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lock_lfvx/bk_idk/middleware/soc/bk7236/bk7236_bsp.ld
helloyifa 40580710f2 first commit
2025-10-10 16:07:00 +08:00

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/*
* Copyright (C), 2018-2019, Arm Technology (China) Co., Ltd.
* All rights reserved
*
* The content of this file or document is CONFIDENTIAL and PROPRIETARY
* to Arm Technology (China) Co., Ltd. It is subject to the terms of a
* License Agreement between Licensee and Arm Technology (China) Co., Ltd
* restricting among other things, the use, reproduction, distribution
* and transfer. Each of the embodiments, including this information and,,
* any derivative work shall retain this copyright notice.
*/
#include "soc/bk7236/reg_base.h"
#include "partitions.h"
#include "sdkconfig.h"
#if (CONFIG_SOC_SMP)
#include "cpu_id.h"
#endif
OUTPUT_FORMAT("elf32-littlearm", "elf32-bigarm", "elf32-littlearm")
__MSP_STACK_SIZE = (4 << 10);
__MIN_HEAP_SIZE = (90 << 10);
__MPU_PROTECT_SIZE = 0x0;
__SWAP_SIZE = (0);
#if CONFIG_CPU0_SRAM_BASE
__CPU0_APP_RAM_BASE = CONFIG_CPU0_SRAM_BASE;
#elif CONFIG_SPE
__CPU0_APP_RAM_BASE = SOC_SRAM0_DATA_BASE;
#else
__CPU0_APP_RAM_BASE = SOC_SRAM0_DATA_BASE + CONFIG_CPU0_SPE_RAM_SIZE;
#endif
#if CONFIG_SPE
__CPU0_APP_RAM_SIZE = CONFIG_CPU0_SPE_RAM_SIZE;
#else
__CPU0_APP_RAM_SIZE = 0xA0000 - CONFIG_CPU0_SPE_RAM_SIZE;
#endif
/*****************************************************************************
The follow four shared memory address area mapping to the same physical memory
0x08000000 ~ 0x080a0000 ---- instruction area, recommend put sram code
0x18000000 ~ 0x180a0000 ---- instruction area, recommend put sram code
0x28000000 ~ 0x280a0000 ---- data area, recommend put sram data
0x38000000 ~ 0x380a0000 ---- data area, recommend put sram data
******************************************************************************/
__CPU0_APP_IRAM_OFFSET = 0x20000000;
__CPU0_APP_IRAM_BASE = __CPU0_APP_RAM_BASE - __CPU0_APP_IRAM_OFFSET; /*0x08000000 = 0x28000000 - __CPU0_APP_IRAM_OFFSET*/
__CPU0_APP_IRAM_SIZE = __CPU0_APP_RAM_SIZE;
__CPU0_APP_VIRTUAL_CODE_START = CONFIG_PRIMARY_CPU0_APP_VIRTUAL_CODE_START;
__CPU0_APP_VIRTUAL_CODE_SIZE = CONFIG_PRIMARY_CPU0_APP_VIRTUAL_CODE_SIZE;
MEMORY
{
FLASH (rx) : ORIGIN = (SOC_FLASH_DATA_BASE + __CPU0_APP_VIRTUAL_CODE_START), LENGTH = __CPU0_APP_VIRTUAL_CODE_SIZE
IRAM (rx) : ORIGIN = __CPU0_APP_IRAM_BASE, LENGTH = __CPU0_APP_IRAM_SIZE
RAM (rwx) : ORIGIN = __CPU0_APP_RAM_BASE, LENGTH = __CPU0_APP_RAM_SIZE - __SWAP_SIZE
SWAP (rwx) : ORIGIN = __CPU0_APP_RAM_BASE + __CPU0_APP_RAM_SIZE - __SWAP_SIZE, LENGTH = __SWAP_SIZE
#if (CONFIG_SOC_SMP)
ITCM0 (rwx) : ORIGIN = SOC_ITCM_DATA_BASE + __MPU_PROTECT_SIZE, LENGTH = CONFIG_ITCM_SIZE - __MPU_PROTECT_SIZE
DTCM0 (rwx) : ORIGIN = SOC_DTCM_DATA_BASE + CPU_ID_SPACE_SIZE, LENGTH = CONFIG_DTCM_SIZE - CPU_ID_SPACE_SIZE
ITCM1 (rwx) : ORIGIN = SOC_ITCM_DATA_BASE + __MPU_PROTECT_SIZE, LENGTH = CONFIG_ITCM_SIZE - __MPU_PROTECT_SIZE
DTCM1 (rwx) : ORIGIN = SOC_DTCM_DATA_BASE + CPU_ID_SPACE_SIZE, LENGTH = CONFIG_DTCM_SIZE - CPU_ID_SPACE_SIZE
ITCM2 (rwx) : ORIGIN = SOC_ITCM_DATA_BASE + __MPU_PROTECT_SIZE, LENGTH = CONFIG_ITCM_SIZE - __MPU_PROTECT_SIZE
DTCM2 (rwx) : ORIGIN = SOC_DTCM_DATA_BASE + CPU_ID_SPACE_SIZE, LENGTH = CONFIG_DTCM_SIZE - CPU_ID_SPACE_SIZE
#else
ITCM (rwx) : ORIGIN = SOC_ITCM_DATA_BASE + __MPU_PROTECT_SIZE, LENGTH = CONFIG_ITCM_SIZE - __MPU_PROTECT_SIZE
DTCM (rwx) : ORIGIN = SOC_DTCM_DATA_BASE + 0, LENGTH = CONFIG_DTCM_SIZE
#endif
PSRAM (rwx) : ORIGIN = SOC_PSRAM_DATA_BASE, LENGTH = 0x4000000
}
#if (CONFIG_SOC_SMP)
ENTRY(Reset_Handler_Cpu0)
#else
ENTRY(Reset_Handler)
#endif
SECTIONS
{
ASSERT((. == ALIGN(512)), "vector table address align fault.")
.vectors :
{
#if (CONFIG_SOC_SMP)
__vector_core0_table = .;
KEEP(*(.vectors_core0))
. = ALIGN(512);
__vector_core1_table = .;
KEEP(*(.vectors_core1))
. = ALIGN(512);
__vector_core2_table = .;
KEEP(*(.vectors_core2))
. = ALIGN(512);
#else
__vector_table = .;
KEEP(*(.vectors))
*(.fix.reset_entry)
#endif
} > FLASH
.gnu.sgstubs ALIGN(32) : ALIGN(32)
{
*(.gnu.sgstubs*)
. = ALIGN(32);
} > FLASH
.text :
{
. = ALIGN(4);
_stext = .;
#if CONFIG_SPE
EXCLUDE_FILE
(
*tasks.c.obj *queue.c.obj *list.c.obj *timers.c.obj *port.c.obj *rtos_pub.c.obj *heap_4.c.obj *mem_arch.c.obj *gpio_driver_base.c.obj *flash_driver.c.obj *ckmn_driver.c.obj *arch_interrupt.c.obj *hal_machw.c.obj *interrupts.c.obj
*rw_task.c.obj *me_strategy.c.obj *chan.c.obj *vif_mgmt.c.obj *rxl_cntrl.c.obj *rxl_hwdesc.c.obj *mm_timer.c.obj *ke_event.c.obj *rwnx.c.obj *rwnx_rx.c.obj *ps.c.obj *mm.c.obj *rf_cntrl.c.obj *mcc.c.obj
*phy_karst_bk7236.c.obj *crm.c.obj *bk7236_cal.c.obj *manual_cal_bk7236.c.obj *bk_cal_common.c.obj *nv_parameters.c.obj *macif_fhost.c.obj *rc_driver.c.obj *sys_wifi_driver.c.obj *wifi_v2.c.obj *bk_feature.c.obj
*pm.c.obj *sys_ps_driver.c.obj *sys_pm_hal.c.obj *bk_wifi_adapter.c.obj *net_param.c.obj *wifi_api_wrapper.c.obj *bk_rf_adapter.c.obj *bk_phy_adapter.c.obj
*shell_task.c.obj *shell_uart.c.obj *uart_driver.c.obj *uart_hal.c.obj
)
*(.text.* *.rodata *.rodata.*)
#else
*(.text)
*(.text.*)
*(.rodata)
*(.rodata.*)
#endif
. = ALIGN(4);
__devconfig_start = .;
*(".devconfig.*")
KEEP(*(SORT_BY_NAME(".devconfig*")))
__devconfig_end = .;
. = ALIGN(4);
__apps_start = .;
KEEP (*(.apps_data))
__apps_end = .;
_etext = .;
. = ALIGN(4);
} > FLASH
.a_device_null :
{
KEEP(*(.a_deviceobj_null))
} > FLASH
.a_devices :
{
__device_start = .;
KEEP(*(.a_deviceobj_*))
__device_end = .;
} > FLASH
.a_init_entries :
{
__a_init_start = .;
KEEP(*(.a_init_entry_*))
__a_init_end = .;
} > FLASH
.ARM.extab :
{
*(.ARM.extab* .gnu.linkonce.armextab.*)
. = ALIGN(4);
} > FLASH
__exidx_start = .;
.ARM.exidx :
{
*(.ARM.exidx* .gnu.linkonce.armexidx.*)
} > FLASH
__exidx_end = .;
.copy.table :
{
. = ALIGN(4);
__copy_table_start__ = .;
LONG (__iram_flash_begin)
LONG (__iram_start__)
LONG ((__iram_end__ - __iram_start__) / 4)
LONG (__data_flash_begin)
LONG (__data_start__)
LONG ((__data_end__ - __data_start__) / 4)
LONG (__video_cache_text)
LONG (__video_cache_data_start__)
LONG ((__video_cache_data_end__ - __video_cache_data_start__) / 4)
#if ((!defined(CONFIG_SOC_SMP)) || (0 == CONFIG_SOC_SMP))
LONG (__itcm_text)
LONG (__itcm_start__)
LONG ((__itcm_end__ - __itcm_start__) / 4)
LONG (__dtcm_content)
LONG (__dtcm_start__)
LONG ((__dtcm_end__ - __dtcm_start__) / 4)
#endif
#if CONFIG_SPINLOCK_SECTION
LONG (__spinlock_begin)
LONG (_spinlock_start)
LONG ((_spinlock_end - _spinlock_start) / 4)
#endif
__copy_table_end__ = .;
} > FLASH
.zero.table :
{
. = ALIGN(4);
__zero_table_start__ = .;
LONG (_bss_start)
LONG ((_bss_end - _bss_start) / 4)
LONG (_heap_start)
LONG ((_heap_end - _heap_start) / 4)
/* Add each additional bss section here */
LONG (__video_cache_bss_start__)
LONG ((__video_cache_bss_end__ - __video_cache_bss_start__) / 4)
__zero_table_end__ = .;
} > FLASH
#if (CONFIG_SOC_SMP)
.tcm.copy.table :
{
. = ALIGN(4);
__tcm_copy_table_start__ = .;
LONG (tcm_cpu0_core_id)
LONG (__itcm_cpu0_text)
LONG (__itcm_cpu0_start__)
LONG ((__itcm_cpu0_end__ - __itcm_cpu0_start__) / 4)
LONG (tcm_cpu0_core_id)
LONG (__dtcm_cpu0_content)
LONG (__dtcm_cpu0_start__)
LONG ((__dtcm_cpu0_end__ - __dtcm_cpu0_start__) / 4)
LONG (tcm_cpu1_core_id)
LONG (__itcm_cpu1_text)
LONG (__itcm_cpu1_start__)
LONG ((__itcm_cpu1_end__ - __itcm_cpu1_start__) / 4)
LONG (tcm_cpu1_core_id)
LONG (__dtcm_cpu1_content)
LONG (__dtcm_cpu1_start__)
LONG ((__dtcm_cpu1_end__ - __dtcm_cpu1_start__) / 4)
LONG (tcm_cpu2_core_id)
LONG (__itcm_cpu2_text)
LONG (__itcm_cpu2_start__)
LONG ((__itcm_cpu2_end__ - __itcm_cpu2_start__) / 4)
LONG (tcm_cpu2_core_id)
LONG (__dtcm_cpu2_content)
LONG (__dtcm_cpu2_start__)
LONG ((__dtcm_cpu2_end__ - __dtcm_cpu2_start__) / 4)
__tcm_copy_table_end__ = .;
} > FLASH
tcm_cpu0_core_id = CPU0_CORE_ID;
.itcm_cpu0 :
{
. = ALIGN(4);
PROVIDE(__itcm_cpu0_text = LOADADDR(.itcm_cpu0));
__itcm_cpu0_start__ = .;
KEEP(*(.null_trap_handler))
*(.itcm_cpu0)
. = ALIGN(4);
__itcm_cpu0_end__ = .;
} > ITCM0 AT > FLASH
.dtcm_cpu0 :
{
. = ALIGN(4);
PROVIDE(__dtcm_cpu0_content = LOADADDR(.dtcm_cpu0));
__dtcm_cpu0_start__ = .;
*(.dtcm_cpu0)
. = ALIGN(4);
__dtcm_cpu0_end__ = .;
} > DTCM0 AT > FLASH
tcm_cpu1_core_id = CPU1_CORE_ID;
.itcm_cpu1 :
{
. = ALIGN(4);
PROVIDE(__itcm_cpu1_text = LOADADDR(.itcm_cpu1));
__itcm_cpu1_start__ = .;
KEEP(*(.null_trap_handler))
*(.itcm_cpu1)
. = ALIGN(4);
__itcm_cpu1_end__ = .;
} > ITCM1 AT > FLASH
.dtcm_cpu1 :
{
. = ALIGN(4);
PROVIDE(__dtcm_cpu1_content = LOADADDR(.dtcm_cpu1));
__dtcm_cpu1_start__ = .;
*(.dtcm_cpu1)
. = ALIGN(4);
__dtcm_cpu1_end__ = .;
} > DTCM1 AT > FLASH
tcm_cpu2_core_id = CPU2_CORE_ID;
.itcm_cpu2 :
{
. = ALIGN(4);
PROVIDE(__itcm_cpu2_text = LOADADDR(.itcm_cpu2));
__itcm_cpu2_start__ = .;
KEEP(*(.null_trap_handler))
*(.itcm_cpu2)
. = ALIGN(4);
__itcm_cpu2_end__ = .;
} > ITCM2 AT > FLASH
.dtcm_cpu2 :
{
. = ALIGN(4);
PROVIDE(__dtcm_cpu2_content = LOADADDR(.dtcm_cpu2));
__dtcm_cpu2_start__ = .;
*(.dtcm_cpu2)
. = ALIGN(4);
__dtcm_cpu2_end__ = .;
} > DTCM2 AT > FLASH
#else
.itcm :
{
. = ALIGN(4);
PROVIDE(__itcm_text = LOADADDR(.itcm));
__itcm_start__ = .;
KEEP(*(.null_trap_handler))
*(.itcm_section*)
*(.itcm_sec_code*)
. = ALIGN(4);
__itcm_end__ = .;
} > ITCM AT > FLASH
.dtcm :
{
. = ALIGN(4);
PROVIDE(__dtcm_content = LOADADDR(.dtcm));
__dtcm_start__ = .;
*(.dtcm)
*(.dtcm_section*)
*(.dtcm_sec_data*)
. = ALIGN(4);
__dtcm_end__ = .;
} > DTCM AT > FLASH
#endif
.iram :
{
. = ALIGN(512);
PROVIDE(__iram_flash_begin = LOADADDR(.iram));
__iram_start__ = .;
. = ALIGN(512);
__vector_iram_table = .;
KEEP(*(.vectors_iram))
. = ALIGN(512);
*(.itcm)
*(.iram)
*(.interrupt)
#if CONFIG_SPE
*tasks.c.obj(.text.* *.rodata *.rodata.*)
*queue.c.obj(.text.* *.rodata *.rodata.*)
*list.c.obj(.text.* *.rodata *.rodata.*)
*timers.c.obj(.text.* *.rodata *.rodata.*)
*port.c.obj(.text.* *.rodata *.rodata.*)
*rtos_pub.c.obj(.text.* *.rodata *.rodata.*)
*heap_4.c.obj(.text.* *.rodata *.rodata.*)
*mem_arch.c.obj(.text.* *.rodata *.rodata.*)
*gpio_driver_base.c.obj(.text.* *.rodata *.rodata.*)
*flash_driver.c.obj(.text.* *.rodata *.rodata.*)
*ckmn_driver.c.obj(.text.* *.rodata *.rodata.*)
*arch_interrupt.c.obj(.text.* *.rodata *.rodata.*)
*hal_machw.c.obj(.text.* *.rodata *.rodata.*)
*interrupts.c.obj(.text.* *.rodata *.rodata.*)
*rw_task.c.obj(.text.* *.rodata *.rodata.*)
*ke_event.c.obj(.text.* *.rodata *.rodata.*)
*me_strategy.c.obj(.text.* *.rodata *.rodata.*)
*chan.c.obj(.text.* *.rodata *.rodata.*)
*vif_mgmt.c.obj(.text.* *.rodata *.rodata.*)
*rxl_cntrl.c.obj(.text.* *.rodata *.rodata.*)
*rxl_hwdesc.c.obj(.text.* *.rodata *.rodata.*)
*mm_time.c.obj(.text.* *.rodata *.rodata.*)
*rwnx.c.obj(.text.* *.rodata *.rodata.*)
*rwnx_rx.c.obj(.text.* *.rodata *.rodata.*)
*ps.c.obj(.text.* *.rodata *.rodata.*)
*mm.c.obj(.text.* *.rodata *.rodata.*)
*rf_cntrl.c.obj(.text.* *.rodata *.rodata.*)
*mcc.c.obj(.text.* *.rodata *.rodata.*)
*phy_karst_bk7236.c.obj(.text.* *.rodata *.rodata.*)
*crm.c.obj (.text.* *.rodata *.rodata.*)
*bk7236_cal.c.obj(.text.* *.rodata *.rodata.*)
*manual_cal_bk7236.c.obj(.text.* *.rodata *.rodata.*)
*bk_cal_common.c.obj(.text.* *.rodata *.rodata.*)
*nv_parameters.c.obj(.text.* *.rodata *.rodata.*)
*macif_fhost.c.obj(.text.* *.rodata *.rodata.*)
*rc_driver.c.obj(.text.* *.rodata *.rodata.*)
*sys_wifi_driver.c.obj(.text.* *.rodata *.rodata.*)
*wifi_v2.c.obj(.text.* *.rodata *.rodata.*)
*bk_feature.c.obj(.text.* *.rodata *.rodata.*)
*pm.c.obj(.text.* *.rodata *.rodata.*)
*sys_ps_driver.c.obj(.text.* *.rodata *.rodata.*)
*sys_pm_hal.c.obj(.text.* *.rodata *.rodata.*)
*bk_wifi_adapter.c.obj(.text.* *.rodata *.rodata.*)
*net_param.c.obj(.text.* *.rodata *.rodata.*)
*wifi_api_wrapper.c.obj(.text.* *.rodata *.rodata.*)
*bk_rf_adapter.c.obj(.text.* *.rodata *.rodata.*)
*bk_phy_adapter.c.obj(.text.* *.rodata *.rodata.*)
*shell_task.c.obj(.text.* *.rodata *.rodata.*)
*shell_uart.c.obj(.text.* *.rodata *.rodata.*)
*uart_driver.c.obj(.text.* *.rodata *.rodata.*)
*uart_hal.c.obj(.text.* *.rodata *.rodata.*)
#endif
. = ALIGN(4);
__iram_end__ = .;
} > IRAM AT > FLASH
.ramcode :
{
. = . + SIZEOF(.iram);
. = ALIGN(512);
} > RAM AT > FLASH
.data :
{
PROVIDE(__etext = LOADADDR(.data));
PROVIDE(__data_flash_begin = LOADADDR(.data));
. = ALIGN(4);
__data_start__ = .;
#ifdef CONFIG_GCOV
/* added in template for gcov: */
PROVIDE_HIDDEN (__init_array_start = .);
KEEP (*(SORT(.init_array.*)))
KEEP (*(.init_array*))
PROVIDE_HIDDEN (__init_array_end = .);
. = ALIGN(4);
#endif
#if (CONFIG_SOC_SMP)
*(.dtcm)
*(.dtcm_section*)
*(.dtcm_sec_data*)
#endif
*(.data)
*(".data.*")
*(.sdata)
*(.video_spec_data*)
*(.gnu.linkonce.d*)
. = ALIGN(4);
__data_end__ = .;
} > RAM AT > FLASH
_data_flash_begin = __data_flash_begin;
_data_ram_begin = __data_start__;
_data_ram_end = .;
s_rom_end = LOADADDR(.data) + SIZEOF(.data);
.uninitialized (NOLOAD):
{
. = ALIGN(32);
__uninitialized_start = .;
*(.uninitialized)
*(".uninitialized.*")
KEEP(*(.keep.uninitialized))
. = ALIGN(32);
__uninitialized_end = .;
} > RAM
.bss (NOLOAD):
{
. = ALIGN(4);
_bss_start = .;
*(.bss)
*(.bss*)
*(COMMON)
#if CONFIG_CACHE_ENABLE
. = ALIGN(4);
_nocache_start = .;
*(.sram_nocache*)
_nocache_end = .;
#endif
. = ALIGN(4);
_bss_end = .;
} > RAM
bss_size = _bss_end - _bss_start;
#if (CONFIG_SOC_SMP)
_msp_total_size = __MSP_STACK_SIZE * CONFIG_CPU_CNT;
#else
_msp_total_size = __MSP_STACK_SIZE;
#endif
.heap (COPY) :
{
. = ALIGN(8);
_heap_start = .;
. = . + (ORIGIN(RAM) + LENGTH(RAM) - _msp_total_size - _heap_start - 8); /* 16 bytes for boundary protection */
. = ALIGN(8);
_heap_end = .;
} > RAM
/*multiple cores require independent stack spaces*/
#if (CONFIG_SOC_SMP)
/* ASSERT((CONFIG_CPU_CNT == 3), "cpu count exceptional!!!") */
.stack_cpu2 (ORIGIN(RAM) + LENGTH(RAM) - __MSP_STACK_SIZE*2 - __MSP_STACK_SIZE) (COPY) :
{
. = ALIGN(8);
_sstack_cpu2 = .;
__StackLimitCpu2 = .;
. = . + __MSP_STACK_SIZE;
. = ALIGN(8);
__StackTopCpu2 = .;
_estack_cpu2 = .;
} > RAM
.stack_cpu1 (ORIGIN(RAM) + LENGTH(RAM) - __MSP_STACK_SIZE*2) (COPY) :
{
. = ALIGN(8);
_sstack_cpu1 = .;
__StackLimitCpu1 = .;
. = . + __MSP_STACK_SIZE;
. = ALIGN(8);
__StackTopCpu1 = .;
_estack_cpu1 = .;
} > RAM
.stack_cpu0 (ORIGIN(RAM) + LENGTH(RAM) - __MSP_STACK_SIZE) (COPY) :
{
. = ALIGN(8);
_sstack_cpu0 = .;
__StackLimitCpu0 = .;
. = . + __MSP_STACK_SIZE;
. = ALIGN(8);
__StackTopCpu0 = .;
_estack_cpu0 = .;
} > RAM
#else
.stack (ORIGIN(RAM) + LENGTH(RAM) - __MSP_STACK_SIZE) (COPY) :
{
. = ALIGN(8);
_sstack = .;
__StackLimit = .;
. = . + __MSP_STACK_SIZE;
. = ALIGN(8);
__StackTop = .;
_estack = .;
} > RAM
#endif
.swap ORIGIN(SWAP):
{
. = ALIGN(8);
_swap_start = .;
* (.swap_data)
* (.swap_data*)
. = ALIGN(4);
_swap_end = .;
} > SWAP AT > FLASH
.video.cache.data :
{
. = ALIGN(4);
PROVIDE(__video_cache_text = LOADADDR(.video.cache.data));
__video_cache_data_start__ = .;
*(.video_cache_data)
*(.video_cache_data*)
. = ALIGN(4);
__video_cache_data_end__ = .;
} > PSRAM AT > FLASH
.video_cache_bss (NOLOAD):
{
. = ALIGN(4);
__video_cache_bss_start__ = .;
*(.video_cache_bss)
*(.video_cache_bss*)
. = ALIGN(4);
__video_cache_bss_end__ = .;
} > PSRAM
/* Set stack top to end of RAM, and stack limit move down by
* size of stack_dummy section */
__MSPTop = ORIGIN(RAM) + LENGTH(RAM);
__MSPLimit = __MSPTop - __MSP_STACK_SIZE;
ASSERT((s_rom_end < ORIGIN(FLASH) + LENGTH(FLASH)), "ROM overflow!!!")
ASSERT(((ORIGIN(RAM) + LENGTH(RAM)) > (_heap_start + __MSP_STACK_SIZE + 8)), "Stack overflowed with bss")
ASSERT(((_heap_end - _heap_start) >= __MIN_HEAP_SIZE), "Heap smaller than minimize size 90K!!!")
}
//eof
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