dnl This ld script source is fed through m4 in order to fill in
dnl those settings which depend on the configuration.
dnl Memory region sizes are set in ../include/config.m4, generated
dnl by the configuration mechanism based on the selected target,
dnl and the Makefile prepends flash.m4 or xram.m4 to select the
dnl type of image we are linking: either the regular flashable image,
dnl or a RAM-only test image (to be loaded via fc-xram) that does not
dnl touch the flash and pretends as if the flash doesn't even exist.

/*
 * FreeCalypso ld script for the Buildmem build
 */

ENTRY(ifelse(Buildmem,XRAM,_FlashorXram_entry,_Flash_boot_entry))

include(`../include/config.m4')dnl
MEMORY {
ifelse(Buildmem-FLASH_BOOT_VIA_BOOTROM,FLASH-1,
`	FLASH_OVERLAY : ORIGIN = 0, LENGTH = 0x2000')
ifelse(Buildmem,FLASH,
`	FLASH : ORIGIN = FLASHIMAGE_BASE_ADDR,
		LENGTH = CONFIG_FWFLASH_SIZE - FLASHIMAGE_BASE_ADDR')
	IRAM : ORIGIN = 0x00800000, LENGTH = CONFIG_IRAM_SIZE
	XRAM : ORIGIN = 0x01000000, LENGTH = CONFIG_XRAM_SIZE
}
ifelse(FFS_IN_RAM,1,`
RAMFFS_BLKSIZE_BYTES = 1 << RAMFFS_BLKSIZE_LOG2;
RAMFFS_TOTAL_SIZE = RAMFFS_BLKSIZE_BYTES * RAMFFS_NBLOCKS;
')dnl

SECTIONS {
ifelse(Buildmem,FLASH,`
	/* Flash boot entry point */
	flashboot.text FLASHIMAGE_BASE_ADDR : {
		*(flashboot.text)
	} > FLASH
')dnl

	/* XIP code, going into flash or XRAM emulating flash */
	xip.text : {
		*(xip.text*)
		xipcode.o(.text*)
		*libplus.xip.a:(.text*)
		*libgpf.xip.a:(.text*)
		*librv.a:(.text*)
		*libsprintf.a:(.text*)
		/* let's put the ARM->Thumb veneers in the XIP section */
		*(.glue_7)
	} > Buildmem

	/* copy-to-IRAM code */
	iram.text 0x80001C : {
		/* the 7 exception and interrupt vectors @ 0x80001C */
		*(iram.vectors)
		*(iram.text*)
		iramcode.o(.text*)
		*libplus.iram.a:(.text*)
		*libgpf.iram.a:(.text*)
		*libc.a:(.text*)
		*libgcc.a:(.text*)
	} > IRAM Put_in_flash
ifelse(Buildmem,FLASH,
`	__iramtext_ram_addr = ADDR(iram.text);
	__iramtext_flash_addr = LOADADDR(iram.text);
	__iramtext_size = SIZEOF(iram.text);
')dnl

	/* all .rodata will stay in flash */
	.rodata : {
		*(.rodata*)
	} > Buildmem

	/*
	 * All .data will go into XRAM.
	 * For the flash build we'll have a step that copies
	 * the .data section from flash to XRAM; for the RAM-only
	 * build it goes directly into XRAM and stays there.
	 */
	.data : {
		*(.data*)
	} > XRAM Put_in_flash
ifelse(Buildmem,FLASH,
`	__initdata_ram_addr = ADDR(.data);
	__initdata_flash_addr = LOADADDR(.data);
	__initdata_size = SIZEOF(.data);
')dnl

	/* we have two kinds of BSS: internal and external */
	int.bss (NOLOAD) : {
		*(int.bss*)
		*(.l1s_global)
		iramcode.o(.bss* COMMON)
		*libplus.iram.a:(.bss* COMMON)
		*libgpf.iram.a:(.bss* COMMON)
		*libc.a:(.bss* COMMON)
		*libgcc.a:(.bss* COMMON)
		. = ALIGN(4);
	} > IRAM
	__intbss_start = ADDR(int.bss);
	__intbss_size = SIZEOF(int.bss);

	ext.bss (NOLOAD) : {
		*(ext.bss*)
		xipcode.o(.bss* COMMON)
		*libplus.xip.a:(.bss* COMMON)
		*libgpf.xip.a:(.bss* COMMON)
		*librv.a:(.bss* COMMON)
		*libsprintf.a:(.bss* COMMON)
		. = ALIGN(4);
	} > XRAM
	__extbss_start = ADDR(ext.bss);
	__extbss_size = SIZEOF(ext.bss);

	/* finally, we have "raw RAM": like BSS, but we don't zero it out */
	int.ram (NOLOAD) : {
		*(int.ram*)
		*(system_stack)
		*(irq_stack)
		*(fiq_stack)
		*(timer_hisr_stack)
		. = ALIGN(4);
		_iram_end = .;
	} > IRAM

	ext.ram (NOLOAD) : {
		*(ext.ram*)
		*(except_stack)
		. = ALIGN(4);
ifelse(FFS_IN_RAM,1,
`		_RAMFFS_area = .;
		. += RAMFFS_TOTAL_SIZE;
')dnl
		_xram_end = .;
	} > XRAM
}