/* * Copyright 2021-2023 HPMicro * SPDX-License-Identifier: BSD-3-Clause */ ENTRY(_start) STACK_SIZE = DEFINED(_stack_size) ? _stack_size : 0x4000; HEAP_SIZE = DEFINED(_heap_size) ? _heap_size : 1M; FLASH_SIZE = DEFINED(_flash_size) ? _flash_size : 16M; SDRAM_SIZE = DEFINED(_sdram_size) ? _sdram_size : 16M; NONCACHEABLE_SIZE = DEFINED(_noncacheable_size) ? _noncacheable_size : 4M; MEMORY { XPI0 (rx) : ORIGIN = 0x80000000, LENGTH = FLASH_SIZE ILM (wx) : ORIGIN = 0, LENGTH = 256K DLM (w) : ORIGIN = 0x80000, LENGTH = 256K AXI_SRAM (wx) : ORIGIN = 0x1080000, LENGTH = 1536K SDRAM (wx) : ORIGIN = 0x40000000, LENGTH = SDRAM_SIZE - NONCACHEABLE_SIZE NONCACHEABLE_RAM (wx) : ORIGIN = 0x40000000 + SDRAM_SIZE - NONCACHEABLE_SIZE, LENGTH = NONCACHEABLE_SIZE AHB_SRAM (w) : ORIGIN = 0xF0300000, LENGTH = 32k APB_SRAM (w): ORIGIN = 0xF40F0000, LENGTH = 8k } __nor_cfg_option_load_addr__ = ORIGIN(XPI0) + 0x400; __boot_header_load_addr__ = ORIGIN(XPI0) + 0x1000; __app_load_addr__ = ORIGIN(XPI0) + 0x3000; __boot_header_length__ = __boot_header_end__ - __boot_header_start__; __app_offset__ = __app_load_addr__ - __boot_header_load_addr__; SECTIONS { .nor_cfg_option __nor_cfg_option_load_addr__ : { KEEP(*(.nor_cfg_option)) } > XPI0 .boot_header __boot_header_load_addr__ : { __boot_header_start__ = .; KEEP(*(.boot_header)) KEEP(*(.fw_info_table)) KEEP(*(.dc_info)) __boot_header_end__ = .; } > XPI0 .start __app_load_addr__ : { . = ALIGN(8); KEEP(*(.start)) } > XPI0 __vector_load_addr__ = ADDR(.start) + SIZEOF(.start); .vectors : AT(__vector_load_addr__) { . = ALIGN(8); __vector_ram_start__ = .; KEEP(*(.vector_table)) KEEP(*(.isr_vector)) . = ALIGN(8); __vector_ram_end__ = .; } > AXI_SRAM .fast : AT(etext + __data_end__ - __tdata_start__) { . = ALIGN(8); __ramfunc_start__ = .; *(.fast) /* RT-Thread Core Start */ KEEP(*context_gcc.o(.text* .rodata*)) KEEP(*port*.o (.text .text* .rodata .rodata*)) KEEP(*interrupt_gcc.o (.text .text* .rodata .rodata*)) KEEP(*trap_common.o (.text .text* .rodata .rodata*)) KEEP(*irq.o (.text .text* .rodata .rodata*)) KEEP(*clock.o (.text .text* .rodata .rodata*)) KEEP(*kservice.o (.text .text* .rodata .rodata*)) KEEP(*scheduler.o (.text .text* .rodata .rodata*)) KEEP(*trap*.o (.text .text* .rodata .rodata*)) KEEP(*idle.o (.text .text* .rodata .rodata*)) KEEP(*ipc.o (.text .text* .rodata .rodata*)) KEEP(*thread.o (.text .text* .rodata .rodata*)) KEEP(*object.o (.text .text* .rodata .rodata*)) KEEP(*timer.o (.text .text* .rodata .rodata*)) KEEP(*mem.o (.text .text* .rodata .rodata*)) KEEP(*mempool.o (.text .text* .rodata .rodata*)) /* RT-Thread Core End */ /* HPMicro Driver Wrapper */ KEEP(*drv_*.o (.text .text* .rodata .rodata*)) . = ALIGN(8); __ramfunc_end__ = .; } > AXI_SRAM .text (__vector_load_addr__ + __vector_ram_end__ - __vector_ram_start__) : { . = ALIGN(8); *(.text) *(.text*) *(.rodata) *(.rodata*) *(.srodata) *(.srodata*) *(.hash) *(.dyn*) *(.gnu*) *(.pl*) KEEP(*(.eh_frame)) *(.eh_frame*) KEEP (*(.init)) KEEP (*(.fini)) . = ALIGN(8); /********************************************* * * RT-Thread related sections - Start * *********************************************/ /* section information for finsh shell */ . = ALIGN(4); __fsymtab_start = .; KEEP(*(FSymTab)) __fsymtab_end = .; . = ALIGN(4); __vsymtab_start = .; KEEP(*(VSymTab)) __vsymtab_end = .; . = ALIGN(4); . = ALIGN(4); __rt_init_start = .; KEEP(*(SORT(.rti_fn*))) __rt_init_end = .; . = ALIGN(4); /* section information for modules */ . = ALIGN(4); __rtmsymtab_start = .; KEEP(*(RTMSymTab)) __rtmsymtab_end = .; /* RT-Thread related sections - end */ } > XPI0 .rel : { KEEP(*(.rel*)) } > XPI0 PROVIDE (__etext = .); PROVIDE (_etext = .); PROVIDE (etext = .); .fast_ram (NOLOAD) : { KEEP(*(.fast_ram)) } > DLM .bss(NOLOAD) : { . = ALIGN(8); __bss_start__ = .; *(.bss) *(.bss*) *(.sbss*) *(.scommon) *(.scommon*) *(.dynsbss*) *(COMMON) . = ALIGN(8); _end = .; __bss_end__ = .; } > AXI_SRAM .tbss(NOLOAD) : { . = ALIGN(8); __tbss_start__ = .; *(.tbss*) *(.tcommon*) _end = .; __tbss_end__ = .; } > AXI_SRAM .tdata : AT(etext) { . = ALIGN(8); __tdata_start__ = .; __thread_pointer = .; *(.tdata) *(.tdata*) . = ALIGN(8); __tdata_end__ = .; } > AXI_SRAM .data : AT(etext + __tdata_end__ - __tdata_start__) { . = ALIGN(8); __data_start__ = .; __global_pointer$ = . + 0x800; *(.data) *(.data*) *(.sdata) *(.sdata*) KEEP(*(.jcr)) KEEP(*(.dynamic)) KEEP(*(.got*)) KEEP(*(.got)) KEEP(*(.gcc_except_table)) KEEP(*(.gcc_except_table.*)) . = ALIGN(8); PROVIDE(__preinit_array_start = .); KEEP(*(.preinit_array)) PROVIDE(__preinit_array_end = .); . = ALIGN(8); PROVIDE(__init_array_start = .); KEEP(*(SORT_BY_INIT_PRIORITY(.init_array.*))) KEEP(*(.init_array)) PROVIDE(__init_array_end = .); . = ALIGN(8); PROVIDE(__finit_array_start = .); KEEP(*(SORT_BY_INIT_PRIORITY(.finit_array.*))) KEEP(*(.finit_array)) PROVIDE(__finit_array_end = .); . = ALIGN(8); PROVIDE(__ctors_start__ = .); KEEP(*crtbegin*.o(.ctors)) KEEP(*(EXCLUDE_FILE (*crtend*.o) .ctors)) KEEP(*(SORT(.ctors.*))) KEEP(*(.ctors)) PROVIDE(__ctors_end__ = .); . = ALIGN(8); KEEP(*crtbegin*.o(.dtors)) KEEP(*(EXCLUDE_FILE (*crtend*.o) .dtors)) KEEP(*(SORT(.dtors.*))) KEEP(*(.dtors)) . = ALIGN(8); __data_end__ = .; PROVIDE (__edata = .); PROVIDE (_edata = .); PROVIDE (edata = .); } > AXI_SRAM __fw_size__ = __data_end__ - __tdata_start__ + etext - __app_load_addr__; .noncacheable.init : AT(etext + __data_end__ - __tdata_start__ + __ramfunc_end__ - __ramfunc_start__) { . = ALIGN(8); __noncacheable_init_start__ = .; KEEP(*(.noncacheable.init)) __noncacheable_init_end__ = .; . = ALIGN(8); } > NONCACHEABLE_RAM .noncacheable.bss (NOLOAD) : { . = ALIGN(8); KEEP(*(.noncacheable)) __noncacheable_bss_start__ = .; KEEP(*(.noncacheable.bss)) __noncacheable_bss_end__ = .; . = ALIGN(8); } > NONCACHEABLE_RAM .ahb_sram (NOLOAD) : { KEEP(*(.ahb_sram)) } > AHB_SRAM .apb_sram (NOLOAD) : { KEEP(*(.backup_sram)) } > APB_SRAM .heap(NOLOAD) : { . = ALIGN(8); __heap_start__ = .; . += HEAP_SIZE; __heap_end__ = .; } > SDRAM .framebuffer (NOLOAD) : { . = ALIGN(8); KEEP(*(.framebuffer)) . = ALIGN(8); } > SDRAM .stack(NOLOAD) : { . = ALIGN(8); __stack_base__ = .; . += STACK_SIZE; . = ALIGN(8); PROVIDE (_stack = .); PROVIDE (_stack_in_dlm = .); PROVIDE( __rt_rvstack = . ); } > AXI_SRAM __noncacheable_start__ = ORIGIN(NONCACHEABLE_RAM); __noncacheable_end__ = ORIGIN(NONCACHEABLE_RAM) + LENGTH(NONCACHEABLE_RAM); }