rtt-f030/bsp/rm48x50/HALCoGen/include/sys_mpu.h

353 lines
13 KiB
C

/** @file sys_mpu.h
* @brief System Mpu Header File
* @date 29.May.2013
* @version 03.05.02
*
* This file contains:
* - Mpu Interface Functions
* .
* which are relevant for the memory protection unit driver.
*/
/* (c) Texas Instruments 2009-2013, All rights reserved. */
#ifndef __SYS_MPU_H__
#define __SYS_MPU_H__
#include "sys_common.h"
/* USER CODE BEGIN (0) */
/* USER CODE END */
/** @def mpuREGION1
* @brief Mpu region 1
*
* Alias for Mpu region 1
*/
#define mpuREGION1 0U
/** @def mpuREGION2
* @brief Mpu region 2
*
* Alias for Mpu region 1
*/
#define mpuREGION2 1U
/** @def mpuREGION3
* @brief Mpu region 3
*
* Alias for Mpu region 3
*/
#define mpuREGION3 2U
/** @def mpuREGION4
* @brief Mpu region 4
*
* Alias for Mpu region 4
*/
#define mpuREGION4 3U
/** @def mpuREGION5
* @brief Mpu region 5
*
* Alias for Mpu region 5
*/
#define mpuREGION5 4U
/** @def mpuREGION6
* @brief Mpu region 6
*
* Alias for Mpu region 6
*/
#define mpuREGION6 5U
/** @def mpuREGION7
* @brief Mpu region 7
*
* Alias for Mpu region 7
*/
#define mpuREGION7 6U
/** @def mpuREGION8
* @brief Mpu region 8
*
* Alias for Mpu region 8
*/
#define mpuREGION8 7U
/** @def mpuREGION9
* @brief Mpu region 9
*
* Alias for Mpu region 9
*/
#define mpuREGION9 8U
/** @def mpuREGION10
* @brief Mpu region 10
*
* Alias for Mpu region 10
*/
#define mpuREGION10 9U
/** @def mpuREGION11
* @brief Mpu region 11
*
* Alias for Mpu region 11
*/
#define mpuREGION11 10U
/** @def mpuREGION12
* @brief Mpu region 12
*
* Alias for Mpu region 12
*/
#define mpuREGION12 11U
/** @enum mpuRegionAccessPermission
* @brief Alias names for mpu region access permissions
*
* This enumeration is used to provide alias names for the mpu region access permission:
* - MPU_PRIV_NA_USER_NA_EXEC no access in privileged mode, no access in user mode and execute
* - MPU_PRIV_RW_USER_NA_EXEC read/write in privileged mode, no access in user mode and execute
* - MPU_PRIV_RW_USER_RO_EXEC read/write in privileged mode, read only in user mode and execute
* - MPU_PRIV_RW_USER_RW_EXEC read/write in privileged mode, read/write in user mode and execute
* - MPU_PRIV_RO_USER_NA_EXEC read only in privileged mode, no access in user mode and execute
* - MPU_PRIV_RO_USER_RO_EXEC read only in privileged mode, read only in user mode and execute
* - MPU_PRIV_NA_USER_NA_NOEXEC no access in privileged mode, no access in user mode and no execution
* - MPU_PRIV_RW_USER_NA_NOEXEC read/write in privileged mode, no access in user mode and no execution
* - MPU_PRIV_RW_USER_RO_NOEXEC read/write in privileged mode, read only in user mode and no execution
* - MPU_PRIV_RW_USER_RW_NOEXEC read/write in privileged mode, read/write in user mode and no execution
* - MPU_PRIV_RO_USER_NA_NOEXEC read only in privileged mode, no access in user mode and no execution
* - MPU_PRIV_RO_USER_RO_NOEXEC read only in privileged mode, read only in user mode and no execution
*
*/
enum mpuRegionAccessPermission
{
MPU_PRIV_NA_USER_NA_EXEC = 0x0000U, /**< Alias no access in privileged mode, no access in user mode and execute */
MPU_PRIV_RW_USER_NA_EXEC = 0x0100U, /**< Alias no read/write in privileged mode, no access in user mode and execute */
MPU_PRIV_RW_USER_RO_EXEC = 0x0200U, /**< Alias no read/write in privileged mode, read only in user mode and execute */
MPU_PRIV_RW_USER_RW_EXEC = 0x0300U, /**< Alias no read/write in privileged mode, read/write in user mode and execute */
MPU_PRIV_RO_USER_NA_EXEC = 0x0500U, /**< Alias no read only in privileged mode, no access in user mode and execute */
MPU_PRIV_RO_USER_RO_EXEC = 0x0600U, /**< Alias no read only in privileged mode, read only in user mode and execute */
MPU_PRIV_NA_USER_NA_NOEXEC = 0x1000U, /**< Alias no access in privileged mode, no access in user mode and no execution */
MPU_PRIV_RW_USER_NA_NOEXEC = 0x1100U, /**< Alias no read/write in privileged mode, no access in user mode and no execution */
MPU_PRIV_RW_USER_RO_NOEXEC = 0x1200U, /**< Alias no read/write in privileged mode, read only in user mode and no execution */
MPU_PRIV_RW_USER_RW_NOEXEC = 0x1300U, /**< Alias no read/write in privileged mode, read/write in user mode and no execution */
MPU_PRIV_RO_USER_NA_NOEXEC = 0x1500U, /**< Alias no read only in privileged mode, no access in user mode and no execution */
MPU_PRIV_RO_USER_RO_NOEXEC = 0x1600U /**< Alias no read only in privileged mode, read only in user mode and no execution */
};
/** @enum mpuRegionType
* @brief Alias names for mpu region type
*
* This enumeration is used to provide alias names for the mpu region type:
* - MPU_STRONGLYORDERED_SHAREABLE Memory type strongly ordered and sharable
* - MPU_DEVICE_SHAREABLE Memory type device and sharable
* - MPU_NORMAL_OIWTNOWA_NONSHARED Memory type normal outer and inner write-through, no write allocate and non shared
* - MPU_NORMAL_OIWTNOWA_SHARED Memory type normal outer and inner write-through, no write allocate and shared
* - MPU_NORMAL_OIWBNOWA_NONSHARED Memory type normal outer and inner write-back, no write allocate and non shared
* - MPU_NORMAL_OIWBNOWA_SHARED Memory type normal outer and inner write-back, no write allocate and shared
* - MPU_NORMAL_OINC_NONSHARED Memory type normal outer and inner non-cachable and non shared
* - MPU_NORMAL_OINC_SHARED Memory type normal outer and inner non-cachable and shared
* - MPU_NORMAL_OIWBWA_NONSHARED Memory type normal outer and inner write-back, write allocate and non shared
* - MPU_NORMAL_OIWBWA_SHARED Memory type normal outer and inner write-back, write allocate and shared
* - MPU_DEVICE_NONSHAREABLE Memory type device and non sharable
*/
enum mpuRegionType
{
MPU_STRONGLYORDERED_SHAREABLE = 0x0000U, /**< Memory type strongly ordered and sharable */
MPU_DEVICE_SHAREABLE = 0x0001U, /**< Memory type device and sharable */
MPU_NORMAL_OIWTNOWA_NONSHARED = 0x0002U, /**< Memory type normal outer and inner write-through, no write allocate and non shared */
MPU_NORMAL_OIWBNOWA_NONSHARED = 0x0003U, /**< Memory type normal outer and inner write-back, no write allocate and non shared */
MPU_NORMAL_OIWTNOWA_SHARED = 0x0006U, /**< Memory type normal outer and inner write-through, no write allocate and shared */
MPU_NORMAL_OIWBNOWA_SHARED = 0x0007U, /**< Memory type normal outer and inner write-back, no write allocate and shared */
MPU_NORMAL_OINC_NONSHARED = 0x0008U, /**< Memory type normal outer and inner non-cachable and non shared */
MPU_NORMAL_OIWBWA_NONSHARED = 0x000BU, /**< Memory type normal outer and inner write-back, write allocate and non shared */
MPU_NORMAL_OINC_SHARED = 0x000CU, /**< Memory type normal outer and inner non-cachable and shared */
MPU_NORMAL_OIWBWA_SHARED = 0x000FU, /**< Memory type normal outer and inner write-back, write allocate and shared */
MPU_DEVICE_NONSHAREABLE = 0x0010U /**< Memory type device and non sharable */
};
/** @enum mpuRegionSize
* @brief Alias names for mpu region type
*
* This enumeration is used to provide alias names for the mpu region type:
* - MPU_STRONGLYORDERED_SHAREABLE Memory type strongly ordered and sharable
* - MPU_32_BYTES Memory size in bytes
* - MPU_64_BYTES Memory size in bytes
* - MPU_128_BYTES Memory size in bytes
* - MPU_256_BYTES Memory size in bytes
* - MPU_512_BYTES Memory size in bytes
* - MPU_1_KB Memory size in kB
* - MPU_2_KB Memory size in kB
* - MPU_4_KB Memory size in kB
* - MPU_8_KB Memory size in kB
* - MPU_16_KB Memory size in kB
* - MPU_32_KB Memory size in kB
* - MPU_64_KB Memory size in kB
* - MPU_128_KB Memory size in kB
* - MPU_256_KB Memory size in kB
* - MPU_512_KB Memory size in kB
* - MPU_1_MB Memory size in MB
* - MPU_2_MB Memory size in MB
* - MPU_4_MB Memory size in MB
* - MPU_8_MBv Memory size in MB
* - MPU_16_MB Memory size in MB
* - MPU_32_MB Memory size in MB
* - MPU_64_MB Memory size in MB
* - MPU_128_MB Memory size in MB
* - MPU_256_MB Memory size in MB
* - MPU_512_MB Memory size in MB
* - MPU_1_GB Memory size in GB
* - MPU_2_GB Memory size in GB
* - MPU_4_GB Memory size in GB
*/
enum mpuRegionSize
{
MPU_32_BYTES = 0x04U, /**< Memory size in bytes */
MPU_64_BYTES = 0x05U, /**< Memory size in bytes */
MPU_128_BYTES = 0x06U, /**< Memory size in bytes */
MPU_256_BYTES = 0x07U, /**< Memory size in bytes */
MPU_512_BYTES = 0x08U, /**< Memory size in bytes */
MPU_1_KB = 0x09U, /**< Memory size in kB */
MPU_2_KB = 0x0AU, /**< Memory size in kB */
MPU_4_KB = 0x0BU, /**< Memory size in kB */
MPU_8_KB = 0x0CU, /**< Memory size in kB */
MPU_16_KB = 0x0DU, /**< Memory size in kB */
MPU_32_KB = 0x0EU, /**< Memory size in kB */
MPU_64_KB = 0x0FU, /**< Memory size in kB */
MPU_128_KB = 0x10U, /**< Memory size in kB */
MPU_256_KB = 0x11U, /**< Memory size in kB */
MPU_512_KB = 0x12U, /**< Memory size in kB */
MPU_1_MB = 0x13U, /**< Memory size in MB */
MPU_2_MB = 0x14U, /**< Memory size in MB */
MPU_4_MB = 0x15U, /**< Memory size in MB */
MPU_8_MB = 0x16U, /**< Memory size in MB */
MPU_16_MB = 0x17U, /**< Memory size in MB */
MPU_32_MB = 0x18U, /**< Memory size in MB */
MPU_64_MB = 0x19U, /**< Memory size in MB */
MPU_128_MB = 0x1AU, /**< Memory size in MB */
MPU_256_MB = 0x1BU, /**< Memory size in MB */
MPU_512_MB = 0x1CU, /**< Memory size in MB */
MPU_1_GB = 0x1DU, /**< Memory size in GB */
MPU_2_GB = 0x1EU, /**< Memory size in GB */
MPU_4_GB = 0x1FU /**< Memory size in GB */
};
/** @fn void _mpuInit_(void)
* @brief Initialize Mpu
*
* This function initializes memory protection unit.
*/
void _mpuInit_(void);
/** @fn void _mpuEnable_(void)
* @brief Enable Mpu
*
* This function enables memory protection unit.
*/
void _mpuEnable_(void);
/** @fn void _mpuDisable_(void)
* @brief Disable Mpu
*
* This function disables memory protection unit.
*/
void _mpuDisable_(void);
/** @fn void _mpuEnableBackgroundRegion_(void)
* @brief Enable Mpu background region
*
* This function enables background region of the memory protection unit.
*/
void _mpuEnableBackgroundRegion_(void);
/** @fn void _mpuDisableBackgroundRegion_(void)
* @brief Disable Mpu background region
*
* This function disables background region of the memory protection unit.
*/
void _mpuDisableBackgroundRegion_(void);
/** @fn uint32 _mpuGetNumberOfRegions_(void)
* @brief Returns number of implemented Mpu regions
* @return Number of implemented mpu regions
*
* This function returns the number of implemented mpu regions.
*/
uint32 _mpuGetNumberOfRegions_(void);
/** @fn uint32 _mpuAreRegionsSeparate_(void)
* @brief Returns the type of the implemented mpu regions
* @return Mpu type of regions
*
* This function returns 0 when mpu regions are of type unified otherwise regions are of type separate.
*/
uint32 _mpuAreRegionsSeparate_(void);
/** @fn void _mpuSetRegion_(uint32 region)
* @brief Set mpu region number
*
* This function selects one of the implemented mpu regions.
*/
void _mpuSetRegion_(uint32 region);
/** @fn uint32 _mpuGetRegion_(void)
* @brief Returns the currently selected mpu region
* @return Mpu region number
*
* This function returns currently selected mpu region number.
*/
uint32 _mpuGetRegion_(void);
/** @fn void _mpuSetRegionBaseAddress_(uint32 address)
* @brief Set base address of currently selected mpu region
* @note The base address must always aligned with region size
*
* This function sets the base address of currently selected mpu region.
*/
void _mpuSetRegionBaseAddress_(uint32 address);
/** @fn uint32 _mpuGetRegionBaseAddress_(void)
* @brief Returns base address of currently selected mpu region
* @return Current base address of selected mpu region
*
* This function returns the base address of currently selected mpu region.
*/
uint32 _mpuGetRegionBaseAddress_(void);
/** @fn void _mpuSetRegionTypeAndPermission_(uint32 type, uint32 permission)
* @brief Set type of currently selected mpu region
*
* This function sets the type of currently selected mpu region.
*/
void _mpuSetRegionTypeAndPermission_(uint32 type, uint32 permission);
/** @fn uint32 _mpuGetRegionType_(void)
* @brief Returns the type of currently selected mpu region
* @return Current type of selected mpu region
*
* This function returns the type of currently selected mpu region.
*/
uint32 _mpuGetRegionType_(void);
/** @fn uint32 _mpuGetRegionPermission_(void)
* @brief Returns permission of currently selected mpu region
* @return Current type of selected mpu region
*
* This function returns permission of currently selected mpu region.
*/
uint32 _mpuGetRegionPermission_(void);
/** @fn void _mpuSetRegionSizeRegister_(uint32 value)
* @brief Set mpu region size register value
*
* This function sets mpu region size register value.
*/
void _mpuSetRegionSizeRegister_(uint32 value);
#endif