OUTPUT_FORMAT("elf32-i386", "elf32-i386", "elf32-i386") OUTPUT_ARCH(i386) /* * 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); } }