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TORS=".tors :
{
___ctors = . ;
*(.ctors)
___ctors_end = . ;
___dtors = . ;
*(.dtors)
___dtors_end = . ;
} > ram"
cat <<EOF
OUTPUT_FORMAT("${OUTPUT_FORMAT}")
OUTPUT_ARCH(h8300h)
${RELOCATING+ENTRY ("_start")}
/* The memory size is 256KB to coincide with the simulator.
Don't change either without considering the other. */
MEMORY
{
/* 0xc4 is a magic entry. We should have the linker just
skip over it one day... */
vectors : o = 0x0000, l = 0xc4
magicvectors : o = 0xc4, l = 0x3c
/* We still only use 256k as the main ram size. */
ram : o = 0x0100, l = 0x3fefc
/* The stack starts at the top of main ram. */
topram : o = 0x3fffc, l = 0x4
/* This holds variables in the "tiny" sections. */
tiny : o = 0xff8000, l = 0x7f00
/* At the very top of the address space is the 8-bit area. */
eight : o = 0xffff00, l = 0x100
}
SECTIONS
{
.vectors :
{
/* Use something like this to place a specific
function's address into the vector table.
LONG (ABSOLUTE (_foobar)). */
*(.vectors)
} ${RELOCATING+ > vectors}
.text :
{
*(.rodata)
*(.text)
*(.strings)
${RELOCATING+ _etext = . ; }
} ${RELOCATING+ > ram}
${CONSTRUCTING+${TORS}}
.data :
{
*(.data)
${RELOCATING+ _edata = . ; }
} ${RELOCATING+ > ram}
.bss :
{
${RELOCATING+ _bss_start = . ;}
*(.bss)
*(COMMON)
${RELOCATING+ _end = . ; }
} ${RELOCATING+ >ram}
.stack :
{
${RELOCATING+ _stack = . ; }
*(.stack)
} ${RELOCATING+ > topram}
.tiny :
{
*(.tiny)
} ${RELOCATING+ > tiny}
.eight :
{
*(.eight)
} ${RELOCATING+ > eight}
.stab 0 ${RELOCATING+(NOLOAD)} :
{
[ .stab ]
}
.stabstr 0 ${RELOCATING+(NOLOAD)} :
{
[ .stabstr ]
}
}
EOF
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