esp-idf/components/esp_system/ld/esp32p4/memory.ld.in
Alexey Lapshin fdb7a43752 Merge branch 'feature/esp32p4_concontiguous_mem_mvp' into 'master'
feat(esp_system): allow .bss to spill over into L2MEM above 0x4ff40000 on P4

See merge request espressif/esp-idf!28783
2024-02-29 16:28:13 +08:00

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/*
* SPDX-FileCopyrightText: 2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/**
* ESP32-P4 Linker Script Memory Layout
* This file describes the memory layout (memory blocks) by virtual memory addresses.
* This linker script is passed through the C preprocessor to include configuration options.
* Please use preprocessor features sparingly!
* Restrict to simple macros with numeric values, and/or #if/#endif blocks.
*/
#include "sdkconfig.h"
#include "ld.common"
#define SRAM_LOW_START 0x4FF00000
#define SRAM_LOW_END 0x4FF2CBD0 /* 2nd stage bootloader iram_loader_seg start address */
#define SRAM_LOW_SIZE SRAM_LOW_END - SRAM_LOW_START
/* If the cache size is less than 512KB, then there is a region of RAM
* above the ROM-reserved region and below the start of the cache.
*/
#define SRAM_HIGH_START 0x4FF40000
#define SRAM_HIGH_SIZE 0x80000 - CONFIG_CACHE_L2_CACHE_SIZE
#define SRAM_HIGH_END SRAM_HIGH_START + SRAM_HIGH_SIZE
#if CONFIG_APP_BUILD_USE_FLASH_SECTIONS
#define IDROM_SEG_SIZE (CONFIG_MMU_PAGE_SIZE << 10)
#endif
MEMORY
{
/**
* All these values assume the flash cache is on, and have the blocks this uses subtracted from the length
* of the various regions. The 'data access port' dram/drom regions map to the same iram/irom regions but
* are connected to the data port of the CPU and eg allow byte-wise access.
*/
/* TCM */
tcm_idram_seg (RX) : org = 0x30100000, len = 0x2000
#if CONFIG_APP_BUILD_USE_FLASH_SECTIONS
/* Flash mapped instruction data */
irom_seg (RX) : org = 0x40000020, len = IDROM_SEG_SIZE - 0x20
/**
* (0x20 offset above is a convenience for the app binary image generation.
* Flash cache has 64KB pages. The .bin file which is flashed to the chip
* has a 0x18 byte file header, and each segment has a 0x08 byte segment
* header. Setting this offset makes it simple to meet the flash cache MMU's
* constraint that (paddr % 64KB == vaddr % 64KB).)
*/
#endif // CONFIG_APP_BUILD_USE_FLASH_SECTIONS
/**
* Shared data RAM, excluding memory reserved for ROM bss/data/stack.
* Enabling Bluetooth & Trace Memory features in menuconfig will decrease the amount of RAM available.
*/
sram_low (RWX) : org = SRAM_LOW_START, len = SRAM_LOW_SIZE
sram_high (RW) : org = SRAM_HIGH_START, len = SRAM_HIGH_SIZE
#if CONFIG_APP_BUILD_USE_FLASH_SECTIONS
/* Flash mapped constant data */
drom_seg (R) : org = 0x40000020, len = IDROM_SEG_SIZE - 0x20
/* (See irom_seg for meaning of 0x20 offset in the above.) */
#endif // CONFIG_APP_BUILD_USE_FLASH_SECTIONS
/**
* lp ram memory (RWX). Persists over deep sleep. // TODO: IDF-5667
*/
#if CONFIG_ULP_COPROC_ENABLED
lp_ram_seg(RW) : org = 0x50108000 + CONFIG_ULP_COPROC_RESERVE_MEM,
len = 0x8000 - CONFIG_ULP_COPROC_RESERVE_MEM - RESERVE_RTC_MEM
#else
lp_ram_seg(RW) : org = 0x50108000 , len = 0x8000 - RESERVE_RTC_MEM
#endif // CONFIG_ULP_COPROC_ENABLED
/* We reduced the size of lp_ram_seg by RESERVE_RTC_MEM value.
It reserves the amount of LP memory that we use for this memory segment.
This segment is intended for keeping:
- (lower addr) rtc timer data (s_rtc_timer_retain_mem, see esp_clk.c files).
- (higher addr) bootloader rtc data (s_bootloader_retain_mem, when a Kconfig option is on).
The aim of this is to keep data that will not be moved around and have a fixed address.
*/
lp_reserved_seg(RW) : org = 0x50108000 + 0x8000 - RESERVE_RTC_MEM, len = RESERVE_RTC_MEM
}
/* Heap ends at top of dram0_0_seg */
_heap_end = 0x50000000;
_data_seg_org = ORIGIN(rtc_data_seg);
/**
* The lines below define location alias for .rtc.data section
* P4 has no distinguished LP(RTC) fast and slow memory sections, instead, there is a unified LP_RAM section
* Thus, the following region segments are not configurable like on other targets
*/
REGION_ALIAS("rtc_iram_seg", lp_ram_seg );
REGION_ALIAS("rtc_data_seg", rtc_iram_seg );
REGION_ALIAS("rtc_slow_seg", rtc_iram_seg );
REGION_ALIAS("rtc_data_location", rtc_iram_seg );
REGION_ALIAS("rtc_reserved_seg", lp_reserved_seg );
#if CONFIG_APP_BUILD_USE_FLASH_SECTIONS
REGION_ALIAS("text_seg_low", irom_seg);
#else
REGION_ALIAS("text_seg_low", sram_low);
REGION_ALIAS("text_seg_high", sram_high);
#endif // CONFIG_APP_BUILD_USE_FLASH_SECTIONS
#if CONFIG_APP_BUILD_USE_FLASH_SECTIONS
REGION_ALIAS("rodata_seg_low", drom_seg);
#else
REGION_ALIAS("rodata_seg_low", sram_low);
REGION_ALIAS("rodata_seg_high", sram_high);
#endif // CONFIG_APP_BUILD_USE_FLASH_SECTIONS
/**
* If rodata default segment is placed in `drom_seg`, then flash's first rodata section must
* also be first in the segment.
*/
#if CONFIG_APP_BUILD_USE_FLASH_SECTIONS
ASSERT(_flash_rodata_dummy_start == ORIGIN(rodata_seg_low),
".flash_rodata_dummy section must be placed at the beginning of the rodata segment.")
#endif
#if CONFIG_ESP_SYSTEM_USE_EH_FRAME
ASSERT ((__eh_frame_end > __eh_frame), "Error: eh_frame size is null!");
ASSERT ((__eh_frame_hdr_end > __eh_frame_hdr), "Error: eh_frame_hdr size is null!");
#endif