mirror of
https://github.com/espressif/esp-idf.git
synced 2024-10-05 20:47:46 -04:00
2d44dc1eed
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
427 lines
12 KiB
Plaintext
427 lines
12 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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/* Default entry point: */
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ENTRY(call_start_cpu0);
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SECTIONS
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{
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/* RTC fast memory holds RTC wake stub code,
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including from any source file named rtc_wake_stub*.c
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*/
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.rtc.text :
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{
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. = ALIGN(4);
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mapping[rtc_text]
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*rtc_wake_stub*.*(.literal .text .literal.* .text.*)
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_rtc_text_end = ABSOLUTE(.);
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} > rtc_iram_seg
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/*
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This section is required to skip rtc.text area because rtc_iram_seg and
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rtc_data_seg are reflect the same address space on different buses.
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*/
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.rtc.dummy :
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{
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_rtc_dummy_start = ABSOLUTE(.);
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_rtc_fast_start = ABSOLUTE(.);
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. = SIZEOF(.rtc.text);
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_rtc_dummy_end = ABSOLUTE(.);
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} > rtc_data_seg
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/* This section located in RTC FAST Memory area.
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It holds data marked with RTC_FAST_ATTR attribute.
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See the file "esp_attr.h" for more information.
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*/
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.rtc.force_fast :
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{
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. = ALIGN(4);
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_rtc_force_fast_start = ABSOLUTE(.);
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mapping[rtc_force_fast]
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*(.rtc.force_fast .rtc.force_fast.*)
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. = ALIGN(4) ;
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_rtc_force_fast_end = ABSOLUTE(.);
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} > rtc_data_seg
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/* RTC data section holds RTC wake stub
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data/rodata, including from any source file
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named rtc_wake_stub*.c and the data marked with
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RTC_DATA_ATTR, RTC_RODATA_ATTR attributes.
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The memory location of the data is dependent on
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CONFIG_ESP32_RTCDATA_IN_FAST_MEM option.
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*/
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.rtc.data :
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{
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_rtc_data_start = ABSOLUTE(.);
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mapping[rtc_data]
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*rtc_wake_stub*.*(.data .rodata .data.* .rodata.* .bss .bss.*)
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_rtc_data_end = ABSOLUTE(.);
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} > rtc_data_location
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/* RTC bss, from any source file named rtc_wake_stub*.c */
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.rtc.bss (NOLOAD) :
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{
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_rtc_bss_start = ABSOLUTE(.);
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*rtc_wake_stub*.*(.bss .bss.*)
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*rtc_wake_stub*.*(COMMON)
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mapping[rtc_bss]
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_rtc_bss_end = ABSOLUTE(.);
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} > rtc_data_location
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/* This section holds data that should not be initialized at power up
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and will be retained during deep sleep.
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User data marked with RTC_NOINIT_ATTR will be placed
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into this section. See the file "esp_attr.h" for more information.
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The memory location of the data is dependent on
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CONFIG_ESP32_RTCDATA_IN_FAST_MEM option.
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*/
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.rtc_noinit (NOLOAD):
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{
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. = ALIGN(4);
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_rtc_noinit_start = ABSOLUTE(.);
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*(.rtc_noinit .rtc_noinit.*)
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. = ALIGN(4) ;
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_rtc_noinit_end = ABSOLUTE(.);
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} > rtc_data_location
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/* This section located in RTC SLOW Memory area.
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It holds data marked with RTC_SLOW_ATTR attribute.
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See the file "esp_attr.h" for more information.
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*/
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.rtc.force_slow :
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{
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. = ALIGN(4);
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_rtc_force_slow_start = ABSOLUTE(.);
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*(.rtc.force_slow .rtc.force_slow.*)
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. = ALIGN(4) ;
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_rtc_force_slow_end = ABSOLUTE(.);
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} > rtc_slow_seg
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/* Get size of rtc slow data based on rtc_data_location alias */
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_rtc_slow_length = (ORIGIN(rtc_slow_seg) == ORIGIN(rtc_data_location))
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? (_rtc_force_slow_end - _rtc_data_start)
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: (_rtc_force_slow_end - _rtc_force_slow_start);
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_rtc_fast_length = (ORIGIN(rtc_slow_seg) == ORIGIN(rtc_data_location))
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? (_rtc_force_fast_end - _rtc_fast_start)
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: (_rtc_noinit_end - _rtc_fast_start);
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ASSERT((_rtc_slow_length <= LENGTH(rtc_slow_seg)),
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"RTC_SLOW segment data does not fit.")
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ASSERT((_rtc_fast_length <= LENGTH(rtc_data_seg)),
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"RTC_FAST segment data does not fit.")
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/* Send .iram0 code to iram */
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.iram0.vectors :
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{
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_iram_start = ABSOLUTE(.);
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/* Vectors go to IRAM */
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_vector_table = ABSOLUTE(.);
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/* Vectors according to builds/RF-2015.2-win32/esp108_v1_2_s5_512int_2/config.html */
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. = 0x0;
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KEEP(*(.WindowVectors.text));
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. = 0x180;
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KEEP(*(.Level2InterruptVector.text));
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. = 0x1c0;
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KEEP(*(.Level3InterruptVector.text));
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. = 0x200;
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KEEP(*(.Level4InterruptVector.text));
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. = 0x240;
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KEEP(*(.Level5InterruptVector.text));
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. = 0x280;
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KEEP(*(.DebugExceptionVector.text));
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. = 0x2c0;
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KEEP(*(.NMIExceptionVector.text));
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. = 0x300;
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KEEP(*(.KernelExceptionVector.text));
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. = 0x340;
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KEEP(*(.UserExceptionVector.text));
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. = 0x3C0;
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KEEP(*(.DoubleExceptionVector.text));
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. = 0x400;
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_invalid_pc_placeholder = ABSOLUTE(.);
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*(.*Vector.literal)
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*(.UserEnter.literal);
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*(.UserEnter.text);
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. = ALIGN (16);
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*(.entry.text)
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*(.init.literal)
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*(.init)
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_init_end = ABSOLUTE(.);
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} > iram0_0_seg
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.iram0.text :
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{
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/* Code marked as runnning out of IRAM */
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_iram_text_start = ABSOLUTE(.);
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mapping[iram0_text]
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} > iram0_0_seg
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.dram0.data :
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{
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_data_start = ABSOLUTE(.);
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*(.gnu.linkonce.d.*)
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*(.data1)
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*(.sdata)
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*(.sdata.*)
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*(.gnu.linkonce.s.*)
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*(.gnu.linkonce.s2.*)
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*(.jcr)
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mapping[dram0_data]
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_data_end = ABSOLUTE(.);
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. = ALIGN(4);
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} > dram0_0_seg
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/**
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* This section holds data that won't be initialised when startup.
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* This section locates in External RAM region.
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*/
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.ext_ram_noinit (NOLOAD) :
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{
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_ext_ram_noinit_start = ABSOLUTE(.);
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*(.ext_ram_noinit*)
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. = ALIGN(4);
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_ext_ram_noinit_end = ABSOLUTE(.);
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} > extern_ram_seg
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/*This section holds data that should not be initialized at power up.
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The section located in Internal SRAM memory region. The macro _NOINIT
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can be used as attribute to place data into this section.
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See the esp_attr.h file for more information.
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*/
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.noinit (NOLOAD):
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{
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. = ALIGN(4);
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_noinit_start = ABSOLUTE(.);
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*(.noinit .noinit.*)
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. = ALIGN(4) ;
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_noinit_end = ABSOLUTE(.);
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} > dram0_0_seg
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/* external memory bss, from any global variable with EXT_RAM_BSS_ATTR attribute*/
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.ext_ram.bss (NOLOAD) :
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{
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_ext_ram_bss_start = ABSOLUTE(.);
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mapping[extern_ram]
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. = ALIGN(4);
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_ext_ram_bss_end = ABSOLUTE(.);
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} > extern_ram_seg
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/* Shared RAM */
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.dram0.bss (NOLOAD) :
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{
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. = ALIGN (8);
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_bss_start = ABSOLUTE(.);
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mapping[dram0_bss]
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. = ALIGN (8);
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_bss_end = ABSOLUTE(.);
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} > dram0_0_seg
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ASSERT(((_bss_end - ORIGIN(dram0_0_seg)) <= LENGTH(dram0_0_seg)),
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"DRAM segment data does not fit.")
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.flash.appdesc : ALIGN(0x10)
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{
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_rodata_reserved_start = ABSOLUTE(.); /* This is a symbol marking the flash.rodata start, this can be used for mmu driver to maintain virtual address */
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_rodata_start = ABSOLUTE(.);
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*(.rodata_desc .rodata_desc.*) /* Should be the first. App version info. DO NOT PUT ANYTHING BEFORE IT! */
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*(.rodata_custom_desc .rodata_custom_desc.*) /* Should be the second. Custom app version info. DO NOT PUT ANYTHING BEFORE IT! */
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/* Create an empty gap within this section. Thanks to this, the end of this
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* section will match .flah.rodata's begin address. Thus, both sections
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* will be merged when creating the final bin image. */
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. = ALIGN(ALIGNOF(.flash.rodata));
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} >default_rodata_seg
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.flash.rodata : ALIGN(0x10)
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{
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_flash_rodata_start = ABSOLUTE(.);
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mapping[flash_rodata]
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*(.irom1.text) /* catch stray ICACHE_RODATA_ATTR */
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*(.gnu.linkonce.r.*)
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*(.rodata1)
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__XT_EXCEPTION_TABLE_ = ABSOLUTE(.);
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*(.xt_except_table)
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*(.gcc_except_table .gcc_except_table.*)
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*(.gnu.linkonce.e.*)
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*(.gnu.version_r)
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. = (. + 3) & ~ 3;
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__eh_frame = ABSOLUTE(.);
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KEEP(*(.eh_frame))
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. = (. + 7) & ~ 3;
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/* C++ constructor and destructor tables
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Make a point of not including anything from crtbegin.o or crtend.o, as IDF doesn't use toolchain crt
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*/
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__init_array_start = ABSOLUTE(.);
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KEEP (*(EXCLUDE_FILE (*crtend.* *crtbegin.*) .ctors SORT(.ctors.*)))
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__init_array_end = ABSOLUTE(.);
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KEEP (*crtbegin.*(.dtors))
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KEEP (*(EXCLUDE_FILE (*crtend.*) .dtors))
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KEEP (*(SORT(.dtors.*)))
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KEEP (*(.dtors))
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/* C++ exception handlers table: */
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__XT_EXCEPTION_DESCS_ = ABSOLUTE(.);
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*(.xt_except_desc)
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*(.gnu.linkonce.h.*)
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__XT_EXCEPTION_DESCS_END__ = ABSOLUTE(.);
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*(.xt_except_desc_end)
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*(.dynamic)
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*(.gnu.version_d)
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/* Addresses of memory regions reserved via
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SOC_RESERVE_MEMORY_REGION() */
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soc_reserved_memory_region_start = ABSOLUTE(.);
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KEEP (*(.reserved_memory_address))
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soc_reserved_memory_region_end = ABSOLUTE(.);
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/* System init functions registered via ESP_SYSTEM_INIT_FN */
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_esp_system_init_fn_array_start = ABSOLUTE(.);
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KEEP (*(SORT_BY_INIT_PRIORITY(.esp_system_init_fn.*)))
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_esp_system_init_fn_array_end = ABSOLUTE(.);
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_rodata_end = ABSOLUTE(.);
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/* Literals are also RO data. */
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_lit4_start = ABSOLUTE(.);
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*(*.lit4)
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*(.lit4.*)
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*(.gnu.linkonce.lit4.*)
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_lit4_end = ABSOLUTE(.);
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. = ALIGN(4);
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_thread_local_start = ABSOLUTE(.);
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*(.tdata)
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*(.tdata.*)
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*(.tbss)
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*(.tbss.*)
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_thread_local_end = ABSOLUTE(.);
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_rodata_reserved_end = ABSOLUTE(.); /* This is a symbol marking the flash.rodata end, this can be used for mmu driver to maintain virtual address */
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. = ALIGN(4);
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} >default_rodata_seg
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_flash_rodata_align = ALIGNOF(.flash.rodata);
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.flash.rodata_noload (NOLOAD) :
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{
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. = ALIGN (4);
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mapping[rodata_noload]
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} > default_rodata_seg
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.flash.text :
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{
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_stext = .;
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_instruction_reserved_start = ABSOLUTE(.); /* This is a symbol marking the flash.text start, this can be used for mmu driver to maintain virtual address */
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_text_start = ABSOLUTE(.);
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mapping[flash_text]
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*(.stub .gnu.warning .gnu.linkonce.literal.* .gnu.linkonce.t.*.literal .gnu.linkonce.t.*)
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*(.irom0.text) /* catch stray ICACHE_RODATA_ATTR */
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*(.fini.literal)
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*(.fini)
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*(.gnu.version)
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/** CPU will try to prefetch up to 16 bytes of
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* of instructions. This means that any configuration (e.g. MMU, PMS) must allow
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* safe access to up to 16 bytes after the last real instruction, add
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* dummy bytes to ensure this
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*/
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. += _esp_flash_mmap_prefetch_pad_size;
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_text_end = ABSOLUTE(.);
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_instruction_reserved_end = ABSOLUTE(.); /* This is a symbol marking the flash.text end, this can be used for mmu driver to maintain virtual address */
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_etext = .;
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/* Similar to _iram_start, this symbol goes here so it is
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resolved by addr2line in preference to the first symbol in
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the flash.text segment.
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*/
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_flash_cache_start = ABSOLUTE(0);
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} >default_code_seg
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/* Marks the end of IRAM code segment */
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.iram0.text_end (NOLOAD) :
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{
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. = ALIGN (4);
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_iram_text_end = ABSOLUTE(.);
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} > iram0_0_seg
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.iram0.data :
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{
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. = ALIGN(4);
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_iram_data_start = ABSOLUTE(.);
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mapping[iram0_data]
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_iram_data_end = ABSOLUTE(.);
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} > iram0_0_seg
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.iram0.bss (NOLOAD) :
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{
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. = ALIGN(4);
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_iram_bss_start = ABSOLUTE(.);
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mapping[iram0_bss]
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_iram_bss_end = ABSOLUTE(.);
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. = ALIGN(4);
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_iram_end = ABSOLUTE(.);
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} > iram0_0_seg
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/* Marks the end of data, bss and possibly rodata */
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.dram0.heap_start (NOLOAD) :
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{
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. = ALIGN (8);
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_heap_start = ABSOLUTE(.);
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} > dram0_0_seg
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/** This section will be used by the debugger and disassembler to get more information
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* about raw data present in the code.
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* Indeed, it may be required to add some padding at some points in the code
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* in order to align a branch/jump destination on a particular bound.
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* Padding these instructions will generate null bytes that shall be
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* interpreted as data, and not code by the debugger or disassembler.
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* This section will only be present in the ELF file, not in the final binary
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* For more details, check GCC-212
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*/
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.xt.prop 0 :
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{
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KEEP (*(.xt.prop .gnu.linkonce.prop.*))
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}
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.xt.lit 0 :
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{
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KEEP (*(.xt.lit .gnu.linkonce.p.*))
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}
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}
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ASSERT(((_iram_end - ORIGIN(iram0_0_seg)) <= LENGTH(iram0_0_seg)),
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"IRAM0 segment data does not fit.")
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ASSERT(((_heap_start - ORIGIN(dram0_0_seg)) <= LENGTH(dram0_0_seg)),
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"DRAM segment data does not fit.")
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