mirror of
https://github.com/espressif/esp-idf.git
synced 2024-10-05 20:47:46 -04:00
757f58c3ba
Prior to this commit, we don't consider the offset of the irom vaddr start. If the offset + size is bigger than the MMU page size, for example: MMU page size: 0x10000 irom vaddr: 0x4200_0800, so offset = 0x800 irom size: 0xF900 offset + size = 0x10100 Under this condition, the 0x4200_0000 ~ 0x4202_0000, two MMU pages are used. With this commit, when reserving the irom and drom, we take the offset into consideration as well. Closes https://github.com/espressif/esp-idf/issues/2561
309 lines
9.3 KiB
Plaintext
309 lines
9.3 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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.iram0.text :
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{
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_iram_start = ABSOLUTE(.);
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/* Vectors go to start of IRAM */
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ASSERT(ABSOLUTE(.) % 0x100 == 0, "vector address must be 256 byte aligned");
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KEEP(*(.exception_vectors.text));
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. = ALIGN(4);
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_invalid_pc_placeholder = ABSOLUTE(.);
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/* Code marked as running 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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/**
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* This section is required to skip .iram0.text area because iram0_0_seg and
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* dram0_0_seg reflect the same address space on different buses.
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*/
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.dram0.dummy (NOLOAD):
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{
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. = ORIGIN(dram0_0_seg) + _iram_end - _iram_start;
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} > dram0_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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__global_pointer$ = . + 0x800;
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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 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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/* 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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*(.dynsbss)
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*(.sbss)
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*(.sbss.*)
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*(.gnu.linkonce.sb.*)
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*(.scommon)
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*(.sbss2)
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*(.sbss2.*)
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*(.gnu.linkonce.sb2.*)
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*(.dynbss)
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*(.share.mem)
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*(.gnu.linkonce.b.*)
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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)), "DRAM segment data does not fit.")
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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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/**
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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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/**
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* This dummy section represents the .flash.text section but in default_rodata_seg.
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* Thus, it must have its alignment and (at least) its size.
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*/
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.flash_rodata_dummy (NOLOAD):
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{
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_flash_rodata_dummy_start = .;
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/* Start at the same alignment constraint than .flash.text */
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. = ALIGN(ALIGNOF(.flash.text));
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/* Create an empty gap as big as .flash.text section */
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. = . + SIZEOF(.flash.text);
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/* Prepare the alignment of the section above. Few bytes (0x20) must be
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* added for the mapping header. */
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. = ALIGN(_esp_mmu_block_size) + 0x20;
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} > default_rodata_seg
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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 .flash.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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. = (. + 7) & ~ 3;
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/*
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* C++ constructor and destructor tables
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* Don't include anything from crtbegin.o or crtend.o, as IDF doesn't use toolchain crt.
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*
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* RISC-V gcc is configured with --enable-initfini-array so it emits an .init_array section instead.
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* But the init_priority sections will be sorted for iteration in ascending order during startup.
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* The rest of the init_array sections is sorted for iteration in descending order during startup, however.
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* Hence a different section is generated for the init_priority functions which is iterated in
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* ascending order during startup. The corresponding code can be found in startup.c.
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*/
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__init_priority_array_start = ABSOLUTE(.);
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KEEP (*(EXCLUDE_FILE (*crtend.* *crtbegin.*) .init_array.*))
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__init_priority_array_end = ABSOLUTE(.);
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__init_array_start = ABSOLUTE(.);
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KEEP (*(EXCLUDE_FILE (*crtend.* *crtbegin.*) .init_array))
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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 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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. = ALIGN(ALIGNOF(.eh_frame));
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} > default_rodata_seg
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/* Keep this section shall be at least aligned on 4 */
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.eh_frame : ALIGN(8)
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{
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__eh_frame = ABSOLUTE(.);
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KEEP (*(.eh_frame))
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__eh_frame_end = ABSOLUTE(.);
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/* Guarantee that this section and the next one will be merged by making
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* them adjacent. */
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. = ALIGN(ALIGNOF(.eh_frame_hdr));
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} > default_rodata_seg
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/* To avoid any exception in C++ exception frame unwinding code, this section
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* shall be aligned on 8. */
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.eh_frame_hdr : ALIGN(8)
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{
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__eh_frame_hdr = ABSOLUTE(.);
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KEEP (*(.eh_frame_hdr))
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__eh_frame_hdr_end = ABSOLUTE(.);
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} > default_rodata_seg
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/*
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This section is a place where we dump all the rodata which aren't used at runtime,
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so as to avoid binary size increase
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*/
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.flash.rodata_noload (NOLOAD) :
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{
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/*
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This is a symbol marking the flash.rodata end, this can be used for mmu driver to maintain virtual address
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We don't need to include the noload rodata in this section
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*/
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_rodata_reserved_end = ABSOLUTE(.);
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. = ALIGN (4);
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mapping[rodata_noload]
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} > default_rodata_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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/* ESP32-C2 memprot requires 16B padding for possible CPU prefetch and 512B alignment for PMS split lines */
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. += _esp_memprot_prefetch_pad_size;
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. = ALIGN(_esp_memprot_align_size);
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/* iram_end_test section exists for use by memprot unit tests only */
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*(.iram_end_test)
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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(16);
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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(16);
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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(16);
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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 (16);
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_heap_start = ABSOLUTE(.);
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} > dram0_0_seg
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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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