nes-proj/cpu/rl78/crt0.S

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/* Copyright (c) 2011 Red Hat Incorporated.
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
The name of Red Hat Incorporated may not be used to endorse
or promote products derived from this software without specific
prior written permission.
This software is provided by the copyright holders and contributors
"AS IS" and any express or implied warranties, including, but not
limited to, the implied warranties of merchantability and fitness for
a particular purpose are disclaimed. In no event shall Red Hat
incorporated be liable for any direct, indirect, incidental, special,
exemplary, or consequential damages (including, but not limited to,
procurement of substitute goods or services; loss of use, data, or
profits; or business interruption) however caused and on any theory of
liability, whether in contract, strict liability, or tort (including
negligence or otherwise) arising in any way out of the use of this
software, even if advised of the possibility of such damage. */
#include "rl78-sys.h"
.section ".vec","a"
.short _start
.section ".ivec","a"
.macro _iv x
.weak \x
.short \x
.endm
#define IV(x) _iv _##x##_handler
#define IVx() .short 0
/* To use a vector, simply define a global function named foo_handler()
for any IV(foo) listed below (i.e. tm05_handler) */
.global _interrupt_vector_table
_interrupt_vector_table:
IV(wdti)
IV(lvi)
IV(p0)
IV(p1)
IV(p2)
IV(p3)
IV(p4)
IV(p5)
IV(st2)
IV(sr2)
IV(sre2)
IV(dma0)
IV(dma1)
IV(st0)
IV(sr0)
IV(tm01h)
IV(st1)
IV(sr1)
IV(sre1)
IV(iica0)
IV(tm00)
IV(tm01)
IV(tm02)
IV(tm03)
IV(ad)
IV(rtc)
IV(it)
IV(kr)
IV(st3)
IV(sr3)
IV(tm13)
IV(tm04)
IV(tm05)
IV(tm06)
IV(tm07)
IV(p6)
IV(p7)
IV(p8)
IV(p9)
IV(p10)
IV(p11)
IV(tm10)
IV(tm12)
IV(sre3)
IV(tm13h)
IV(md)
IV(iica1)
IV(fl)
IV(dma2)
IV(dma3)
IV(tm14)
IV(tm15)
IV(tm16)
IV(tm17)
IVx()
IVx()
IVx()
IVx()
IVx()
IVx()
IVx()
IV(brk)
/* Note: 126 vectors */
.section ".csstart", "ax"
.global __csstart
__csstart:
br !!_start
.weak __rl78_option_byte_0
.weak __rl78_option_byte_1
.weak __rl78_option_byte_2
.weak __rl78_option_byte_3
__rl78_option_byte_0 = 0x6e
__rl78_option_byte_1 = 0xff
__rl78_option_byte_2 = 0xe8
__rl78_option_byte_3 = 0x85
.section ".opt", "a"
.byte __rl78_option_byte_0
.byte __rl78_option_byte_1
.byte __rl78_option_byte_2
.byte __rl78_option_byte_3
.text
.global _start
.type _start, @function
_start:
movw sp, #__stack
;; block move to initialize .data
;; we're copying from 00:[_romdatastart] to 0F:[_datastart]
;; and our data is not in the mirrored area.
mov es, #0
sel rb0 ; bank 0
movw hl, #__datastart
movw de, #__romdatastart
sel rb1 ; bank 1
movw ax, #__romdatacopysize
shrw ax,1
1:
cmpw ax, #0
bz $1f
decw ax
sel rb0 ; bank 0
movw ax, es:[de]
movw [hl], ax
incw de
incw de
incw hl
incw hl
sel rb1
br $1b
1:
sel rb0 ; bank 0
;; block fill to .bss
sel rb0 ; bank 0
movw hl, #__bssstart
movw ax, #0
sel rb1 ; bank 1
movw ax, #__bsssize
shrw ax,1
1:
cmpw ax, #0
bz $1f
decw ax
sel rb0 ; bank 0
movw [hl], ax
incw hl
incw hl
sel rb1
br $1b
1:
sel rb0 ; bank 0
; call !!__rl78_init
#ifdef PROFILE_SUPPORT /* Defined in gcrt0.S. */
movw ax, # _start
push ax
movw ax, # _etext
push ax
call !!__monstartup
#endif
movw ax, #0
push ax /* envp */
push ax /* argv */
push ax /* argc */
call !!_main
.LFE2:
movw ax, r8 ; Save return code.
push ax
#ifdef PROFILE_SUPPORT
call !!__mcleanup
#endif
call !!_exit
.size _start, . - _start
.global _rl78_run_preinit_array
.type _rl78_run_preinit_array,@function
_rl78_run_preinit_array:
movw hl, #__preinit_array_start
movw de, #__preinit_array_end
movw bc, #-2
br $_rl78_run_inilist
.global _rl78_run_init_array
.type _rl78_run_init_array,@function
_rl78_run_init_array:
movw hl, #__init_array_start
movw de, #__init_array_end
movw bc, #2
br $_rl78_run_inilist
.global _rl78_run_fini_array
.type _rl78_run_fini_array,@function
_rl78_run_fini_array:
movw hl, #__fini_array_start
movw de, #__fini_array_end
movw bc, #-2
/* fall through */
;; HL = start of list
;; DE = end of list
;; BC = step direction (+2 or -2)
_rl78_run_inilist:
next_inilist:
movw ax, hl
cmpw ax, de
bz $done_inilist
movw ax, [hl]
cmpw ax, #-1
bz $skip_inilist
cmpw ax, #0
bz $skip_inilist
push ax
push bc
push de
push hl
call ax
pop hl
pop de
pop bc
pop ax
skip_inilist:
movw ax, hl
addw ax, bc
movw hl, ax
br $next_inilist
done_inilist:
ret
.section .init,"ax"
.global __rl78_init
__rl78_init:
.section .fini,"ax"
.global __rl78_fini
__rl78_fini:
call !!_rl78_run_fini_array
.section .data
.global ___dso_handle
.weak ___dso_handle
___dso_handle:
.long 0
;;; Provide Dwarf unwinding information that will help GDB stop
;;; backtraces at the right place. This is stolen from assembly
;;; code generated by GCC with -dA.
.section .debug_frame,"",@progbits
.Lframe0:
.4byte .LECIE0-.LSCIE0 ; Length of Common Information Entry
.LSCIE0:
.4byte 0xffffffff ; CIE Identifier Tag
.byte 0x1 ; CIE Version
.ascii "\0" ; CIE Augmentation
.uleb128 0x1 ; CIE Code Alignment Factor
.sleb128 -1 ; CIE Data Alignment Factor
.byte 0xd ; CIE RA Column
.byte 0xc ; DW_CFA_def_cfa
.uleb128 0xc
.uleb128 0x3
.byte 0x8d ; DW_CFA_offset, column 0xd
.uleb128 0x3
.p2align 2
.LECIE0:
.LSFDE0:
.4byte .LEFDE0-.LASFDE0 ; FDE Length
.LASFDE0:
.4byte .Lframe0 ; FDE CIE offset
.4byte _start ; FDE initial location
.4byte .LFE2 - _start ; FDE address range
.byte 0xf ; DW_CFA_def_cfa_expression
.uleb128 1 ; length of expression
.byte 0x30 ; DW_OP_lit0
.p2align 2
.LEFDE0:
.text