/**************************************************************************** * boards/xtensa/esp32s3/common/scripts/esp32s3_sections.ld * * SPDX-License-Identifier: Apache-2.0 * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you 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. * ****************************************************************************/ #include <nuttx/config.h> /* Default entry point: */ ENTRY(__start); _diram_i_start = 0x40378000; SECTIONS { #ifdef CONFIG_ESP32S3_APP_FORMAT_MCUBOOT .metadata : { /* The following metadata refers to the to MCUboot's struct * esp_image_load_header defined at the following commit: * https://github.com/mcu-tools/mcuboot/blob/cd22b693da426826e0255f8ee5b18d7360d9bc8f/boot/espressif/hal/include/esp_mcuboot_image.h */ /* Magic for load header */ LONG(0xace637d3) /* Application entry point address */ KEEP(*(.entry_addr)) /* IRAM metadata: * - Destination address (VMA) for IRAM region * - Flash offset (LMA) for start of IRAM region * - Size of IRAM region */ LONG(ADDR(.iram0.vectors)) LONG(LOADADDR(.iram0.vectors)) LONG(LOADADDR(.iram0.text) + SIZEOF(.iram0.text) - LOADADDR(.iram0.vectors)) /* DRAM metadata: * - Destination address (VMA) for DRAM region * - Flash offset (LMA) for start of DRAM region * - Size of DRAM region */ LONG(ADDR(.dram0.data)) LONG(LOADADDR(.dram0.data)) LONG(SIZEOF(.dram0.data)) /* RTC_IRAM metadata: * - Destination address (VMA) for RTC_IRAM region * - Flash offset (LMA) for start of RTC_IRAM region * - Size of RTC_IRAM region */ LONG(ADDR(.rtc.text)) LONG(LOADADDR(.rtc.text)) LONG(SIZEOF(.rtc.text)) /* RTC_DRAM metadata: * - Destination address (VMA) for RTC_DRAM region * - Flash offset (LMA) for start of RTC_DRAM region * - Size of RTC_DRAM region */ LONG(ADDR(.rtc.data)) LONG(LOADADDR(.rtc.data)) LONG(SIZEOF(.rtc.data)) /* IROM metadata: * - Destination address (VMA) for IROM region * - Flash offset (LMA) for start of IROM region * - Size of IROM region */ LONG(ADDR(.flash.text)) LONG(LOADADDR(.flash.text)) LONG(SIZEOF(.flash.text)) /* DROM metadata: * - Destination address (VMA) for DROM region * - Flash offset (LMA) for start of DROM region * - Size of DROM region */ LONG(ADDR(.flash.rodata)) LONG(LOADADDR(.flash.rodata)) LONG(LOADADDR(.flash.rodata) + SIZEOF(.flash.rodata) - LOADADDR(.flash.rodata)) } >metadata #endif /* CONFIG_ESP32S3_APP_FORMAT_MCUBOOT */ /* Send .iram0 code to iram */ .iram0.vectors : ALIGN(4) { _iram_start = ABSOLUTE(.); /* Vectors go to IRAM. */ _init_start = ABSOLUTE(.); /* Vectors according to builds/RF-2015.2-win32/esp108_v1_2_s5_512int_2/config.html */ . = 0x0; KEEP (*(.window_vectors.text)); . = 0x180; KEEP (*(.xtensa_level2_vector.text)); . = 0x1c0; KEEP (*(.xtensa_level3_vector.text)); . = 0x200; KEEP (*(.xtensa_level4_vector.text)); . = 0x240; KEEP (*(.xtensa_level5_vector.text)); . = 0x280; KEEP (*(.debug_exception_vector.text)); . = 0x2c0; KEEP (*(.nmi_vector.text)); . = 0x300; KEEP (*(.kernel_exception_vector.text)); . = 0x340; KEEP (*(.user_exception_vector.text)); . = 0x3c0; KEEP (*(.double_exception_vector.text)); . = 0x400; *(.*_vector.literal) . = ALIGN(16); *(.entry.text) *(.init.literal) *(.init) _init_end = ABSOLUTE(.); } >iram0_0_seg AT>ROM .iram0.text : ALIGN(4) { /* Code marked as running out of IRAM */ *(.iram1 .iram1.*) esp32s3_start.*(.literal .text .literal.* .text.*) esp32s3_region.*(.literal .text .literal.* .text.*) *libcoexist.a:(.coexiram .coexiram.*) *libarch.a:*esp_loader.*(.literal .text .literal.* .text.*) *libarch.a:esp32s3_cpuindex.*(.literal .text .literal.* .text.*) *libarch.a:esp32s3_irq.*(.literal .text .literal.* .text.*) *libarch.a:esp32s3_user.*(.literal .text .literal.* .text.*) *libarch.a:esp32s3_spiflash.*(.literal .text .literal.* .text.*) *libarch.a:xtensa_assert.*(.literal .text .literal.* .text.*) *libarch.a:xtensa_cpuint.*(.literal .text .literal.* .text.*) *libarch.a:xtensa_cpupause.*(.literal .text .literal.* .text.*) *libarch.a:xtensa_irqdispatch.*(.literal .text .literal.* .text.*) *libarch.a:xtensa_modifyreg32.*(.literal .text .literal.* .text.*) *libarch.a:xtensa_testset.*(.literal .text .literal.* .text.*) *libc.a:sq_remlast.*(.literal .text .literal.* .text.*) *libdrivers.a:syslog_flush.*(.literal .text .literal.* .text.*) *libsched.a:assert.*(.literal .text .literal.* .text.*) *libsched.a:irq_csection.*(.literal .text .literal.* .text.*) *libsched.a:irq_dispatch.*(.literal .text .literal.* .text.*) *libsched.a:irq_spinlock.*(.literal .text .literal.* .text.*) *libsched.a:sched_lock.*(.literal .text .literal.* .text.*) *libsched.a:sched_note.*(.literal .text .literal.* .text.*) *libsched.a:sched_suspendscheduler.*(.literal .text .literal.* .text.*) *libsched.a:sched_thistask.*(.literal .text .literal.* .text.*) *libsched.a:sched_unlock.*(.literal .text .literal.* .text.*) *libsched.a:spinlock.*(.literal .text .literal.* .text.*) *libsched.a:*sched_get_stackinfo.*(.literal .text .literal.* .text.*) *libsched.a:stack_record.*(.literal .text .literal.* .text.*) #ifdef CONFIG_ESP32S3_SPEED_UP_ISR *libarch.a:xtensa_switchcontext.*(.literal.up_switch_context .text.up_switch_context) *libarch.a:esp32s3_timerisr.*(.literal.systimer_isr .text.systimer_isr) *libarch.a:esp32s3_idle.*(.literal.up_idle .text.up_idle) *libarch.a:esp32s3_dma.*(.literal.esp32s3_dma_load .text.esp32s3_dma_load \ .literal.esp32s3_dma_enable .text.esp32s3_dma_enable) *libsched.a:sched_processtimer.*(.literal.nxsched_process_timer .text.nxsched_process_timer) *libsched.a:clock_initialize.*(.literal.clock_timer .text.clock_timer) *libsched.a:wd_start.*(.literal.wd_timer .text.wd_timer) *libsched.a:sched_roundrobin.*(.literal.nxsched_process_roundrobin .text.nxsched_process_roundrobin) *libsched.a:sched_reprioritizertr.*(.literal.nxsched_reprioritize_rtr .text.nxsched_reprioritize_rtr) *libsched.a:sched_removereadytorun.*(.literal.nxsched_remove_readytorun .text.nxsched_remove_readytorun) *libsched.a:sched_addreadytorun.*(.literal.nxsched_add_readytorun .text.nxsched_add_readytorun) *libsched.a:sched_addprioritized.*(.literal.nxsched_add_prioritized .text.nxsched_add_prioritized) *libsched.a:sched_mergepending.*(.literal.nxsched_merge_pending .text.nxsched_merge_pending) *libsched.a:sched_resumescheduler.*(.literal.nxsched_resume_scheduler .text.nxsched_resume_scheduler) *libc.a:sq_remfirst.*(.literal.sq_remfirst .text.sq_remfirst) #endif *libarch.a:esp32s3_spi_timing.*(.literal .text .literal.* .text.*) #ifdef CONFIG_ESP32S3_SPIRAM_MODE_QUAD *libarch.a:esp32s3_psram_quad.*(.literal .text .literal.* .text.*) #endif #ifdef CONFIG_ESP32S3_SPIRAM_MODE_OCT *libarch.a:esp32s3_psram_octal.*(.literal .text .literal.* .text.*) #endif #if defined(CONFIG_STACK_CANARIES) && \ (defined(CONFIG_ESP32S3_SPIFLASH) || \ defined(CONFIG_ESP32S3_SPIRAM)) *libc.a:lib_stackchk.*(.literal .text .literal.* .text.*) #endif *libarch.a:*brownout_hal.*(.text .text.* .literal .literal.*) *libarch.a:*cpu.*(.text .text.* .literal .literal.*) *libarch.a:*gpio_hal.*(.text .text.* .literal .literal.*) *libarch.a:*periph_ctrl.*(.text .text.* .literal .literal.*) *libarch.a:*clk.*(.text .text.* .literal .literal.*) *libarch.a:*efuse_hal.*(.literal.is_eco0 .text.is_eco0) *libarch.a:*esp_clk.*(.text .text.* .literal .literal.*) *libarch.a:*esp_clk_tree.*(.text .text.* .literal .literal.*) *libarch.a:*esp_clk_tree_common.*(.text .text.* .literal .literal.*) *libarch.a:*clk_tree_hal.*(.text .text.* .literal .literal.*) *libarch.a:*rtc_init.*(.text .text.* .literal .literal.*) *libarch.a:*rtc_clk.*(.text .text.* .literal .literal.*) *libarch.a:*rtc_clk_init.*(.text .text.* .literal .literal.*) *libarch.a:*rtc_sleep.*(.text .text.* .literal .literal.*) *libarch.a:*rtc_time.*(.text .text.* .literal .literal.*) *libarch.a:*regi2c_ctrl.*(.text .text.* .literal .literal.*) *libarch.a:*uart_hal_iram.*(.text .text.* .literal .literal.*) *libarch.a:*wdt_hal_iram.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_banner_wrap.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_init.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_common.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_common_loader.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_console.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_console_loader.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_esp32s3.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_flash.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_flash_config_esp32s3.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_clock_init.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_clock_loader.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_efuse.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_panic.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_mem.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_random.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_random*.*(.literal.bootloader_random_disable .text.bootloader_random_disable) *libarch.a:*bootloader_random*.*(.literal.bootloader_random_enable .text.bootloader_random_enable) *libarch.a:*bootloader_random_esp32s3.*(.text .text.* .literal .literal.*) *libarch.a:*esp_image_format.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_soc.*(.text .text.* .literal .literal.*) *libarch.a:*bootloader_sha.*(.text .text.* .literal .literal.*) *libarch.a:*flash_encrypt.*(.text .text.* .literal .literal.*) *libarch.a:*cache_hal.*(.text .text.* .literal .literal.*) *libarch.a:*uart_hal.*(.text .text.* .literal .literal.*) *libarch.a:*mpu_hal.*(.text .text.* .literal .literal.*) *libarch.a:*mmu_hal.*(.text .text.* .literal .literal.*) *libarch.a:*efuse_hal.*(.text .text.* .literal .literal.*) *libarch.a:*uart_periph.*(.text .text.* .literal .literal.*) *libarch.a:*esp_rom_uart.*(.text .text.* .literal .literal.*) *libarch.a:*esp_rom_sys.*(.text .text.* .literal .literal.*) *libarch.a:*esp_rom_spiflash.*(.text .text.* .literal .literal.*) *libarch.a:*esp_rom_cache_esp32s2_esp32s3.*(.text .text.* .literal .literal.*) *libarch.a:*esp_rom_wdt.*(.text .text.* .literal .literal.*) *libarch.a:*esp_efuse_fields.*(.text .text.* .literal .literal.*) *libarch.a:*esp_efuse_api_key.*(.text .text.* .literal .literal.*) *libarch.a:*log.*(.text .text.* .literal .literal.*) *libarch.a:*log_noos.*(.text .text.* .literal .literal.*) *libarch.a:*cpu_region_protect.*(.text .text.* .literal .literal.*) *libarch.a:*mspi_timing_tuning.*(.text .text.* .literal .literal.*) *libarch.a:*esp_rom_cache_esp32s2_esp32s3.*(.literal .text .literal.* .text.*) *libarch.a:*flash_qio_mode.*(.text .text.* .literal .literal.*) *libarch.a:*spi_flash_wrap.*(.text .text.* .literal .literal.*) *libarch.a:*spi_flash_oct_flash_init.*(.text .text.* .literal .literal.*) *libarch.a:*spi_flash_hpm_enable.*(.text .text.* .literal .literal.*) *libc.a:*lib_instrument.*(.text .text.* .literal .literal.*) *(.wifirxiram .wifirxiram.*) *(.wifi0iram .wifi0iram.*) *(.wifiorslpiram .wifiorslpiram.*) *(.wifislpiram .wifislpiram.*) *(.wifislprxiram .wifislprxiram.*) *(.phyiram .phyiram.*) /* align + add 16B for CPU dummy speculative instr. fetch */ . = ALIGN(4) + 16; _iram_text = ABSOLUTE(.); } >iram0_0_seg /* Marks the end of IRAM code segment */ .iram0.text_end (NOLOAD) : { /* ESP32-S3 memprot requires 16B padding for possible CPU prefetch and * 256B alignment for PMS split lines. */ . += 16; . = ALIGN(256); _iram_end = ABSOLUTE(.); } >iram0_0_seg .iram0.data : { . = ALIGN(4); *(.iram.data) *(.iram.data.*) } >iram0_0_seg .iram0.bss (NOLOAD) : { . = ALIGN(4); *(.iram.bss) *(.iram.bss.*) . = ALIGN(4); _iram_end = ABSOLUTE(.); } >iram0_0_seg .dram0.dummy (NOLOAD) : { /* This section is required to skip .iram0.text area because iram0_0_seg * and dram0_0_seg reflect the same address space on different buses. */ . = ORIGIN(dram0_0_seg) + MAX(_iram_end, _diram_i_start) - _diram_i_start; } >dram0_0_seg /* Shared RAM */ .dram0.bss (NOLOAD) : { /* .bss initialized on power-up */ . = ALIGN(8); _bss_start = ABSOLUTE(.); _sbss = ABSOLUTE(.); #ifdef CONFIG_XTENSA_EXTMEM_BSS *(EXCLUDE_FILE(*libnet80211.a *libpp.a *libpython3.13.a) .bss EXCLUDE_FILE(*libnet80211.a *libpp.a *libpython3.13.a) .bss.*) *(EXCLUDE_FILE(*libnet80211.a *libpp.a *libpython3.13.a) .bss EXCLUDE_FILE(*libnet80211.a *libpp.a *libpython3.13.a) COMMON) #else *(.bss .bss.*) #endif *(COMMON) *(.dynsbss) *(.sbss) *(.sbss.*) *(.gnu.linkonce.sb.*) *(.scommon) *(.sbss2) *(.sbss2.*) *(.gnu.linkonce.sb2.*) *(.dynbss) *(.share.mem) *(.gnu.linkonce.b.*) . = ALIGN(8); _ebss = ABSOLUTE(.); _bss_end = ABSOLUTE(.); } >dram0_0_seg .noinit (NOLOAD) : { /* This section contains data that is not initialized during load, * or during the application's initialization sequence. */ . = ALIGN(4); *(.noinit .noinit.*) . = ALIGN(4); } >dram0_0_seg .dram0.data : ALIGN(4) { /* .data initialized on power-up in ROMed configurations. */ . = ALIGN (16); _data_start = ABSOLUTE(.); _sdata = ABSOLUTE(.); KEEP (*(.data)) KEEP (*(.data.*)) KEEP (*(.gnu.linkonce.d.*)) KEEP (*(.data1)) KEEP (*(.sdata)) KEEP (*(.sdata.*)) KEEP (*(.gnu.linkonce.s.*)) KEEP (*(.sdata2)) KEEP (*(.sdata2.*)) KEEP (*(.gnu.linkonce.s2.*)) KEEP (*(.jcr)) *(.dram1 .dram1.*) esp32s3_start.*(.rodata .rodata.*) esp32s3_region.*(.rodata .rodata.*) *libphy.a:(.rodata .rodata.*) *libarch.a:xtensa_context.*(.rodata .rodata.*) #if defined(CONFIG_STACK_CANARIES) && \ (defined(CONFIG_ESP32S3_SPIFLASH) || \ defined(CONFIG_ESP32S3_SPIRAM)) *libc.a:lib_stackchk.*(.rodata .rodata.*) #endif *libsched.a:*sched_get_stackinfo.*(.rodata .rodata.*) *libarch.a:*esp_loader.*(.rodata .rodata.*) *libarch.a:esp32s3_spiflash.*(.rodata .rodata.*) *libarch.a:*brownout.*(.rodata .rodata.*) *libarch.a:*cpu.*(.rodata .rodata.*) *libarch.a:*gpio_hal.*(.rodata .rodata.*) *libarch.a:*periph_ctrl.*(.rodata .rodata.*) *libarch.a:*clk.*(.rodata .rodata.*) *libarch.a:*esp_clk.*(.rodata .rodata.*) *libarch.a:*esp_clk_tree.*(.rodata .rodata.*) *libarch.a:*esp_clk_tree_common.*(.rodata .rodata.*) *libarch.a:*clk_tree_hal.*(.rodata .rodata.*) *libarch.a:*rtc_init.*(.rodata .rodata.*) *libarch.a:*rtc_clk.*(.rodata .rodata.*) *libarch.a:*rtc_clk_init.*(.rodata .rodata.*) *libarch.a:*rtc_sleep.*(.rodata .rodata.*) *libarch.a:*rtc_time.*(.rodata .rodata.*) *libarch.a:*regi2c_ctrl.*(.rodata .rodata.*) *libarch.a:*uart_hal_iram.*(.rodata .rodata.*) *libarch.a:*wdt_hal_iram.*(.rodata .rodata.*) *libarch.a:*bootloader_banner_wrap.*(.rodata .rodata.*) *libarch.a:*bootloader_init.*(.rodata .rodata.*) *libarch.a:*bootloader_common.*(.rodata .rodata.*) *libarch.a:*bootloader_common_loader.*(.rodata .rodata.*) *libarch.a:*bootloader_console.*(.rodata .rodata.*) *libarch.a:*bootloader_console_loader.*(.rodata .rodata.*) *libarch.a:*bootloader_esp32s3.*(.rodata .rodata.*) *libarch.a:*bootloader_flash.*(.rodata .rodata.*) *libarch.a:*bootloader_flash_config_esp32s3.*(.rodata .rodata.*) *libarch.a:*bootloader_clock_init.*(.rodata .rodata.*) *libarch.a:*bootloader_clock_loader.*(.rodata .rodata.*) *libarch.a:*bootloader_efuse.*(.rodata .rodata.*) *libarch.a:*bootloader_panic.*(.rodata .rodata.*) *libarch.a:*bootloader_mem.*(.rodata .rodata.*) *libarch.a:*bootloader_random.*(.rodata .rodata.*) *libarch.a:*bootloader_random_esp32s3.*(.rodata .rodata.*) *libarch.a:*esp_image_format.*(.rodata .rodata.*) *libarch.a:*bootloader_soc.*(.rodata .rodata.*) *libarch.a:*bootloader_sha.*(.rodata .rodata.*) *libarch.a:*flash_encrypt.*(.rodata .rodata.*) *libarch.a:*cache_hal.*(.rodata .rodata.*) *libarch.a:*uart_hal.*(.rodata .rodata.*) *libarch.a:*mpu_hal.*(.rodata .rodata.*) *libarch.a:*mmu_hal.*(.rodata .rodata.*) *libarch.a:*uart_periph.*(.rodata .rodata.*) *libarch.a:*esp_rom_uart.*(.rodata .rodata.*) *libarch.a:*esp_rom_sys.*(.rodata .rodata.*) *libarch.a:*esp_rom_spiflash.*(.rodata .rodata.*) *libarch.a:*esp_rom_cache_esp32s2_esp32s3.*(.rodata .rodata.*) *libarch.a:*esp_rom_wdt.*(.rodata .rodata.*) *libarch.a:*esp_efuse_fields.*(.rodata .rodata.*) *libarch.a:*esp_efuse_api_key.*(.rodata .rodata.*) *libarch.a:*log.*(.rodata .rodata.*) *libarch.a:*log_noos.*(.rodata .rodata.*) *libarch.a:*cpu_region_protect.*(.rodata .rodata.*) *libarch.a:*mspi_timing_tuning.*(.rodata .rodata.*) #ifdef CONFIG_ESP32S3_SPIRAM_MODE_QUAD *libarch.a:esp32s3_psram_quad.*(.rodata .rodata.*) #endif #ifdef CONFIG_ESP32S3_SPIRAM_MODE_OCT *libarch.a:esp32s3_psram_octal.*(.rodata .rodata.*) #endif *libarch.a:*flash_qio_mode.*(.rodata .rodata.*) *libarch.a:*spi_flash_wrap.*(.rodata .rodata.*) *libarch.a:*spi_flash_oct_flash_init.*(.rodata .rodata.*) *libarch.a:*spi_flash_hpm_enable.*(.rodata .rodata.*) . = ALIGN(4); _edata = ABSOLUTE(.); _data_end = ABSOLUTE(.); /* Heap starts at the end of .data */ _sheap = ABSOLUTE(.); } >dram0_0_seg AT>ROM /* This section will be used by the debugger and disassembler to get more * information about raw data present in the code. * Indeed, it may be required to add some padding at some points in the * code in order to align a branch/jump destination on a particular bound. * Padding these instructions will generate null bytes that shall be * interpreted as data, and not code by the debugger or disassembler. * This section will only be present in the ELF file, not in the final * binary. */ .xt.prop 0 : { KEEP (*(.xt.prop .gnu.linkonce.prop.*)) } .xt.lit 0 : { KEEP (*(.xt.lit .gnu.linkonce.p.*)) } /* The alignment of the ".flash.text" output section is forced to * 0x00010000 (64KB) to ensure that it will be allocated at the beginning * of the next available Flash block. * This is required to meet the following constraint from the external * flash MMU: * VMA % 64KB == LMA % 64KB * i.e. the lower 16 bits of both the virtual address (address seen by the * CPU) and the load address (physical address of the external flash) must * be equal. */ .flash.text : ALIGN(0x00010000) { _stext = .; _instruction_reserved_start = ABSOLUTE(.); *(.literal .text .literal.* .text.* .stub .gnu.warning .gnu.linkonce.literal.* .gnu.linkonce.t.*.literal .gnu.linkonce.t.*) *(.irom0.text) /* catch stray ICACHE_RODATA_ATTR */ *(.fini.literal) *(.fini) *(.gnu.version) *(EXCLUDE_FILE(*libnet80211.a *libpp.a) .wifi0iram EXCLUDE_FILE(*libnet80211.a *libpp.a) .wifi0iram.*) *(.wifiextrairam .wifiextrairam.*) *(EXCLUDE_FILE(*libpp.a) .wifiorslpiram EXCLUDE_FILE(*libpp.a) .wifiorslpiram.*) *(EXCLUDE_FILE(*libnet80211.a *libpp.a) .wifirxiram EXCLUDE_FILE(*libnet80211.a *libpp.a) .wifirxiram.*) *(.wifislpiram .wifislpiram.*) *(EXCLUDE_FILE(*libnet80211.a *libpp.a) .wifislprxiram EXCLUDE_FILE(*libnet80211.a *libpp.a) .wifislprxiram.*) /* CPU will try to prefetch up to 16 bytes of instructions. * This means that any configuration (e.g. MMU, PMS) must allow * safe access to up to 16 bytes after the last real instruction, add * dummy bytes to ensure this */ . += 16; _instruction_reserved_end = ABSOLUTE(.); _etext = .; } >irom0_0_seg AT>ROM _image_irom_vma = ADDR(.flash.text); _image_irom_lma = LOADADDR(.flash.text); _image_irom_size = LOADADDR(.flash.text) + SIZEOF(.flash.text) - _image_irom_lma; /* Dummy section represents the .flash.text section but in drom0_0_seg. * Thus, it must have its alignment and (at least) its size. */ .flash.rodata_dummy (NOLOAD) : { _flash_rodata_dummy_start = ABSOLUTE(.); . = ALIGN(ALIGNOF(.flash.text)) + SIZEOF(.flash.text); /* Add alignment of MMU page size + 0x20 bytes for the mapping header. */ . = ALIGN(0x10000) + 0x20; } > drom0_0_seg /* The alignment of the ".flash.rodata" output section is forced to * 0x00010000 (64KB) to ensure that it will be allocated at the beginning * of the next available Flash block. * This is required to meet the following constraint from the external * flash MMU: * VMA % 64KB == LMA % 64KB * i.e. the lower 16 bits of both the virtual address (address seen by the * CPU) and the load address (physical address of the external flash) must * be equal. */ .flash.rodata : ALIGN(0x10000) { _rodata_reserved_start = ABSOLUTE(.); _srodata = ABSOLUTE(.); *(EXCLUDE_FILE (esp32s3_start.* esp32s3_region.* *libarch.a:*esp_loader.* *libarch.a:esp32s3_spiflash.* *libarch.a:*cache_hal.* *libarch.a:*mmu_hal.* *libarch.a:*mpu_hal.*) .rodata) *(EXCLUDE_FILE (esp32s3_start.* esp32s3_region.* *libarch.a:*esp_loader.* *libarch.a:esp32s3_spiflash.* *libarch.a:*cache_hal.* *libarch.a:*mmu_hal.* *libarch.a:*mpu_hal.*) .rodata.*) #ifdef CONFIG_ESPRESSIF_WIRELESS *(.rodata_wlog_verbose.*) *(.rodata_wlog_debug.*) *(.rodata_wlog_info.*) *(.rodata_wlog_warning.*) *(.rodata_wlog_error.*) #endif *(.irom1.text) /* catch stray ICACHE_RODATA_ATTR */ *(.gnu.linkonce.r.*) *(.rodata1) __XT_EXCEPTION_TABLE_ = ABSOLUTE(.); *(.xt_except_table) *(.gcc_except_table) *(.gcc_except_table.*) *(.gnu.linkonce.e.*) *(.gnu.version_r) *(.eh_frame) . = ALIGN(4); /* C++ constructor and destructor tables, properly ordered: */ _sinit = ABSOLUTE(.); KEEP (*crtbegin.o(.ctors)) KEEP (*(EXCLUDE_FILE (*crtend.o) .ctors)) KEEP (*(SORT(.ctors.*))) KEEP (*(.ctors)) _einit = ABSOLUTE(.); KEEP (*crtbegin.o(.dtors)) KEEP (*(EXCLUDE_FILE (*crtend.o) .dtors)) KEEP (*(SORT(.dtors.*))) KEEP (*(.dtors)) /* C++ exception handlers table: */ __XT_EXCEPTION_DESCS_ = ABSOLUTE(.); *(.xt_except_desc) *(.gnu.linkonce.h.*) __XT_EXCEPTION_DESCS_END__ = ABSOLUTE(.); *(.xt_except_desc_end) *(.dynamic) *(.gnu.version_d) _erodata = ABSOLUTE(.); /* Literals are also RO data. */ _lit4_start = ABSOLUTE(.); *(*.lit4) *(.lit4.*) *(.gnu.linkonce.lit4.*) _lit4_end = ABSOLUTE(.); /* TLS data. */ . = ALIGN(4); _thread_local_start = ABSOLUTE(.); _stdata = ABSOLUTE(.); *(.tdata .tdata.* .gnu.linkonce.td.*); _etdata = ABSOLUTE(.); _stbss = ABSOLUTE(.); *(.tbss .tbss.* .gnu.linkonce.tb.* .tcommon); _etbss = ABSOLUTE(.); _thread_local_end = ABSOLUTE(.); _rodata_reserved_end = ABSOLUTE(.); } >drom0_0_seg AT>ROM _rodata_reserved_align = ALIGNOF(.flash.rodata); _image_drom_vma = ADDR(.flash.rodata); _image_drom_lma = LOADADDR(.flash.rodata); _image_drom_size = LOADADDR(.flash.rodata) + SIZEOF(.flash.rodata) - _image_drom_lma; /* Dummy section to skip flash rodata sections. * Because to `extern_ram_seg` and `drom0_0_seg` are on the same bus */ #ifdef CONFIG_XTENSA_EXTMEM_BSS .ext_ram.dummy (NOLOAD): { . = ORIGIN(extern_ram_seg); . = . + (_rodata_reserved_end - _flash_rodata_dummy_start); . = ALIGN (0x10000); } > extern_ram_seg /* This section holds .ext_ram.bss data, and will be put in PSRAM */ .ext_ram.bss (NOLOAD) : { _ext_ram_bss_start = ABSOLUTE(.); *(.extmem.bss .extmem.bss.*) *(.ext_ram.bss .ext_ram.bss.*) *libpp.a:(.bss .bss.*) *libpp.a:(COMMON) *libnet80211.a:(.bss .bss.*) *libnet80211.a:(COMMON) *libpython3.13.a:(*.PyRuntime) *libpython3.13.a:(.bss .bss.*) . = ALIGN(4); _ext_ram_bss_end = ABSOLUTE(.); } > extern_ram_seg #endif .rtc.text : { . = ALIGN(4); *(.rtc.literal .rtc.text) } >rtc_iram_seg AT>ROM .rtc.dummy (NOLOAD) : { /* This section is required to skip .rtc.text area because the text and * data segments reflect the same address space on different buses. */ . = SIZEOF(.rtc.text); } >rtc_slow_seg /* RTC BSS section. */ .rtc.bss (NOLOAD) : { *(.rtc.bss) } >rtc_slow_seg .rtc.data : { *(.rtc.data) *(.rtc.data.*) *(.rtc.rodata) *(.rtc.rodata.*) /* Whatever is left from the RTC memory is used as a special heap. */ . = ALIGN (4); } >rtc_slow_seg AT>ROM .rtc.heap : ALIGN(4) { /* RTC heap is placed at the slow RTC memory. */ _srtcheap = ABSOLUTE(.); } >rtc_slow_seg /* * This section holds RTC data that should have fixed addresses. * The data are not initialized at power-up and are retained during deep sleep. */ .rtc_reserved (NOLOAD): { . = ALIGN(4); _rtc_reserved_start = ABSOLUTE(.); /* New data can only be added here to ensure existing data are not moved. Because data have adhered to the end of the segment and code is relied on it. >> put new data here << */ *(.rtc_timer_data_in_rtc_mem .rtc_timer_data_in_rtc_mem.*) KEEP(*(.bootloader_data_rtc_mem .bootloader_data_rtc_mem.*)) _rtc_reserved_end = ABSOLUTE(.); } > rtc_reserved_seg }