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// Code that might be executed out of either RAM or ROM
#define SECTION_text(_region_, _vma_, _lma_) \
.text _vma_ : _lma_ \
{ __stext = .; \
*(.text*) *(.gnu.warning) *(.gnu.linkonce.t.*) } \
> _region_ \
__etext = .; PROVIDE (etext = .);
// The .text.ram section is for performance-sensitive code that is
// always executed from RAM. (If the code is loaded into ROM, it will
// be copied into RAM prior to execution.)
//
// Note: The SECTION_text_ram() macro must be listed in the linker
// include script (*.ldi file) prior to SECTION_text().
//
// All eCos code is put in the .text section unless explicitly placed
// into a section named section .text.ram*.
#define SECTION_text_ram(_region_, _vma_, _lma_) \
.text.ram _vma_ : _lma_ \
{ __stext_ram = .; \
__ram_text_start = ABSOLUTE(.); \
*(.text.ram*) \
} > _region_ \
__load_addr_text_ram = LOADADDR(.text.ram); \
__ram_text_end = .; PROVIDE(__ram_text_end = .); \
__etext_ram = .; PROVIDE (etext_ram = .);
#define SECTION_rodata1(_region_, _vma_, _lma_) \
.rodata1 _vma_ : _lma_ \
{ FORCE_OUTPUT; *(.rodata1) *(.rodata1*) } \
> _region_
#define SECTION_rodata(_region_, _vma_, _lma_) \
.rodata _vma_ : _lma_ \
{ FORCE_OUTPUT; *(.rodata) *(.rodata*) *(.gnu.linkonce.r*) } \
> _region_
#define SECTION_fixup(_region_, _vma_, _lma_) \
.fixup _vma_ : _lma_ \
{ __FIXUP_START__ = ABSOLUTE(.); *(.fixup) __FIXUP_END__ = ABSOLUTE(.);}\
> _region_
#define SECTION_gcc_except_table(_region_, _vma_, _lma_) \
.gcc_except_table _vma_ : _lma_ \
{ __EXCEPT_START__ = ABSOLUTE(.); *(.gcc_except_table) \
__EXCEPT_END__ = ABSOLUTE(.);} \
> _region_
#define SECTION_ctors(_region_, _vma_, _lma_) \
.ctors _vma_ : _lma_ \
{ \
FORCE_OUTPUT; \
KEEP (*crtbegin.o(.ctors)) \
KEEP (*_ctors.o(.ctors)) \
__CTOR_LIST__ = .; \
PROVIDE (__CTOR_LIST__ = .); \
KEEP (*(.ctors)); \
KEEP (*(SORT(.ctors.*))) \
__CTOR_END__ = .; \
PROVIDE (__CTOR_END__ = .); \
} > _region_
#define SECTION_dtors(_region_, _vma_, _lma_) \
.dtors _vma_ : _lma_ \
{ \
FORCE_OUTPUT; \
KEEP (*crtbegin.o(.dtors)) \
__DTOR_LIST__ = .; \
PROVIDE (__DTOR_LIST__ = .); \
KEEP (*(SORT(.dtors.*))) \
__DTOR_END__ = .; \
KEEP (*(.dtors)); \
PROVIDE (__DTOR_END__ = .); \
} > _region_
#define SECTION_got(_region_, _vma_, _lma_) \
.got _vma_ : _lma_ \
{ \
FORCE_OUTPUT; *(.got.plt) *(.got*) \
} > _region_
#define SECTION_dynamic(_region_, _vma_, _lma_) \
.dynamic _vma_ : _lma_ \
{ \
FORCE_OUTPUT; *(.dynamic) \
} > _region_
#define SECTION_devtab(_region_, _vma_, _lma_) \
.devtab _vma_ : _lma_ \
{ \
FORCE_OUTPUT; \
KEEP(*( SORT (.ecos.table.*))) ; \
} > _region_
#define SECTION_data(_region_, _vma_, _lma_) \
.data _vma_ : _lma_ \
{ __ram_data_start = ABSOLUTE(.); \
*(.data*) *(.data.*) *(.gnu.linkonce.d*) \
*( .2ram.*) \
. = ALIGN (8); \
SORT(CONSTRUCTORS) \
} > _region_ \
__rom_data_start = LOADADDR(.data);
/* 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. */
#define SECTION_sdata(_region_, _vma_, _lma_) \
.sdata _vma_ : _lma_ \
{ \
__SDATA_START__ = ABSOLUTE(.); \
FORCE_OUTPUT; *(.sdata) *(.sdata.*) *(.gnu.linkonce.s*) \
} > _region_
#define SECTION_lit8(_region_, _vma_, _lma_) \
.lit8 _vma_ : _lma_ \
{ \
FORCE_OUTPUT; *(.lit8) \
} > _region_
#define SECTION_lit4(_region_, _vma_, _lma_) \
.lit4 : FOLLOWING(.lit8) \
{ \
FORCE_OUTPUT; *(.lit4) \
} > _region_ \
__ram_data_end = .; _edata = . ; \
PROVIDE (edata = .);
#define SECTION_sbss(_region_, _vma_, _lma_) \
.sbss _vma_ : _lma_ \
{ __sbss_start = ABSOLUTE (.); \
__SBSS_START__ = ABSOLUTE(.); *(.sbss.*) __SBSS_END__ = ABSOLUTE(.); \
__SBSSx_START__ = ABSOLUTE(.); *(.sbss*) __SBSSx_END__ = ABSOLUTE(.);\
*(.scommon*) \
__sbss_end = ABSOLUTE (.); } \
> _region_
#define SECTION_bss(_region_, _vma_, _lma_) \
.bss _vma_ : _lma_ \
{ __bss_start = ABSOLUTE (.); \
FORCE_OUTPUT; *(.dynbss*) *(.bss) *(.bss.*) *(COMMON) \
__bss_end = ABSOLUTE (.); } \
> _region_
#define SECTIONS_END . = ALIGN(4); _end = .; PROVIDE (end = .);
#include <pkgconf/system.h>
#include CYGHWR_MEMORY_LAYOUT_LDI
// Define VSR and virtual tables to reside at fixed addresses.
#include CYGBLD_HAL_TARGET_H
_hal_vsr_table = CYGHWR_HAL_VSR_TABLE;
_hal_virtual_vector_table = CYGHWR_HAL_VIRTUAL_VECTOR_TABLE;
// EOF openrisc.ld
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