/* ---------------------------------------------------------------------------- * ATMEL Microcontroller Software Support * ---------------------------------------------------------------------------- * Copyright (c) 2009, 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: * * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the disclaimer below. * * Atmel's name may not be used to endorse or promote products derived from * this software without specific prior written permission. * * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE * 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. * ---------------------------------------------------------------------------- */ /** \addtogroup efc_module Working with EEFC * The EEFC driver provides the interface to configure and use the EEFC * peripheral. * * The user needs to set the number of wait states depending on the frequency used.\n * Configure number of cycles for flash read/write operations in the FWS field of EEFC_FMR. * * It offers a function to send flash command to EEFC and waits for the * flash to be ready. * * To send flash command, the user could do in either of following way: * * * The command argument could be a page number,GPNVM number or nothing, it depends on * the command itself. Some useful functions in this driver could help user tranlate physical * flash address into a page number and vice verse. * * For more accurate information, please look at the EEFC section of the * Datasheet. * * Related files :\n * \ref efc.c\n * \ref efc.h.\n */ /*@{*/ /*@}*/ /** * \file * * Implementation of Enhanced Embedded Flash Controller (EEFC). * */ /*---------------------------------------------------------------------------- * Headers *----------------------------------------------------------------------------*/ #include "chip.h" #include #include /*---------------------------------------------------------------------------- * Exported functions *----------------------------------------------------------------------------*/ /** * \brief Enables the flash ready interrupt source on the EEFC peripheral. * * \param efc Pointer to a Efc instance */ extern void EFC_EnableFrdyIt( Efc* efc ) { efc->EEFC_FMR |= EEFC_FMR_FRDY ; } /** * \brief Disables the flash ready interrupt source on the EEFC peripheral. * * \param efc Pointer to a Efc instance */ extern void EFC_DisableFrdyIt( Efc* efc ) { efc->EEFC_FMR &= ~((uint32_t)EEFC_FMR_FRDY) ; } /** * \brief Set read/write wait state on the EEFC perpherial. * * \param efc Pointer to a Efc instance * \param cycles the number of wait states in cycle. */ extern void EFC_SetWaitState( Efc* efc, uint8_t ucCycles ) { uint32_t dwValue ; dwValue = efc->EEFC_FMR ; dwValue &= ~((uint32_t)EEFC_FMR_FWS_Msk) ; dwValue |= EEFC_FMR_FWS(ucCycles); efc->EEFC_FMR = dwValue ; } /** * \brief Returns the current status of the EEFC. * * \note Keep in mind that this function clears the value of some status bits (LOCKE, PROGE). * * \param efc Pointer to a Efc instance */ extern uint32_t EFC_GetStatus( Efc* efc ) { return efc->EEFC_FSR ; } /** * \brief Returns the result of the last executed command. * * \param efc Pointer to a Efc instance */ extern uint32_t EFC_GetResult( Efc* efc ) { return efc->EEFC_FRR ; } /** * \brief Translates the given address page and offset values. * \note The resulting values are stored in the provided variables if they are not null. * * \param efc Pointer to a Efc instance * \param address Address to translate. * \param pPage First page accessed. * \param pOffset Byte offset in first page. */ extern void EFC_TranslateAddress( Efc** ppEfc, uint32_t dwAddress, uint16_t* pwPage, uint16_t* pwOffset ) { Efc *pEfc ; uint16_t wPage ; uint16_t wOffset ; assert( dwAddress >= IFLASH_ADDR ) ; assert( dwAddress <= (IFLASH_ADDR + IFLASH_SIZE) ) ; pEfc = EFC ; wPage = (dwAddress - IFLASH_ADDR) / IFLASH_PAGE_SIZE; wOffset = (dwAddress - IFLASH_ADDR) % IFLASH_PAGE_SIZE; /* Store values */ if ( pEfc ) { *ppEfc = pEfc ; } if ( pwPage ) { *pwPage = wPage ; } if ( pwOffset ) { *pwOffset = wOffset ; } } /** * \brief Computes the address of a flash access given the page and offset. * * \param efc Pointer to a Efc instance * \param page Page number. * \param offset Byte offset inside page. * \param pAddress Computed address (optional). */ extern void EFC_ComputeAddress( Efc *efc, uint16_t wPage, uint16_t wOffset, uint32_t *pdwAddress ) { uint32_t dwAddress ; assert( efc ) ; assert( wPage <= IFLASH_NB_OF_PAGES ) ; assert( wOffset < IFLASH_PAGE_SIZE ) ; /* Compute address */ dwAddress = IFLASH_ADDR + wPage * IFLASH_PAGE_SIZE + wOffset ; /* Store result */ if ( pdwAddress != NULL ) { *pdwAddress = dwAddress ; } } /** * \brief Starts the executing the given command on the EEFC and returns as soon as the command is started. * * \note It does NOT set the FMCN field automatically. * \param efc Pointer to a Efc instance * \param command Command to execute. * \param argument Command argument (should be 0 if not used). */ extern void EFC_StartCommand( Efc* efc, uint32_t dwCommand, uint32_t dwArgument ) { /* Check command & argument */ switch ( dwCommand ) { case EFC_FCMD_WP: case EFC_FCMD_WPL: case EFC_FCMD_EWP: case EFC_FCMD_EWPL: case EFC_FCMD_SLB: case EFC_FCMD_CLB: assert( dwArgument < IFLASH_NB_OF_PAGES ) ; break ; case EFC_FCMD_SFB: case EFC_FCMD_CFB: assert( dwArgument < 2 ) ; break; case EFC_FCMD_GETD: case EFC_FCMD_EA: case EFC_FCMD_GLB: case EFC_FCMD_GFB: case EFC_FCMD_STUI: assert( dwArgument == 0 ) ; break; default: assert( 0 ) ; } /* Start command Embedded flash */ assert( (efc->EEFC_FSR & EEFC_FMR_FRDY) == EEFC_FMR_FRDY ) ; efc->EEFC_FCR = EEFC_FCR_FKEY(0x5A) | EEFC_FCR_FARG(dwArgument) | EEFC_FCR_FCMD(dwCommand) ; } /** * \brief Performs the given command and wait until its completion (or an error). * * \param efc Pointer to a Efc instance * \param command Command to perform. * \param argument Optional command argument. * * \return 0 if successful, otherwise returns an error code. */ extern uint32_t EFC_PerformCommand( Efc* efc, uint32_t dwCommand, uint32_t dwArgument, uint32_t dwUseIAP ) { if ( dwUseIAP != 0 ) { /* Pointer on IAP function in ROM */ static uint32_t (*IAP_PerformCommand)( uint32_t, uint32_t ) ; IAP_PerformCommand = (uint32_t (*)( uint32_t, uint32_t )) *((uint32_t*)CHIP_FLASH_IAP_ADDRESS ) ; IAP_PerformCommand( 0, EEFC_FCR_FKEY(0x5A) | EEFC_FCR_FARG(dwArgument) | EEFC_FCR_FCMD(dwCommand) ) ; return (efc->EEFC_FSR & (EEFC_FSR_FLOCKE | EEFC_FSR_FCMDE)) ; } else { uint32_t dwStatus ; efc->EEFC_FCR = EEFC_FCR_FKEY(0x5A) | EEFC_FCR_FARG(dwArgument) | EEFC_FCR_FCMD(dwCommand) ; do { dwStatus = efc->EEFC_FSR ; } while ( (dwStatus & EEFC_FSR_FRDY) != EEFC_FSR_FRDY ) ; return ( dwStatus & (EEFC_FSR_FLOCKE | EEFC_FSR_FCMDE) ) ; } }