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sp_driver.h
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sp_driver.h
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/* This file has been prepared for Doxygen automatic documentation generation.*/
/*! \file *********************************************************************
*
* \brief XMEGA Self-programming driver header file.
*
* This file contains the function prototypes for the
* XMEGA Self-programming driver.
* If any SPM instructions are used, the linker file must define
* a segment named BOOT which must be located in the device boot section.
*
*
* None of these functions clean up the NVM Command Register after use.
* It is therefore important to write NVMCMD_NO_OPERATION (0x00) to this
* register when you are finished using any of the functions in this driver.
*
* For all functions, it is important that no interrupt handlers
* perform any NVM operations. The user must implement a scheme for mutually
* exclusive access to the NVM. However, the 4-cycle timeout will work fine,
* since writing to the Configuration Change Protection register (CCP)
* automatically disables interrupts for 4 instruction cycles.
*
* \par Application note:
* AVR1316: XMEGA Self-programming
*
* \par Documentation
* For comprehensive code documentation, supported compilers, compiler
* settings and supported devices see readme.html
*
* \author
* Atmel Corporation: http://www.atmel.com \n
* Support email: [email protected]
*
* $Revision: 1691 $
* $Date: 2008-07-29 13:25:40 +0200 (ti, 29 jul 2008) $ \n
*
* Copyright (c) 2008, Atmel Corporation All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. 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.
*
* 3. The name of ATMEL may not be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY ATMEL "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 EXPRESSLY AND
* SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL 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.
*****************************************************************************/
#ifndef SP_DRIVER_H
#define SP_DRIVER_H
//#include "avr_compiler.h"
//#include "Flash_Defines.h"
/* Define the size of the flash page if not defined in the header files. */
#ifndef APP_SECTION_PAGE_SIZE
#error APP_SECTION_PAGE_SIZE must be defined if not defined in header files.
//#define APP_SECTION_PAGE_SIZE 512
#endif /*FLASH_PAGE_SIZE*/
/* Define the Start of the application table if not defined in the header files. */
#ifndef APPTABLE_SECTION_START
#error APPTABLE_SECTION_START must be defined if not defined in header files.
//#define APPTABLE_SECTION_START 0x01E000 //APPTABLE address for ATxmega128A1
#endif /*APPTABLE_SECTION_START*/
/*! \brief Read a byte from flash.
*
* This function reads one byte from the flash.
*
* \note Both IAR and GCC have functions to do this, but
* we include the fucntions for easier use.
*
* \param address Address to the location of the byte to read.
*
* \retval Byte read from flash.
*/
uint8_t SP_ReadByte(uint32_t address);
/*! \brief Read a word from flash.
*
* This function reads one word from the flash.
*
* \note Both IAR and GCC have functions to do this automatically, but
* we include the fucntions for easier use.
*
* \param address Address to the location of the word to read.
*
* \retval word read from flash.
*/
uint16_t SP_ReadWord(uint32_t address);
/*! \brief Read calibration byte at given index.
*
* This function reads one calibration byte from the Calibration signature row.
*
* \param index Index of the byte in the calibration signature row.
*
* \retval Calibration byte
*/
uint8_t SP_ReadCalibrationByte(uint8_t index);
/*! \brief Read fuse byte from given index.
*
* This function reads the fuse byte at the given index.
*
* \param index Index of the fuse byte.
*
* \retval Fuse byte
*/
uint8_t SP_ReadFuseByte(uint8_t index);
/*! \brief Write lock bits.
*
* This function changes the lock bits.
*
* \note It is only possible to change the lock bits to a higher security level.
*
* \param data The new value of the lock bits.
*/
void SP_WriteLockBits(uint8_t data);
/*! \brief Read lock bits.
*
* This function reads the lock bits.
*
* \retval Lock bits
*/
uint8_t SP_ReadLockBits(void);
/*! \brief Read user signature at given index.
*
* This function reads one byte from the user signature row.
*
* \param index Index of the byte in the user signature row.
*
* \retval User signature byte
*/
uint8_t SP_ReadUserSignatureByte(uint16_t index);
/*! \brief Erase user signature row.
*
* This function erase the entire user signature row.
*/
void SP_EraseUserSignatureRow(void);
/*! \brief Write user signature row.
*
* This function write the flash buffer in the user signature row.
*/
void SP_WriteUserSignatureRow(void);
/*! \brief Erase entire application section.
*
* This function erases the entire application and application table section
*
* \note If the lock bits is set to not allow spm in the application or
* application table section the erase is not done.
*/
void SP_EraseApplicationSection(void);
/*! \brief Erase page at byte address in application or application table section.
*
* This function erase one page given by the byte address.
*
* \param address Byte address for flash page.
*/
void SP_EraseApplicationPage(uint32_t address);
/*! \brief Erase and write page buffer to application or application table section at byte address.
*
* This function does a combined erase and write to a flash page in the application
* or application table section.
*
* \param address Byte address for flash page.
*/
void SP_EraseWriteApplicationPage(uint32_t address);
/*! \brief Write page buffer to application or application table section at byte address.
*
* This function writes the Flash page buffer to a page in the application or
* application table section given by the byte address.
*
* \note The page that is written to must be erased before it is written to.
*
* \param address Byte address for flash page.
*/
void SP_WriteApplicationPage(uint32_t address);
/*! \brief Load one word into Flash page buffer.
*
* This function Loads one word into the Flash page buffer.
*
* \param address Position in inside the flash page buffer.
* \param data Value to be put into the buffer.
*/
void SP_LoadFlashWord(uint16_t address, uint16_t data);
/*! \brief Load entire page from SRAM buffer into Flash page buffer.
*
* This function load an entire page from SRAM.
*
* \param data Pointer to the data to put in buffer.
*
* \note The __near keyword limits the pointer to two bytes which means that
* only data up to 64K (internal SRAM) can be used.
*/
void SP_LoadFlashPage(const uint8_t * data);
/*! \brief Read entire Flash page into SRAM buffer.
*
* This function reads an entire flash page and puts it to SRAM.
*
* \param data Pointer to where to store the data.
* \param address Address to page to read from flash.
*/
void SP_ReadFlashPage(const uint8_t * data, uint32_t address);
/*! \brief Flush Flash page buffer.
*
* This function flush the Flash page buffer.
*/
void SP_EraseFlashBuffer(void);
/*! \brief Erase page at byte address in boot section.
*
* This function erase one page given by the byte address.
*
* \param address Byte address for flash page.
*/
void SP_EraseBootPage(uint32_t address);
/*! \brief Erase and write page buffer to boot section at byte address.
*
* This function does a combined erase and write to a flash page in the boot
* section.
*
* \param address Byte address for flash page.
*/
void SP_EraseWriteBootPage(uint32_t address);
/*! \brief Write page buffer to boot section at byte address.
*
* This function writes the Flash page buffer to a page in the boot section
* given by the byte address.
*
* \note The page that is written to must be erased before it is written to.
*
* \param address Byte address for flash page.
*/
void SP_WriteBootPage(uint32_t address);
/*! \brief Generate CRC from application section.
*
* \retval 24-bit CRC value
*/
uint32_t SP_ApplicationCRC(void);
/*! \brief Generate CRC from boot section.
*
* \retval 24-bit CRC value
*/
uint32_t SP_BootCRC(void);
/*! \brief Lock SPM instruction.
*
* This function locks the SPM instruction, and will disable the use of
* SPM until the next reset occurs.
*/
void SP_LockSPM(void);
/*! \brief Wait for SPM to finish.
*
* This routine waits for the SPM to finish and clears the command register.
*/
void SP_WaitForSPM(void);
#endif /* SP_DRIVER_H */