/****************************************************************************** * * Copyright (C) 2016-2018 Texas Instruments Incorporated - http://www.ti.com/ * * 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 Texas Instruments Incorporated 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 * OWNER 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. * ******************************************************************************/ #ifndef OPENOCD_LOADERS_FLASH_CC26XX_FLASH_H #define OPENOCD_LOADERS_FLASH_CC26XX_FLASH_H #ifdef __cplusplus extern "C" { #endif #include #include #include "hw_regs.h" /* Location of flash in memory map */ #define FLASHMEM_BASE 0 /* Defines to access flash API calls in ROM */ #define ROM_API_TABLE ((uint32_t *) 0x10000180) #define ROM_VERSION (ROM_API_TABLE[0]) #define ROM_API_FLASH_TABLE ((uint32_t *) (ROM_API_TABLE[10])) #if defined(DEVICE_CC26X2) /* Agama (CC26x2) specific definitions */ #define FLASH_ERASE_SIZE 8192 /* Agama (and Agama 1M) has a maximum of 132 flash sectors (1056KB / 8KB) */ #define FLASH_MAX_SECTOR_COUNT 132 #define FLASH_SECTOR_BASE_M 0xFFFFE000 /* Bootloader Configuration */ #define CCFG_O_BL_CONFIG 0x00001FD8 #elif defined(DEVICE_CC26X0) /* Chameleon (CC26x0) specific definitions */ #define FLASH_ERASE_SIZE 4096 /* Chameleon has a maximum of 32 flash sectors (128KB / 4KB) */ #define FLASH_MAX_SECTOR_COUNT 32 #define FLASH_SECTOR_BASE_M 0xFFFFF000 /* Bootloader Configuration */ #define CCFG_O_BL_CONFIG 0x00000FD8 #else #error No DEVICE defined. #endif /****************************************************************************** * * Values that can be returned from the API functions * ******************************************************************************/ #define FAPI_STATUS_SUCCESS 0x00000000 /* Function completed successfully */ #define FAPI_STATUS_FSM_BUSY 0x00000001 /* FSM is Busy */ #define FAPI_STATUS_FSM_READY 0x00000002 /* FSM is Ready */ #define FAPI_STATUS_INCORRECT_DATABUFFER_LENGTH \ 0x00000003 /* Incorrect parameter value */ #define FAPI_STATUS_FSM_ERROR 0x00000004 /* Operation failed */ /****************************************************************************** * * Define used by the flash programming and erase functions * ******************************************************************************/ #define ADDR_OFFSET (0x1F800000 - FLASHMEM_BASE) /****************************************************************************** * * Define used for access to factory configuration area. * ******************************************************************************/ #define FCFG1_OFFSET 0x1000 /****************************************************************************** * * Define for the clock frequencey input to the flash module in number of MHz * ******************************************************************************/ #define FLASH_MODULE_CLK_FREQ 48 /****************************************************************************** * * Defined values for Flash State Machine commands * ******************************************************************************/ typedef enum { FAPI_PROGRAM_DATA = 0x0002, /* Program data. */ FAPI_ERASE_SECTOR = 0x0006, /* Erase sector. */ FAPI_ERASE_BANK = 0x0008, /* Erase bank. */ FAPI_VALIDATE_SECTOR = 0x000E, /* Validate sector. */ FAPI_CLEAR_STATUS = 0x0010, /* Clear status. */ FAPI_PROGRAM_RESUME = 0x0014, /* Program resume. */ FAPI_ERASE_RESUME = 0x0016, /* Erase resume. */ FAPI_CLEAR_MORE = 0x0018, /* Clear more. */ FAPI_PROGRAM_SECTOR = 0x0020, /* Program sector. */ FAPI_ERASE_OTP = 0x0030 /* Erase OTP. */ } flash_state_command_t; /****************************************************************************** * * Defines for values written to the FLASH_O_FSM_WR_ENA register * ******************************************************************************/ #define FSM_REG_WRT_ENABLE 5 #define FSM_REG_WRT_DISABLE 2 /****************************************************************************** * * Defines for the bank power mode field the FLASH_O_FBFALLBACK register * ******************************************************************************/ #define FBFALLBACK_SLEEP 0 #define FBFALLBACK_DEEP_STDBY 1 #define FBFALLBACK_ACTIVE 3 /****************************************************************************** * * Defines for the bank grace period and pump grace period * ******************************************************************************/ #define FLASH_BAGP 0x14 #define FLASH_PAGP 0x14 /****************************************************************************** * * Defines for the FW flag bits in the FLASH_O_FWFLAG register * ******************************************************************************/ #define FW_WRT_TRIMMED 0x00000001 /****************************************************************************** * * Defines used by the flash programming functions * ******************************************************************************/ typedef volatile uint8_t fwp_write_byte; #define FWPWRITE_BYTE_ADDRESS \ ((fwp_write_byte *)((FLASH_BASE + FLASH_O_FWPWRITE0))) /****************************************************************************** * * Define for FSM command execution * ******************************************************************************/ #define FLASH_CMD_EXEC 0x15 /****************************************************************************** * * Get size of a flash sector in number of bytes. * * This function will return the size of a flash sector in number of bytes. * * Returns size of a flash sector in number of bytes. * ******************************************************************************/ static inline uint32_t flash_sector_size_get(void) { uint32_t sector_size_in_kbyte; sector_size_in_kbyte = (HWREG(FLASH_BASE + FLASH_O_FCFG_B0_SSIZE0) & FLASH_FCFG_B0_SSIZE0_B0_SECT_SIZE_M) >> FLASH_FCFG_B0_SSIZE0_B0_SECT_SIZE_S; /* Return flash sector size in number of bytes. */ return sector_size_in_kbyte * 1024; } /****************************************************************************** * * Get the size of the flash. * * This function returns the size of the flash main bank in number of bytes. * * Returns the flash size in number of bytes. * ******************************************************************************/ static inline uint32_t flash_size_get(void) { uint32_t num_of_sectors; /* Get number of flash sectors */ num_of_sectors = (HWREG(FLASH_BASE + FLASH_O_FLASH_SIZE) & FLASH_FLASH_SIZE_SECTORS_M) >> FLASH_FLASH_SIZE_SECTORS_S; /* Return flash size in number of bytes */ return num_of_sectors * flash_sector_size_get(); } /****************************************************************************** * * Checks if the Flash state machine has detected an error. * * This function returns the status of the Flash State Machine indicating if * an error is detected or not. Primary use is to check if an Erase or * Program operation has failed. * * Please note that code can not execute in flash while any part of the flash * is being programmed or erased. This function must be called from ROM or * SRAM while any part of the flash is being programmed or erased. * * Returns status of Flash state machine: * FAPI_STATUS_FSM_ERROR * FAPI_STATUS_SUCCESS * ******************************************************************************/ static inline uint32_t flash_check_fsm_for_error(void) { if (HWREG(FLASH_BASE + FLASH_O_FMSTAT) & FLASH_FMSTAT_CSTAT) return FAPI_STATUS_FSM_ERROR; else return FAPI_STATUS_SUCCESS; } /****************************************************************************** * * Checks if the Flash state machine is ready. * * This function returns the status of the Flash State Machine indicating if * it is ready to accept a new command or not. Primary use is to check if an * Erase or Program operation has finished. * * Please note that code can not execute in flash while any part of the flash * is being programmed or erased. This function must be called from ROM or * SRAM while any part of the flash is being programmed or erased. * * Returns readiness status of Flash state machine: * FAPI_STATUS_FSM_READY * FAPI_STATUS_FSM_BUSY * ******************************************************************************/ static inline uint32_t flash_check_fsm_for_ready(void) { if (HWREG(FLASH_BASE + FLASH_O_STAT) & FLASH_STAT_BUSY) return FAPI_STATUS_FSM_BUSY; else return FAPI_STATUS_FSM_READY; } /****************************************************************************** * * Erase a flash sector. * * This function will erase the specified flash sector. The function will * not return until the flash sector has been erased or an error condition * occurred. If flash top sector is erased the function will program the * the device security data bytes with default values. The device security * data located in the customer configuration area of the flash top sector, * must have valid values at all times. These values affect the configuration * of the device during boot. * * Please note that code can not execute in flash while any part of the flash * is being programmed or erased. This function must only be executed from ROM * or SRAM. * * sector_address is the starting address in flash of the sector to be * erased. * * Returns the status of the sector erase: * FAPI_STATUS_SUCCESS : Success. * FAPI_STATUS_INCORRECT_DATABUFFER_LENGTH : Invalid argument. * FAPI_STATUS_FSM_ERROR : Programming error was encountered. * ******************************************************************************/ extern uint32_t flash_sector_erase(uint32_t sector_address); /****************************************************************************** * * Erase all unprotected sectors in the flash main bank. * * This function will erase all unprotected flash sectors. The function will * not return until the flash sectors has been erased or an error condition * occurred. Since the flash top sector is erased the function will program the * the device security data bytes with default values. The device security * data located in the customer configuration area of the flash top sector, * must have valid values at all times. These values affect the configuration * of the device during boot. The execution time of the operation increases if * erase precondition is forced. This will cause the flash module to first * program all 1 bits in the bank to 0 before the actual erase is started. * * force_precondition controls if erase precondition should be forced. * * Returns the status of the sector erase: * FAPI_STATUS_SUCCESS : Success * FAPI_STATUS_FSM_ERROR : Erase error was encountered. * ******************************************************************************/ extern uint32_t flash_bank_erase(bool force_precondition); /****************************************************************************** * * Programs unprotected main bank flash sectors. * * This function will program a sequence of bytes into the on-chip flash. * Programming each location consists of the result of an AND operation * of the new data and the existing data; in other words bits that contain * 1 can remain 1 or be changed to 0, but bits that are 0 cannot be changed * to 1. Therefore, a byte can be programmed multiple times as long as these * rules are followed; if a program operation attempts to change a 0 bit to * a 1 bit, that bit will not have its value changed. * * This function will not return until the data has been programmed or an * programming error has occurred. * * Please note that code can not execute in flash while any part of the flash * is being programmed or erased. This function must only be executed from ROM * or SRAM. * * The data_buffer pointer cannot point to flash. * * data_buffer is a pointer to the data to be programmed. * address is the starting address in flash to be programmed. * count is the number of bytes to be programmed. * * Returns status of the flash programming: * FAPI_STATUS_SUCCESS : Success. * FAPI_STATUS_INCORRECT_DATABUFFER_LENGTH : Too many bytes were requested. * FAPI_STATUS_FSM_ERROR : Programming error was encountered. * ******************************************************************************/ extern uint32_t flash_program(uint8_t *data_buffer, uint32_t address, uint32_t count); /****************************************************************************** * * Disables all sectors for erase and programming on the active bank. * * This function disables all sectors for erase and programming on the active * bank and enables the Idle Reading Power reduction mode if no low power * mode is configured. Furthermore, an additional level of protection from * erase is enabled. * * Please note that code can not execute in flash while any part of the flash * is being programmed or erased. * ******************************************************************************/ extern void flash_disable_sectors_for_write(void); #ifdef __cplusplus } #endif #endif /* #ifndef OPENOCD_LOADERS_FLASH_CC26XX_FLASH_H */