mirror of
https://github.com/espressif/esp-idf.git
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325 lines
9.5 KiB
C
325 lines
9.5 KiB
C
/*
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Abstraction layer for spi-ram. For now, it's no more than a stub for the spiram_psram functions, but if
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we add more types of external RAM memory, this can be made into a more intelligent dispatcher.
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*/
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/*
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* SPDX-FileCopyrightText: 2015-2021 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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#include <stdint.h>
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#include <string.h>
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#include <sys/param.h>
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#include "sdkconfig.h"
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#include "esp_attr.h"
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#include "esp_err.h"
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#include "esp32s3/spiram.h"
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#include "spiram_psram.h"
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#include "esp_log.h"
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#include "freertos/FreeRTOS.h"
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#include "freertos/xtensa_api.h"
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#include "soc/soc.h"
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#include "esp_heap_caps_init.h"
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#include "soc/soc_memory_layout.h"
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#include "soc/dport_reg.h"
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#include "esp32s3/rom/cache.h"
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#include "soc/cache_memory.h"
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#include "soc/extmem_reg.h"
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/**
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* @note consider abstract these cache register operations, so as to make `spiram.c` not needed to be IRAM-SAFE.
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* This file only contains abstract operations.
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*/
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#define PSRAM_MODE PSRAM_VADDR_MODE_NORMAL
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#if CONFIG_SPIRAM
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static const char *TAG = "spiram";
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#if CONFIG_SPIRAM_SPEED_40M
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#define PSRAM_SPEED PSRAM_CACHE_S40M
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#else //#if CONFIG_SPIRAM_SPEED_80M
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#define PSRAM_SPEED PSRAM_CACHE_S80M
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#endif
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static bool s_spiram_inited = false;
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//These variables are in bytes
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static uint32_t s_allocable_vaddr_start;
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static uint32_t s_allocable_vaddr_end;
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static DRAM_ATTR uint32_t s_mapped_vaddr_start;
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static DRAM_ATTR uint32_t s_mapped_size;
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/**
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* Initially map all psram physical address to virtual address.
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* If psram physical size is larger than virtual address range, then only map the virtual address range.
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*/
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void IRAM_ATTR esp_spiram_init_cache(void)
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{
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esp_err_t ret = psram_get_available_size(&s_mapped_size);
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if (ret != ESP_OK) {
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abort();
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}
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if ((SOC_EXTRAM_DATA_HIGH - SOC_EXTRAM_DATA_LOW) < s_mapped_size) {
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//Decide these logics when there's a real PSRAM with larger size
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ESP_EARLY_LOGE(TAG, "Virtual address not enough for PSRAM!");
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abort();
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}
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s_mapped_vaddr_start = SOC_EXTRAM_DATA_HIGH - s_mapped_size;
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Cache_Suspend_DCache();
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Cache_Dbus_MMU_Set(MMU_ACCESS_SPIRAM, s_mapped_vaddr_start, 0, 64, s_mapped_size >> 16, 0);
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REG_CLR_BIT(EXTMEM_DCACHE_CTRL1_REG, EXTMEM_DCACHE_SHUT_CORE0_BUS);
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#if !CONFIG_FREERTOS_UNICORE
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REG_CLR_BIT(EXTMEM_DCACHE_CTRL1_REG, EXTMEM_DCACHE_SHUT_CORE1_BUS);
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#endif
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Cache_Resume_DCache(0);
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//Currently no non-heap stuff on ESP32S3
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s_allocable_vaddr_start = s_mapped_vaddr_start;
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s_allocable_vaddr_end = SOC_EXTRAM_DATA_HIGH;
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}
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/*
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Simple RAM test. Writes a word every 32 bytes. Takes about a second to complete for 4MiB. Returns
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true when RAM seems OK, false when test fails. WARNING: Do not run this before the 2nd cpu has been
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initialized (in a two-core system) or after the heap allocator has taken ownership of the memory.
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*/
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bool esp_spiram_test(void)
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{
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volatile int *spiram = (volatile int *)s_mapped_vaddr_start;
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size_t s = s_mapped_size;
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size_t p;
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int errct = 0;
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int initial_err = -1;
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for (p = 0; p < (s / sizeof(int)); p += 8) {
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spiram[p] = p ^ 0xAAAAAAAA;
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}
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for (p = 0; p < (s / sizeof(int)); p += 8) {
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if (spiram[p] != (p ^ 0xAAAAAAAA)) {
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errct++;
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if (errct == 1) {
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initial_err = p * 4;
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}
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if (errct < 4) {
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ESP_EARLY_LOGE(TAG, "SPI SRAM error@%08x:%08x/%08x \n", &spiram[p], spiram[p], p ^ 0xAAAAAAAA);
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}
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}
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}
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if (errct) {
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ESP_EARLY_LOGE(TAG, "SPI SRAM memory test fail. %d/%d writes failed, first @ %X\n", errct, s / 32, initial_err + SOC_EXTRAM_DATA_LOW);
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return false;
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} else {
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ESP_EARLY_LOGI(TAG, "SPI SRAM memory test OK");
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return true;
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}
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}
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//TODO IDF-4318
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// static uint32_t pages_for_flash = 0;
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static uint32_t instruction_in_spiram = 0;
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static uint32_t rodata_in_spiram = 0;
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#if CONFIG_SPIRAM_FETCH_INSTRUCTIONS
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static int instr_flash2spiram_offs = 0;
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static uint32_t instr_start_page = 0;
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static uint32_t instr_end_page = 0;
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#endif
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#if CONFIG_SPIRAM_RODATA
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static int rodata_flash2spiram_offs = 0;
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static uint32_t rodata_start_page = 0;
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static uint32_t rodata_end_page = 0;
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#endif
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#if CONFIG_SPIRAM_FETCH_INSTRUCTIONS || CONFIG_SPIRAM_RODATA
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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
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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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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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#if CONFIG_SPIRAM_FETCH_INSTRUCTIONS
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esp_err_t esp_spiram_enable_instruction_access(void)
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{
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//TODO IDF-4318, `pages_for_flash` will be overwritten, however it influences the psram size to be added to the heap allocator.
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abort();
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}
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#endif
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#if CONFIG_SPIRAM_RODATA
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esp_err_t esp_spiram_enable_rodata_access(void)
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{
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//TODO IDF-4318, `pages_for_flash` will be overwritten, however it influences the psram size to be added to the heap allocator.
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abort();
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}
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#endif
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#if CONFIG_SPIRAM_FETCH_INSTRUCTIONS
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void instruction_flash_page_info_init(void)
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{
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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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instr_start_page &= MMU_ADDRESS_MASK;
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instr_end_page = instr_start_page + instr_page_cnt - 1;
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}
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uint32_t IRAM_ATTR 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 IRAM_ATTR 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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int IRAM_ATTR instruction_flash2spiram_offset(void)
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{
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return instr_flash2spiram_offs;
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}
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#endif
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#if CONFIG_SPIRAM_RODATA
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void rodata_flash_page_info_init(void)
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{
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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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rodata_start_page &= MMU_ADDRESS_MASK;
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rodata_end_page = rodata_start_page + rodata_page_cnt - 1;
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}
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uint32_t IRAM_ATTR 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 IRAM_ATTR 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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int IRAM_ATTR rodata_flash2spiram_offset(void)
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{
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return rodata_flash2spiram_offs;
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}
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#endif
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esp_err_t esp_spiram_init(void)
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{
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esp_err_t r;
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uint32_t psram_physical_size = 0;
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r = psram_enable(PSRAM_SPEED, PSRAM_MODE);
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if (r != ESP_OK) {
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#if CONFIG_SPIRAM_IGNORE_NOTFOUND
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ESP_EARLY_LOGE(TAG, "SPI RAM enabled but initialization failed. Bailing out.");
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#endif
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return r;
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}
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s_spiram_inited = true;
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r = psram_get_physical_size(&psram_physical_size);
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if (r != ESP_OK) {
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abort();
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}
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#if (CONFIG_SPIRAM_SIZE != -1)
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if (psram_physical_size != CONFIG_SPIRAM_SIZE) {
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ESP_EARLY_LOGE(TAG, "Expected %dMB chip but found %dMB chip. Bailing out..", (CONFIG_SPIRAM_SIZE / 1024 / 1024), (psram_physical_size / 1024 / 1024));
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return ESP_ERR_INVALID_SIZE;
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}
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#endif
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ESP_EARLY_LOGI(TAG, "Found %dMB SPI RAM device", psram_physical_size / (1024 * 1024));
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ESP_EARLY_LOGI(TAG, "Speed: %dMHz", CONFIG_SPIRAM_SPEED);
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ESP_EARLY_LOGI(TAG, "Initialized, cache is in %s mode.", \
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(PSRAM_MODE == PSRAM_VADDR_MODE_EVENODD) ? "even/odd (2-core)" : \
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(PSRAM_MODE == PSRAM_VADDR_MODE_LOWHIGH) ? "low/high (2-core)" : \
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(PSRAM_MODE == PSRAM_VADDR_MODE_NORMAL) ? "normal (1-core)" : "ERROR");
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return ESP_OK;
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}
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/**
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* Add entire external RAM region to heap allocator. Heap allocator knows the capabilities of this type of memory,
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* so there's no need to explicitly specify them.
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*/
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esp_err_t esp_spiram_add_to_heapalloc(void)
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{
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ESP_EARLY_LOGI(TAG, "Adding pool of %dK of external SPI memory to heap allocator", (s_allocable_vaddr_end - s_allocable_vaddr_start) / 1024);
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return heap_caps_add_region(s_allocable_vaddr_start, s_allocable_vaddr_end - 1);
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}
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static uint8_t *dma_heap;
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esp_err_t esp_spiram_reserve_dma_pool(size_t size)
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{
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if (size == 0) {
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return ESP_OK; //no-op
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}
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ESP_EARLY_LOGI(TAG, "Reserving pool of %dK of internal memory for DMA/internal allocations", size / 1024);
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dma_heap = heap_caps_malloc(size, MALLOC_CAP_DMA | MALLOC_CAP_INTERNAL);
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if (!dma_heap) {
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return ESP_ERR_NO_MEM;
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}
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uint32_t caps[] = {MALLOC_CAP_DMA | MALLOC_CAP_INTERNAL, 0, MALLOC_CAP_8BIT | MALLOC_CAP_32BIT};
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return heap_caps_add_region_with_caps(caps, (intptr_t) dma_heap, (intptr_t) dma_heap + size - 1);
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}
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size_t esp_spiram_get_size(void)
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{
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if (!s_spiram_inited) {
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ESP_EARLY_LOGE(TAG, "SPI RAM not initialized");
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abort();
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}
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uint32_t size = 0; //in bytes
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esp_err_t ret = psram_get_available_size(&size);
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if (ret == ESP_OK) {
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return size;
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} else {
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return 0;
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}
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}
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/*
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Before flushing the cache, if psram is enabled as a memory-mapped thing, we need to write back the data in the cache to the psram first,
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otherwise it will get lost. For now, we just read 64/128K of random PSRAM memory to do this.
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*/
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void IRAM_ATTR esp_spiram_writeback_cache(void)
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{
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extern void Cache_WriteBack_All(void);
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Cache_WriteBack_All();
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}
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/**
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* @brief If SPI RAM(PSRAM) has been initialized
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*
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* @return true SPI RAM has been initialized successfully
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* @return false SPI RAM hasn't been initialized or initialized failed
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*/
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bool esp_spiram_is_initialized(void)
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{
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return s_spiram_inited;
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}
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uint8_t esp_spiram_get_cs_io(void)
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{
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return psram_get_cs_io();
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}
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#endif
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