16 bytes.

* arch: cxd56xx: Fix lack of leave_critical_section

add the missing leave_critical_section

* arch: cxd56xx: Remove unnecessary file

this header is duplicate and we can remove it

* arch: cxd56xx: Cosmetic change

remove space after function

* arch: cxd56xx: update topreg registers

the topreg registers are updated to match the cxd5602 HW

* arch: cxd56xx: Add voltage setting for low battery notification

Add voltage setting for low battery notification

* arch: cxd56xx: Improve perfomance of SD card

Improve a problem that the clock of SD Host Controller is lower than the
expected value in SDR25 transfer mode.

* arch: cxd56xx: Cosmetic changes

cleanup to comply with coding standard

* boards: cxd56xx: Cosmetic changes

updates to comply with coding standard

* boards: cxd56xx: Fix SD card cannot mount issue

SD card cannot mount when connecting and disconnecting three times
or more due to wrong state of parameter 'initialized'.

This change enables to skip swtching initialized state when mount
failed.
2020-01-07 11:21:58 -03:00

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/***************************************************************************
* boards/arm/cxd56xx/drivers/audio/cxd56_audio_aca.c
*
* Copyright 2018 Sony Semiconductor Solutions Corporation
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* 3. Neither the name of Sony Semiconductor Solutions Corporation nor
* the names of its contributors may be used to endorse or promote
* products derived from this software without specific prior written
* permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
****************************************************************************/
/****************************************************************************
* Included Files
****************************************************************************/
#include <string.h>
#include <nuttx/config.h>
#include <nuttx/irq.h>
#include <debug.h>
#include <arch/board/board.h>
#include <arch/chip/audio.h>
#include "cxd56_audio_config.h"
#include "cxd56_audio_aca.h"
/****************************************************************************
* Pre-processor Definitions
****************************************************************************/
#define MIC_CH_BITNUM 4
#define MIC_CH_BITMAP 0xf
#define MIC_GAIN_MAX 150
#define MIC_GAIN_MIN 0
#define PGA_GAIN_MAX 60
#define PGA_GAIN_MIN 0
#define AS_VGAIN_MAX 60
#define AS_VGAIN_MIN -95
typedef enum
{
AS_ACA_OSC_UNKNOWN,
AS_ACA_OSC_24_576MHZ, /* 24.576MHz */
AS_ACA_OSC_24_576MHZ_HIRES, /* 24.576MHz,Hi-Res */
AS_ACA_OSC_49_152MHZ, /* 49.152MHz */
AS_ACA_OSC_49_152MHZ_HIRES, /* 49.152MHz,Hi-Res */
AS_ACA_OSC_MAX_ENTRY
} asAcaPulcoOscModeId;
typedef enum
{
AS_ACA_MIC_UNKNOWN,
AS_ACA_MIC_AMIC, /* Analog MIC */
AS_ACA_MIC_DMIC, /* Digital MIC */
AS_ACA_MIC_BOTH, /* Analog MIC and Digital MIC */
AS_ACA_MIC_MAX_ENTRY
} asAcaPulcoMicDeviceId;
typedef enum
{
AS_ACA_MICBIAS_SEL_UNKNOWN,
AS_ACA_MICBIAS_SEL_2_0V, /* 2.0V */
AS_ACA_MICBIAS_SEL_2_8V, /* 2.8V */
AS_ACA_MICBIAS_SEL_MAX_ENTRY
} asAcaPulcoMicBiasSelId;
typedef enum
{
AS_ACA_IO_DS_UNKNOWN,
AS_ACA_IO_DS_WEAKEST, /* Weakest */
AS_ACA_IO_DS_WEAKER, /* Weaker */
AS_ACA_IO_DS_STRONGER, /* Stronger */
AS_ACA_IO_DS_STRONGEST, /* Strongest */
AS_ACA_IO_DS_MAX_ENTRY
} asAcaPulcoIoDsId;
typedef enum
{
AS_SMSTR_MODE_FS_UNKNOWN,
AS_SMSTR_MODE_FS_16, /* 16fs */
AS_SMSTR_MODE_FS_32, /* 32fs */
AS_SMSTR_MODE_FS_MAX_ENTRY
} asSmstrModeId;
typedef enum
{
AS_SMSTR_MCK_FS_UNKNOWN,
AS_SMSTR_MCK_FS_512, /* 512fs */
AS_SMSTR_MCK_FS_1024, /* 1024fs */
AS_SMSTR_MCK_FS_MAX_ENTRY
} asSmstrMckId;
typedef enum
{
AS_SMSTR_PWMMD_UNKNOWN,
AS_SMSTR_PWMMD_SINGLE, /* Single side */
AS_SMSTR_PWMMD_BOTH, /* Both side */
AS_SMSTR_PWMMD_SINGLE_ALTER, /* Single side alternating */
AS_SMSTR_PWMMD_BOTH_ALTER, /* Both side alternating */
AS_SMSTR_PWMMD_MAX_ENTRY
} asSmstrPwmModeId;
typedef enum
{
AS_SMSTR_CHSEL_UNKNOWN,
AS_SMSTR_CHSEL_NORMAL, /* Normal */
AS_SMSTR_CHSEL_EXCHANGE, /* Exchange L and R */
AS_SMSTR_CHSEL_MAX_ENTRY
} asSmstrChSelId;
typedef enum
{
AS_ACA_OUT_UNKNOWN,
AS_ACA_OUT_HP, /* Headphone output */
AS_ACA_OUT_EP, /* Ear Speaker output */
AS_ACA_OUT_PWM, /* PWM output */
AS_ACA_OUT_HP_PWM, /* Headphone and PWM output */
AS_ACA_OUT_EP_PWM, /* Ear Speaker and PWM output */
AS_ACA_OUT_OFF, /* Disable output */
AS_ACA_OUT_MAX_ENTRY
} asAcaPulcoOutDeviceId;
typedef enum
{
AS_ACA_PWMOUT_UNKNOWN,
AS_ACA_PWMOUT_OFF, /* Disable */
AS_ACA_PWMOUT_LN, /* LN */
AS_ACA_PWMOUT_LP, /* LP */
AS_ACA_PWMOUT_RN, /* RN */
AS_ACA_PWMOUT_RP, /* RP */
AS_ACA_PWMOUT_MAX_ENTRY
} asAcaPulcoPwmOutId;
typedef enum
{
AS_ACA_SP_LOOP_MODE_UNKNOWN,
AS_ACA_SP_LOOP_MODE_ENABLE,
AS_ACA_SP_LOOP_MODE_DISABLE,
AS_ACA_SP_LOOP_MODE_MAX_ENTRY
} asAcaSpLoopModeId;
typedef enum
{
AS_ACA_SP_DELAY_SEL_UNKNOWN,
AS_ACA_SP_DELAY_SEL_NON,
AS_ACA_SP_DELAY_SEL_SHORT,
AS_ACA_SP_DELAY_SEL_MIDDLE,
AS_ACA_SP_DELAY_SEL_LONG,
AS_ACA_SP_DELAY_SEL_MAX_ENTRY
} asAcaSpDelaySelId;
typedef enum
{
AS_ACA_SP_DLY_FREE_UNKNOWN,
AS_ACA_SP_DLY_FREE_OFF,
AS_ACA_SP_DLY_FREE_ON,
AS_ACA_SP_DLY_FREE_MAX_ENTRY
} asAcaSpDlyFreeId;
typedef enum
{
AS_ACA_SP_SPLITON_SEL_UNKNOWN,
AS_ACA_SP_SPLITON_SEL_SHORTEST,
AS_ACA_SP_SPLITON_SEL_SHORT,
AS_ACA_SP_SPLITON_SEL_LONG,
AS_ACA_SP_SPLITON_SEL_LONGEST,
AS_ACA_SP_SPLITON_SEL_MAX_ENTRY
} asAcaSpSplitonSelId;
typedef enum
{
AS_ACA_SP_DRV_SEL_UNKNOWN,
AS_ACA_SP_DRV_SEL_4DRIVER,
AS_ACA_SP_DRV_SEL_2DRIVER,
AS_ACA_SP_DRV_SEL_1DRIVER,
AS_ACA_SP_DRV_SEL_LINEOUT,
AS_ACA_SP_DRV_SEL_MAX_ENTRY
} asAcaSpDrvSelId;
typedef enum
{
AS_ACA_SER_MODE_UNKNOWN,
AS_ACA_SER_MODE_8CH, /* 8ch */
AS_ACA_SER_MODE_4CH, /* 4ch */
AS_ACA_SER_MODE_MAX_ENTRY
} asAcaPulcoSerModeId;
typedef enum
{
AS_ACA_SER_FS_UNKNOWN,
AS_ACA_SER_FS_128, /* 128fs */
AS_ACA_SER_FS_64, /* 64fs */
AS_ACA_SER_FS_MAX_ENTRY
} asAcaPulcoSerFsId;
typedef enum
{
AS_ACA_SER_SEL_FIX0 = 0,
AS_ACA_SER_SEL_AMIC1 = 1,
AS_ACA_SER_SEL_AMIC2 = 2,
AS_ACA_SER_SEL_AMIC3 = 3,
AS_ACA_SER_SEL_AMIC4 = 4,
AS_ACA_SER_SEL_DMIC1 = 5,
AS_ACA_SER_SEL_DMIC2 = 6,
AS_ACA_SER_SEL_DMIC3 = 7,
AS_ACA_SER_SEL_DMIC4 = 8,
AS_ACA_SER_SEL_DMIC5 = 9,
AS_ACA_SER_SEL_DMIC6 = 10,
AS_ACA_SER_SEL_DMIC7 = 11,
AS_ACA_SER_SEL_DMIC8 = 12,
AS_ACA_SER_SEL_UNKNOWN = 15,
AS_ACA_SER_SEL_MAX_ENTRY = 16
} asAcaPulcoSerSelChId;
typedef enum
{
AS_SDES_DES_SEL_UNKNOWN,
AS_SDES_DES_SEL_CH1,
AS_SDES_DES_SEL_CH2,
AS_SDES_DES_SEL_CH3,
AS_SDES_DES_SEL_CH4,
AS_SDES_DES_SEL_CH5,
AS_SDES_DES_SEL_CH6,
AS_SDES_DES_SEL_CH7,
AS_SDES_DES_SEL_CH8,
AS_SDES_DES_SEL_MAX_ENTRY
} asSdesDesSelOutId;
typedef enum
{
AS_ACA_CHECK_ID,
AS_ACA_POWER_ON_COMMON,
AS_ACA_POWER_ON_INPUT,
AS_ACA_POWER_ON_OUTPUT,
AS_ACA_SET_SERDES,
AS_ACA_SET_SMASTER,
AS_ACA_POWER_OFF_COMMON,
AS_ACA_POWER_OFF_INPUT,
AS_ACA_POWER_OFF_OUTPUT,
AS_ACA_POWER_ON_MICBIAS,
AS_ACA_POWER_OFF_MICBIAS,
AS_ACA_INIT_AMIC,
AS_ACA_SET_AMIC_BOOT_DONE,
AS_ACA_SET_OUTPUT_DEVICE,
AS_ACA_GET_REGISTER,
AS_ACA_SET_REGISTER,
AS_ACA_CONTROL_TYPE_NUM
} AsAcaControlType;
typedef struct
{
asAcaPulcoOscModeId oscMode;
asAcaPulcoMicDeviceId micDev;
asAcaPulcoIoDsId gpoDs;
asAcaPulcoIoDsId adDataDs;
asAcaPulcoIoDsId dmicClkDs;
asAcaPulcoIoDsId mclkDs;
} asAcaPulcoParam;
typedef struct
{
asAcaPulcoMicDeviceId micDev;
asAcaPulcoMicBiasSelId micBiasSel;
uint32_t micGain[4];
uint32_t pgaGain[4];
int32_t vgain[4];
} asAcaPulcoInParam;
typedef struct
{
asSmstrModeId mode;
asSmstrMckId mckFs;
asSmstrPwmModeId pwmMode;
asSmstrChSelId chSel;
uint8_t out2Dly;
} asAcaPulcoSmstrParam;
typedef struct
{
asAcaPulcoOutDeviceId outDev;
asAcaPulcoPwmOutId pwmOut[2];
asAcaSpDelaySelId spDelay;
asAcaSpLoopModeId loopMode;
asSmstrModeId mode;
asAcaSpDlyFreeId spDlyFree;
asAcaSpSplitonSelId spSpliton;
asAcaSpDrvSelId spDrv;
} asAcaPulcoOutParam;
typedef struct
{
uint32_t bank;
uint32_t addr;
uint32_t value;
} asAcaPulcoRegParam;
typedef struct
{
asAcaPulcoSerModeId serMode;
asAcaPulcoSerFsId serFs;
union
{
asAcaPulcoSerSelChId in[CXD56_AUDIO_MIC_CH_MAX];
asSdesDesSelOutId out[CXD56_AUDIO_MIC_CH_MAX];
} selCh;
} asSerDesParam;
/* Select output device ID */
typedef enum
{
/* output device none */
AS_OUT_DEV_OFF,
/* output device speaker */
AS_OUT_DEV_SP,
/* output device i2s */
AS_OUT_DEV_I2S,
AS_OUT_DEV_NUM
} asOutDeviceId;
/****************************************************************************
* Public Function Prototypes
****************************************************************************/
extern uint32_t AS_AcaControl(uint8_t type, uint32_t param);
/****************************************************************************
* Private Data
****************************************************************************/
/****************************************************************************
* Public Data
****************************************************************************/
/****************************************************************************
* Private Functions
****************************************************************************/
static void get_osc_mode(uint8_t cfg_mclk, asAcaPulcoOscModeId *osc)
{
cxd56_audio_clkmode_t clk_mode = cxd56_audio_config_get_clkmode();
if (cfg_mclk == CXD56_AUDIO_CFG_XTAL_24_576MHZ)
{
if (clk_mode == CXD56_AUDIO_CLKMODE_HIRES)
{
*osc = AS_ACA_OSC_24_576MHZ_HIRES;
}
else
{
*osc = AS_ACA_OSC_24_576MHZ;
}
}
else
{
if (clk_mode == CXD56_AUDIO_CLKMODE_HIRES)
{
*osc = AS_ACA_OSC_49_152MHZ_HIRES;
}
else
{
*osc = AS_ACA_OSC_49_152MHZ;
}
}
}
static void get_mic_dev(uint32_t cfg_mic, FAR asAcaPulcoMicDeviceId *dev)
{
bool is_amic = false;
bool is_dmic = false;
uint8_t i;
for (i = 0; i < CXD56_AUDIO_MIC_CH_MAX; i++)
{
uint8_t mic_sel;
mic_sel = (cfg_mic >> (i * MIC_CH_BITNUM)) & MIC_CH_BITMAP;
if ((mic_sel >= 1) && (mic_sel <= 4))
{
is_amic = true;
}
else if ((mic_sel >= 5) && (mic_sel <= 12))
{
is_dmic = true;
}
}
if (is_amic && is_dmic)
{
*dev = AS_ACA_MIC_BOTH;
}
else if(is_amic)
{
*dev = AS_ACA_MIC_AMIC;
}
else
{
*dev = AS_ACA_MIC_DMIC;
}
}
static void get_drv_str(uint8_t cfg_ds, FAR asAcaPulcoIoDsId *ds)
{
switch (cfg_ds)
{
case CXD56_AUDIO_CFG_DS_WEAKEST:
*ds = AS_ACA_IO_DS_WEAKEST;
break;
case CXD56_AUDIO_CFG_DS_WEAKER:
*ds = AS_ACA_IO_DS_WEAKER;
break;
case CXD56_AUDIO_CFG_DS_STRONGER:
*ds = AS_ACA_IO_DS_STRONGER;
break;
case CXD56_AUDIO_CFG_DS_STRONGEST:
*ds = AS_ACA_IO_DS_STRONGEST;
break;
default:
*ds = AS_ACA_IO_DS_WEAKEST;
break;
}
}
static void get_mic_bias(uint8_t cfg_bsel, FAR asAcaPulcoMicBiasSelId *bsel)
{
switch (cfg_bsel)
{
case CXD56_AUDIO_CFG_MIC_BIAS_20V:
*bsel = AS_ACA_MICBIAS_SEL_2_0V;
break;
case CXD56_AUDIO_CFG_MIC_BIAS_28V:
*bsel = AS_ACA_MICBIAS_SEL_2_8V;
break;
default:
*bsel = AS_ACA_MICBIAS_SEL_2_0V;
break;
}
}
static void get_sp_split_on(uint8_t cf_sp_spliton, FAR asAcaSpSplitonSelId *spSpliton)
{
switch (cf_sp_spliton)
{
case CXD56_AUDIO_CFG_SP_SPLITON_LONGEST:
*spSpliton = AS_ACA_SP_SPLITON_SEL_LONGEST;
break;
case CXD56_AUDIO_CFG_SP_SPLITON_LONG:
*spSpliton = AS_ACA_SP_SPLITON_SEL_LONG;
break;
case CXD56_AUDIO_CFG_SP_SPLITON_SHORT:
*spSpliton = AS_ACA_SP_SPLITON_SEL_SHORT;
break;
default:
*spSpliton = AS_ACA_SP_SPLITON_SEL_SHORTEST;
break;
}
}
static void get_sp_driver(uint8_t cfg_sp_drv, FAR asAcaSpDrvSelId *spDrv)
{
switch (cfg_sp_drv)
{
case CXD56_AUDIO_SP_DRV_LINEOUT:
*spDrv = AS_ACA_SP_DRV_SEL_LINEOUT;
break;
case CXD56_AUDIO_SP_DRV_1DRIVER:
*spDrv = AS_ACA_SP_DRV_SEL_1DRIVER;
break;
case CXD56_AUDIO_SP_DRV_2DRIVER:
*spDrv = AS_ACA_SP_DRV_SEL_2DRIVER;
break;
default:
*spDrv = AS_ACA_SP_DRV_SEL_4DRIVER;
break;
}
}
void get_pwon_param(asAcaPulcoParam *param)
{
uint32_t mic_map = cxd56_audio_config_get_micmap();
get_osc_mode((uint8_t)CXD56_AUDIO_CFG_MCLK, &param->oscMode);
get_mic_dev(mic_map, &param->micDev);
get_drv_str((uint8_t)CXD56_AUDIO_CFG_GPO_A_DS, &param->gpoDs);
get_drv_str((uint8_t)CXD56_AUDIO_CFG_DA_DS, &param->adDataDs);
get_drv_str((uint8_t)CXD56_AUDIO_CFG_DMIC_CLK_DS, &param->dmicClkDs);
get_drv_str((uint8_t)CXD56_AUDIO_CFG_MCLKOUT_DS, &param->mclkDs);
}
void get_serial_param(asSerDesParam *param)
{
uint8_t mic_mode = cxd56_audio_config_get_micmode();
uint32_t mic_map = cxd56_audio_config_get_micmap();
uint8_t mic_sel = 0;
uint8_t i;
if (CXD56_AUDIO_CFG_MIC_MODE_128FS == mic_mode)
{
param->serMode = AS_ACA_SER_MODE_4CH;
param->serFs = AS_ACA_SER_FS_128;
}
else
{
param->serMode = AS_ACA_SER_MODE_8CH;
param->serFs = AS_ACA_SER_FS_64;
}
for (i = 0; i < CXD56_AUDIO_MIC_CH_MAX; i++)
{
mic_sel = (mic_map >> (i * MIC_CH_BITNUM)) & MIC_CH_BITMAP;
param->selCh.in[i] = (asAcaPulcoSerSelChId)mic_sel;
}
}
void get_input_param(asAcaPulcoInParam *param,
FAR cxd56_audio_mic_gain_t *gain)
{
uint8_t mic_sel;
uint8_t mic_id;
uint32_t mic_map = cxd56_audio_config_get_micmap();
uint32_t pga_gain;
uint8_t i;
memset((void *)param, 0, sizeof(asAcaPulcoInParam));
get_mic_dev(mic_map, &param->micDev);
get_mic_bias((uint8_t)CXD56_AUDIO_CFG_MIC_BIAS, &param->micBiasSel);
for (i = 0; i < CXD56_AUDIO_MIC_CH_MAX; i++)
{
mic_sel = (mic_map >> (i * MIC_CH_BITNUM)) & MIC_CH_BITMAP;
if ((mic_sel >= 1) && (mic_sel <= 4))
{
mic_id = mic_sel - 1;
param->micGain[mic_id] = (gain->gain[i] >= MIC_GAIN_MAX) ?
MIC_GAIN_MAX : (gain->gain[i] / 30) * 30;
pga_gain = gain->gain[i] - param->micGain[mic_id];
param->pgaGain[mic_id] = (pga_gain >= PGA_GAIN_MAX) ?
PGA_GAIN_MAX : pga_gain;
}
}
}
void get_smaster_param(asAcaPulcoSmstrParam *param)
{
cxd56_audio_clkmode_t clk_mode = cxd56_audio_config_get_clkmode();
if (clk_mode == CXD56_AUDIO_CLKMODE_HIRES)
{
param->mode = AS_SMSTR_MODE_FS_32;
param->mckFs = AS_SMSTR_MCK_FS_1024;
}
else
{
param->mode = AS_SMSTR_MODE_FS_16;
param->mckFs = AS_SMSTR_MCK_FS_512;
}
param->chSel = AS_SMSTR_CHSEL_NORMAL;
param->out2Dly = 0x00;
param->pwmMode = AS_SMSTR_PWMMD_BOTH;
}
void get_pwon_out_param(asAcaPulcoOutParam *param)
{
cxd56_audio_clkmode_t clk_mode = cxd56_audio_config_get_clkmode();
if (clk_mode == CXD56_AUDIO_CLKMODE_HIRES)
{
param->mode = AS_SMSTR_MODE_FS_32;
}
else
{
param->mode = AS_SMSTR_MODE_FS_16;
}
param->outDev = AS_ACA_OUT_OFF;
param->pwmOut[0] = AS_ACA_PWMOUT_UNKNOWN;
param->pwmOut[1] = AS_ACA_PWMOUT_UNKNOWN;
param->spDelay = AS_ACA_SP_DELAY_SEL_UNKNOWN;
param->loopMode = AS_ACA_SP_LOOP_MODE_UNKNOWN;
param->spDlyFree = AS_ACA_SP_DLY_FREE_UNKNOWN;
get_sp_split_on((uint8_t)CXD56_AUDIO_CFG_SP_SPLIT_ON, &param->spSpliton);
get_sp_driver((uint8_t)cxd56_audio_config_get_spdriver(), &param->spDrv);
}
/***************************************************************************
* Public Functions
****************************************************************************/
CXD56_AUDIO_ECODE cxd56_audio_aca_poweron(void)
{
if (AS_AcaControl(AS_ACA_CHECK_ID, (uint32_t)NULL) != 0)
{
return CXD56_AUDIO_ECODE_ANA_CHKID;
}
asAcaPulcoParam pwon_param;
get_pwon_param(&pwon_param);
if (AS_AcaControl(AS_ACA_POWER_ON_COMMON, (uint32_t)&pwon_param) != 0)
{
return CXD56_AUDIO_ECODE_ANA_PWON;
}
asSerDesParam serial_param;
get_serial_param(&serial_param);
if (AS_AcaControl(AS_ACA_SET_SERDES, (uint32_t)&serial_param) != 0)
{
return CXD56_AUDIO_ECODE_ANA_SERIAL;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_poweroff(void)
{
if (AS_AcaControl(AS_ACA_POWER_OFF_COMMON, (uint32_t)NULL) != 0)
{
return CXD56_AUDIO_ECODE_ANA_PWOFF;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_poweron_micbias(void)
{
if (AS_AcaControl(AS_ACA_POWER_ON_MICBIAS, (uint32_t)NULL) != 0)
{
return CXD56_AUDIO_ECODE_ANA_PWON_MBIAS;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_poweron_input(FAR cxd56_audio_mic_gain_t *gain)
{
asAcaPulcoInParam pwon_input_param;
get_input_param(&pwon_input_param, gain);
if (AS_AcaControl(AS_ACA_POWER_ON_INPUT, (uint32_t)&pwon_input_param) != 0)
{
return CXD56_AUDIO_ECODE_ANA_PWON_INPUT;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_set_smaster(void)
{
asAcaPulcoSmstrParam smaster_param;
get_smaster_param(&smaster_param);
if (AS_AcaControl(AS_ACA_SET_SMASTER, (uint32_t)&smaster_param) != 0)
{
return CXD56_AUDIO_ECODE_ANA_SET_SMASTER;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_poweron_output(void)
{
asAcaPulcoOutParam pwon_output_param;
get_pwon_out_param(&pwon_output_param);
if (AS_AcaControl(AS_ACA_POWER_ON_OUTPUT, (uint32_t)&pwon_output_param) != 0)
{
return CXD56_AUDIO_ECODE_ANA_PWON_OUTPUT;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_poweroff_input(void)
{
if (AS_AcaControl(AS_ACA_POWER_OFF_INPUT, (uint32_t)NULL) != 0)
{
return CXD56_AUDIO_ECODE_ANA_PWOFF_INPUT;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_poweroff_output(void)
{
if (AS_AcaControl(AS_ACA_POWER_OFF_OUTPUT, (uint32_t)NULL) != 0)
{
return CXD56_AUDIO_ECODE_ANA_PWOFF_OUTPUT;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_enable_output(void)
{
if (AS_AcaControl(AS_ACA_SET_OUTPUT_DEVICE, (uint32_t)AS_OUT_DEV_SP) != 0)
{
return CXD56_AUDIO_ECODE_ANA_ENABLE_OUTPUT;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_disable_output(void)
{
if (AS_AcaControl(AS_ACA_SET_OUTPUT_DEVICE, (uint32_t)AS_OUT_DEV_OFF) != 0)
{
return CXD56_AUDIO_ECODE_ANA_DISABLE_OUTPUT;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_set_micgain(FAR cxd56_audio_mic_gain_t *gain)
{
asAcaPulcoInParam mic_gain_param;
get_input_param(&mic_gain_param, gain);
if (AS_AcaControl(AS_ACA_INIT_AMIC, (uint32_t)&mic_gain_param) != 0)
{
return CXD56_AUDIO_ECODE_ANA_SET_MICGAIN;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_notify_micbootdone(void)
{
if (AS_AcaControl(AS_ACA_SET_AMIC_BOOT_DONE, (uint32_t)NULL) != 0)
{
return CXD56_AUDIO_ECODE_ANA_NOTIFY_MICBOOT;
}
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_read_reg(asAcaPulcoRegParam *param)
{
AS_AcaControl(AS_ACA_GET_REGISTER, (uint32_t)param);
return CXD56_AUDIO_ECODE_OK;
}
CXD56_AUDIO_ECODE cxd56_audio_aca_write_reg(asAcaPulcoRegParam *param)
{
AS_AcaControl(AS_ACA_SET_REGISTER, (uint32_t)param);
return CXD56_AUDIO_ECODE_OK;
}
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