src/lib/rmodule.ld - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /*
  * This linker script is used to link rmodules (relocatable modules).  It
  * links at zero so that relocation fixups are easy when placing the binaries
  * anywhere in the address space.
  *
  * NOTE:  The program's loadable sections (text, module_params, and data) are
  * packed into the flat blob using the AT directive. The rmodule loader assumes
  * the entire program resides in one contiguous address space. Therefore,
  * alignment for a given section (if required) needs to be done at the end of
  * the preceeding section. e.g. if the data section should be aligned to an 8
  * byte address the text section should have ALIGN(8) at the end of its section.
  * Otherwise there won't be a consistent mapping between the flat blob and the
  * loaded program.
  */

 BASE_ADDRESS = 0x00000;

 SECTIONS
 {
 	. = BASE_ADDRESS;

 	.header : AT (0) {
 		*(.module_header);
 		. = ALIGN(8);
 	}

 	/* Align the start of the module program to a large enough alignment
 	 * so that any data in the program with an alignement property is met.
 	 * Essentially, this alignment is the maximum possible data alignment
 	 * property a program can have. */
 	. = ALIGN(4096);
 	_module_link_start_addr = .;
 	_payload_begin_offset  = LOADADDR(.header) + SIZEOF(.header);

 	.payload : AT (_payload_begin_offset) {
 		/* C code of the module. */
 		*(.textfirst);
 		*(.text);
 		*(.text.*);
 		/* C read-only data. */
 		. = ALIGN(16);

 		__CTOR_LIST__ = .;
 		*(.ctors);
 		LONG(0);
 		__CTOR_END__ = .;

 		/* The driver sections are to allow linking coreboot's
 		 * ramstage with the rmodule linker. Any changes made in
 		 * coreboot_ram.ld should be made here as well. */
 		console_drivers = .;
 		*(.rodata.console_drivers)
 		econsole_drivers = . ;
 		. = ALIGN(4);
 		pci_drivers = . ;
 		*(.rodata.pci_driver)
 		epci_drivers = . ;
 		cpu_drivers = . ;
 		*(.rodata.cpu_driver)
 		ecpu_drivers = . ;
 		_bs_init_begin = .;
 		*(.bs_init)
 		_bs_init_end = .;

 		. = ALIGN(4);

 		*(.rodata);
 		*(.rodata.*);
 		. = ALIGN(4);

 		/* The parameters section can be used to pass parameters
 		 * to a module, however there has to be an prior agreement
 		 * on how to interpret the parameters. */
 		_module_params_begin = .;
 		*(.module_parameters);
 		_module_params_end = .;
 		. = ALIGN(8);

 		/* Data section. */
 		_sdata = .;
 		*(.data);
 		. = ALIGN(4);
 		_edata = .;

 		. = ALIGN(8);
 	}

 	/* _payload_end marks the end of the module's code and data. */
 	_payload_end_offset = LOADADDR(.payload) + SIZEOF(.payload);

 	.bss (NOLOAD) : {
 		/* C uninitialized data of the module. */
 		_bss = .;
 		*(.bss);
 		*(.sbss);
 		*(COMMON);
 		. = ALIGN(8);
 		_ebss = .;

 		/*
 		 * Place the heap after BSS. The heap size is passed in by
 		 * by way of ld --defsym=__heap_size=<>
 		 */
 		_heap = .;
 		. = . + __heap_size;
 		_eheap = .;
 	}

 	/* _module_program_size is the total memory used by the program. */
 	_module_program_size = _eheap - _module_link_start_addr;

 	/* coreboot's ramstage uses the _ram_seg and _eram_seg symbols
 	 * for determining its load location. Provide those to help it out.
 	 * It's a nop for any non-ramstage rmodule. */
 	_ram_seg = _module_link_start_addr;
 	_eram_seg = _module_link_start_addr + _module_program_size;

 	/* The relocation information is linked on top of the BSS section
 	 * because the BSS section takes no space on disk. The relocation data
 	 * resides directly after the data section in the flat binary. */
 	.relocations ADDR(.bss) : AT (_payload_end_offset) {
 		*(.rel.*);
 	}
 	_relocations_begin_offset = LOADADDR(.relocations);
 	_relocations_end_offset  = _relocations_begin_offset +
 	                           SIZEOF(.relocations);

 	/DISCARD/ : {
 		/* Drop unnecessary sections. Since these modules are linked
 		 * as shared objects there are dynamic sections. These sections
 		 * aren't needed so drop them. */
 		*(.comment);
 		*(.note);
 		*(.note.*);
 		*(.dynamic);
 		*(.dynsym);
 		*(.dynstr);
 		*(.gnu.hash);
 		*(.eh_frame);
 	}
 }
	/*
	* This linker script is used to link rmodules (relocatable modules). It
	* links at zero so that relocation fixups are easy when placing the binaries
	* anywhere in the address space.
	*
	* NOTE: The program's loadable sections (text, module_params, and data) are
	* packed into the flat blob using the AT directive. The rmodule loader assumes
	* the entire program resides in one contiguous address space. Therefore,
	* alignment for a given section (if required) needs to be done at the end of
	* the preceeding section. e.g. if the data section should be aligned to an 8
	* byte address the text section should have ALIGN(8) at the end of its section.
	* Otherwise there won't be a consistent mapping between the flat blob and the
	* loaded program.
	*/

	BASE_ADDRESS = 0x00000;

	SECTIONS
	{
	. = BASE_ADDRESS;

	.header : AT (0) {
	*(.module_header);
	. = ALIGN(8);
	}

	/* Align the start of the module program to a large enough alignment
	* so that any data in the program with an alignement property is met.
	* Essentially, this alignment is the maximum possible data alignment
	* property a program can have. */
	. = ALIGN(4096);
	_module_link_start_addr = .;
	_payload_begin_offset = LOADADDR(.header) + SIZEOF(.header);

	.payload : AT (_payload_begin_offset) {
	/* C code of the module. */
	*(.textfirst);
	*(.text);
	(.text.);
	/* C read-only data. */
	. = ALIGN(16);

	__CTOR_LIST__ = .;
	*(.ctors);
	LONG(0);
	__CTOR_END__ = .;

	/* The driver sections are to allow linking coreboot's
	* ramstage with the rmodule linker. Any changes made in
	* coreboot_ram.ld should be made here as well. */
	console_drivers = .;
	*(.rodata.console_drivers)
	econsole_drivers = . ;
	. = ALIGN(4);
	pci_drivers = . ;
	*(.rodata.pci_driver)
	epci_drivers = . ;
	cpu_drivers = . ;
	*(.rodata.cpu_driver)
	ecpu_drivers = . ;
	_bs_init_begin = .;
	*(.bs_init)
	_bs_init_end = .;

	. = ALIGN(4);

	*(.rodata);
	(.rodata.);
	. = ALIGN(4);

	/* The parameters section can be used to pass parameters
	* to a module, however there has to be an prior agreement
	* on how to interpret the parameters. */
	_module_params_begin = .;
	*(.module_parameters);
	_module_params_end = .;
	. = ALIGN(8);

	/* Data section. */
	_sdata = .;
	*(.data);
	. = ALIGN(4);
	_edata = .;

	. = ALIGN(8);
	}

	/* _payload_end marks the end of the module's code and data. */
	_payload_end_offset = LOADADDR(.payload) + SIZEOF(.payload);

	.bss (NOLOAD) : {
	/* C uninitialized data of the module. */
	_bss = .;
	*(.bss);
	*(.sbss);
	*(COMMON);
	. = ALIGN(8);
	_ebss = .;

	/*
	* Place the heap after BSS. The heap size is passed in by
	* by way of ld --defsym=__heap_size=<>
	*/
	_heap = .;
	. = . + __heap_size;
	_eheap = .;
	}

	/* _module_program_size is the total memory used by the program. */
	_module_program_size = _eheap - _module_link_start_addr;

	/* coreboot's ramstage uses the _ram_seg and _eram_seg symbols
	* for determining its load location. Provide those to help it out.
	* It's a nop for any non-ramstage rmodule. */
	_ram_seg = _module_link_start_addr;
	_eram_seg = _module_link_start_addr + _module_program_size;

	/* The relocation information is linked on top of the BSS section
	* because the BSS section takes no space on disk. The relocation data
	* resides directly after the data section in the flat binary. */
	.relocations ADDR(.bss) : AT (_payload_end_offset) {
	(.rel.);
	}
	_relocations_begin_offset = LOADADDR(.relocations);
	_relocations_end_offset = _relocations_begin_offset +
	SIZEOF(.relocations);

	/DISCARD/ : {
	/* Drop unnecessary sections. Since these modules are linked
	* as shared objects there are dynamic sections. These sections
	* aren't needed so drop them. */
	*(.comment);
	*(.note);
	(.note.);
	*(.dynamic);
	*(.dynsym);
	*(.dynstr);
	*(.gnu.hash);
	*(.eh_frame);
	}
	}