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4 Commits

Author SHA1 Message Date
Virgil Dupras
7b7e60ed4a avra: implement LD/ST
Still making great progress on sms/kbd/ps2ctl. Still matching ref
binary.
2020-05-18 22:28:58 -04:00
Virgil Dupras
6a55a04f22 sms/kbd: still advancing on ps2ctl
next step: implement ST.
2020-05-18 20:55:10 -04:00
Virgil Dupras
e0bc14e55c avra: implement BR*
Getting good! still advancing on ps2ctl in sms/kbd and still
matching reference binary.
2020-05-18 20:34:06 -04:00
Virgil Dupras
cdddfdefae avra: add a layer of indirection to FLBL!
This will make it easier to fit BR* in there.
2020-05-18 19:45:30 -04:00
8 changed files with 174 additions and 19 deletions

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@ -1 +1 @@
1 9 LOADR+
1 11 LOADR+

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@ -5,4 +5,3 @@
: _r64c DUP 63 > IF _oor THEN ;
: _r256c DUP 255 > IF _oor THEN ;
: _Rdp ( op rd -- op', place Rd ) 4 LSHIFT OR ;

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@ -10,4 +10,4 @@
0b1111110000000000 OPRdb SBRC, 0b1111111000000000 OPRdb SBRS,
( special cases )
: CLR, DUP EOR, ; : TST, DUP AND, ;
: CLR, DUP EOR, ; : TST, DUP AND, ; : LSL, DUP ADD, ;

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@ -2,7 +2,6 @@
: _r7ffc DUP 0x7ff > IF _oor THEN ;
: _raddr12
PC - DUP 0< IF 0x800 + _r7ffc 0x800 OR ELSE _r7ffc THEN ;
0xc0 CONSTANT RJMPOP
0xd0 CONSTANT RCALLOP
: RJMP, _raddr12 RJMPOP 8 LSHIFT OR A,, ;
: RCALL, _raddr12 RCALLOP 8 LSHIFT OR A,, ;
: RJMP _raddr12 0xc000 OR ;
: RCALL _raddr12 0xd000 OR ;
: RJMP, RJMP A,, ; : RCALL, RCALL A,, ;

20
blk/669
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@ -1,10 +1,12 @@
( ex: L1 LBL! .. L1 @ RJMP, )
: LBL! ( l -- ) PC SWAP ! ;
( ex: L1 FLBL, .. RJMPOP L1 FLBL! )
: FLBL, ( l -- ) LBL! 0 A,, ;
: FLBL! ( op l -- )
@ DUP PC -^ 1- ( op l off )
ROT 8 LSHIFT OR ( l op' )
( warning: l is a PC offset, not a mem addr! )
SWAP 2 * ORG @ + ( op' addr ) ! ;
( a -- k7, absolute addr a, relative to PC in a k7 addr )
: _r3fc DUP 0x3f > IF _oor THEN ;
: _raddr7
PC - DUP 0< IF 0x40 + _r3fc 0x40 OR ELSE _r3fc THEN ;
: _brbx ( a b op -- a ) OR SWAP _raddr7 3 LSHIFT OR ;
: BRBC 0xf400 _brbx ; : BRBS 0xf000 _brbx ; : BRCC 0 BRBC ;
: BRCS 0 BRBS ; : BREQ 1 BRBS ; : BRNE 1 BRBC ; : BRGE 4 BRBC ;
: BRHC 5 BRBC ; : BRHS 5 BRBS ; : BRID 7 BRBC ; : BRIE 7 BRBS ;
: BRLO BRCS ; : BRLT 4 BRBS ; : BRMI 2 BRBS ; : BRPL 2 BRBC ;
: BRSH BRCC ; : BRTC 6 BRBC ; : BRTS 6 BRBS ; : BRVC 3 BRBC ;
: BRVS 3 BRBS ;

6
blk/670 Normal file
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@ -0,0 +1,6 @@
0b11100 CONSTANT X 0b01000 CONSTANT Y 0b00000 CONSTANT Z
0b11101 CONSTANT X+ 0b11001 CONSTANT Y+ 0b10001 CONSTANT Z+
0b11110 CONSTANT -X 0b11010 CONSTANT -Y 0b10010 CONSTANT -Z
: _ldst ( Rd XYZ op ) SWAP DUP 0x10 AND 8 LSHIFT SWAP 0xf AND
OR OR ( Rd op' ) SWAP _Rdp A,, ;
: LD, 0x8000 _ldst ; : ST, SWAP 0x8200 _ldst ;

11
blk/671 Normal file
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@ -0,0 +1,11 @@
( L1 LBL! .. L1 ' RJMP LBL, )
: LBL! ( l -- ) PC SWAP ! ;
: LBL, ( l op -- ) SWAP @ 1- SWAP EXECUTE A,, ;
( L1 FLBL, .. L1 ' RJMP FLBL! )
: FLBL, ( l -- ) LBL! 0 A,, ;
: FLBL! ( l opw -- )
( warning: l is a PC offset, not a mem addr! )
SWAP @ 2 * ORG @ + PC 1- H@ ( opw addr tgt hbkp )
ROT HERE ! ( opw tgt hbkp ) SWAP ROT EXECUTE H@ ! ( hbkp )
HERE ! ;

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@ -40,6 +40,8 @@ Z: pointer to the next scan code to push to the 595 )
0x35 CONSTANT MCUCR
0x33 CONSTANT TCCR0B
0x3b CONSTANT GIMSK
0x38 CONSTANT TIFR
0x32 CONSTANT TCNT0
0x16 CONSTANT PINB
0x17 CONSTANT DDRB
0x18 CONSTANT PORTB
@ -48,7 +50,9 @@ Z: pointer to the next scan code to push to the 595 )
3 CONSTANT CP
0 CONSTANT LQ
4 CONSTANT LR
0x100-100 CONSTANT TIMER_INITVAL
0x100 100 - CONSTANT TIMER_INITVAL
( We need a lot of labels in this program... )
VARIABLE L5 VARIABLE L6 VARIABLE L7 VARIABLE L8
H@ ORG !
L1 FLBL, ( main )
@ -56,13 +60,13 @@ L2 FLBL, ( hdlINT0 )
( Read DATA and set GPIOR0/0 if high. Then, set flag T.
no SREG fiddling because no SREG-modifying instruction )
RJMPOP L2 FLBL! ( hdlINT0 )
L2 ' RJMP FLBL! ( hdlINT0 )
PINB DATA SBIC,
GPIOR0 0 SBI,
SET,
RETI,
RJMPOP L1 FLBL! ( main )
L1 ' RJMP FLBL! ( main )
16 RAMEND 0xff AND LDI,
SPL 16 OUT,
16 RAMEND 8 RSHIFT LDI,
@ -95,4 +99,138 @@ DDRB LR SBI,
SEI,
L1 LBL! ( loop )
L2 FLBL, ( BRTS processbit. flag T set? we have a bit to
process )
28 ( YL ) 30 ( ZL ) CP, ( if YL == ZL, buf is empty )
L3 FLBL, ( BRNE sendTo164. YL != ZL? buf has data )
( nothing to do. Before looping, let's check if our
communication timer overflowed. )
16 TIFR IN,
16 1 ( TOV0 ) SBRC,
L4 FLBL, ( RJMP processbitReset, timer0 overflow? reset )
( Nothing to do for real. )
L1 ' RJMP LBL, ( loop )
( Process the data bit received in INT0 handler. )
L2 ' BRTS FLBL! ( processbit )
19 GPIOR0 IN, ( backup GPIOR0 before we reset T )
19 0x1 ANDI, ( only keep the first flag )
GPIOR0 0 CBI,
CLT, ( ready to receive another bit )
( We've received a bit. reset timer )
L2 FLBL, ( RCALL resetTimer )
( Which step are we at? )
18 TST,
L5 FLBL, ( BREQ processbits0 )
18 1 CPI,
L6 FLBL, ( BREQ processbits1 )
18 2 CPI,
L7 FLBL, ( BREQ processbits2 )
( step 3: stop bit )
18 CLR, ( happens in all cases )
( DATA has to be set )
19 TST, ( was DATA set? )
L1 ' BREQ LBL, ( loop, not set? error, don't push to buf )
( push r17 to the buffer )
Y+ 17 ST,
L8 FLBL, ( RCALL checkBoundsY )
L1 ' RJMP LBL,
L5 ' BREQ FLBL! ( processbits0 )
( step 0 - start bit )
( DATA has to be cleared )
19 TST, ( was DATA set? )
L1 ' BRNE LBL, ( loop. set? error. no need to do anything. keep
r18 as-is. )
( DATA is cleared. prepare r17 and r18 for step 1 )
18 INC,
17 0x80 LDI,
L1 ' RJMP LBL, ( loop )
L6 ' BREQ FLBL! ( processbits1 )
( step 1 - receive bit
We're about to rotate the carry flag into r17. Let's set it
first depending on whether DATA is set. )
CLC,
19 0 SBRC, ( skip if DATA is cleared )
SEC,
( Carry flag is set )
17 ROR,
( Good. now, are we finished rotating? If carry flag is set,
it means that we've rotated in 8 bits. )
L1 ' BRCC LBL, ( loop )
( We're finished, go to step 2 )
18 INC,
L1 ' RJMP LBL, ( loop )
L7 ' BREQ FLBL! ( processbits2 )
( step 2 - parity bit )
1 19 MOV,
19 17 MOV,
L5 FLBL, ( RCALL checkParity )
1 16 CP,
L6 FLBL, ( BRNE processBitError, r1 != r16? wrong parity )
18 INC,
L1 ' RJMP LBL, ( loop )
L6 ' BRNE FLBL! ( processBitError )
18 CLR,
19 0xfe LDI,
L6 FLBL, ( RCALL sendToPS2 )
L1 ' RJMP LBL, ( loop )
L4 ' RJMP FLBL! ( processbitReset )
18 CLR,
L4 FLBL, ( RCALL resetTimer )
L1 ' RJMP LBL, ( loop )
L3 ' BRNE FLBL! ( sendTo164 )
( Send the value of r20 to the '164 )
PINB LQ SBIS, ( LQ is set? we can send the next byte )
L1 ' RJMP LBL, ( loop, even if we have something in the
buffer, we can't: the SMS hasn't read our
previous buffer yet. )
( We disable any interrupt handling during this routine.
Whatever it is, it has no meaning to us at this point in time
and processing it might mess things up. )
CLI,
DDRB DATA SBI,
20 Z+ LD,
L3 FLBL, ( RCALL checkBoundsZ )
16 8 LDI,
L7 LBL! ( sendToPS2Loop )
PORTB DATA CBI,
20 7 SBRC, ( if leftmost bit isn't cleared, set DATA high )
PORTB DATA SBI,
( toggle CP )
PORTB CP CBI,
20 LSL,
PORTB CP SBI,
16 DEC,
L7 ' BRNE LBL, ( sendToPS2Loop, not zero yet? loop )
( release PS/2 )
DDRB DATA CBI,
SEI,
( Reset the latch to indicate that the next number is ready )
PORTB LR SBI,
PORTB LR CBI,
L1 ' RJMP LBL, ( loop )
L2 ' RCALL FLBL! L4 ' RCALL FLBL! L2 LBL! ( resetTimer )
16 TIMER_INITVAL LDI,
TCNT0 16 OUT,
16 0x02 ( TOV0 ) LDI,
TIFR 16 OUT,
RET,
L6 ' RCALL FLBL! ( sendToPS2 )
( Send the value of r19 to the PS/2 keyboard )
CLI,
( First, indicate our request to send by holding both Clock low
for 100us, then pull Data low lines low for 100us. )
PORTB CLK CBI,
DDRB CLK SBI,
L2 ' RCALL LBL, ( resetTimer )