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- MCF52259 Demo Board UART ISR Warning Message.
MCF52259 Demo Board UART ISR Warning Message.
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MCF52259 Demo Board UART ISR Warning Message.
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Hi All,
I have been trying to do uart isr by copying and pasting from cf init file. I cannot just use p.e. because it won't let me do continous adc. Therefore, I am copying and pasting from different files. I don't have it working yet and I am getting this warning message when I compile:
"__InterruptVector(.vectortable) in file M52259DEMO_sysinit.c is referenced but has not been written.
Check your linker command file."
Could you help?
Thank you,
FWFan
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Also, this is my internal_ram.lcf.
# Sample Linker Command File for CodeWarrior for ColdFire
KEEP_SECTION {.vectortable}
# Memory ranges
MEMORY {
vectorram (RWX) : ORIGIN = 0x20000000, LENGTH = 0x00000500
code (RX) : ORIGIN = 0x20000500, LENGTH = 0x00004B00
userram (RWX) : ORIGIN = 0x20005000, LENGTH = 0x00001800
}
SECTIONS {
# Heap and Stack sizes definition
___heap_size = 0x400;
___stack_size = 0x800;
# MCF52259 Derivative Memory map definitions from linker command files:
# __IPSBAR, __RAMBAR, __RAMBAR_SIZE, __FLASHBAR, __FLASHBAR_SIZE linker
# symbols must be defined in the linker command file.
# Memory Mapped Registers (IPSBAR= 0x40000000)
___IPSBAR = 0x40000000;
# 32 Kbytes Internal SRAM
___RAMBAR = 0x20000000;
___RAMBAR_SIZE = 0x0000FFFF;
# 512 KByte Internal Flash Memory
___FLASHBAR = 0x00000000;
___FLASHBAR_SIZE = 0x00080000;
___SP_AFTER_RESET = ___RAMBAR + ___RAMBAR_SIZE - 4;
.userram : {} > userram
.code : {} > code
.vectorram : {} > vectorram
.vectors :
{
exceptions.c(.vectortable)
. = ALIGN (0x4);
} >> code
.text :
{
*(.text)
. = ALIGN (0x4);
*(.rodata)
. = ALIGN (0x4);
___ROM_AT = .;
___DATA_ROM = .;
} >> code
.data : AT(___ROM_AT)
{
___DATA_RAM = .;
. = ALIGN(0x4);
*(.exception)
. = ALIGN(0x4);
__exception_table_start__ = .;
EXCEPTION
__exception_table_end__ = .;
___sinit__ = .;
STATICINIT
__START_DATA = .;
*(.data)
. = ALIGN (0x4);
__END_DATA = .;
__START_SDATA = .;
*(.sdata)
. = ALIGN (0x4);
__END_SDATA = .;
___DATA_END = .;
__SDA_BASE = .;
. = ALIGN (0x4);
} >> userram
.bss :
{
___BSS_START = .;
__START_SBSS = .;
*(.sbss)
. = ALIGN (0x4);
*(SCOMMON)
__END_SBSS = .;
__START_BSS = .;
*(.bss)
. = ALIGN (0x4);
*(COMMON)
__END_BSS = .;
___BSS_END = .;
. = ALIGN(0x4);
} >> userram
.custom :
{
___HEAP_START = .;
___heap_addr = ___HEAP_START;
___HEAP_END = ___HEAP_START + ___heap_size;
___SP_END = ___HEAP_END;
___SP_INIT = ___SP_END + ___stack_size;
. = ALIGN (0x4);
} >> userram
___VECTOR_RAM = ADDR(.vectorram);
__SP_INIT = ___SP_INIT;
_romp_at = ___ROM_AT + SIZEOF(.data);
.romp : AT(_romp_at)
{
__S_romp = _romp_at;
WRITEW(___ROM_AT);
WRITEW(ADDR(.data));
WRITEW(SIZEOF(.data));
WRITEW(0);
WRITEW(0);
WRITEW(0);
}
}
