ST Expansion SW Team
RFAL library for the STMicroelectronics X-NUCLEO-NFC05A1
rfal_analogConfig.cpp
- Committer:
- DiegoOstuni
- Date:
- 2019-11-14
- Revision:
- 0:75fc82583a41
File content as of revision 0:75fc82583a41:
/******************************************************************************
* @attention
*
* <h2><center>© COPYRIGHT 2016 STMicroelectronics</center></h2>
*
* Licensed under ST MYLIBERTY SOFTWARE LICENSE AGREEMENT (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/myliberty
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied,
* AND SPECIFICALLY DISCLAIMING THE IMPLIED WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
/*
* PROJECT: ST25R391x firmware
* $Revision: $
* LANGUAGE: ISO C99
*/
/*! \file rfal_analogConfig.c
*
* \author bkam
*
* \brief Funcitons to manage and set analog settings.
*
*/
/*
******************************************************************************
* INCLUDES
******************************************************************************
*/
#include "rfal_analogConfigTbl.h"
#include "rfal_AnalogConfig.h"
#include "rfal_chip.h"
#include "st_errno.h"
#include "platform1.h"
#include "utils.h"
/*
******************************************************************************
* DEFINES
******************************************************************************
*/
#define RFAL_TEST_REG 0x0080 /*!< Test Register indicator */
/*
******************************************************************************
* MACROS
******************************************************************************
*/
/*
******************************************************************************
* LOCAL DATA TYPES
******************************************************************************
*/
#if RFAL_FEATURE_DYNAMIC_ANALOG_CONFIG
static uint8_t gRfalAnalogConfig[RFAL_ANALOG_CONFIG_TBL_SIZE]; /*!< Analog Configuration Settings List */
#endif /* RFAL_FEATURE_DYNAMIC_ANALOG_CONFIG */
/*! Struct for Analog Config Look Up Table Update */
typedef struct {
uint8_t *currentAnalogConfigTbl; /*!< Reference to start of current Analog Configuration */
uint16_t configTblSize; /*!< Total size of Analog Configuration */
uint8_t ready; /*!< Indicate if Look Up Table is complete and ready for use */
} rfalAnalogConfigMgmt;
static rfalAnalogConfigMgmt gRfalAnalogConfigMgmt; /*!< Analog Configuration LUT management */
/*
******************************************************************************
* LOCAL TABLES
******************************************************************************
*/
/*
******************************************************************************
* LOCAL FUNCTION PROTOTYPES
******************************************************************************
*/
static rfalAnalogConfigNum rfalAnalogConfigSearch( rfalAnalogConfigId configId, uint16_t *configOffset );
#if RFAL_FEATURE_DYNAMIC_ANALOG_CONFIG
static void rfalAnalogConfigPtrUpdate( uint8_t* analogConfigTbl );
#endif /* RFAL_FEATURE_DYNAMIC_ANALOG_CONFIG */
/*
******************************************************************************
* GLOBAL VARIABLE DEFINITIONS
******************************************************************************
*/
/*
******************************************************************************
* GLOBAL FUNCTIONS
******************************************************************************
*/
void rfalAnalogConfigInitialize( void )
{
/* Use default Analog configuration settings in Flash by default. */
gRfalAnalogConfigMgmt.currentAnalogConfigTbl = (uint8_t *)rfalAnalogConfigDefaultSettings;
gRfalAnalogConfigMgmt.configTblSize = sizeof(rfalAnalogConfigDefaultSettings);
gRfalAnalogConfigMgmt.ready = true;
} /* rfalAnalogConfigInitialize() */
bool rfalAnalogConfigIsReady( void )
{
return gRfalAnalogConfigMgmt.ready;
}
ReturnCode rfalAnalogConfigListWriteRaw( const uint8_t *configTbl, uint16_t configTblSize )
{
#if RFAL_FEATURE_DYNAMIC_ANALOG_CONFIG
/* Check if the Configuration Table exceed the Table size */
if ( configTblSize >= RFAL_ANALOG_CONFIG_TBL_SIZE )
{
rfalAnalogConfigInitialize(); /* Revert to default Analog Configuration */
return ERR_NOMEM;
}
/* Check for invalid parameters */
if( configTbl == NULL )
{
return ERR_PARAM;
}
/* NOTE: Function does not check for the validity of the Table contents (conf IDs, conf sets, register address) */
ST_MEMCPY( gRfalAnalogConfig, configTbl, configTblSize );
/* Update the total size of configuration settings */
gRfalAnalogConfigMgmt.configTblSize = configTblSize;
rfalAnalogConfigPtrUpdate(gRfalAnalogConfig);
return ERR_NONE;
#else
/* If Analog Configuration Update is to be disabled */
NO_WARNING(configTbl);
NO_WARNING(configTblSize);
return ERR_REQUEST;
#endif /* RFAL_FEATURE_DYNAMIC_ANALOG_CONFIG */
}
ReturnCode rfalAnalogConfigListWrite( uint8_t more, rfalAnalogConfig *config )
{
#if RFAL_FEATURE_DYNAMIC_ANALOG_CONFIG
rfalAnalogConfigId configId;
rfalAnalogConfigNum numConfig;
uint8_t configSize;
if (true == gRfalAnalogConfigMgmt.ready)
{ /* First Update to the Configuration list. */
gRfalAnalogConfigMgmt.ready = false; /* invalidate the config List */
gRfalAnalogConfigMgmt.configTblSize = 0; /* Clear the config List */
}
configId = GETU16(config->id);
/* Check validity of the Configuration ID. */
if ( (RFAL_ANALOG_CONFIG_TECH_RFU <= RFAL_ANALOG_CONFIG_ID_GET_TECH(configId))
||((RFAL_ANALOG_CONFIG_BITRATE_6780 < RFAL_ANALOG_CONFIG_ID_GET_BITRATE(configId)) && (RFAL_ANALOG_CONFIG_BITRATE_1OF4 > RFAL_ANALOG_CONFIG_ID_GET_BITRATE(configId)))
||(RFAL_ANALOG_CONFIG_BITRATE_1OF256 < RFAL_ANALOG_CONFIG_ID_GET_BITRATE(configId))
)
{
rfalAnalogConfigInitialize(); /* Revert to default Analog Configuration */
return ERR_PARAM;
}
numConfig = config->num;
configSize = (sizeof(rfalAnalogConfigId) + sizeof(rfalAnalogConfigNum) + (numConfig * sizeof(rfalAnalogConfigRegAddrMaskVal)));
/* Check if the Configuration Set exceed the Table size. */
if ( RFAL_ANALOG_CONFIG_TBL_SIZE <= (gRfalAnalogConfigMgmt.configTblSize + configSize) )
{
rfalAnalogConfigInitialize(); /* Revert to default Analog Configuration */
return ERR_NOMEM;
}
/* NOTE: Function does not check for the validity of the Register Address. */
ST_MEMCPY(&gRfalAnalogConfig[gRfalAnalogConfigMgmt.configTblSize], config, configSize);
/* Increment the total size of configuration settings. */
gRfalAnalogConfigMgmt.configTblSize += configSize;
/* Check if it is the last Analog Configuration to load. */
if (RFAL_ANALOG_CONFIG_UPDATE_LAST == more)
{ /* Update the Analog Configuration to the new settings. */
rfalAnalogConfigPtrUpdate(gRfalAnalogConfig);
}
return ERR_NONE;
#else
/* If Analog Configuration Update is to be disabled */
NO_WARNING(config);
NO_WARNING(more);
return ERR_DISABLED;
#endif /* RFAL_FEATURE_DYNAMIC_ANALOG_CONFIG */
} /* rfalAnalogConfigListUpdate() */
ReturnCode rfalAnalogConfigListReadRaw( uint8_t *tblBuf, uint16_t tblBufLen, uint16_t *configTblSize )
{
/* Check if the the current table will fit into the given buffer */
if( tblBufLen < gRfalAnalogConfigMgmt.configTblSize )
{
return ERR_NOMEM;
}
/* Check for invalid parameters */
if( configTblSize == NULL )
{
return ERR_PARAM;
}
/* Copy the whole Table to the given buffer */
ST_MEMCPY( tblBuf, gRfalAnalogConfigMgmt.currentAnalogConfigTbl, gRfalAnalogConfigMgmt.configTblSize );
*configTblSize = gRfalAnalogConfigMgmt.configTblSize;
return ERR_NONE;
}
ReturnCode rfalAnalogConfigListRead( rfalAnalogConfigOffset *configOffset, uint8_t *more, rfalAnalogConfig *config, rfalAnalogConfigNum numConfig )
{
uint8_t configSize;
rfalAnalogConfigOffset offset = *configOffset;
/* Check if the number of register-mask-value settings for the respective Configuration ID will fit into the buffer passed in. */
if (gRfalAnalogConfigMgmt.currentAnalogConfigTbl[offset + sizeof(rfalAnalogConfigId)] > numConfig)
{
return ERR_NOMEM;
}
/* Get the number of Configuration set */
numConfig = gRfalAnalogConfigMgmt.currentAnalogConfigTbl[offset + sizeof(rfalAnalogConfigId)];
/* Pass Configuration Register-Mask-Value sets */
configSize = (sizeof(rfalAnalogConfigId) + sizeof(rfalAnalogConfigNum) + (numConfig * sizeof(rfalAnalogConfigRegAddrMaskVal)));
ST_MEMCPY( config
, &gRfalAnalogConfigMgmt.currentAnalogConfigTbl[offset]
, configSize
);
*configOffset = offset + configSize;
/* Check if it is the last Analog Configuration in the Table.*/
*more = (*configOffset >= gRfalAnalogConfigMgmt.configTblSize) ? RFAL_ANALOG_CONFIG_UPDATE_LAST
: RFAL_ANALOG_CONFIG_UPDATE_MORE;
return ERR_NONE;
} /* rfalAnalogConfigListRead() */
ReturnCode rfalSetAnalogConfig( rfalAnalogConfigId configId, SPI* mspiChannel, ST25R3911* mST25, DigitalOut* gpio_cs, InterruptIn* IRQ, DigitalOut* fieldLED_01, DigitalOut* fieldLED_02, DigitalOut* fieldLED_03, DigitalOut* fieldLED_04, DigitalOut* fieldLED_05, DigitalOut* fieldLED_06 )
{
rfalAnalogConfigOffset configOffset = 0;
rfalAnalogConfigNum numConfigSet;
rfalAnalogConfigRegAddrMaskVal *configTbl;
ReturnCode retCode = ERR_NONE;
rfalAnalogConfigNum i;
if (true != gRfalAnalogConfigMgmt.ready)
{
return ERR_REQUEST;
}
/* Search LUT for the specific Configuration ID. */
while (RFAL_ANALOG_CONFIG_LUT_NOT_FOUND != (numConfigSet = rfalAnalogConfigSearch(configId, &configOffset)))
{
configTbl = (rfalAnalogConfigRegAddrMaskVal *)( (uint32_t)gRfalAnalogConfigMgmt.currentAnalogConfigTbl + (uint32_t)configOffset);
/* Increment the offset to the next index to search from. */
configOffset += (numConfigSet * sizeof(rfalAnalogConfigRegAddrMaskVal));
if ((gRfalAnalogConfigMgmt.configTblSize + 1) < configOffset)
{ /* Error check make sure that the we do not access outside the configuration Table Size */
return ERR_NOMEM;
}
for ( i = 0; i < numConfigSet; i++)
{
if( GETU16(configTbl[i].addr) & RFAL_TEST_REG )
{
EXIT_ON_ERR(retCode, rfalChipChangeTestRegBits( (GETU16(configTbl[i].addr) & ~RFAL_TEST_REG), configTbl[i].mask, configTbl[i].val, mspiChannel, mST25, gpio_cs, IRQ, fieldLED_01, fieldLED_02, fieldLED_03, fieldLED_04, fieldLED_05, fieldLED_06 ) );
}
else
{
EXIT_ON_ERR(retCode, rfalChipChangeRegBits( GETU16(configTbl[i].addr), configTbl[i].mask, configTbl[i].val, mspiChannel, mST25, gpio_cs, IRQ, fieldLED_01, fieldLED_02, fieldLED_03, fieldLED_04, fieldLED_05, fieldLED_06 ) );
}
}
} /* while(found Analog Config Id) */
return retCode;
} /* rfalSetAnalogConfig() */
/*
******************************************************************************
* LOCAL FUNCTIONS
******************************************************************************
*/
/*!
*****************************************************************************
* \brief Update the link to Analog Configuration LUT
*
* Update the link to the Analog Configuration LUT for the subsequent search
* of Analog Settings.
*
* \param[in] analogConfigTbl: reference to the start of the new Analog Configuration Table
*
*****************************************************************************
*/
#if RFAL_FEATURE_DYNAMIC_ANALOG_CONFIG
static void rfalAnalogConfigPtrUpdate( uint8_t* analogConfigTbl )
{
gRfalAnalogConfigMgmt.currentAnalogConfigTbl = analogConfigTbl;
gRfalAnalogConfigMgmt.ready = true;
} /* rfalAnalogConfigPtrUpdate() */
#endif /* RFAL_FEATURE_DYNAMIC_ANALOG_CONFIG */
/*!
*****************************************************************************
* \brief Search the Analog Configuration LUT for a specific Configuration ID.
*
* Search the Analog Configuration LUT for the Configuration ID.
*
* \param[in] configId: Configuration ID to search for.
* \param[in] configOffset: Configuration Offset in Table
*
* \return number of Configuration Sets
* \return #RFAL_ANALOG_CONFIG_LUT_NOT_FOUND in case Configuration ID is not found.
*****************************************************************************
*/
static rfalAnalogConfigNum rfalAnalogConfigSearch( rfalAnalogConfigId configId, uint16_t *configOffset )
{
rfalAnalogConfigId foundConfigId;
rfalAnalogConfigId configIdMaskVal;
uint8_t *configTbl;
uint8_t *currentConfigTbl;
uint16_t i;
currentConfigTbl = gRfalAnalogConfigMgmt.currentAnalogConfigTbl;
configIdMaskVal = ((RFAL_ANALOG_CONFIG_POLL_LISTEN_MODE_MASK | RFAL_ANALOG_CONFIG_BITRATE_MASK)
|(RFAL_ANALOG_CONFIG_TECH_CHIP == (RFAL_ANALOG_CONFIG_ID_GET_TECH(configId)) ? RFAL_ANALOG_CONFIG_TECH_MASK : configId)
|(RFAL_ANALOG_CONFIG_NO_DIRECTION == (RFAL_ANALOG_CONFIG_ID_GET_DIRECTION(configId)) ? RFAL_ANALOG_CONFIG_DIRECTION_MASK : configId)
);
for ( i = *configOffset; i < gRfalAnalogConfigMgmt.configTblSize; )
{
configTbl = ¤tConfigTbl[i];
foundConfigId = GETU16(configTbl);
if (configId == (foundConfigId & configIdMaskVal))
{
*configOffset = (i + sizeof(rfalAnalogConfigId) + sizeof(rfalAnalogConfigNum));
return configTbl[sizeof(rfalAnalogConfigId)];
}
/* If Config Id does not match, increment to next Configuration Id */
i += ( sizeof(rfalAnalogConfigId) + sizeof(rfalAnalogConfigNum)
+ (configTbl[sizeof(rfalAnalogConfigId)] * sizeof(rfalAnalogConfigRegAddrMaskVal) )
);
}
return RFAL_ANALOG_CONFIG_LUT_NOT_FOUND;
} /* rfalAnalogConfigSearch() */