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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.
*
*/
#ifndef TFACONTAINER_H_
#define TFACONTAINER_H_
/* static limits */
#define TFACONT_MAXDEVS (4) /* maximum nr of devices */
#define TFACONT_MAXPROFS (16) /* maximum nr of profiles */
#include "tfa98xx_parameters.h"
/**
* Pass the container buffer, initialize and allocate internal memory.
*
* @param cnt pointer to the start of the buffer holding the container file
* @param length of the data in bytes
* @return
* - tfa_error_ok if normal
* - tfa_error_container invalid container data
* - tfa_error_bad_param invalid parameter
*
*/
enum tfa_error tfa_load_cnt(void *cnt, int length);
/**
* Return the descriptor string
* @param cnt pointer to the container struct
* @param dsc pointer to nxpTfa descriptor
* @return descriptor string
*/
char *tfaContGetString(nxpTfaContainer_t *cnt, nxpTfaDescPtr_t *dsc);
/**
* Gets the string for the given command type number
* @param type number representing a command
* @return string of a command
*/
char *tfaContGetCommandString(uint32_t type);
/**
* get the device type from the patch in this devicelist
* - find the patch file for this devidx
* - return the devid from the patch or 0 if not found
* @param cnt pointer to container file
* @param dev_idx device index
* @return descriptor string
*/
int tfa_cnt_get_devid(nxpTfaContainer_t *cnt, int dev_idx);
/**
* Get the slave for the device if it exists.
* @param tfa the device struct pointer
* @param slave_addr the index of the device
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfaContGetSlave(struct tfa_device *tfa, uint8_t *slave_addr);
void tfaContSetSlave(uint8_t slave_addr);
/**
* Get the index for a skave address.
* @param tfa the device struct pointer
* @return the device index
*/
int tfa_cont_get_idx(struct tfa_device *tfa);
/**
* Write reg and bitfield items in the devicelist to the target.
* @param tfa the device struct pointer
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfaContWriteRegsDev(struct tfa_device *tfa);
/**
* Write reg and bitfield items in the profilelist to the target.
* @param tfa the device struct pointer
* @param prof_idx the profile index
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfaContWriteRegsProf(struct tfa_device *tfa, int prof_idx);
/**
* Write a patchfile in the devicelist to the target.
* @param tfa the device struct pointer
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfaContWritePatch(struct tfa_device *tfa);
/**
* Write all param files in the devicelist to the target.
* @param tfa the device struct pointer
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfaContWriteFiles(struct tfa_device *tfa);
/**
* Get sample rate from passed profile index
* @param tfa the device struct pointer
* @param prof_idx the index of the profile
* @return sample rate value
*/
unsigned int tfa98xx_get_profile_sr(struct tfa_device *tfa, unsigned int prof_idx);
/**
* Get the device name string
* @param cnt the pointer to the container struct
* @param dev_idx the index of the device
* @return device name string or error string if not found
*/
char *tfaContDeviceName(nxpTfaContainer_t *cnt, int dev_idx);
/**
* Get the application name from the container file application field
* @param tfa the device struct pointer
* @param name the input stringbuffer with size: sizeof(application field)+1
* @return actual string length
*/
int tfa_cnt_get_app_name(struct tfa_device *tfa, char *name);
/**
* Get profile index of the calibration profile
* @param tfa the device struct pointer
* @return profile index, -2 if no calibration profile is found or -1 on error
*/
int tfaContGetCalProfile(struct tfa_device *tfa);
/**
* Is the profile a tap profile ?
* @param tfa the device struct pointer
* @param prof_idx the index of the profile
* @return 1 if the profile is a tap profile or 0 if not
*/
int tfaContIsTapProfile(struct tfa_device *tfa, int prof_idx);
/**
* Get the name of the profile at certain index for a device in the container file
* @param cnt the pointer to the container struct
* @param dev_idx the index of the device
* @param prof_idx the index of the profile
* @return profile name string or error string if not found
*/
char *tfaContProfileName(nxpTfaContainer_t *cnt, int dev_idx, int prof_idx);
/**
* Process all items in the profilelist
* NOTE an error return during processing will leave the device muted
* @param tfa the device struct pointer
* @param prof_idx index of the profile
* @param vstep_idx index of the vstep
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfaContWriteProfile(struct tfa_device *tfa, int prof_idx, int vstep_idx);
/**
* Specify the speaker configurations (cmd id) (Left, right, both, none)
* @param dev_idx index of the device
* @param configuration name string of the configuration
*/
void tfa98xx_set_spkr_select(int dev_idx, char *configuration);
enum Tfa98xx_Error tfa_cont_write_filterbank(struct tfa_device *tfa, nxpTfaFilter_t *filter);
/**
* Write all param files in the profilelist to the target
* this is used during startup when maybe ACS is set
* @param tfa the device struct pointer
* @param prof_idx the index of the profile
* @param vstep_idx the index of the vstep
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfaContWriteFilesProf(struct tfa_device *tfa, int prof_idx, int vstep_idx);
enum Tfa98xx_Error tfaContWriteFilesVstep(struct tfa_device *tfa, int prof_idx, int vstep_idx);
enum Tfa98xx_Error tfaContWriteDrcFile(struct tfa_device *tfa, int size, uint8_t data[]);
/**
* Get the device list dsc from the tfaContainer
* @param cont pointer to the tfaContainer
* @param dev_idx the index of the device
* @return device list pointer
*/
nxpTfaDeviceList_t *tfaContGetDevList(nxpTfaContainer_t *cont, int dev_idx);
/**
* Get the Nth profile for the Nth device
* @param cont pointer to the tfaContainer
* @param dev_idx the index of the device
* @param prof_idx the index of the profile
* @return profile list pointer
*/
nxpTfaProfileList_t *tfaContGetDevProfList(nxpTfaContainer_t *cont, int dev_idx, int prof_idx);
/**
* Get the number of profiles for device from contaienr
* @param cont pointer to the tfaContainer
* @param dev_idx the index of the device
* @return device list pointer
*/
int tfa_cnt_get_dev_nprof(struct tfa_device *tfa);
/**
* Get the Nth livedata for the Nth device
* @param cont pointer to the tfaContainer
* @param dev_idx the index of the device
* @param livedata_idx the index of the livedata
* @return livedata list pointer
*/
nxpTfaLiveDataList_t *tfaContGetDevLiveDataList(nxpTfaContainer_t *cont, int dev_idx, int livedata_idx);
/**
* Check CRC for container
* @param cont pointer to the tfaContainer
* @return error value 0 on error
*/
int tfaContCrcCheckContainer(nxpTfaContainer_t *cont);
/**
* Get the device list pointer
* @param cnt pointer to the container struct
* @param dev_idx the index of the device
* @return pointer to device list
*/
nxpTfaDeviceList_t *tfaContDevice(nxpTfaContainer_t *cnt, int dev_idx);
/**
* Return the pointer to the first profile in a list from the tfaContainer
* @param cont pointer to the tfaContainer
* @return pointer to first profile in profile list
*/
nxpTfaProfileList_t *tfaContGet1stProfList(nxpTfaContainer_t *cont);
/**
* Return the pointer to the next profile in a list
* @param prof is the pointer to the profile list
* @return profile list pointer
*/
nxpTfaProfileList_t *tfaContNextProfile(nxpTfaProfileList_t *prof);
/**
* Return the pointer to the first livedata in a list from the tfaContainer
* @param cont pointer to the tfaContainer
* @return pointer to first livedata in profile list
*/
nxpTfaLiveDataList_t *tfaContGet1stLiveDataList(nxpTfaContainer_t *cont);
/**
* Return the pointer to the next livedata in a list
* @param livedata_idx is the pointer to the livedata list
* @return livedata list pointer
*/
nxpTfaLiveDataList_t *tfaContNextLiveData(nxpTfaLiveDataList_t *livedata_idx);
/**
* Write a bit field
* @param tfa the device struct pointer
* @param bf bitfield to write
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfaRunWriteBitfield(struct tfa_device *tfa, nxpTfaBitfield_t bf);
/**
* Write a parameter file to the device
* @param tfa the device struct pointer
* @param file filedescriptor pointer
* @param vstep_idx index to vstep
* @param vstep_msg_idx index to vstep message
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfaContWriteFile(struct tfa_device *tfa, nxpTfaFileDsc_t *file, int vstep_idx, int vstep_msg_idx);
/**
* Get the max volume step associated with Nth profile for the Nth device
* @param tfa the device struct pointer
* @param prof_idx profile index
* @return the number of vsteps
*/
int tfacont_get_max_vstep(struct tfa_device *tfa, int prof_idx);
/**
* Get the file contents associated with the device or profile
* Search within the device tree, if not found, search within the profile
* tree. There can only be one type of file within profile or device.
* @param tfa the device struct pointer
* @param prof_idx I2C profile index in the device
* @param type file type
* @return 0 NULL if file type is not found
* @return 1 file contents
*/
nxpTfaFileDsc_t *tfacont_getfiledata(struct tfa_device *tfa, int prof_idx, enum nxpTfaHeaderType type);
/**
* Dump the contents of the file header
* @param hdr pointer to file header data
*/
void tfaContShowHeader(nxpTfaHeader_t *hdr);
/**
* Read a bit field
* @param tfa the device struct pointer
* @param bf bitfield to read out
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfaRunReadBitfield(struct tfa_device *tfa, nxpTfaBitfield_t *bf);
/**
* Get hw feature bits from container file
* @param tfa the device struct pointer
* @param hw_feature_register pointer to where hw features are stored
*/
void get_hw_features_from_cnt(struct tfa_device *tfa, int *hw_feature_register);
/**
* Get sw feature bits from container file
* @param tfa the device struct pointer
* @param sw_feature_register pointer to where sw features are stored
*/
void get_sw_features_from_cnt(struct tfa_device *tfa, int sw_feature_register[2]);
/**
* Factory trimming for the Boost converter
* check if there is a correction needed
* @param tfa the device struct pointer
*/
enum Tfa98xx_Error tfa98xx_factory_trimmer(struct tfa_device *tfa);
/**
* Search for filters settings and if found then write them to the device
* @param tfa the device struct pointer
* @param prof_idx profile to look in
* @return Tfa98xx_Error
*/
enum Tfa98xx_Error tfa_set_filters(struct tfa_device *tfa, int prof_idx);
/**
* Get the firmware version from the patch in the container file
* @param tfa the device struct pointer
* @return firmware version
*/
int tfa_cnt_get_patch_version(struct tfa_device *tfa);
int tfa_tib_dsp_msgmulti(struct tfa_device *tfa, int length, const char *buffer);
#endif /* TFACONTAINER_H_ */