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memmap_rp2040_app.ld
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memmap_rp2040_app.ld
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/* Based on GCC ARM embedded samples.
Defines the following symbols for use by code:
__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 (== StackTop)
*/
MEMORY
{
FLASH(rx) : ORIGIN = 0x10000000, LENGTH = 2M - 4K /* flash ROM memory 2MB-4KB */
CONFIG(r) : ORIGIN = 0x101FF000, LENGTH = 4K /* device configuration 4KB */
RAM(rwx) : ORIGIN = 0x20000000, LENGTH = 256K /* main RAM 256KB */
SCRATCH_X(rwx) : ORIGIN = 0x20040000, LENGTH = 4k /* core 0 stack 4KB */
BOOTLOADERRAM(rw) : ORIGIN = 0x20041000, LENGTH = 32 /* boot loader resident RAM 32B */
SCRATCH_Y(rwx) : ORIGIN = 0x20041000+32, LENGTH = 4k-32 /* core 1 stack 4KB-32B */
}
ENTRY(_reset_handler)
SECTIONS
{
/* Second stage bootloader is prepended to the image. It must be 256 bytes big
and checksummed. It is usually built by the boot_stage2 target
in the Raspberry Pi Pico SDK
*/
.flash_begin : {
__flash_binary_start = .;
} > FLASH
.boot2 : {
__boot2_start__ = .;
KEEP (*(.boot2))
__boot2_end__ = .;
} > FLASH
ASSERT(__boot2_end__ - __boot2_start__ == 0x8000,
"ERROR: PicoPad bootloader must be 32768 bytes in size")
/* The second stage will always enter the image at the start of .text.
The debugger will use the ELF entry point, which is the _entry_point
symbol if present, otherwise defaults to start of .text.
This can be used to transfer control back to the bootrom on debugger
launches only, to perform proper flash setup.
*/
.boot3 : {
__logical_binary_start = .;
KEEP (*(.vectors))
KEEP (*(.picopad_info_header))
KEEP (*(.binary_info_header))
__binary_info_header_end = .;
KEEP (*(.embedded_block))
__embedded_block_end = .;
KEEP (*(.vector_handlers))
KEEP (*(.reset))
} > FLASH
.text : {
*(.init)
*(EXCLUDE_FILE(*libgcc.a: *libc.a:*lib_a-mem*.o *libm.a:) .text*)
*(.fini)
/* Pull all c'tors into .text */
*crtbegin.o(.ctors)
*crtbegin?.o(.ctors)
*(EXCLUDE_FILE(*crtend?.o *crtend.o) .ctors)
*(SORT(.ctors.*))
*(.ctors)
/* Followed by destructors */
*crtbegin.o(.dtors)
*crtbegin?.o(.dtors)
*(EXCLUDE_FILE(*crtend?.o *crtend.o) .dtors)
*(SORT(.dtors.*))
*(.dtors)
. = ALIGN(4);
/* preinit data */
PROVIDE_HIDDEN (__preinit_array_start = .);
KEEP(*(SORT(.preinit_array.*)))
KEEP(*(.preinit_array))
PROVIDE_HIDDEN (__preinit_array_end = .);
. = ALIGN(4);
/* init data */
PROVIDE_HIDDEN (__init_array_start = .);
KEEP(*(SORT(.init_array.*)))
KEEP(*(.init_array))
PROVIDE_HIDDEN (__init_array_end = .);
. = ALIGN(4);
/* finit data */
PROVIDE_HIDDEN (__fini_array_start = .);
*(SORT(.fini_array.*))
*(.fini_array)
PROVIDE_HIDDEN (__fini_array_end = .);
*(.eh_frame*)
. = ALIGN(4);
} > FLASH
.rodata : {
/* We excluded nameless .rodata symbols from the .rodata section because
they are jump tables for switch() so that they are placed in RAM. Other
common r/o data remains because they are named .rodata.xxxx. */
*(EXCLUDE_FILE(*libgcc.a: *libc.a:*lib_a-mem*.o *libm.a:) .rodata.*)
. = ALIGN(4);
*(SORT_BY_ALIGNMENT(SORT_BY_NAME(.flashdata*)))
. = ALIGN(4);
} > FLASH
.ARM.extab :
{
*(.ARM.extab* .gnu.linkonce.armextab.*)
} > FLASH
__exidx_start = .;
.ARM.exidx :
{
*(.ARM.exidx* .gnu.linkonce.armexidx.*)
} > FLASH
__exidx_end = .;
/* Machine inspectable binary information */
. = ALIGN(4);
__binary_info_start = .;
.binary_info :
{
KEEP(*(.binary_info.keep.*))
*(.binary_info.*)
} > FLASH
__binary_info_end = .;
. = ALIGN(4);
/* End of .text-like segments */
__etext = .;
.data (READONLY) : {
__data_start__ = .;
*(vtable)
*(.time_critical*)
/* remaining .text and .rodata; i.e. stuff we exclude above because we want it in RAM */
*(.text*)
. = ALIGN(4);
*(.rodata*)
. = ALIGN(4);
*(.data*)
. = ALIGN(4);
*(.after_data.*)
. = ALIGN(4);
/* preinit data */
PROVIDE_HIDDEN (__mutex_array_start = .);
KEEP(*(SORT(.mutex_array.*)))
KEEP(*(.mutex_array))
PROVIDE_HIDDEN (__mutex_array_end = .);
. = ALIGN(4);
*(.jcr)
. = ALIGN(4);
/* All data end */
__data_end__ = .;
} > RAM AT> FLASH
.ram_vector_table (NOLOAD): {
. = ALIGN(256);
*(.ram_vector_table)
} > RAM
.uninitialized_data (NOLOAD): {
. = ALIGN(4);
*(.uninitialized_data*)
} > RAM
.bss (NOLOAD) : {
. = ALIGN(4);
__bss_start__ = .;
*(SORT_BY_ALIGNMENT(SORT_BY_NAME(.bss*)))
*(COMMON)
. = ALIGN(4);
__bss_end__ = .;
} > RAM
.heap (NOLOAD):
{
__end__ = .;
end = __end__;
KEEP(*(.heap*))
__HeapLimit = .;
/* start of free RAM for memory allocator */
. = ALIGN(16);
__malloc_start__ = .;
} > RAM
/* SCRATCH_X_STACK0 must be allocated on end of RAM to ensure allocation of RAM for malloc */
/* .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 */
.stack0_dummy (COPY): /* core 0 stack (4 KB) */
{
/* end of free RAM for memory allocator */
. = ALIGN(16);
__malloc_end__ = .;
KEEP (*(.stack0*))
} > SCRATCH_X
.bootloaderdata (COPY):
{
*(.bootloaderdata)
} > BOOTLOADERRAM
.stack1_dummy (COPY): /* core 1 stack (4 KB) */
{
KEEP (*(.stack1*))
} > SCRATCH_Y
. = ALIGN(4);
.flash_end : {
__flash_binary_end = .;
} > FLASH
/* stack limit is poorly named, but historically is maximum heap ptr */
__StackLimit = ORIGIN(RAM) + LENGTH(RAM);
__Stack0Top = ORIGIN(SCRATCH_X) + LENGTH(SCRATCH_X);
__Stack1Top = ORIGIN(SCRATCH_Y) + LENGTH(SCRATCH_Y);
__Stack0Bottom = __Stack0Top - SIZEOF(.stack0_dummy);
__Stack1Bottom = __Stack1Top - SIZEOF(.stack1_dummy);
PROVIDE(__stack = __Stack0Top);
PROVIDE(__StackTop = __Stack0Top);
/* Check if data + heap + stack exceeds RAM limit */
ASSERT(__StackLimit >= __HeapLimit, "region RAM overflowed")
ASSERT(picopad_info_header - __logical_binary_start == 0xc0, "Incorrect offset of Picopad Info Header!")
ASSERT( __binary_info_header_end - __logical_binary_start <= 256, "Binary info must be in first 256 bytes of the binary")
ASSERT( __embedded_block_end - __logical_binary_start <= 4096, "Embedded block must be in first 4096 bytes of the binary")
}