Retro68/gcc/newlib/libc/sys/a29khif/crt0.S

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2017-04-11 21:13:36 +00:00
; @(#)crt0.s 2.7 90/10/15 13:17:57, AMD
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Copyright 1988, 1989, 1990 Advanced Micro Devices, Inc.
;
; This software is the property of Advanced Micro Devices, Inc (AMD) which
; specifically grants the user the right to modify, use and distribute this
; software provided this notice is not removed or altered. All other rights
; are reserved by AMD.
;
; AMD MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS
; SOFTWARE. IN NO EVENT SHALL AMD BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL
; DAMAGES IN CONNECTION WITH OR ARISING FROM THE FURNISHING, PERFORMANCE, OR
; USE OF THIS SOFTWARE.
;
; So that all may benefit from your experience, please report any problems
; or suggestions about this software to the 29K Technical Support Center at
; 800-29-29-AMD (800-292-9263) in the USA, or 0800-89-1131 in the UK, or
; 0031-11-1129 in Japan, toll free. The direct dial number is 512-462-4118.
;
; Advanced Micro Devices, Inc.
; 29K Support Products
; Mail Stop 573
; 5900 E. Ben White Blvd.
; Austin, TX 78741
; 800-292-9263
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
.file "crt0.s"
; crt0.s version 2.1-7
;
; This module gets control from the OS.
; It saves away the Am29027 Mode register settings and
; then sets up the pointers to the resident spill and fill
; trap handlers. It then establishes argv and argc for passing
; to main. It then calls _main. If main returns, it calls _exit.
;
; void = start( );
; NOTE - not C callable (no lead underscore)
;
.include "sys/sysmac.h"
;
;
.extern V_SPILL, V_FILL
.comm __29027Mode, 8 ; A shadow of the mode register
.comm __LibInit, 4
.comm __environ, 4 ; Environment variables, currently none.
.text
.extern _main, _exit
.extern _memset
.word 0 ; Terminating tag word
.global start
start:
sub gr1, gr1, 6 * 4
asgeu V_SPILL, gr1, rab ; better not ever happen
add lr1, gr1, 6 * 4
;
; Initialize the .bss section to zero by using the memset library function.
; The .bss initialization section below has been commented out as it breaks
; XRAY29K that has been released. The operators sizeof and startof create
; new sections that are not recognized by XRAY29k, but will be implemented
; in the next release (2.0).
;
; const lr4, $sizeof(.bss) ; get size of .bss section to zero out
; consth lr4, $sizeof(.bss)
; const lr2, $startof(.bss) ; Get start address of .bss section
; consth lr2, $startof(.bss)
; const lr0, _memset ; address of memset function
; consth lr0, _memset
; calli lr0, lr0 ; call memset function
; const lr3, 0
; Save the initial value of the Am29027's Mode register
; If your const tav,HIF_does @ asneq V_SYSCALL,gr1,gr1 @ jmpti tav,lr0 @ const tpc,_errno @ consth tpc,_errno @ store 0,0,tav,tpc @ jmpi lr0 @ constn v0,-1 not enter crt0 with value for Am29027's Mode register
; in gr96 and gr97, and also if the coprocessor is active uncomment the
; next 4 lines.
; const gr96, 0xfc00820
; consth gr96, 0xfc00820
; const gr97, 0x1375
; store 1, 3, gr96, gr97
;
const gr98, __29027Mode
consth gr98, __29027Mode
store 0, 0, gr96, gr98
add gr98, gr98, 4
store 0, 0, gr97, gr98
;
; Now call the const tav,HIF_to @ asneq V_SYSCALL,gr1,gr1 @ jmpti tav,lr0 @ const tpc,_errno @ consth tpc,_errno @ store 0,0,tav,tpc @ jmpi lr0 @ constn v0,-1 setup the spill and fill trap handlers
;
const lr3, spill
consth lr3, spill
const lr2, V_SPILL
const tav,HIF_setvec @ asneq V_SYSCALL,gr1,gr1
const lr3, fill
consth lr3, fill
const lr2, V_FILL
const tav,HIF_setvec @ asneq V_SYSCALL,gr1,gr1
;
; Set up dividu handler, since native one don't work?!
; Set it up by hand (FIXME) since HIF_settrap doesn't work either!
;
; const lr3,Edividu
; consth lr3,Edividu
;
; const lr2,35
; const tav,HIF_settrap @ asneq V_SYSCALL,gr1,gr1
; asge 0x50,gr121,0 ; check whether it failed
; const lr2,0x8000008c ; abs addr of dividu trap handler on EB
; consth lr2,0x8000008c
; store 0,0,lr3,lr2 ; Clobber vector FIXME
;
; Get the argv base address and calculate argc.
;
const tav,HIF_getargs @ asneq V_SYSCALL,gr1,gr1
add lr3, v0, 0 ; argv
add lr4, v0, 0
constn lr2, -1
argcloop: ; scan for NULL terminator
load 0, 0, gr97, lr4
add lr4, lr4, 4
cpeq gr97, gr97, 0
jmpf gr97, argcloop
add lr2, lr2, 1
;
; Now call LibInit, if there is one. To aid runtime libraries
; that need to do some startup initialization, we have created
; a bss variable called LibInit. If the library doesn't need
; any run-time initialization, the variable is still 0. If the
; library does need run-time initialization, the library will
; contain a definition like
; void (*_LibInit)(void) = LibInitFunction;
; The linker will match up our bss LibInit with this data LibInit
; and the variable will not be 0.
;
const lr0, __LibInit
consth lr0, __LibInit
load 0, 0, lr0, lr0
cpeq gr96, lr0, 0
jmpt gr96, NoLibInit
nop
calli lr0, lr0
nop
NoLibInit:
;
; call main, passing it 2 arguments. main( argc, argv )
;
const lr0, _main
consth lr0, _main
calli lr0, lr0
nop
;
; call exit
;
const lr0, _exit
consth lr0, _exit
calli lr0, lr0
add lr2, gr96, 0
;
; Should never get here, but just in case
;
loop:
const tav,HIF_exit @ asneq V_SYSCALL,gr1,gr1
jmp loop
nop
.sbttl "Spill and Fill trap handlers"
.eject
;
; SPILL, FILL trap handlers
;
; Note that these Spill and Fill trap handlers allow the OS to
; assume that the only registers of use are between gr1 and rfb.
; Therefore, if the OS desires to, it may simply preserve from
; lr0 for (rfb-gr1)/4 registers when doing a context save.
;
;
; Here is the spill handler
;
; spill registers from [*gr1..*rab)
; and move rab downto where gr1 points
;
; rab must change before rfb for signals to work
;
; On entry: rfb - rab = windowsize, gr1 < rab
; Near the end: rfb - rab > windowsize, gr1 == rab
; On exit: rfb - rab = windowsize, gr1 == rab
;
.global spill
spill:
sub tav, rab, gr1 ; tav = number of bytes to spill
srl tav, tav, 2 ; change byte count to word count
sub tav, tav, 1 ; make count zero based
mtsr cr, tav ; set Count Remaining register
sub tav, rab, gr1
sub tav, rfb, tav ; pull down free bound and save it in rab
add rab, gr1, 0 ; first pull down allocate bound
storem 0, 0, lr0, tav ; store lr0..lr(tav) into rfb
jmpi tpc ; return...
add rfb, tav, 0
;
; Here is the fill handler
;
; fill registers from [*rfb..*lr1)
; and move rfb upto where lr1 points.
;
; rab must change before rfb for signals to work
;
; On entry: rfb - rab = windowsize, lr1 > rfb
; Near the end: rfb - rab < windowsize, lr1 == rab + windowsize
; On exit: rfb - rab = windowsize, lr1 == rfb
;
.global fill
fill:
const tav, 0x80 << 2
or tav, tav, rfb ; tav = ((rfb>>2) | 0x80)<<2 == [rfb]<<2
mtsr ipa, tav ; ipa = [rfb]<<2 == 1st reg to fill
; gr0 is now the first reg to spill
sub tav, lr1, rfb ; tav = number of bytes to spill
add rab, rab, tav ; push up allocate bound
srl tav, tav, 2 ; change byte count to word count
sub tav, tav, 1 ; make count zero based
mtsr cr, tav ; set Count Remaining register
loadm 0, 0, gr0, rfb ; load registers
jmpi tpc ; return...
add rfb, lr1, 0 ; ... first pushing up free bound
.end