kopia lustrzana https://github.com/espressif/esp-idf
247 wiersze
9.7 KiB
C
247 wiersze
9.7 KiB
C
/*
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* SPDX-FileCopyrightText: 2021-2023 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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/**
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* @Backgrounds
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*
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* This file contains 2 parts:
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* 1. Feature: Copy Flash content to PSRAM. Related APIs are private:
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* - mmu_config_psram_text_segment()
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* - mmu_config_psram_rodata_segment()
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*
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* 2. Private APIs used by `flash_mmap.c` and `cache_utils.c`
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* APIs in 2 are due to lack of MMU driver. There will be an MMU driver to maintain vaddr range.
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* APIs in 2 will be refactored when MMU driver is ready
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*/
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#include <sys/param.h>
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#include "sdkconfig.h"
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#include "esp_log.h"
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#include "esp_attr.h"
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#include "soc/ext_mem_defs.h"
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#include "hal/cache_types.h"
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#include "hal/cache_ll.h"
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#include "esp_private/mmu_psram_flash.h"
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#if CONFIG_IDF_TARGET_ESP32S2
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#include "esp32s2/rom/cache.h"
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#elif CONFIG_IDF_TARGET_ESP32S3
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#include "esp32s3/rom/cache.h"
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#endif
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/*----------------------------------------------------------------------------
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Part 1 APIs (See @Backgrounds on top of this file)
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-------------------------------------------------------------------------------*/
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#if CONFIG_SPIRAM_FETCH_INSTRUCTIONS || CONFIG_SPIRAM_RODATA
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//page_size - 1, where page_size on s2 and s3 is always 0x10000. To be refactored by MMU driver
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#define INVALID_PHY_PAGE 0xffff
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const static char *TAG = "mmu_psram";
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//TODO IDF-4387
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static uint32_t page0_mapped = 0;
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static uint32_t page0_page = INVALID_PHY_PAGE;
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#endif //#if CONFIG_SPIRAM_FETCH_INSTRUCTIONS || CONFIG_SPIRAM_RODATA
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#if CONFIG_SPIRAM_FETCH_INSTRUCTIONS
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esp_err_t mmu_config_psram_text_segment(uint32_t start_page, uint32_t psram_size, uint32_t *out_page)
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{
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uint32_t page_id = start_page;
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uint32_t flash_pages = 0;
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#if CONFIG_IDF_TARGET_ESP32S2
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flash_pages += Cache_Count_Flash_Pages(PRO_CACHE_IBUS0, &page0_mapped);
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flash_pages += Cache_Count_Flash_Pages(PRO_CACHE_IBUS1, &page0_mapped);
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#elif CONFIG_IDF_TARGET_ESP32S3
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flash_pages += Cache_Count_Flash_Pages(CACHE_IBUS, &page0_mapped);
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#endif
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if ((flash_pages + page_id) > BYTES_TO_MMU_PAGE(psram_size)) {
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ESP_EARLY_LOGE(TAG, "PSRAM space not enough for the Flash instructions, need %d B, from %d B to %d B",
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MMU_PAGE_TO_BYTES(flash_pages), MMU_PAGE_TO_BYTES(start_page), MMU_PAGE_TO_BYTES(flash_pages + page_id));
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return ESP_FAIL;
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}
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//Enable the most high bus, which is used for copying FLASH .text to PSRAM
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cache_bus_mask_t bus_mask = cache_ll_l1_get_bus(0, SOC_EXTRAM_DATA_HIGH, 0);
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cache_ll_l1_enable_bus(0, bus_mask);
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#if !CONFIG_ESP_SYSTEM_SINGLE_CORE_MODE
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bus_mask = cache_ll_l1_get_bus(1, SOC_EXTRAM_DATA_HIGH, 0);
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cache_ll_l1_enable_bus(1, bus_mask);
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#endif
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instruction_flash_page_info_init(page_id);
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#if CONFIG_IDF_TARGET_ESP32S2
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page_id = Cache_Flash_To_SPIRAM_Copy(PRO_CACHE_IBUS0, SOC_IRAM0_ADDRESS_LOW, page_id, &page0_page);
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page_id = Cache_Flash_To_SPIRAM_Copy(PRO_CACHE_IBUS1, SOC_IRAM1_ADDRESS_LOW, page_id, &page0_page);
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#elif CONFIG_IDF_TARGET_ESP32S3
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page_id = Cache_Flash_To_SPIRAM_Copy(CACHE_IBUS, SOC_IRAM0_CACHE_ADDRESS_LOW, page_id, &page0_page);
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#endif
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ESP_EARLY_LOGV(TAG, "after copy instruction, page_id is %d", page_id);
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ESP_EARLY_LOGI(TAG, "Instructions copied and mapped to SPIRAM");
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*out_page = page_id - start_page;
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return ESP_OK;
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}
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#endif //#if CONFIG_SPIRAM_FETCH_INSTRUCTIONS
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#if CONFIG_SPIRAM_RODATA
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esp_err_t mmu_config_psram_rodata_segment(uint32_t start_page, uint32_t psram_size, uint32_t *out_page)
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{
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uint32_t page_id = start_page;
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uint32_t flash_pages = 0;
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#if CONFIG_IDF_TARGET_ESP32S2
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flash_pages += Cache_Count_Flash_Pages(PRO_CACHE_IBUS2, &page0_mapped);
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flash_pages += Cache_Count_Flash_Pages(PRO_CACHE_DBUS0, &page0_mapped);
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flash_pages += Cache_Count_Flash_Pages(PRO_CACHE_DBUS1, &page0_mapped);
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flash_pages += Cache_Count_Flash_Pages(PRO_CACHE_DBUS2, &page0_mapped);
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#elif CONFIG_IDF_TARGET_ESP32S3
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flash_pages += Cache_Count_Flash_Pages(CACHE_DBUS, &page0_mapped);
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#endif
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if ((flash_pages + page_id) > BYTES_TO_MMU_PAGE(psram_size)) {
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ESP_EARLY_LOGE(TAG, "SPI RAM space not enough for the instructions, need to copy to %d B.", MMU_PAGE_TO_BYTES(flash_pages + page_id));
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return ESP_FAIL;
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}
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//Enable the most high bus, which is used for copying FLASH .text to PSRAM
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cache_bus_mask_t bus_mask = cache_ll_l1_get_bus(0, SOC_EXTRAM_DATA_HIGH, 0);
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cache_ll_l1_enable_bus(0, bus_mask);
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#if !CONFIG_ESP_SYSTEM_SINGLE_CORE_MODE
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bus_mask = cache_ll_l1_get_bus(1, SOC_EXTRAM_DATA_HIGH, 0);
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cache_ll_l1_enable_bus(1, bus_mask);
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#endif
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rodata_flash_page_info_init(page_id);
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#if CONFIG_IDF_TARGET_ESP32S2
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page_id = Cache_Flash_To_SPIRAM_Copy(PRO_CACHE_IBUS2, SOC_DROM0_ADDRESS_LOW, page_id, &page0_page);
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page_id = Cache_Flash_To_SPIRAM_Copy(PRO_CACHE_DBUS0, SOC_DRAM0_ADDRESS_LOW, page_id, &page0_page);
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page_id = Cache_Flash_To_SPIRAM_Copy(PRO_CACHE_DBUS1, SOC_DRAM1_ADDRESS_LOW, page_id, &page0_page);
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page_id = Cache_Flash_To_SPIRAM_Copy(PRO_CACHE_DBUS2, SOC_DPORT_ADDRESS_LOW, page_id, &page0_page);
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#elif CONFIG_IDF_TARGET_ESP32S3
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page_id = Cache_Flash_To_SPIRAM_Copy(CACHE_DBUS, SOC_DRAM0_CACHE_ADDRESS_LOW, page_id, &page0_page);
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#endif
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ESP_EARLY_LOGV(TAG, "after copy rodata, page_id is %d", page_id);
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ESP_EARLY_LOGI(TAG, "Read only data copied and mapped to SPIRAM");
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*out_page = page_id - start_page;
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return ESP_OK;
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}
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#endif //#if CONFIG_SPIRAM_RODATA
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/*----------------------------------------------------------------------------
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Part 2 APIs (See @Backgrounds on top of this file)
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-------------------------------------------------------------------------------*/
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extern int _instruction_reserved_start;
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extern int _instruction_reserved_end;
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extern int _rodata_reserved_start;
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extern int _rodata_reserved_end;
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//------------------------------------Copy Flash .text to PSRAM-------------------------------------//
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#if CONFIG_SPIRAM_FETCH_INSTRUCTIONS
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static uint32_t instruction_in_spiram;
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static uint32_t instr_start_page;
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static uint32_t instr_end_page;
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static int instr_flash2spiram_offs;
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/**
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* - These logics are abstracted from the PSRAM driver
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* - These functions are only required by `flash_mmap.c` for converting paddr to vaddr, and vice versa
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* - The `flash_mmpa.c` will be rewritten into MMU driver
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*
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* Therefore, keep the APIs here for now
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*/
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void instruction_flash_page_info_init(uint32_t psram_start_physical_page)
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{
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#if CONFIG_IDF_TARGET_ESP32S2
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uint32_t instr_page_cnt = ((uint32_t)&_instruction_reserved_end - (uint32_t)&_instruction_reserved_start + MMU_PAGE_SIZE - 1) / MMU_PAGE_SIZE;
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uint32_t instr_mmu_offset = ((uint32_t)&_instruction_reserved_start & SOC_MMU_VADDR_MASK) / MMU_PAGE_SIZE;
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instr_start_page = ((volatile uint32_t *)(DR_REG_MMU_TABLE + PRO_CACHE_IBUS0_MMU_START))[instr_mmu_offset];
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#elif CONFIG_IDF_TARGET_ESP32S3
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uint32_t instr_page_cnt = ((uint32_t)&_instruction_reserved_end - SOC_IROM_LOW + MMU_PAGE_SIZE - 1) / MMU_PAGE_SIZE;
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instr_start_page = *((volatile uint32_t *)(DR_REG_MMU_TABLE + CACHE_IROM_MMU_START));
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#endif
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instr_start_page &= SOC_MMU_VALID_VAL_MASK;
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instr_end_page = instr_start_page + instr_page_cnt - 1;
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instr_flash2spiram_offs = instr_start_page - psram_start_physical_page;
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instruction_in_spiram = 1;
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ESP_DRAM_LOGV("mmu_psram", "Instructions from flash page%d copy to SPIRAM page%d, Offset: %d", instr_start_page, psram_start_physical_page, instr_flash2spiram_offs);
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}
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uint32_t esp_spiram_instruction_access_enabled(void)
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{
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return instruction_in_spiram;
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}
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int instruction_flash2spiram_offset(void)
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{
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return instr_flash2spiram_offs;
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}
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uint32_t instruction_flash_start_page_get(void)
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{
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return instr_start_page;
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}
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uint32_t instruction_flash_end_page_get(void)
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{
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return instr_end_page;
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}
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#endif //CONFIG_SPIRAM_FETCH_INSTRUCTIONS
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#if CONFIG_SPIRAM_RODATA
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//------------------------------------Copy Flash .rodata to PSRAM-------------------------------------//
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static uint32_t rodata_in_spiram;
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static int rodata_flash2spiram_offs;
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static uint32_t rodata_start_page;
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static uint32_t rodata_end_page;
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/**
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* - These logics are abstracted from the PSRAM driver
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* - These functions are only required by `flash_mmap.c` for converting paddr to vaddr, and vice versa
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* - The `flash_mmpa.c` will be rewritten into MMU driver
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*
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* Therefore, keep the APIs here for now
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*/
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void rodata_flash_page_info_init(uint32_t psram_start_physical_page)
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{
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#if CONFIG_IDF_TARGET_ESP32S2
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uint32_t rodata_page_cnt = ((uint32_t)&_rodata_reserved_end - (uint32_t)&_rodata_reserved_start + MMU_PAGE_SIZE - 1) / MMU_PAGE_SIZE;
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uint32_t rodata_mmu_offset = ((uint32_t)&_rodata_reserved_start & SOC_MMU_VADDR_MASK) / MMU_PAGE_SIZE;
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rodata_start_page = ((volatile uint32_t *)(DR_REG_MMU_TABLE + PRO_CACHE_IBUS2_MMU_START))[rodata_mmu_offset];
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#elif CONFIG_IDF_TARGET_ESP32S3
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uint32_t rodata_page_cnt = ((uint32_t)&_rodata_reserved_end - ((uint32_t)&_rodata_reserved_start & ~(MMU_PAGE_SIZE - 1)) + MMU_PAGE_SIZE - 1) / MMU_PAGE_SIZE;
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rodata_start_page = *(volatile uint32_t *)(DR_REG_MMU_TABLE + CACHE_DROM_MMU_START);
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#endif
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rodata_start_page &= SOC_MMU_VALID_VAL_MASK;
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rodata_end_page = rodata_start_page + rodata_page_cnt - 1;
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rodata_flash2spiram_offs = rodata_start_page - psram_start_physical_page;
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rodata_in_spiram = 1;
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ESP_DRAM_LOGV("mmu_psram", "Rodata from flash page%d copy to SPIRAM page%d, Offset: %d", rodata_start_page, psram_start_physical_page, rodata_flash2spiram_offs);
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}
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uint32_t esp_spiram_rodata_access_enabled(void)
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{
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return rodata_in_spiram;
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}
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int rodata_flash2spiram_offset(void)
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{
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return rodata_flash2spiram_offs;
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}
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uint32_t rodata_flash_start_page_get(void)
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{
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return rodata_start_page;
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}
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uint32_t rodata_flash_end_page_get(void)
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{
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return rodata_end_page;
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}
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#endif //#if CONFIG_SPIRAM_RODATA
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