The official Mbed 2 C/C++ SDK provides the software platform and libraries to build your applications.
Dependents: hello SerialTestv11 SerialTestv12 Sierpinski ... more
mbed 2
This is the mbed 2 library. If you'd like to learn about Mbed OS please see the mbed-os docs.
TARGET_KL82Z/TOOLCHAIN_IAR/fsl_mpu.h
- Committer:
- AnnaBridge
- Date:
- 2019-02-20
- Revision:
- 172:65be27845400
- Parent:
- 171:3a7713b1edbc
File content as of revision 172:65be27845400:
/* * Copyright (c) 2015, 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. */ #ifndef _FSL_MPU_H_ #define _FSL_MPU_H_ #include "fsl_common.h" /*! * @addtogroup mpu * @{ */ /******************************************************************************* * Definitions ******************************************************************************/ /*! @name Driver version */ /*@{*/ /*! @brief MPU driver version 2.1.0. */ #define FSL_MPU_DRIVER_VERSION (MAKE_VERSION(2, 1, 0)) /*@}*/ /*! @brief MPU the bit shift for masters with privilege rights: read write and execute. */ #define MPU_REGION_RWXRIGHTS_MASTER_SHIFT(n) (n * 6) /*! @brief MPU masters with read, write and execute rights bit mask. */ #define MPU_REGION_RWXRIGHTS_MASTER_MASK(n) (0x1Fu << MPU_REGION_RWXRIGHTS_MASTER_SHIFT(n)) /*! @brief MPU masters with read, write and execute rights bit width. */ #define MPU_REGION_RWXRIGHTS_MASTER_WIDTH 5 /*! @brief MPU masters with read, write and execute rights priority setting. */ #define MPU_REGION_RWXRIGHTS_MASTER(n, x) \ (((uint32_t)(((uint32_t)(x)) << MPU_REGION_RWXRIGHTS_MASTER_SHIFT(n))) & MPU_REGION_RWXRIGHTS_MASTER_MASK(n)) /*! @brief MPU masters with read, write and execute rights process enable bit shift. */ #define MPU_REGION_RWXRIGHTS_MASTER_PE_SHIFT(n) (n * 6 + MPU_REGION_RWXRIGHTS_MASTER_WIDTH) /*! @brief MPU masters with read, write and execute rights process enable bit mask. */ #define MPU_REGION_RWXRIGHTS_MASTER_PE_MASK(n) (0x1u << MPU_REGION_RWXRIGHTS_MASTER_PE_SHIFT(n)) /*! @brief MPU masters with read, write and execute rights process enable setting. */ #define MPU_REGION_RWXRIGHTS_MASTER_PE(n, x) \ (((uint32_t)(((uint32_t)(x)) << MPU_REGION_RWXRIGHTS_MASTER_PE_SHIFT(n))) & MPU_REGION_RWXRIGHTS_MASTER_PE_MASK(n)) /*! @brief MPU masters with normal read write permission bit shift. */ #define MPU_REGION_RWRIGHTS_MASTER_SHIFT(n) ((n - FSL_FEATURE_MPU_PRIVILEGED_RIGHTS_MASTER_COUNT) * 2 + 24) /*! @brief MPU masters with normal read write rights bit mask. */ #define MPU_REGION_RWRIGHTS_MASTER_MASK(n) (0x3u << MPU_REGION_RWRIGHTS_MASTER_SHIFT(n)) /*! @brief MPU masters with normal read write rights priority setting. */ #define MPU_REGION_RWRIGHTS_MASTER(n, x) \ (((uint32_t)(((uint32_t)(x)) << MPU_REGION_RWRIGHTS_MASTER_SHIFT(n))) & MPU_REGION_RWRIGHTS_MASTER_MASK(n)) /*! @brief Describes the number of MPU regions. */ typedef enum _mpu_region_total_num { kMPU_8Regions = 0x0U, /*!< MPU supports 8 regions. */ kMPU_12Regions = 0x1U, /*!< MPU supports 12 regions. */ kMPU_16Regions = 0x2U /*!< MPU supports 16 regions. */ } mpu_region_total_num_t; /*! @brief MPU slave port number. */ typedef enum _mpu_slave { kMPU_Slave0 = 4U, /*!< MPU slave port 0. */ kMPU_Slave1 = 3U, /*!< MPU slave port 1. */ kMPU_Slave2 = 2U, /*!< MPU slave port 2. */ kMPU_Slave3 = 1U, /*!< MPU slave port 3. */ kMPU_Slave4 = 0U /*!< MPU slave port 4. */ } mpu_slave_t; /*! @brief MPU error access control detail. */ typedef enum _mpu_err_access_control { kMPU_NoRegionHit = 0U, /*!< No region hit error. */ kMPU_NoneOverlappRegion = 1U, /*!< Access single region error. */ kMPU_OverlappRegion = 2U /*!< Access overlapping region error. */ } mpu_err_access_control_t; /*! @brief MPU error access type. */ typedef enum _mpu_err_access_type { kMPU_ErrTypeRead = 0U, /*!< MPU error access type --- read. */ kMPU_ErrTypeWrite = 1U /*!< MPU error access type --- write. */ } mpu_err_access_type_t; /*! @brief MPU access error attributes.*/ typedef enum _mpu_err_attributes { kMPU_InstructionAccessInUserMode = 0U, /*!< Access instruction error in user mode. */ kMPU_DataAccessInUserMode = 1U, /*!< Access data error in user mode. */ kMPU_InstructionAccessInSupervisorMode = 2U, /*!< Access instruction error in supervisor mode. */ kMPU_DataAccessInSupervisorMode = 3U /*!< Access data error in supervisor mode. */ } mpu_err_attributes_t; /*! @brief MPU access rights in supervisor mode for bus master 0 ~ 3. */ typedef enum _mpu_supervisor_access_rights { kMPU_SupervisorReadWriteExecute = 0U, /*!< Read write and execute operations are allowed in supervisor mode. */ kMPU_SupervisorReadExecute = 1U, /*!< Read and execute operations are allowed in supervisor mode. */ kMPU_SupervisorReadWrite = 2U, /*!< Read write operations are allowed in supervisor mode. */ kMPU_SupervisorEqualToUsermode = 3U /*!< Access permission equal to user mode. */ } mpu_supervisor_access_rights_t; /*! @brief MPU access rights in user mode for bus master 0 ~ 3. */ typedef enum _mpu_user_access_rights { kMPU_UserNoAccessRights = 0U, /*!< No access allowed in user mode. */ kMPU_UserExecute = 1U, /*!< Execute operation is allowed in user mode. */ kMPU_UserWrite = 2U, /*!< Write operation is allowed in user mode. */ kMPU_UserWriteExecute = 3U, /*!< Write and execute operations are allowed in user mode. */ kMPU_UserRead = 4U, /*!< Read is allowed in user mode. */ kMPU_UserReadExecute = 5U, /*!< Read and execute operations are allowed in user mode. */ kMPU_UserReadWrite = 6U, /*!< Read and write operations are allowed in user mode. */ kMPU_UserReadWriteExecute = 7U /*!< Read write and execute operations are allowed in user mode. */ } mpu_user_access_rights_t; /*! @brief MPU hardware basic information. */ typedef struct _mpu_hardware_info { uint8_t hardwareRevisionLevel; /*!< Specifies the MPU's hardware and definition reversion level. */ uint8_t slavePortsNumbers; /*!< Specifies the number of slave ports connected to MPU. */ mpu_region_total_num_t regionsNumbers; /*!< Indicates the number of region descriptors implemented. */ } mpu_hardware_info_t; /*! @brief MPU detail error access information. */ typedef struct _mpu_access_err_info { uint32_t master; /*!< Access error master. */ mpu_err_attributes_t attributes; /*!< Access error attributes. */ mpu_err_access_type_t accessType; /*!< Access error type. */ mpu_err_access_control_t accessControl; /*!< Access error control. */ uint32_t address; /*!< Access error address. */ #if FSL_FEATURE_MPU_HAS_PROCESS_IDENTIFIER uint8_t processorIdentification; /*!< Access error processor identification. */ #endif /* FSL_FEATURE_MPU_HAS_PROCESS_IDENTIFIER */ } mpu_access_err_info_t; /*! @brief MPU read/write/execute rights control for bus master 0 ~ 3. */ typedef struct _mpu_rwxrights_master_access_control { mpu_supervisor_access_rights_t superAccessRights; /*!< Master access rights in supervisor mode. */ mpu_user_access_rights_t userAccessRights; /*!< Master access rights in user mode. */ #if FSL_FEATURE_MPU_HAS_PROCESS_IDENTIFIER bool processIdentifierEnable; /*!< Enables or disables process identifier. */ #endif /* FSL_FEATURE_MPU_HAS_PROCESS_IDENTIFIER */ } mpu_rwxrights_master_access_control_t; /*! @brief MPU read/write access control for bus master 4 ~ 7. */ typedef struct _mpu_rwrights_master_access_control { bool writeEnable; /*!< Enables or disables write permission. */ bool readEnable; /*!< Enables or disables read permission. */ } mpu_rwrights_master_access_control_t; /*! * @brief MPU region configuration structure. * * This structure is used to configure the regionNum region. * The accessRights1[0] ~ accessRights1[3] are used to configure the bus master * 0 ~ 3 with the privilege rights setting. The accessRights2[0] ~ accessRights2[3] * are used to configure the high master 4 ~ 7 with the normal read write permission. * The master port assignment is the chip configuration. Normally, the core is the * master 0, debugger is the master 1. * Note: MPU assigns a priority scheme where the debugger is treated as the highest * priority master followed by the core and then all the remaining masters. * MPU protection does not allow writes from the core to affect the "regionNum 0" start * and end address nor the permissions associated with the debugger. It can only write * the permission fields associated with the other masters. This protection guarantee * the debugger always has access to the entire address space and those rights can't * be changed by the core or any other bus master. Prepare * the region configuration when regionNum is 0. */ typedef struct _mpu_region_config { uint32_t regionNum; /*!< MPU region number, range form 0 ~ FSL_FEATURE_MPU_DESCRIPTOR_COUNT - 1. */ uint32_t startAddress; /*!< Memory region start address. Note: bit0 ~ bit4 always be marked as 0 by MPU. The actual start address is 0-modulo-32 byte address. */ uint32_t endAddress; /*!< Memory region end address. Note: bit0 ~ bit4 always be marked as 1 by MPU. The actual end address is 31-modulo-32 byte address. */ mpu_rwxrights_master_access_control_t accessRights1[4]; /*!< Masters with read, write and execute rights setting. */ mpu_rwrights_master_access_control_t accessRights2[4]; /*!< Masters with normal read write rights setting. */ #if FSL_FEATURE_MPU_HAS_PROCESS_IDENTIFIER uint8_t processIdentifier; /*!< Process identifier used when "processIdentifierEnable" set with true. */ uint8_t processIdMask; /*!< Process identifier mask. The setting bit will ignore the same bit in process identifier. */ #endif /* FSL_FEATURE_MPU_HAS_PROCESS_IDENTIFIER */ } mpu_region_config_t; /*! * @brief The configuration structure for the MPU initialization. * * This structure is used when calling the MPU_Init function. */ typedef struct _mpu_config { mpu_region_config_t regionConfig; /*!< region access permission. */ struct _mpu_config *next; /*!< pointer to the next structure. */ } mpu_config_t; /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /* _cplusplus */ /*! * @name Initialization and deinitialization * @{ */ /*! * @brief Initializes the MPU with the user configuration structure. * * This function configures the MPU module with the user-defined configuration. * * @param base MPU peripheral base address. * @param config The pointer to the configuration structure. */ void MPU_Init(MPU_Type *base, const mpu_config_t *config); /*! * @brief Deinitializes the MPU regions. * * @param base MPU peripheral base address. */ void MPU_Deinit(MPU_Type *base); /* @}*/ /*! * @name Basic Control Operations * @{ */ /*! * @brief Enables/disables the MPU globally. * * Call this API to enable or disable the MPU module. * * @param base MPU peripheral base address. * @param enable True enable MPU, false disable MPU. */ static inline void MPU_Enable(MPU_Type *base, bool enable) { if (enable) { /* Enable the MPU globally. */ base->CESR |= MPU_CESR_VLD_MASK; } else { /* Disable the MPU globally. */ base->CESR &= ~MPU_CESR_VLD_MASK; } } /*! * @brief Enables/disables the MPU for a special region. * * When MPU is enabled, call this API to disable an unused region * of an enabled MPU. Call this API to minimize the power dissipation. * * @param base MPU peripheral base address. * @param number MPU region number. * @param enable True enable the special region MPU, false disable the special region MPU. */ static inline void MPU_RegionEnable(MPU_Type *base, uint32_t number, bool enable) { if (enable) { /* Enable the #number region MPU. */ base->WORD[number][3] |= MPU_WORD_VLD_MASK; } else { /* Disable the #number region MPU. */ base->WORD[number][3] &= ~MPU_WORD_VLD_MASK; } } /*! * @brief Gets the MPU basic hardware information. * * @param base MPU peripheral base address. * @param hardwareInform The pointer to the MPU hardware information structure. See "mpu_hardware_info_t". */ void MPU_GetHardwareInfo(MPU_Type *base, mpu_hardware_info_t *hardwareInform); /*! * @brief Sets the MPU region. * * Note: Due to the MPU protection, the Region number 0 does not allow writes from * core to affect the start and end address nor the permissions associated with * the debugger. It can only write the permission fields associated * with the other masters. * * @param base MPU peripheral base address. * @param regionConfig The pointer to the MPU user configuration structure. See "mpu_region_config_t". */ void MPU_SetRegionConfig(MPU_Type *base, const mpu_region_config_t *regionConfig); /*! * @brief Sets the region start and end address. * * Memory region start address. Note: bit0 ~ bit4 is always marked as 0 by MPU. * The actual start address by MPU is 0-modulo-32 byte address. * Memory region end address. Note: bit0 ~ bit4 always be marked as 1 by MPU. * The actual end address used by MPU is 31-modulo-32 byte address. * Note: Due to the MPU protection, the startAddr and endAddr can't be * changed by the core when regionNum is 0. * * @param base MPU peripheral base address. * @param regionNum MPU region number. The range is from 0 to * FSL_FEATURE_MPU_DESCRIPTOR_COUNT - 1. * @param startAddr Region start address. * @param endAddr Region end address. */ void MPU_SetRegionAddr(MPU_Type *base, uint32_t regionNum, uint32_t startAddr, uint32_t endAddr); /*! * @brief Sets the MPU region access rights for masters with read, write and execute rights. * The MPU access rights depend on two board classifications of bus masters. * The privilege rights masters and the normal rights masters. * The privilege rights masters have the read, write and execute access rights. * So except the normal read and write rights, the execute rights is also * allowed for these masters. The privilege rights masters are normally range from * bus masters 0 - 3. However, the maximum master number is device-specific. * See the "FSL_FEATURE_MPU_PRIVILEGED_RIGHTS_MASTER_MAX_INDEX". * The normal rights masters access rights control see * "MPU_SetRegionRwMasterAccessRights()". * * @param base MPU peripheral base address. * @param regionNum MPU region number. Should range from 0 to * FSL_FEATURE_MPU_DESCRIPTOR_COUNT - 1. * @param masterNum MPU bus master number. Should range from 0 to * FSL_FEATURE_MPU_PRIVILEGED_RIGHTS_MASTER_MAX_INDEX. * @param accessRights The pointer to the MPU access rights configuration. See "mpu_rwxrights_master_access_control_t". */ void MPU_SetRegionRwxMasterAccessRights(MPU_Type *base, uint32_t regionNum, uint32_t masterNum, const mpu_rwxrights_master_access_control_t *accessRights); /*! * @brief Sets the MPU region access rights for masters with read and write rights. * The MPU access rights depend on two board classifications of bus masters. * The privilege rights masters and the normal rights masters. * The normal rights masters only have the read and write access permissions. * The privilege rights access control see "MPU_SetRegionRwxMasterAccessRights". * * @param base MPU peripheral base address. * @param regionNum MPU region number. The range is from 0 to * FSL_FEATURE_MPU_DESCRIPTOR_COUNT - 1. * @param masterNum MPU bus master number. Should range from FSL_FEATURE_MPU_PRIVILEGED_RIGHTS_MASTER_COUNT * to ~ FSL_FEATURE_MPU_MASTER_MAX_INDEX. * @param accessRights The pointer to the MPU access rights configuration. See "mpu_rwrights_master_access_control_t". */ void MPU_SetRegionRwMasterAccessRights(MPU_Type *base, uint32_t regionNum, uint32_t masterNum, const mpu_rwrights_master_access_control_t *accessRights); /*! * @brief Gets the numbers of slave ports where errors occur. * * @param base MPU peripheral base address. * @param slaveNum MPU slave port number. * @return The slave ports error status. * true - error happens in this slave port. * false - error didn't happen in this slave port. */ bool MPU_GetSlavePortErrorStatus(MPU_Type *base, mpu_slave_t slaveNum); /*! * @brief Gets the MPU detailed error access information. * * @param base MPU peripheral base address. * @param slaveNum MPU slave port number. * @param errInform The pointer to the MPU access error information. See "mpu_access_err_info_t". */ void MPU_GetDetailErrorAccessInfo(MPU_Type *base, mpu_slave_t slaveNum, mpu_access_err_info_t *errInform); /* @} */ #if defined(__cplusplus) } #endif /*! @}*/ #endif /* _FSL_MPU_H_ */