TriOS-alt/system/bellatrix/vectron-1-vecdem1/vectron-1-keyb.spin

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2010-11-26 23:58:06 +01:00
<EFBFBD><EFBFBD>''***************************************
''* PS/2 Keyboard Driver v1.0.1 *
''* Author: Chip Gracey *
''* Copyright (c) 2004 Parallax, Inc. *
''* See end of file for terms of use. *
''***************************************
{-----------------REVISION HISTORY-----------------
v1.0.1 - Updated 6/15/2006 to work with Propeller Tool 0.96}
VAR
long cog
long par_tail 'key buffer tail read/write (19 contiguous longs)
long par_head 'key buffer head read-only
long par_present 'keyboard present read-only
long par_states[8] 'key states (256 bits) read-only
long par_keys[8] 'key buffer (16 words) read-only (also used to pass initial parameters)
PUB start(dpin, cpin) : okay
'' Start keyboard driver - starts a cog
'' returns false if no cog available
''
'' dpin = data signal on PS/2 jack
'' cpin = clock signal on PS/2 jack
''
'' use 100-ohm resistors between pins and jack
'' use 10K-ohm resistors to pull jack-side signals to VDD
'' connect jack-power to 5V, jack-gnd to VSS
''
'' all lock-keys will be enabled, NumLock will be initially 'on',
'' and auto-repeat will be set to 15cps with a delay of .5s
okay := startx(dpin, cpin, %0_000_000, %01_01000)
PUB startx(dpin, cpin, locks, auto) : okay
'' Like start, but allows you to specify lock settings and auto-repeat
''
'' locks = lock setup
'' bit 6 disallows shift-alphas (case set soley by CapsLock)
'' bits 5..3 disallow toggle of NumLock/CapsLock/ScrollLock state
'' bits 2..0 specify initial state of NumLock/CapsLock/ScrollLock
'' (eg. %0_001_100 = disallow ScrollLock, NumLock initially 'on')
''
'' auto = auto-repeat setup
'' bits 6..5 specify delay (0=.25s, 1=.5s, 2=.75s, 3=1s)
'' bits 4..0 specify repeat rate (0=30cps..31=2cps)
'' (eg %01_00000 = .5s delay, 30cps repeat)
stop
longmove(@par_keys, @dpin, 4)
okay := cog := cognew(@entry, @par_tail) + 1
PUB stop
'' Stop keyboard driver - frees a cog
if cog
cogstop(cog~ - 1)
longfill(@par_tail, 0, 19)
PUB present : truefalse
'' Check if keyboard present - valid ~2s after start
'' returns t|f
truefalse := -par_present
PUB key : keycode
'' Get key (never waits)
'' returns key (0 if buffer empty)
if par_tail <> par_head
keycode := par_keys.word[par_tail]
par_tail := ++par_tail & $F
PUB getkey : keycode
'' Get next key (may wait for keypress)
'' returns key
repeat until (keycode := key)
PUB newkey : keycode
'' Clear buffer and get new key (always waits for keypress)
'' returns key
par_tail := par_head
keycode := getkey
PUB gotkey : truefalse
'' Check if any key in buffer
'' returns t|f
truefalse := par_tail <> par_head
PUB clearkeys
'' Clear key buffer
par_tail := par_head
PUB keystate(k) : state
'' Get the state of a particular key
'' returns t|f
state := -(par_states[k >> 5] >> k & 1)
DAT
'******************************************
'* Assembly language PS/2 keyboard driver *
'******************************************
org
'
'
' Entry
'
entry movd :par,#_dpin 'load input parameters _dpin/_cpin/_locks/_auto
mov x,par
add x,#11*4
mov y,#4
:par rdlong 0,x
add :par,dlsb
add x,#4
djnz y,#:par
mov dmask,#1 'set pin masks
shl dmask,_dpin
mov cmask,#1
shl cmask,_cpin
test _dpin,#$20 wc 'modify port registers within code
muxc _d1,dlsb
muxc _d2,dlsb
muxc _d3,#1
muxc _d4,#1
test _cpin,#$20 wc
muxc _c1,dlsb
muxc _c2,dlsb
muxc _c3,#1
mov _head,#0 'reset output parameter _head
'
'
' Reset keyboard
'
reset mov dira,#0 'reset directions
mov dirb,#0
movd :par,#_present 'reset output parameters _present/_states[8]
mov x,#1+8
:par mov 0,#0
add :par,dlsb
djnz x,#:par
mov stat,#8 'set reset flag
'
'
' Update parameters
'
update movd :par,#_head 'update output parameters _head/_present/_states[8]
mov x,par
add x,#1*4
mov y,#1+1+8
:par wrlong 0,x
add :par,dlsb
add x,#4
djnz y,#:par
test stat,#8 wc 'if reset flag, transmit reset command
if_c mov data,#$FF
if_c call #transmit
'
'
' Get scancode
'
newcode mov stat,#0 'reset state
:same call #receive 'receive byte from keyboard
cmp data,#$83+1 wc 'scancode?
if_nc cmp data,#$AA wz 'powerup/reset?
if_nc_and_z jmp #configure
if_nc cmp data,#$E0 wz 'extended?
if_nc_and_z or stat,#1
if_nc_and_z jmp #:same
if_nc cmp data,#$F0 wz 'released?
if_nc_and_z or stat,#2
if_nc_and_z jmp #:same
if_nc jmp #newcode 'unknown, ignore
'
'
' Translate scancode and enter into buffer
'
test stat,#1 wc 'lookup code with extended flag
rcl data,#1
call #look
cmp data,#0 wz 'if unknown, ignore
if_z jmp #newcode
mov t,_states+6 'remember lock keys in _states
mov x,data 'set/clear key bit in _states
shr x,#5
add x,#_states
movd :reg,x
mov y,#1
shl y,data
test stat,#2 wc
:reg muxnc 0,y
if_nc cmpsub data,#$F0 wc 'if released or shift/ctrl/alt/win, done
if_c jmp #update
mov y,_states+7 'get shift/ctrl/alt/win bit pairs
shr y,#16
cmpsub data,#$E0 wc 'translate keypad, considering numlock
if_c test _locks,#%100 wz
if_c_and_z add data,#@keypad1-@table
if_c_and_nz add data,#@keypad2-@table
if_c call #look
if_c jmp #:flags
cmpsub data,#$DD wc 'handle scrlock/capslock/numlock
if_c mov x,#%001_000
if_c shl x,data
if_c andn x,_locks
if_c shr x,#3
if_c shr t,#29 'ignore auto-repeat
if_c andn x,t wz
if_c xor _locks,x
if_c add data,#$DD
if_c_and_nz or stat,#4 'if change, set configure flag to update leds
test y,#%11 wz 'get shift into nz
if_nz cmp data,#$60+1 wc 'check shift1
if_nz_and_c cmpsub data,#$5B wc
if_nz_and_c add data,#@shift1-@table
if_nz_and_c call #look
if_nz_and_c andn y,#%11
if_nz cmp data,#$3D+1 wc 'check shift2
if_nz_and_c cmpsub data,#$27 wc
if_nz_and_c add data,#@shift2-@table
if_nz_and_c call #look
if_nz_and_c andn y,#%11
test _locks,#%010 wc 'check shift-alpha, considering capslock
muxnc :shift,#$20
test _locks,#$40 wc
if_nz_and_nc xor :shift,#$20
cmp data,#"z"+1 wc
if_c cmpsub data,#"a" wc
:shift if_c add data,#"A"
if_c andn y,#%11
:flags ror data,#8 'add shift/ctrl/alt/win flags
mov x,#4 '+$100 if shift
:loop test y,#%11 wz '+$200 if ctrl
shr y,#2 '+$400 if alt
if_nz or data,#1 '+$800 if win
ror data,#1
djnz x,#:loop
rol data,#12
rdlong x,par 'if room in buffer and key valid, enter
sub x,#1
and x,#$F
cmp x,_head wz
if_nz test data,#$FF wz
if_nz mov x,par
if_nz add x,#11*4
if_nz add x,_head
if_nz add x,_head
if_nz wrword data,x
if_nz add _head,#1
if_nz and _head,#$F
test stat,#4 wc 'if not configure flag, done
if_nc jmp #update 'else configure to update leds
'
'
' Configure keyboard
'
configure mov data,#$F3 'set keyboard auto-repeat
call #transmit
mov data,_auto
and data,#%11_11111
call #transmit
mov data,#$ED 'set keyboard lock-leds
call #transmit
mov data,_locks
rev data,#-3 & $1F
test data,#%100 wc
rcl data,#1
and data,#%111
call #transmit
mov x,_locks 'insert locks into _states
and x,#%111
shl _states+7,#3
or _states+7,x
ror _states+7,#3
mov _present,#1 'set _present
jmp #update 'done
'
'
' Lookup byte in table
'
look ror data,#2 'perform lookup
movs :reg,data
add :reg,#table
shr data,#27
mov x,data
:reg mov data,0
shr data,x
jmp #rand 'isolate byte
'
'
' Transmit byte to keyboard
'
transmit
_c1 or dira,cmask 'pull clock low
movs napshr,#13 'hold clock for ~128us (must be >100us)
call #nap
_d1 or dira,dmask 'pull data low
movs napshr,#18 'hold data for ~4us
call #nap
_c2 xor dira,cmask 'release clock
test data,#$0FF wc 'append parity and stop bits to byte
muxnc data,#$100
or data,dlsb
mov x,#10 'ready 10 bits
transmit_bit call #wait_c0 'wait until clock low
shr data,#1 wc 'output data bit
_d2 muxnc dira,dmask
mov wcond,c1 'wait until clock high
call #wait
djnz x,#transmit_bit 'another bit?
mov wcond,c0d0 'wait until clock and data low
call #wait
mov wcond,c1d1 'wait until clock and data high
call #wait
call #receive_ack 'receive ack byte with timed wait
cmp data,#$FA wz 'if ack error, reset keyboard
if_nz jmp #reset
transmit_ret ret
'
'
' Receive byte from keyboard
'
receive test _cpin,#$20 wc 'wait indefinitely for initial clock low
waitpne cmask,cmask
receive_ack
mov x,#11 'ready 11 bits
receive_bit call #wait_c0 'wait until clock low
movs napshr,#16 'pause ~16us
call #nap
_d3 test dmask,ina wc 'input data bit
rcr data,#1
mov wcond,c1 'wait until clock high
call #wait
djnz x,#receive_bit 'another bit?
shr data,#22 'align byte
test data,#$1FF wc 'if parity error, reset keyboard
if_nc jmp #reset
rand and data,#$FF 'isolate byte
look_ret
receive_ack_ret
receive_ret ret
'
'
' Wait for clock/data to be in required state(s)
'
wait_c0 mov wcond,c0 '(wait until clock low)
wait mov y,tenms 'set timeout to 10ms
wloop movs napshr,#18 'nap ~4us
call #nap
_c3 test cmask,ina wc 'check required state(s)
_d4 test dmask,ina wz 'loop until got state(s) or timeout
wcond if_never djnz y,#wloop '(replaced with c0/c1/c0d0/c1d1)
tjz y,#reset 'if timeout, reset keyboard
wait_ret
wait_c0_ret ret
c0 if_c djnz y,#wloop '(if_never replacements)
c1 if_nc djnz y,#wloop
c0d0 if_c_or_nz djnz y,#wloop
c1d1 if_nc_or_z djnz y,#wloop
'
'
' Nap
'
nap rdlong t,#0 'get clkfreq
napshr shr t,#18/16/13 'shr scales time
min t,#3 'ensure waitcnt won't snag
add t,cnt 'add cnt to time
waitcnt t,#0 'wait until time elapses (nap)
nap_ret ret
'
'
' Initialized data
'
'
dlsb long 1 << 9
tenms long 10_000 / 4
'
'
' Lookup table
' ascii scan extkey regkey ()=keypad
'
table word $0000 '00
word $00D8 '01 F9
word $0000 '02
word $00D4 '03 F5
word $00D2 '04 F3
word $00D0 '05 F1
word $00D1 '06 F2
word $00DB '07 F12
word $0000 '08
word $00D9 '09 F10
word $00D7 '0A F8
word $00D5 '0B F6
word $00D3 '0C F4
word $0009 '0D Tab
word $0060 '0E `
word $0000 '0F
word $0000 '10
word $F5F4 '11 Alt-R Alt-L
word $00F0 '12 Shift-L
word $0000 '13
word $F3F2 '14 Ctrl-R Ctrl-L
word $0071 '15 q
word $0031 '16 1
word $0000 '17
word $0000 '18
word $0000 '19
word $0079 '1A z y
word $0073 '1B s
word $0061 '1C a
word $0077 '1D w
word $0032 '1E 2
word $F600 '1F Win-L
word $0000 '20
word $0063 '21 c
word $0078 '22 x
word $0064 '23 d
word $0065 '24 e
word $0034 '25 4
word $0033 '26 3
word $F700 '27 Win-R
word $0000 '28
word $0020 '29 Space
word $0076 '2A v
word $0066 '2B f
word $0074 '2C t
word $0072 '2D r
word $0035 '2E 5
word $CC00 '2F Apps
word $0000 '30
word $006E '31 n
word $0062 '32 b
word $0068 '33 h
word $0067 '34 g
word $007A '35 y z
word $0036 '36 6
word $CD00 '37 Power
word $0000 '38
word $002C '39 ,
word $006D '3A m
word $006A '3B j
word $0075 '3C u
word $0037 '3D 7
word $0038 '3E 8
word $CE00 '3F Sleep
word $0000 '40
word $002C '41 ,
word $006B '42 k
word $0069 '43 i
word $006F '44 o
word $0030 '45 0
word $0039 '46 9
word $0000 '47
word $0000 '48
word $002E '49 .
word $002D '4A (/) / -
word $006C '4B l
word $007B '4C } <00>
word $0070 '4D p
word $002B '4E +
word $0000 '4F
word $0000 '50
word $0000 '51
word $007D '52 { <00>
word $0000 '53
word $005B '54 [ <00>
word $003D '55 =
word $0000 '56
word $0000 '57
word $00DE '58 CapsLock
word $00F1 '59 Shift-R
word $EB0D '5A (Enter) Enter
word $005D '5B ]
word $0000 '5C
word $0023 '5D \ #
word $CF00 '5E WakeUp
word $0000 '5F
word $0000 '60
word $003C '61 <
word $0000 '62
word $0000 '63
word $0000 '64
word $0000 '65
word $00C8 '66 BackSpace
word $0000 '67
word $0000 '68
word $C5E1 '69 End (1)
word $0000 '6A
word $C0E4 '6B Left (4)
word $C4E7 '6C Home (7)
word $0000 '6D
word $0000 '6E
word $0000 '6F
word $CAE0 '70 Insert (0)
word $C9EA '71 Delete (.)
word $C3E2 '72 Down (2)
word $00E5 '73 (5)
word $C1E6 '74 Right (6)
word $C2E8 '75 Up (8)
word $00CB '76 Esc
word $00DF '77 NumLock
word $00DA '78 F11
word $00EC '79 (+)
word $C7E3 '7A PageDn (3)
word $00ED '7B (-)
word $DCEE '7C PrScr (*)
word $C6E9 '7D PageUp (9)
word $00DD '7E ScrLock
word $0000 '7F
word $0000 '80
word $0000 '81
word $0000 '82
word $00D6 '83 F7
keypad1 byte $CA, $C5, $C3, $C7, $C0, 0, $C1, $C4, $C2, $C6, $C9, $0D, "+-*/"
keypad2 byte "0123456789.", $0D, "+-*/"
shift1 byte "{|}__<00>________" '5B..60
'"{|}", 0, 0, "~"
shift2 byte "}___*;_:?=!",$22,"@$%&/()e<00>>+" '24..3D
'$22, 0, 0, 0, 0, "<_>?)!@#$%^&*(", 0, ":", 0, "+"
'
'
' Uninitialized data
'
dmask res 1
cmask res 1
stat res 1
data res 1
x res 1
y res 1
t res 1
_head res 1 'write-only
_present res 1 'write-only
_states res 8 'write-only
_dpin res 1 'read-only at start
_cpin res 1 'read-only at start
_locks res 1 'read-only at start
_auto res 1 'read-only at start
''
''
'' _________
'' Key Codes
''
'' 00..DF = keypress and keystate
'' E0..FF = keystate only
''
''
'' 09 Tab
'' 0D Enter
'' 20 Space
'' 21 !
'' 22 "
'' 23 #
'' 24 $
'' 25 %
'' 26 &
'' 27 '
'' 28 (
'' 29 )
'' 2A *
'' 2B +
'' 2C ,
'' 2D -
'' 2E .
'' 2F /
'' 30 0..9
'' 3A :
'' 3B ;
'' 3C <
'' 3D =
'' 3E >
'' 3F ?
'' 40 @
'' 41..5A A..Z
'' 5B [
'' 5C \
'' 5D ]
'' 5E ^
'' 5F _
'' 60 `
'' 61..7A a..z
'' 7B {
'' 7C |
'' 7D }
'' 7E ~
''
'' 80-BF (future international character support)
''
'' C0 Left Arrow
'' C1 Right Arrow
'' C2 Up Arrow
'' C3 Down Arrow
'' C4 Home
'' C5 End
'' C6 Page Up
'' C7 Page Down
'' C8 Backspace
'' C9 Delete
'' CA Insert
'' CB Esc
'' CC Apps
'' CD Power
'' CE Sleep
'' CF Wakeup
''
'' D0..DB F1..F12
'' DC Print Screen
'' DD Scroll Lock
'' DE Caps Lock
'' DF Num Lock
''
'' E0..E9 Keypad 0..9
'' EA Keypad .
'' EB Keypad Enter
'' EC Keypad +
'' ED Keypad -
'' EE Keypad *
'' EF Keypad /
''
'' F0 Left Shift
'' F1 Right Shift
'' F2 Left Ctrl
'' F3 Right Ctrl
'' F4 Left Alt
'' F5 Right Alt
'' F6 Left Win
'' F7 Right Win
''
'' FD Scroll Lock State
'' FE Caps Lock State
'' FF Num Lock State
''
'' +100 if Shift
'' +200 if Ctrl
'' +400 if Alt
'' +800 if Win
''
'' eg. Ctrl-Alt-Delete = $6C9
''
''
'' Note: Driver will buffer up to 15 keystrokes, then ignore overflow.
{{
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% TERMS OF USE: MIT License %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%$%
%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. %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
}}