include/linker/linker-defs.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2013-2014, Wind River Systems, Inc.
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 /*
  * DESCRIPTION
  * Platform independent, commonly used macros and defines related to linker
  * script.
  *
  * This file may be included by:
  * - Linker script files: for linker section declarations
  * - C files: for external declaration of address or size of linker section
  * - Assembly files: for external declaration of address or size of linker
  *   section
  */

 #ifndef _LINKERDEFS_H
 #define _LINKERDEFS_H

 #include <toolchain.h>
 #include <linker/sections.h>
 #include <misc/util.h>

 /* include platform dependent linker-defs */
 #ifdef CONFIG_X86
 /* Nothing yet to include */
 #elif defined(CONFIG_ARM)
 /* Nothing yet to include */
 #elif defined(CONFIG_ARC)
 /* Nothing yet to include */
 #elif defined(CONFIG_NIOS2)
 /* Nothing yet to include */
 #elif defined(CONFIG_RISCV32)
 /* Nothing yet to include */
 #elif defined(CONFIG_XTENSA)
 /* Nothing yet to include */
 #elif defined(CONFIG_ARCH_POSIX)
 /* Nothing yet to include */
 #else
 #error Arch not supported.
 #endif

 #ifdef _LINKER


 /*
  * Space for storing per device busy bitmap. Since we do not know beforehand
  * the number of devices, we go through the below mechanism to allocate the
  * required space.
  */
 #ifdef CONFIG_DEVICE_POWER_MANAGEMENT
 #define DEVICE_COUNT \
 	((__device_init_end - __device_init_start) / _DEVICE_STRUCT_SIZE)
 #define DEV_BUSY_SZ	(((DEVICE_COUNT + 31) / 32) * 4)
 #define DEVICE_BUSY_BITFIELD()			\
 		FILL(0x00) ;			\
 		__device_busy_start = .;	\
 		. = . + DEV_BUSY_SZ;		\
 		__device_busy_end = .;
 #else
 #define DEVICE_BUSY_BITFIELD()
 #endif

 /*
  * generate a symbol to mark the start of the device initialization objects for
  * the specified level, then link all of those objects (sorted by priority);
  * ensure the objects aren't discarded if there is no direct reference to them
  */

 #define DEVICE_INIT_LEVEL(level)				\
 		__device_##level##_start = .;			\
 		KEEP(*(SORT(.init_##level[0-9])));		\
 		KEEP(*(SORT(.init_##level[1-9][0-9])));	\

 /*
  * link in device initialization objects for all devices that are automatically
  * initialized by the kernel; the objects are sorted in the order they will be
  * initialized (i.e. ordered by level, sorted by priority within a level)
  */

 #define	DEVICE_INIT_SECTIONS()			\
 		__device_init_start = .;	\
 		DEVICE_INIT_LEVEL(PRE_KERNEL_1)	\
 		DEVICE_INIT_LEVEL(PRE_KERNEL_2)	\
 		DEVICE_INIT_LEVEL(POST_KERNEL)	\
 		DEVICE_INIT_LEVEL(APPLICATION)	\
 		__device_init_end = .;		\
 		DEVICE_BUSY_BITFIELD()		\


 /* define a section for undefined device initialization levels */
 #define DEVICE_INIT_UNDEFINED_SECTION()		\
 		KEEP(*(SORT(.init_[_A-Z0-9]*)))	\

 /*
  * link in shell initialization objects for all modules that use shell and
  * their shell commands are automatically initialized by the kernel.
  */

 #define	SHELL_INIT_SECTIONS()				\
 		__shell_module_start = .;		\
 		KEEP(*(".shell_module_*"));		\
 		__shell_module_end = .;			\
 		__shell_cmd_start = .;			\
 		KEEP(*(".shell_cmd_*"));		\
 		__shell_cmd_end = .;			\

 #ifdef CONFIG_APPLICATION_MEMORY

 #ifndef NUM_KERNEL_OBJECT_FILES
 #error "Expected NUM_KERNEL_OBJECT_FILES to be defined"
 #elif NUM_KERNEL_OBJECT_FILES > 19
 #error "Max supported kernel objects is 19."
 /* TODO: Using the preprocessor to do this was a mistake. Rewrite to
    scale better. e.g. by aggregating the kernel objects into two
    archives like KBuild did.*/
 #endif

 #define X(i, j) KERNEL_OBJECT_FILE_##i (j)
 #define Y(i, j) KERNEL_OBJECT_FILE_##i

 #define KERNEL_INPUT_SECTION(sect) \
     UTIL_LISTIFY(NUM_KERNEL_OBJECT_FILES, X, sect)
 #define APP_INPUT_SECTION(sect)	\
     *(EXCLUDE_FILE (UTIL_LISTIFY(NUM_KERNEL_OBJECT_FILES, Y, ~)) sect)

 #else
 #define KERNEL_INPUT_SECTION(sect)	*(sect)
 #define APP_INPUT_SECTION(sect)		*(sect)
 #endif


 #ifdef CONFIG_X86 /* LINKER FILES: defines used by linker script */
 /* Should be moved to linker-common-defs.h */
 #if defined(CONFIG_XIP)
 #define ROMABLE_REGION ROM
 #else
 #define ROMABLE_REGION RAM
 #endif
 #endif

 /*
  * If image is loaded via kexec Linux system call, then program
  * headers need to be page aligned.
  * This can be done by section page aligning.
  */
 #ifdef CONFIG_BOOTLOADER_KEXEC
 #define KEXEC_PGALIGN_PAD(x) . = ALIGN(x);
 #else
 #define KEXEC_PGALIGN_PAD(x)
 #endif

 #elif defined(_ASMLANGUAGE)

 /* Assembly FILES: declaration defined by the linker script */
 GDATA(__bss_start)
 GDATA(__bss_num_words)
 #ifdef CONFIG_XIP
 GDATA(__data_rom_start)
 GDATA(__data_ram_start)
 GDATA(__data_num_words)
 #endif

 #else /* ! _ASMLANGUAGE */

 #include <zephyr/types.h>

 #ifdef CONFIG_APPLICATION_MEMORY
 /* Memory owned by the application. Start and end will be aligned for memory
  * management/protection hardware for the target architecture.

  * The policy for this memory will be to configure all of it as user thread
  * accessible. It consists of all non-kernel globals.
  */
 extern char __app_ram_start[];
 extern char __app_ram_end[];
 extern char __app_ram_size[];
 #endif

 /* Memory owned by the kernel. Start and end will be aligned for memory
  * management/protection hardware for the target architecture..
  *
  * Consists of all kernel-side globals, all kernel objects, all thread stacks,
  * and all currently unused RAM.  If CONFIG_APPLICATION_MEMORY is not enabled,
  * has all globals, not just kernel side.
  *
  * Except for the stack of the currently executing thread, none of this memory
  * is normally accessible to user threads unless specifically granted at
  * runtime.
  */
 extern char __kernel_ram_start[];
 extern char __kernel_ram_end[];
 extern char __kernel_ram_size[];

 /* Used by _bss_zero or arch-specific implementation */
 extern char __bss_start[];
 extern char __bss_end[];
 #ifdef CONFIG_APPLICATION_MEMORY
 extern char __app_bss_start[];
 extern char __app_bss_end[];
 #endif

 /* Used by _data_copy() or arch-specific implementation */
 #ifdef CONFIG_XIP
 extern char __data_rom_start[];
 extern char __data_ram_start[];
 extern char __data_ram_end[];
 #ifdef CONFIG_APPLICATION_MEMORY
 extern char __app_data_rom_start[];
 extern char __app_data_ram_start[];
 extern char __app_data_ram_end[];
 #endif /* CONFIG_APPLICATION_MEMORY */
 #endif /* CONFIG_XIP */

 /* Includes text and rodata */
 extern char _image_rom_start[];
 extern char _image_rom_end[];
 extern char _image_rom_size[];

 /* datas, bss, noinit */
 extern char _image_ram_start[];
 extern char _image_ram_end[];

 extern char _image_text_start[];
 extern char _image_text_end[];

 extern char _image_rodata_start[];
 extern char _image_rodata_end[];

 extern char _vector_start[];
 extern char _vector_end[];

 /* end address of image, used by newlib for the heap */
 extern char _end[];

 #ifdef CONFIG_CCM_BASE_ADDRESS
 extern char __ccm_data_rom_start[];
 extern char __ccm_start[];
 extern char __ccm_data_start[];
 extern char __ccm_data_end[];
 extern char __ccm_bss_start[];
 extern char __ccm_bss_end[];
 extern char __ccm_noinit_start[];
 extern char __ccm_noinit_end[];
 extern char __ccm_end[];
 #endif /* CONFIG_CCM_BASE_ADDRESS */


 #endif /* ! _ASMLANGUAGE */

 #endif /* _LINKERDEFS_H */
	/*
	* Copyright (c) 2013-2014, Wind River Systems, Inc.
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	/*
	* DESCRIPTION
	* Platform independent, commonly used macros and defines related to linker
	* script.
	*
	* This file may be included by:
	* - Linker script files: for linker section declarations
	* - C files: for external declaration of address or size of linker section
	* - Assembly files: for external declaration of address or size of linker
	* section
	*/

	#ifndef _LINKERDEFS_H
	#define _LINKERDEFS_H

	#include <toolchain.h>
	#include <linker/sections.h>
	#include <misc/util.h>

	/* include platform dependent linker-defs */
	#ifdef CONFIG_X86
	/* Nothing yet to include */
	#elif defined(CONFIG_ARM)
	/* Nothing yet to include */
	#elif defined(CONFIG_ARC)
	/* Nothing yet to include */
	#elif defined(CONFIG_NIOS2)
	/* Nothing yet to include */
	#elif defined(CONFIG_RISCV32)
	/* Nothing yet to include */
	#elif defined(CONFIG_XTENSA)
	/* Nothing yet to include */
	#elif defined(CONFIG_ARCH_POSIX)
	/* Nothing yet to include */
	#else
	#error Arch not supported.
	#endif

	#ifdef _LINKER


	/*
	* Space for storing per device busy bitmap. Since we do not know beforehand
	* the number of devices, we go through the below mechanism to allocate the
	* required space.
	*/
	#ifdef CONFIG_DEVICE_POWER_MANAGEMENT
	#define DEVICE_COUNT \
	((__device_init_end - __device_init_start) / _DEVICE_STRUCT_SIZE)
	#define DEV_BUSY_SZ (((DEVICE_COUNT + 31) / 32) * 4)
	#define DEVICE_BUSY_BITFIELD() \
	FILL(0x00) ; \
	__device_busy_start = .; \
	. = . + DEV_BUSY_SZ; \
	__device_busy_end = .;
	#else
	#define DEVICE_BUSY_BITFIELD()
	#endif

	/*
	* generate a symbol to mark the start of the device initialization objects for
	* the specified level, then link all of those objects (sorted by priority);
	* ensure the objects aren't discarded if there is no direct reference to them
	*/

	#define DEVICE_INIT_LEVEL(level) \
	__device_##level##_start = .; \
	KEEP(*(SORT(.init_##level[0-9]))); \
	KEEP(*(SORT(.init_##level[1-9][0-9]))); \

	/*
	* link in device initialization objects for all devices that are automatically
	* initialized by the kernel; the objects are sorted in the order they will be
	* initialized (i.e. ordered by level, sorted by priority within a level)
	*/

	#define DEVICE_INIT_SECTIONS() \
	__device_init_start = .; \
	DEVICE_INIT_LEVEL(PRE_KERNEL_1) \
	DEVICE_INIT_LEVEL(PRE_KERNEL_2) \
	DEVICE_INIT_LEVEL(POST_KERNEL) \
	DEVICE_INIT_LEVEL(APPLICATION) \
	__device_init_end = .; \
	DEVICE_BUSY_BITFIELD() \


	/* define a section for undefined device initialization levels */
	#define DEVICE_INIT_UNDEFINED_SECTION() \
	KEEP((SORT(.init_[_A-Z0-9]))) \

	/*
	* link in shell initialization objects for all modules that use shell and
	* their shell commands are automatically initialized by the kernel.
	*/

	#define SHELL_INIT_SECTIONS() \
	__shell_module_start = .; \
	KEEP((".shell_module_")); \
	__shell_module_end = .; \
	__shell_cmd_start = .; \
	KEEP((".shell_cmd_")); \
	__shell_cmd_end = .; \

	#ifdef CONFIG_APPLICATION_MEMORY

	#ifndef NUM_KERNEL_OBJECT_FILES
	#error "Expected NUM_KERNEL_OBJECT_FILES to be defined"
	#elif NUM_KERNEL_OBJECT_FILES > 19
	#error "Max supported kernel objects is 19."
	/* TODO: Using the preprocessor to do this was a mistake. Rewrite to
	scale better. e.g. by aggregating the kernel objects into two
	archives like KBuild did.*/
	#endif

	#define X(i, j) KERNEL_OBJECT_FILE_##i (j)
	#define Y(i, j) KERNEL_OBJECT_FILE_##i

	#define KERNEL_INPUT_SECTION(sect) \
	UTIL_LISTIFY(NUM_KERNEL_OBJECT_FILES, X, sect)
	#define APP_INPUT_SECTION(sect) \
	*(EXCLUDE_FILE (UTIL_LISTIFY(NUM_KERNEL_OBJECT_FILES, Y, ~)) sect)

	#else
	#define KERNEL_INPUT_SECTION(sect) *(sect)
	#define APP_INPUT_SECTION(sect) *(sect)
	#endif


	#ifdef CONFIG_X86 /* LINKER FILES: defines used by linker script */
	/* Should be moved to linker-common-defs.h */
	#if defined(CONFIG_XIP)
	#define ROMABLE_REGION ROM
	#else
	#define ROMABLE_REGION RAM
	#endif
	#endif

	/*
	* If image is loaded via kexec Linux system call, then program
	* headers need to be page aligned.
	* This can be done by section page aligning.
	*/
	#ifdef CONFIG_BOOTLOADER_KEXEC
	#define KEXEC_PGALIGN_PAD(x) . = ALIGN(x);
	#else
	#define KEXEC_PGALIGN_PAD(x)
	#endif

	#elif defined(_ASMLANGUAGE)

	/* Assembly FILES: declaration defined by the linker script */
	GDATA(__bss_start)
	GDATA(__bss_num_words)
	#ifdef CONFIG_XIP
	GDATA(__data_rom_start)
	GDATA(__data_ram_start)
	GDATA(__data_num_words)
	#endif

	#else /* ! _ASMLANGUAGE */

	#include <zephyr/types.h>

	#ifdef CONFIG_APPLICATION_MEMORY
	/* Memory owned by the application. Start and end will be aligned for memory
	* management/protection hardware for the target architecture.

	* The policy for this memory will be to configure all of it as user thread
	* accessible. It consists of all non-kernel globals.
	*/
	extern char __app_ram_start[];
	extern char __app_ram_end[];
	extern char __app_ram_size[];
	#endif

	/* Memory owned by the kernel. Start and end will be aligned for memory
	* management/protection hardware for the target architecture..
	*
	* Consists of all kernel-side globals, all kernel objects, all thread stacks,
	* and all currently unused RAM. If CONFIG_APPLICATION_MEMORY is not enabled,
	* has all globals, not just kernel side.
	*
	* Except for the stack of the currently executing thread, none of this memory
	* is normally accessible to user threads unless specifically granted at
	* runtime.
	*/
	extern char __kernel_ram_start[];
	extern char __kernel_ram_end[];
	extern char __kernel_ram_size[];

	/* Used by _bss_zero or arch-specific implementation */
	extern char __bss_start[];
	extern char __bss_end[];
	#ifdef CONFIG_APPLICATION_MEMORY
	extern char __app_bss_start[];
	extern char __app_bss_end[];
	#endif

	/* Used by _data_copy() or arch-specific implementation */
	#ifdef CONFIG_XIP
	extern char __data_rom_start[];
	extern char __data_ram_start[];
	extern char __data_ram_end[];
	#ifdef CONFIG_APPLICATION_MEMORY
	extern char __app_data_rom_start[];
	extern char __app_data_ram_start[];
	extern char __app_data_ram_end[];
	#endif /* CONFIG_APPLICATION_MEMORY */
	#endif /* CONFIG_XIP */

	/* Includes text and rodata */
	extern char _image_rom_start[];
	extern char _image_rom_end[];
	extern char _image_rom_size[];

	/* datas, bss, noinit */
	extern char _image_ram_start[];
	extern char _image_ram_end[];

	extern char _image_text_start[];
	extern char _image_text_end[];

	extern char _image_rodata_start[];
	extern char _image_rodata_end[];

	extern char _vector_start[];
	extern char _vector_end[];

	/* end address of image, used by newlib for the heap */
	extern char _end[];

	#ifdef CONFIG_CCM_BASE_ADDRESS
	extern char __ccm_data_rom_start[];
	extern char __ccm_start[];
	extern char __ccm_data_start[];
	extern char __ccm_data_end[];
	extern char __ccm_bss_start[];
	extern char __ccm_bss_end[];
	extern char __ccm_noinit_start[];
	extern char __ccm_noinit_end[];
	extern char __ccm_end[];
	#endif /* CONFIG_CCM_BASE_ADDRESS */


	#endif /* ! _ASMLANGUAGE */

	#endif /* _LINKERDEFS_H */