rt-thread-official/bsp/Infineon/psoc6-cy8ckit-062-BLE/board/linker_scripts/link.sct

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#! armclang -E --target=arm-arm-none-eabi -x c -mcpu=cortex-m4
; The first line specifies a preprocessor command that the linker invokes
; to pass a scatter file through a C preprocessor.
;*******************************************************************************
;* \file cy8c6xx7_cm4_dual.sct
;* \version 2.91
;*
;* Linker file for the ARMCC.
;*
;* The main purpose of the linker script is to describe how the sections in the
;* input files should be mapped into the output file, and to control the memory
;* layout of the output file.
;*
;* \note The entry point location is fixed and starts at 0x10000000. The valid
;* application image should be placed there.
;*
;* \note The linker files included with the PDL template projects must be
;* generic and handle all common use cases. Your project may not use every
;* section defined in the linker files. In that case you may see the warnings
;* during the build process: L6314W (no section matches pattern) and/or L6329W
;* (pattern only matches removed unused sections). In your project, you can
;* suppress the warning by passing the "--diag_suppress=L6314W,L6329W" option to
;* the linker, simply comment out or remove the relevant code in the linker
;* file.
;*
;*******************************************************************************
;* \copyright
;* Copyright 2016-2021 Cypress Semiconductor Corporation
;* SPDX-License-Identifier: Apache-2.0
;*
;* 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
;*
;* http://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.
;******************************************************************************/
; The defines below describe the location and size of blocks of memory in the target.
; Use these defines to specify the memory regions available for allocation.
; The following defines control RAM and flash memory allocation for the CM4 core.
; You can change the memory allocation by editing RAM and Flash defines.
; Note that 2 KB of RAM (at the end of the SRAM) are reserved for system use.
; Using this memory region for other purposes will lead to unexpected behavior.
; Your changes must be aligned with the corresponding defines for CM0+ core in 'xx_cm0plus.scat',
; where 'xx' is the device group; for example, 'cy8c6xx7_cm0plus.scat'.
; RAM
#define RAM_START 0x08002000
#define RAM_SIZE 0x00045800
; Flash
#define FLASH_START 0x10000000
#define FLASH_SIZE 0x00100000
; The size of the stack section at the end of CM4 SRAM
#define STACK_SIZE 0x00001000
; By default, the COMPONENT_CM0P_SLEEP prebuilt image is used for the CM0p core.
; More about CM0+ prebuilt images, see here:
; https://github.com/cypresssemiconductorco/psoc6cm0p
; The size of the Cortex-M0+ application flash image
#define FLASH_CM0P_SIZE 0x2000
; The following defines describe a 32K flash region used for EEPROM emulation.
; This region can also be used as the general purpose flash.
; You can assign sections to this memory region for only one of the cores.
; Note some middleware (e.g. BLE, Emulated EEPROM) can place their data into this memory region.
; Therefore, repurposing this memory region will prevent such middleware from operation.
#define EM_EEPROM_START 0x14000000
#define EM_EEPROM_SIZE 0x8000
; The following defines describe device specific memory regions and must not be changed.
; Supervisory flash: User data
#define SFLASH_USER_DATA_START 0x16000800
#define SFLASH_USER_DATA_SIZE 0x00000800
; Supervisory flash: Normal Access Restrictions (NAR)
#define SFLASH_NAR_START 0x16001A00
#define SFLASH_NAR_SIZE 0x00000200
; Supervisory flash: Public Key
#define SFLASH_PUBLIC_KEY_START 0x16005A00
#define SFLASH_PUBLIC_KEY_SIZE 0x00000C00
; Supervisory flash: Table of Content # 2
#define SFLASH_TOC_2_START 0x16007C00
#define SFLASH_TOC_2_SIZE 0x00000200
; Supervisory flash: Table of Content # 2 Copy
#define SFLASH_RTOC_2_START 0x16007E00
#define SFLASH_RTOC_2_SIZE 0x00000200
; External memory
#define XIP_START 0x18000000
#define XIP_SIZE 0x08000000
; eFuse
#define EFUSE_START 0x90700000
#define EFUSE_SIZE 0x100000
; Cortex-M0+ application flash image area
LR_IROM FLASH_START FLASH_CM0P_SIZE
{
.cy_m0p_image +0 FLASH_CM0P_SIZE
{
* (.cy_m0p_image)
}
}
; Cortex-M4 application flash area
LR_IROM1 (FLASH_START + FLASH_CM0P_SIZE) (FLASH_SIZE - FLASH_CM0P_SIZE)
{
ER_FLASH_VECTORS +0
{
* (RESET, +FIRST)
}
ER_FLASH_CODE +0 FIXED
{
* (InRoot$$Sections)
* (+RO)
}
ER_RAM_VECTORS RAM_START UNINIT
{
* (RESET_RAM, +FIRST)
}
RW_RAM_DATA +0
{
* (.cy_ramfunc)
* (+RW, +ZI)
}
; Place variables in the section that should not be initialized during the
; device startup.
RW_IRAM1 +0 UNINIT
{
* (.noinit)
}
; Application heap area (HEAP)
ARM_LIB_HEAP +0 EMPTY ((RAM_START+RAM_SIZE)-AlignExpr(ImageLimit(RW_IRAM1), 8)-STACK_SIZE)
{
}
; Stack region growing down
ARM_LIB_STACK (RAM_START+RAM_SIZE) EMPTY -STACK_SIZE
{
}
; Used for the digital signature of the secure application and the
; Bootloader SDK application. The size of the section depends on the required
; data size.
.cy_app_signature (FLASH_START + FLASH_SIZE - 256) 256
{
* (.cy_app_signature)
}
}
; Emulated EEPROM Flash area
LR_EM_EEPROM EM_EEPROM_START EM_EEPROM_SIZE
{
.cy_em_eeprom +0
{
* (.cy_em_eeprom)
}
}
; Supervisory flash: User data
LR_SFLASH_USER_DATA SFLASH_USER_DATA_START SFLASH_USER_DATA_SIZE
{
.cy_sflash_user_data +0
{
* (.cy_sflash_user_data)
}
}
; Supervisory flash: Normal Access Restrictions (NAR)
LR_SFLASH_NAR SFLASH_NAR_START SFLASH_NAR_SIZE
{
.cy_sflash_nar +0
{
* (.cy_sflash_nar)
}
}
; Supervisory flash: Public Key
LR_SFLASH_PUBLIC_KEY SFLASH_PUBLIC_KEY_START SFLASH_PUBLIC_KEY_SIZE
{
.cy_sflash_public_key +0
{
* (.cy_sflash_public_key)
}
}
; Supervisory flash: Table of Content # 2
LR_SFLASH_TOC_2 SFLASH_TOC_2_START SFLASH_TOC_2_SIZE
{
.cy_toc_part2 +0
{
* (.cy_toc_part2)
}
}
; Supervisory flash: Table of Content # 2 Copy
LR_SFLASH_RTOC_2 SFLASH_RTOC_2_START SFLASH_RTOC_2_SIZE
{
.cy_rtoc_part2 +0
{
* (.cy_rtoc_part2)
}
}
; Places the code in the Execute in Place (XIP) section. See the smif driver documentation for details.
LR_EROM XIP_START XIP_SIZE
{
cy_xip +0
{
* (.cy_xip)
}
}
; eFuse
LR_EFUSE EFUSE_START EFUSE_SIZE
{
.cy_efuse +0
{
* (.cy_efuse)
}
}
; The section is used for additional metadata (silicon revision, Silicon/JTAG ID, etc.) storage.
CYMETA 0x90500000
{
.cymeta +0 { * (.cymeta) }
}
/* The following symbols used by the cymcuelftool. */
/* Flash */
#define __cy_memory_0_start 0x10000000
#define __cy_memory_0_length 0x00100000
#define __cy_memory_0_row_size 0x200
/* Emulated EEPROM Flash area */
#define __cy_memory_1_start 0x14000000
#define __cy_memory_1_length 0x8000
#define __cy_memory_1_row_size 0x200
/* Supervisory Flash */
#define __cy_memory_2_start 0x16000000
#define __cy_memory_2_length 0x8000
#define __cy_memory_2_row_size 0x200
/* XIP */
#define __cy_memory_3_start 0x18000000
#define __cy_memory_3_length 0x08000000
#define __cy_memory_3_row_size 0x200
/* eFuse */
#define __cy_memory_4_start 0x90700000
#define __cy_memory_4_length 0x100000
#define __cy_memory_4_row_size 1
/* [] END OF FILE */