/* ** ################################################################### ** Compilers: Keil ARM C/C++ Compiler ** Freescale C/C++ for Embedded ARM ** GNU C Compiler ** IAR ANSI C/C++ Compiler for ARM ** ** Reference manual: K64P144M120SF5RM, Rev.2, January 2014 ** Version: rev. 2.5, 2014-02-10 ** Build: b140604 ** ** Abstract: ** Extension to the CMSIS register access layer header. ** ** Copyright (c) 2014 Freescale Semiconductor, Inc. ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without modification, ** are permitted provided that the following conditions are met: ** ** o Redistributions of source code must retain the above copyright notice, this list ** of conditions and the following disclaimer. ** ** o 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. ** ** o Neither the name of Freescale Semiconductor, Inc. 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. ** ** http: www.freescale.com ** mail: support@freescale.com ** ** Revisions: ** - rev. 1.0 (2013-08-12) ** Initial version. ** - rev. 2.0 (2013-10-29) ** Register accessor macros added to the memory map. ** Symbols for Processor Expert memory map compatibility added to the memory map. ** Startup file for gcc has been updated according to CMSIS 3.2. ** System initialization updated. ** MCG - registers updated. ** PORTA, PORTB, PORTC, PORTE - registers for digital filter removed. ** - rev. 2.1 (2013-10-30) ** Definition of BITBAND macros updated to support peripherals with 32-bit acces disabled. ** - rev. 2.2 (2013-12-09) ** DMA - EARS register removed. ** AIPS0, AIPS1 - MPRA register updated. ** - rev. 2.3 (2014-01-24) ** Update according to reference manual rev. 2 ** ENET, MCG, MCM, SIM, USB - registers updated ** - rev. 2.4 (2014-02-10) ** The declaration of clock configurations has been moved to separate header file system_MK64F12.h ** Update of SystemInit() and SystemCoreClockUpdate() functions. ** - rev. 2.5 (2014-02-10) ** The declaration of clock configurations has been moved to separate header file system_MK64F12.h ** Update of SystemInit() and SystemCoreClockUpdate() functions. ** Module access macro module_BASES replaced by module_BASE_PTRS. ** ** ################################################################### */ /* * WARNING! DO NOT EDIT THIS FILE DIRECTLY! * * This file was generated automatically and any changes may be lost. */ #ifndef __HW_FTFE_REGISTERS_H__ #define __HW_FTFE_REGISTERS_H__ #include "MK64F12.h" #include "fsl_bitaccess.h" /* * MK64F12 FTFE * * Flash Memory Interface * * Registers defined in this header file: * - HW_FTFE_FSTAT - Flash Status Register * - HW_FTFE_FCNFG - Flash Configuration Register * - HW_FTFE_FSEC - Flash Security Register * - HW_FTFE_FOPT - Flash Option Register * - HW_FTFE_FCCOB3 - Flash Common Command Object Registers * - HW_FTFE_FCCOB2 - Flash Common Command Object Registers * - HW_FTFE_FCCOB1 - Flash Common Command Object Registers * - HW_FTFE_FCCOB0 - Flash Common Command Object Registers * - HW_FTFE_FCCOB7 - Flash Common Command Object Registers * - HW_FTFE_FCCOB6 - Flash Common Command Object Registers * - HW_FTFE_FCCOB5 - Flash Common Command Object Registers * - HW_FTFE_FCCOB4 - Flash Common Command Object Registers * - HW_FTFE_FCCOBB - Flash Common Command Object Registers * - HW_FTFE_FCCOBA - Flash Common Command Object Registers * - HW_FTFE_FCCOB9 - Flash Common Command Object Registers * - HW_FTFE_FCCOB8 - Flash Common Command Object Registers * - HW_FTFE_FPROT3 - Program Flash Protection Registers * - HW_FTFE_FPROT2 - Program Flash Protection Registers * - HW_FTFE_FPROT1 - Program Flash Protection Registers * - HW_FTFE_FPROT0 - Program Flash Protection Registers * - HW_FTFE_FEPROT - EEPROM Protection Register * - HW_FTFE_FDPROT - Data Flash Protection Register * * - hw_ftfe_t - Struct containing all module registers. */ #define HW_FTFE_INSTANCE_COUNT (1U) /*!< Number of instances of the FTFE module. */ /******************************************************************************* * HW_FTFE_FSTAT - Flash Status Register ******************************************************************************/ /*! * @brief HW_FTFE_FSTAT - Flash Status Register (RW) * * Reset value: 0x00U * * The FSTAT register reports the operational status of the FTFE module. The * CCIF, RDCOLERR, ACCERR, and FPVIOL bits are readable and writable. The MGSTAT0 * bit is read only. The unassigned bits read 0 and are not writable. When set, the * Access Error (ACCERR) and Flash Protection Violation (FPVIOL) bits in this * register prevent the launch of any more commands or writes to the FlexRAM (when * EEERDY is set) until the flag is cleared (by writing a one to it). */ typedef union _hw_ftfe_fstat { uint8_t U; struct _hw_ftfe_fstat_bitfields { uint8_t MGSTAT0 : 1; /*!< [0] Memory Controller Command Completion * Status Flag */ uint8_t RESERVED0 : 3; /*!< [3:1] */ uint8_t FPVIOL : 1; /*!< [4] Flash Protection Violation Flag */ uint8_t ACCERR : 1; /*!< [5] Flash Access Error Flag */ uint8_t RDCOLERR : 1; /*!< [6] FTFE Read Collision Error Flag */ uint8_t CCIF : 1; /*!< [7] Command Complete Interrupt Flag */ } B; } hw_ftfe_fstat_t; /*! * @name Constants and macros for entire FTFE_FSTAT register */ /*@{*/ #define HW_FTFE_FSTAT_ADDR(x) ((x) + 0x0U) #define HW_FTFE_FSTAT(x) (*(__IO hw_ftfe_fstat_t *) HW_FTFE_FSTAT_ADDR(x)) #define HW_FTFE_FSTAT_RD(x) (HW_FTFE_FSTAT(x).U) #define HW_FTFE_FSTAT_WR(x, v) (HW_FTFE_FSTAT(x).U = (v)) #define HW_FTFE_FSTAT_SET(x, v) (HW_FTFE_FSTAT_WR(x, HW_FTFE_FSTAT_RD(x) | (v))) #define HW_FTFE_FSTAT_CLR(x, v) (HW_FTFE_FSTAT_WR(x, HW_FTFE_FSTAT_RD(x) & ~(v))) #define HW_FTFE_FSTAT_TOG(x, v) (HW_FTFE_FSTAT_WR(x, HW_FTFE_FSTAT_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FSTAT bitfields */ /*! * @name Register FTFE_FSTAT, field MGSTAT0[0] (RO) * * The MGSTAT0 status flag is set if an error is detected during execution of an * FTFE command or during the flash reset sequence. As a status flag, this bit * cannot (and need not) be cleared by the user like the other error flags in this * register. The value of the MGSTAT0 bit for "command-N" is valid only at the * end of the "command-N" execution when CCIF=1 and before the next command has * been launched. At some point during the execution of "command-N+1," the previous * result is discarded and any previous error is cleared. */ /*@{*/ #define BP_FTFE_FSTAT_MGSTAT0 (0U) /*!< Bit position for FTFE_FSTAT_MGSTAT0. */ #define BM_FTFE_FSTAT_MGSTAT0 (0x01U) /*!< Bit mask for FTFE_FSTAT_MGSTAT0. */ #define BS_FTFE_FSTAT_MGSTAT0 (1U) /*!< Bit field size in bits for FTFE_FSTAT_MGSTAT0. */ /*! @brief Read current value of the FTFE_FSTAT_MGSTAT0 field. */ #define BR_FTFE_FSTAT_MGSTAT0(x) (BITBAND_ACCESS8(HW_FTFE_FSTAT_ADDR(x), BP_FTFE_FSTAT_MGSTAT0)) /*@}*/ /*! * @name Register FTFE_FSTAT, field FPVIOL[4] (W1C) * * The FPVIOL error bit indicates an attempt was made to program or erase an * address in a protected area of program flash or data flash memory during a * command write sequence or a write was attempted to a protected area of the FlexRAM * while enabled for EEPROM. While FPVIOL is set, the CCIF flag cannot be cleared * to launch a command. The FPVIOL bit is cleared by writing a 1 to it. Writing a * 0 to the FPVIOL bit has no effect. * * Values: * - 0 - No protection violation detected * - 1 - Protection violation detected */ /*@{*/ #define BP_FTFE_FSTAT_FPVIOL (4U) /*!< Bit position for FTFE_FSTAT_FPVIOL. */ #define BM_FTFE_FSTAT_FPVIOL (0x10U) /*!< Bit mask for FTFE_FSTAT_FPVIOL. */ #define BS_FTFE_FSTAT_FPVIOL (1U) /*!< Bit field size in bits for FTFE_FSTAT_FPVIOL. */ /*! @brief Read current value of the FTFE_FSTAT_FPVIOL field. */ #define BR_FTFE_FSTAT_FPVIOL(x) (BITBAND_ACCESS8(HW_FTFE_FSTAT_ADDR(x), BP_FTFE_FSTAT_FPVIOL)) /*! @brief Format value for bitfield FTFE_FSTAT_FPVIOL. */ #define BF_FTFE_FSTAT_FPVIOL(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FSTAT_FPVIOL) & BM_FTFE_FSTAT_FPVIOL) /*! @brief Set the FPVIOL field to a new value. */ #define BW_FTFE_FSTAT_FPVIOL(x, v) (BITBAND_ACCESS8(HW_FTFE_FSTAT_ADDR(x), BP_FTFE_FSTAT_FPVIOL) = (v)) /*@}*/ /*! * @name Register FTFE_FSTAT, field ACCERR[5] (W1C) * * The ACCERR error bit indicates an illegal access has occurred to an FTFE * resource caused by a violation of the command write sequence or issuing an illegal * FTFE command. While ACCERR is set, the CCIF flag cannot be cleared to launch * a command. The ACCERR bit is cleared by writing a 1 to it. Writing a 0 to the * ACCERR bit has no effect. * * Values: * - 0 - No access error detected * - 1 - Access error detected */ /*@{*/ #define BP_FTFE_FSTAT_ACCERR (5U) /*!< Bit position for FTFE_FSTAT_ACCERR. */ #define BM_FTFE_FSTAT_ACCERR (0x20U) /*!< Bit mask for FTFE_FSTAT_ACCERR. */ #define BS_FTFE_FSTAT_ACCERR (1U) /*!< Bit field size in bits for FTFE_FSTAT_ACCERR. */ /*! @brief Read current value of the FTFE_FSTAT_ACCERR field. */ #define BR_FTFE_FSTAT_ACCERR(x) (BITBAND_ACCESS8(HW_FTFE_FSTAT_ADDR(x), BP_FTFE_FSTAT_ACCERR)) /*! @brief Format value for bitfield FTFE_FSTAT_ACCERR. */ #define BF_FTFE_FSTAT_ACCERR(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FSTAT_ACCERR) & BM_FTFE_FSTAT_ACCERR) /*! @brief Set the ACCERR field to a new value. */ #define BW_FTFE_FSTAT_ACCERR(x, v) (BITBAND_ACCESS8(HW_FTFE_FSTAT_ADDR(x), BP_FTFE_FSTAT_ACCERR) = (v)) /*@}*/ /*! * @name Register FTFE_FSTAT, field RDCOLERR[6] (W1C) * * The RDCOLERR error bit indicates that the MCU attempted a read from an FTFE * resource that was being manipulated by an FTFE command (CCIF=0). Any * simultaneous access is detected as a collision error by the block arbitration logic. The * read data in this case cannot be guaranteed. The RDCOLERR bit is cleared by * writing a 1 to it. Writing a 0 to RDCOLERR has no effect. * * Values: * - 0 - No collision error detected * - 1 - Collision error detected */ /*@{*/ #define BP_FTFE_FSTAT_RDCOLERR (6U) /*!< Bit position for FTFE_FSTAT_RDCOLERR. */ #define BM_FTFE_FSTAT_RDCOLERR (0x40U) /*!< Bit mask for FTFE_FSTAT_RDCOLERR. */ #define BS_FTFE_FSTAT_RDCOLERR (1U) /*!< Bit field size in bits for FTFE_FSTAT_RDCOLERR. */ /*! @brief Read current value of the FTFE_FSTAT_RDCOLERR field. */ #define BR_FTFE_FSTAT_RDCOLERR(x) (BITBAND_ACCESS8(HW_FTFE_FSTAT_ADDR(x), BP_FTFE_FSTAT_RDCOLERR)) /*! @brief Format value for bitfield FTFE_FSTAT_RDCOLERR. */ #define BF_FTFE_FSTAT_RDCOLERR(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FSTAT_RDCOLERR) & BM_FTFE_FSTAT_RDCOLERR) /*! @brief Set the RDCOLERR field to a new value. */ #define BW_FTFE_FSTAT_RDCOLERR(x, v) (BITBAND_ACCESS8(HW_FTFE_FSTAT_ADDR(x), BP_FTFE_FSTAT_RDCOLERR) = (v)) /*@}*/ /*! * @name Register FTFE_FSTAT, field CCIF[7] (W1C) * * The CCIF flag indicates that a FTFE command or EEPROM file system operation * has completed. The CCIF flag is cleared by writing a 1 to CCIF to launch a * command, and CCIF stays low until command completion or command violation. The * CCIF flag is also cleared by a successful write to FlexRAM while enabled for EEE, * and CCIF stays low until the EEPROM file system has created the associated * EEPROM data record. The CCIF bit is reset to 0 but is set to 1 by the memory * controller at the end of the reset initialization sequence. Depending on how * quickly the read occurs after reset release, the user may or may not see the 0 * hardware reset value. * * Values: * - 0 - FTFE command or EEPROM file system operation in progress * - 1 - FTFE command or EEPROM file system operation has completed */ /*@{*/ #define BP_FTFE_FSTAT_CCIF (7U) /*!< Bit position for FTFE_FSTAT_CCIF. */ #define BM_FTFE_FSTAT_CCIF (0x80U) /*!< Bit mask for FTFE_FSTAT_CCIF. */ #define BS_FTFE_FSTAT_CCIF (1U) /*!< Bit field size in bits for FTFE_FSTAT_CCIF. */ /*! @brief Read current value of the FTFE_FSTAT_CCIF field. */ #define BR_FTFE_FSTAT_CCIF(x) (BITBAND_ACCESS8(HW_FTFE_FSTAT_ADDR(x), BP_FTFE_FSTAT_CCIF)) /*! @brief Format value for bitfield FTFE_FSTAT_CCIF. */ #define BF_FTFE_FSTAT_CCIF(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FSTAT_CCIF) & BM_FTFE_FSTAT_CCIF) /*! @brief Set the CCIF field to a new value. */ #define BW_FTFE_FSTAT_CCIF(x, v) (BITBAND_ACCESS8(HW_FTFE_FSTAT_ADDR(x), BP_FTFE_FSTAT_CCIF) = (v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCNFG - Flash Configuration Register ******************************************************************************/ /*! * @brief HW_FTFE_FCNFG - Flash Configuration Register (RW) * * Reset value: 0x00U * * This register provides information on the current functional state of the * FTFE module. The erase control bits (ERSAREQ and ERSSUSP) have write * restrictions. SWAP, PFLSH, RAMRDY, and EEERDY are read-only status bits. The unassigned * bits read as noted and are not writable. The reset values for the SWAP, PFLSH, * RAMRDY, and EEERDY bits are determined during the reset sequence. */ typedef union _hw_ftfe_fcnfg { uint8_t U; struct _hw_ftfe_fcnfg_bitfields { uint8_t EEERDY : 1; /*!< [0] */ uint8_t RAMRDY : 1; /*!< [1] RAM Ready */ uint8_t PFLSH : 1; /*!< [2] FTFE configuration */ uint8_t SWAP : 1; /*!< [3] Swap */ uint8_t ERSSUSP : 1; /*!< [4] Erase Suspend */ uint8_t ERSAREQ : 1; /*!< [5] Erase All Request */ uint8_t RDCOLLIE : 1; /*!< [6] Read Collision Error Interrupt Enable * */ uint8_t CCIE : 1; /*!< [7] Command Complete Interrupt Enable */ } B; } hw_ftfe_fcnfg_t; /*! * @name Constants and macros for entire FTFE_FCNFG register */ /*@{*/ #define HW_FTFE_FCNFG_ADDR(x) ((x) + 0x1U) #define HW_FTFE_FCNFG(x) (*(__IO hw_ftfe_fcnfg_t *) HW_FTFE_FCNFG_ADDR(x)) #define HW_FTFE_FCNFG_RD(x) (HW_FTFE_FCNFG(x).U) #define HW_FTFE_FCNFG_WR(x, v) (HW_FTFE_FCNFG(x).U = (v)) #define HW_FTFE_FCNFG_SET(x, v) (HW_FTFE_FCNFG_WR(x, HW_FTFE_FCNFG_RD(x) | (v))) #define HW_FTFE_FCNFG_CLR(x, v) (HW_FTFE_FCNFG_WR(x, HW_FTFE_FCNFG_RD(x) & ~(v))) #define HW_FTFE_FCNFG_TOG(x, v) (HW_FTFE_FCNFG_WR(x, HW_FTFE_FCNFG_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCNFG bitfields */ /*! * @name Register FTFE_FCNFG, field EEERDY[0] (RO) * * For devices with FlexNVM: This flag indicates if the EEPROM backup data has * been copied to the FlexRAM and is therefore available for read access. During * the reset sequence, the EEERDY flag remains clear while CCIF=0 and only sets if * the FlexNVM block is partitioned for EEPROM. For devices without FlexNVM: * This bit is reserved. * * Values: * - 0 - For devices with FlexNVM: FlexRAM is not available for EEPROM operation. * - 1 - For devices with FlexNVM: FlexRAM is available for EEPROM operations * where: reads from the FlexRAM return data previously written to the FlexRAM * in EEPROM mode and writes launch an EEPROM operation to store the written * data in the FlexRAM and EEPROM backup. */ /*@{*/ #define BP_FTFE_FCNFG_EEERDY (0U) /*!< Bit position for FTFE_FCNFG_EEERDY. */ #define BM_FTFE_FCNFG_EEERDY (0x01U) /*!< Bit mask for FTFE_FCNFG_EEERDY. */ #define BS_FTFE_FCNFG_EEERDY (1U) /*!< Bit field size in bits for FTFE_FCNFG_EEERDY. */ /*! @brief Read current value of the FTFE_FCNFG_EEERDY field. */ #define BR_FTFE_FCNFG_EEERDY(x) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_EEERDY)) /*@}*/ /*! * @name Register FTFE_FCNFG, field RAMRDY[1] (RO) * * This flag indicates the current status of the FlexRAM/ programming * acceleration RAM. For devices with FlexNVM: The state of the RAMRDY flag is normally * controlled by the Set FlexRAM Function command. During the reset sequence, the * RAMRDY flag is cleared if the FlexNVM block is partitioned for EEPROM and will * be set if the FlexNVM block is not partitioned for EEPROM . The RAMRDY flag is * cleared if the Program Partition command is run to partition the FlexNVM block * for EEPROM. The RAMRDY flag sets after completion of the Erase All Blocks * command or execution of the erase-all operation triggered external to the FTFE. * For devices without FlexNVM: This bit should always be set. * * Values: * - 0 - For devices with FlexNVM: FlexRAM is not available for traditional RAM * access. For devices without FlexNVM: Programming acceleration RAM is not * available. * - 1 - For devices with FlexNVM: FlexRAM is available as traditional RAM only; * writes to the FlexRAM do not trigger EEPROM operations. For devices * without FlexNVM: Programming acceleration RAM is available. */ /*@{*/ #define BP_FTFE_FCNFG_RAMRDY (1U) /*!< Bit position for FTFE_FCNFG_RAMRDY. */ #define BM_FTFE_FCNFG_RAMRDY (0x02U) /*!< Bit mask for FTFE_FCNFG_RAMRDY. */ #define BS_FTFE_FCNFG_RAMRDY (1U) /*!< Bit field size in bits for FTFE_FCNFG_RAMRDY. */ /*! @brief Read current value of the FTFE_FCNFG_RAMRDY field. */ #define BR_FTFE_FCNFG_RAMRDY(x) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_RAMRDY)) /*@}*/ /*! * @name Register FTFE_FCNFG, field PFLSH[2] (RO) * * Values: * - 0 - For devices with FlexNVM: FTFE configuration supports two program flash * blocks and two FlexNVM blocks For devices with program flash only: * Reserved * - 1 - For devices with FlexNVM: Reserved For devices with program flash only: * FTFE configuration supports four program flash blocks */ /*@{*/ #define BP_FTFE_FCNFG_PFLSH (2U) /*!< Bit position for FTFE_FCNFG_PFLSH. */ #define BM_FTFE_FCNFG_PFLSH (0x04U) /*!< Bit mask for FTFE_FCNFG_PFLSH. */ #define BS_FTFE_FCNFG_PFLSH (1U) /*!< Bit field size in bits for FTFE_FCNFG_PFLSH. */ /*! @brief Read current value of the FTFE_FCNFG_PFLSH field. */ #define BR_FTFE_FCNFG_PFLSH(x) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_PFLSH)) /*@}*/ /*! * @name Register FTFE_FCNFG, field SWAP[3] (RO) * * The SWAP flag indicates which half of the program flash space is located at * relative address 0x0000. The state of the SWAP flag is set by the FTFE during * the reset sequence. See for information on swap management. * * Values: * - 0 - For devices with FlexNVM: Program flash 0 block is located at relative * address 0x0000 For devices with program flash only: Program flash 0 block * is located at relative address 0x0000 * - 1 - For devices with FlexNVM: Reserved For devices with program flash only: * Program flash 1 block is located at relative address 0x0000 */ /*@{*/ #define BP_FTFE_FCNFG_SWAP (3U) /*!< Bit position for FTFE_FCNFG_SWAP. */ #define BM_FTFE_FCNFG_SWAP (0x08U) /*!< Bit mask for FTFE_FCNFG_SWAP. */ #define BS_FTFE_FCNFG_SWAP (1U) /*!< Bit field size in bits for FTFE_FCNFG_SWAP. */ /*! @brief Read current value of the FTFE_FCNFG_SWAP field. */ #define BR_FTFE_FCNFG_SWAP(x) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_SWAP)) /*@}*/ /*! * @name Register FTFE_FCNFG, field ERSSUSP[4] (RW) * * The ERSSUSP bit allows the user to suspend (interrupt) the Erase Flash Sector * command while it is executing. * * Values: * - 0 - No suspend requested * - 1 - Suspend the current Erase Flash Sector command execution. */ /*@{*/ #define BP_FTFE_FCNFG_ERSSUSP (4U) /*!< Bit position for FTFE_FCNFG_ERSSUSP. */ #define BM_FTFE_FCNFG_ERSSUSP (0x10U) /*!< Bit mask for FTFE_FCNFG_ERSSUSP. */ #define BS_FTFE_FCNFG_ERSSUSP (1U) /*!< Bit field size in bits for FTFE_FCNFG_ERSSUSP. */ /*! @brief Read current value of the FTFE_FCNFG_ERSSUSP field. */ #define BR_FTFE_FCNFG_ERSSUSP(x) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_ERSSUSP)) /*! @brief Format value for bitfield FTFE_FCNFG_ERSSUSP. */ #define BF_FTFE_FCNFG_ERSSUSP(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCNFG_ERSSUSP) & BM_FTFE_FCNFG_ERSSUSP) /*! @brief Set the ERSSUSP field to a new value. */ #define BW_FTFE_FCNFG_ERSSUSP(x, v) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_ERSSUSP) = (v)) /*@}*/ /*! * @name Register FTFE_FCNFG, field ERSAREQ[5] (RO) * * This bit issues a request to the memory controller to execute the Erase All * Blocks command and release security. ERSAREQ is not directly writable but is * under indirect user control. Refer to the device's Chip Configuration details on * how to request this command. The ERSAREQ bit sets when an erase all request * is triggered external to the FTFE and CCIF is set (no command is currently * being executed). ERSAREQ is cleared by the FTFE when the operation completes. * * Values: * - 0 - No request or request complete * - 1 - Request to: run the Erase All Blocks command, verify the erased state, * program the security byte in the Flash Configuration Field to the unsecure * state, and release MCU security by setting the FSEC[SEC] field to the * unsecure state. */ /*@{*/ #define BP_FTFE_FCNFG_ERSAREQ (5U) /*!< Bit position for FTFE_FCNFG_ERSAREQ. */ #define BM_FTFE_FCNFG_ERSAREQ (0x20U) /*!< Bit mask for FTFE_FCNFG_ERSAREQ. */ #define BS_FTFE_FCNFG_ERSAREQ (1U) /*!< Bit field size in bits for FTFE_FCNFG_ERSAREQ. */ /*! @brief Read current value of the FTFE_FCNFG_ERSAREQ field. */ #define BR_FTFE_FCNFG_ERSAREQ(x) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_ERSAREQ)) /*@}*/ /*! * @name Register FTFE_FCNFG, field RDCOLLIE[6] (RW) * * The RDCOLLIE bit controls interrupt generation when an FTFE read collision * error occurs. * * Values: * - 0 - Read collision error interrupt disabled * - 1 - Read collision error interrupt enabled. An interrupt request is * generated whenever an FTFE read collision error is detected (see the description * of FSTAT[RDCOLERR]). */ /*@{*/ #define BP_FTFE_FCNFG_RDCOLLIE (6U) /*!< Bit position for FTFE_FCNFG_RDCOLLIE. */ #define BM_FTFE_FCNFG_RDCOLLIE (0x40U) /*!< Bit mask for FTFE_FCNFG_RDCOLLIE. */ #define BS_FTFE_FCNFG_RDCOLLIE (1U) /*!< Bit field size in bits for FTFE_FCNFG_RDCOLLIE. */ /*! @brief Read current value of the FTFE_FCNFG_RDCOLLIE field. */ #define BR_FTFE_FCNFG_RDCOLLIE(x) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_RDCOLLIE)) /*! @brief Format value for bitfield FTFE_FCNFG_RDCOLLIE. */ #define BF_FTFE_FCNFG_RDCOLLIE(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCNFG_RDCOLLIE) & BM_FTFE_FCNFG_RDCOLLIE) /*! @brief Set the RDCOLLIE field to a new value. */ #define BW_FTFE_FCNFG_RDCOLLIE(x, v) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_RDCOLLIE) = (v)) /*@}*/ /*! * @name Register FTFE_FCNFG, field CCIE[7] (RW) * * The CCIE bit controls interrupt generation when an FTFE command completes. * * Values: * - 0 - Command complete interrupt disabled * - 1 - Command complete interrupt enabled. An interrupt request is generated * whenever the FSTAT[CCIF] flag is set. */ /*@{*/ #define BP_FTFE_FCNFG_CCIE (7U) /*!< Bit position for FTFE_FCNFG_CCIE. */ #define BM_FTFE_FCNFG_CCIE (0x80U) /*!< Bit mask for FTFE_FCNFG_CCIE. */ #define BS_FTFE_FCNFG_CCIE (1U) /*!< Bit field size in bits for FTFE_FCNFG_CCIE. */ /*! @brief Read current value of the FTFE_FCNFG_CCIE field. */ #define BR_FTFE_FCNFG_CCIE(x) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_CCIE)) /*! @brief Format value for bitfield FTFE_FCNFG_CCIE. */ #define BF_FTFE_FCNFG_CCIE(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCNFG_CCIE) & BM_FTFE_FCNFG_CCIE) /*! @brief Set the CCIE field to a new value. */ #define BW_FTFE_FCNFG_CCIE(x, v) (BITBAND_ACCESS8(HW_FTFE_FCNFG_ADDR(x), BP_FTFE_FCNFG_CCIE) = (v)) /*@}*/ /******************************************************************************* * HW_FTFE_FSEC - Flash Security Register ******************************************************************************/ /*! * @brief HW_FTFE_FSEC - Flash Security Register (RO) * * Reset value: 0x00U * * This read-only register holds all bits associated with the security of the * MCU and FTFE module. During the reset sequence, the register is loaded with the * contents of the flash security byte in the Flash Configuration Field located * in program flash memory. The Flash basis for the values is signified by X in * the reset value. */ typedef union _hw_ftfe_fsec { uint8_t U; struct _hw_ftfe_fsec_bitfields { uint8_t SEC : 2; /*!< [1:0] Flash Security */ uint8_t FSLACC : 2; /*!< [3:2] Freescale Failure Analysis Access Code * */ uint8_t MEEN : 2; /*!< [5:4] Mass Erase Enable Bits */ uint8_t KEYEN : 2; /*!< [7:6] Backdoor Key Security Enable */ } B; } hw_ftfe_fsec_t; /*! * @name Constants and macros for entire FTFE_FSEC register */ /*@{*/ #define HW_FTFE_FSEC_ADDR(x) ((x) + 0x2U) #define HW_FTFE_FSEC(x) (*(__I hw_ftfe_fsec_t *) HW_FTFE_FSEC_ADDR(x)) #define HW_FTFE_FSEC_RD(x) (HW_FTFE_FSEC(x).U) /*@}*/ /* * Constants & macros for individual FTFE_FSEC bitfields */ /*! * @name Register FTFE_FSEC, field SEC[1:0] (RO) * * These bits define the security state of the MCU. In the secure state, the MCU * limits access to FTFE module resources. The limitations are defined per * device and are detailed in the Chip Configuration details. If the FTFE module is * unsecured using backdoor key access, the SEC bits are forced to 10b. * * Values: * - 00 - MCU security status is secure * - 01 - MCU security status is secure * - 10 - MCU security status is unsecure (The standard shipping condition of * the FTFE is unsecure.) * - 11 - MCU security status is secure */ /*@{*/ #define BP_FTFE_FSEC_SEC (0U) /*!< Bit position for FTFE_FSEC_SEC. */ #define BM_FTFE_FSEC_SEC (0x03U) /*!< Bit mask for FTFE_FSEC_SEC. */ #define BS_FTFE_FSEC_SEC (2U) /*!< Bit field size in bits for FTFE_FSEC_SEC. */ /*! @brief Read current value of the FTFE_FSEC_SEC field. */ #define BR_FTFE_FSEC_SEC(x) (HW_FTFE_FSEC(x).B.SEC) /*@}*/ /*! * @name Register FTFE_FSEC, field FSLACC[3:2] (RO) * * These bits enable or disable access to the flash memory contents during * returned part failure analysis at Freescale. When SEC is secure and FSLACC is * denied, access to the program flash contents is denied and any failure analysis * performed by Freescale factory test must begin with a full erase to unsecure the * part. When access is granted (SEC is unsecure, or SEC is secure and FSLACC is * granted), Freescale factory testing has visibility of the current flash * contents. The state of the FSLACC bits is only relevant when the SEC bits are set to * secure. When the SEC field is set to unsecure, the FSLACC setting does not * matter. * * Values: * - 00 - Freescale factory access granted * - 01 - Freescale factory access denied * - 10 - Freescale factory access denied * - 11 - Freescale factory access granted */ /*@{*/ #define BP_FTFE_FSEC_FSLACC (2U) /*!< Bit position for FTFE_FSEC_FSLACC. */ #define BM_FTFE_FSEC_FSLACC (0x0CU) /*!< Bit mask for FTFE_FSEC_FSLACC. */ #define BS_FTFE_FSEC_FSLACC (2U) /*!< Bit field size in bits for FTFE_FSEC_FSLACC. */ /*! @brief Read current value of the FTFE_FSEC_FSLACC field. */ #define BR_FTFE_FSEC_FSLACC(x) (HW_FTFE_FSEC(x).B.FSLACC) /*@}*/ /*! * @name Register FTFE_FSEC, field MEEN[5:4] (RO) * * Enables and disables mass erase capability of the FTFE module. The state of * the MEEN bits is only relevant when the SEC bits are set to secure outside of * NVM Normal Mode. When the SEC field is set to unsecure, the MEEN setting does * not matter. * * Values: * - 00 - Mass erase is enabled * - 01 - Mass erase is enabled * - 10 - Mass erase is disabled * - 11 - Mass erase is enabled */ /*@{*/ #define BP_FTFE_FSEC_MEEN (4U) /*!< Bit position for FTFE_FSEC_MEEN. */ #define BM_FTFE_FSEC_MEEN (0x30U) /*!< Bit mask for FTFE_FSEC_MEEN. */ #define BS_FTFE_FSEC_MEEN (2U) /*!< Bit field size in bits for FTFE_FSEC_MEEN. */ /*! @brief Read current value of the FTFE_FSEC_MEEN field. */ #define BR_FTFE_FSEC_MEEN(x) (HW_FTFE_FSEC(x).B.MEEN) /*@}*/ /*! * @name Register FTFE_FSEC, field KEYEN[7:6] (RO) * * These bits enable and disable backdoor key access to the FTFE module. * * Values: * - 00 - Backdoor key access disabled * - 01 - Backdoor key access disabled (preferred KEYEN state to disable * backdoor key access) * - 10 - Backdoor key access enabled * - 11 - Backdoor key access disabled */ /*@{*/ #define BP_FTFE_FSEC_KEYEN (6U) /*!< Bit position for FTFE_FSEC_KEYEN. */ #define BM_FTFE_FSEC_KEYEN (0xC0U) /*!< Bit mask for FTFE_FSEC_KEYEN. */ #define BS_FTFE_FSEC_KEYEN (2U) /*!< Bit field size in bits for FTFE_FSEC_KEYEN. */ /*! @brief Read current value of the FTFE_FSEC_KEYEN field. */ #define BR_FTFE_FSEC_KEYEN(x) (HW_FTFE_FSEC(x).B.KEYEN) /*@}*/ /******************************************************************************* * HW_FTFE_FOPT - Flash Option Register ******************************************************************************/ /*! * @brief HW_FTFE_FOPT - Flash Option Register (RO) * * Reset value: 0x00U * * The flash option register allows the MCU to customize its operations by * examining the state of these read-only bits, which are loaded from NVM at reset. * The function of the bits is defined in the device's Chip Configuration details. * All bits in the register are read-only. During the reset sequence, the * register is loaded from the flash nonvolatile option byte in the Flash Configuration * Field located in program flash memory. The flash basis for the values is * signified by X in the reset value. */ typedef union _hw_ftfe_fopt { uint8_t U; struct _hw_ftfe_fopt_bitfields { uint8_t OPT : 8; /*!< [7:0] Nonvolatile Option */ } B; } hw_ftfe_fopt_t; /*! * @name Constants and macros for entire FTFE_FOPT register */ /*@{*/ #define HW_FTFE_FOPT_ADDR(x) ((x) + 0x3U) #define HW_FTFE_FOPT(x) (*(__I hw_ftfe_fopt_t *) HW_FTFE_FOPT_ADDR(x)) #define HW_FTFE_FOPT_RD(x) (HW_FTFE_FOPT(x).U) /*@}*/ /* * Constants & macros for individual FTFE_FOPT bitfields */ /*! * @name Register FTFE_FOPT, field OPT[7:0] (RO) * * These bits are loaded from flash to this register at reset. Refer to the * device's Chip Configuration details for the definition and use of these bits. */ /*@{*/ #define BP_FTFE_FOPT_OPT (0U) /*!< Bit position for FTFE_FOPT_OPT. */ #define BM_FTFE_FOPT_OPT (0xFFU) /*!< Bit mask for FTFE_FOPT_OPT. */ #define BS_FTFE_FOPT_OPT (8U) /*!< Bit field size in bits for FTFE_FOPT_OPT. */ /*! @brief Read current value of the FTFE_FOPT_OPT field. */ #define BR_FTFE_FOPT_OPT(x) (HW_FTFE_FOPT(x).U) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOB3 - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOB3 - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccob3 { uint8_t U; struct _hw_ftfe_fccob3_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccob3_t; /*! * @name Constants and macros for entire FTFE_FCCOB3 register */ /*@{*/ #define HW_FTFE_FCCOB3_ADDR(x) ((x) + 0x4U) #define HW_FTFE_FCCOB3(x) (*(__IO hw_ftfe_fccob3_t *) HW_FTFE_FCCOB3_ADDR(x)) #define HW_FTFE_FCCOB3_RD(x) (HW_FTFE_FCCOB3(x).U) #define HW_FTFE_FCCOB3_WR(x, v) (HW_FTFE_FCCOB3(x).U = (v)) #define HW_FTFE_FCCOB3_SET(x, v) (HW_FTFE_FCCOB3_WR(x, HW_FTFE_FCCOB3_RD(x) | (v))) #define HW_FTFE_FCCOB3_CLR(x, v) (HW_FTFE_FCCOB3_WR(x, HW_FTFE_FCCOB3_RD(x) & ~(v))) #define HW_FTFE_FCCOB3_TOG(x, v) (HW_FTFE_FCCOB3_WR(x, HW_FTFE_FCCOB3_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOB3 bitfields */ /*! * @name Register FTFE_FCCOB3, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOB3_CCOBn (0U) /*!< Bit position for FTFE_FCCOB3_CCOBn. */ #define BM_FTFE_FCCOB3_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOB3_CCOBn. */ #define BS_FTFE_FCCOB3_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOB3_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOB3_CCOBn field. */ #define BR_FTFE_FCCOB3_CCOBn(x) (HW_FTFE_FCCOB3(x).U) /*! @brief Format value for bitfield FTFE_FCCOB3_CCOBn. */ #define BF_FTFE_FCCOB3_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOB3_CCOBn) & BM_FTFE_FCCOB3_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOB3_CCOBn(x, v) (HW_FTFE_FCCOB3_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOB2 - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOB2 - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccob2 { uint8_t U; struct _hw_ftfe_fccob2_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccob2_t; /*! * @name Constants and macros for entire FTFE_FCCOB2 register */ /*@{*/ #define HW_FTFE_FCCOB2_ADDR(x) ((x) + 0x5U) #define HW_FTFE_FCCOB2(x) (*(__IO hw_ftfe_fccob2_t *) HW_FTFE_FCCOB2_ADDR(x)) #define HW_FTFE_FCCOB2_RD(x) (HW_FTFE_FCCOB2(x).U) #define HW_FTFE_FCCOB2_WR(x, v) (HW_FTFE_FCCOB2(x).U = (v)) #define HW_FTFE_FCCOB2_SET(x, v) (HW_FTFE_FCCOB2_WR(x, HW_FTFE_FCCOB2_RD(x) | (v))) #define HW_FTFE_FCCOB2_CLR(x, v) (HW_FTFE_FCCOB2_WR(x, HW_FTFE_FCCOB2_RD(x) & ~(v))) #define HW_FTFE_FCCOB2_TOG(x, v) (HW_FTFE_FCCOB2_WR(x, HW_FTFE_FCCOB2_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOB2 bitfields */ /*! * @name Register FTFE_FCCOB2, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOB2_CCOBn (0U) /*!< Bit position for FTFE_FCCOB2_CCOBn. */ #define BM_FTFE_FCCOB2_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOB2_CCOBn. */ #define BS_FTFE_FCCOB2_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOB2_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOB2_CCOBn field. */ #define BR_FTFE_FCCOB2_CCOBn(x) (HW_FTFE_FCCOB2(x).U) /*! @brief Format value for bitfield FTFE_FCCOB2_CCOBn. */ #define BF_FTFE_FCCOB2_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOB2_CCOBn) & BM_FTFE_FCCOB2_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOB2_CCOBn(x, v) (HW_FTFE_FCCOB2_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOB1 - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOB1 - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccob1 { uint8_t U; struct _hw_ftfe_fccob1_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccob1_t; /*! * @name Constants and macros for entire FTFE_FCCOB1 register */ /*@{*/ #define HW_FTFE_FCCOB1_ADDR(x) ((x) + 0x6U) #define HW_FTFE_FCCOB1(x) (*(__IO hw_ftfe_fccob1_t *) HW_FTFE_FCCOB1_ADDR(x)) #define HW_FTFE_FCCOB1_RD(x) (HW_FTFE_FCCOB1(x).U) #define HW_FTFE_FCCOB1_WR(x, v) (HW_FTFE_FCCOB1(x).U = (v)) #define HW_FTFE_FCCOB1_SET(x, v) (HW_FTFE_FCCOB1_WR(x, HW_FTFE_FCCOB1_RD(x) | (v))) #define HW_FTFE_FCCOB1_CLR(x, v) (HW_FTFE_FCCOB1_WR(x, HW_FTFE_FCCOB1_RD(x) & ~(v))) #define HW_FTFE_FCCOB1_TOG(x, v) (HW_FTFE_FCCOB1_WR(x, HW_FTFE_FCCOB1_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOB1 bitfields */ /*! * @name Register FTFE_FCCOB1, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOB1_CCOBn (0U) /*!< Bit position for FTFE_FCCOB1_CCOBn. */ #define BM_FTFE_FCCOB1_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOB1_CCOBn. */ #define BS_FTFE_FCCOB1_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOB1_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOB1_CCOBn field. */ #define BR_FTFE_FCCOB1_CCOBn(x) (HW_FTFE_FCCOB1(x).U) /*! @brief Format value for bitfield FTFE_FCCOB1_CCOBn. */ #define BF_FTFE_FCCOB1_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOB1_CCOBn) & BM_FTFE_FCCOB1_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOB1_CCOBn(x, v) (HW_FTFE_FCCOB1_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOB0 - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOB0 - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccob0 { uint8_t U; struct _hw_ftfe_fccob0_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccob0_t; /*! * @name Constants and macros for entire FTFE_FCCOB0 register */ /*@{*/ #define HW_FTFE_FCCOB0_ADDR(x) ((x) + 0x7U) #define HW_FTFE_FCCOB0(x) (*(__IO hw_ftfe_fccob0_t *) HW_FTFE_FCCOB0_ADDR(x)) #define HW_FTFE_FCCOB0_RD(x) (HW_FTFE_FCCOB0(x).U) #define HW_FTFE_FCCOB0_WR(x, v) (HW_FTFE_FCCOB0(x).U = (v)) #define HW_FTFE_FCCOB0_SET(x, v) (HW_FTFE_FCCOB0_WR(x, HW_FTFE_FCCOB0_RD(x) | (v))) #define HW_FTFE_FCCOB0_CLR(x, v) (HW_FTFE_FCCOB0_WR(x, HW_FTFE_FCCOB0_RD(x) & ~(v))) #define HW_FTFE_FCCOB0_TOG(x, v) (HW_FTFE_FCCOB0_WR(x, HW_FTFE_FCCOB0_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOB0 bitfields */ /*! * @name Register FTFE_FCCOB0, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOB0_CCOBn (0U) /*!< Bit position for FTFE_FCCOB0_CCOBn. */ #define BM_FTFE_FCCOB0_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOB0_CCOBn. */ #define BS_FTFE_FCCOB0_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOB0_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOB0_CCOBn field. */ #define BR_FTFE_FCCOB0_CCOBn(x) (HW_FTFE_FCCOB0(x).U) /*! @brief Format value for bitfield FTFE_FCCOB0_CCOBn. */ #define BF_FTFE_FCCOB0_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOB0_CCOBn) & BM_FTFE_FCCOB0_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOB0_CCOBn(x, v) (HW_FTFE_FCCOB0_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOB7 - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOB7 - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccob7 { uint8_t U; struct _hw_ftfe_fccob7_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccob7_t; /*! * @name Constants and macros for entire FTFE_FCCOB7 register */ /*@{*/ #define HW_FTFE_FCCOB7_ADDR(x) ((x) + 0x8U) #define HW_FTFE_FCCOB7(x) (*(__IO hw_ftfe_fccob7_t *) HW_FTFE_FCCOB7_ADDR(x)) #define HW_FTFE_FCCOB7_RD(x) (HW_FTFE_FCCOB7(x).U) #define HW_FTFE_FCCOB7_WR(x, v) (HW_FTFE_FCCOB7(x).U = (v)) #define HW_FTFE_FCCOB7_SET(x, v) (HW_FTFE_FCCOB7_WR(x, HW_FTFE_FCCOB7_RD(x) | (v))) #define HW_FTFE_FCCOB7_CLR(x, v) (HW_FTFE_FCCOB7_WR(x, HW_FTFE_FCCOB7_RD(x) & ~(v))) #define HW_FTFE_FCCOB7_TOG(x, v) (HW_FTFE_FCCOB7_WR(x, HW_FTFE_FCCOB7_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOB7 bitfields */ /*! * @name Register FTFE_FCCOB7, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOB7_CCOBn (0U) /*!< Bit position for FTFE_FCCOB7_CCOBn. */ #define BM_FTFE_FCCOB7_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOB7_CCOBn. */ #define BS_FTFE_FCCOB7_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOB7_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOB7_CCOBn field. */ #define BR_FTFE_FCCOB7_CCOBn(x) (HW_FTFE_FCCOB7(x).U) /*! @brief Format value for bitfield FTFE_FCCOB7_CCOBn. */ #define BF_FTFE_FCCOB7_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOB7_CCOBn) & BM_FTFE_FCCOB7_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOB7_CCOBn(x, v) (HW_FTFE_FCCOB7_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOB6 - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOB6 - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccob6 { uint8_t U; struct _hw_ftfe_fccob6_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccob6_t; /*! * @name Constants and macros for entire FTFE_FCCOB6 register */ /*@{*/ #define HW_FTFE_FCCOB6_ADDR(x) ((x) + 0x9U) #define HW_FTFE_FCCOB6(x) (*(__IO hw_ftfe_fccob6_t *) HW_FTFE_FCCOB6_ADDR(x)) #define HW_FTFE_FCCOB6_RD(x) (HW_FTFE_FCCOB6(x).U) #define HW_FTFE_FCCOB6_WR(x, v) (HW_FTFE_FCCOB6(x).U = (v)) #define HW_FTFE_FCCOB6_SET(x, v) (HW_FTFE_FCCOB6_WR(x, HW_FTFE_FCCOB6_RD(x) | (v))) #define HW_FTFE_FCCOB6_CLR(x, v) (HW_FTFE_FCCOB6_WR(x, HW_FTFE_FCCOB6_RD(x) & ~(v))) #define HW_FTFE_FCCOB6_TOG(x, v) (HW_FTFE_FCCOB6_WR(x, HW_FTFE_FCCOB6_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOB6 bitfields */ /*! * @name Register FTFE_FCCOB6, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOB6_CCOBn (0U) /*!< Bit position for FTFE_FCCOB6_CCOBn. */ #define BM_FTFE_FCCOB6_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOB6_CCOBn. */ #define BS_FTFE_FCCOB6_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOB6_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOB6_CCOBn field. */ #define BR_FTFE_FCCOB6_CCOBn(x) (HW_FTFE_FCCOB6(x).U) /*! @brief Format value for bitfield FTFE_FCCOB6_CCOBn. */ #define BF_FTFE_FCCOB6_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOB6_CCOBn) & BM_FTFE_FCCOB6_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOB6_CCOBn(x, v) (HW_FTFE_FCCOB6_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOB5 - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOB5 - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccob5 { uint8_t U; struct _hw_ftfe_fccob5_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccob5_t; /*! * @name Constants and macros for entire FTFE_FCCOB5 register */ /*@{*/ #define HW_FTFE_FCCOB5_ADDR(x) ((x) + 0xAU) #define HW_FTFE_FCCOB5(x) (*(__IO hw_ftfe_fccob5_t *) HW_FTFE_FCCOB5_ADDR(x)) #define HW_FTFE_FCCOB5_RD(x) (HW_FTFE_FCCOB5(x).U) #define HW_FTFE_FCCOB5_WR(x, v) (HW_FTFE_FCCOB5(x).U = (v)) #define HW_FTFE_FCCOB5_SET(x, v) (HW_FTFE_FCCOB5_WR(x, HW_FTFE_FCCOB5_RD(x) | (v))) #define HW_FTFE_FCCOB5_CLR(x, v) (HW_FTFE_FCCOB5_WR(x, HW_FTFE_FCCOB5_RD(x) & ~(v))) #define HW_FTFE_FCCOB5_TOG(x, v) (HW_FTFE_FCCOB5_WR(x, HW_FTFE_FCCOB5_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOB5 bitfields */ /*! * @name Register FTFE_FCCOB5, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOB5_CCOBn (0U) /*!< Bit position for FTFE_FCCOB5_CCOBn. */ #define BM_FTFE_FCCOB5_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOB5_CCOBn. */ #define BS_FTFE_FCCOB5_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOB5_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOB5_CCOBn field. */ #define BR_FTFE_FCCOB5_CCOBn(x) (HW_FTFE_FCCOB5(x).U) /*! @brief Format value for bitfield FTFE_FCCOB5_CCOBn. */ #define BF_FTFE_FCCOB5_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOB5_CCOBn) & BM_FTFE_FCCOB5_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOB5_CCOBn(x, v) (HW_FTFE_FCCOB5_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOB4 - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOB4 - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccob4 { uint8_t U; struct _hw_ftfe_fccob4_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccob4_t; /*! * @name Constants and macros for entire FTFE_FCCOB4 register */ /*@{*/ #define HW_FTFE_FCCOB4_ADDR(x) ((x) + 0xBU) #define HW_FTFE_FCCOB4(x) (*(__IO hw_ftfe_fccob4_t *) HW_FTFE_FCCOB4_ADDR(x)) #define HW_FTFE_FCCOB4_RD(x) (HW_FTFE_FCCOB4(x).U) #define HW_FTFE_FCCOB4_WR(x, v) (HW_FTFE_FCCOB4(x).U = (v)) #define HW_FTFE_FCCOB4_SET(x, v) (HW_FTFE_FCCOB4_WR(x, HW_FTFE_FCCOB4_RD(x) | (v))) #define HW_FTFE_FCCOB4_CLR(x, v) (HW_FTFE_FCCOB4_WR(x, HW_FTFE_FCCOB4_RD(x) & ~(v))) #define HW_FTFE_FCCOB4_TOG(x, v) (HW_FTFE_FCCOB4_WR(x, HW_FTFE_FCCOB4_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOB4 bitfields */ /*! * @name Register FTFE_FCCOB4, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOB4_CCOBn (0U) /*!< Bit position for FTFE_FCCOB4_CCOBn. */ #define BM_FTFE_FCCOB4_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOB4_CCOBn. */ #define BS_FTFE_FCCOB4_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOB4_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOB4_CCOBn field. */ #define BR_FTFE_FCCOB4_CCOBn(x) (HW_FTFE_FCCOB4(x).U) /*! @brief Format value for bitfield FTFE_FCCOB4_CCOBn. */ #define BF_FTFE_FCCOB4_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOB4_CCOBn) & BM_FTFE_FCCOB4_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOB4_CCOBn(x, v) (HW_FTFE_FCCOB4_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOBB - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOBB - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccobb { uint8_t U; struct _hw_ftfe_fccobb_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccobb_t; /*! * @name Constants and macros for entire FTFE_FCCOBB register */ /*@{*/ #define HW_FTFE_FCCOBB_ADDR(x) ((x) + 0xCU) #define HW_FTFE_FCCOBB(x) (*(__IO hw_ftfe_fccobb_t *) HW_FTFE_FCCOBB_ADDR(x)) #define HW_FTFE_FCCOBB_RD(x) (HW_FTFE_FCCOBB(x).U) #define HW_FTFE_FCCOBB_WR(x, v) (HW_FTFE_FCCOBB(x).U = (v)) #define HW_FTFE_FCCOBB_SET(x, v) (HW_FTFE_FCCOBB_WR(x, HW_FTFE_FCCOBB_RD(x) | (v))) #define HW_FTFE_FCCOBB_CLR(x, v) (HW_FTFE_FCCOBB_WR(x, HW_FTFE_FCCOBB_RD(x) & ~(v))) #define HW_FTFE_FCCOBB_TOG(x, v) (HW_FTFE_FCCOBB_WR(x, HW_FTFE_FCCOBB_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOBB bitfields */ /*! * @name Register FTFE_FCCOBB, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOBB_CCOBn (0U) /*!< Bit position for FTFE_FCCOBB_CCOBn. */ #define BM_FTFE_FCCOBB_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOBB_CCOBn. */ #define BS_FTFE_FCCOBB_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOBB_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOBB_CCOBn field. */ #define BR_FTFE_FCCOBB_CCOBn(x) (HW_FTFE_FCCOBB(x).U) /*! @brief Format value for bitfield FTFE_FCCOBB_CCOBn. */ #define BF_FTFE_FCCOBB_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOBB_CCOBn) & BM_FTFE_FCCOBB_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOBB_CCOBn(x, v) (HW_FTFE_FCCOBB_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOBA - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOBA - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccoba { uint8_t U; struct _hw_ftfe_fccoba_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccoba_t; /*! * @name Constants and macros for entire FTFE_FCCOBA register */ /*@{*/ #define HW_FTFE_FCCOBA_ADDR(x) ((x) + 0xDU) #define HW_FTFE_FCCOBA(x) (*(__IO hw_ftfe_fccoba_t *) HW_FTFE_FCCOBA_ADDR(x)) #define HW_FTFE_FCCOBA_RD(x) (HW_FTFE_FCCOBA(x).U) #define HW_FTFE_FCCOBA_WR(x, v) (HW_FTFE_FCCOBA(x).U = (v)) #define HW_FTFE_FCCOBA_SET(x, v) (HW_FTFE_FCCOBA_WR(x, HW_FTFE_FCCOBA_RD(x) | (v))) #define HW_FTFE_FCCOBA_CLR(x, v) (HW_FTFE_FCCOBA_WR(x, HW_FTFE_FCCOBA_RD(x) & ~(v))) #define HW_FTFE_FCCOBA_TOG(x, v) (HW_FTFE_FCCOBA_WR(x, HW_FTFE_FCCOBA_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOBA bitfields */ /*! * @name Register FTFE_FCCOBA, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOBA_CCOBn (0U) /*!< Bit position for FTFE_FCCOBA_CCOBn. */ #define BM_FTFE_FCCOBA_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOBA_CCOBn. */ #define BS_FTFE_FCCOBA_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOBA_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOBA_CCOBn field. */ #define BR_FTFE_FCCOBA_CCOBn(x) (HW_FTFE_FCCOBA(x).U) /*! @brief Format value for bitfield FTFE_FCCOBA_CCOBn. */ #define BF_FTFE_FCCOBA_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOBA_CCOBn) & BM_FTFE_FCCOBA_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOBA_CCOBn(x, v) (HW_FTFE_FCCOBA_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOB9 - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOB9 - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccob9 { uint8_t U; struct _hw_ftfe_fccob9_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccob9_t; /*! * @name Constants and macros for entire FTFE_FCCOB9 register */ /*@{*/ #define HW_FTFE_FCCOB9_ADDR(x) ((x) + 0xEU) #define HW_FTFE_FCCOB9(x) (*(__IO hw_ftfe_fccob9_t *) HW_FTFE_FCCOB9_ADDR(x)) #define HW_FTFE_FCCOB9_RD(x) (HW_FTFE_FCCOB9(x).U) #define HW_FTFE_FCCOB9_WR(x, v) (HW_FTFE_FCCOB9(x).U = (v)) #define HW_FTFE_FCCOB9_SET(x, v) (HW_FTFE_FCCOB9_WR(x, HW_FTFE_FCCOB9_RD(x) | (v))) #define HW_FTFE_FCCOB9_CLR(x, v) (HW_FTFE_FCCOB9_WR(x, HW_FTFE_FCCOB9_RD(x) & ~(v))) #define HW_FTFE_FCCOB9_TOG(x, v) (HW_FTFE_FCCOB9_WR(x, HW_FTFE_FCCOB9_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOB9 bitfields */ /*! * @name Register FTFE_FCCOB9, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOB9_CCOBn (0U) /*!< Bit position for FTFE_FCCOB9_CCOBn. */ #define BM_FTFE_FCCOB9_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOB9_CCOBn. */ #define BS_FTFE_FCCOB9_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOB9_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOB9_CCOBn field. */ #define BR_FTFE_FCCOB9_CCOBn(x) (HW_FTFE_FCCOB9(x).U) /*! @brief Format value for bitfield FTFE_FCCOB9_CCOBn. */ #define BF_FTFE_FCCOB9_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOB9_CCOBn) & BM_FTFE_FCCOB9_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOB9_CCOBn(x, v) (HW_FTFE_FCCOB9_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FCCOB8 - Flash Common Command Object Registers ******************************************************************************/ /*! * @brief HW_FTFE_FCCOB8 - Flash Common Command Object Registers (RW) * * Reset value: 0x00U * * The FCCOB register group provides 12 bytes for command codes and parameters. * The individual bytes within the set append a 0-B hex identifier to the FCCOB * register name: FCCOB0, FCCOB1, ..., FCCOBB. */ typedef union _hw_ftfe_fccob8 { uint8_t U; struct _hw_ftfe_fccob8_bitfields { uint8_t CCOBn : 8; /*!< [7:0] */ } B; } hw_ftfe_fccob8_t; /*! * @name Constants and macros for entire FTFE_FCCOB8 register */ /*@{*/ #define HW_FTFE_FCCOB8_ADDR(x) ((x) + 0xFU) #define HW_FTFE_FCCOB8(x) (*(__IO hw_ftfe_fccob8_t *) HW_FTFE_FCCOB8_ADDR(x)) #define HW_FTFE_FCCOB8_RD(x) (HW_FTFE_FCCOB8(x).U) #define HW_FTFE_FCCOB8_WR(x, v) (HW_FTFE_FCCOB8(x).U = (v)) #define HW_FTFE_FCCOB8_SET(x, v) (HW_FTFE_FCCOB8_WR(x, HW_FTFE_FCCOB8_RD(x) | (v))) #define HW_FTFE_FCCOB8_CLR(x, v) (HW_FTFE_FCCOB8_WR(x, HW_FTFE_FCCOB8_RD(x) & ~(v))) #define HW_FTFE_FCCOB8_TOG(x, v) (HW_FTFE_FCCOB8_WR(x, HW_FTFE_FCCOB8_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FCCOB8 bitfields */ /*! * @name Register FTFE_FCCOB8, field CCOBn[7:0] (RW) * * The FCCOB register provides a command code and relevant parameters to the * memory controller. The individual registers that compose the FCCOB data set can * be written in any order, but you must provide all needed values, which vary * from command to command. First, set up all required FCCOB fields and then * initiate the command's execution by writing a 1 to the FSTAT[CCIF] bit. This clears * the CCIF bit, which locks all FCCOB parameter fields and they cannot be changed * by the user until the command completes (CCIF returns to 1). No command * buffering or queueing is provided; the next command can be loaded only after the * current command completes. Some commands return information to the FCCOB * registers. Any values returned to FCCOB are available for reading after the * FSTAT[CCIF] flag returns to 1 by the memory controller. The following table shows a * generic FTFE command format. The first FCCOB register, FCCOB0, always contains * the command code. This 8-bit value defines the command to be executed. The * command code is followed by the parameters required for this specific FTFE command, * typically an address and/or data values. The command parameter table is * written in terms of FCCOB Number (which is equivalent to the byte number). This * number is a reference to the FCCOB register name and is not the register address. * FCCOB NumberRefers to FCCOB register name, not register address Typical * Command Parameter Contents [7:0] 0 FCMD (a code that defines the FTFE command) 1 * Flash address [23:16] 2 Flash address [15:8] 3 Flash address [7:0] 4 Data Byte 0 * 5 Data Byte 1 6 Data Byte 2 7 Data Byte 3 8 Data Byte 4 9 Data Byte 5 A Data * Byte 6 B Data Byte 7 FCCOB Endianness and Multi-Byte Access: The FCCOB * register group uses a big endian addressing convention. For all command parameter * fields larger than 1 byte, the most significant data resides in the lowest FCCOB * register number. The FCCOB register group may be read and written as * individual bytes, aligned words (2 bytes) or aligned longwords (4 bytes). */ /*@{*/ #define BP_FTFE_FCCOB8_CCOBn (0U) /*!< Bit position for FTFE_FCCOB8_CCOBn. */ #define BM_FTFE_FCCOB8_CCOBn (0xFFU) /*!< Bit mask for FTFE_FCCOB8_CCOBn. */ #define BS_FTFE_FCCOB8_CCOBn (8U) /*!< Bit field size in bits for FTFE_FCCOB8_CCOBn. */ /*! @brief Read current value of the FTFE_FCCOB8_CCOBn field. */ #define BR_FTFE_FCCOB8_CCOBn(x) (HW_FTFE_FCCOB8(x).U) /*! @brief Format value for bitfield FTFE_FCCOB8_CCOBn. */ #define BF_FTFE_FCCOB8_CCOBn(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FCCOB8_CCOBn) & BM_FTFE_FCCOB8_CCOBn) /*! @brief Set the CCOBn field to a new value. */ #define BW_FTFE_FCCOB8_CCOBn(x, v) (HW_FTFE_FCCOB8_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FPROT3 - Program Flash Protection Registers ******************************************************************************/ /*! * @brief HW_FTFE_FPROT3 - Program Flash Protection Registers (RW) * * Reset value: 0x00U * * The FPROT registers define which program flash regions are protected from * program and erase operations. Protected flash regions cannot have their content * changed; that is, these regions cannot be programmed and cannot be erased by * any FTFE command. Unprotected regions can be changed by program and erase * operations. The four FPROT registers allow up to 32 protectable regions of equal * memory size. Program flash protection register Program flash protection bits * FPROT0 PROT[31:24] FPROT1 PROT[23:16] FPROT2 PROT[15:8] FPROT3 PROT[7:0] During * the reset sequence, the FPROT registers are loaded with the contents of the * program flash protection bytes in the Flash Configuration Field as indicated in * the following table. Program flash protection register Flash Configuration Field * offset address FPROT0 0x000B FPROT1 0x000A FPROT2 0x0009 FPROT3 0x0008 To * change the program flash protection that is loaded during the reset sequence, * unprotect the sector of program flash memory that contains the Flash * Configuration Field. Then, reprogram the program flash protection byte. */ typedef union _hw_ftfe_fprot3 { uint8_t U; struct _hw_ftfe_fprot3_bitfields { uint8_t PROT : 8; /*!< [7:0] Program Flash Region Protect */ } B; } hw_ftfe_fprot3_t; /*! * @name Constants and macros for entire FTFE_FPROT3 register */ /*@{*/ #define HW_FTFE_FPROT3_ADDR(x) ((x) + 0x10U) #define HW_FTFE_FPROT3(x) (*(__IO hw_ftfe_fprot3_t *) HW_FTFE_FPROT3_ADDR(x)) #define HW_FTFE_FPROT3_RD(x) (HW_FTFE_FPROT3(x).U) #define HW_FTFE_FPROT3_WR(x, v) (HW_FTFE_FPROT3(x).U = (v)) #define HW_FTFE_FPROT3_SET(x, v) (HW_FTFE_FPROT3_WR(x, HW_FTFE_FPROT3_RD(x) | (v))) #define HW_FTFE_FPROT3_CLR(x, v) (HW_FTFE_FPROT3_WR(x, HW_FTFE_FPROT3_RD(x) & ~(v))) #define HW_FTFE_FPROT3_TOG(x, v) (HW_FTFE_FPROT3_WR(x, HW_FTFE_FPROT3_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FPROT3 bitfields */ /*! * @name Register FTFE_FPROT3, field PROT[7:0] (RW) * * Each program flash region can be protected from program and erase operations * by setting the associated PROT bit. In NVM Normal mode: The protection can * only be increased, meaning that currently unprotected memory can be protected, * but currently protected memory cannot be unprotected. Since unprotected regions * are marked with a 1 and protected regions use a 0, only writes changing 1s to * 0s are accepted. This 1-to-0 transition check is performed on a bit-by-bit * basis. Those FPROT bits with 1-to-0 transitions are accepted while all bits with * 0-to-1 transitions are ignored. In NVM Special mode: All bits of FPROT are * writable without restriction. Unprotected areas can be protected and protected * areas can be unprotected. The user must never write to any FPROT register while * a command is running (CCIF=0). Trying to alter data in any protected area in * the program flash memory results in a protection violation error and sets the * FSTAT[FPVIOL] bit. A full block erase of a program flash block is not possible * if it contains any protected region. * * Values: * - 0 - Program flash region is protected. * - 1 - Program flash region is not protected */ /*@{*/ #define BP_FTFE_FPROT3_PROT (0U) /*!< Bit position for FTFE_FPROT3_PROT. */ #define BM_FTFE_FPROT3_PROT (0xFFU) /*!< Bit mask for FTFE_FPROT3_PROT. */ #define BS_FTFE_FPROT3_PROT (8U) /*!< Bit field size in bits for FTFE_FPROT3_PROT. */ /*! @brief Read current value of the FTFE_FPROT3_PROT field. */ #define BR_FTFE_FPROT3_PROT(x) (HW_FTFE_FPROT3(x).U) /*! @brief Format value for bitfield FTFE_FPROT3_PROT. */ #define BF_FTFE_FPROT3_PROT(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FPROT3_PROT) & BM_FTFE_FPROT3_PROT) /*! @brief Set the PROT field to a new value. */ #define BW_FTFE_FPROT3_PROT(x, v) (HW_FTFE_FPROT3_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FPROT2 - Program Flash Protection Registers ******************************************************************************/ /*! * @brief HW_FTFE_FPROT2 - Program Flash Protection Registers (RW) * * Reset value: 0x00U * * The FPROT registers define which program flash regions are protected from * program and erase operations. Protected flash regions cannot have their content * changed; that is, these regions cannot be programmed and cannot be erased by * any FTFE command. Unprotected regions can be changed by program and erase * operations. The four FPROT registers allow up to 32 protectable regions of equal * memory size. Program flash protection register Program flash protection bits * FPROT0 PROT[31:24] FPROT1 PROT[23:16] FPROT2 PROT[15:8] FPROT3 PROT[7:0] During * the reset sequence, the FPROT registers are loaded with the contents of the * program flash protection bytes in the Flash Configuration Field as indicated in * the following table. Program flash protection register Flash Configuration Field * offset address FPROT0 0x000B FPROT1 0x000A FPROT2 0x0009 FPROT3 0x0008 To * change the program flash protection that is loaded during the reset sequence, * unprotect the sector of program flash memory that contains the Flash * Configuration Field. Then, reprogram the program flash protection byte. */ typedef union _hw_ftfe_fprot2 { uint8_t U; struct _hw_ftfe_fprot2_bitfields { uint8_t PROT : 8; /*!< [7:0] Program Flash Region Protect */ } B; } hw_ftfe_fprot2_t; /*! * @name Constants and macros for entire FTFE_FPROT2 register */ /*@{*/ #define HW_FTFE_FPROT2_ADDR(x) ((x) + 0x11U) #define HW_FTFE_FPROT2(x) (*(__IO hw_ftfe_fprot2_t *) HW_FTFE_FPROT2_ADDR(x)) #define HW_FTFE_FPROT2_RD(x) (HW_FTFE_FPROT2(x).U) #define HW_FTFE_FPROT2_WR(x, v) (HW_FTFE_FPROT2(x).U = (v)) #define HW_FTFE_FPROT2_SET(x, v) (HW_FTFE_FPROT2_WR(x, HW_FTFE_FPROT2_RD(x) | (v))) #define HW_FTFE_FPROT2_CLR(x, v) (HW_FTFE_FPROT2_WR(x, HW_FTFE_FPROT2_RD(x) & ~(v))) #define HW_FTFE_FPROT2_TOG(x, v) (HW_FTFE_FPROT2_WR(x, HW_FTFE_FPROT2_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FPROT2 bitfields */ /*! * @name Register FTFE_FPROT2, field PROT[7:0] (RW) * * Each program flash region can be protected from program and erase operations * by setting the associated PROT bit. In NVM Normal mode: The protection can * only be increased, meaning that currently unprotected memory can be protected, * but currently protected memory cannot be unprotected. Since unprotected regions * are marked with a 1 and protected regions use a 0, only writes changing 1s to * 0s are accepted. This 1-to-0 transition check is performed on a bit-by-bit * basis. Those FPROT bits with 1-to-0 transitions are accepted while all bits with * 0-to-1 transitions are ignored. In NVM Special mode: All bits of FPROT are * writable without restriction. Unprotected areas can be protected and protected * areas can be unprotected. The user must never write to any FPROT register while * a command is running (CCIF=0). Trying to alter data in any protected area in * the program flash memory results in a protection violation error and sets the * FSTAT[FPVIOL] bit. A full block erase of a program flash block is not possible * if it contains any protected region. * * Values: * - 0 - Program flash region is protected. * - 1 - Program flash region is not protected */ /*@{*/ #define BP_FTFE_FPROT2_PROT (0U) /*!< Bit position for FTFE_FPROT2_PROT. */ #define BM_FTFE_FPROT2_PROT (0xFFU) /*!< Bit mask for FTFE_FPROT2_PROT. */ #define BS_FTFE_FPROT2_PROT (8U) /*!< Bit field size in bits for FTFE_FPROT2_PROT. */ /*! @brief Read current value of the FTFE_FPROT2_PROT field. */ #define BR_FTFE_FPROT2_PROT(x) (HW_FTFE_FPROT2(x).U) /*! @brief Format value for bitfield FTFE_FPROT2_PROT. */ #define BF_FTFE_FPROT2_PROT(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FPROT2_PROT) & BM_FTFE_FPROT2_PROT) /*! @brief Set the PROT field to a new value. */ #define BW_FTFE_FPROT2_PROT(x, v) (HW_FTFE_FPROT2_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FPROT1 - Program Flash Protection Registers ******************************************************************************/ /*! * @brief HW_FTFE_FPROT1 - Program Flash Protection Registers (RW) * * Reset value: 0x00U * * The FPROT registers define which program flash regions are protected from * program and erase operations. Protected flash regions cannot have their content * changed; that is, these regions cannot be programmed and cannot be erased by * any FTFE command. Unprotected regions can be changed by program and erase * operations. The four FPROT registers allow up to 32 protectable regions of equal * memory size. Program flash protection register Program flash protection bits * FPROT0 PROT[31:24] FPROT1 PROT[23:16] FPROT2 PROT[15:8] FPROT3 PROT[7:0] During * the reset sequence, the FPROT registers are loaded with the contents of the * program flash protection bytes in the Flash Configuration Field as indicated in * the following table. Program flash protection register Flash Configuration Field * offset address FPROT0 0x000B FPROT1 0x000A FPROT2 0x0009 FPROT3 0x0008 To * change the program flash protection that is loaded during the reset sequence, * unprotect the sector of program flash memory that contains the Flash * Configuration Field. Then, reprogram the program flash protection byte. */ typedef union _hw_ftfe_fprot1 { uint8_t U; struct _hw_ftfe_fprot1_bitfields { uint8_t PROT : 8; /*!< [7:0] Program Flash Region Protect */ } B; } hw_ftfe_fprot1_t; /*! * @name Constants and macros for entire FTFE_FPROT1 register */ /*@{*/ #define HW_FTFE_FPROT1_ADDR(x) ((x) + 0x12U) #define HW_FTFE_FPROT1(x) (*(__IO hw_ftfe_fprot1_t *) HW_FTFE_FPROT1_ADDR(x)) #define HW_FTFE_FPROT1_RD(x) (HW_FTFE_FPROT1(x).U) #define HW_FTFE_FPROT1_WR(x, v) (HW_FTFE_FPROT1(x).U = (v)) #define HW_FTFE_FPROT1_SET(x, v) (HW_FTFE_FPROT1_WR(x, HW_FTFE_FPROT1_RD(x) | (v))) #define HW_FTFE_FPROT1_CLR(x, v) (HW_FTFE_FPROT1_WR(x, HW_FTFE_FPROT1_RD(x) & ~(v))) #define HW_FTFE_FPROT1_TOG(x, v) (HW_FTFE_FPROT1_WR(x, HW_FTFE_FPROT1_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FPROT1 bitfields */ /*! * @name Register FTFE_FPROT1, field PROT[7:0] (RW) * * Each program flash region can be protected from program and erase operations * by setting the associated PROT bit. In NVM Normal mode: The protection can * only be increased, meaning that currently unprotected memory can be protected, * but currently protected memory cannot be unprotected. Since unprotected regions * are marked with a 1 and protected regions use a 0, only writes changing 1s to * 0s are accepted. This 1-to-0 transition check is performed on a bit-by-bit * basis. Those FPROT bits with 1-to-0 transitions are accepted while all bits with * 0-to-1 transitions are ignored. In NVM Special mode: All bits of FPROT are * writable without restriction. Unprotected areas can be protected and protected * areas can be unprotected. The user must never write to any FPROT register while * a command is running (CCIF=0). Trying to alter data in any protected area in * the program flash memory results in a protection violation error and sets the * FSTAT[FPVIOL] bit. A full block erase of a program flash block is not possible * if it contains any protected region. * * Values: * - 0 - Program flash region is protected. * - 1 - Program flash region is not protected */ /*@{*/ #define BP_FTFE_FPROT1_PROT (0U) /*!< Bit position for FTFE_FPROT1_PROT. */ #define BM_FTFE_FPROT1_PROT (0xFFU) /*!< Bit mask for FTFE_FPROT1_PROT. */ #define BS_FTFE_FPROT1_PROT (8U) /*!< Bit field size in bits for FTFE_FPROT1_PROT. */ /*! @brief Read current value of the FTFE_FPROT1_PROT field. */ #define BR_FTFE_FPROT1_PROT(x) (HW_FTFE_FPROT1(x).U) /*! @brief Format value for bitfield FTFE_FPROT1_PROT. */ #define BF_FTFE_FPROT1_PROT(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FPROT1_PROT) & BM_FTFE_FPROT1_PROT) /*! @brief Set the PROT field to a new value. */ #define BW_FTFE_FPROT1_PROT(x, v) (HW_FTFE_FPROT1_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FPROT0 - Program Flash Protection Registers ******************************************************************************/ /*! * @brief HW_FTFE_FPROT0 - Program Flash Protection Registers (RW) * * Reset value: 0x00U * * The FPROT registers define which program flash regions are protected from * program and erase operations. Protected flash regions cannot have their content * changed; that is, these regions cannot be programmed and cannot be erased by * any FTFE command. Unprotected regions can be changed by program and erase * operations. The four FPROT registers allow up to 32 protectable regions of equal * memory size. Program flash protection register Program flash protection bits * FPROT0 PROT[31:24] FPROT1 PROT[23:16] FPROT2 PROT[15:8] FPROT3 PROT[7:0] During * the reset sequence, the FPROT registers are loaded with the contents of the * program flash protection bytes in the Flash Configuration Field as indicated in * the following table. Program flash protection register Flash Configuration Field * offset address FPROT0 0x000B FPROT1 0x000A FPROT2 0x0009 FPROT3 0x0008 To * change the program flash protection that is loaded during the reset sequence, * unprotect the sector of program flash memory that contains the Flash * Configuration Field. Then, reprogram the program flash protection byte. */ typedef union _hw_ftfe_fprot0 { uint8_t U; struct _hw_ftfe_fprot0_bitfields { uint8_t PROT : 8; /*!< [7:0] Program Flash Region Protect */ } B; } hw_ftfe_fprot0_t; /*! * @name Constants and macros for entire FTFE_FPROT0 register */ /*@{*/ #define HW_FTFE_FPROT0_ADDR(x) ((x) + 0x13U) #define HW_FTFE_FPROT0(x) (*(__IO hw_ftfe_fprot0_t *) HW_FTFE_FPROT0_ADDR(x)) #define HW_FTFE_FPROT0_RD(x) (HW_FTFE_FPROT0(x).U) #define HW_FTFE_FPROT0_WR(x, v) (HW_FTFE_FPROT0(x).U = (v)) #define HW_FTFE_FPROT0_SET(x, v) (HW_FTFE_FPROT0_WR(x, HW_FTFE_FPROT0_RD(x) | (v))) #define HW_FTFE_FPROT0_CLR(x, v) (HW_FTFE_FPROT0_WR(x, HW_FTFE_FPROT0_RD(x) & ~(v))) #define HW_FTFE_FPROT0_TOG(x, v) (HW_FTFE_FPROT0_WR(x, HW_FTFE_FPROT0_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FPROT0 bitfields */ /*! * @name Register FTFE_FPROT0, field PROT[7:0] (RW) * * Each program flash region can be protected from program and erase operations * by setting the associated PROT bit. In NVM Normal mode: The protection can * only be increased, meaning that currently unprotected memory can be protected, * but currently protected memory cannot be unprotected. Since unprotected regions * are marked with a 1 and protected regions use a 0, only writes changing 1s to * 0s are accepted. This 1-to-0 transition check is performed on a bit-by-bit * basis. Those FPROT bits with 1-to-0 transitions are accepted while all bits with * 0-to-1 transitions are ignored. In NVM Special mode: All bits of FPROT are * writable without restriction. Unprotected areas can be protected and protected * areas can be unprotected. The user must never write to any FPROT register while * a command is running (CCIF=0). Trying to alter data in any protected area in * the program flash memory results in a protection violation error and sets the * FSTAT[FPVIOL] bit. A full block erase of a program flash block is not possible * if it contains any protected region. * * Values: * - 0 - Program flash region is protected. * - 1 - Program flash region is not protected */ /*@{*/ #define BP_FTFE_FPROT0_PROT (0U) /*!< Bit position for FTFE_FPROT0_PROT. */ #define BM_FTFE_FPROT0_PROT (0xFFU) /*!< Bit mask for FTFE_FPROT0_PROT. */ #define BS_FTFE_FPROT0_PROT (8U) /*!< Bit field size in bits for FTFE_FPROT0_PROT. */ /*! @brief Read current value of the FTFE_FPROT0_PROT field. */ #define BR_FTFE_FPROT0_PROT(x) (HW_FTFE_FPROT0(x).U) /*! @brief Format value for bitfield FTFE_FPROT0_PROT. */ #define BF_FTFE_FPROT0_PROT(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FPROT0_PROT) & BM_FTFE_FPROT0_PROT) /*! @brief Set the PROT field to a new value. */ #define BW_FTFE_FPROT0_PROT(x, v) (HW_FTFE_FPROT0_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FEPROT - EEPROM Protection Register ******************************************************************************/ /*! * @brief HW_FTFE_FEPROT - EEPROM Protection Register (RW) * * Reset value: 0x00U * * For devices with FlexNVM: The FEPROT register defines which EEPROM regions of * the FlexRAM are protected against program and erase operations. Protected * EEPROM regions cannot have their content changed by writing to it. Unprotected * regions can be changed by writing to the FlexRAM. For devices with program flash * only: This register is reserved and not used. */ typedef union _hw_ftfe_feprot { uint8_t U; struct _hw_ftfe_feprot_bitfields { uint8_t EPROT : 8; /*!< [7:0] EEPROM Region Protect */ } B; } hw_ftfe_feprot_t; /*! * @name Constants and macros for entire FTFE_FEPROT register */ /*@{*/ #define HW_FTFE_FEPROT_ADDR(x) ((x) + 0x16U) #define HW_FTFE_FEPROT(x) (*(__IO hw_ftfe_feprot_t *) HW_FTFE_FEPROT_ADDR(x)) #define HW_FTFE_FEPROT_RD(x) (HW_FTFE_FEPROT(x).U) #define HW_FTFE_FEPROT_WR(x, v) (HW_FTFE_FEPROT(x).U = (v)) #define HW_FTFE_FEPROT_SET(x, v) (HW_FTFE_FEPROT_WR(x, HW_FTFE_FEPROT_RD(x) | (v))) #define HW_FTFE_FEPROT_CLR(x, v) (HW_FTFE_FEPROT_WR(x, HW_FTFE_FEPROT_RD(x) & ~(v))) #define HW_FTFE_FEPROT_TOG(x, v) (HW_FTFE_FEPROT_WR(x, HW_FTFE_FEPROT_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FEPROT bitfields */ /*! * @name Register FTFE_FEPROT, field EPROT[7:0] (RW) * * For devices with program flash only: Reserved For devices with FlexNVM: * Individual EEPROM regions can be protected from alteration by setting the * associated EPROT bit. The EPROT bits are not used when the FlexNVM Partition Code is * set to data flash only. When the FlexNVM Partition Code is set to data flash and * EEPROM or EEPROM only, each EPROT bit covers one-eighth of the configured * EEPROM data (see the EEPROM Data Set Size parameter description). In NVM Normal * mode: The protection can only be increased. This means that * currently-unprotected memory can be protected, but currently-protected memory cannot be * unprotected. Since unprotected regions are marked with a 1 and protected regions use a * 0, only writes changing 1s to 0s are accepted. This 1-to-0 transition check is * performed on a bit-by-bit basis. Those FEPROT bits with 1-to-0 transitions * are accepted while all bits with 0-to-1 transitions are ignored. In NVM Special * mode: All bits of the FEPROT register are writable without restriction. * Unprotected areas can be protected and protected areas can be unprotected. Never * write to the FEPROT register while a command is running (CCIF=0). Reset: During * the reset sequence, the FEPROT register is loaded with the contents of the * FlexRAM protection byte in the Flash Configuration Field located in program flash. * The flash basis for the reset values is signified by X in the register * diagram. To change the EEPROM protection that will be loaded during the reset * sequence, the sector of program flash that contains the Flash Configuration Field * must be unprotected; then the EEPROM protection byte must be erased and * reprogrammed. Trying to alter data by writing to any protected area in the EEPROM * results in a protection violation error and sets the FSTAT[FPVIOL] bit. * * Values: * - 0 - For devices with program flash only: Reserved For devices with FlexNVM: * EEPROM region is protected * - 1 - For devices with program flash only: Reserved For devices with FlexNVM: * EEPROM region is not protected */ /*@{*/ #define BP_FTFE_FEPROT_EPROT (0U) /*!< Bit position for FTFE_FEPROT_EPROT. */ #define BM_FTFE_FEPROT_EPROT (0xFFU) /*!< Bit mask for FTFE_FEPROT_EPROT. */ #define BS_FTFE_FEPROT_EPROT (8U) /*!< Bit field size in bits for FTFE_FEPROT_EPROT. */ /*! @brief Read current value of the FTFE_FEPROT_EPROT field. */ #define BR_FTFE_FEPROT_EPROT(x) (HW_FTFE_FEPROT(x).U) /*! @brief Format value for bitfield FTFE_FEPROT_EPROT. */ #define BF_FTFE_FEPROT_EPROT(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FEPROT_EPROT) & BM_FTFE_FEPROT_EPROT) /*! @brief Set the EPROT field to a new value. */ #define BW_FTFE_FEPROT_EPROT(x, v) (HW_FTFE_FEPROT_WR(x, v)) /*@}*/ /******************************************************************************* * HW_FTFE_FDPROT - Data Flash Protection Register ******************************************************************************/ /*! * @brief HW_FTFE_FDPROT - Data Flash Protection Register (RW) * * Reset value: 0x00U * * The FDPROT register defines which data flash regions are protected against * program and erase operations. Protected Flash regions cannot have their content * changed; that is, these regions cannot be programmed and cannot be erased by * any FTFE command. Unprotected regions can be changed by both program and erase * operations. */ typedef union _hw_ftfe_fdprot { uint8_t U; struct _hw_ftfe_fdprot_bitfields { uint8_t DPROT : 8; /*!< [7:0] Data Flash Region Protect */ } B; } hw_ftfe_fdprot_t; /*! * @name Constants and macros for entire FTFE_FDPROT register */ /*@{*/ #define HW_FTFE_FDPROT_ADDR(x) ((x) + 0x17U) #define HW_FTFE_FDPROT(x) (*(__IO hw_ftfe_fdprot_t *) HW_FTFE_FDPROT_ADDR(x)) #define HW_FTFE_FDPROT_RD(x) (HW_FTFE_FDPROT(x).U) #define HW_FTFE_FDPROT_WR(x, v) (HW_FTFE_FDPROT(x).U = (v)) #define HW_FTFE_FDPROT_SET(x, v) (HW_FTFE_FDPROT_WR(x, HW_FTFE_FDPROT_RD(x) | (v))) #define HW_FTFE_FDPROT_CLR(x, v) (HW_FTFE_FDPROT_WR(x, HW_FTFE_FDPROT_RD(x) & ~(v))) #define HW_FTFE_FDPROT_TOG(x, v) (HW_FTFE_FDPROT_WR(x, HW_FTFE_FDPROT_RD(x) ^ (v))) /*@}*/ /* * Constants & macros for individual FTFE_FDPROT bitfields */ /*! * @name Register FTFE_FDPROT, field DPROT[7:0] (RW) * * Individual data flash regions can be protected from program and erase * operations by setting the associated DPROT bit. Each DPROT bit protects one-eighth of * the partitioned data flash memory space. The granularity of data flash * protection cannot be less than the data flash sector size. If an unused DPROT bit is * set, the Erase all Blocks command does not execute and sets the FSTAT[FPVIOL] * bit. In NVM Normal mode: The protection can only be increased, meaning that * currently unprotected memory can be protected but currently protected memory * cannot be unprotected. Since unprotected regions are marked with a 1 and * protected regions use a 0, only writes changing 1s to 0s are accepted. This 1-to-0 * transition check is performed on a bit-by-bit basis. Those FDPROT bits with * 1-to-0 transitions are accepted while all bits with 0-to-1 transitions are * ignored. In NVM Special mode: All bits of the FDPROT register are writable without * restriction. Unprotected areas can be protected and protected areas can be * unprotected. The user must never write to the FDPROT register while a command is * running (CCIF=0). Reset: During the reset sequence, the FDPROT register is * loaded with the contents of the data flash protection byte in the Flash * Configuration Field located in program flash memory. The flash basis for the reset values * is signified by X in the register diagram. To change the data flash * protection that will be loaded during the reset sequence, unprotect the sector of * program flash that contains the Flash Configuration Field. Then, erase and * reprogram the data flash protection byte. Trying to alter data with the program and * erase commands in any protected area in the data flash memory results in a * protection violation error and sets the FSTAT[FPVIOL] bit. A block erase of any * data flash memory block (see the Erase Flash Block command description) is not * possible if the data flash block contains any protected region or if the FlexNVM * memory has been partitioned for EEPROM. * * Values: * - 0 - Data Flash region is protected * - 1 - Data Flash region is not protected */ /*@{*/ #define BP_FTFE_FDPROT_DPROT (0U) /*!< Bit position for FTFE_FDPROT_DPROT. */ #define BM_FTFE_FDPROT_DPROT (0xFFU) /*!< Bit mask for FTFE_FDPROT_DPROT. */ #define BS_FTFE_FDPROT_DPROT (8U) /*!< Bit field size in bits for FTFE_FDPROT_DPROT. */ /*! @brief Read current value of the FTFE_FDPROT_DPROT field. */ #define BR_FTFE_FDPROT_DPROT(x) (HW_FTFE_FDPROT(x).U) /*! @brief Format value for bitfield FTFE_FDPROT_DPROT. */ #define BF_FTFE_FDPROT_DPROT(v) ((uint8_t)((uint8_t)(v) << BP_FTFE_FDPROT_DPROT) & BM_FTFE_FDPROT_DPROT) /*! @brief Set the DPROT field to a new value. */ #define BW_FTFE_FDPROT_DPROT(x, v) (HW_FTFE_FDPROT_WR(x, v)) /*@}*/ /******************************************************************************* * hw_ftfe_t - module struct ******************************************************************************/ /*! * @brief All FTFE module registers. */ #pragma pack(1) typedef struct _hw_ftfe { __IO hw_ftfe_fstat_t FSTAT; /*!< [0x0] Flash Status Register */ __IO hw_ftfe_fcnfg_t FCNFG; /*!< [0x1] Flash Configuration Register */ __I hw_ftfe_fsec_t FSEC; /*!< [0x2] Flash Security Register */ __I hw_ftfe_fopt_t FOPT; /*!< [0x3] Flash Option Register */ __IO hw_ftfe_fccob3_t FCCOB3; /*!< [0x4] Flash Common Command Object Registers */ __IO hw_ftfe_fccob2_t FCCOB2; /*!< [0x5] Flash Common Command Object Registers */ __IO hw_ftfe_fccob1_t FCCOB1; /*!< [0x6] Flash Common Command Object Registers */ __IO hw_ftfe_fccob0_t FCCOB0; /*!< [0x7] Flash Common Command Object Registers */ __IO hw_ftfe_fccob7_t FCCOB7; /*!< [0x8] Flash Common Command Object Registers */ __IO hw_ftfe_fccob6_t FCCOB6; /*!< [0x9] Flash Common Command Object Registers */ __IO hw_ftfe_fccob5_t FCCOB5; /*!< [0xA] Flash Common Command Object Registers */ __IO hw_ftfe_fccob4_t FCCOB4; /*!< [0xB] Flash Common Command Object Registers */ __IO hw_ftfe_fccobb_t FCCOBB; /*!< [0xC] Flash Common Command Object Registers */ __IO hw_ftfe_fccoba_t FCCOBA; /*!< [0xD] Flash Common Command Object Registers */ __IO hw_ftfe_fccob9_t FCCOB9; /*!< [0xE] Flash Common Command Object Registers */ __IO hw_ftfe_fccob8_t FCCOB8; /*!< [0xF] Flash Common Command Object Registers */ __IO hw_ftfe_fprot3_t FPROT3; /*!< [0x10] Program Flash Protection Registers */ __IO hw_ftfe_fprot2_t FPROT2; /*!< [0x11] Program Flash Protection Registers */ __IO hw_ftfe_fprot1_t FPROT1; /*!< [0x12] Program Flash Protection Registers */ __IO hw_ftfe_fprot0_t FPROT0; /*!< [0x13] Program Flash Protection Registers */ uint8_t _reserved0[2]; __IO hw_ftfe_feprot_t FEPROT; /*!< [0x16] EEPROM Protection Register */ __IO hw_ftfe_fdprot_t FDPROT; /*!< [0x17] Data Flash Protection Register */ } hw_ftfe_t; #pragma pack() /*! @brief Macro to access all FTFE registers. */ /*! @param x FTFE module instance base address. */ /*! @return Reference (not a pointer) to the registers struct. To get a pointer to the struct, * use the '&' operator, like &HW_FTFE(FTFE_BASE). */ #define HW_FTFE(x) (*(hw_ftfe_t *)(x)) #endif /* __HW_FTFE_REGISTERS_H__ */ /* EOF */