RTL8710AF_GCC/project/realtek_ameba1_va0_example/GCC-RELEASE/rlx8195A-symbol-v02-img2.ld

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2016-09-12 09:16:56 +00:00
ENTRY(Reset_Handler)
INCLUDE "export-rom_v02.txt"
MEMORY
{
TCM (rwx) : ORIGIN = 0x1FFF0000, LENGTH = 65536
ROM_USED_RAM (rwx) : ORIGIN = 0x10000bc8, LENGTH = 21560
//RECY_RAM (rwx) : ORIGIN = 0x10002100, LENGTH = 16128
BD_RAM (rwx) : ORIGIN = 0x10006000, LENGTH = 434176
RECY_RAM (rwx) : ORIGIN = 0x10002100, LENGTH = 7936
//BD_RAM (rwx) : ORIGIN = 0x10004000, LENGTH = 442368
SDRAM_RAM (rwx) : ORIGIN = 0x30000000, LENGTH = 2M
}
SECTIONS
{
__rom_bss_start__ = 0x10000300;
__rom_bss_end__ = 0x10000bc8;
/*
.ram.start.table :
{
__ram_image1_text_start__ = .;
__ram_start_table_start__ = .;
KEEP(*(SORT(.start.ram.data*)))
__ram_start_table_end__ = .;
} > ROM_USED_RAM
*/
/* Add . to assign the start address of the section, *
* to prevent the change of the start address by ld doing section alignment */
/* these 4 sections is used by ROM global variable */
/* Don't move them and never add RAM code variable to these sections */
/*
.ram_image1.text . :
{
__image1_validate_code__ = .;
KEEP(*(.image1.validate.rodata*))
KEEP(*(.infra.ram.data*))
KEEP(*(.timer.ram.data*))
KEEP(*(.cutb.ram.data*))
KEEP(*(.cutc.ram.data*))
KEEP(*(.hal.ram.data*))
__image1_bss_start__ = .;
__image1_bss_end__ = .;
__ram_image1_data_end__ = .;
*(.hal.ram.text*)
*(.infra.ram.text*)
__ram_image1_text_end__ = .;
} > ROM_USED_RAM
*/
/*
.tcm :
{
__tcm_start__ = .;
*(.tcm.heap)
*mem.o (.bss)
*memp.o (.bss)
__tcm_end__ = .;
} > TCM
*/
.bootloader :
{
KEEP(*(.loader.data*))
} > ROM_USED_RAM
OVERLAY 0x1FFF0000:
{
.valid
{
*mem.o (.bss*)
*memp.o (.bss*)
*(.tcm.heap)
}
.dummy
{
__ram_image1_text_start__ = .;
__ram_start_table_start__ = .;
KEEP(*(SORT(.start.ram.data*)))
__ram_start_table_end__ = .;
__image1_validate_code__ = .;
KEEP(*(.image1.validate.rodata*))
KEEP(*(.infra.ram.data*))
KEEP(*(.timer.ram.data*))
KEEP(*(.cutb.ram.data*))
KEEP(*(.cutc.ram.data*))
KEEP(*(.hal.ram.data*))
__image1_bss_start__ = .;
.ram_image1.bss$$Base = .;
__image1_bss_end__ = .;
.ram_image1.bss$$Limit = .;
__ram_image1_data_end__ = .;
*(.hal.ram.text*)
*(.infra.ram.text*)
}
} > TCM
.image2.start.table :
{
__ram_image2_text_start__ = .;
__image2_entry_func__ = .;
.image2.start.table1$$Base = .;
KEEP(*(SORT(.image2.ram.data*)))
__image2_validate_code__ = .;
KEEP(*(.image2.validate.rodata*))
KEEP(*(.custom.validate.rodata*))
} > BD_RAM
.ram_image2.text :
{
KEEP(*(.infra.ram.start*))
*(.mon.ram.text*)
*(.hal.flash.text*)
*(.hal.sdrc.text*)
*(.hal.gpio.text*)
*(.fwu.text*)
*(.text*)
} > BD_RAM
.ram_image2.rodata :
{
*(.rodata*)
*(.fwu.rodata*)
} > BD_RAM
.ram.data :
{
__data_start__ = .;
*(.data*)
__data_end__ = .;
__ram_image2_text_end__ = .;
} > BD_RAM
.ram.bss :
{
__bss_start__ = .;
.ram.bss$$Base = .;
*(.hal.flash.data*)
*(.hal.sdrc.data*)
*(.hal.gpio.data*)
*(.fwu.data*)
*(.bss*)
*(COMMON)
*(.bdsram.data*)
__bss_end__ = .;
.ram.bss$$Limit = .;
} > BD_RAM
.bf_data :
{
__buffer_data_start__ = .;
*(.bfsram.data*)
__buffer_data_end__ = .;
} > BD_RAM
.bf_data2 :
{
__buffer_data_start2__ = .;
__buffer_data_end2__ = .;
} > RECY_RAM
.sdr_text :
{
__sdram_data_start__ = .;
*(.sdram.text*)
*(.p2p.text*)
*(.wps.text*)
*(.websocket.text*)
} > SDRAM_RAM
.sdr_rodata :
{
*(.sdram.rodata*)
*(.p2p.rodata*)
*(.wps.rodata*)
*(.websocket.rodata*)
} > SDRAM_RAM
.sdr_data :
{
*(.sdram.data*)
*(.p2p.data*)
*(.wps.data*)
*(.websocket.data*)
__sdram_data_end__ = .;
} > SDRAM_RAM
.sdr_bss :
{
__sdram_bss_start__ = .;
*(.sdram.bss*)
*(.p2p.bss*)
*(.wps.bss*)
*(.websocket.bss*)
__sdram_bss_end__ = .;
} > SDRAM_RAM
.heap :
{
__end__ = .;
end = __end__;
*(.heap*)
__HeapLimit = .;
} > BD_RAM
/* .stack_dummy section doesn't contains any symbols. It is only
* used for linker to calculate size of stack sections, and assign
* values to stack symbols later */
.stack_dummy :
{
*(.stack)
} > BD_RAM
/* Set stack top to end of RAM, and stack limit move down by
* size of stack_dummy section */
__StackTop = ORIGIN(BD_RAM) + LENGTH(BD_RAM);
__StackLimit = __StackTop - SIZEOF(.stack_dummy);
PROVIDE(__stack = __StackTop);
/* Check if data + heap + stack exceeds RAM limit */
ASSERT(__StackLimit >= __HeapLimit, "region RAM overflowed with stack")
}