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[/] [ion/] [trunk/] [src/] [ion_noxram.lds] - Rev 236
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/**
* ion_noxram.lds -- Linker script file for ION project (with no RAM or cache)
*
* WARNING: This script is no longer used by any makefile, to be removed or
* refactored.
*
* The ion cpu has separate buses for code and data (Harvard architecture) and
* can be used with no cache. This linker script targets that 'bare'
* system configuration. It is meant for early testing and debugging.
*
* This script will split the object file in two areas so that they can be put
* in separate memory blocks:
* 1.- Code area (text output section)
* 2.- Data area (sdata, data and bss output sections)
*
* Since data constants can't be reached from the code bus, constant data
* (usually in section rodata) needs to be put in the same space as other data.
* This is the main purpose of this file.
* Alternatively, we might just implement a 3-port memory and leave all sections
* adjacent, but that would be too expensive (3-port memory would take about
* twice as many memory blocks for the same memory size).
*
* FIXME code and data RAM block sizes hardcoded
* FIXME code and data start addresses hardcoded
*/
/*
# Known problems:
#
# 1.- LINK PROBLEM IF FLAG '-G0' NOT USED
# If flag '-G0' is not used on gcc, linker fails with 'relocation
# truncated to fit: R_MIPS_GPREL16' error message.
# This only happens when you use global or static veriables, initialized
# or not.
# (See explaination in the project docs about $gp indexed addressing in
# MIPS architectures and the -G0 flag).
#
# SUSPECTED CAUSE:
# I'm sure there is something wrong with my linker script.
# With the default link scripts this does not happen. Yet we need to use
# a script so that we can split code and data (including read-only) to
# different sections (and later to different ram blocks).
#
# WORKAROUND:
# Use -G0 flag so that _gp indexing is disabled. There is a performance
# hit, though. In effect we're telling the compiler to NOT use $gp for
# indexed access to any global variables.
# This is only necessary for the 'bare' target (no external ram and no
# cache) and will have to be fixed for regular targets (by using a
# standard link script or fixing mine).
*/
/* Make sure the first linked file is ths startup code from boot.s */
/* (We might put boot.o in the ld command line, BEFORE all other files) */
STARTUP(boot.o)
/* Default object output format is ELF big endian */
OUTPUT_FORMAT(elf32-big)
SECTIONS {
/* Put all code at CODE area */
.text 0x00000000 : {
_ftext = . ;
* (.text);
} = 0 /* fill gaps with zeros */
/* Mark end of executable code */
_ecode = .;
/* mark end of read-only code */
_etext = .;
PROVIDE (etext = .);
/**** Put all data, including read-only, at DATA area */
.data 0x80000000 : {
_fdata = . ;
* (.data);
* (.data.*);
/* Conventionally, symbol _gp points to the middle of a 64K area at the
start of the sdata section ('small data section'). Register $gp is
loaded with _gp at program startup (in boot.s) so that data in that
area can be reached with just one instruction.
Note that the compiler/assembler will put data in the sdata section
only if it is small enough (see as/gcc docs, -G option and others).
FIXME this feature has not been tested.
*/
_gp = . + 0x7ff0; /* 0x7ff0 -> middle of 64K area */
*(.lit8);
*(.lit4);
*(.sdata);
*(.sbss);
*(.gnu.linkonce.s*);
*(.rodata);
*(.rodata.*);
/* mark end of initialised data */
_edata = .;
PROVIDE (edata = .);
/* start bss on dword boundary for easier clearing */
. = ALIGN(8);
}
/* start bss on dword boundary for easier clearing */
. = ALIGN(8);
/* mark start of uninitialised data */
__bss_start = .;
_fbss = __bss_start;
.bss : {
/* *(.sbss); */
*(.dynbss);
*(COMMON);
* (.bss);
_end = . ;
}
/* mark end of uninitialised data */
_end = . ;
PROVIDE (end = .);
}
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