kernel_samsung_a34x-permissive/sound/soc/codecs/tfa9878/inc/tfa98xx_parameters.h

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/*
* Copyright (C) 2014-2020 NXP Semiconductors, All Rights Reserved.
* Copyright 2020 GOODIX, All Rights Reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
*/
#ifndef TFA98XXPARAMETERS_H_
#define TFA98XXPARAMETERS_H_
#ifdef __KERNEL__
#include <linux/types.h>
#else
#include <stdint.h>
#endif
#include "tfa_service.h"
#if (defined(WIN32) || defined(_X64))
/* These warnings are disabled
* because it is only given by Windows and there is no easy fix
*/
#pragma warning(disable:4200)
#pragma warning(disable:4214)
#endif
/*
* profiles & volumesteps
*
*/
#define TFA_MAX_PROFILES (64)
#define TFA_MAX_VSTEPS (64)
#define TFA_MAX_VSTEP_MSG_MARKER (100)
/* This marker is used to indicate
* if all msgs need to be written to the device
*/
#define TFA_MAX_MSGS (10)
/*
* the pack pragma is required to make that the size in memory
* matches the actual variable lenghts
* This is to assure that the binary files can be transported between
* different platforms.
*/
#pragma pack(push, 1)
/*
* typedef for 24 bit value using 3 bytes
*/
struct uint24 {
uint8_t b[3];
};
/*
* the generic header
* all char types are in ASCII
*/
struct tfa_header {
uint16_t id;
char version[2]; /* "V_" : V=version, vv=subversion */
char subversion[2]; /* "vv" : vv=subversion */
uint16_t size; /* data size in bytes following CRC */
uint32_t crc; /* 32-bits CRC for following data */
char customer[8]; /* "name of customer" */
char application[8]; /* "application name" */
char type[8]; /* "application type name" */
};
enum tfa_sample_rate {
FS_8K, /* 8kHz */
FS_11K025, /* 11.025kHz */
FS_12K, /* 12kHz */
FS_16K, /* 16kHz */
FS_22K05, /* 22.05kHz */
FS_24K, /* 24kHz */
FS_32K, /* 32kHz */
FS_44K1, /* 44.1kHz */
FS_48K, /* 48kHz */
FS_96K, /* 96kHz */
FS_COUNT /* last item */
};
/* Keep in sync with enum tfa_sample_rate! */
static const int tfa_samplerate_hz[FS_COUNT] = {
8000, 11025, 12000, 16000, 22050,
24000, 32000, 44100, 48000, 96000
};
/*
* coolflux direct memory access
*/
struct tfa_dsp_mem {
uint8_t type; /* 0--3: p, x, y, iomem */
uint16_t address; /* target address */
uint8_t size; /* data size in words */
int words[]; /* payload in signed 32bit integer (two's complement) */
};
/*
* the biquad coefficients for the API together with index in filter
* the biquad_index is the actual index in the equalizer +1
*/
#define BIQUAD_COEFF_SIZE 6
/*
* Output fixed point coeffs structure
*/
struct tfa_biquad {
int a2;
int a1;
int b2;
int b1;
int b0;
};
struct tfa_biquad_old {
uint8_t bytes[BIQUAD_COEFF_SIZE * sizeof(struct uint24)];
};
struct tfa_biquad_float {
float headroom;
float b0;
float b1;
float b2;
float a1;
float a2;
};
/*
* EQ filter definitions
* Note: This is not in line with smartstudio (JV: 12/12/2016)
*/
enum tfa_filter_type {
f_custom, /* User defined biquad coefficients */
f_flat, /* Vary only gain */
f_lowpass, /* 2nd order Butterworth low pass */
f_highpass, /* 2nd order Butterworth high pass */
f_lowshelf,
f_highshelf,
f_notch,
f_peak,
f_bandpass,
f_1st_lp,
f_1st_hp,
f_elliptic
};
/*
* filter parameters for biquad (re-)calculation
*/
struct tfa_filter {
struct tfa_biquad_old biquad;
uint8_t enabled;
uint8_t type; /* (== enum FilterTypes, assure 8bits length) */
float frequency;
float Q;
float gain;
}; /* 8 * float + int32 + byte == 37 */
/*
* biquad params for calculation
*/
#define TFA_BQ_EQ_INDEX 0
#define TFA_BQ_ANTI_ALIAS_INDEX 10
#define TFA_BQ_INTEGRATOR_INDEX 13
/*
* Loudspeaker Compensation filter definitions
*/
struct tfa_ls_compensation_filter {
struct tfa_biquad biquad;
uint8_t ls_comp_on; /* Loudspeaker compensation on/off */
uint8_t bw_ext_on; /* Bandwidth extension on/off */
float f_res; /* [Hz] speaker resonance frequency */
float Qt; /* speaker resonance Q-factor */
float f_bw_ext; /* [Hz] Band width extension frequency */
float sampling_freq; /* [Hz] Sampling frequency */
};
/*
* Anti Aliasing Elliptic filter definitions
*/
struct tfa_anti_alias_filter {
struct tfa_biquad biquad; /* Output results fixed point coeffs */
uint8_t enabled;
float cut_off_freq; /* cut off frequency */
float sampling_freq; /* sampling frequency */
float ripple_db; /* range: [0.1 3.0] */
float rolloff; /* range: [-1.0 1.0] */
};
/*
* Integrator filter input definitions
*/
struct tfa_integrator_filter {
struct tfa_biquad biquad; /* Output results fixed point coeffs */
uint8_t type; /* Butterworth filter type: high or low pass */
float cut_off_freq; /* cut off frequency in Hz: [100.0 4000.0] */
float sampling_freq; /* sampling frequency in Hz */
float leakage; /* leakage factor; range [0.0 1.0] */
};
struct tfa_eq_filter {
struct tfa_biquad biquad;
uint8_t enabled;
uint8_t type; /* (== enum FilterTypes, assure 8bits length) */
float cut_off_freq; /* cut off frequency in [100, 4000] */
float sampling_freq; /* sampling frequency */
float Q; /* range: [0.5 5.0] */
float gain_db; /* range: [-10.0 10.0] */
}; /* 8 * float + int32 + byte == 37 */
struct tfa_cont_anti_alias {
int8_t index; /* index - destination type; anti-alias,integrator,eq */
uint8_t type;
float cut_off_freq; /* cut off frequency */
float sampling_freq;
float ripple_db; /* integrator leakage */
float rolloff;
uint8_t bytes[5*3]; /* payload 5*24buts coeffs */
};
struct tfa_cont_integrator {
int8_t index; /* index - destination type; anti-alias,integrator,eq */
uint8_t type;
float cut_off_freq; /* cut off frequency */
float sampling_freq;
float leakage; /* integrator leakage */
float reserved;
uint8_t bytes[5*3]; /* payload 5*24buts coeffs */
};
struct tfa_cont_eq {
int8_t index;
uint8_t type; /* (== enum FilterTypes, assure 8bits length) */
float cut_off_freq; /* cut off frequency in [100, 4000] */
float sampling_freq; /* sampling frequency */
float Q; /* range: [0.5 5.0] */
float gain_db; /* range: [-10.0 10.0] */
uint8_t bytes[5*3]; /* payload 5*24buts coeffs */
}; /* 8 * float + int32 + byte == 37 */
union tfa_cont_biquad {
struct tfa_cont_eq eq;
struct tfa_cont_anti_alias aa;
struct tfa_cont_integrator in;
};
#define TFA_BQ_EQ_INDEX 0
#define TFA_BQ_ANTI_ALIAS_INDEX 10
#define TFA_BQ_INTEGRATOR_INDEX 13
#define TFA98XX_MAX_EQ 10
struct tfa_equalizer {
struct tfa_filter filter[TFA98XX_MAX_EQ];
/* note: API index counts from 1..10 */
};
/*
* files
*/
#define HDR(c1, c2) (c2<<8|c1) /* little endian */
enum tfa_header_type {
params_hdr = HDR('P', 'M'), /* containter file */
volstep_hdr = HDR('V', 'P'),
patch_hdr = HDR('P', 'A'),
speaker_hdr = HDR('S', 'P'),
preset_hdr = HDR('P', 'R'),
config_hdr = HDR('C', 'O'),
equalizer_hdr = HDR('E', 'Q'),
drc_hdr = HDR('D', 'R'),
msg_hdr = HDR('M', 'G'), /* generic message */
info_hdr = HDR('I', 'N')
};
/*
* equalizer file
*/
#define TFA_EQ_VERSION '1'
#define TFA_EQ_SUBVERSION "00"
struct tfa_equalizer_file {
struct tfa_header hdr;
uint8_t samplerate; /* ==enum samplerates, assure 8 bits */
struct tfa_filter filter[TFA98XX_MAX_EQ];
/* note: API index counts from 1..10 */
};
/*
* patch file
*/
#define TFA_PA_VERSION '1'
#define TFA_PA_SUBVERSION "00"
struct tfa_patch_file {
struct tfa_header hdr;
uint8_t data[];
};
/*
* generic message file
* the payload of this file includes opcode and is send straight to the DSP
*/
#define TFA_MG_VERSION '3'
#define TFA_MG_SUBVERSION "00"
struct tfa_msg_file {
struct tfa_header hdr;
uint8_t data[];
};
/*
* NOTE the tfa98xx API defines the enum tfa98xx_config_type that defines
* the subtypes as decribes below.
* tfa98xx_dsp_config_parameter_type() can be used to get the
* supported type for the active device..
*/
/*
* config file V1 sub 1
*/
#define TFA_CO_VERSION '1'
#define TFA_CO3_VERSION '3'
#define TFA_CO_SUBVERSION1 "01"
struct tfa_config_s1_file {
struct tfa_header hdr;
uint8_t data[55*3];
};
/*
* config file V1 sub 2
*/
#define TFA_CO_SUBVERSION2 "02"
struct tfa_config_s2_file {
struct tfa_header hdr;
uint8_t data[67*3];
};
/*
* config file V1 sub 3
*/
#define TFA_CO_SUBVERSION3 "03"
struct tfa_config_s3_file {
struct tfa_header hdr;
uint8_t data[67*3];
};
/*
* config file V1.0
*/
#define TFA_CO_SUBVERSION "00"
struct tfa_config_file {
struct tfa_header hdr;
uint8_t data[];
};
/*
* preset file
*/
#define TFA_PR_VERSION '1'
#define TFA_PR_SUBVERSION "00"
struct tfa_preset_file {
struct tfa_header hdr;
uint8_t data[];
};
/*
* drc file
*/
#define TFA_DR_VERSION '1'
#define TFA_DR_SUBVERSION "00"
struct tfa_drc_file {
struct tfa_header hdr;
uint8_t data[];
};
/*
* drc file
* for tfa 2 there is also a xml-version
*/
#define TFA_DR3_VERSION '3'
#define TFA_DR3_SUBVERSION "00"
struct tfa_drc_file2 {
struct tfa_header hdr;
uint8_t version[3];
uint8_t data[];
};
/*
* volume step structures
*/
/* VP01 */
#define TFA_VP1_VERSION '1'
#define TFA_VP1_SUBVERSION "01"
struct tfa_volume_step1 {
float attenuation; /* IEEE single float */
uint8_t preset[TFA98XX_PRESET_LENGTH];
};
/* VP02 */
#define TFA_VP2_VERSION '2'
#define TFA_VP2_SUBVERSION "01"
struct tfa_volume_step2 {
float attenuation; /* IEEE single float */
uint8_t preset[TFA98XX_PRESET_LENGTH];
struct tfa_filter filter[TFA98XX_MAX_EQ];
/* note: API index counts from 1..10 */
};
/*
* volumestep file
*/
#define TFA_VP_VERSION '1'
#define TFA_VP_SUBVERSION "00"
struct tfa_volume_step_file {
struct tfa_header hdr;
uint8_t vsteps; /* can also be calulated from size+type */
uint8_t samplerate; /* ==enum samplerates, assure 8 bits */
uint8_t payload; /* start of contents: N times volsteps */
};
/*
* volumestep2 file
*/
struct tfa_volume_step2_file {
struct tfa_header hdr;
uint8_t vsteps; /* can also be calulated from size+type */
uint8_t samplerate; /* ==enum samplerates, assure 8 bits */
struct tfa_volume_step2 vstep[];
/* start of variable length contents:N times volsteps */
};
/*
* volumestepMax2 file
*/
struct tfa_volume_step_max2_file {
struct tfa_header hdr;
uint8_t version[3];
uint8_t nr_of_vsteps;
uint8_t vsteps_bin[];
};
/*
* volumestepMax2 file
* This volumestep should ONLY be used for the use of bin2hdr!
* This can only be used to find the messagetype of the vstep (without header)
*/
struct tfa_volume_step_max2_1_file {
uint8_t version[3];
uint8_t nr_of_vsteps;
uint8_t vsteps_bin[];
};
struct tfa_volume_step_register_info {
uint8_t nr_of_registers;
uint16_t register_info[];
};
struct tfa_volume_step_message_info {
uint8_t nr_of_messages;
uint8_t message_type;
struct uint24 message_length;
uint8_t cmd_id[3];
uint8_t parameter_data[];
};
/**************************old v2 *****************************************/
/*
* subv 00 volumestep file
*/
struct tfa_old_header {
uint16_t id;
char version[2]; /* "V_" : V=version, vv=subversion */
char subversion[2]; /* "vv" : vv=subversion */
uint16_t size; /* data size in bytes following CRC */
uint32_t crc; /* 32-bits CRC for following data */
};
struct tfa_old_filter {
double bq[5];
int32_t type;
double frequency;
double Q;
double gain;
uint8_t enabled;
}; /* 8 * float + int32 + byte == 37 */
struct tfa_old_volume_step2 {
float attenuation; /* IEEE single float */
uint8_t preset[TFA98XX_PRESET_LENGTH];
struct tfa_old_filter eq[10];
};
struct tfa_old_volume_step2_file {
struct tfa_old_header hdr;
struct tfa_old_volume_step2 step[];
};
/******************** end old v2 ************************************/
/*
* speaker file header
*/
struct tfa_spk_header {
struct tfa_header hdr;
char name[8]; /* speaker nick name (e.g. "dumbo") */
char vendor[16];
char type[8];
/* dimensions (mm) */
uint8_t height;
uint8_t width;
uint8_t depth;
uint16_t ohm;
};
/*
* speaker file
*/
#define TFA_SP_VERSION '1'
#define TFA_SP_SUBVERSION "00"
struct tfa_speaker_file {
struct tfa_header hdr;
char name[8]; /* speaker nick name (e.g. "dumbo") */
char vendor[16];
char type[8];
/* dimensions (mm) */
uint8_t height;
uint8_t width;
uint8_t depth;
uint8_t ohm_primary;
uint8_t ohm_secondary;
uint8_t data[]; /* payload TFA98XX_SPEAKERPARAMETER_LENGTH */
};
#define TFA_VP3_VERSION '3'
#define TFA_VP3_SUBVERSION "00"
struct tfa_fw_ver {
uint8_t major;
uint8_t minor;
uint8_t minor_update:6;
uint8_t update:2;
};
struct tfa_fw_msg {
struct tfa_fw_ver fw_version;
struct tfa_msg payload;
};
struct tfa_livedata {
char name[25];
char addrs[25];
int tracker;
int scalefactor;
};
#define TFA_SP3_VERSION '3'
#define TFA_SP3_SUBVERSION "00"
struct tfa_speaker_file_max2 {
struct tfa_header hdr;
char name[8]; /* speaker nick name (e.g. "dumbo") */
char vendor[16];
char type[8];
/* dimensions (mm) */
uint8_t height;
uint8_t width;
uint8_t depth;
uint8_t ohm_primary;
uint8_t ohm_secondary;
struct tfa_fw_msg fw_msg; /* payload including FW ver and Cmd ID */
};
/*
* parameter container file
*/
/*
* descriptors
* Note 1: append new DescriptorType at the end
* Note 2: add new descriptors to dsc_name[] in tfaContUtil.c
*/
enum tfa_descriptor_type {
dsc_device, /* device list */
dsc_profile, /* profile list */
dsc_register, /* register patch */
dsc_string, /* ascii, zero terminated string */
dsc_file, /* filename + file contents */
dsc_patch, /* patch file */
dsc_marker, /* marker to indicate end of a list */
dsc_mode,
dsc_set_input_select,
dsc_set_output_select,
dsc_set_program_config,
dsc_set_lag_w,
dsc_set_gains,
dsc_set_vbat_factors,
dsc_set_senses_cal,
dsc_set_senses_delay,
dsc_bit_field,
dsc_default, /* used to reset bitfields to there default values */
dsc_livedata,
dsc_livedata_string,
dsc_group,
dsc_cmd,
dsc_set_mb_drc,
dsc_filter,
dsc_no_init,
dsc_features,
dsc_cf_mem, /* coolflux memory x,y,io */
dsc_set_fw_use_case,
dsc_set_vddp_config,
dsc_last /* trailer */
};
#define TFA_BITFIELDDSCMSK 0x7fffffff
struct tfa_desc_ptr {
uint32_t offset:24;
uint32_t type:8; /* (== enum tfa_desc_type, assure 8bits length) */
};
/*
* generic file descriptor
*/
struct tfa_file_dsc {
struct tfa_desc_ptr name;
uint32_t size; /* file data length in bytes */
uint8_t data[];/* payload */
};
/*
* device descriptor list
*/
struct tfa_device_list {
uint8_t length; /* nr of items in the list */
uint8_t bus; /* bus */
uint8_t dev; /* device */
uint8_t func; /* subfunction or subdevice */
uint32_t devid; /* device hw fw id */
struct tfa_desc_ptr name; /* device name */
struct tfa_desc_ptr list[]; /* items list */
};
/*
* profile descriptor list
*/
struct tfa_profile_list {
uint32_t length:8; /* nr of items in the list + name */
uint32_t group:8; /* profile group number */
uint32_t id:16; /* profile ID */
struct tfa_desc_ptr name; /* profile name */
struct tfa_desc_ptr list[]; /* items list (length-1 items) */
};
#define TFA_PROFID 0x1234
/*
* livedata descriptor list
*/
struct tfa_livedata_list {
uint32_t length:8; /* nr of items in the list */
uint32_t id:24; /* profile ID */
struct tfa_desc_ptr name; /* livedata name */
struct tfa_desc_ptr list[]; /* items list */
};
#define TFA_LIVEDATAID 0x5678
/*
* Bitfield descriptor
*/
struct tfa_bitfield {
uint16_t value;
uint16_t field; /* ==datasheet defined, 16 bits */
};
/*
* Bitfield enumuration bits descriptor
*/
struct tfa_bf_enum {
unsigned int len:4; /* this is the actual length-1 */
unsigned int pos:4;
unsigned int address:8;
};
/*
* Register patch descriptor
*/
struct tfa_reg_patch {
uint8_t address; /* register address */
uint16_t value; /* value to write */
uint16_t mask; /* mask of bits to write */
};
/*
* Mode descriptor
*/
struct tfa_mode {
int value; /* mode value, maps to enum tfa98xx_mode */
};
/*
* NoInit descriptor
*/
struct tfa_no_init {
uint8_t value; /* noInit value */
};
/*
* Features descriptor
*/
struct tfa_features {
uint16_t value[3]; /* features value */
};
/*
* the container file
* - the size field is 32bits long (generic=16)
* - all char types are in ASCII
*/
#define TFA_PM_VERSION '1'
#define TFA_PM3_VERSION '3'
#define TFA_PM_SUBVERSION '1'
struct tfa_container {
char id[2]; /* "XX" : XX=type */
char version[2]; /* "V_" : V=version, vv=subversion */
char subversion[2]; /* "vv" : vv=subversion */
uint32_t size; /* data size in bytes following CRC */
uint32_t crc; /* 32-bits CRC for following data */
uint16_t rev; /* "extra chars for rev nr" */
char customer[8]; /* "name of customer" */
char application[8]; /* "application name" */
char type[8]; /* "application type name" */
uint16_t ndev; /* "nr of device lists" */
uint16_t nprof; /* "nr of profile lists" */
uint16_t nlivedata; /* "nr of livedata lists" */
struct tfa_desc_ptr index[]; /* start of item index table */
};
#pragma pack(pop)
#endif /* TFA98XXPARAMETERS_H_ */