/* * Copyright (c) 2013-2014, Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief GCC toolchain linker defs * * This header file defines the necessary macros used by the linker script for * use with the GCC linker. */ #ifndef ZEPHYR_INCLUDE_LINKER_LINKER_TOOL_GCC_H_ #define ZEPHYR_INCLUDE_LINKER_LINKER_TOOL_GCC_H_ #include #if defined(CONFIG_ARM) #if defined(CONFIG_BIG_ENDIAN) #define OUTPUT_FORMAT_ "elf32-bigarm" #else #define OUTPUT_FORMAT_ "elf32-littlearm" #endif OUTPUT_FORMAT(OUTPUT_FORMAT_) #elif defined(CONFIG_ARM64) OUTPUT_FORMAT("elf64-littleaarch64") #elif defined(CONFIG_ARC) OUTPUT_FORMAT("elf32-littlearc", "elf32-bigarc", "elf32-littlearc") #elif defined(CONFIG_X86) #if defined(CONFIG_X86_64) OUTPUT_FORMAT("elf64-x86-64") OUTPUT_ARCH("i386:x86-64") #else OUTPUT_FORMAT("elf32-i386", "elf32-i386", "elf32-i386") OUTPUT_ARCH("i386") #endif #elif defined(CONFIG_NIOS2) OUTPUT_FORMAT("elf32-littlenios2", "elf32-bignios2", "elf32-littlenios2") #elif defined(CONFIG_RISCV) OUTPUT_ARCH("riscv") #ifdef CONFIG_64BIT OUTPUT_FORMAT("elf64-littleriscv") #else OUTPUT_FORMAT("elf32-littleriscv") #endif #elif defined(CONFIG_XTENSA) /* Not needed */ #elif defined(CONFIG_ARCH_POSIX) /* Not needed */ #elif defined(CONFIG_SPARC) OUTPUT_FORMAT("elf32-sparc") #else #error Arch not supported. #endif /* * The GROUP_START() and GROUP_END() macros are used to define a group * of sections located in one memory area, such as RAM, ROM, etc. * The parameter is the name of the memory area. */ #define GROUP_START(where) #define GROUP_END(where) /** * @def GROUP_LINK_IN * * Route memory to a specified memory area * * The GROUP_LINK_IN() macro is located at the end of the section * description and tells the linker that this section is located in * the memory area specified by 'where' argument. * * This macro is intentionally undefined for CONFIG_MMU systems when * CONFIG_KERNEL_VM_BASE is not the same as CONFIG_SRAM_BASE_ADDRESS, * as both the LMA and VMA destinations must be known for all sections * as this corresponds to physical vs. virtual location. * * @param where Destination memory area */ #if defined(CONFIG_ARCH_POSIX) #define GROUP_LINK_IN(where) #elif !defined(Z_VM_KERNEL) #define GROUP_LINK_IN(where) > where #endif /** * @def GROUP_ROM_LINK_IN * * Route memory for a read-only section * * The GROUP_ROM_LINK_IN() macro is located at the end of the section * description and tells the linker that this a read-only section * that is physically placed at the 'lregion` argument. * * If CONFIG_XIP is active, the 'lregion' area is flash memory. * * If CONFIG_MMU is active, the vregion argument will be used to * determine where this is located in the virtual memory map, otherwise * it is ignored. * * @param vregion Output VMA (only used if CONFIG_MMU where LMA != VMA) * @param lregion Output LMA */ #if defined(CONFIG_ARCH_POSIX) #define GROUP_ROM_LINK_IN(vregion, lregion) #elif defined(Z_VM_KERNEL) #define GROUP_ROM_LINK_IN(vregion, lregion) > vregion AT > lregion #else #define GROUP_ROM_LINK_IN(vregion, lregion) > lregion #endif /** * @def GROUP_DATA_LINK_IN * * Route memory for read-write sections that are loaded. * * Used for initialized data sections that on XIP platforms must be copied at * startup. * * @param vregion Output VMA * @param lregion Output LMA (only used if CONFIG_MMU if VMA != LMA, * or CONFIG_XIP) */ #if defined(CONFIG_ARCH_POSIX) #define GROUP_DATA_LINK_IN(vregion, lregion) #elif defined(CONFIG_XIP) || defined(Z_VM_KERNEL) #define GROUP_DATA_LINK_IN(vregion, lregion) > vregion AT > lregion #else #define GROUP_DATA_LINK_IN(vregion, lregion) > vregion #endif /** * @def GROUP_NOLOAD_LINK_IN * * Route memory for read-write sections that are NOT loaded; typically this * is only used for 'BSS' and 'noinit'. * * @param vregion Output VMA * @param lregion Output LMA (only used if CONFIG_MMU if VMA != LMA, * corresponds to physical location) */ #if defined(CONFIG_ARCH_POSIX) #define GROUP_NOLOAD_LINK_IN(vregion, lregion) #elif defined(Z_VM_KERNEL) #define GROUP_NOLOAD_LINK_IN(vregion, lregion) > vregion AT > lregion #elif defined(CONFIG_XIP) #define GROUP_NOLOAD_LINK_IN(vregion, lregion) > vregion AT > vregion #else #define GROUP_NOLOAD_LINK_IN(vregion, lregion) > vregion #endif /** * @def SECTION_PROLOGUE * * The SECTION_PROLOGUE() macro is used to define the beginning of a section. * * On MMU systems where VMA != LMA there is an implicit ALIGN_WITH_INPUT * specified. * * @param name Name of the output sectio * @param options Section options, such as (NOLOAD), or left blank * @param align Alignment directives, such as SUBALIGN(). ALIGN() itself is * not allowed. May be blank. */ #ifdef Z_VM_KERNEL /* If we have a virtual memory map we need ALIGN_WITH_INPUT in all sections */ #define SECTION_PROLOGUE(name, options, align) \ name options : ALIGN_WITH_INPUT align #else #define SECTION_PROLOGUE(name, options, align) \ name options : align #endif /** * @def SECTION_DATA_PROLOGUE * * Same as for SECTION_PROLOGUE(), except that this one must be used * for data sections which on XIP platforms will have differing * virtual and load addresses (i.e. they'll be copied into RAM at * program startup). Such a section must also use * GROUP_DATA_LINK_IN to specify the correct output load address. * * This is equivalent to SECTION_PROLOGUE() on non-XIP systems. * On XIP systems there is an implicit ALIGN_WITH_INPUT specified. * * @param name Name of the output sectio * @param options Section options, or left blank * @param align Alignment directives, such as SUBALIGN(). ALIGN() itself is * not allowed. May be blank. */ #if defined(CONFIG_XIP) #define SECTION_DATA_PROLOGUE(name, options, align) \ name options : ALIGN_WITH_INPUT align #else #define SECTION_DATA_PROLOGUE(name, options, align) \ SECTION_PROLOGUE(name, options, align) #endif #define COMMON_SYMBOLS *(COMMON) #endif /* ZEPHYR_INCLUDE_LINKER_LINKER_TOOL_GCC_H_ */