/* --COPYRIGHT--,BSD * Copyright (c) 2014, Texas Instruments Incorporated * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * * Neither the name of Texas Instruments Incorporated nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * --/COPYRIGHT--*/ //***************************************************************************** // // mpu.h - Driver for the MPU Module. // //***************************************************************************** #ifndef __MSP430WARE_MPU_H__ #define __MSP430WARE_MPU_H__ #include "inc/hw_memmap.h" #ifdef __MSP430_HAS_MPU__ //***************************************************************************** // // If building with a C++ compiler, make all of the definitions in this header // have a C binding. // //***************************************************************************** #ifdef __cplusplus extern "C" { #endif #include "inc/hw_regaccess.h" //***************************************************************************** // //! \brief Used in the MPU_initThreeSegments() function as the param parameter. // //***************************************************************************** typedef struct MPU_initThreeSegmentsParam { //! Valid values can be found in the Family User's Guide uint16_t seg1boundary; //! Valid values can be found in the Family User's Guide uint16_t seg2boundary; //! Is the bit mask of access right for memory segment 1. //! \n Logical OR of any of the following: //! - \b MPU_READ //! - \b MPU_WRITE //! - \b MPU_EXEC //! - \b MPU_NO_READ_WRITE_EXEC uint8_t seg1accmask; //! Is the bit mask of access right for memory segment 2. //! \n Logical OR of any of the following: //! - \b MPU_READ //! - \b MPU_WRITE //! - \b MPU_EXEC //! - \b MPU_NO_READ_WRITE_EXEC uint8_t seg2accmask; //! Is the bit mask of access right for memory segment 3. //! \n Logical OR of any of the following: //! - \b MPU_READ //! - \b MPU_WRITE //! - \b MPU_EXEC //! - \b MPU_NO_READ_WRITE_EXEC uint8_t seg3accmask; } MPU_initThreeSegmentsParam; //***************************************************************************** // // The following are values that can be passed to the accmask parameter for // functions: MPU_initInfoSegment(); the seg2accmask parameter for functions: // MPU_initTwoSegments(); the seg1accmask parameter for functions: // MPU_initTwoSegments(); the param parameter for functions: // MPU_initThreeSegments(), MPU_initThreeSegments(), and // MPU_initThreeSegments(). // //***************************************************************************** #define MPU_READ MPUSEG1RE #define MPU_WRITE MPUSEG1WE #define MPU_EXEC MPUSEG1XE #define MPU_NO_READ_WRITE_EXEC (0x0000) //***************************************************************************** // // The following are values that can be passed to the segment parameter for // functions: MPU_enablePUCOnViolation(), and MPU_disablePUCOnViolation(). // //***************************************************************************** #define MPU_FIRST_SEG MPUSEG1VS #define MPU_SECOND_SEG MPUSEG2VS #define MPU_THIRD_SEG MPUSEG3VS #define MPU_INFO_SEG MPUSEGIVS //***************************************************************************** // // The following are values that can be passed to the memAccFlag parameter for // functions: MPU_getInterruptStatus(), and MPU_clearInterrupt() as well as // returned by the MPU_getInterruptStatus() function, the // MPU_clearAllInterrupts() function and the MPU_clearInterrupt() function. // //***************************************************************************** #define MPU_SEG_1_ACCESS_VIOLATION MPUSEG1IFG #define MPU_SEG_2_ACCESS_VIOLATION MPUSEG2IFG #define MPU_SEG_3_ACCESS_VIOLATION MPUSEG3IFG #define MPU_SEG_INFO_ACCESS_VIOLATION MPUSEGIIFG //***************************************************************************** // // Prototypes for the APIs. // //***************************************************************************** //***************************************************************************** // //! \brief Initializes MPU with two memory segments //! //! This function creates two memory segments in FRAM allowing the user to set //! access right to each segment. To set the correct value for seg1boundary, //! the user must consult the Device Family User's Guide and provide the MPUSBx //! value corresponding to the memory address where the user wants to create //! the partition. Consult the "Segment Border Setting" section in the User's //! Guide to find the options available for MPUSBx. //! //! \param baseAddress is the base address of the MPU module. //! \param seg1boundary Valid values can be found in the Family User's Guide //! \param seg1accmask is the bit mask of access right for memory segment 1. //! Mask value is the logical OR of any of the following: //! - \b MPU_READ - Read rights //! - \b MPU_WRITE - Write rights //! - \b MPU_EXEC - Execute rights //! - \b MPU_NO_READ_WRITE_EXEC - no read/write/execute rights //! \param seg2accmask is the bit mask of access right for memory segment 2 //! Mask value is the logical OR of any of the following: //! - \b MPU_READ - Read rights //! - \b MPU_WRITE - Write rights //! - \b MPU_EXEC - Execute rights //! - \b MPU_NO_READ_WRITE_EXEC - no read/write/execute rights //! //! Modified bits of \b MPUSAM register, bits of \b MPUSEG register and bits of //! \b MPUCTL0 register. //! //! \return None // //***************************************************************************** extern void MPU_initTwoSegments(uint16_t baseAddress, uint16_t seg1boundary, uint8_t seg1accmask, uint8_t seg2accmask); //***************************************************************************** // //! \brief Initializes MPU with three memory segments //! //! This function creates three memory segments in FRAM allowing the user to //! set access right to each segment. To set the correct value for //! seg1boundary, the user must consult the Device Family User's Guide and //! provide the MPUSBx value corresponding to the memory address where the user //! wants to create the partition. Consult the "Segment Border Setting" section //! in the User's Guide to find the options available for MPUSBx. //! //! \param baseAddress is the base address of the MPU module. //! \param param is the pointer to struct for initializing three segments. //! //! Modified bits of \b MPUSAM register, bits of \b MPUSEG register and bits of //! \b MPUCTL0 register. //! //! \return None // //***************************************************************************** extern void MPU_initThreeSegments(uint16_t baseAddress, MPU_initThreeSegmentsParam *param); //***************************************************************************** // //! \brief Initializes user information memory segment //! //! This function initializes user information memory segment with specified //! access rights. //! //! \param baseAddress is the base address of the MPU module. //! \param accmask is the bit mask of access right for user information memory //! segment. //! Mask value is the logical OR of any of the following: //! - \b MPU_READ - Read rights //! - \b MPU_WRITE - Write rights //! - \b MPU_EXEC - Execute rights //! - \b MPU_NO_READ_WRITE_EXEC - no read/write/execute rights //! //! Modified bits of \b MPUSAM register and bits of \b MPUCTL0 register. //! //! \return None // //***************************************************************************** extern void MPU_initInfoSegment(uint16_t baseAddress, uint8_t accmask); //***************************************************************************** // //! \brief The following function enables the NMI Event if a Segment violation //! has occurred. //! //! \param baseAddress is the base address of the MPU module. //! //! Modified bits of \b MPUCTL0 register. //! //! \return None // //***************************************************************************** extern void MPU_enableNMIevent(uint16_t baseAddress); //***************************************************************************** // //! \brief The following function enables the MPU module in the device. //! //! This function needs to be called once all memory segmentation has been //! done. If this function is not called the MPU module will not be activated. //! //! \param baseAddress is the base address of the MPU module. //! //! Modified bits of \b MPUCTL0 register. //! //! \return None // //***************************************************************************** extern void MPU_start(uint16_t baseAddress); //***************************************************************************** // //! \brief The following function enables PUC generation when an access //! violation has occurred on the memory segment selected by the user. //! //! Note that only specified segments for PUC generation are enabled. Other //! segments for PUC generation are left untouched. Users may call //! MPU_enablePUCOnViolation() and MPU_disablePUCOnViolation() to assure that //! all the bits will be set and/or cleared. //! //! \param baseAddress is the base address of the MPU module. //! \param segment is the bit mask of memory segment that will generate a PUC //! when an access violation occurs. //! Mask value is the logical OR of any of the following: //! - \b MPU_FIRST_SEG - PUC generation on first memory segment //! - \b MPU_SECOND_SEG - PUC generation on second memory segment //! - \b MPU_THIRD_SEG - PUC generation on third memory segment //! - \b MPU_INFO_SEG - PUC generation on user information memory //! segment //! //! Modified bits of \b MPUSAM register and bits of \b MPUCTL0 register. //! //! \return None // //***************************************************************************** extern void MPU_enablePUCOnViolation(uint16_t baseAddress, uint16_t segment); //***************************************************************************** // //! \brief The following function disables PUC generation when an access //! violation has occurred on the memory segment selected by the user. //! //! Note that only specified segments for PUC generation are disabled. Other //! segments for PUC generation are left untouched. Users may call //! MPU_enablePUCOnViolation() and MPU_disablePUCOnViolation() to assure that //! all the bits will be set and/or cleared. //! //! \param baseAddress is the base address of the MPU module. //! \param segment is the bit mask of memory segment that will NOT generate a //! PUC when an access violation occurs. //! Mask value is the logical OR of any of the following: //! - \b MPU_FIRST_SEG - PUC generation on first memory segment //! - \b MPU_SECOND_SEG - PUC generation on second memory segment //! - \b MPU_THIRD_SEG - PUC generation on third memory segment //! - \b MPU_INFO_SEG - PUC generation on user information memory //! segment //! //! Modified bits of \b MPUSAM register and bits of \b MPUCTL0 register. //! //! \return None // //***************************************************************************** extern void MPU_disablePUCOnViolation(uint16_t baseAddress, uint16_t segment); //***************************************************************************** // //! \brief Returns the memory segment violation flag status requested by the //! user. //! //! \param baseAddress is the base address of the MPU module. //! \param memAccFlag is the is the memory access violation flag. //! Mask value is the logical OR of any of the following: //! - \b MPU_SEG_1_ACCESS_VIOLATION - is set if an access violation in //! Main Memory Segment 1 is detected //! - \b MPU_SEG_2_ACCESS_VIOLATION - is set if an access violation in //! Main Memory Segment 2 is detected //! - \b MPU_SEG_3_ACCESS_VIOLATION - is set if an access violation in //! Main Memory Segment 3 is detected //! - \b MPU_SEG_INFO_ACCESS_VIOLATION - is set if an access violation //! in User Information Memory Segment is detected //! //! \return Logical OR of any of the following: //! - \b MPU_SEG_1_ACCESS_VIOLATION is set if an access violation in //! Main Memory Segment 1 is detected //! - \b MPU_SEG_2_ACCESS_VIOLATION is set if an access violation in //! Main Memory Segment 2 is detected //! - \b MPU_SEG_3_ACCESS_VIOLATION is set if an access violation in //! Main Memory Segment 3 is detected //! - \b MPU_SEG_INFO_ACCESS_VIOLATION is set if an access violation in //! User Information Memory Segment is detected //! \n indicating the status of the masked flags. // //***************************************************************************** extern uint16_t MPU_getInterruptStatus(uint16_t baseAddress, uint16_t memAccFlag); //***************************************************************************** // //! \brief Clears the masked interrupt flags //! //! Returns the memory segment violation flag status requested by the user or //! if user is providing a bit mask value, the function will return a value //! indicating if all flags were cleared. //! //! \param baseAddress is the base address of the MPU module. //! \param memAccFlag is the is the memory access violation flag. //! Mask value is the logical OR of any of the following: //! - \b MPU_SEG_1_ACCESS_VIOLATION - is set if an access violation in //! Main Memory Segment 1 is detected //! - \b MPU_SEG_2_ACCESS_VIOLATION - is set if an access violation in //! Main Memory Segment 2 is detected //! - \b MPU_SEG_3_ACCESS_VIOLATION - is set if an access violation in //! Main Memory Segment 3 is detected //! - \b MPU_SEG_INFO_ACCESS_VIOLATION - is set if an access violation //! in User Information Memory Segment is detected //! //! \return Logical OR of any of the following: //! - \b MPU_SEG_1_ACCESS_VIOLATION is set if an access violation in //! Main Memory Segment 1 is detected //! - \b MPU_SEG_2_ACCESS_VIOLATION is set if an access violation in //! Main Memory Segment 2 is detected //! - \b MPU_SEG_3_ACCESS_VIOLATION is set if an access violation in //! Main Memory Segment 3 is detected //! - \b MPU_SEG_INFO_ACCESS_VIOLATION is set if an access violation in //! User Information Memory Segment is detected //! \n indicating the status of the masked flags. // //***************************************************************************** extern uint16_t MPU_clearInterrupt(uint16_t baseAddress, uint16_t memAccFlag); //***************************************************************************** // //! \brief Clears all Memory Segment Access Violation Interrupt Flags. //! //! \param baseAddress is the base address of the MPU module. //! //! Modified bits of \b MPUCTL1 register. //! //! \return Logical OR of any of the following: //! - \b MPU_SEG_1_ACCESS_VIOLATION is set if an access violation in //! Main Memory Segment 1 is detected //! - \b MPU_SEG_2_ACCESS_VIOLATION is set if an access violation in //! Main Memory Segment 2 is detected //! - \b MPU_SEG_3_ACCESS_VIOLATION is set if an access violation in //! Main Memory Segment 3 is detected //! - \b MPU_SEG_INFO_ACCESS_VIOLATION is set if an access violation in //! User Information Memory Segment is detected //! \n indicating the status of the interrupt flags. // //***************************************************************************** extern uint16_t MPU_clearAllInterrupts(uint16_t baseAddress); //***************************************************************************** // //! \brief Lock MPU to protect from write access. //! //! Sets MPULOCK to protect MPU from write access on all MPU registers except //! MPUCTL1, MPUIPC0 and MPUIPSEGBx until a BOR occurs. MPULOCK bit cannot be //! cleared manually. MPU_clearInterrupt() and MPU_clearAllInterrupts() still //! can be used after this API is called. //! //! \param baseAddress is the base address of the MPU module. //! //! Modified bits are \b MPULOCK of \b MPUCTL1 register. //! //! \return None // //***************************************************************************** extern void MPU_lockMPU(uint16_t baseAddress); //***************************************************************************** // // Mark the end of the C bindings section for C++ compilers. // //***************************************************************************** #ifdef __cplusplus } #endif #endif #endif // __MSP430WARE_MPU_H__