kernel_samsung_a34x-permissive/sound/soc/codecs/tfa98xx/inc/tfa_device.h

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/*
* Copyright (C) 2014 NXP Semiconductors, 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.
*
*/
/**\file
*
* The tfa_device interface controls a single I2C device instance by
* referencing to the device specific context provided by means of the
* tfa_device structure pointer.
* Multiple instances of tfa_device structures will be created and maintained
* by the caller.
*
* The API is functionally grouped as:
* - tfa_dev basic codec interface to probe, start/stop and control the device
* state
* - access to internal MTP storage
* - abstraction for interrupt bits and handling
* - container reading support
*/
#ifndef __TFA_DEVICE_H__
#define __TFA_DEVICE_H__
#include "config.h"
struct tfa_device;
/*
* hw/sw feature bit settings in MTP
*/
enum featureSupport {
supportNotSet, /**< default means not set yet */
supportNo, /**< no support */
supportYes /**< supported */
};
/*
* supported Digital Audio Interfaces bitmap
*/
enum Tfa98xx_DAI {
Tfa98xx_DAI_I2S = 0x01, /**< I2S only */
Tfa98xx_DAI_TDM = 0x02, /**< TDM, I2S */
Tfa98xx_DAI_PDM = 0x04, /**< PDM */
};
/*
* device ops function structure
*/
struct tfa_device_ops {
enum Tfa98xx_Error (*dsp_msg)(struct tfa_device *tfa, int length,
const char *buf);
enum Tfa98xx_Error (*dsp_msg_read)(struct tfa_device *tfa, int length,
unsigned char *bytes);
enum Tfa98xx_Error (*reg_read)(struct tfa_device *tfa,
unsigned char subaddress,
unsigned short *value);
enum Tfa98xx_Error (*reg_write)(struct tfa_device *tfa,
unsigned char subaddress,
unsigned short value);
enum Tfa98xx_Error (*mem_read)(struct tfa_device *tfa,
unsigned int start_offset, int num_words,
int *pValues);
enum Tfa98xx_Error (*mem_write)(struct tfa_device *tfa,
unsigned short address, int value,
int memtype);
// init typically for loading optimal settings
enum Tfa98xx_Error (*tfa_init)(struct tfa_device *tfa);
// reset the coolflux dsp
enum Tfa98xx_Error (*dsp_reset)(struct tfa_device *tfa, int state);
// ready when clocks are stable to allow DSP subsystem access
enum Tfa98xx_Error (*dsp_system_stable)(struct tfa_device *tfa,
int *ready);
// write the device/type specific delaytables
enum Tfa98xx_Error (*dsp_write_tables)(struct tfa_device *tfa,
int sample_rate);
// Set auto_copy_mtp_to_iic
enum Tfa98xx_Error (*auto_copy_mtp_to_iic)(struct tfa_device *tfa);
// Factory trimming for the Boost converter
enum Tfa98xx_Error (*factory_trimmer)(struct tfa_device *tfa);
// Set the sw profile in the struct and the hw register
int (*set_swprof)(struct tfa_device *tfa, unsigned short new_value);
// Get the sw profile from the hw register
int (*get_swprof)(struct tfa_device *tfa);
// Set the sw vstep in the struct and the hw register
int (*set_swvstep)(struct tfa_device *tfa, unsigned short new_value);
// Get the sw vstep from the hw register
int (*get_swvstep)(struct tfa_device *tfa);
// get status of MTB busy bit
int (*get_mtpb)(struct tfa_device *tfa);
// set mute
enum Tfa98xx_Error (*set_mute)(struct tfa_device *tfa, int mute);
// Protect FAIM from being corrupted
enum Tfa98xx_Error (*faim_protect)(struct tfa_device *tfa, int state);
// Allow to change internal osc. gating settings
enum Tfa98xx_Error (*set_osc_powerdown)(struct tfa_device *tfa,
int state);
};
/**
* Device states and modifier flags to allow a device/type independent fine
* grained control of the internal state.\n
* Values below 0x10 are referred to as base states which can be or-ed with
* state modifiers, from 0x10 and higher.
*
*/
enum tfa_state {
TFA_STATE_UNKNOWN, /**< unknown or invalid */
TFA_STATE_POWERDOWN, /**< PLL in powerdown, Algo is up/warm */
TFA_STATE_INIT_HW, // load I2C/PLL hardware setting (~wait2srcsettings)
TFA_STATE_INIT_CF, /**< coolflux HW access possible (~initcf) */
TFA_STATE_INIT_FW, /**< DSP framework active (~patch loaded) */
TFA_STATE_OPERATING, /**< Amp and Algo running */
TFA_STATE_FAULT, /**< An alarm or error occurred */
TFA_STATE_RESET, /**< I2C reset and ACS set */
/* --sticky state modifiers-- */
TFA_STATE_MUTE = 0x10, /**< Algo & Amp mute */
TFA_STATE_UNMUTE = 0x20, /**< Algo & Amp unmute */
TFA_STATE_CLOCK_ALWAYS = 0x40, // PLL connect to internal oscillator
TFA_STATE_CLOCK_AUDIO = 0x80, // PLL connect to audio clock (BCK/FS)
TFA_STATE_LOW_POWER = 0x100, /**< lowest possible power state */
};
/**
* This is the main tfa device context structure, it will carry all information
* that is needed to handle a single I2C device instance.
* All functions dealing with the device will need access to the fields herein.
*/
struct tfa_device {
int dev_idx; /**< device container index */
int in_use;
int buffer_size; /**< lowest level max buffer size */
int has_msg; /**< support direct dsp messaging */
unsigned char slave_address; /**< I2C slave address (not shifted) */
unsigned short rev; /**< full revid of this device */
unsigned char tfa_family; /**< tfa1/tfa2 */
enum featureSupport supportDrc;
enum featureSupport supportFramework;
enum featureSupport support_saam;
int sw_feature_bits[2]; /**< cached copy of sw feature bits */
int hw_feature_bits; /**< cached copy of hw feature bits */
int profile; /**< active profile */
int vstep; /**< active vstep */
unsigned char spkr_count;
unsigned char spkr_select;
unsigned char support_tcoef; /**< legacy tfa9887, will be removed */
enum Tfa98xx_DAI daimap; /**< supported audio interface types */
int mohm[3]; // speaker calibration values in milli ohms -1 is error
struct tfa_device_ops dev_ops;
uint16_t interrupt_enable[3];
uint16_t interrupt_status[3];
int ext_dsp; // respond to external DSP: -1:none, 0:no_dsp, 1:cold,
// 2:warm
int bus; /* TODO fix ext_dsp and bus handling */
int tfadsp_event; /**< enum tfadsp_event_en is for external registry */
int verbose; /**< verbosity level for debug print output */
enum tfa_state state; // last known state or-ed with optional
// state_modifier
struct nxpTfaContainer *cnt; /**< the loaded container file */
struct nxpTfaVolumeStepRegisterInfo *p_regInfo; // remember vstep for
// partial updates
int partial_enable; /**< enable partial updates */
void *data; // typically pointing to Linux driver structure owning this
// device
int convert_dsp32; /**< convert 24 bit DSP messages to 32 bit */
int sync_iv_delay; /**< synchronize I/V delay at cold start */
int is_probus_device; /**< probus device: device without internal DSP */
int needs_reset; // add the reset trigger for SetAlgoParams and SetMBDrc
// commands
struct kmem_cache *cachep; /**< Memory allocator handle */
};
/**
* The tfa_dev_probe is called before accessing any device accessing functions.
* Access to the tfa device register 3 is attempted and will record the
* returned id for further use. If no device responds the function will abort.
* The recorded id will by used by the query functions to fill the remaining
* relevant data fields of the device structure.
* Data such as MTP features that requires device access will only be read when
* explicitly called and the result will be then cached in the struct.
*
* A structure pointer passed to this device needs to refer to existing memory
* space allocated by the caller.
*
* @param slave = I2C slave address of the target device (not shifted)
* @param tfa struct = points to memory that holds the context for this device
* instance
*
* @return
* - 0 if the I2C device responded to a read of register address 3\n
* when the device responds but with an unknown id a warning will be
* printed
* - -1 if no response from the I2C device
*
*/
int tfa_dev_probe(int slave, struct tfa_device *tfa);
/**
* Start this instance at the profile and vstep as provided.
* The profile and vstep will be loaded first in case the current value differs
* from the requested values.
* Note that this call will not change the mute state of the tfa, which means
* that of this instance was called in muted state the caller will have to
* unmute in order to get audio.
*
* @param tfa struct = pointer to context of this device instance
* @param profile the selected profile to run
* @param vstep the selected vstep to use
* @return tfa_error enum
*/
enum tfa_error tfa_dev_start(struct tfa_device *tfa, int profile, int vstep);
/**
* Stop audio for this instance as gracefully as possible.
* Audio will be muted and the PLL will be shutdown together with any other
* device/type specific settings needed to prevent audio artifacts or
* workarounds.
*
* Note that this call will change state of the tfa to mute and powered down.
*
* @param tfa struct = pointer to context of this device instance
* @return tfa_error enum
*/
enum tfa_error tfa_dev_stop(struct tfa_device *tfa);
/**
* This interface allows a device/type independent fine grained control of the
* internal state of the instance.
* Whenever a base state is requested an attempt is made to actively bring the
* device into this state. However this may depend on external conditions beyond
* control of this software layer. Therefore in case the state cannot be set an
* erro will be returned and the current state remains unchanged. The base
* states, lower values below 0x10, are all mutually exclusive, they higher ones
* can also function as a sticky modifier which means for example that operating
* state could be in either muted or unmuted state. Or in case of init_cf it can
* be internal clock (always) or external audio clock. This function is intended
* to be used for device mute/unmute synchronization when called from higher
* layers. Mostly internal calls will use this to control the startup and
* profile transitions in a device/type independent way.
*
* @param tfa struct = pointer to context of this device instance
* @param state struct = desired device state after function return
* @return tfa_error enum
*/
enum tfa_error tfa_dev_set_state(struct tfa_device *tfa, enum tfa_state state,
int is_calibration);
/**
* Retrieve the current state of this instance in an active way.
* The state field in tfa structure will reflect the result unless an error is
* returned.
* Note that the hardware state may change on external events an as such this
* field should be treated as volatile.
*
* @param tfa struct = pointer to context of this device instance
* @return tfa_error enum
*
*/
enum tfa_state tfa_dev_get_state(struct tfa_device *tfa);
/*****************************************************************************/
/*****************************************************************************/
/**
* MTP support functions
*/
enum tfa_mtp {
TFA_MTP_OTC, /**< */
TFA_MTP_EX, /**< */
TFA_MTP_RE25, /**< */
TFA_MTP_RE25_PRIM, /**< */
TFA_MTP_RE25_SEC, /**< */
TFA_MTP_LOCK, /**< */
};
/**
*
*/
int tfa_dev_mtp_get(struct tfa_device *tfa, enum tfa_mtp item);
/**
*
*/
enum tfa_error tfa_dev_mtp_set(struct tfa_device *tfa, enum tfa_mtp item,
int value);
// irq
/* tfa2 interrupt support
* !!! enum tfa9912_irq !!!
*/
/*
* interrupt bit function to clear
*/
int tfa_irq_clear(struct tfa_device *tfa, int bit);
/*
* return state of irq or -1 if illegal bit
*/
int tfa_irq_get(struct tfa_device *tfa, int bit);
/*
* interrupt bit function that operates on the shadow regs in the handle
*/
int tfa_irq_ena(struct tfa_device *tfa, int bit, int state);
/*
* interrupt bit function that sets the polarity
*/
int tfa_irq_set_pol(struct tfa_device *tfa, int bit, int state);
/*
* mask interrupts by disabling them
*/
int tfa_irq_mask(struct tfa_device *tfa);
/*
* unmask interrupts by enabling them again
*/
int tfa_irq_unmask(struct tfa_device *tfa);
// cnt read
// debug?
void tfanone_ops(struct tfa_device_ops *ops);
void tfa9872_ops(struct tfa_device_ops *ops);
void tfa9874_ops(struct tfa_device_ops *ops);
void tfa9912_ops(struct tfa_device_ops *ops);
void tfa9888_ops(struct tfa_device_ops *ops);
void tfa9891_ops(struct tfa_device_ops *ops);
void tfa9897_ops(struct tfa_device_ops *ops);
void tfa9896_ops(struct tfa_device_ops *ops);
void tfa9890_ops(struct tfa_device_ops *ops);
void tfa9895_ops(struct tfa_device_ops *ops);
void tfa9894_ops(struct tfa_device_ops *ops);
#endif /* __TFA_DEVICE_H__ */