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[/] [openrisc/] [trunk/] [gnu-stable/] [newlib-1.18.0/] [libgloss/] [or32/] [crt0.S] - Rev 207
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/* crt0.S. C Runtime startup file.
Copyright (C) 2004, Jacob Bower
Copyright (C) 2010, Embecosm Limited <info@embecosm.com>
Contributor Jeremy Bennett <jeremy.bennett@embecosm.com>
This file is part of Newlib.
The original work by Jacob Bower is provided as-is without any kind of
warranty. Use it at your own risk!
All subsequent work is bound by version 3 of the GPL as follows.
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3 of the License, or (at your option)
any later version.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.
You should have received a copy of the GNU General Public License along
with this program. If not, see <http://www.gnu.org/licenses/>. */
/* -------------------------------------------------------------------------- */
/* This program is commented throughout in a fashion suitable for processing
with Doxygen. */
/* -------------------------------------------------------------------------- */
#include "spr-defs.h"
#include "or1ksim-board.h"
/* -------------------------------------------------------------------------- */
/*!Macro for expressions which do not have their own handler.
Construct the arguments for a call to printf, then exit. Being varargs, the
arguments to printf must be on the stack, which we update using the
standard prologue.
@param[in] str Label for a string describing the macro, suitable for
printf. */
/* -------------------------------------------------------------------------- */
#define UNHANDLED_EXCEPTION(str) \
l.addi r1,r1,-20 /* Standard prologue */ ;\
l.sw 16(r1),r2 ;\
l.addi r2,r1,20 ;\
l.sw 12(r1),r9 ;\
;\
l.movhi r3,hi(.Lfmt) /* printf format string */ ;\
l.ori r3,r3,lo(.Lfmt) ;\
l.sw 0(r1),r3 ;\
l.movhi r4,hi(str) /* Name of exception */ ;\
l.ori r4,r4,lo(str) ;\
l.sw 4(r1),r4 ;\
l.mfspr r5,r0,SPR_EPCR_BASE /* Source of the interrupt */ ;\
l.jal _printf ;\
l.sw 8(r1),r5 ;\
;\
l.ori r3,r0,0xffff /* Failure RC */ ;\
l.jal _exit ;\
l.nop ;\
;\
l.rfe /* Never executed we hope */
/* -------------------------------------------------------------------------- */
/*!Text strings for the different exceptions */
/* -------------------------------------------------------------------------- */
.section .rodata
.Lfmt: .string "Unhandled %s exception at address %08p\n"
.L200: .string "bus error"
.L300: .string "data page fault"
.L400: .string "instruction page fault"
.L500: .string "timer"
.L600: .string "alignment"
.L700: .string "illegal instruction"
.L800: .string "external interrupt"
.L900: .string "data TLB"
.La00: .string "instruction TLB"
.Lb00: .string "range"
.Lc00: .string "syscall"
.Ld00: .string "floating point"
.Le00: .string "trap"
.Lf00: .string "undefined 0xf00"
.L1000: .string "undefined 0x1000"
.L1100: .string "undefined 0x1100"
.L1200: .string "undefined 0x1200"
.L1300: .string "undefined 0x1300"
.L1400: .string "undefined 0x1400"
.L1500: .string "undefined 0x1500"
.L1600: .string "undefined 0x1600"
.L1700: .string "undefined 0x1700"
.L1800: .string "undefined 0x1800"
.L1900: .string "undefined 0x1900"
.L1a00: .string "undefined 0x1a00"
.L1b00: .string "undefined 0x1b00"
.L1c00: .string "undefined 0x1c00"
.L1d00: .string "undefined 0x1d00"
.L1e00: .string "undefined 0x1e00"
.L1f00: .string "undefined 0x1f00"
/* -------------------------------------------------------------------------- */
/*!Exception vectors */
/* -------------------------------------------------------------------------- */
.section .vectors,"ax"
/* 0x100: RESET exception */
.org 0x100
_reset:
/* Jump to program initialisation code */
l.j _start
l.nop
/* 0x200: BUS exception is special, because during startup we use it
to detect where the stack should go. So we need some special code
before we return, which wel will later overwrite with l.nop.
We use registers we know will not interfere in this case. */
.org 0x200
_buserr:
l.mfspr r24,r0,SPR_EPCR_BASE
l.addi r24,r24,4 /* Return one instruction on */
l.mtspr r0,r24,SPR_EPCR_BASE
l.rfe
_buserr_std:
UNHANDLED_EXCEPTION (.L200)
/* 0x300: Data Page Fault exception */
.org 0x300
UNHANDLED_EXCEPTION (.L300)
/* 0x400: Insn Page Fault exception */
.org 0x400
UNHANDLED_EXCEPTION (.L400)
/* 0x500: Timer exception */
.org 0x500
UNHANDLED_EXCEPTION (.L500)
/* 0x600: Aligment exception */
.org 0x600
UNHANDLED_EXCEPTION (.L600)
/* 0x700: Illegal insn exception */
.org 0x700
UNHANDLED_EXCEPTION (.L700)
/* 0x800: External interrupt exception */
.org 0x800
UNHANDLED_EXCEPTION (.L800)
/* 0x900: DTLB miss exception */
.org 0x900
UNHANDLED_EXCEPTION (.L900)
/* 0xa00: ITLB miss exception */
.org 0xa00
UNHANDLED_EXCEPTION (.La00)
/* 0xb00: Range exception */
.org 0xb00
UNHANDLED_EXCEPTION (.Lb00)
/* 0xc00: Syscall exception */
.org 0xc00
UNHANDLED_EXCEPTION (.Lc00)
/* 0xd00: floating point exception */
.org 0xd00
UNHANDLED_EXCEPTION (.Ld00)
/* 0xe00: Trap exception */
.org 0xe00
UNHANDLED_EXCEPTION (.Le00)
/* 0xf00: Reserved exceptions */
.org 0xf00
UNHANDLED_EXCEPTION (.Lf00)
.org 0x1000
UNHANDLED_EXCEPTION (.L1000)
.org 0x1100
UNHANDLED_EXCEPTION (.L1100)
.org 0x1200
UNHANDLED_EXCEPTION (.L1200)
.org 0x1300
UNHANDLED_EXCEPTION (.L1300)
.org 0x1400
UNHANDLED_EXCEPTION (.L1400)
.org 0x1500
UNHANDLED_EXCEPTION (.L1500)
.org 0x1600
UNHANDLED_EXCEPTION (.L1600)
.org 0x1700
UNHANDLED_EXCEPTION (.L1700)
.org 0x1800
UNHANDLED_EXCEPTION (.L1800)
.org 0x1900
UNHANDLED_EXCEPTION (.L1900)
.org 0x1a00
UNHANDLED_EXCEPTION (.L1a00)
.org 0x1b00
UNHANDLED_EXCEPTION (.L1b00)
.org 0x1c00
UNHANDLED_EXCEPTION (.L1c00)
.org 0x1d00
UNHANDLED_EXCEPTION (.L1d00)
.org 0x1e00
UNHANDLED_EXCEPTION (.L1e00)
.org 0x1f00
UNHANDLED_EXCEPTION (.L1f00)
/* Pad to the end */
.org 0x1ffc
l.nop
/* -------------------------------------------------------------------------- */
/*!Main entry point
We initialise the stack and frame pointer first, before we set up the
caches, since otherwise we'll need to disable the instruction cache when
patching the bus error vector code.
The remaining tasks are then:
- optionally set up instruction and/or data caches
- clear BSS
- call global and static constructors
- set up destructors to be called from exit
- initialize the UART (may be dummy, if no UART supported)
- jump to the main function
- call exit if the main function ever returns.
- loop forever (should never get here) */
/* -------------------------------------------------------------------------- */
/* The stack grows down from the top of writable memory. */
.section .data
.global _stack
_stack: .space 4,0
.section .text
.global _start
.type _start,@function
_start:
/* Determine where the stack should end. Must be somewhere above the
end of loaded memory. We look in blocks of 64KB. */
l.movhi r30,hi(end)
l.ori r30,r30,lo(end)
l.srli r30,r30,16 /* Round down to 64KB boundary */
l.slli r30,r30,16
l.addi r28,r0,1 /* Constant 64KB in register */
l.slli r28,r28,16
l.add r30,r30,r28
l.addi r30,r30,-4 /* SP one word inside next 64KB? */
l.movhi r26,0xaaaa /* Test pattern to store in memory */
l.ori r26,r26,0xaaaa
/* Is this a writeable location? */
.L3:
l.sw 0(r30),r26
l.lwz r24,0(r30)
l.sfeq r24,r26
l.bnf .L4
l.nop
l.j .L3
l.add r30,r30,r28 /* Try 64KB higher */
.L4:
l.sub r30,r30,r28 /* Previous value was wanted */
l.movhi r26,hi(_stack)
l.ori r26,r26,lo(_stack)
l.sw 0(r26),r30
/* Initialise stack and frame pointer (set to same value) */
l.add r1,r30,r0
l.add r2,r30,r0
/* Clear out the bus error vector special code. */
l.movhi r30,hi(_buserr)
l.ori r30,r30,lo(_buserr)
l.movhi r28,hi(_buserr_std)
l.ori r28,r28,lo(_buserr_std)
l.movhi r26,0x1500 /* l.nop 0 */
l.ori r26,r26,0x0000
.L5:
l.sfeq r28,r30
l.bf .L6
l.nop
l.sw 0(r30),r26 /* Patch the instruction */
l.j .L5
l.addi r30,r30,4 /* Delay slot: next instruction */
.L6:
/* Cache initialisation. Enable IC and/or DC */
.if IC_ENABLE || DC_ENABLE
l.mfspr r10,r0,SPR_SR
.if IC_ENABLE
l.ori r10,r10,SPR_SR_ICE
.endif
.if DC_ENABLE
l.ori r10,r10,SPR_SR_DCE
.endif
l.mtspr r0,r10,SPR_SR
l.nop /* Flush the pipeline. */
l.nop
l.nop
l.nop
l.nop
.endif
/* Clear BSS */
l.movhi r28,hi(__bss_start)
l.ori r28,r28,lo(__bss_start)
l.movhi r30,hi(end)
l.ori r30,r30,lo(end)
.L1:
l.sw (0)(r28),r0
l.sfltu r28,r30
l.bf .L1
l.addi r28,r28,4 /* Delay slot */
/* Call global and static constructors */
l.jal init
l.nop
/* Set up destructors to be called from exit if main never returns */
l.movhi r3,hi(fini)
l.jal _atexit
l.ori r3,r3,lo(fini) /* Delay slot */
/* Initialise UART in a C function. If the UART isn't present, we'll */
/* link against a dummy function. */
l.jal __uart_init
l.nop
/* Jump to main program entry point (argc = argv = envp = 0) */
l.or r3,r0,r0
l.or r4,r0,r0
l.jal _main
l.or r5,r0,r0 /* Delay slot */
/* If program exits, call exit routine */
l.jal _exit
l.addi r3,r11,0 /* Delay slot */
/* Loop forever */
.L2:
l.j .L2
l.nop
.size _start, .-_start
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