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/*
* Copyright 2021 The Pigweed Authors
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not
* use this file except in compliance with the License. You may obtain a copy of
* the License at
*
* https://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations under
* the License.
*/
/* This linker script is derived from pw_boot_cortex_m/basic_cortex_m.ld for use
* with the NXP MIMXRT595-EVK, booting from FLASH.
*/
/* Provide useful error messages when required configurations are not set. */
#ifndef PW_BOOT_VECTOR_TABLE_BEGIN
#error "PW_BOOT_VECTOR_TABLE_BEGIN is not defined, and is required to use pw_boot_cortex_m"
#endif // PW_BOOT_VECTOR_TABLE_BEGIN
#ifndef PW_BOOT_VECTOR_TABLE_SIZE
#error "PW_BOOT_VECTOR_TABLE_SIZE is not defined, and is required to use pw_boot_cortex_m"
#endif // PW_BOOT_VECTOR_TABLE_SIZE
#ifndef PW_BOOT_FLASH_BEGIN
#error "PW_BOOT_FLASH_BEGIN is not defined, and is required to use pw_boot_cortex_m"
#endif // PW_BOOT_FLASH_BEGIN
#ifndef PW_BOOT_FLASH_SIZE
#error "PW_BOOT_FLASH_SIZE is not defined, and is required to use pw_boot_cortex_m"
#endif // PW_BOOT_FLASH_SIZE
#ifndef PW_BOOT_RAM_BEGIN
#error "PW_BOOT_RAM_BEGIN is not defined, and is required to use pw_boot_cortex_m"
#endif // PW_BOOT_RAM_BEGIN
#ifndef PW_BOOT_RAM_SIZE
#error "PW_BOOT_RAM_SIZE is not defined, and is required to use pw_boot_cortex_m"
#endif // PW_BOOT_RAM_SIZE
#ifndef PW_BOOT_HEAP_SIZE
#error "PW_BOOT_HEAP_SIZE is not defined, and is required to use pw_boot_cortex_m"
#endif // PW_BOOT_HEAP_SIZE
#ifndef PW_BOOT_MIN_STACK_SIZE
#error "PW_BOOT_MIN_STACK_SIZE is not defined, and is required to use pw_boot_cortex_m"
#endif // PW_BOOT_MIN_STACK_SIZE
/* Note: This technically doesn't set the firmware's entry point. Setting the
* firmware entry point is done by setting vector_table[1]
* (Reset_Handler). However, this DOES tell the compiler how to optimize
* when --gc-sections is enabled.
*/
ENTRY(pw_boot_Entry)
MEMORY
{
/* Flash Config for bootloader */
FLASH_CONFIG(rx) : \
ORIGIN = 0x08000400, \
LENGTH = 0x00000200
/* Vector Table (typically in flash) */
VECTOR_TABLE(rx) : \
ORIGIN = PW_BOOT_VECTOR_TABLE_BEGIN, \
LENGTH = PW_BOOT_VECTOR_TABLE_SIZE
/* Internal Flash */
FLASH(rx) : \
ORIGIN = PW_BOOT_FLASH_BEGIN, \
LENGTH = PW_BOOT_FLASH_SIZE
/* Internal SRAM */
RAM(rwx) : \
ORIGIN = PW_BOOT_RAM_BEGIN, \
LENGTH = PW_BOOT_RAM_SIZE
/* USB SRAM */
USB_SRAM(rw) : \
ORIGIN = 0x40140000, \
LENGTH = 0x00004000
/* Each memory region above has an associated .*.unused_space section that
* overlays the unused space at the end of the memory segment. These segments
* are used by pw_bloat.bloaty_config to create the utilization data source
* for bloaty size reports.
*
* These sections MUST be located immediately after the last section that is
* placed in the respective memory region or lld will issue a warning like:
*
* warning: ignoring memory region assignment for non-allocatable section
* '.VECTOR_TABLE.unused_space'
*
* If this warning occurs, it's also likely that LLD will have created quite
* large padded regions in the ELF file due to bad cursor operations. This
* can cause ELF files to balloon from hundreds of kilobytes to hundreds of
* megabytes.
*
* Attempting to add sections to the memory region AFTER the unused_space
* section will cause the region to overflow.
*/
}
SECTIONS
{
.flash_config :
{
. = ALIGN(4);
KEEP(*(.flash_conf))
} >FLASH_CONFIG
/* This is the link-time vector table. If used, the VTOR (Vector Table Offset
* Register) MUST point to this memory location in order to be used. This can
* be done by ensuring this section exists at the default location of the VTOR
* so it's used on reset, or by explicitly setting the VTOR in a bootloader
* manually to point to &pw_boot_vector_table_addr before interrupts are
* enabled.
*
* The ARMv8-M architecture requires this is at least aligned to 128 bytes,
* and aligned to a power of two that is greater than 4 times the number of
* supported exceptions. 512 has been selected as it accommodates this
* device's vector table.
*/
.vector_table : ALIGN(512)
{
pw_boot_vector_table_addr = .;
KEEP(*(.vector_table))
} >VECTOR_TABLE
/* Represents unused space in the VECTOR_TABLE segment. This MUST be the last
* section assigned to the VECTOR_TABLE region.
*/
.VECTOR_TABLE.unused_space (NOLOAD) : ALIGN(4)
{
. = ABSOLUTE(ORIGIN(VECTOR_TABLE) + LENGTH(VECTOR_TABLE));
} >VECTOR_TABLE
/* Main executable code. */
.code : ALIGN(4)
{
. = ALIGN(4);
/* Application code. */
*(.text)
*(.text*)
KEEP(*(.init))
KEEP(*(.fini))
. = ALIGN(4);
/* Constants.*/
*(.rodata)
*(.rodata*)
/* Glue ARM to Thumb code, and vice-versa */
*(.glue_7)
*(.glue_7t)
/* Exception handling frame */
*(.eh_frame)
/* .preinit_array, .init_array, .fini_array are used by libc.
* Each section is a list of function pointers that are called pre-main and
* post-exit for object initialization and tear-down.
* Since the region isn't explicitly referenced, specify KEEP to prevent
* link-time garbage collection. SORT is used for sections that have strict
* init/de-init ordering requirements. */
. = ALIGN(4);
PROVIDE_HIDDEN(__preinit_array_start = .);
KEEP(*(.preinit_array*))
PROVIDE_HIDDEN(__preinit_array_end = .);
PROVIDE_HIDDEN(__init_array_start = .);
KEEP(*(SORT(.init_array.*)))
KEEP(*(.init_array*))
PROVIDE_HIDDEN(__init_array_end = .);
PROVIDE_HIDDEN(__fini_array_start = .);
KEEP(*(SORT(.fini_array.*)))
KEEP(*(.fini_array*))
PROVIDE_HIDDEN(__fini_array_end = .);
} >FLASH
/* Used by unwind-arm/ */
.ARM : ALIGN(4) {
__exidx_start = .;
*(.ARM.exidx*)
__exidx_end = .;
} >FLASH
/* Explicitly initialized global and static data. (.data)*/
.static_init_ram : ALIGN(4)
{
*(CodeQuickAccess)
*(DataQuickAccess)
*(.data)
*(.data*)
. = ALIGN(4);
} >RAM AT> FLASH
/* Represents unused space in the FLASH segment. This MUST be the last section
* assigned to the FLASH region.
*/
.FLASH.unused_space (NOLOAD) : ALIGN(4)
{
. = ABSOLUTE(ORIGIN(FLASH) + LENGTH(FLASH));
} >FLASH
/* The .zero_init_ram, .heap, and .stack sections below require (NOLOAD)
* annotations for LLVM lld, but not GNU ld, because LLVM's lld intentionally
* interprets the linker file differently from ld:
*
* https://discourse.llvm.org/t/lld-vs-ld-section-type-progbits-vs-nobits/5999/3
*
* Zero initialized global/static data (.bss) is initialized in
* pw_boot_Entry() via memset(), so the section doesn't need to be loaded from
* flash. The .heap and .stack sections don't require any initialization,
* as they only represent allocated memory regions, so they also do not need
* to be loaded.
*/
.zero_init_ram (NOLOAD) : ALIGN(4)
{
*(.bss)
*(.bss*)
*(COMMON)
. = ALIGN(4);
} >RAM
.heap (NOLOAD) : ALIGN(4)
{
pw_boot_heap_low_addr = .;
. = . + PW_BOOT_HEAP_SIZE;
. = ALIGN(4);
pw_boot_heap_high_addr = .;
} >RAM
/* Link-time check for stack overlaps.
*
* The ARMv8-M architecture requires 8-byte alignment of the stack pointer
* rather than 4 in some contexts, so this region is 8-byte aligned (see
* ARMv8-M Architecture Reference Manual DDI0553 section B3.8).
*/
.stack (NOLOAD) : ALIGN(8)
{
/* Set the address that the main stack pointer should be initialized to. */
pw_boot_stack_low_addr = .;
HIDDEN(_stack_size = ORIGIN(RAM) + LENGTH(RAM) - .);
/* Align the stack to a lower address to ensure it isn't out of range. */
HIDDEN(_stack_high = (. + _stack_size) & ~0x7);
ASSERT(_stack_high - . >= PW_BOOT_MIN_STACK_SIZE,
"Error: Not enough RAM for desired minimum stack size.");
. = _stack_high;
pw_boot_stack_high_addr = .;
} >RAM
/* Represents unused space in the RAM segment. This MUST be the last section
* assigned to the RAM region.
*/
.RAM.unused_space (NOLOAD) : ALIGN(4)
{
. = ABSOLUTE(ORIGIN(RAM) + LENGTH(RAM));
} >RAM
m_usb_bdt (NOLOAD) :
{
. = ALIGN(512);
*(m_usb_bdt)
} >USB_SRAM
m_usb_global (NOLOAD) :
{
*(m_usb_global)
} >USB_SRAM
/* Represents unused space in the USB_SRAM segment. This MUST be the last
* section assigned to the USB_SRAM region.
*/
.USB_SRAM.unused_space (NOLOAD) : ALIGN(4)
{
. = ABSOLUTE(ORIGIN(USB_SRAM) + LENGTH(USB_SRAM));
} >USB_SRAM
/* Discard unwind info. */
.ARM.extab 0x0 (INFO) :
{
KEEP(*(.ARM.extab*))
}
.ARM.attributes 0 : { *(.ARM.attributes) }
}
/* Symbols used by core_init.c: */
/* Start of .static_init_ram in FLASH. */
_pw_static_init_flash_start = LOADADDR(.static_init_ram);
/* Region of .static_init_ram in RAM. */
_pw_static_init_ram_start = ADDR(.static_init_ram);
_pw_static_init_ram_end = _pw_static_init_ram_start + SIZEOF(.static_init_ram);
/* Region of .zero_init_ram. */
_pw_zero_init_ram_start = ADDR(.zero_init_ram);
_pw_zero_init_ram_end = _pw_zero_init_ram_start + SIZEOF(.zero_init_ram);
/* Size of image for bootloader header. */
_pw_image_size = _pw_static_init_flash_start + (_pw_static_init_ram_end - _pw_static_init_ram_start) - pw_boot_vector_table_addr;
/* arm-none-eabi expects `end` symbol to point to start of heap for sbrk. */
PROVIDE(end = _pw_zero_init_ram_end);