FreeRTOS/Demo/CORTEX_A5_SAMA5D2x_Xplained_IAR/AtmelFiles/drivers/cortex-a/cp15.h - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 /* ----------------------------------------------------------------------------
  *         SAM Software Package License
  * ----------------------------------------------------------------------------
  * Copyright (c) 2015, Atmel Corporation
  *
  * 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 disclaimer below.
  *
  * Atmel's name may not be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
  * DISCLAIMED. IN NO EVENT SHALL ATMEL 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 _CP15_H
 #define _CP15_H

 #include <stdint.h>

 /*----------------------------------------------------------------------------
  *        Definition
  *----------------------------------------------------------------------------*/
 #define CP15_L4_BIT 15		// Determines if the T bit is set when load instructions
 // change the PC:
 // 0 = loads to PC set the T bit
 // 1 = loads to PC do not set T bit

 #define CP15_RR_BIT 14		// RR bit Replacement strategy for Icache and Dcache:
 // 0 = Random replacement
 // 1 = Round-robin replacement.

 #define CP15_V_BIT  13		// V bit Location of exception vectors:
 // 0 = Normal exception vectors selected address range = 0x0000 0000 to 0x0000 001C
 // 1 = High exception vect selected, address range = 0xFFFF 0000 to 0xFFFF 001C

 #define CP15_I_BIT  12		// I bit Icache enable/disable:
 // 0 = Icache disabled
 // 1 = Icache enabled

 #define CP15_R_BIT   9		// R bit ROM protection

 #define CP15_S_BIT   8		// S bit System protection

 #define CP15_B_BIT   7		// B bit Endianness:
 // 0 = Little-endian operation
 // 1 = Big-endian operation.

 #define CP15_C_BIT   2		// C bit Dcache enable/disable:
 // 0 = cache disabled
 // 1 = cache enabled

 #define CP15_A_BIT   1		// A bit Alignment fault enable/disable:
 // 0 = Data address alignment fault checking disabled
 // 1 = Data address alignment fault checking enabled

 #define CP15_M_BIT   0		// M bit MMU enable/disable: 0 = disabled 1 = enabled.
 // 0 = disabled
 // 1 = enabled

 /** No access Any access generates a domain fault. */
 #define CP15_DOMAIN_NO_ACCESS      0x00
 /** Client Accesses are checked against the access permission bits in the section or page descriptor. */
 #define CP15_DOMAIN_CLIENT_ACCESS  0x01
 /** Manager Accesses are not checked against the access permission bits so a permission fault cannot be generated. */
 #define CP15_DOMAIN_MANAGER_ACCESS 0x03

 #define CP15_ICache             1
 #define CP15_DCache             0

 #define CP15_PMCNTENSET_ENABLE  31
 #define CP15_PMCR_DIVIDER       3
 #define CP15_PMCR_RESET         2
 #define CP15_PMCR_ENABLE        0

 /*------------------------------------------------------------------------------ */
 /*         Exported functions */
 /*------------------------------------------------------------------------------ */

 /**
  * \brief Read the Main ID Register (MIDR).
  * \return register contents
  */
 extern unsigned int cp15_read_id(void);

 /**
  * \brief Read the System Control Register (SCTLR).
  * \return register contents
  */
 extern unsigned int cp15_read_control(void);

 /**
  * \brief Indicate CPU that L2 is in exclusive caching mode.
  */
 extern void cp15_exclusive_cache(void);

 /**
  * \brief Allow data to reside in the L1 and L2 caches at the same time.
  */
 extern void cp15_non_exclusive_cache(void);

 /**
  * \brief Instruction Synchronization Barrier operation.
  */
 extern void cp15_isb(void);

 /**
  * \brief Data Synchronization Barrier operation.
  */
 extern void cp15_dsb(void);

 /**
  * \brief Data Memory Barrier operation.
  */
 extern void cp15_dmb(void);

 /**
  * \brief Invalidate unified Translation Lookaside Buffer.
  */
 extern void cp15_invalidate_tlb(void);

 /**
  * \brief Select the data cache as the one to later retrieve architecture
  *      information about.
  */
 extern void cp15_select_dcache(void);

 /**
  * \brief Select the instruction cache as the one to later retrieve architecture
  *      information about.
  */
 extern void cp15_select_icache(void);

 /**
  * \brief Modify the System Control Register (SCTLR).
  *      This register specifies the configuration used to enable and disable the
  *      caches and MMU.
  *      It is recommended that you access this register using a read-modify-
  *      write sequence.
  * \param value new value for SCTLR
  */
 extern void cp15_write_control(unsigned int value);

 /**
  * \brief ARMv7A architecture supports two translation tables.
  *      Configure translation table base (TTB) control register 0.
  * \param value address of our page table base
  */
 extern void cp15_write_ttb(unsigned int value);

 /**
  * \brief Modify the Domain Access Control Register (DACR).
  * \param value new value for DACR
  */
 extern void cp15_write_domain_access_control(unsigned int value);

 /**
  * \brief Invalidate I cache predictor array to point of unification Inner
  *      Shareable.
  */
 extern void cp15_invalid_icache_inner_sharable(void);

 /**
  * \brief Invalidate entire branch predictor array Inner Shareable
  */
 extern void cp15_invalid_btb_inner_sharable(void);

 /**
  * \brief Invalidate all instruction caches to point of unification.
  *      Also flush branch target cache.
  */
 extern void cp15_invalid_icache(void);

 /**
  * \brief Invalidate instruction caches by virtual address to point of
  *      unification.
  */
 extern void cp15_invalid_icache_by_mva(void);

 /**
  * \brief Invalidate entire branch predictor array.
  */
 extern void cp15_invalid_btb(void);

 /**
  * \brief Invalidate branch predictor array entry by modified virtual address.
  * \param addr virtual address
  */
 extern void cp15_invalid_btb_by_mva(uint32_t addr);

 /**
  * \brief Invalidate entire data cache by set/way.
  *      Should be called further to cp15_select_dcache(), not
  *      cp15_select_icache().
  */
 extern void cp15_invalid_dcache_by_set_way(void);

 /**
  * \brief Clean entire data cache by set/way.
  *      Should be called further to cp15_select_dcache(), not
  *      cp15_select_icache().
  */
 extern void cp15_clean_dcache_by_set_way(void);

 /**
  * \brief Clean and invalidate entire data cache by set/way
  *      Should be called further to cp15_select_dcache(), not
  *      cp15_select_icache().
  */
 extern void cp15_clean_invalid_dcache_by_set_way(void);

 /**
  * \brief Invalidate data cache by virtual address to point of coherency.
  * \param start virtual start address of region
  * \param end virtual end address of region
  */
 extern void cp15_invalid_dcache_by_mva(uint32_t start, uint32_t end);

 /**
  * \brief Clean data cache by modified virtual address to point of coherency.
  * \param start virtual start address of region
  * \param end virtual end address of region
  */
 extern void cp15_clean_dcache_by_mva(uint32_t start, uint32_t end);

 /**
  * \brief Clean and invalidate data cache by virtual address to point of
  *      coherency.
  * \param start virtual start address of region
  * \param end virtual end address of region
  */
 extern void cp15_clean_invalid_dcache_by_mva(uint32_t start, uint32_t end);

 /**
  * \brief Clean unified cache by modified virtual address to point of
  *      unification.
  */
 extern void cp15_clean_dcache_umva(void);

 /**
  * \brief Ensure that the I and D caches are coherent within the specified
  *      region. This is typically used when code has been written to
  *      a memory region, and will be executed.
  * \param start virtual start address of region
  * \param end virtual end address of region
  */
 extern void cp15_coherent_dcache_for_dma(uint32_t start, uint32_t end);

 /**
  * \brief Invalidate the data cache within the specified region; we will
  *      be performing a DMA operation in this region and we want to purge the
  *      cache of old data. Cache data will be discarded, not flushed.
  *      The specified region should be aligned on cache lines. Otherwise mind
  *      the data loss that may occur in the collateral part of start/end lines,
  *      since cache data won't be flushed.
  * \param start virtual start address of region
  * \param end virtual end address of region
  */
 extern void cp15_invalidate_dcache_for_dma(uint32_t start, uint32_t end);

 /**
  * \brief Clean the data cache within the specified region.
  * \param start virtual start address of region
  * \param end virtual end address of region
  */
 extern void cp15_clean_dcache_for_dma(uint32_t start, uint32_t end);

 /**
  * \brief Flush, i.e. clean and invalidate, the data cache within the specified
  *      region.
  * \param start virtual start address of region
  * \param end virtual end address of region
  */
 extern void cp15_flush_dcache_for_dma(uint32_t start, uint32_t end);

 /*------------------------------------------------------------------------------ */
 /*         Exported functions  from CP15.c                                       */
 /*------------------------------------------------------------------------------ */

 /** MMU (Status/Enable/Disable) */
 extern unsigned int cp15_is_mmu_enabled(void);
 extern void cp15_enable_mmu(void);
 extern void cp15_disable_mmu(void);

 /** I cache (Status/Enable/Disable) */
 extern unsigned int cp15_is_icached_enabled(void);
 extern void cp15_enable_icache(void);
 extern void cp15_disable_icache(void);

 /** D cache (Status/Enable/Disable) */
 extern unsigned int cp15_is_dcache_enabled(void);
 extern void cp15_enable_dcache(void);
 extern void cp15_disable_dcache(void);

 extern void cp15_dcache_clean(void);
 extern void cp15_dcache_invalidate(void);
 extern void cp15_icache_invalidate(void);
 extern void cp15_dcache_flush(void);
 extern void cp15_invalid_dcache_by_va(uint32_t S_Add, uint32_t E_Add);
 extern void cp15_clean_dcache_by_va(uint32_t S_Add, uint32_t E_Add);
 extern void cp15_flush_dcache_by_va(uint32_t S_Add, uint32_t E_Add);

 #endif				// #ifndef _CP15_H
	/* ----------------------------------------------------------------------------
	* SAM Software Package License
	* ----------------------------------------------------------------------------
	* Copyright (c) 2015, Atmel Corporation
	*
	* 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 disclaimer below.
	*
	* Atmel's name may not be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
	* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
	* DISCLAIMED. IN NO EVENT SHALL ATMEL 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 _CP15_H
	#define _CP15_H

	#include <stdint.h>

	/*----------------------------------------------------------------------------
	* Definition
	----------------------------------------------------------------------------/
	#define CP15_L4_BIT 15 // Determines if the T bit is set when load instructions
	// change the PC:
	// 0 = loads to PC set the T bit
	// 1 = loads to PC do not set T bit

	#define CP15_RR_BIT 14 // RR bit Replacement strategy for Icache and Dcache:
	// 0 = Random replacement
	// 1 = Round-robin replacement.

	#define CP15_V_BIT 13 // V bit Location of exception vectors:
	// 0 = Normal exception vectors selected address range = 0x0000 0000 to 0x0000 001C
	// 1 = High exception vect selected, address range = 0xFFFF 0000 to 0xFFFF 001C

	#define CP15_I_BIT 12 // I bit Icache enable/disable:
	// 0 = Icache disabled
	// 1 = Icache enabled

	#define CP15_R_BIT 9 // R bit ROM protection

	#define CP15_S_BIT 8 // S bit System protection

	#define CP15_B_BIT 7 // B bit Endianness:
	// 0 = Little-endian operation
	// 1 = Big-endian operation.

	#define CP15_C_BIT 2 // C bit Dcache enable/disable:
	// 0 = cache disabled
	// 1 = cache enabled

	#define CP15_A_BIT 1 // A bit Alignment fault enable/disable:
	// 0 = Data address alignment fault checking disabled
	// 1 = Data address alignment fault checking enabled

	#define CP15_M_BIT 0 // M bit MMU enable/disable: 0 = disabled 1 = enabled.
	// 0 = disabled
	// 1 = enabled

	/** No access Any access generates a domain fault. */
	#define CP15_DOMAIN_NO_ACCESS 0x00
	/** Client Accesses are checked against the access permission bits in the section or page descriptor. */
	#define CP15_DOMAIN_CLIENT_ACCESS 0x01
	/** Manager Accesses are not checked against the access permission bits so a permission fault cannot be generated. */
	#define CP15_DOMAIN_MANAGER_ACCESS 0x03

	#define CP15_ICache 1
	#define CP15_DCache 0

	#define CP15_PMCNTENSET_ENABLE 31
	#define CP15_PMCR_DIVIDER 3
	#define CP15_PMCR_RESET 2
	#define CP15_PMCR_ENABLE 0

	/------------------------------------------------------------------------------ /
	/* Exported functions */
	/------------------------------------------------------------------------------ /

	/**
	* \brief Read the Main ID Register (MIDR).
	* \return register contents
	*/
	extern unsigned int cp15_read_id(void);

	/**
	* \brief Read the System Control Register (SCTLR).
	* \return register contents
	*/
	extern unsigned int cp15_read_control(void);

	/**
	* \brief Indicate CPU that L2 is in exclusive caching mode.
	*/
	extern void cp15_exclusive_cache(void);

	/**
	* \brief Allow data to reside in the L1 and L2 caches at the same time.
	*/
	extern void cp15_non_exclusive_cache(void);

	/**
	* \brief Instruction Synchronization Barrier operation.
	*/
	extern void cp15_isb(void);

	/**
	* \brief Data Synchronization Barrier operation.
	*/
	extern void cp15_dsb(void);

	/**
	* \brief Data Memory Barrier operation.
	*/
	extern void cp15_dmb(void);

	/**
	* \brief Invalidate unified Translation Lookaside Buffer.
	*/
	extern void cp15_invalidate_tlb(void);

	/**
	* \brief Select the data cache as the one to later retrieve architecture
	* information about.
	*/
	extern void cp15_select_dcache(void);

	/**
	* \brief Select the instruction cache as the one to later retrieve architecture
	* information about.
	*/
	extern void cp15_select_icache(void);

	/**
	* \brief Modify the System Control Register (SCTLR).
	* This register specifies the configuration used to enable and disable the
	* caches and MMU.
	* It is recommended that you access this register using a read-modify-
	* write sequence.
	* \param value new value for SCTLR
	*/
	extern void cp15_write_control(unsigned int value);

	/**
	* \brief ARMv7A architecture supports two translation tables.
	* Configure translation table base (TTB) control register 0.
	* \param value address of our page table base
	*/
	extern void cp15_write_ttb(unsigned int value);

	/**
	* \brief Modify the Domain Access Control Register (DACR).
	* \param value new value for DACR
	*/
	extern void cp15_write_domain_access_control(unsigned int value);

	/**
	* \brief Invalidate I cache predictor array to point of unification Inner
	* Shareable.
	*/
	extern void cp15_invalid_icache_inner_sharable(void);

	/**
	* \brief Invalidate entire branch predictor array Inner Shareable
	*/
	extern void cp15_invalid_btb_inner_sharable(void);

	/**
	* \brief Invalidate all instruction caches to point of unification.
	* Also flush branch target cache.
	*/
	extern void cp15_invalid_icache(void);

	/**
	* \brief Invalidate instruction caches by virtual address to point of
	* unification.
	*/
	extern void cp15_invalid_icache_by_mva(void);

	/**
	* \brief Invalidate entire branch predictor array.
	*/
	extern void cp15_invalid_btb(void);

	/**
	* \brief Invalidate branch predictor array entry by modified virtual address.
	* \param addr virtual address
	*/
	extern void cp15_invalid_btb_by_mva(uint32_t addr);

	/**
	* \brief Invalidate entire data cache by set/way.
	* Should be called further to cp15_select_dcache(), not
	* cp15_select_icache().
	*/
	extern void cp15_invalid_dcache_by_set_way(void);

	/**
	* \brief Clean entire data cache by set/way.
	* Should be called further to cp15_select_dcache(), not
	* cp15_select_icache().
	*/
	extern void cp15_clean_dcache_by_set_way(void);

	/**
	* \brief Clean and invalidate entire data cache by set/way
	* Should be called further to cp15_select_dcache(), not
	* cp15_select_icache().
	*/
	extern void cp15_clean_invalid_dcache_by_set_way(void);

	/**
	* \brief Invalidate data cache by virtual address to point of coherency.
	* \param start virtual start address of region
	* \param end virtual end address of region
	*/
	extern void cp15_invalid_dcache_by_mva(uint32_t start, uint32_t end);

	/**
	* \brief Clean data cache by modified virtual address to point of coherency.
	* \param start virtual start address of region
	* \param end virtual end address of region
	*/
	extern void cp15_clean_dcache_by_mva(uint32_t start, uint32_t end);

	/**
	* \brief Clean and invalidate data cache by virtual address to point of
	* coherency.
	* \param start virtual start address of region
	* \param end virtual end address of region
	*/
	extern void cp15_clean_invalid_dcache_by_mva(uint32_t start, uint32_t end);

	/**
	* \brief Clean unified cache by modified virtual address to point of
	* unification.
	*/
	extern void cp15_clean_dcache_umva(void);

	/**
	* \brief Ensure that the I and D caches are coherent within the specified
	* region. This is typically used when code has been written to
	* a memory region, and will be executed.
	* \param start virtual start address of region
	* \param end virtual end address of region
	*/
	extern void cp15_coherent_dcache_for_dma(uint32_t start, uint32_t end);

	/**
	* \brief Invalidate the data cache within the specified region; we will
	* be performing a DMA operation in this region and we want to purge the
	* cache of old data. Cache data will be discarded, not flushed.
	* The specified region should be aligned on cache lines. Otherwise mind
	* the data loss that may occur in the collateral part of start/end lines,
	* since cache data won't be flushed.
	* \param start virtual start address of region
	* \param end virtual end address of region
	*/
	extern void cp15_invalidate_dcache_for_dma(uint32_t start, uint32_t end);

	/**
	* \brief Clean the data cache within the specified region.
	* \param start virtual start address of region
	* \param end virtual end address of region
	*/
	extern void cp15_clean_dcache_for_dma(uint32_t start, uint32_t end);

	/**
	* \brief Flush, i.e. clean and invalidate, the data cache within the specified
	* region.
	* \param start virtual start address of region
	* \param end virtual end address of region
	*/
	extern void cp15_flush_dcache_for_dma(uint32_t start, uint32_t end);

	/------------------------------------------------------------------------------ /
	/* Exported functions from CP15.c */
	/------------------------------------------------------------------------------ /

	/** MMU (Status/Enable/Disable) */
	extern unsigned int cp15_is_mmu_enabled(void);
	extern void cp15_enable_mmu(void);
	extern void cp15_disable_mmu(void);

	/** I cache (Status/Enable/Disable) */
	extern unsigned int cp15_is_icached_enabled(void);
	extern void cp15_enable_icache(void);
	extern void cp15_disable_icache(void);

	/** D cache (Status/Enable/Disable) */
	extern unsigned int cp15_is_dcache_enabled(void);
	extern void cp15_enable_dcache(void);
	extern void cp15_disable_dcache(void);

	extern void cp15_dcache_clean(void);
	extern void cp15_dcache_invalidate(void);
	extern void cp15_icache_invalidate(void);
	extern void cp15_dcache_flush(void);
	extern void cp15_invalid_dcache_by_va(uint32_t S_Add, uint32_t E_Add);
	extern void cp15_clean_dcache_by_va(uint32_t S_Add, uint32_t E_Add);
	extern void cp15_flush_dcache_by_va(uint32_t S_Add, uint32_t E_Add);

	#endif // #ifndef _CP15_H