mirror of
https://github.com/alexandrebobkov/ESP-Nodes.git
synced 2024-10-05 20:47:50 -04:00
178 lines
5.4 KiB
Plaintext
178 lines
5.4 KiB
Plaintext
/*
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* SPDX-FileCopyrightText: 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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/* ESP32 Linker Script Memory Layout
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This file describes the memory layout (memory blocks) as virtual
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memory addresses.
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esp32.project.ld contains output sections to link compiler output
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into these memory blocks.
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***
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This linker script is passed through the C preprocessor to include
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configuration options.
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Please use preprocessor features sparingly! Restrict
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to simple macros with numeric values, and/or #if/#endif blocks.
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*/
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/*
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* Automatically generated file. DO NOT EDIT.
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* Espressif IoT Development Framework (ESP-IDF) 5.1.2 Configuration Header
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*/
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/* List of deprecated options */
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/*
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* SPDX-FileCopyrightText: 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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/* CPU instruction prefetch padding size for flash mmap scenario */
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_esp_flash_mmap_prefetch_pad_size = 16;
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/* CPU instruction prefetch padding size for memory protection scenario */
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_esp_memprot_prefetch_pad_size = 0;
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/* Memory alignment size for PMS */
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_esp_memprot_align_size = 0;
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_esp_mmu_block_size = (0x10000);
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/* rtc timer data (s_rtc_timer_retain_mem, see esp_clk.c files). For rtc_timer_data_in_rtc_mem section. */
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/* If BT is not built at all */
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MEMORY
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{
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/* All these values assume the flash cache is on, and have the blocks this uses subtracted from the length
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of the various regions. The 'data access port' dram/drom regions map to the same iram/irom regions but
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are connected to the data port of the CPU and eg allow bytewise access. */
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/* IRAM for PRO cpu. Not sure if happy with this, this is MMU area... */
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iram0_0_seg (RX) : org = 0x40080000, len = 0x20000 + 0x0
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/* Even though the segment name is iram, it is actually mapped to flash
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*/
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iram0_2_seg (RX) : org = 0x400D0020, len = 0x330000-0x20
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/*
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(0x20 offset above is a convenience for the app binary image generation.
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Flash cache has 64KB pages. The .bin file which is flashed to the chip
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has a 0x18 byte file header, and each segment has a 0x08 byte segment
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header. Setting this offset makes it simple to meet the flash cache MMU's
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constraint that (paddr % 64KB == vaddr % 64KB).)
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*/
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/* Shared data RAM, excluding memory reserved for ROM bss/data/stack.
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Enabling Bluetooth & Trace Memory features in menuconfig will decrease
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the amount of RAM available.
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Note: Length of this section *should* be 0x50000, and this extra DRAM is available
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in heap at runtime. However due to static ROM memory usage at this 176KB mark, the
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additional static memory temporarily cannot be used.
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*/
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dram0_0_seg (RW) : org = 0x3FFB0000 + 0,
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len = 0x2c200 - 0
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/* Flash mapped constant data */
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drom0_0_seg (R) : org = 0x3F400020, len = 0x400000-0x20
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/* (See iram0_2_seg for meaning of 0x20 offset in the above.) */
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/* RTC fast memory (executable). Persists over deep sleep. */
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rtc_iram_seg(RWX) : org = 0x400C0000, len = 0x2000 - 0
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/* RTC fast memory (same block as above, rtc_iram_seg), viewed from data bus */
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rtc_data_seg(RW) : org = 0x3ff80000, len = 0x2000 - 0
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/* We reduced the size of rtc_iram_seg and rtc_data_seg by ESP_BOOTLOADER_RESERVE_RTC value.
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It reserves the amount of RTC fast memory that we use for this memory segment.
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This segment is intended for keeping bootloader rtc data (s_bootloader_retain_mem, when a Kconfig option is on).
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The aim of this is to keep data that will not be moved around and have a fixed address.
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org = 0x3ff80000 + 0x2000 - ESP_BOOTLOADER_RESERVE_RTC == SOC_RTC_DRAM_HIGH - sizeof(rtc_retain_mem_t)
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*/
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rtc_fast_reserved_seg(RW) : org = 0x3ff80000 + 0x2000 - 0, len = 0
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/* RTC slow memory (data accessible). Persists over deep sleep.
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Start of RTC slow memory is reserved for ULP co-processor code + data, if enabled.
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*/
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rtc_slow_seg(RW) : org = 0x50000000, len = 0x2000 - ((24))
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/* We reduced the size of rtc_slow_seg by RESERVE_RTC_MEM value.
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It reserves the amount of RTC slow memory that we use for this memory segment.
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This segment is intended for keeping rtc timer data (s_rtc_timer_retain_mem, see esp_clk.c files).
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The aim of this is to keep data that will not be moved around and have a fixed address.
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org = 0x50000000 + 0x2000 - RESERVE_RTC_MEM
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*/
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rtc_slow_reserved_seg(RW) : org = 0x50000000 + 0x2000 - ((24)), len = ((24))
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/* external memory */
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extern_ram_seg(RWX) : org = 0x3F800000,
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len = 0x400000
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}
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_heap_start = _heap_low_start;
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_sram1_iram_start = 0x400A0000;
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_sram1_iram_len = ( _iram_end > _sram1_iram_start) ? (_iram_end - _sram1_iram_start) : 0;
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_heap_end = ALIGN(0x40000000 - _sram1_iram_len - 3, 4);
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_data_seg_org = ORIGIN(rtc_data_seg);
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/* The lines below define location alias for .rtc.data section based on Kconfig option.
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When the option is not defined then use slow memory segment
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else the data will be placed in fast memory segment */
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REGION_ALIAS("rtc_data_location", rtc_slow_seg );
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REGION_ALIAS("default_code_seg", iram0_2_seg);
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REGION_ALIAS("default_rodata_seg", drom0_0_seg);
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/**
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* If rodata default segment is placed in `drom0_0_seg`, then flash's first rodata section must
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* also be first in the segment.
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*/
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ASSERT(_rodata_start == ORIGIN(default_rodata_seg),
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".flash.appdesc section must be placed at the beginning of the rodata segment.")
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