/* * Copyright (c) 2013-2014 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief Linker command/script file * * Linker script for the Cortex-A platforms. */ #include #include #include #include #include /* physical address of RAM */ #ifdef CONFIG_XIP #define ROMABLE_REGION FLASH #define RAMABLE_REGION SRAM #else #define ROMABLE_REGION SRAM #define RAMABLE_REGION SRAM #endif #if defined(CONFIG_XIP) #define _DATA_IN_ROM __data_rom_start #else #define _DATA_IN_ROM #endif #if !defined(CONFIG_XIP) && (CONFIG_FLASH_SIZE == 0) #define ROM_ADDR RAM_ADDR #else #define ROM_ADDR (CONFIG_FLASH_BASE_ADDRESS + CONFIG_FLASH_LOAD_OFFSET) #endif #if CONFIG_FLASH_LOAD_SIZE > 0 #define ROM_SIZE CONFIG_FLASH_LOAD_SIZE #else #define ROM_SIZE (CONFIG_FLASH_SIZE*1K - CONFIG_FLASH_LOAD_OFFSET) #endif #if defined(CONFIG_XIP) #if defined(CONFIG_IS_BOOTLOADER) #define RAM_SIZE (CONFIG_BOOTLOADER_SRAM_SIZE * 1K) #define RAM_ADDR (CONFIG_SRAM_BASE_ADDRESS + \ (CONFIG_SRAM_SIZE * 1K - RAM_SIZE)) #else #define RAM_SIZE (CONFIG_SRAM_SIZE * 1K) #define RAM_ADDR CONFIG_SRAM_BASE_ADDRESS #endif #else #define RAM_SIZE (CONFIG_SRAM_SIZE * 1K - CONFIG_BOOTLOADER_SRAM_SIZE * 1K) #define RAM_ADDR CONFIG_SRAM_BASE_ADDRESS #endif /* Set alignment to CONFIG_ARM_MPU_REGION_MIN_ALIGN_AND_SIZE * to make linker section alignment comply with MPU granularity. */ #if defined(CONFIG_ARM_MPU_REGION_MIN_ALIGN_AND_SIZE) _region_min_align = CONFIG_ARM_MPU_REGION_MIN_ALIGN_AND_SIZE; #else /* If building without MPU support, use default 4-byte alignment. */ _region_min_align = 4; #endif #if defined(CONFIG_MPU_REQUIRES_POWER_OF_TWO_ALIGNMENT) #define MPU_ALIGN(region_size) \ . = ALIGN(_region_min_align); \ . = ALIGN( 1 << LOG2CEIL(region_size)) #else #define MPU_ALIGN(region_size) \ . = ALIGN(_region_min_align) #endif MEMORY { FLASH (rx) : ORIGIN = ROM_ADDR, LENGTH = ROM_SIZE #ifdef DT_CCM_BASE_ADDRESS CCM (rw) : ORIGIN = DT_CCM_BASE_ADDRESS, LENGTH = DT_CCM_SIZE * 1K #endif SRAM (wx) : ORIGIN = RAM_ADDR, LENGTH = RAM_SIZE /* Used by and documented in include/linker/intlist.ld */ IDT_LIST (wx) : ORIGIN = (RAM_ADDR + RAM_SIZE), LENGTH = 2K } ENTRY(CONFIG_KERNEL_ENTRY) SECTIONS { #include /* * .plt and .iplt are here according to 'arm-zephyr-elf-ld --verbose', * before text section. */ SECTION_PROLOGUE(.plt,,) { *(.plt) } SECTION_PROLOGUE(.iplt,,) { *(.iplt) } GROUP_START(ROMABLE_REGION) _image_rom_start = ROM_ADDR; SECTION_PROLOGUE(_TEXT_SECTION_NAME,,) { . = CONFIG_TEXT_SECTION_OFFSET; #if defined(CONFIG_SW_VECTOR_RELAY) KEEP(*(.vector_relay_table)) KEEP(*(".vector_relay_table.*")) KEEP(*(.vector_relay_handler)) KEEP(*(".vector_relay_handler.*")) #endif _vector_start = .; KEEP(*(.exc_vector_table)) KEEP(*(".exc_vector_table.*")) KEEP(*(IRQ_VECTOR_TABLE)) KEEP(*(.vectors)) KEEP(*(.openocd_dbg)) KEEP(*(".openocd_dbg.*")) _vector_end = .; } GROUP_LINK_IN(ROMABLE_REGION) #ifdef CONFIG_CODE_DATA_RELOCATION #include #endif /* CONFIG_CODE_DATA_RELOCATION */ SECTION_PROLOGUE(_TEXT_SECTION_NAME_2,,) { _image_text_start = .; *(.text) *(".text.*") *(.gnu.linkonce.t.*) /* * These are here according to 'arm-zephyr-elf-ld --verbose', * after .gnu.linkonce.t.* */ *(.glue_7t) *(.glue_7) *(.vfp11_veneer) *(.v4_bx) #include #include } GROUP_LINK_IN(ROMABLE_REGION) _image_text_end = .; #if defined (CONFIG_CPLUSPLUS) SECTION_PROLOGUE(.ARM.extab,,) { /* * .ARM.extab section containing exception unwinding information. */ *(.ARM.extab* .gnu.linkonce.armextab.*) } GROUP_LINK_IN(ROMABLE_REGION) #endif SECTION_PROLOGUE(.ARM.exidx,,) { /* * This section, related to stack and exception unwinding, is placed * explicitly to prevent it from being shared between multiple regions. * It must be defined for gcc to support 64-bit math and avoid * section overlap. */ __exidx_start = .; #if defined (__GCC_LINKER_CMD__) *(.ARM.exidx* gnu.linkonce.armexidx.*) #endif __exidx_end = .; } GROUP_LINK_IN(ROMABLE_REGION) _image_rodata_start = .; #include SECTION_PROLOGUE(_RODATA_SECTION_NAME,,) { *(.rodata) *(".rodata.*") *(.gnu.linkonce.r.*) /* Located in generated directory. This file is populated by the * zephyr_linker_sources() Cmake function. */ #include #ifdef CONFIG_SOC_RODATA_LD #include #endif #ifdef CONFIG_CUSTOM_RODATA_LD /* Located in project source directory */ #include #endif #include #include /* * For XIP images, in order to avoid the situation when __data_rom_start * is 32-bit aligned, but the actual data is placed right after rodata * section, which may not end exactly at 32-bit border, pad rodata * section, so __data_rom_start points at data and it is 32-bit aligned. * * On non-XIP images this may enlarge image size up to 3 bytes. This * generally is not an issue, since modern ROM and FLASH memory is * usually 4k aligned. */ . = ALIGN(4); } GROUP_LINK_IN(ROMABLE_REGION) #include _image_rodata_end = .; MPU_ALIGN(_image_rodata_end -_image_rom_start); _image_rom_end = .; GROUP_END(ROMABLE_REGION) /* * These are here according to 'arm-zephyr-elf-ld --verbose', * before data section. */ SECTION_PROLOGUE(.got,,) { *(.got.plt) *(.igot.plt) *(.got) *(.igot) } GROUP_START(RAMABLE_REGION) . = RAM_ADDR; /* Align the start of image SRAM with the * minimum granularity required by MPU. */ . = ALIGN(_region_min_align); _image_ram_start = .; /* Located in generated directory. This file is populated by the * zephyr_linker_sources() Cmake function. */ #include #if defined(CONFIG_USERSPACE) #define APP_SHARED_ALIGN . = ALIGN(_region_min_align); #define SMEM_PARTITION_ALIGN MPU_ALIGN #include _app_smem_size = _app_smem_end - _app_smem_start; _app_smem_rom_start = LOADADDR(_APP_SMEM_SECTION_NAME); #endif /* CONFIG_USERSPACE */ SECTION_DATA_PROLOGUE(_BSS_SECTION_NAME,(NOLOAD),) { /* * For performance, BSS section is assumed to be 4 byte aligned and * a multiple of 4 bytes */ . = ALIGN(4); __bss_start = .; __kernel_ram_start = .; *(.bss) *(".bss.*") *(COMMON) *(".kernel_bss.*") #ifdef CONFIG_CODE_DATA_RELOCATION #include #endif /* * As memory is cleared in words only, it is simpler to ensure the BSS * section ends on a 4 byte boundary. This wastes a maximum of 3 bytes. */ __bss_end = ALIGN(4); } GROUP_DATA_LINK_IN(RAMABLE_REGION, RAMABLE_REGION) SECTION_PROLOGUE(_NOINIT_SECTION_NAME,(NOLOAD),) { /* * This section is used for non-initialized objects that * will not be cleared during the boot process. */ *(.noinit) *(".noinit.*") *(".kernel_noinit.*") /* Located in generated directory. This file is populated by the * zephyr_linker_sources() Cmake function. */ #include #ifdef CONFIG_SOC_NOINIT_LD #include #endif } GROUP_LINK_IN(RAMABLE_REGION) SECTION_DATA_PROLOGUE(_DATA_SECTION_NAME,,) { __data_ram_start = .; *(.data) *(".data.*") *(".kernel.*") /* Located in generated directory. This file is populated by the * zephyr_linker_sources() Cmake function. */ #include #ifdef CONFIG_SOC_RWDATA_LD #include #endif #ifdef CONFIG_CUSTOM_RWDATA_LD /* Located in project source directory */ #include #endif #ifdef CONFIG_CODE_DATA_RELOCATION #include #endif } GROUP_DATA_LINK_IN(RAMABLE_REGION, ROMABLE_REGION) __data_rom_start = LOADADDR(_DATA_SECTION_NAME); #include #include #include #include #include __data_ram_end = .; /* Define linker symbols */ _image_ram_end = .; _end = .; /* end of image */ __kernel_ram_end = RAM_ADDR + RAM_SIZE; __kernel_ram_size = __kernel_ram_end - __kernel_ram_start; GROUP_END(RAMABLE_REGION) #ifdef CONFIG_CUSTOM_SECTIONS_LD /* Located in project source directory */ #include #endif /* Located in generated directory. This file is populated by the * zephyr_linker_sources() Cmake function. */ #include #include SECTION_PROLOGUE(.ARM.attributes, 0,) { KEEP(*(.ARM.attributes)) KEEP(*(.gnu.attributes)) } /DISCARD/ : { *(.note.GNU-stack) } #if defined(CONFIG_ARM_FIRMWARE_HAS_SECURE_ENTRY_FUNCS) #if CONFIG_ARM_NSC_REGION_BASE_ADDRESS != 0 #define NSC_ALIGN . = ABSOLUTE(CONFIG_ARM_NSC_REGION_BASE_ADDRESS) #elif defined(CONFIG_CPU_HAS_NRF_IDAU) /* The nRF9160 needs the NSC region to be at the end of a 32 kB region. */ #define NSC_ALIGN . = ALIGN(0x8000) - (1 << LOG2CEIL(__sg_size)) #else #define NSC_ALIGN . = ALIGN(4) #endif #ifdef CONFIG_CPU_HAS_NRF_IDAU #define NSC_ALIGN_END . = ALIGN(0x8000) #else #define NSC_ALIGN_END . = ALIGN(4) #endif SECTION_PROLOGUE(.gnu.sgstubs,,) { NSC_ALIGN; __sg_start = .; /* No input section necessary, since the Secure Entry Veneers are automatically placed after the .gnu.sgstubs output section. */ } GROUP_LINK_IN(ROMABLE_REGION) __sg_end = .; __sg_size = __sg_end - __sg_start; NSC_ALIGN_END; __nsc_size = . - __sg_start; #ifdef CONFIG_CPU_HAS_NRF_IDAU ASSERT(1 << LOG2CEIL(0x8000 - (__sg_start % 0x8000)) == (0x8000 - (__sg_start % 0x8000)) && (0x8000 - (__sg_start % 0x8000)) >= 32 && (0x8000 - (__sg_start % 0x8000)) <= 4096, "The Non-Secure Callable region size must be a power of 2 \ between 32 and 4096 bytes.") #endif #endif /* CONFIG_ARM_FIRMWARE_HAS_SECURE_ENTRY_FUNCS */ /* Must be last in romable region */ SECTION_PROLOGUE(.last_section,(NOLOAD),) { } GROUP_LINK_IN(ROMABLE_REGION) /* To provide the image size as a const expression, * calculate this value here. */ _flash_used = LOADADDR(.last_section) - _image_rom_start; }