esp-idf/components/esp_psram/ext_mem_layout.c
Armando 29ae238845 mmu: driver framework, for vaddr maintenance
This commit gives basic mmu driver framework. Now it is able to maintain
mmu virtual address usage on esp32, esp32s2 and esp32s3. Usage to
external virtual address should rely on mmu functions to know which
address range is available, instead of hardcoded.

This commit also improves psram memory that is added to the heap
allocator. Now it's added to the heap, according to the memory
alignment.

Closes https://github.com/espressif/esp-idf/issues/8295
Closes https://github.com/espressif/esp-idf/issues/9193
2022-08-27 16:05:51 +08:00

78 lines
4.3 KiB
C

/*
* SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <stdlib.h>
#include <stdint.h>
#include "sdkconfig.h"
#include "soc/ext_mem_defs.h"
#include "ext_mem_layout.h"
#include "mmu.h"
#if CONFIG_IDF_TARGET_ESP32
/**
* These regions is referring to linear address
* The start addresses in this list should always be sorted from low to high, as MMU driver will need to
* coalesce adjacent regions
*/
const mmu_mem_region_t g_mmu_mem_regions[SOC_MMU_LINEAR_ADDRESS_REGION_NUM] = {
/*linear start linear end bus size bus ID, bus capabilities */
//Can be used for text
{SOC_MMU_IRAM0_LINEAR_ADDRESS_LOW, SOC_MMU_IRAM0_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_IRAM0_LINEAR), CACHE_BUS_IBUS0, MMU_MEM_CAP_EXEC | MMU_MEM_CAP_READ | MMU_MEM_CAP_32BIT},
//Can be used for text
{SOC_MMU_IRAM1_LINEAR_ADDRESS_LOW, SOC_MMU_IRAM1_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_IRAM1_LINEAR), CACHE_BUS_IBUS1, MMU_MEM_CAP_EXEC | MMU_MEM_CAP_READ | MMU_MEM_CAP_32BIT},
//Can be used for text
{SOC_MMU_IROM0_LINEAR_ADDRESS_LOW, SOC_MMU_IROM0_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_IROM0_LINEAR), CACHE_BUS_IBUS2, MMU_MEM_CAP_EXEC | MMU_MEM_CAP_READ | MMU_MEM_CAP_32BIT},
//Can be used for rodata
{SOC_MMU_DROM0_LINEAR_ADDRESS_LOW, SOC_MMU_DROM0_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_DROM0_LINEAR), CACHE_BUS_DBUS0, MMU_MEM_CAP_READ | MMU_MEM_CAP_32BIT | MMU_MEM_CAP_8BIT},
//Can be used for PSRAM
{SOC_MMU_DRAM1_LINEAR_ADDRESS_LOW, SOC_MMU_DRAM1_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_DRAM1_LINEAR), CACHE_BUS_DBUS1, MMU_MEM_CAP_READ | MMU_MEM_CAP_WRITE | MMU_MEM_CAP_32BIT | MMU_MEM_CAP_8BIT},
};
#elif CONFIG_IDF_TARGET_ESP32S2
/**
* These regions is referring to linear address
* The start addresses in this list should always be sorted from low to high, as MMU driver will need to
* coalesce adjacent regions
*/
const mmu_mem_region_t g_mmu_mem_regions[SOC_MMU_LINEAR_ADDRESS_REGION_NUM] = {
/*linear start linear end bus size bus ID, bus capabilities */
//Can be used for text
{SOC_MMU_IRAM0_LINEAR_ADDRESS_LOW, SOC_MMU_IRAM0_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_IRAM0_LINEAR), CACHE_BUS_IBUS0, MMU_MEM_CAP_EXEC | MMU_MEM_CAP_READ | MMU_MEM_CAP_32BIT},
//Can be used for text
{SOC_MMU_IRAM1_LINEAR_ADDRESS_LOW, SOC_MMU_IRAM1_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_IRAM1_LINEAR), CACHE_BUS_IBUS1, MMU_MEM_CAP_EXEC | MMU_MEM_CAP_READ | MMU_MEM_CAP_32BIT},
//Can be used for Flash rodata, connected by IBUS
{SOC_MMU_DROM0_LINEAR_ADDRESS_LOW, SOC_MMU_DROM0_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_DROM0_LINEAR), CACHE_BUS_IBUS2, MMU_MEM_CAP_READ | MMU_MEM_CAP_32BIT | MMU_MEM_CAP_8BIT},
//Can be used for PSRAM
{SOC_MMU_DPORT_LINEAR_ADDRESS_LOW, SOC_MMU_DPORT_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_DPORT_LINEAR), CACHE_BUS_DBUS2, MMU_MEM_CAP_READ | MMU_MEM_CAP_WRITE | MMU_MEM_CAP_32BIT},
//Can be used for PSRAM
{SOC_MMU_DRAM1_LINEAR_ADDRESS_LOW, SOC_MMU_DRAM1_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_DRAM1_LINEAR), CACHE_BUS_DBUS1, MMU_MEM_CAP_READ | MMU_MEM_CAP_WRITE | MMU_MEM_CAP_32BIT | MMU_MEM_CAP_8BIT},
//Can be used for PSRAM
{SOC_MMU_DRAM0_LINEAR_ADDRESS_LOW, SOC_MMU_DRAM0_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_DRAM0_LINEAR), CACHE_BUS_DBUS0, MMU_MEM_CAP_READ | MMU_MEM_CAP_WRITE | MMU_MEM_CAP_32BIT | MMU_MEM_CAP_8BIT},
};
#elif CONFIG_IDF_TARGET_ESP32S3
/**
* The start addresses in this list should always be sorted from low to high, as MMU driver will need to
* coalesce adjacent regions
*/
const mmu_mem_region_t g_mmu_mem_regions[SOC_MMU_LINEAR_ADDRESS_REGION_NUM] = {
/*linear start linear end bus size bus ID, bus capabilities */
/**
* Can be used for Flash text, rodata, and PSRAM
* IRAM0 linear address should be always the same as DRAM0 linear address
*/
{SOC_MMU_IRAM0_LINEAR_ADDRESS_LOW, SOC_MMU_IRAM0_LINEAR_ADDRESS_HIGH, BUS_SIZE(SOC_MMU_IRAM0_LINEAR), CACHE_BUS_IBUS0 | CACHE_BUS_DBUS0, MMU_MEM_CAP_EXEC | MMU_MEM_CAP_READ | MMU_MEM_CAP_WRITE | MMU_MEM_CAP_32BIT | MMU_MEM_CAP_8BIT},
};
#endif