/* * SPDX-FileCopyrightText: 2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #ifndef _CACHE_MEMORY_H_ #define _CACHE_MEMORY_H_ #include "esp_bit_defs.h" #include "sdkconfig.h" #ifdef __cplusplus extern "C" { #endif /*IRAM0 is connected with Cache IBUS0*/ #define IRAM0_CACHE_ADDRESS_LOW 0x42000000 #define IRAM0_CACHE_ADDRESS_HIGH(page_size) (IRAM0_CACHE_ADDRESS_LOW + ((page_size) * 256)) #define IRAM0_ADDRESS_LOW 0x40000000 #define IRAM0_ADDRESS_HIGH(page_size) IRAM0_CACHE_ADDRESS_HIGH(page_size) /*DRAM0 is connected with Cache DBUS0*/ #define DRAM0_ADDRESS_LOW 0x42000000 #define DRAM0_ADDRESS_HIGH 0x43000000 #define DRAM0_CACHE_ADDRESS_LOW IRAM0_CACHE_ADDRESS_LOW //I/D share the same vaddr range #define DRAM0_CACHE_ADDRESS_HIGH(page_size) IRAM0_CACHE_ADDRESS_HIGH(page_size) //I/D share the same vaddr range #define DRAM0_CACHE_OPERATION_HIGH(page_size) DRAM0_CACHE_ADDRESS_HIGH(page_size) #define ESP_CACHE_TEMP_ADDR 0x42000000 #define BUS_SIZE(bus_name, page_size) (bus_name##_ADDRESS_HIGH(page_size) - bus_name##_ADDRESS_LOW) #define ADDRESS_IN_BUS(bus_name, vaddr, page_size) ((vaddr) >= bus_name##_ADDRESS_LOW && (vaddr) < bus_name##_ADDRESS_HIGH(page_size)) #define ADDRESS_IN_IRAM0(vaddr, page_size) ADDRESS_IN_BUS(IRAM0, vaddr, page_size) #define ADDRESS_IN_IRAM0_CACHE(vaddr, page_size) ADDRESS_IN_BUS(IRAM0_CACHE, vaddr, page_size) #define ADDRESS_IN_DRAM0(vaddr, page_size) ADDRESS_IN_BUS(DRAM0, vaddr, page_size) #define ADDRESS_IN_DRAM0_CACHE(vaddr, page_size) ADDRESS_IN_BUS(DRAM0_CACHE, vaddr, page_size) #define BUS_IRAM0_CACHE_SIZE(page_size) BUS_SIZE(IRAM0_CACHE, page_size) #define BUS_DRAM0_CACHE_SIZE(page_size) BUS_SIZE(DRAM0_CACHE, page_size) #define CACHE_IBUS 0 #define CACHE_IBUS_MMU_START 0 #define CACHE_IBUS_MMU_END 0x200 #define CACHE_DBUS 1 #define CACHE_DBUS_MMU_START 0 #define CACHE_DBUS_MMU_END 0x200 //TODO, remove these cache function dependencies #define CACHE_IROM_MMU_START 0 #define CACHE_IROM_MMU_END Cache_Get_IROM_MMU_End() #define CACHE_IROM_MMU_SIZE (CACHE_IROM_MMU_END - CACHE_IROM_MMU_START) #define CACHE_DROM_MMU_START CACHE_IROM_MMU_END #define CACHE_DROM_MMU_END Cache_Get_DROM_MMU_End() #define CACHE_DROM_MMU_SIZE (CACHE_DROM_MMU_END - CACHE_DROM_MMU_START) #define CACHE_DROM_MMU_MAX_END 0x400 #define ICACHE_MMU_SIZE 0x200 #define DCACHE_MMU_SIZE 0x200 #define MMU_BUS_START(i) 0 #define MMU_BUS_SIZE(i) 0x200 #define MMU_MSPI_ACCESS_FLASH 0 #define MMU_MSPI_VALID BIT(9) #define MMU_MSPI_INVALID 0 #define MMU_MSPI_SENSITIVE BIT(10) #define MMU_ACCESS_FLASH MMU_MSPI_ACCESS_FLASH #define MMU_ACCESS_SPIRAM MMU_MSPI_ACCESS_SPIRAM #define MMU_VALID MMU_MSPI_VALID #define MMU_SENSITIVE MMU_MSPI_SENSITIVE // ESP32C6-TODO #define MMU_INVALID_MASK MMU_MSPI_VALID #define MMU_INVALID MMU_MSPI_INVALID #define CACHE_MAX_SYNC_NUM 0x400000 #define CACHE_MAX_LOCK_NUM 0x8000 #define FLASH_MMU_TABLE ((volatile uint32_t*) DR_REG_MMU_TABLE) #define FLASH_MMU_TABLE_SIZE (ICACHE_MMU_SIZE/sizeof(uint32_t)) /** * MMU entry valid bit mask for mapping value. For an entry: * valid bit + value bits * valid bit is BIT(9), so value bits are 0x1ff */ #define MMU_VALID_VAL_MASK 0x1ff /** * Max MMU available paddr page num. * `MMU_MAX_PADDR_PAGE_NUM * CONFIG_MMU_PAGE_SIZE` means the max paddr address supported by the MMU. e.g.: * 256 * 64KB, means MMU can support 16MB paddr at most */ #define MMU_MAX_PADDR_PAGE_NUM 256 //MMU entry num #define MMU_ENTRY_NUM 256 /** * This is the mask used for mapping. e.g.: * 0x4200_0000 & MMU_VADDR_MASK */ #define MMU_VADDR_MASK(page_size) ((page_size) * MMU_ENTRY_NUM - 1) #define CACHE_MEMORY_IBANK0_ADDR 0x40800000 #ifdef __cplusplus } #endif #endif /*_CACHE_MEMORY_H_ */