/** ***************************************************************************** * @file cmem7_flash.h * * @brief CMEM7 flash controller source file * * * @version V1.0 * @date 3. September 2013 * * @note * ***************************************************************************** * @attention * * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS * WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE * TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT, * INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING * FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE * CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. * *

© COPYRIGHT 2013 Capital-micro

***************************************************************************** */ #ifndef __CMEM7_FLASH_H #define __CMEM7_FLASH_H #ifdef __cplusplus extern "C" { #endif #include "cmem7.h" #include "cmem7_conf.h" /** @defgroup FLASH_PROTECT_MODE * @{ */ #define FLASH_PROTECT_MODE_SW 0 /*!< The Status Register can be written to after a Write Enable command.(Default) */ #define FLASH_PROTECT_MODE_HW 1 /*!< WP pin decides if the Status Register can be written WP#=0, the Status Register locked WP#=1, the Status Register is unlocked and can be written to after a Write Enable command */ #define FLASH_PROTECT_MODE_POWERDOWN 2 /*!< Status Register is protected and can not be written to again until the next Power-Down, Power-Up cycle */ #define FLASH_PROTECT_MODE_OTP 3 /*!< Status Register is permanently protected */ #define IS_FLASH_PROTECT_MODE(MODE) (((MODE) == FLASH_PROTECT_MODE_SW) || \ ((MODE) == FLASH_PROTECT_MODE_HW) || \ ((MODE) == FLASH_PROTECT_MODE_POWERDOWN) || \ ((MODE) == FLASH_PROTECT_MODE_OTP)) /** * @} */ /** @defgroup FLASH_PROTECT_REGION * @{ */ #define FLASH_PROTECT_REGION_NONE 0x00 /*!< no region is protected */ #define FLASH_PROTECT_REGION_UP_64K 0x01 /*!< region(0F0000H-0FFFFFH) is protected */ #define FLASH_PROTECT_REGION_UP_128K 0x02 /*!< region(0E0000H-0FFFFFH) is protected */ #define FLASH_PROTECT_REGION_UP_256K 0x03 /*!< region(0C0000H-0FFFFFH) is protected */ #define FLASH_PROTECT_REGION_UP_512K 0x04 /*!< region(080000H-0FFFFFH) is protected */ #define FLASH_PROTECT_REGION_LOW_64K 0x09 /*!< region(000000H-00FFFFH) is protected */ #define FLASH_PROTECT_REGION_LOW_128K 0x0A /*!< region(000000H-01FFFFH) is protected */ #define FLASH_PROTECT_REGION_LOW_256K 0x0B /*!< region(000000H-03FFFFH) is protected */ #define FLASH_PROTECT_REGION_LOW_512K 0x0C /*!< region(000000H-07FFFFH) is protected */ #define FLASH_PROTECT_REGION_ALL 0x0D /*!< region(000000H-0FFFFFH) is protected */ #define FLASH_PROTECT_REGION_UP_4K 0x11 /*!< region(0FF000H-0FFFFFH) is protected */ #define FLASH_PROTECT_REGION_UP_8K 0x12 /*!< region(0FE000H-0FFFFFH) is protected */ #define FLASH_PROTECT_REGION_UP_16K 0x13 /*!< region(0FC000H-0FFFFFH) is protected */ #define FLASH_PROTECT_REGION_UP_32K 0x14 /*!< region(0F8000H-0FFFFFH) is protected */ #define FLASH_PROTECT_REGION_LOW_4K 0x19 /*!< region(000000H-000FFFH) is protected */ #define FLASH_PROTECT_REGION_LOW_8K 0x1A /*!< region(000000H-001FFFH) is protected */ #define FLASH_PROTECT_REGION_LOW_16K 0x1B /*!< region(000000H-003FFFH) is protected */ #define FLASH_PROTECT_REGION_LOW_32K 0x1C /*!< region(000000H-007FFFH) is protected */ #define IS_FLASH_PROTECT_REGION(REGION) (((REGION) == FLASH_PROTECT_REGION_NONE) || \ ((REGION) == FLASH_PROTECT_REGION_UP_64K) || \ ((REGION) == FLASH_PROTECT_REGION_UP_128K) || \ ((REGION) == FLASH_PROTECT_REGION_UP_256K) || \ ((REGION) == FLASH_PROTECT_REGION_UP_512K) || \ ((REGION) == FLASH_PROTECT_REGION_LOW_64K) || \ ((REGION) == FLASH_PROTECT_REGION_LOW_128K) || \ ((REGION) == FLASH_PROTECT_REGION_LOW_256K) || \ ((REGION) == FLASH_PROTECT_REGION_LOW_512K) || \ ((REGION) == FLASH_PROTECT_REGION_ALL) || \ ((REGION) == FLASH_PROTECT_REGION_UP_4K) || \ ((REGION) == FLASH_PROTECT_REGION_UP_8K) || \ ((REGION) == FLASH_PROTECT_REGION_UP_16K) || \ ((REGION) == FLASH_PROTECT_REGION_UP_32K) || \ ((REGION) == FLASH_PROTECT_REGION_LOW_4K) || \ ((REGION) == FLASH_PROTECT_REGION_LOW_8K) || \ ((REGION) == FLASH_PROTECT_REGION_LOW_16K) || \ ((REGION) == FLASH_PROTECT_REGION_LOW_32K)) /** * @} */ /** @defgroup FLASH_READ_MODE * @{ */ #define FLASH_READ_MODE_NORMAL 0 /*!< normal read, 1 bitwidth, highest freqency is 90MHz */ #define FLASH_READ_MODE_FAST 1 /*!< fast read, 1 bitwidth, highest freqency is 120MHz */ #define FLASH_READ_MODE_FAST_DUAL 2 /*!< fast read, 2 bitwidth, highest freqency is 120MHz */ #define FLASH_READ_MODE_FAST_QUAD 3 /*!< fast read, 4 bitwidth, highest freqency is 90MHz */ #define IS_FLASH_READ_MODE(MODE) (((MODE) == FLASH_READ_MODE_NORMAL) || \ ((MODE) == FLASH_READ_MODE_FAST) || \ ((MODE) == FLASH_READ_MODE_FAST_DUAL) || \ ((MODE) == FLASH_READ_MODE_FAST_QUAD)) /** * @} */ /** * @brief UART initialization structure */ typedef struct { uint8_t FLASH_ClockDividor; /*!< flash clock dividor, 2 in n times */ uint8_t FLASH_ProtectMode; /*!< Status Register protection mode */ uint8_t FLASH_ProtectRegion; /*!< flash protection region */ BOOL FLASH_QuadEnable; /*!< if allows Quad operation */ void (*FLASH_Wait)(void); /*!< When the former read or write operation is excuting, Flash has to call a callback to wait it finish. If null, Flash will wait forever until finish */ } FLASH_InitTypeDef; /** * @brief flash initialization * @note This function should be called at first before any other interfaces. * Users should make sure that doesn't erase or write data in a * write-protected region. * @param[in] init A pointer to structure FLASH_InitTypeDef * @retval None */ void FLASH_Init(FLASH_InitTypeDef* init); /** * @brief Get flash status * @param[out] ProtectMode flash protect mode, ref as @ref FLASH_PROTECT_MODE * @param[out] ProtectRegion flash protect region, ref as @ref FLASH_PROTECT_REGION * @param[out] QuadEnable quad speed mode enable bit * @retval None */ void FLASH_GetStatus(uint8_t* ProtectMode, uint8_t* ProtectRegion, BOOL* QuadEnable); /** * @brief Erase a sector, which is 4K bytes large. * @param[in] addr Start address of a sector * @retval None */ void FLASH_EraseSector(uint32_t addr); /** * @brief Erase a block, which is 32K bytes large. * @param[in] addr Start address of a block * @retval None */ void FLASH_Erase32kBlock(uint32_t addr); /** * @brief Erase a block, which is 64K bytes large. * @param[in] addr Start address of a block * @retval None */ void FLASH_Erase64kBlock(uint32_t addr); /** * @brief Erase all chip * @param None * @retval None */ void FLASH_EraseChip(void); /** * @brief Enable flash power down mode or not * @param[in] enable The bit indicates if flash power down mode is enable or not * @retval None */ void FLASH_EnableDeepPowerDown(BOOL enable); /** * @brief Read data from flash * @param[in] ReadMode Normal or fast read, ref as @ref FLASH_READ_MODE * @param[in] addr Start address to be read * @param[in] size Expected data size to be read * @param[out] data A user-allocated buffer to fetch data to be read * @retval None */ void FLASH_Read(uint8_t ReadMode, uint32_t addr, uint16_t size, uint8_t* data); /** * @brief Write data to flash * @param[in] addr Start address to be read * @param[in] size Expected data size to be read * @param[out] data A pointer to the data to be written * @retval None */ void FLASH_Write(uint32_t addr, uint16_t size, uint8_t* data); void flash_WaitInWritting(void) ; void flash_WaitReadFifoNotEmpty(void); uint16_t flash_ReadFifo(uint16_t size, uint8_t* data) ; #ifdef __cplusplus } #endif #endif /* __CMEM7_FLASH_H */