#include ENTRY(init) #if ARCH(I386) # define KERNEL_BASE 0xc0000000 #else # define KERNEL_BASE 0x2000000000 #endif KERNEL_VIRTUAL_BASE = KERNEL_BASE; PHDRS { super_pages PT_LOAD ; text PT_LOAD ; data PT_LOAD ; bss PT_LOAD ; ksyms PT_LOAD ; } SECTIONS { . = KERNEL_VIRTUAL_BASE + 0x00200000; start_of_kernel_image = .; .super_pages ALIGN(4K) (NOLOAD) : AT (ADDR(.super_pages) - KERNEL_VIRTUAL_BASE) { *(.super_pages) } :super_pages .text ALIGN(4K) : AT (ADDR(.text) - KERNEL_VIRTUAL_BASE) { start_of_kernel_text = .; start_of_safemem_text = .; KEEP(*(.text.safemem)) end_of_safemem_text = .; start_of_safemem_atomic_text = .; KEEP(*(.text.safemem.atomic)) end_of_safemem_atomic_text = .; *(.text*) } :text .unmap_after_init ALIGN(4K) : AT (ADDR(.unmap_after_init) - KERNEL_VIRTUAL_BASE) { start_of_unmap_after_init = .; *(.unmap_after_init*); end_of_unmap_after_init = .; end_of_kernel_text = .; } :text .rodata ALIGN(4K) : AT (ADDR(.rodata) - KERNEL_VIRTUAL_BASE) { start_heap_ctors = .; *libkernel_heap.a:*(.ctors) end_heap_ctors = .; start_ctors = .; *(.ctors) end_ctors = .; *(.rodata*) } :data .data ALIGN(4K) : AT (ADDR(.data) - KERNEL_VIRTUAL_BASE) { start_of_kernel_data = .; *(.data*) end_of_kernel_data = .; } :data .ro_after_init ALIGN(4K) (NOLOAD) : AT(ADDR(.ro_after_init) - KERNEL_VIRTUAL_BASE) { start_of_ro_after_init = .; *(.ro_after_init); end_of_ro_after_init = .; } :data .bss ALIGN(4K) (NOLOAD) : AT (ADDR(.bss) - KERNEL_VIRTUAL_BASE) { start_of_kernel_bss = .; *(page_tables) *(COMMON) *(.bss) end_of_kernel_bss = .; . = ALIGN(4K); *(.heap) } :bss .ksyms ALIGN(4K) : AT (ADDR(.ksyms) - KERNEL_VIRTUAL_BASE) { start_of_kernel_ksyms = .; *(.kernel_symbols) end_of_kernel_ksyms = .; } :ksyms end_of_kernel_image = .; }