TriOS-alt/system/regnatix/m.spin

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<EFBFBD><EFBFBD>{{
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Autor: Ingo Kripahle %
% Copyright (c) 2010 Ingo Kripahle %
% See end of file for terms of use. %
% Die Nutzungsbedingungen befinden sich am Ende der Datei %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Informationen : hive-project.de
Kontakt : drohne235@googlemail.com
System : TriOS
Name : mental-Loader f<00>r TriOS
Chip : Regnatix
Typ : Programm
Version :
Subversion :
Funktion :
Komponenten : -
COG's : -
Logbuch :
Kommandoliste :
Notizen :
}}
OBJ
ios: "reg-ios"
mgc: "m-glob-con"
CON
_CLKMODE = XTAL1 + PLL16X
_XINFREQ = 5_000_000
VAR
long plen 'l<00>nge datenblock loader
byte proghdr[16] 'puffer f<00>r objektkopf
byte debug
pub main | err,sys
debug := 0
err := 0
sys := 0
ios.start
ios.sddmact(ios#DM_ROOT)
ios.print(string(13,"Wir sind Borg. Widerstand ist zwecklos.",13))
ios.print(string("Assimilation wird gestartet...",13,13))
err |= need_file(string("Check ADM-Code : "),string("adm"))
err |= need_file(string("Check BEL-Code : "),string("bel"))
err |= need_file(string("Check REG-Code : "),string("reg"))
sys := need_file(string("Check USR-Tape : "),string("usr"))
sys := need_file(string("Check SYS-Tape : "),string("sys"))
pause(3)
ifnot err
if sys
ios.print(string(13,"SYS-Tape nicht vorhanden, mental wird dennoch gestartet!",13))
timer(10)
mload
else
ios.print(string(13,"Abbruch: System nicht korrekt installiert!",13))
ios.stop
pri timer(sec)
ios.curoff
ios.printnl
repeat sec
ios.curpos1
ios.print(string("Weiter in "))
ios.printdec(sec--)
ios.print(string(" Sekunden "))
waitcnt(cnt+clkfreq)
ios.curon
pri pause(sec)
if debug
waitcnt(cnt+clkfreq*sec)
pri mload | i
'---------------------------------------------------------- slavecode starten
ios.print(string(13,"System wird nun gestartet...",13))
pause(2)
ios.belload(string("bel"))
ios.print(string(" BEL-Code wurde gestartet: ok",13))
ios.sdclose
pause(2)
ios.print(string(" ADM-Code wird gestartet: "))
ios.admload(string("adm"))
ios.print(string(" ok"))
pause(2)
ios.printnl
ios.print(string(" REG-Code wird gestartet: "))
'---------------------------------------------------------- m-core starten
m_sdopen("r",string("reg")) 'datei <00>ffnen
repeat i from 0 to 15 '16 bytes header --> bellatrix
byte[@proghdr][i] := m_sdgetc
m_sdclose
plen := 0
plen := byte[@proghdr + $0B] << 8
plen := plen + byte[@proghdr + $0A]
plen := plen - 8 'korrekte dateil<00>nge berechnen
m_sdopen("r",string("reg")) 'datei <00>ffnen
ios.bus_putchar1(mgc#adm_sd_getblk) 'adm:sd_getblk
ios.bus_putlong1(plen) 'blockl<00>nge senden
dira := 0 'diese cog vom bus trennen
repeat i from 0 to 7 'alle anderen cogs stoppen
if i <> cogid
cogstop(i)
cognew(@loader, plen) 'pasm-loader <00>bernimmt
cogstop(cogid) 'spin-loader beenden
dat org 0
loader
mov outa, _S1 'bus inaktiv
mov dira, DINP 'bus auf eingabe schalten
mov reg_cnt, PAR 'parameter = plen
mov reg_adr, #0 'adresse ab 0
' datenblock empfangen
loop
call #m_aget 'wert einlesen
wrbyte reg_a, reg_adr 'wert --> hubram
add reg_adr, #1 'adresse + 1
djnz reg_cnt, #loop
mov dira, #0
' neuen code starten
rdword reg_a, #$A ' Setup the stack markers.
sub reg_a, #4 '
wrlong SMARK, reg_a '
sub reg_a, #4 '
wrlong SMARK, reg_a '
rdbyte reg_a, #$4 ' Switch to new clock mode.
clkset reg_a '
coginit SINT ' Restart running new code.
cogid reg_a
cogstop reg_a 'cog h<00>lt sich selbst an
' ---------------------------------------------------------------------
' businterface
' ---------------------------------------------------------------------
' reg_a io-zeichen
' reg_b temp
' reg_c temp
m_aput ' zeichen zu administra senden
waitpeq _hs,_hs ' warte auf hs=1 (slave bereit)
and reg_a,#$ff ' wert maskieren
or reg_a,_a1 ' + bel=0 wr=0 clk=0
mov outa,reg_a ' daten + signale ausgeben
mov dira,dout ' bus auf ausgabe schalten
or outa,_a2 ' clk=0 --> clk=1
waitpeq _zero,_hs ' warte auf hs=0
mov dira,dinp ' bus auf eingabe schalten
mov outa,_s1 ' bussignale inaktiv
m_aput_ret ret
m_bput ' zeichen zu bellatrix senden
waitpeq _hs,_hs ' warte auf hs=1 (slave bereit)
and reg_a,#$ff ' wert maskieren
or reg_a,_b1 ' + bel=0 wr=0 clk=0
mov outa,reg_a ' daten + signale ausgeben
mov dira,dout ' bus auf ausgabe schalten
or outa,_b2 ' clk=0 --> clk=1
waitpeq _zero,_hs ' warte auf hs=0
mov dira,dinp ' bus auf eingabe schalten
mov outa,_s1 ' bussignale inaktiv
m_bput_ret ret
m_aget ' zeichen von administra empfangen
waitpeq _hs,_hs ' warte auf hs=1 (slave bereit)
mov outa,_a3 ' bel=0 wr=1 clk=1
waitpeq _zero,_hs ' warte auf hs=0
mov reg_a,ina ' daten einlesen
and reg_a,#$ff ' wert maskieren
mov outa,_s1 ' bussignale inaktiv
m_aget_ret ret
m_bget ' zeichen von belatrix empfangen
waitpeq _hs,_hs ' warte auf hs=1 (slave bereit)
mov outa,_b3 ' bel=0 wr=1 clk=1
waitpeq _zero,_hs ' warte auf hs=0
mov reg_a,ina ' daten einlesen
and reg_a,#$ff ' wert maskieren
mov outa,_s1 ' bussignale inaktiv
m_bget_ret ret
' +------------------------------- /hs
' |+------------------------------ /wr
' ||+----------------------------- busclk
' |||+---------------------------- hbeat
' |||| +-------------------------- al
' |||| |+------------------------- /bel
' |||| ||+------------------------ /adm
' |||| |||+----------------------- /ram2
' |||| ||||+---------------------- /ram1
' |||| ||||| +---------- a0..10
' |||| ||||| |
' |||| ||||| | +- d0..7
' |||| |||||+----------+ +------+
_al long %00000000_10000000_00000000_00000000 ' /al bitmaske
_bwr long %00000100_00000000_00000000_00000000 ' /wr bitmaske
_ram1 long %00000000_00001000_00000000_00000000 ' /ram1 bitmaske
_latch long %00000000_00000000_11111111_00000000 ' latch bitmaske
_adr long %00000000_00000111_11111111_00000000 ' adrbus bistmaske
dinp long %00000111_11111111_11111111_00000000 ' bus input
dout long %00000111_11111111_11111111_11111111 ' bus output
_s1 long %00000100_01111000_00000000_00000000 ' bus inaktiv
_b1 long %00000000_00111000_00000000_00000000 ' adm=1, bel=0, wr=0, busclk=0
_b2 long %00000010_00111000_00000000_00000000 ' adm=1, bel=0, wr=0, busclk=1
_b3 long %00000110_00111000_00000000_00000000 ' adm=1, bel=0, wr=1, busclk=1
_a1 long %00000000_01011000_00000000_00000000 ' adm=0, bel=1, wr=0, busclk=0
_a2 long %00000010_01011000_00000000_00000000 ' adm=0, bel=1, wr=0, busclk=1
_a3 long %00000110_01011000_00000000_00000000 ' adm=0, bel=1, wr=1, busclk=1
_hs long %00001000_00000000_00000000_00000000 ' hs=1?
_zero long %00000000_00000000_00000000_00000000 '
SINT long ($0001 << 18) | ($3C01 << 4) ' Spin interpreter boot information.
SMARK long $FFF9FFFF ' Stack mark used for spin code.
reg_adr res 1
reg_cnt res 1
reg_a res 1
reg_b res 1
reg_c res 1
pri need_file(strptr1,strptr2): err
ios.print(strptr1)
ios.printtab
ios.printtab
err := ios.sdopen("R",strptr2)
ios.sdclose
ifnot err
ios.print(string("ok"))
else
ios.setcolor(1)
ios.print(string("fail"))
ios.setcolor(0)
ios.printnl
pri m_sdopen(modus,stradr):err | len,i 'sd-card: datei <00>ffnen
''funktionsgruppe : sdcard
''funktion : eine bestehende datei <00>ffnen
''busprotokoll : [004][put.modus][sub_putstr.fn][get.error]
'' : modus - "A" Append, "W" Write, "R" Read (Gro<00>buchstaben!)
'' : fn - name der datei
'' : error - fehlernummer entspr. list
ios.bus_putchar1(mgc#adm_sd_open)
ios.bus_putchar1(modus)
len := strsize(stradr)
ios.bus_putchar1(len)
repeat i from 0 to len - 1
ios.bus_putchar1(byte[stradr++])
err := ios.bus_getchar1
pri m_sdclose:err 'sd-card: datei schlie<00>en
''funktionsgruppe : sdcard
''funktion : die aktuell ge<00>ffnete datei schlie<00>en
''busprotokoll : [005][get.error]
'' : error - fehlernummer entspr. list
ios.bus_putchar1(mgc#adm_sd_close)
err := ios.bus_getchar1
pri m_sdgetc: char 'sd-card: zeichen aus datei lesen
''funktionsgruppe : sdcard
''funktion : zeichen aus datei lesen
''busprotokoll : [006][get.char]
'' : char - gelesenes zeichen
ios.bus_putchar1(mgc#adm_sd_getc)
char := ios.bus_getchar1
DAT
{{
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% TERMS OF USE: MIT License %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%$%
%Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation %
%files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, %
%modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software%
%is furnished to do so, subject to the following conditions: %
% %
%The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.%
% %
%THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE %
%WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR %
%COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, %
%ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
}}