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Firmware2/frameworks/CMSIS/LPC1768/system/LPC1768.ld
Andy Shaw 5be2559eda Use flash memory to emulate EEPROM (#11500) 
Use a sector of the LPC flash memory to emulate EEPROM storage, removing the need to have an SD card to store system parameters.
2018-08-14 01:19:34 -05:00

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/* Linker script for mbed LPC1768 */
MEMORY
{
/* Reserve first 16K (4 sectors * 4KB) for bootloader
* Reserve the last 32KB sector for EEPROM emulation
*/
FLASH (rx) : ORIGIN = 16K, LENGTH = (512K - 48K)
RAM (rwx) : ORIGIN = 0x100000C8, LENGTH = (32K - 0xC8)
USB_RAM(rwx) : ORIGIN = 0x2007C000, LENGTH = 16K
ETH_RAM(rwx) : ORIGIN = 0x20080000, LENGTH = 16K
}
/* Linker script to place sections and symbol values. Should be used together
* with other linker script that defines memory regions FLASH and RAM.
* It references following symbols, which must be defined in code:
* Reset_Handler : Entry of reset handler
*
* It defines following symbols, which code can use without definition:
* __exidx_start
* __exidx_end
* __etext
* __data_start__
* __preinit_array_start
* __preinit_array_end
* __init_array_start
* __init_array_end
* __fini_array_start
* __fini_array_end
* __data_end__
* __bss_start__
* __bss_end__
* __end__
* end
* __HeapLimit
* __StackLimit
* __StackTop
* __stack
*/
ENTRY(Reset_Handler)
SECTIONS
{
.text :
{
KEEP(*(.isr_vector))
*(.text*)
KEEP(*(.init))
KEEP(*(.fini))
/* .ctors */
*crtbegin.o(.ctors)
*crtbegin?.o(.ctors)
*(EXCLUDE_FILE(*crtend?.o *crtend.o) .ctors)
*(SORT(.ctors.*))
*(.ctors)
/* .dtors */
*crtbegin.o(.dtors)
*crtbegin?.o(.dtors)
*(EXCLUDE_FILE(*crtend?.o *crtend.o) .dtors)
*(SORT(.dtors.*))
*(.dtors)
*(.rodata*)
KEEP(*(.eh_frame*))
} > FLASH
.ARM.extab :
{
*(.ARM.extab* .gnu.linkonce.armextab.*)
} > FLASH
__exidx_start = .;
.ARM.exidx :
{
*(.ARM.exidx* .gnu.linkonce.armexidx.*)
} > FLASH
__exidx_end = .;
__etext = .;
.data : AT (__etext)
{
__data_start__ = .;
Image$$RW_IRAM1$$Base = .;
*(vtable)
*(.data*)
. = ALIGN(4);
/* preinit data */
PROVIDE (__preinit_array_start = .);
KEEP(*(.preinit_array))
PROVIDE (__preinit_array_end = .);
. = ALIGN(4);
/* init data */
PROVIDE (__init_array_start = .);
KEEP(*(SORT(.init_array.*)))
KEEP(*(.init_array))
PROVIDE (__init_array_end = .);
. = ALIGN(4);
/* finit data */
PROVIDE (__fini_array_start = .);
KEEP(*(SORT(.fini_array.*)))
KEEP(*(.fini_array))
PROVIDE (__fini_array_end = .);
. = ALIGN(4);
/* All data end */
__data_end__ = .;
} > RAM
.bss :
{
__bss_start__ = .;
*(.bss*)
*(COMMON)
__bss_end__ = .;
Image$$RW_IRAM1$$ZI$$Limit = . ;
} > RAM
.heap :
{
__end__ = .;
end = __end__;
*(.heap*)
__HeapLimit = .;
} > RAM
/* .stack_dummy section doesn't contains any symbols. It is only
* used for linker to calculate size of stack sections, and assign
* values to stack symbols later */
.stack_dummy :
{
*(.stack)
} > RAM
/* Set stack top to end of RAM, and stack limit move down by
* size of stack_dummy section */
__StackTop = ORIGIN(RAM) + LENGTH(RAM);
__StackLimit = __StackTop - SIZEOF(.stack_dummy);
PROVIDE(__stack = __StackTop);
PROVIDE(__heapLimit = __HeapLimit);
PROVIDE(__stackSize = __StackTop - __HeapLimit);
/* Area of memory, heap and stack, to fill on startup - 8 bytes at a time. */
__FillStart = ALIGN(__end__, 8);
/* Check if data + heap + stack exceeds RAM limit */
ASSERT(__StackLimit >= __HeapLimit, "region RAM overflowed with stack")
/* Code can explicitly ask for data to be
placed in these higher RAM banks where
they will be left uninitialized.
*/
.AHBSRAM0 (NOLOAD):
{
Image$$RW_IRAM2$$Base = . ;
PROVIDE(__AHB0_block_start = .);
*(AHBSRAM0)
Image$$RW_IRAM2$$ZI$$Limit = .;
PROVIDE(__AHB0_dyn_start = .);
PROVIDE(__AHB0_end = ORIGIN(USB_RAM) + LENGTH(USB_RAM));
} > USB_RAM
.AHBSRAM1 (NOLOAD):
{
Image$$RW_IRAM3$$Base = . ;
PROVIDE(__AHB1_block_start = .);
*(AHBSRAM1)
Image$$RW_IRAM3$$ZI$$Limit = .;
PROVIDE(__AHB1_dyn_start = .);
PROVIDE(__AHB1_end = ORIGIN(ETH_RAM) + LENGTH(ETH_RAM));
} > ETH_RAM
}
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