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// Copyright 2010-2016 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.
# ifndef BOOTLOADER_BUILD
# include <stdlib.h>
# include <stdint.h>
# include "soc/soc.h"
# include "soc/soc_memory_layout.h"
# include "esp_heap_caps.h"
# include "sdkconfig.h"
/* Memory layout for ESP32 SoC */
/*
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Memory type descriptors . These describe the capabilities of a type of memory in the SoC . Each type of memory
map consist of one or more regions in the address space .
Each type contains an array of prioritised capabilities ; types with later entries are only taken if earlier
ones can ' t fulfill the memory request .
The prioritised capabilities work roughly like this :
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- For a normal malloc ( MALLOC_CAP_DEFAULT ) , give away the DRAM - only memory first , then pass off any dual - use IRAM regions ,
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finally eat into the application memory .
- For a malloc where 32 - bit - aligned - only access is okay , first allocate IRAM , then DRAM , finally application IRAM .
- Application mallocs ( PIDx ) will allocate IRAM first , if possible , then DRAM .
- Most other malloc caps only fit in one region anyway .
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*/
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const soc_memory_type_desc_t soc_memory_types [ ] = {
//Type 0: Plain ole D-port RAM
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{ " DRAM " , { MALLOC_CAP_8BIT | MALLOC_CAP_DEFAULT , MALLOC_CAP_INTERNAL | MALLOC_CAP_DMA | MALLOC_CAP_32BIT , 0 } , false , false } ,
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//Type 1: Plain ole D-port RAM which has an alias on the I-port
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//(This DRAM is also the region used by ROM during startup)
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{ " D/IRAM " , { 0 , MALLOC_CAP_DMA | MALLOC_CAP_8BIT | MALLOC_CAP_INTERNAL | MALLOC_CAP_DEFAULT , MALLOC_CAP_32BIT | MALLOC_CAP_EXEC } , true , true } ,
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//Type 2: IRAM
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{ " IRAM " , { MALLOC_CAP_EXEC | MALLOC_CAP_32BIT | MALLOC_CAP_INTERNAL , 0 , 0 } , false , false } ,
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//Type 3-8: PID 2-7 IRAM
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{ " PID2IRAM " , { MALLOC_CAP_PID2 | MALLOC_CAP_INTERNAL , 0 , MALLOC_CAP_EXEC | MALLOC_CAP_32BIT } , false , false } ,
{ " PID3IRAM " , { MALLOC_CAP_PID3 | MALLOC_CAP_INTERNAL , 0 , MALLOC_CAP_EXEC | MALLOC_CAP_32BIT } , false , false } ,
{ " PID4IRAM " , { MALLOC_CAP_PID4 | MALLOC_CAP_INTERNAL , 0 , MALLOC_CAP_EXEC | MALLOC_CAP_32BIT } , false , false } ,
{ " PID5IRAM " , { MALLOC_CAP_PID5 | MALLOC_CAP_INTERNAL , 0 , MALLOC_CAP_EXEC | MALLOC_CAP_32BIT } , false , false } ,
{ " PID6IRAM " , { MALLOC_CAP_PID6 | MALLOC_CAP_INTERNAL , 0 , MALLOC_CAP_EXEC | MALLOC_CAP_32BIT } , false , false } ,
{ " PID7IRAM " , { MALLOC_CAP_PID7 | MALLOC_CAP_INTERNAL , 0 , MALLOC_CAP_EXEC | MALLOC_CAP_32BIT } , false , false } ,
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//Type 9-14: PID 2-7 DRAM
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{ " PID2DRAM " , { MALLOC_CAP_PID2 | MALLOC_CAP_INTERNAL , MALLOC_CAP_8BIT , MALLOC_CAP_32BIT | MALLOC_CAP_DEFAULT } , false , false } ,
{ " PID3DRAM " , { MALLOC_CAP_PID3 | MALLOC_CAP_INTERNAL , MALLOC_CAP_8BIT , MALLOC_CAP_32BIT | MALLOC_CAP_DEFAULT } , false , false } ,
{ " PID4DRAM " , { MALLOC_CAP_PID4 | MALLOC_CAP_INTERNAL , MALLOC_CAP_8BIT , MALLOC_CAP_32BIT | MALLOC_CAP_DEFAULT } , false , false } ,
{ " PID5DRAM " , { MALLOC_CAP_PID5 | MALLOC_CAP_INTERNAL , MALLOC_CAP_8BIT , MALLOC_CAP_32BIT | MALLOC_CAP_DEFAULT } , false , false } ,
{ " PID6DRAM " , { MALLOC_CAP_PID6 | MALLOC_CAP_INTERNAL , MALLOC_CAP_8BIT , MALLOC_CAP_32BIT | MALLOC_CAP_DEFAULT } , false , false } ,
{ " PID7DRAM " , { MALLOC_CAP_PID7 | MALLOC_CAP_INTERNAL , MALLOC_CAP_8BIT , MALLOC_CAP_32BIT | MALLOC_CAP_DEFAULT } , false , false } ,
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# ifdef CONFIG_SPIRAM
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//Type 15: SPI SRAM data
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{ " SPIRAM " , { MALLOC_CAP_SPIRAM | MALLOC_CAP_DEFAULT , 0 , MALLOC_CAP_8BIT | MALLOC_CAP_32BIT } , false , false } ,
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# endif
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} ;
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const size_t soc_memory_type_count = sizeof ( soc_memory_types ) / sizeof ( soc_memory_type_desc_t ) ;
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# define RESERVE_SPIRAM_SIZE (4*1024*1024)
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/*
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Region descriptors . These describe all regions of memory available , and map them to a type in the above type .
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Because of requirements in the coalescing code which merges adjacent regions , this list should always be sorted
from low to high start address .
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*/
const soc_memory_region_t soc_memory_regions [ ] = {
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# ifdef CONFIG_SPIRAM
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{ SOC_EXTRAM_DATA_LOW , RESERVE_SPIRAM_SIZE , 15 , 0 } , //SPI SRAM, if available
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# endif
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{ 0x3FFAE000 , 0x2000 , 0 , 0 } , //pool 16 <- used for rom code
{ 0x3FFB0000 , 0x8000 , 0 , 0 } , //pool 15 <- if BT is enabled, used as BT HW shared memory
{ 0x3FFB8000 , 0x8000 , 0 , 0 } , //pool 14 <- if BT is enabled, used data memory for BT ROM functions.
{ 0x3FFC0000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 0
{ 0x3FFC2000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 1
{ 0x3FFC4000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 2
{ 0x3FFC6000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 3
{ 0x3FFC8000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 4
{ 0x3FFCA000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 5
{ 0x3FFCC000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 6
{ 0x3FFCE000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 7
{ 0x3FFD0000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 8
{ 0x3FFD2000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 9
{ 0x3FFD4000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 10
{ 0x3FFD6000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 11
{ 0x3FFD8000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 12
{ 0x3FFDA000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 13
{ 0x3FFDC000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 14
{ 0x3FFDE000 , 0x2000 , 0 , 0 } , //pool 10-13, mmu page 15
{ 0x3FFE0000 , 0x4000 , 1 , 0x400BC000 } , //pool 9 blk 1
{ 0x3FFE4000 , 0x4000 , 1 , 0x400B8000 } , //pool 9 blk 0
{ 0x3FFE8000 , 0x8000 , 1 , 0x400B0000 } , //pool 8 <- can be remapped to ROM, used for MAC dump
{ 0x3FFF0000 , 0x8000 , 1 , 0x400A8000 } , //pool 7 <- can be used for MAC dump
{ 0x3FFF8000 , 0x4000 , 1 , 0x400A4000 } , //pool 6 blk 1 <- can be used as trace memory
{ 0x3FFFC000 , 0x4000 , 1 , 0x400A0000 } , //pool 6 blk 0 <- can be used as trace memory
{ 0x40070000 , 0x8000 , 2 , 0 } , //pool 0
{ 0x40078000 , 0x8000 , 2 , 0 } , //pool 1
{ 0x40080000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 0
{ 0x40082000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 1
{ 0x40084000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 2
{ 0x40086000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 3
{ 0x40088000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 4
{ 0x4008A000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 5
{ 0x4008C000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 6
{ 0x4008E000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 7
{ 0x40090000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 8
{ 0x40092000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 9
{ 0x40094000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 10
{ 0x40096000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 11
{ 0x40098000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 12
{ 0x4009A000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 13
{ 0x4009C000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 14
{ 0x4009E000 , 0x2000 , 2 , 0 } , //pool 2-5, mmu page 15
} ;
const size_t soc_memory_region_count = sizeof ( soc_memory_regions ) / sizeof ( soc_memory_region_t ) ;
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/* Reserved memory regions
These are removed from the soc_memory_regions array when heaps are created .
*/
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SOC_RESERVE_MEMORY_REGION ( SOC_CACHE_PRO_LOW , SOC_CACHE_PRO_HIGH , cpu0_cache ) ;
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# ifndef CONFIG_FREERTOS_UNICORE
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SOC_RESERVE_MEMORY_REGION ( SOC_CACHE_APP_LOW , SOC_CACHE_APP_HIGH , cpu1_cache ) ;
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# endif
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/* Warning: The ROM stack is located in the 0x3ffe0000 area. We do not specifically disable that area here because
after the scheduler has started , the ROM stack is not used anymore by anything . We handle it instead by not allowing
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any mallocs memory regions with the startup_stack flag set ( these are the IRAM / DRAM region ) until the
scheduler has started .
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The 0x3ffe0000 region also contains static RAM for various ROM functions . The following lines
reserve the regions for UART and ETSC , so these functions are usable . Libraries like xtos , which are
not usable in FreeRTOS anyway , are commented out in the linker script so they cannot be used ; we
do not disable their memory regions here and they will be used as general purpose heap memory .
Enabling the heap allocator for this region but disabling allocation here until FreeRTOS is started up
is a somewhat risky action in theory , because on initializing the allocator , the multi_heap implementation
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will go and write metadata at the start and end of all regions . For the ESP32 , these linked
list entries happen to end up in a region that is not touched by the stack ; they can be placed safely there .
*/
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SOC_RESERVE_MEMORY_REGION ( 0x3ffe0000 , 0x3ffe0440 , rom_pro_data ) ; //Reserve ROM PRO data region
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# ifndef CONFIG_FREERTOS_UNICORE
SOC_RESERVE_MEMORY_REGION ( 0x3ffe3f20 , 0x3ffe4350 , rom_app_data ) ; //Reserve ROM APP data region
# endif
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SOC_RESERVE_MEMORY_REGION ( 0x3ffae000 , 0x3ffae6e0 , rom_data ) ;
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# if CONFIG_ESP32_MEMMAP_TRACEMEM
# if CONFIG_ESP32_MEMMAP_TRACEMEM_TWOBANKS
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SOC_RESERVE_MEMORY_REGION ( 0x3fff8000 , 0x40000000 , trace_mem ) ; //Reserve trace mem region, 32K for both cpu
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# else
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SOC_RESERVE_MEMORY_REGION ( 0x3fffc000 , 0x40000000 , trace_mem ) ; //Reserve trace mem region, 16K (upper-half) for pro cpu
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# endif
# endif
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# ifdef CONFIG_SPIRAM
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SOC_RESERVE_MEMORY_REGION ( SOC_EXTRAM_DATA_LOW , SOC_EXTRAM_DATA_LOW + RESERVE_SPIRAM_SIZE , spi_ram ) ; //SPI RAM gets added later if needed, in spiram.c; reserve it for now
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# endif
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# endif /* BOOTLOADER_BUILD */