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[/] [openrisc/] [trunk/] [gnu-stable/] [newlib-1.18.0/] [libgloss/] [mt/] [ms2.ld] - Rev 854
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OUTPUT_FORMAT("elf32-mt", "elf32-mt", "elf32-mt")
OUTPUT_ARCH(mt)
ENTRY(__boot_start)
/* Do we need any of these for elf?
__DYNAMIC = 0; */
MEMORY
{
ram (rwx) : ORIGIN = 0x0, LENGTH = 16M
sram (wx) : ORIGIN = 0xfef00000, LENGTH = 64K
frame-buffer (w) : ORIGIN = 0xff000000, LENGTH = 80K
dma-ram (w) : ORIGIN = 0x1000000, LENGTH = 32M
ports (w) : ORIGIN = 0xfffff000, LENGTH = 4K
}
SECTIONS
{
/* Read-only sections, merged into text segment: */
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.rel.text : { *(.rel.text .rel.text.* .rel.gnu.linkonce.t.*) }
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.rel.rodata : { *(.rel.rodata .rel.rodata.* .rel.gnu.linkonce.r.*) }
.rela.rodata : { *(.rela.rodata .rela.rodata.* .rela.gnu.linkonce.r.*) }
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. = 0x40;
.init : { KEEP (*(.init)) } >ram =0
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PROVIDE (__etext = .);
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.eh_frame : ONLY_IF_RO { KEEP (*(.eh_frame)) } >ram
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/* Adjust the address for the data segment. We want to adjust up to
the same address within the page on the next page up. */
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/* Exception handling */
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/* Thread Local Storage sections */
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.tbss : { *(.tbss .tbss.* .gnu.linkonce.tb.*) *(.tcommon) } >ram
/* Ensure the __preinit_array_start label is properly aligned. We
could instead move the label definition inside the section, but
the linker would then create the section even if it turns out to
be empty, which isn't pretty. */
. = ALIGN(32 / 8);
PROVIDE (__preinit_array_start = .);
.preinit_array : { *(.preinit_array) } >ram
PROVIDE (__preinit_array_end = .);
PROVIDE (__init_array_start = .);
.init_array : { *(.init_array) } >ram
PROVIDE (__init_array_end = .);
PROVIDE (__fini_array_start = .);
.fini_array : { *(.fini_array) } >ram
PROVIDE (__fini_array_end = .);
.ctors :
{
/* gcc uses crtbegin.o to find the start of
the constructors, so we make sure it is
first. Because this is a wildcard, it
doesn't matter if the user does not
actually link against crtbegin.o; the
linker won't look for a file to match a
wildcard. The wildcard also means that it
doesn't matter which directory crtbegin.o
is in. */
KEEP (*crtbegin.o(.ctors))
/* We don't want to include the .ctor section from
from the crtend.o file until after the sorted ctors.
The .ctor section from the crtend file contains the
end of ctors marker and it must be last */
KEEP (*(EXCLUDE_FILE (*crtend*.o ) .ctors))
KEEP (*(SORT(.ctors.*)))
KEEP (*(.ctors))
} >ram
.dtors :
{
KEEP (*crtbegin*.o(.dtors))
KEEP (*(EXCLUDE_FILE (*crtend*.o ) .dtors))
KEEP (*(SORT(.dtors.*)))
KEEP (*(.dtors))
} >ram
.jcr : { KEEP (*(.jcr)) } >ram
.data.rel.ro : { *(.data.rel.ro.local) *(.data.rel.ro*) } >ram
.dynamic : { *(.dynamic) } >ram
/* DJK - Re-align the data section from the read-only section. */
. = ALIGN(16) + (. & (16 - 1));
PROVIDE (_data = .);
.data :
{
*(.data .data.* .gnu.linkonce.d.*)
KEEP (*(.gnu.linkonce.d.*personality*))
SORT(CONSTRUCTORS)
} >ram
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.got : { *(.got.plt) *(.got) } >ram
/* We want the small data sections together, so single-instruction offsets
can access them all, and initialized data all before uninitialized, so
we can shorten the on-disk segment size. */
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_edata = .;
PROVIDE ( edata = . );
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{
PROVIDE (__sbss_start = .);
PROVIDE (___sbss_start = .);
*(.dynsbss)
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*(.scommon)
PROVIDE (__sbss_end = .);
PROVIDE (___sbss_end = .);
} >ram
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*(COMMON)
/* Align here to ensure that the .bss section occupies space up to
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} >ram
. = ALIGN(32 / 8);
__bss_start = ADDR ( .sbss ) ;
__bss_end = __bss_start + SIZEOF ( .sbss ) + SIZEOF ( .bss ) - 4 ;
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PROVIDE (end = .);
/* DJK - Initialized frame buffer data is copied from RAM to FB. */
.auxbss : AT (ADDR(.bss) + SIZEOF(.bss)) { *(.auxbss) } >frame-buffer
.auxdata : AT (LOADADDR(.auxbss) + SIZEOF(.auxbss))
{
*(.auxdata.bank0)
. = ALIGN(0x4000);
*(.auxdata.bank1)
. = ALIGN(0x4000);
*(.auxdata.bank2)
. = ALIGN(0x4000);
*(.auxdata.bank3)
. = ALIGN(0x4000);
*(.auxdata.bank4)
*(.auxdata)
} >frame-buffer
_fbbss_start = ADDR ( .auxbss );
_fbbss_end = _fbbss_start + SIZEOF ( .auxbss ) - 4;
_fbdata_start = LOADADDR ( .auxdata );
_fbdata_end = _fbdata_start + SIZEOF ( .auxdata ) ;
_fbdata_vma = ADDR ( .auxdata );
PROVIDE (__FRAME_BUFFER_START = ADDR(.auxbss) );
PROVIDE (__FRAME_BUFFER_SIZE = 0x14000);
PROVIDE (__FRAME_BUFFER_END = __FRAME_BUFFER_START + __FRAME_BUFFER_SIZE);
/* For now, locate data ahead of code in onchip sram/memory. */
.sram : AT (LOADADDR(.auxdata) + SIZEOF(.auxdata))
{
*(.sram.data)
. = ALIGN(4) ; /* Make sure that instructions are aligned... */
*(.sram.text)
} >sram
_sram_data_start = LOADADDR ( .sram );
_sram_data_end = _sram_data_start + SIZEOF ( .sram ) ;
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.dma : { _dma_start = .; *(.dma) _dma_end = .; } >dma-ram
.internal_io (NOLOAD) : { *(.internal_io) } >ports
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.stab.indexstr 0 : { *(.stab.indexstr) }
.comment 0 : { *(.comment) }
/* DWARF debug sections.
Symbols in the DWARF debugging sections are relative to the beginning
of the section so we begin them at 0. */
/* DWARF 1 */
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.line 0 : { *(.line) }
/* GNU DWARF 1 extensions */
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/* DWARF 1.1 and DWARF 2 */
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/* In a multi-core environment, each core is given its own stack space
equal to __stack_size, growing downwards. */
PROVIDE (__stack = 0x97ff0);
PROVIDE (__stack_size = 0x800);
.stack (DEFINED(__stack) ? __stack : 0x007ffff0) :
{
__stack = .;
*(.stack)
LONG(0xdeaddead)
}
/DISCARD/ : { *(.note.GNU-stack) }
}
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