OVMS3-idf/components/esp_rom/include/esp32s3/rom/cache.h

// Copyright 2015-2020 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

#pragma once

#include <stdint.h>

#ifdef __cplusplus
extern "C" {
#endif

#ifndef BIT
#define BIT(nr)  (1 << (nr))
#endif

/** \defgroup cache_apis, cache operation related apis
  * @brief cache apis
  */

/** @addtogroup cache_apis
  * @{
  */
#define MIN_ICACHE_SIZE                 16384
#define MAX_ICACHE_SIZE                 32768
#define MIN_DCACHE_SIZE                 32768
#define MAX_DCACHE_SIZE                 65536
#define MIN_ICACHE_WAYS                 4
#define MAX_ICACHE_WAYS                 8
#define MIN_DCACHE_WAYS                 4
#define MAX_DCACHE_WAYS                 4
#define MAX_CACHE_WAYS                  8
#define MIN_CACHE_LINE_SIZE             16
#define TAG_SIZE                        4
#define MIN_ICACHE_BANK_NUM             1
#define MAX_ICACHE_BANK_NUM             2
#define MIN_DCACHE_BANK_NUM             1
#define MAX_DCACHE_BANK_NUM             2
#define CACHE_MEMORY_BANK_NUM           4
#define CACHE_MEMORY_IBANK_SIZE         0x4000
#define CACHE_MEMORY_DBANK_SIZE         0x8000

#define MAX_ITAG_BANK_ITEMS             (MAX_ICACHE_SIZE / MAX_ICACHE_BANK_NUM / MIN_CACHE_LINE_SIZE)
#define MAX_ITAG_BLOCK_ITEMS            (MAX_ICACHE_SIZE / MAX_ICACHE_BANK_NUM / MAX_ICACHE_WAYS / MIN_CACHE_LINE_SIZE)
#define MAX_ITAG_BANK_SIZE              (MAX_ITAG_BANK_ITEMS * TAG_SIZE)
#define MAX_ITAG_BLOCK_SIZE             (MAX_ITAG_BLOCK_ITEMS * TAG_SIZE)
#define MAX_DTAG_BANK_ITEMS             (MAX_DCACHE_SIZE / MAX_DCACHE_BANK_NUM /  MIN_CACHE_LINE_SIZE)
#define MAX_DTAG_BLOCK_ITEMS            (MAX_DCACHE_SIZE / MAX_DCACHE_BANK_NUM / MAX_DCACHE_WAYS / MIN_CACHE_LINE_SIZE)
#define MAX_DTAG_BANK_SIZE              (MAX_DTAG_BANK_ITEMS * TAG_SIZE)
#define MAX_DTAG_BLOCK_SIZE             (MAX_DTAG_BLOCK_ITEMS * TAG_SIZE)

typedef enum {
    CACHE_DCACHE = 0,
    CACHE_ICACHE0 = 1,
    CACHE_ICACHE1 = 2,
} cache_t;

typedef enum {
    CACHE_MEMORY_INVALID = 0,
    CACHE_MEMORY_IBANK0 = BIT(0),
    CACHE_MEMORY_IBANK1 = BIT(1),
    CACHE_MEMORY_IBANK2 = BIT(2),
    CACHE_MEMORY_IBANK3 = BIT(3),
    CACHE_MEMORY_DBANK0 = BIT(0),
    CACHE_MEMORY_DBANK1 = BIT(1),
    CACHE_MEMORY_DBANK2 = BIT(2),
    CACHE_MEMORY_DBANK3 = BIT(3),
} cache_array_t;

#define ICACHE_SIZE_16KB  CACHE_SIZE_HALF
#define ICACHE_SIZE_32KB  CACHE_SIZE_FULL
#define DCACHE_SIZE_32KB  CACHE_SIZE_HALF
#define DCACHE_SIZE_64KB  CACHE_SIZE_FULL

typedef enum {
    CACHE_SIZE_HALF = 0,                /*!< 8KB for icache and dcache */
    CACHE_SIZE_FULL = 1,                /*!< 16KB for icache and dcache */
} cache_size_t;

typedef enum {
    CACHE_4WAYS_ASSOC = 0,              /*!< 4 way associated cache */
    CACHE_8WAYS_ASSOC = 1,              /*!< 8 way associated cache */
} cache_ways_t;

typedef enum {
    CACHE_LINE_SIZE_16B = 0,            /*!< 16 Byte cache line size */
    CACHE_LINE_SIZE_32B = 1,            /*!< 32 Byte cache line size */
    CACHE_LINE_SIZE_64B = 2,            /*!< 64 Byte cache line size */
} cache_line_size_t;

typedef enum {
    CACHE_AUTOLOAD_POSITIVE = 0,        /*!< cache autoload step is positive */
    CACHE_AUTOLOAD_NEGATIVE = 1,        /*!< cache autoload step is negative */
} cache_autoload_order_t;

#define CACHE_AUTOLOAD_STEP(i) ((i) - 1)

typedef enum {
    CACHE_AUTOLOAD_MISS_TRIGGER = 0,    /*!< autoload only triggered by cache miss */
    CACHE_AUTOLOAD_HIT_TRIGGER  = 1,    /*!< autoload only triggered by cache hit */
    CACHE_AUTOLOAD_BOTH_TRIGGER = 2,    /*!< autoload triggered both by cache miss and hit */
} cache_autoload_trigger_t;

typedef enum {
    CACHE_FREEZE_ACK_BUSY = 0,          /*!< in this mode, cache ack busy to CPU if a cache miss happens*/
    CACHE_FREEZE_ACK_ERROR  = 1,        /*!< in this mode, cache ack wrong data to CPU and trigger an error if a cache miss happens */
} cache_freeze_mode_t;

struct cache_mode {
    uint32_t cache_size;                /*!< cache size in byte */
    uint16_t cache_line_size;           /*!< cache line size in byte */
    uint8_t cache_ways;                 /*!< cache ways, always 4 */
    uint8_t icache;                     /*!< the cache index, 0 for dcache, 1 for icache */
};

struct icache_tag_item {
    uint32_t valid: 1;                  /*!< the tag item is valid or not */
    uint32_t lock: 1;                   /*!< the cache line is locked or not */
    uint32_t attr: 4;                   /*!< the attribute of the external memory physical address */
    uint32_t fifo_cnt: 3;               /*!< fifo cnt, 0 ~ 3 for 4 ways cache */
    uint32_t tag: 14;                   /*!< the tag is the high part of the cache address, however is only 64MB range, and without low part */
    uint32_t reserved: 9;
};

struct dcache_tag_item {
    uint32_t dirty: 1;                  /*!< the cache line value is dirty or not */
    uint32_t valid: 1;                  /*!< the tag item is valid or not */
    uint32_t lock: 1;                   /*!< the cache line is locked or not */
    uint32_t occupy: 1;                 /*!< the cache line is occupied as internal sram */
    uint32_t attr: 4;                   /*!< the attribute of the external memory physical address */
    uint32_t fifo_cnt: 2;               /*!< fifo cnt, 0 ~ 3 for 4 ways cache */
    uint32_t tag: 13;                   /*!< the tag is the high part of the cache address, however is only 64MB range, and without low part */
    uint32_t reserved: 9;
};

struct autoload_config {
    uint8_t order;                      /*!< autoload step is positive or negative */
    uint8_t trigger;                    /*!< autoload trigger */
    uint8_t ena0;                       /*!< autoload region0 enable */
    uint8_t ena1;                       /*!< autoload region1 enable */
    uint32_t addr0;                     /*!< autoload region0 start address */
    uint32_t size0;                     /*!< autoload region0 size */
    uint32_t addr1;                     /*!< autoload region1 start address */
    uint32_t size1;                     /*!< autoload region1 size */
};

struct tag_group_info {
    struct cache_mode mode;                         /*!< cache and cache mode */
    uint32_t filter_addr;                           /*!< the address that used to generate the struct */
    uint32_t vaddr_offset;                          /*!< virtual address offset of the cache ways */
    uint32_t tag_addr[MAX_CACHE_WAYS];              /*!< tag memory address, only [0~mode.ways-1] is valid to use */
    uint32_t cache_memory_offset[MAX_CACHE_WAYS];   /*!< cache memory address, only [0~mode.ways-1] is valid to use */
};

struct lock_config {
    uint32_t addr;                                  /*!< manual lock address*/
    uint16_t size;                                  /*!< manual lock size*/
    uint16_t group;                                 /*!< manual lock group, 0 or 1*/
};

#define ESP_ROM_ERR_INVALID_ARG         1
#define MMU_SET_ADDR_ALIGNED_ERROR      2
#define MMU_SET_PASE_SIZE_ERROR         3
#define MMU_SET_VADDR_OUT_RANGE         4

#define CACHE_OP_ICACHE_Y               1
#define CACHE_OP_ICACHE_N               0

/**
  * @brief Initialise cache mmu, mark all entries as invalid.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return None
  */
void Cache_MMU_Init(void);

/**
  * @brief Set ICache mmu mapping.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t ext_ram : DPORT_MMU_ACCESS_FLASH for flash, DPORT_MMU_ACCESS_SPIRAM for spiram, DPORT_MMU_INVALID for invalid.
  *
  * @param  uint32_t vaddr : virtual address in CPU address space.
  *                              Can be Iram0,Iram1,Irom0,Drom0 and AHB buses address.
  *                              Should be aligned by psize.
  *
  * @param  uint32_t paddr : physical address in external memory.
  *                              Should be aligned by psize.
  *
  * @param  uint32_t psize : page size of ICache, in kilobytes. Should be 64 here.
  *
  * @param  uint32_t num : pages to be set.
  *
  * @param  uint32_t fixed : 0 for physical pages grow with virtual pages, other for virtual pages map to same physical page.
  *
  * @return uint32_t: error status
  *                   0 : mmu set success
  *                   2 : vaddr or paddr is not aligned
  *                   3 : psize error
  *                   4 : vaddr is out of range
  */
int Cache_Ibus_MMU_Set(uint32_t ext_ram, uint32_t vaddr, uint32_t paddr,  uint32_t psize, uint32_t num, uint32_t fixed);

/**
  * @brief Set DCache mmu mapping.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t ext_ram : DPORT_MMU_ACCESS_FLASH for flash, DPORT_MMU_ACCESS_SPIRAM for spiram, DPORT_MMU_INVALID for invalid.
  *
  * @param  uint32_t vaddr : virtual address in CPU address space.
  *                              Can be DRam0, DRam1, DRom0, DPort and AHB buses address.
  *                              Should be aligned by psize.
  *
  * @param  uint32_t paddr : physical address in external memory.
  *                              Should be aligned by psize.
  *
  * @param  uint32_t psize : page size of DCache, in kilobytes. Should be 64 here.
  *
  * @param  uint32_t num : pages to be set.

  * @param  uint32_t fixed : 0 for physical pages grow with virtual pages, other for virtual pages map to same physical page.
  *
  * @return uint32_t: error status
  *                   0 : mmu set success
  *                   2 : vaddr or paddr is not aligned
  *                   3 : psize error
  *                   4 : vaddr is out of range
  */
int Cache_Dbus_MMU_Set(uint32_t ext_ram, uint32_t vaddr, uint32_t paddr, uint32_t psize, uint32_t num, uint32_t fixed);

/**
  * @brief Count the pages in the bus room address which map to Flash.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t bus : the bus to count with.
  *
  * @param uint32_t * page0_mapped : value should be initial by user, 0 for not mapped, other for mapped count.
  *
  * return uint32_t : the number of pages which map to Flash.
  */
uint32_t Cache_Count_Flash_Pages(uint32_t bus, uint32_t *page0_mapped);

/**
  * @brief Copy Instruction or rodata from Flash to SPIRAM, and remap to SPIRAM.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t bus : the bus which need to copy to SPIRAM.
  *
  * @param uint32_t bus_start_addr : the start virtual address for the bus.
  *
  * @param uint32_t start_page : the start (64KB) page number in SPIRAM.
  *
  * @param uint32_t * page0_page : the flash page0 in SPIRAM page number, 0xffff for invalid.
  *
  * return uint32_t : the next start page number for SPIRAM not mapped.
  */
uint32_t Cache_Flash_To_SPIRAM_Copy(uint32_t bus, uint32_t bus_start_addr, uint32_t start_page, uint32_t *page0_page);

/**
  * @brief allocate memory to used by ICache.
  *        Please do not call this function in your SDK application.
  *
  * @param cache_array_t icache_low : the data array bank used by icache low part, can be CACHE_MEMORY_INVALID, CACHE_MEMORY_IBANK0, CACHE_MEMORY_IBANK1
  *
  * @param cache_array_t icache_high : the data array bank used by icache high part, can be CACHE_MEMORY_INVALID, CACHE_MEMORY_IBANK0, CACHE_MEMORY_IBANK1 only if icache_low and icache_high is not CACHE_MEMORY_INVALID
  *
  * return none
  */
void Cache_Occupy_ICache_MEMORY(cache_array_t icache_low, cache_array_t icache_high);

/**
  * @brief allocate memory to used by DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param cache_array_t dcache_low : the data array bank used by dcache low part, can be CACHE_MEMORY_INVALID, CACHE_MEMORY_DBANK0, CACHE_MEMORY_DBANK1
  *
  * @param cache_array_t dcache1_high : the data array bank used by dcache high part, can be CACHE_MEMORY_INVALID, CACHE_MEMORY_DBANK0, CACHE_MEMORY_DBANK1 only if dcache_low0 and dcache_low1 is not CACHE_MEMORY_INVALID
  *
  * return none
  */
void Cache_Occupy_DCache_MEMORY(cache_array_t dcache_low, cache_array_t dcache_high);

/**
  * @brief Get cache mode of ICache or DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param struct cache_mode * mode : the pointer of cache mode struct, caller should set the icache field
  *
  * return none
  */
void Cache_Get_Mode(struct cache_mode *mode);

/**
  * @brief set ICache modes: cache size, associate ways and cache line size.
  *        Please do not call this function in your SDK application.
  *
  * @param cache_size_t cache_size : the cache size, can be CACHE_SIZE_HALF and CACHE_SIZE_FULL
  *
  * @param cache_ways_t ways : the associate ways of cache, can be CACHE_4WAYS_ASSOC and CACHE_8WAYS_ASSOC
  *
  * @param cache_line_size_t cache_line_size : the cache line size, can be CACHE_LINE_SIZE_16B, CACHE_LINE_SIZE_32B and CACHE_LINE_SIZE_64B
  *
  * return none
  */
void Cache_Set_ICache_Mode(cache_size_t cache_size, cache_ways_t ways, cache_line_size_t cache_line_size);

/**
  * @brief set DCache modes: cache size, associate ways and cache line size.
  *        Please do not call this function in your SDK application.
  *
  * @param cache_size_t cache_size : the cache size, can be CACHE_SIZE_8KB and CACHE_SIZE_16KB
  *
  * @param cache_ways_t ways : the associate ways of cache, can be CACHE_4WAYS_ASSOC and CACHE_8WAYS_ASSOC
  *
  * @param cache_line_size_t cache_line_size : the cache line size, can be CACHE_LINE_SIZE_16B, CACHE_LINE_SIZE_32B and CACHE_LINE_SIZE_64B
  *
  * return none
  */
void Cache_Set_DCache_Mode(cache_size_t cache_size, cache_ways_t ways, cache_line_size_t cache_line_size);

/**
  * @brief check if the address is accessed through ICache.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr : the address to check.
  *
  * @return 1 if the address is accessed through ICache, 0 if not.
  */
uint32_t Cache_Address_Through_ICache(uint32_t addr);

/**
  * @brief check if the address is accessed through DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr : the address to check.
  *
  * @return 1 if the address is accessed through DCache, 0 if not.
  */
uint32_t Cache_Address_Through_DCache(uint32_t addr);

/**
  * @brief Init mmu owner register to make i/d cache use half mmu entries.
  *
  * @param None
  *
  * @return None
  */
void Cache_Owner_Init(void);

/**
  * @brief Invalidate the cache items for ICache.
  *        Operation will be done CACHE_LINE_SIZE aligned.
  *        If the region is not in ICache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr: start address to invalidate
  *
  * @param  uint32_t items: cache lines to invalidate, items * cache_line_size should not exceed the bus address size(16MB/32MB/64MB)
  *
  * @return None
  */
void Cache_Invalidate_ICache_Items(uint32_t addr, uint32_t items);

/**
  * @brief Invalidate the cache items for DCache.
  *        Operation will be done CACHE_LINE_SIZE aligned.
  *        If the region is not in DCache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr: start address to invalidate
  *
  * @param  uint32_t items: cache lines to invalidate, items * cache_line_size should not exceed the bus address size(16MB/32MB/64MB)
  *
  * @return None
  */
void Cache_Invalidate_DCache_Items(uint32_t addr, uint32_t items);

/**
  * @brief Clean the dirty bit of cache Items of DCache.
  *        Operation will be done CACHE_LINE_SIZE aligned.
  *        If the region is not in DCache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr: start address to Clean
  *
  * @param  uint32_t items: cache lines to invalidate, items * cache_line_size should not exceed the bus address size(16MB/32MB/64MB)
  *
  * @return None
  */
void Cache_Clean_Items(uint32_t addr, uint32_t items);

/**
  * @brief Write back the cache items of DCache.
  *        Operation will be done CACHE_LINE_SIZE aligned.
  *        If the region is not in DCache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr: start address to write back
  *
  * @param  uint32_t items: cache lines to invalidate, items * cache_line_size should not exceed the bus address size(16MB/32MB/64MB)
  *
  * @return None
  */
void Cache_WriteBack_Items(uint32_t addr, uint32_t items);

/**
  * @brief Invalidate the Cache items in the region from ICache or DCache.
  *        If the region is not in Cache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr : invalidated region start address.
  *
  * @param  uint32_t size : invalidated region size.
  *
  * @return 0 for success
  *         1 for invalid argument
  */
int Cache_Invalidate_Addr(uint32_t addr, uint32_t size);

/**
  * @brief Clean the dirty bit of Cache items in the region from DCache.
  *        If the region is not in DCache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr : cleaned region start address.
  *
  * @param  uint32_t size : cleaned region size.
  *
  * @return 0 for success
  *         1 for invalid argument
  */
int Cache_Clean_Addr(uint32_t addr, uint32_t size);

/**
  * @brief Writeback the Cache items(also clean the dirty bit) in the region from DCache.
  *        If the region is not in DCache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr : writeback region start address.
  *
  * @param  uint32_t size : writeback region size.
  *
  * @return 0 for success
  *         1 for invalid argument
  */
int Cache_WriteBack_Addr(uint32_t addr, uint32_t size);


/**
  * @brief Invalidate all cache items in ICache.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return None
  */
void Cache_Invalidate_ICache_All(void);

/**
  * @brief Invalidate all cache items in DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return None
  */
void Cache_Invalidate_DCache_All(void);

/**
  * @brief Clean the dirty bit of all cache items in DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return None
  */
void Cache_Clean_All(void);

/**
  * @brief WriteBack all cache items in DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return None
  */
void Cache_WriteBack_All(void);

/**
  * @brief Mask all buses through ICache and DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return None
  */
void Cache_Mask_All(void);

/**
  * @brief UnMask DRam0 bus through DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return None
  */
void Cache_UnMask_Dram0(void);

/**
  * @brief Suspend ICache auto preload operation, then you can resume it after some ICache operations.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return uint32_t : 0 for ICache not auto preload before suspend.
  */
uint32_t Cache_Suspend_ICache_Autoload(void);

/**
  * @brief Resume ICache auto preload operation after some ICache operations.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t autoload : 0 for ICache not auto preload before suspend.
  *
  * @return None.
  */
void Cache_Resume_ICache_Autoload(uint32_t autoload);

/**
  * @brief Suspend DCache auto preload operation, then you can resume it after some DCache operations.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return uint32_t : 0 for DCache not auto preload before suspend.
  */
uint32_t Cache_Suspend_DCache_Autoload(void);

/**
  * @brief Resume DCache auto preload operation after some DCache operations.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t autoload : 0 for DCache not auto preload before suspend.
  *
  * @return None.
  */
void Cache_Resume_DCache_Autoload(uint32_t autoload);

/**
  * @brief Start an ICache manual preload, will suspend auto preload of ICache.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t addr : start address of the preload region.
  *
  * @param uint32_t size : size of the preload region, should not exceed the size of ICache.
  *
  * @param uint32_t order : the preload order, 0 for positive, other for negative
  *
  * @return uint32_t : 0 for ICache not auto preload before manual preload.
  */
uint32_t Cache_Start_ICache_Preload(uint32_t addr, uint32_t size, uint32_t order);

/**
  * @brief Return if the ICache manual preload done.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return uint32_t : 0 for ICache manual preload not done.
  */
uint32_t Cache_ICache_Preload_Done(void);

/**
  * @brief End the ICache manual preload to resume auto preload of ICache.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t autoload : 0 for ICache not auto preload before manual preload.
  *
  * @return None
  */
void Cache_End_ICache_Preload(uint32_t autoload);

/**
  * @brief Start an DCache manual preload, will suspend auto preload of DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t addr : start address of the preload region.
  *
  * @param uint32_t size : size of the preload region, should not exceed the size of DCache.
  *
  * @param uint32_t order : the preload order, 0 for positive, other for negative
  *
  * @return uint32_t : 0 for DCache not auto preload before manual preload.
  */
uint32_t Cache_Start_DCache_Preload(uint32_t addr, uint32_t size, uint32_t order);

/**
  * @brief Return if the DCache manual preload done.
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return uint32_t : 0 for DCache manual preload not done.
  */
uint32_t Cache_DCache_Preload_Done(void);

/**
  * @brief End the DCache manual preload to resume auto preload of DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t autoload : 0 for DCache not auto preload before manual preload.
  *
  * @return None
  */
void Cache_End_DCache_Preload(uint32_t autoload);

/**
  * @brief Config autoload parameters of ICache.
  *        Please do not call this function in your SDK application.
  *
  * @param struct autoload_config * config : autoload parameters.
  *
  * @return None
  */
void Cache_Config_ICache_Autoload(const struct autoload_config *config);

/**
  * @brief Enable auto preload for ICache.
  *        Please do not call this function in your SDK application.
  *
  * @param None
  *
  * @return None
  */
void Cache_Enable_ICache_Autoload(void);

/**
  * @brief Disable auto preload for ICache.
  *        Please do not call this function in your SDK application.
  *
  * @param None
  *
  * @return None
  */
void Cache_Disable_ICache_Autoload(void);

/**
  * @brief Config autoload parameters of DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param struct autoload_config * config : autoload parameters.
  *
  * @return None
  */
void Cache_Config_DCache_Autoload(const struct autoload_config *config);

/**
  * @brief Enable auto preload for DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param None
  *
  * @return None
  */
void Cache_Enable_DCache_Autoload(void);

/**
  * @brief Disable auto preload for DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param None
  *
  * @return None
  */
void Cache_Disable_DCache_Autoload(void);

/**
  * @brief Config a group of prelock parameters of ICache.
  *        Please do not call this function in your SDK application.
  *
  * @param struct lock_config * config : a group of lock parameters.
  *
  * @return None
  */

void Cache_Enable_ICache_PreLock(const struct lock_config *config);

/**
  * @brief Disable a group of prelock parameters for ICache.
  *        However, the locked data will not be released.
  *        Please do not call this function in your SDK application.
  *
  * @param uint16_t group : 0 for group0, 1 for group1.
  *
  * @return None
  */
void Cache_Disable_ICache_PreLock(uint16_t group);

/**
  * @brief Lock the cache items for ICache.
  *        Operation will be done CACHE_LINE_SIZE aligned.
  *        If the region is not in ICache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr: start address to lock
  *
  * @param  uint32_t items: cache lines to lock, items * cache_line_size should not exceed the bus address size(16MB/32MB/64MB)
  *
  * @return None
  */
void Cache_Lock_ICache_Items(uint32_t addr, uint32_t items);

/**
  * @brief Unlock the cache items for ICache.
  *        Operation will be done CACHE_LINE_SIZE aligned.
  *        If the region is not in ICache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr: start address to unlock
  *
  * @param  uint32_t items: cache lines to unlock, items * cache_line_size should not exceed the bus address size(16MB/32MB/64MB)
  *
  * @return None
  */
void Cache_Unlock_ICache_Items(uint32_t addr, uint32_t items);

/**
  * @brief Config a group of prelock parameters of DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param struct lock_config * config : a group of lock parameters.
  *
  * @return None
  */
void Cache_Enable_DCache_PreLock(const struct lock_config *config);

/**
  * @brief Disable a group of prelock parameters for DCache.
  *        However, the locked data will not be released.
  *        Please do not call this function in your SDK application.
  *
  * @param uint16_t group : 0 for group0, 1 for group1.
  *
  * @return None
  */
void Cache_Disable_DCache_PreLock(uint16_t group);

/**
  * @brief Lock the cache items for DCache.
  *        Operation will be done CACHE_LINE_SIZE aligned.
  *        If the region is not in DCache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr: start address to lock
  *
  * @param  uint32_t items: cache lines to lock, items * cache_line_size should not exceed the bus address size(16MB/32MB/64MB)
  *
  * @return None
  */
void Cache_Lock_DCache_Items(uint32_t addr, uint32_t items);

/**
  * @brief Unlock the cache items for DCache.
  *        Operation will be done CACHE_LINE_SIZE aligned.
  *        If the region is not in DCache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t addr: start address to unlock
  *
  * @param  uint32_t items: cache lines to unlock, items * cache_line_size should not exceed the bus address size(16MB/32MB/64MB)
  *
  * @return None
  */
void Cache_Unlock_DCache_Items(uint32_t addr, uint32_t items);

/**
  * @brief Lock the cache items in tag memory for ICache or DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t addr : start address of lock region.
  *
  * @param uint32_t size : size of lock region.
  *
  * @return 0 for success
  *         1 for invalid argument
  */
int Cache_Lock_Addr(uint32_t addr, uint32_t size);

/**
  * @brief Unlock the cache items in tag memory for ICache or DCache.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t addr : start address of unlock region.
  *
  * @param uint32_t size : size of unlock region.
  *
  * @return 0 for success
  *         1 for invalid argument
  */
int Cache_Unlock_Addr(uint32_t addr, uint32_t size);

/**
  * @brief Disable ICache access for the cpu.
  *        This operation will make all ICache tag memory invalid, CPU can't access ICache, ICache will keep idle.
  *        Please do not call this function in your SDK application.
  *
  * @return uint32_t : auto preload enabled before
  */
uint32_t Cache_Disable_ICache(void);

/**
  * @brief Enable ICache access for the cpu.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t autoload : ICache will preload then.
  *
  * @return None
  */
void Cache_Enable_ICache(uint32_t autoload);

/**
  * @brief Disable DCache access for the cpu.
  *        This operation will make all DCache tag memory invalid, CPU can't access DCache, DCache will keep idle
  *        Please do not call this function in your SDK application.
  *
  * @return uint32_t : auto preload enabled before
  */
uint32_t Cache_Disable_DCache(void);

/**
  * @brief Enable DCache access for the cpu.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t autoload : DCache will preload then.
  *
  * @return None
  */
void Cache_Enable_DCache(uint32_t autoload);

/**
  * @brief Suspend ICache access for the cpu.
  *        The ICache tag memory is still there, CPU can't access ICache, ICache will keep idle.
  *        Please do not change MMU, cache mode or tag memory(tag memory can be changed in some special case).
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return uint32_t : auto preload enabled before
  */
uint32_t Cache_Suspend_ICache(void);

/**
  * @brief Resume ICache access for the cpu.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t autoload : ICache will preload then.
  *
  * @return None
  */
void Cache_Resume_ICache(uint32_t autoload);

/**
  * @brief Suspend DCache access for the cpu.
  *        The ICache tag memory is still there, CPU can't access DCache, DCache will keep idle.
  ×        Please do not change MMU, cache mode or tag memory(tag memory can be changed in some special case).
  *        Please do not call this function in your SDK application.
  *
  * @param  None
  *
  * @return uint32_t : auto preload enabled before
  */
uint32_t Cache_Suspend_DCache(void);

/**
  * @brief Resume DCache access for the cpu.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t autoload : DCache will preload then.
  *
  * @return None
  */
void Cache_Resume_DCache(uint32_t autoload);

/**
  * @brief Get ICache cache line size
  *
  * @param  None
  *
  * @return uint32_t: 16, 32, 64 Byte
  */
uint32_t Cache_Get_ICache_Line_Size(void);

/**
  * @brief Get DCache cache line size
  *
  * @param  None
  *
  * @return uint32_t: 16, 32, 64 Byte
  */
uint32_t Cache_Get_DCache_Line_Size(void);

/**
  * @brief Set default mode from boot, 8KB ICache, 16Byte cache line size.
  *
  * @param  None
  *
  * @return None
  */
void Cache_Set_Default_Mode(void);

/**
  * @brief Set default mode from boot, 8KB ICache, 16Byte cache line size.
  *
  * @param None
  *
  * @return None
  */
void Cache_Enable_Defalut_ICache_Mode(void);

/**
  * @brief Occupy the cache items for DCache.
  *        Operation will be done CACHE_LINE_SIZE aligned.
  *        If the region is not in DCache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t addr : start address of occupy region
  *
  * @param uint32_t items : cache lines to occupy, items * cache_line_size should not exceed the cache_size
  *
  * @return None
  */
void Cache_Occupy_Items(uint32_t addr, uint32_t items);

/**
  * @brief Occupy the cache addr for DCache.
  *        Operation will be done CACHE_LINE_SIZE aligned.
  *        If the region is not in DCache addr room, nothing will be done.
  *        Please do not call this function in your SDK application.
  *
  * @param uint32_t addr : start address of occupy region
  *
  * @param uint32_t size : size of occupy region, size should not exceed the cache_size
  */
int Cache_Occupy_Addr(uint32_t addr, uint32_t size);

/**
  * @brief Enable freeze for ICache.
  *        Any miss request will be rejected, including cpu miss and preload/autoload miss.
  *        Please do not call this function in your SDK application.
  *
  * @param cache_freeze_mode_t mode : 0 for assert busy 1 for assert hit
  *
  * @return None
  */
void Cache_Freeze_ICache_Enable(cache_freeze_mode_t mode);

/**
  * @brief Disable freeze for ICache.
  *        Please do not call this function in your SDK application.
  *
  * @return None
  */
void Cache_Freeze_ICache_Disable(void);

/**
  * @brief Enable freeze for DCache.
  *        Any miss request will be rejected, including cpu miss and preload/autoload miss.
  *        Please do not call this function in your SDK application.
  *
  * @param cache_freeze_mode_t mode : 0 for assert busy 1 for assert hit
  *
  * @return None
  */
void Cache_Freeze_DCache_Enable(cache_freeze_mode_t mode);

/**
  * @brief Disable freeze for DCache.
  *        Please do not call this function in your SDK application.
  *
  * @return None
  */
void Cache_Freeze_DCache_Disable(void);

/**
  * @brief Travel tag memory to run a call back function.
  *        ICache and DCache are suspend when doing this.
  *        The callback will get the parameter tag_group_info, which will include a group of tag memory addresses and cache memory addresses.
  *        Please do not call this function in your SDK application.
  *
  * @param  struct cache_mode * mode : the cache to check and the cache mode.
  *
  * @param  uint32_t filter_addr : only the cache lines which may include the filter_address will be returned to the call back function.
  *                                0 for do not filter, all cache lines will be returned.
  *
  * @param  void (* process)(struct tag_group_info *) : call back function, which may be called many times, a group(the addresses in the group are in the same position in the cache ways) a time.
  *
  * @return None
  */
void Cache_Travel_Tag_Memory(struct cache_mode *mode, uint32_t filter_addr, void (* process)(struct tag_group_info *));

/**
  * @brief Get the virtual address from cache mode, cache tag and the virtual address offset of cache ways.
  *        Please do not call this function in your SDK application.
  *
  * @param  struct cache_mode * mode : the cache to calculate the virtual address and the cache mode.
  *
  * @param  uint32_t tag : the tag part fo a tag item, 12-14 bits.
  *
  * @param  uint32_t addr_offset : the virtual address offset of the cache ways.
  *
  * @return uint32_t : the virtual address.
  */
uint32_t Cache_Get_Virtual_Addr(struct cache_mode *mode, uint32_t tag, uint32_t vaddr_offset);

/**
  * @brief Get cache memory block base address.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t icache : 0 for dcache, other for icache.
  *
  * @param  uint32_t bank_no : 0 ~ 3 bank.
  *
  * @return uint32_t : the cache memory block base address, 0 if the block not used.
  */
uint32_t Cache_Get_Memory_BaseAddr(uint32_t icache, uint32_t bank_no);

/**
  * @brief Get the cache memory address from cache mode, cache memory offset and the virtual address offset of cache ways.
  *        Please do not call this function in your SDK application.
  *
  * @param  struct cache_mode * mode : the cache to calculate the virtual address and the cache mode.
  *
  * @param  uint32_t cache_memory_offset : the cache memory offset of the whole cache (ICache or DCache) for the cache line.
  *
  * @param  uint32_t addr_offset : the virtual address offset of the cache ways.
  *
  * @return uint32_t : the virtual address.
  */
uint32_t Cache_Get_Memory_Addr(struct cache_mode *mode, uint32_t cache_memory_offset, uint32_t vaddr_offset);

/**
  * @brief Get the cache memory value by DRAM address.
  *        Please do not call this function in your SDK application.
  *
  * @param  uint32_t cache_memory_addr : DRAM address for the cache memory, should be 4 byte aligned for IBus address.
  *
  * @return uint32_t : the word value of the address.
  */
uint32_t Cache_Get_Memory_value(uint32_t cache_memory_addr);
/**
  * @}
  */

/**
  * @brief Get the cache MMU IROM end address.
  *        Please do not call this function in your SDK application.
  *
  * @param  void
  *
  * @return uint32_t : the word value of the address.
  */
uint32_t Cache_Get_IROM_MMU_End(void);

/**
  * @brief Get the cache MMU DROM end address.
  *        Please do not call this function in your SDK application.
  *
  * @param  void
  *
  * @return uint32_t : the word value of the address.
  */
uint32_t Cache_Get_DROM_MMU_End(void);

/**
  * @brief Used by SPI flash mmap
  *
  */
int flash2spiram_instruction_offset(void);
int flash2spiram_rodata_offset(void);
uint32_t flash_instr_rodata_start_page(uint32_t bus);
uint32_t flash_instr_rodata_end_page(uint32_t bus);

#ifdef __cplusplus
}
#endif