xmclib/XMCLib/inc/xmc1_flash.h
2024-10-17 17:09:59 +02:00

415 lines
18 KiB
C

/**
* @file xmc1_flash.h
* @date 2015-06-20
*
* @cond
*********************************************************************************************************************
* XMClib v2.1.16 - XMC Peripheral Driver Library
*
* Copyright (c) 2015-2017, Infineon Technologies AG
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification,are permitted provided that the
* following conditions are met:
*
* Redistributions of source code must retain the above copyright notice, this list of conditions and the following
* disclaimer.
*
* 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.
*
* Neither the name of the copyright holders 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 HOLDER 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.
*
* To improve the quality of the software, users are encouraged to share modifications, enhancements or bug fixes with
* Infineon Technologies AG dave@infineon.com).
*********************************************************************************************************************
*
* Change History
* --------------
*
* 2014-12-10:
* - Initial <br>
* 2015-02-20:
* - Updated for Documentation related changes<br>
* 2015-06-20:
* - Removed version macros and declaration of GetDriverVersion API
*
* @endcond
*
*/
#ifndef XMC1_FLASH_H
#define XMC1_FLASH_H
/*********************************************************************************************************************
* HEADER FILES
********************************************************************************************************************/
#include "xmc_common.h"
#if UC_FAMILY == XMC1
#include <XMC1000_RomFunctionTable.h>
/**
* @addtogroup XMClib XMC Peripheral Library
* @{
*/
/**
* @addtogroup FLASH
* @{
*/
/*********************************************************************************************************************
* MACROS
********************************************************************************************************************/
#define XMC_FLASH_PAGES_PER_SECTOR (16U) /**< Number of pages in a sector. A page consists of 16 blocks.*/
#define XMC_FLASH_BLOCKS_PER_PAGE (16U) /**< Number of blocks in a page. A block consists of 4 words(16 bytes).*/
#define XMC_FLASH_BYTES_PER_SECTOR (4096U) /**< Number of bytes in a sector. (16 pages * 256 bytes = 4096 bytes)*/
#define XMC_FLASH_BYTES_PER_PAGE (256U) /**< Number of bytes in a page. (16 blocks * 16 bytes = 256 bytes)*/
#define XMC_FLASH_BYTES_PER_BLOCK (16U) /**< Number of bytes in a block. (128 bits = 16 bytes)*/
#define XMC_FLASH_WORDS_PER_SECTOR (1024U) /**< Number of words in a sector. (16 pages * 64 words = 1024 words)*/
#define XMC_FLASH_WORDS_PER_PAGE (64U) /**< Number of words in a page. (16 blocks * 4 words = 64 words) */
#define XMC_FLASH_WORDS_PER_BLOCK (4U) /**< Number of words in a block. (128 bit / 32 bit = 4 words) */
#define FLASH_BLOCK_ADDR_MASK (15U) /* Bitwise AND with block address is done to check the address alignment.
Applicable to XMC_FLASH_WriteBlocks() and XMC_FLASH_VerifyBlocks()
APIs.*/
#define FLASH_PAGE_ADDR_MASK (255U) /* Bitwise AND with page address is done to check the address alignment.
Applicable to XMC_FLASH_ErasePages() API.*/
#define FLASH_SECTOR_ADDR_MASK (4095U) /* Bitwise AND with sector address is done to check the address alignment.
Applicable to XMC_FLASH_EraseSector API.*/
#define XMC_FLASH_BASE (0x10001000U) /**< Starting address of flash for XMC1 family of microcontrollers*/
/*********************************************************************************************************************
* ENUMS
********************************************************************************************************************/
/**
* Defines the status of flash, to verify the flash related API calls. Use type \a XMC_FLASH_STATUS_t for this enum.
* The members defines the respective masked status bits of \a NVMSTATUS register.
*/
typedef enum XMC_FLASH_STATUS
{
XMC_FLASH_STATUS_OK = 0U, /**< Flash related operation was successfully
completed*/
XMC_FLASH_STATUS_BUSY = NVM_NVMSTATUS_BUSY_Msk , /**< Cannot execute the flash request because
another operation is in progress*/
XMC_FLASH_STATUS_SLEEP_MODE = NVM_NVMSTATUS_SLEEP_Msk , /**< Flash is in sleep mode*/
XMC_FLASH_STATUS_VERIFY_ERROR = NVM_NVMSTATUS_VERR_Msk , /**< Flash reported a verification failure*/
XMC_FLASH_STATUS_ECC1_READ_ERROR = NVM_NVMSTATUS_ECC1READ_Msk, /**< Flash reports a single bit failure, and it
is automatically corrected.*/
XMC_FLASH_STATUS_ECC2_READ_ERROR = NVM_NVMSTATUS_ECC2READ_Msk, /**< Flash reported at least two bit failure*/
XMC_FLASH_STATUS_WRITE_PROTOCOL_ERROR = NVM_NVMSTATUS_WRPERR_Msk , /**< Write/Verify operation on a block is
failed due to protocol violations or write
protected sectors*/
} XMC_FLASH_STATUS_t;
/**
* Defines NVM ready interrupt event. Use type \a XMC_FLASH_EVENT_t for this enum.
*/
typedef enum XMC_FLASH_EVENT
{
XMC_FLASH_EVENT_READY = NVM_NVMCONF_INT_ON_Msk /**< Generates the NVM ready interrupts on flash sequence completion*/
} XMC_FLASH_EVENT_t;
/**
* Defines hard read levels for strict data verification. Use type \a XMC_FLASH_HARDREAD_LEVEL_t for this enum.
* These \a hardread levels provide some margin to ensure that the data is really programmed with suitably distinct
* levels for written and erased bits.
*/
typedef enum XMC_FLASH_HARDREAD_LEVEL
{
XMC_FLASH_HARDREAD_LEVEL_NORMAL = (uint16_t)0x0, /**< No \a hardread level verification enabled (Normal read)*/
XMC_FLASH_HARDREAD_LEVEL_WRITTEN = (uint16_t)0x1, /**< Enables strict margin compare for written data cells*/
XMC_FLASH_HARDREAD_LEVEL_ERASED = (uint16_t)0x2 /**< Enables strict margin compare for erased data cells*/
} XMC_FLASH_HARDREAD_LEVEL_t;
/**********************************************************************************************************************
* API PROTOTYPES
*********************************************************************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
/**
*
* @param address Pointer to the starting address of the flash page from where the erase starts
* @param num_pages Number of pages to be erased.<BR> Range: [1 to (flash size / 256)]
*
* @return None
*
* \par<b>Description:</b><BR>
* Erases a set of flash memory pages.<BR><BR>
* Erase starts from the specified \a address.
* It erases a maximum number of \a num_pages flash pages. The maximum erasable pages are limited to
* microcontroller flash size. It sets NVMPROG register to continuous page erase mode before erase and resets
* it action back to normal state on completion. Call XMC_FLASH_GetStatus() after calling this API to verify the erase
* operation.\n
*
* \par<b>Note:</b><BR>
* Flash will be in busy state during erase operation. Hence no operations on flash are allowed until it completes.\n
*
* \par<b>Related APIs:</b><BR>
* XMC_FLASH_EraseSector(), XMC_FLASH_ErasePage() \n\n\n
*
* \par<b>Related APIs:</b><BR>
* None
*
*/
void XMC_FLASH_ErasePages(uint32_t *address, uint32_t num_pages);
/**
*
* @param address Pointer to the starting address of flash block from where the write starts.
* @param data Pointer to the source address where targeted data blocks are located.
* @param num_blocks Maximum number of flash block writes needed.<BR> Range: [1 to (flash size / 16)]
* @param verify If \a true, hardware verification after block write is enabled else disabled.
*
* @return None
*
* \par<b>Description:</b><br>
* Writes a set of data blocks into the flash.\n\n Minimum possible writable area is 16 byte block. It sets the NVMPROG
* register to continuous block write mode before write and resets it action back to normal state on completion.
* Call XMC_FLASH_GetStatus() API after calling this API to verify the erase operation.
*
* \par<b>Note</b><br>
* Flash will be busy state during write is ongoing, hence no operations allowed until it completes.
*
* \par<b>Related APIs:</b><BR>
* None
*
*/
void XMC_FLASH_WriteBlocks(uint32_t *address, const uint32_t *data, uint32_t num_blocks, bool verify);
/**
*
* @param address Pointer to the starting address of flash block from where the verification starts.
* @param data Pointer to the source address where targeted data blocks are located.
* @param num_blocks Maximum number of flash blocks writes needed.<BR> Range: [1 to (flash size / 16)]
*
* @return None
*
* \par<b>Description:</b><br>
* Performs verification of written data blocks.\n\n After calling XMC_FLASH_WriteBlocks() API, calling this API will
* verify the correctness of written blocks. It sets the \a NVMPROG register into continuous block write mode before
* write and resets it action back to normal state on completion. It reads back the written data blocks from the flash
* and verify the values against the internal buffer values. Calling XMC_FLASH_GetStatus() API after calling this API
* validates the result of verification.
*
* \par<b>Related APIs:</b><BR>
* None
*
*/
void XMC_FLASH_VerifyBlocks(uint32_t *address, const uint32_t *data, uint32_t num_blocks);
/**
*
* @param address Pointer to the starting address of flash block from where the read starts.
* @param data Pointer to the destination address, where the read data blocks to be stored.
* @param num_blocks Number of blocks to be read.<BR> Range: [1 to (flash size / 16)]
*
* @return None
*
* \par<b>Description:</b><br>
* Reads multiple blocks from flash in one shot, starting from the \a address specified.\n\n The read blocks are stored
* into the locations starting from the \a data address. Calling XMC_FLASH_GetStatus() API after calling this API
* verifies the read operation.
*
* \par<b>Related APIs:</b><BR>
* None
*
*/
void XMC_FLASH_ReadBlocks(uint32_t *address, uint32_t *data, uint32_t num_blocks);
/**
*
* @param address Pointer to the flash word address from where the read is expected
*
* @return <BR>
* a 32bit data word stored in the specified \a address.
*
* \par<b>Description:</b><br>
* Reads a single word from the specified flash\a address.\n\n Calling XMC_FLASH_GetStatus() API after calling this
* API returns the read status.
*
* \par<b>Related APIs:</b><BR>
* XMC_FLASH_ReadBlocks()
*
*/
__STATIC_INLINE uint32_t XMC_FLASH_ReadWord(const uint32_t *const address)
{
return *address;
}
/**
*
* @param address Pointer to the starting address of the page to be erased
*
* @return None
*
* \par<b>Description:</b><br>
* Erases a single flash page associated to the specified \a address.\n\n XMC1000 Flash can be erased with granularity
* of one page = 16 blocks of 16 Bytes = 256 Bytes using this API. It internally calls the Flash Firmware routine
* \a XMC1000_NvmErasePage(unsigned long pageAddr) to perform the erase operation. Refer XMC1000 reference manual
* for more details on flash firmware routines (Section 25.3). Call XMC_FLASH_GetStatus() API after calling this API,
* to verify the erase operation.\n
*
* \par<b>Related APIs:</b><BR>
* XMC_FLASH_ErasePages() \n\n\n
*/
void XMC_FLASH_ErasePage(uint32_t *address);
/**
*
* @param address Pointer to the starting address of flash page from where the programming starts.
* @param data Pointer to the source address where targeted data blocks are located.
*
* @return None
*
* \par<b>Description:</b><br>
* Erases, programs and verifies a single flash page starting from the \a address specified.\n\n XMC1000 Flash can be
* programmed with granularity of one page = 16 blocks of 16 Bytes = 256 Bytes using this API. It internally calls the
* Flash Firmware routine \a XMC1000_NvmProgVerify(unsigned long pageAddr) to perform the programming. Refer XMC1000
* reference manual of for more details on flash firmware routines (Section 25.3). Call XMC_FLASH_GetStatus() API after
* calling this API, to verify the erase operation.
*
* \par<b>Related APIs:</b><BR>
* None
*
*/
void XMC_FLASH_ProgramVerifyPage(uint32_t *address, const uint32_t *data);
/**
*
* @param None
*
* @return None
*
* \par<b>Description:</b><br>
* Enables the flash to enter into sleep mode by resetting the NVMCONF register NVM_ON bit.\n\n Flash can wake up from
* sleep mode on any flash operation completion ready event trigger. To disable the sleep mode any time during execution
* call the API XMC_FLASH_ExitSleepMode().\n
*
* \par<b>Related APIs:</b><BR>
* XMC_FLASH_ExitSleepMode()\n\n\n
*
*/
__STATIC_INLINE void XMC_FLASH_EnterSleepMode(void)
{
NVM->NVMCONF &= (uint16_t)(~(uint32_t)NVM_NVMCONF_NVM_ON_Msk);
}
/**
*
* @param None
*
* @return None
*
* \par<b>Description:</b><br>
* Enables the flash to exit from sleep mode by setting the NVMCONF register NVM_ON bit.\n\n Calling the API
* XMC_FLASH_EnterSleepMode() allows the flash to renter into sleep mode.\n
*
* \par<b>Related APIs:</b><BR>
* XMC_FLASH_EnterSleepMode()\n\n\n
*
*/
__STATIC_INLINE void XMC_FLASH_ExitSleepMode(void)
{
NVM->NVMCONF |= (uint16_t)NVM_NVMCONF_NVM_ON_Msk;
}
/**
*
* @param sector Flash sector number for which the address extraction is needed<BR> Range: [0 to 51]
*
* @return uint32_t Starting address of the sector specified<BR> Range: [0x10001000 to 0x10032000]
*
* \par<b>Description:</b><br>
* Finds the starting address of the specified \a sector number.\n\n
*
* \par<b>Related APIs:</b><BR>
* None
*
*/
__STATIC_INLINE uint32_t XMC_FLASH_GetSectorAddress(uint32_t sector)
{
return (XMC_FLASH_BASE + (XMC_FLASH_BYTES_PER_SECTOR * sector));
}
/**
*
* @param num_sectors Number of sectors to be protected<BR> Range: [0 to 51]
*
* @return None
*
* \par<b>Description:</b><br>
* Protect the flash sectors starting from 0th sector to the specified \a num_sectors.\n\n It sets the NVMCONF register
* SECPROT field with the value specified in \a num_sectors. Changing the protection limit can be achieved by calling
* this API at runtime with a different value of \a num_sectors.\n\n
*
* \par<b>Related APIs:</b><BR>
* None
*
*/
__STATIC_INLINE void XMC_FLASH_SetSectorProtection(uint32_t num_sectors)
{
NVM->NVMCONF &= (~(uint16_t)NVM_NVMCONF_SECPROT_Msk);
NVM->NVMCONF |= (uint16_t)((uint16_t)num_sectors << NVM_NVMCONF_SECPROT_Pos);
}
/**
*
* @param level Hard read levels specified in \a XMC_FLASH_HARDREAD_LEVEL_t.
*
* @return None
*
* \par<b>Description:</b><br>
* Sets the hard read level for verification process.\n\n It insists the flash to do a strict margin compare
* with the written/erased data against the internal buffer. Sets the NVMCONF register HRLEV field with \a level
* value. This hardread level is used until the end of the verification sequence and, may not be changed in between.\n\n
*
* \par<b>Related APIs:</b><BR>
* None
*
*/
__STATIC_INLINE void XMC_FLASH_SetHardReadLevel(XMC_FLASH_HARDREAD_LEVEL_t level)
{
NVM->NVMCONF &= (uint16_t)(~(uint16_t)NVM_NVMCONF_HRLEV_Msk);
NVM->NVMCONF |= (uint16_t)(level<< (uint16_t)NVM_NVMCONF_HRLEV_Pos);
}
#ifdef __cplusplus
}
#endif
/**
* @}
*/
/**
* @}
*/
#endif
#endif /* FLASH_H */