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Comparing vt102/vt102 (file contents):
Revision 1.4 by root, Mon Dec 1 18:31:02 2014 UTC vs.
Revision 1.16 by root, Wed Dec 3 02:15:18 2014 UTC

15# 15#
16 16
17# If this file contains embedded ROMs, the above copyright notice does 17# If this file contains embedded ROMs, the above copyright notice does
18# not apply to them. 18# not apply to them.
19 19
20# this hack is not considered release ready in and way, shape, or form 20use strict;
21# ./vt102 bash
22# ./vt102 telnet towel.blinkenlights.nl
23# ./vt102 curl http://artscene.textfiles.com/vt100/trekvid.vt
24# ./vt102 curl http://artscene.textfiles.com/vt100/surf.vt # in 3d!
25
26# TODO: ctrl
27
28use common::sense; 21#use common::sense;
29
30$| = 1;
31 22
32my $VT102 = 1; 23my $VT102 = 1;
33my $AVO = $VT102 || 1; 24my $VT131 = 0;
34my $KBD = 1; 25my $AVO = 1;
35 26
27shift, ($VT102 = 0), ($AVO = 0) if $ARGV[0] =~ /^-?-vt100$/;
28shift, ($VT102 = 0) if $ARGV[0] =~ /^-?-vt100\+avo$/;
29shift if $ARGV[0] =~ /^-?-vt102$/;
30shift, ($VT131 = 1) if $ARGV[0] =~ /^-?-vt131$/;
31
32if ($ARGV[0] =~ /^-/) {
33 die <<EOF;
34
35VT102, A VT100/101/102/131 SIMULATOR
36
37Usage:
38
39 $0 [option] [program [args]]
40
41Examples:
42
43 $0 bash
44 $0 telnet towel.blinkenlights.nl
45 $0 curl http://artscene.textfiles.com/vt100/trekvid.vt
46 $0 curl http://artscene.textfiles.com/vt100/surf.vt # in 3d!
47
48Option can be one of:
49
50 --vt100
51 --vt100+avo
52 --vt102
53 --vt131
54
55Non-obvious special keys are:
56
57 SET UP Home
58 BACKSPACE Rubout
59 CAPS LOCK Prior/PgUp
60 NO SCROLL Next/PgDown
61 BREAK End
62
63Set-Up Guide:
64
65 http://vt100.net/docs/vt102-ug/chapter3.html#S3.6
66
67Author:
68
69 Marc Lehmann <vt102\@schmorp.de>
70
71EOF
72}
73
36############################################################################# 74#############################################################################
75# ROM/hardware init
37 76
38my $PTY; # the pty we allocated, if any 77my $PTY; # the pty we allocated, if any
78my $KBD = 1;
39 79
40my $ROM = do { 80my $ROMS = do {
41 binmode DATA; 81 binmode DATA;
42 local $/; 82 local $/;
43 <DATA> 83 <DATA>
44}; 84};
45 85
460x6001 == length $ROM or die "corrupted rom image"; 860x6801 == length $ROMS or die "corrupted rom image";
47
48binmode STDOUT;
49 87
50my @M = (0xff) x 65536; # main memory, = (0xff) x 65536; 88my @M = (0xff) x 65536; # main memory, = (0xff) x 65536;
51 89
52# populate mem with rom contents 90# populate mem with rom contents
53if ($VT102) { 91if ($VT102) {
54 @M[0x0000 .. 0x1fff] = unpack "C*", substr $ROM, 0x2000, 0x2000; 92 @M[0x0000 .. 0x1fff] = unpack "C*", substr $ROMS, 0x2000, 0x2000;
55 @M[0x8000 .. 0x9fff] = unpack "C*", substr $ROM, 0x4000, 0x2000; 93 @M[0x8000 .. 0x9fff] = unpack "C*", substr $ROMS, 0x4000, 0x2000;
94 @M[0xa000 .. 0xa7ff] = unpack "C*", substr $ROMS, 0x6000, 0x0800 if $VT131;
56} else { 95} else {
57 @M[0x0000 .. 0x1fff] = unpack "C*", substr $ROM, 0x0000, 0x2000; 96 @M[0x0000 .. 0x1fff] = unpack "C*", substr $ROMS, 0x0000, 0x2000;
58} 97}
59 98
60############################################################################# 99#############################################################################
61 100# 8085 CPU registers and I/O support
62my $PRSTATUS = 0;
63 101
64# 8080/8085 registers 102# 8080/8085 registers
65# b, c, d, e, h, l, a
66my ($A, $B, $C, $D, $E, $H, $L, $A); 103my ($A, $B, $C, $D, $E, $H, $L);
67my ($PC, $SP, $IFF, $FA, $FZ, $FS, $FP, $FC); 104my ($PC, $SP, $IFF, $FA, $FZ, $FS, $FP, $FC);
68 105
69my $RST = 0; # 8080 pending interrupts 106my $RST = 0; # 8080 pending interrupts
70my $INTMASK = 7; # 8085 half interrupts 107my $INTMASK = 7; # 8085 half interrupts
71my $INTPEND = 0; # 8085 half interrupts 108my $INTPEND = 0; # 8085 half interrupts
73my $x; # dummy temp for instructions 110my $x; # dummy temp for instructions
74 111
75my $CLK; # rather inexact clock 112my $CLK; # rather inexact clock
76 113
77############################################################################# 114#############################################################################
115# the dreaded NVR1400 chip. not needed to get it going, but provided anyway
78 116
79# nvram 117# nvram
80my @NVR = (0x3fff) x 100; # vt102: 214e accum, 214f only lower 8 bit used, first 44 bytes 118my @NVR = (0x3fff) x 100; # vt102: 214e accum, 214f only lower 8 bit used, first 44 bytes
81my $NVRADDR; 119my $NVRADDR;
82my $NVRDATA; 120my $NVRDATA;
83my $NVRLATCH; 121my $NVRLATCH;
84 122
85#$NVR[$_] = $_ for 0..99;#d#
86
87my @NVRCMD = ( 123my @NVRCMD = (
88 sub { # accept data
89 $NVRDATA = ($NVRDATA << 1) + $_[1]; 124 sub { $NVRDATA = ($NVRDATA << 1) + $_[1]; }, # 0 accept data
90 }, 125 sub { $NVRADDR = ($NVRADDR << 1) + $_[1]; }, # 1 accept addr
91 sub { # accept addr 126 sub { ($NVRDATA <<= 1) & 0x4000 }, # 2 shift out
92 $NVRADDR = ($NVRADDR << 1)+ $_[1]; 127 undef, # 3 not used, will barf
93 },
94 sub { # shift out
95 my $bit = $NVRDATA & 0x02000;
96 $NVRDATA *= 2;
97 $bit
98 },
99 undef,
100 sub { # write
101 print "NVR WRITE $_[0]\n";#d#
102 $NVR[$_[0]] = $NVRDATA & 0x3fff; 128 sub { $NVR[$_[0]] = $NVRDATA & 0x3fff; }, # 4 write
103 }, 129 sub { $NVR[$_[0]] = 0x3fff; }, # 5 erase
104 sub { # erase 130 sub { $NVRDATA = $NVR[$_[0]]; }, # 6 read
105 print "NVR ERASE $_[0]\n";#d# 131 sub { }, # 7 standby
106 $NVR[$_[0]] = 0x3fff;
107 },
108 sub { # read
109# print "NVR READ $_[0] = $NVR[$_[0]]\n";#d#
110 $NVRDATA = $NVR[$_[0]];
111 },
112 sub { # standby
113 },
114); 132);
115 133
116my @bitidx; 134my @NVR_BITIDX;
117$bitidx[1 << $_] = 9 - $_ for 0..9; 135$NVR_BITIDX[1 << $_] = 9 - $_ for 0..9;
118 136
119# the nvr1400 state machine. what a monster 137# the nvr1400 state machine. what a monster
120sub nvr() { 138sub nvr() {
121 my $a1 = $bitidx[(~$NVRADDR ) & 0x3ff]; 139 my $a1 = $NVR_BITIDX[(~$NVRADDR ) & 0x3ff];
122 my $a0 = $bitidx[(~$NVRADDR >> 10) & 0x3ff]; 140 my $a0 = $NVR_BITIDX[(~$NVRADDR >> 10) & 0x3ff];
123 141
124# printf "NVR %02x A %020b %d %d D %02x\n", $NVRLATCH, $NVRADDR & 0xfffff, $a1, $a0, $NVRDATA; 142# printf "NVR %02x A %020b %d %d D %02x\n", $NVRLATCH, $NVRADDR & 0xfffff, $a1, $a0, $NVRDATA;
125 143
126 $NVRCMD[($NVRLATCH >> 1) & 7]($a1 * 10 + $a0, $NVRLATCH & 1) 144 $NVRCMD[($NVRLATCH >> 1) & 7]($a1 * 10 + $a0, $NVRLATCH & 1)
127} 145}
128 146
129############################################################################# 147#############################################################################
148# I/O ports - output
130 149
131my $DC11 = 0; # 4 bit commands 150my $DC11_REVERSE = 0;
132my $DC12 = 0;
133 151
134my $XON = 1; # false if terminal wants us to pause 152my $XON = 1; # false if terminal wants us to pause
135my $PUSARTCMD; 153my $PUSARTCMD;
136 154
137my @KXMIT; # current scan queue 155my @KXMIT; # current scan queue
173 191
174sub out_62 { 192sub out_62 {
175 $NVRLATCH = shift; 193 $NVRLATCH = shift;
176} 194}
177 195
178sub out_a2 { $DC11 = shift } 196sub out_a2 {
197 my $dc11 = 0x0f & shift;
198
199 $DC11_REVERSE = 1 if $dc11 == 0b1010;
200 $DC11_REVERSE = 0 if $dc11 == 0b1011;
201}
202
179sub out_c2 { } # unknown 203sub out_c2 { } # unknown
180sub out_d2 { $DC12 = shift } 204sub out_d2 { } # 0..3 == 80c/132c/60hz/50hz
181 205
182sub out_82 { 206sub out_82 {
183 # keyboard 207 # keyboard
184 208
185 # CLICK STARTSCAN ONLINE LOCKED | CTS DSR INSERT L1(?) 209 # CLICK STARTSCAN ONLINE LOCKED | CTS DSR INS L1
186 # CLICK STARTSCAN ONLINE LOCKED | LED1 LED2 LED3 LED4 210 # CLICK STARTSCAN ONLINE LOCKED | L1 L2 L3 L4
187 $KSTATUS = $_[0]; 211 $KSTATUS = $_[0];
188 212
189 # start new scan unless scan in progress 213 # start new scan unless scan in progress
190 if (($_[0] & 0x40) && !@KXMIT) { 214 if (($_[0] & 0x40) && !@KXMIT) {
191 # do not reply with keys in locked mode 215 # do not reply with keys in locked mode
214 $RST |= 1; 238 $RST |= 1;
215 } 239 }
216} 240}
217 241
218############################################################################# 242#############################################################################
243# I/O ports - input
219 244
220my $NVRBIT; 245my $NVRBIT;
221my $LBA; 246my $LBA6; # twice the frequenxy of LBA7
222 247
223sub in_00 { # pusart data 248sub in_00 { # pusart data
224 # interrupt not generated here, because infinite 249 # interrupt not generated here, because infinite
225 # speed does not go well with the vt102. 250 # speed does not go well with the vt102.
226 251
235sub in_22 { # modem buffer(?) 260sub in_22 { # modem buffer(?)
236 # wild guess: -CTS -SPDI -RI -CD 0 0 0 0 261 # wild guess: -CTS -SPDI -RI -CD 0 0 0 0
237 0x20 262 0x20
238} 263}
239 264
240sub in_0f { } # unknown, connected to out 2f 265sub in_0f { 0xff } # vt102 unknown, connected to out 2f
241 266
242sub in_42 { # flag buffer 267sub in_42 { # flag buffer
243 ++$LBA; 268 ++$LBA6;
244 269
245 $NVRBIT = nvr ? 0x20 : 0x00 if ($LBA & 0x3) == 0x2; 270 $NVRBIT = nvr ? 0x20 : 0x00 if ($LBA6 & 0x3) == 0x2;
246 271
247 # KBD_XMITEMPTY LBA7 NVRDATA ODDFIELD - OPTION !GFX !AVO PUSART_TXRDY 272 # KBD_XMITEMPTY LBA7 NVRDATA ODDFIELD - OPTION !GFX !AVO PUSART_TXRDY
248 273
249 my $f = 0x85 | $NVRBIT; 274 my $f = 0x85 | $NVRBIT;
250 275
251 $f |= 0x02 unless $AVO; 276 $f |= 0x02 unless $AVO;
252 $f |= 0x40 if $LBA & 0x2; 277 $f |= 0x40 if $LBA6 & 0x2;
253 278
254 $f 279 $f
255} 280}
256 281
257sub in_82 { # tbmt keyboard uart 282sub in_82 { # tbmt keyboard uart
259 284
260 $RST |= 1; 285 $RST |= 1;
261 shift @KXMIT 286 shift @KXMIT
262} 287}
263 288
264sub in_03 { 0xff } # unknown, printer uart input? 289sub in_03 { 0xff } # vt102 unknown, printer uart input?
265sub in_0b { 0xff } # unknown 290sub in_0b { 0xff } # vt102 unknown
266sub in_17 { 0xff } # unknown, printer status clear by reading? 291sub in_17 { 0xff } # vt102 unknown, printer status clear by reading?
267sub in_1b { 0xff } # unknown 292sub in_1b { 0xff } # vt102 unknown
268 293
269############################################################################# 294#############################################################################
295# 8085 cpu opcodes and flag handling
270 296
271sub sf { # set flags (ZSC - AP not implemented) 297sub sf { # set flags (ZSC - AP not implemented)
272 $FS = $_[0] & 0x080; 298 $FS = $_[0] & 0x080;
273 $FZ = ($_[0] & 0x0ff) == 0; 299 $FZ = !($_[0] & 0x0ff);
274 $FC = $_[0] & 0x100; 300 $FC = $_[0] & 0x100;
275 301
276 $_[0] & 0xff 302 $_[0] &= 0xff;
303}
304
305sub sf8 { # set flags (ZSC - AP not implemented)
306 $FS = $_[0] & 0x080;
307 $FZ = !($_[0] & 0x0ff);
308 $FC = 0;
277} 309}
278 310
279sub sf_nc { # set flags except carry 311sub sf_nc { # set flags except carry
280 $FS = $_[0] & 0x080; 312 $FS = $_[0] & 0x080;
281 $FZ = ($_[0] & 0x0ff) == 0; 313 $FZ = ($_[0] & 0x0ff) == 0;
282 314
283 $_[0] & 0xff 315 $_[0] &= 0xff;
284} 316}
285 317
286my @op = map { sprintf "status(); die 'unknown op %02x'", $_ } 0 .. 255; 318my @op = map { sprintf "status(); die 'unknown op %02x'", $_ } 0x00 .. 0xff;
287my @ops;
288 319
289my @reg = qw($B $C $D $E $H $L $M[$H*256+$L] $A); 320my @reg = qw($B $C $D $E $H $L $M[$H*256+$L] $A);
290my @cc = ('if !$FZ', 'if $FZ', 'if !$FC', 'if $FC', ';die', ';die', 'if !$FS', 'if $FS'); # die == unimplemented $FP parity 321my @cc = ('if !$FZ', 'if $FZ', 'if !$FC', 'if $FC', ';die', ';die', 'if !$FS', 'if $FS'); # die == unimplemented $FP parity
322
323$op[0x00] = '';
291 324
292# mov r,r / r,M / M,r 325# mov r,r / r,M / M,r
293for my $s (0..7) { 326for my $s (0..7) {
294 for my $d (0..7) { 327 for my $d (0..7) {
295 $op[0x40 + $d * 8 + $s] = "$reg[$d] = $reg[$s]"; 328 $op[0x40 + $d * 8 + $s] = "$reg[$d] = $reg[$s]"; # mov
296 } 329 }
297} 330}
298 331
299$op[0x00] = ''; 332$op[0x76] = 'die "HLT"'; # hlt (mov m,m)
333
334# mvi r / M
335$op[0x06 + $_ * 8] = "$reg[$_] = IMM8" for 0..7;
300 336
301$op[0x01] = '($B, $C) = (IMM16 >> 8, IMM16 & 0xff)'; # lxi 337$op[0x01] = '($B, $C) = (IMM16 >> 8, IMM16 & 0xff)'; # lxi
302$op[0x11] = '($D, $E) = (IMM16 >> 8, IMM16 & 0xff)'; # lxi 338$op[0x11] = '($D, $E) = (IMM16 >> 8, IMM16 & 0xff)'; # lxi
303$op[0x21] = '($H, $L) = (IMM16 >> 8, IMM16 & 0xff)'; # lxi 339$op[0x21] = '($H, $L) = (IMM16 >> 8, IMM16 & 0xff)'; # lxi
304$op[0x31] = '$SP = IMM16' ; # lxi #d# 0xf000 because of limited stack 340$op[0x31] = '$SP = IMM16' ; # lxi
305 341
306$op[0x02] = '$M[$B * 256 + $C] = $A'; # stax 342$op[0x02] = '$M[$B * 256 + $C] = $A'; # stax
307$op[0x12] = '$M[$D * 256 + $E] = $A'; # stax 343$op[0x12] = '$M[$D * 256 + $E] = $A'; # stax
308$op[0x32] = '$M[IMM16 ] = $A'; # sta 344$op[0x32] = '$M[IMM16 ] = $A'; # sta
309 345
346$op[0x0a] = '$A = $M[$B * 256 + $C]'; # ldax b
347$op[0x1a] = '$A = $M[$D * 256 + $E]'; # ldax d
348$op[0x3a] = '$A = $M[IMM16]'; # lda
349
350$op[0x22] = '($M[IMM16], $M[IMM16 + 1]) = ($L, $H)'; # shld
351$op[0x2a] = '($L, $H) = ($M[IMM16], $M[IMM16 + 1])'; # lhld
352
310sub inxdcx($$$) { 353sub inxdcx($$$) {
311 $x = ($_[0] * 256 + $_[1] + $_[2]) & 0xffff; 354 $x = $_[0] * 256 + $_[1] + $_[2];
312 $_[0] = $x >> 8; 355 ($_[0], $_[1]) = (($x >> 8) & 0xff, $x & 0xff);
313 $_[1] = $x & 0xff;
314} 356}
315 357
316$op[0x03] = 'inxdcx $B, $C, 1'; # inx 358$op[0x03] = 'inxdcx $B, $C, 1'; # inx
317$op[0x13] = 'inxdcx $D, $E, 1'; # inx 359$op[0x13] = 'inxdcx $D, $E, 1'; # inx
318$op[0x23] = 'inxdcx $H, $L, 1'; # inx 360$op[0x23] = 'inxdcx $H, $L, 1'; # inx
321$op[0x1b] = 'inxdcx $D, $E, -1'; # dcx 363$op[0x1b] = 'inxdcx $D, $E, -1'; # dcx
322$op[0x2b] = 'inxdcx $H, $L, -1'; # dcx 364$op[0x2b] = 'inxdcx $H, $L, -1'; # dcx
323$op[0x3b] = '--$SP' ; # dcx 365$op[0x3b] = '--$SP' ; # dcx
324 366
325# "no carry" doesn't seem to be needed for vt100 - optimize? 367# "no carry" doesn't seem to be needed for vt100 - optimize?
326$op[0x04 + $_ * 8] = "$reg[$_] = sf_nc $reg[$_] + 1" for 0..7; # inr
327$op[0x05 + $_ * 8] = "$reg[$_] = sf_nc $reg[$_] - 1" for 0..7; # dcr
328
329# mvi r / M
330$op[0x06 + $_ * 8] = "$reg[$_] = IMM8" for 0..7; 368$op[0x04 + $_ * 8] = "sf_nc ++$reg[$_]" for 0..7; # inr
369$op[0x05 + $_ * 8] = "sf_nc --$reg[$_]" for 0..7; # dcr
370
371$op[0x07] = ' $FC = $A & 0x80; $A = (($A << 1) + ($FC && 0x01)) & 0xff '; # rlc
372$op[0x17] = ' ($FC, $A) = ($A & 0x80, (($A << 1) + ($FC && 0x01)) & 0xff)'; # ral
373
374$op[0x0f] = ' $FC = $A & 0x01; $A = ($A >> 1) | ($FC && 0x80) '; # rrc
375$op[0x1f] = ' ($FC, $A) = ($A & 0x01, ($A >> 1) | ($FC && 0x80))'; # rar
376
377$op[0x2f] = '$A ^= 0xff'; # cma
331 378
332# getting this insn wrong (its the only 16 bit insn to modify flags) 379# getting this insn wrong (its the only 16 bit insn to modify flags)
333# wasted three of my best days with mindless vt102 rom reverse engineering 380# wasted three of my best days with mindless vt102 rom reverse engineering
334sub dad { 381sub dad {
335 $x = $H * 256 + $L + $_[0]; 382 $x = $H * 256 + $L + $_[0];
341$op[0x09] = 'dad $B * 256 + $C'; # dad 388$op[0x09] = 'dad $B * 256 + $C'; # dad
342$op[0x19] = 'dad $D * 256 + $E'; # dad 389$op[0x19] = 'dad $D * 256 + $E'; # dad
343$op[0x29] = 'dad $H * 256 + $L'; # dad 390$op[0x29] = 'dad $H * 256 + $L'; # dad
344$op[0x39] = 'dad $SP '; # dad 391$op[0x39] = 'dad $SP '; # dad
345 392
346$op[0x07] = ' $FC = $A >> 7; $A = ($A * 2 + $FC) & 0xff '; # rlc 393$op[0x80 + $_] = 'sf $A += + ' . $reg[$_] for 0..7; # add
347$op[0x17] = ' ($FC, $A) = ($A >> 7, ($A * 2 + $FC) & 0xff)'; # ral 394$op[0x88 + $_] = 'sf $A += ($FC && 1) + ' . $reg[$_] for 0..7; # adc
395$op[0x90 + $_] = 'sf $A -= + ' . $reg[$_] for 0..7; # sub
396$op[0x98 + $_] = 'sf $A -= ($FC && 1) + ' . $reg[$_] for 0..7; # sbb
397$op[0xa0 + $_] = 'sf8 $A &= ' . $reg[$_] for 0..7; # ana
398$op[0xa8 + $_] = 'sf8 $A ^= ' . $reg[$_] for 0..7; # xra
399$op[0xb0 + $_] = 'sf8 $A |= ' . $reg[$_] for 0..7; # ora
400$op[0xb8 + $_] = 'sf $x = $A - ' . $reg[$_] for 0..7; # cmp
401# possible todo: optimize ora a, maybe xra a
348 402
349$op[0x0f] = ' $FC = $A & 1; $A = ($A >> 1) | ($FC && 0x80) '; # rrc 403$op[0xc6] = 'sf $A += IMM8'; # adi
350$op[0x1f] = ' ($FC, $A) = ($A & 1, ($A >> 1) | ($FC && 0x80))'; # rar 404# ce ADI NYI
405$op[0xd6] = 'sf $A -= IMM8'; # sui
406# de SBI NYI
407$op[0xe6] = 'sf8 $A &= IMM8'; # ani
408$op[0xee] = 'sf8 $A ^= IMM8'; # xri
409$op[0xf6] = 'sf8 $A |= IMM8'; # ori
410$op[0xfe] = 'sf $A - IMM8'; # cpi
351 411
352$op[0x0a] = '$A = $M[$B * 256 + $C]'; # ldax b 412$op[0xc5] = 'PUSH $B; PUSH $C';
353$op[0x1a] = '$A = $M[$D * 256 + $E]'; # ldax d 413$op[0xd5] = 'PUSH $D; PUSH $E';
354$op[0x3a] = '$A = $M[IMM16]'; # lda 414$op[0xe5] = 'PUSH $H; PUSH $L';
415$op[0xf5] = 'PUSH $A; PUSH +($FS && 0x80) | ($FZ && 0x40) | ($FA && 0x10) | ($FP && 0x04) | ($FC && 0x01)'; # psw
416
417$op[0xc1] = '($C, $B) = (POP, POP)'; # pop
418$op[0xd1] = '($E, $D) = (POP, POP)'; # pop
419$op[0xe1] = '($L, $H) = (POP, POP)'; # pop
420$op[0xf1] = '($x, $A) = (POP, POP); ($FS, $FZ, $FA, $FP, $FC) = ($x & 0x80, $x & 0x40, $x & 0x10, $x & 0x04, $x & 0x01)'; # pop psw
421
422$op[0xc2 + $_ * 8] = 'BRA IMM16 ' . $cc[$_] for 0..7; # jcc
423$op[0xc3] = 'JMP IMM16'; # jmp
424
425$op[0xc4 + $_ * 8] = '(PUSH PC >> 8), (PUSH PC & 0xff), (BRA IMM16) ' . $cc[$_] for 0..7; # ccc
426$op[0xcd] = '(PUSH PC >> 8), (PUSH PC & 0xff), (BRA IMM16)'; # call
427
428$op[0xc0 + $_ * 8] = 'BRA POP + POP * 256 ' . $cc[$_] for 0..7; # rcc
429$op[0xc9] = 'JMP POP + POP * 256'; # ret
430
431$op[0xc7 + $_ * 8] = "JMP $_ * 8" for 0..7; # rst
432
433$op[0xe9] = 'JMP $H * 256 + $L'; # pchl
434# f9 SPHL NYI
435
436$op[0x37] = '$FC = 1 '; # stc
437$op[0x3f] = '$FC = !$FC'; # cmc
438
439$op[0xd3] = 'OUT'; # out
440$op[0xdb] = 'IN'; # in
441
442$op[0xeb] = '($D, $E, $H, $L) = ($H, $L, $D, $E)'; # xchg
443
444# e3 xthl NYI # @ 917b, hl <-> (sp)
355 445
356$op[0x20] = '$A = $INTPEND * 16 + $INTMASK + ($IFF && 8)'; # rim (incomplete) 446$op[0x20] = '$A = $INTPEND * 16 + $INTMASK + ($IFF && 8)'; # rim (incomplete)
357$op[0x30] = '$INTMASK = $A & 7 if $A & 8'; # sim (incomplete) 447$op[0x30] = '$INTMASK = $A & 7 if $A & 8'; # sim (incomplete)
358 448
359$op[0x22] = '($M[IMM16], $M[IMM16 + 1]) = ($L, $H)'; # shld 449$op[0xf3] = '$IFF = 0'; # DI
360$op[0x2a] = '($L, $H) = ($M[IMM16], $M[IMM16 + 1])'; # lhld 450$op[0xfb] = '$IFF = 1'; # EI
361 451
362# yeah, the fucking setup screens actually use daa... 452# yeah, the fucking setup screens actually use daa...
363$op[0x27] = ' 453$op[0x27] = '
364 my ($h, $l); 454 my ($h, $l);
365 455
366 ($h, $l) = ($A >> 4, $A & 15); 456 ($h, $l) = ($A >> 4, $A & 15);
367 457
368 if ($l > 9 || $FA) { 458 if ($l > 9 || $FA) {
369 $A = sf $A + 6; 459 sf $A += 6;
370 ($h, $l) = ($A >> 4, $A & 15); 460 ($h, $l) = ($A >> 4, $A & 15);
371 } 461 }
372 462
373 if ($h > 9 || $FC) { 463 if ($h > 9 || $FC) {
374 $h += 6; 464 $h += 6;
375 $A = ($h * 16 + $l) & 0xff; 465 $A = ($h * 16 + $l) & 0xff;
376 } 466 }
377'; # daa, almost certainly borked, also, acarry not set by sf 467'; # daa, almost certainly borked, also, acarry not set by sf
378 468
379$op[0x2f] = '$A ^= 0xff'; # cma
380
381$op[0x37] = '$FC = 1 '; # stc
382$op[0x3f] = '$FC = !$FC'; # cmc
383
384$op[0x76] = 'die "HLT"'; # hlt
385
386$op[0x80 + $_] = '$A = sf $A + ' . $reg[$_] for 0..7; # add
387$op[0x88 + $_] = '$A = sf $A + $FC + ' . $reg[$_] for 0..7; # adc
388$op[0x90 + $_] = '$A = sf $A - ' . $reg[$_] for 0..7; # sub
389$op[0x98 + $_] = '$A = sf $A - $FC - ' . $reg[$_] for 0..7; # sbb
390$op[0xa0 + $_] = '$A = sf $A & ' . $reg[$_] for 0..7; # ana
391$op[0xa8 + $_] = '$A = sf $A ^ ' . $reg[$_] for 0..7; # xra
392$op[0xb0 + $_] = '$A = sf $A | ' . $reg[$_] for 0..7; # ora
393$op[0xb8 + $_] = ' sf $A - ' . $reg[$_] for 0..7; # cmp
394# possible todo: optimize ora a, maybe xra a
395
396$op[0xc6 + $_] = '$A = sf $A + IMM8'; # adi
397$op[0xd6 + $_] = '$A = sf $A - IMM8'; # sui
398$op[0xe6 + $_] = '$A = sf $A & IMM8'; # ani
399$op[0xee + $_] = '$A = sf $A ^ IMM8'; # xri
400$op[0xf6 + $_] = '$A = sf $A | IMM8'; # ori
401$op[0xfe + $_] = ' sf $A - IMM8'; # cpi
402
403$op[0xc1] = '($C, $B) = (POP, POP)'; # pop
404$op[0xd1] = '($E, $D) = (POP, POP)'; # pop
405$op[0xe1] = '($L, $H) = (POP, POP)'; # pop
406$op[0xf1] = '($x, $A) = (POP, POP); ($FS, $FZ, $FA, $FP, $FC) = (!!($x & 0x80), !!($x & 0x40), !!($x & 0x10), !!($x & 0x04), !!($x & 0x01))'; # pop psw
407
408$op[0xeb] = '($D, $E, $H, $L) = ($H, $L, $D, $E)'; # xchg
409
410$op[0xc2 + $_ * 8] = 'BRA IMM16 ' . $cc[$_] for 0..7; # jcc
411$op[0xc3] = 'JMP IMM16'; # jmp
412
413$op[0xc4 + $_ * 8] = '(PUSH PC >> 8), (PUSH PC & 0xff), (BRA IMM16) ' . $cc[$_] for 0..7; # ccc
414$op[0xcd] = '(PUSH PC >> 8), (PUSH PC & 0xff), (BRA IMM16)'; # call
415
416$op[0xc7 + $_ * 8] = "JMP $_ * 8" for 0..7; # rst
417
418$op[0xc0 + $_ * 8] = 'BRA POP + POP * 256 ' . $cc[$_] for 0..7; # rcc
419$op[0xc9] = 'JMP POP + POP * 256'; # ret
420
421$op[0xc5] = 'PUSH $B; PUSH $C';
422$op[0xd5] = 'PUSH $D; PUSH $E';
423$op[0xe5] = 'PUSH $H; PUSH $L';
424$op[0xf5] = 'PUSH $A; PUSH +($FS && 0x80) | ($FZ && 0x40) | ($FA && 0x10) | ($FP && 0x04) | ($FC && 0x01)'; # psw
425
426$op[0xd3] = 'OUT'; # out
427$op[0xdb] = 'IN'; # in
428
429# e3 xthl @ 917b, hl <-> (sp)
430
431$op[0xe9] = 'JMP $H * 256 + $L'; # pchl
432
433$op[0xf3] = '$IFF = 0'; # DI
434$op[0xfb] = '$IFF = 1'; # EI
435
436@ops = @op; # for debugging #d#
437
438############################################################################# 469#############################################################################
470# print cpu status for debugging purposes
439 471
440# print cpu status, for debugging 472# print cpu status, for debugging
441sub status { 473sub status {
442 my $PC = shift || $PC; 474 my $PC = shift || $PC;
443 475
447 ($FZ ? "1" : "0") 479 ($FZ ? "1" : "0")
448 . ($FS ? "1" : "0") 480 . ($FS ? "1" : "0")
449 . ($FC ? "1" : "0") 481 . ($FC ? "1" : "0")
450 . ($FA ? "1" : "0") 482 . ($FA ? "1" : "0")
451 . ($FP ? "1" : "0"), 483 . ($FP ? "1" : "0"),
452 $M[$PC], $ops[$M[$PC]]; 484 $M[$PC], $op[$M[$PC]];
453} 485}
454 486
455############################################################################# 487#############################################################################
488# video emulation
456 489
457my @chr = ( 490binmode STDOUT;
458 " ", 491
459 "\x{29eb}", 492my @CHARMAP = (
460 "\x{2592}", 493 " " , "\x{29eb}", "\x{2592}", "\x{2409}",
461 "\x{2409}", 494 "\x{240c}", "\x{240d}", "\x{240a}", "\x{00b0}",
462 "\x{240c}", 495 "\x{00b1}", "\x{2424}", "\x{240b}", "\x{2518}",
463 "\x{240d}", 496 "\x{2510}", "\x{250c}", "\x{2514}", "\x{253c}",
464 "\x{240a}", 497 "\x{23ba}", "\x{23bb}", "\x{2500}", "\x{23bc}",
465 "\x{00b0}", 498 "\x{23bd}", "\x{251c}", "\x{2524}", "\x{2534}",
466 "\x{00b1}", 499 "\x{252c}", "\x{2502}", "\x{2264}", "\x{2265}",
467 "\x{2424}", 500 "\x{03c0}", "\x{2260}", "\x{00a3}", "\x{00b7}",
468 "\x{240b}",
469 "\x{2518}",
470 "\x{2510}",
471 "\x{250c}",
472 "\x{2514}",
473 "\x{253c}",
474 "\x{23ba}",
475 "\x{23bb}",
476 "\x{2500}",
477 "\x{23bc}",
478 "\x{23bd}",
479 "\x{251c}",
480 "\x{2524}",
481 "\x{2534}",
482 "\x{252c}",
483 "\x{2502}",
484 "\x{2264}",
485 "\x{2265}",
486 "\x{03c0}",
487 "\x{2260}",
488 "\x{00a3}",
489 "\x{00b7}",
490 (map chr, 0x020 .. 0x7e), 501 (map chr, 0x020 .. 0x7e),
491 "?",
492); 502);
493 503
494utf8::encode $_ for @chr; 504utf8::encode $_ for @CHARMAP;
495 505
496sub prscr { 506my @SGR; # sgr sequences for attributes
507
508for (0x00 .. 0xff) {
509 my $sgr = "";
510
511 # ~1 sgr 5 blink
512 # ~2 sgr 4 underline
513 # ~4 sgr 1 bold
514 # 0x80 in attr, sgr 7, reversed
515
516 $sgr .= ";5" unless $_ & 0x01;
517 $sgr .= ";4" unless $_ & 0x02;
518 $sgr .= ";1" unless $_ & 0x04;
519 $sgr .= ";7" if $_ & 0x80;
520
521 $SGR[$_] = "\e[${sgr}m";
522}
523
524my @LED = $VT102
525 ? qw(L1 INSERT DSR CTS LOCKED LOCAL SCAN BEEP)
526 : qw(L4 L3 L2 L1 LOCKED LOCAL SCAN BEEP);
527
528# display screen
529sub display {
497 my $i = 0x2000; 530 my $i = 0x2000;
498 531
499 my $scr = sprintf "\x1b[H--- KBD %08b CLK %d PC %04x RST %03b IFF %01b PUS %02x IM %03b\x1b[K\n", $KSTATUS, $CLK, $PC, $RST, $IFF, $PUSARTCMD, $INTMASK; 532 my $leds = join " ", map $KSTATUS & 2**$_ ? "\e[7m$LED[$_]\e[m" : "$LED[$_]", reverse 0 .. $#LED;
500 533
534 my $scr = sprintf "\e[H--- LED [ %s ] CLK %d\e[K\n", $leds, $CLK;
535
536 $scr .= "\e[?5" . ($DC11_REVERSE ? "h" : "l");
537
501 line: 538 line:
502 for my $y (0 .. 25) { 539 for my $y (0 .. 25) { # ntsc, two vblank delay lines, up to 24 text lines
540 my $prev_sgr;
541
503 $scr .= sprintf "%2d |", ++$y; 542 $scr .= sprintf "%2d \xe2\x94\x82", $y;
504 543
505 for (0..140) { 544 for (0..139) {
506 my $c = $M[$i++]; 545 my $c = $M[$i];
507
508# printf "%04x %02x\n", $i-1,$c;
509 546
510 if ($c == 0x7f) { # also 0xff, but the firmware avoids that 547 if ($c == 0x7f) { # also 0xff, but the firmware avoids that
511 $scr .= "|\x1b[K\n"; 548 $scr .= "\e[m\xe2\x94\x82\e[K\n";
512 549
513 my $a1 = $M[$i++]; 550 my $a1 = $M[$i + 1];
514 my $a0 = $M[$i++]; 551 my $a0 = $M[$i + 2];
515 552
516 $i = 0x2000 + (($a1 * 256 + $a0) & 0xfff); 553 $i = 0x2000 + (($a1 * 256 + $a0) & 0xfff);
517 554
518 next line; 555 next line;
519 } 556 }
520 557
521 $scr .= "\x1b[7m" if $c & 0x80; 558 my $sgr = $SGR[ ($M[$i++ + 0x1000] & 15) | ($c & 0x80)];
522 $scr .= $chr[$c & 0x7f] // sprintf "[%02x]", $c & 0x7f; 559
523 $scr .= "\x1b[m" if $c & 0x80; 560 $scr .= $prev_sgr = $sgr if $sgr ne $prev_sgr;
561
562 $scr .= $CHARMAP[$c & 0x7f];
524 } 563 }
525 564
526 $scr .= "\x1b[K\noverflow\x1b[K\n"; 565 $scr .= "\e[K\nvideo overflow\e[K\n";
527 last; 566 last;
528 } 567 }
529 568
530 if (0) {
531 $scr .= "\x1b[K\n";
532 for my $o (0x200 .. 0x232) {
533 $scr .= sprintf "%04x:", $o * 16;
534 for (0..15) {
535 $scr .= sprintf " %02x", $M[$o * 16 + $_];
536 }
537 $scr .= "\x1b[K\n";
538 }
539 }
540
541 $scr .= "\x1b[J"; 569 $scr .= "\e[m\e[J";
542 570
543 syswrite STDOUT, $scr; 571 syswrite STDOUT, $scr;
544} 572}
545 573
546############################################################################# 574#############################################################################
575# keyboard handling
547 576
548if (@ARGV) { 577# 0x080 shift, 0x100 ctrl
549 require IO::Pty; 578my %KEYMAP = (
550 $PTY = IO::Pty->new; 579 "\t" => 0x3a,
580 "\r" => 0x64,
581 "\n" => 0x44,
582
583 "\x00" => 0x77 | 0x100, # CTRL-SPACE
584 "\x1c" => 0x45 | 0x100, # CTRL-\
585 "\x1d" => 0x14 | 0x100, # CTRL-]
586 "\x1e" => 0x24 | 0x100, # CTRL-~
587 "\x1f" => 0x75 | 0x100, # CTRL-?
588
589 # hardcoded rxvt keys
590 "\e" => 0x2a, # ESC
591 "\e[3~" => 0x03, # DC
592 "\e[5~" => 0x7e, # CAPS LOCK (prior)
593 "\e[6~" => 0x6a, # NO SCROLL (next)
594 "\e[A" => 0x30, # UP
595 "\e[B" => 0x22, # DOWN
596 "\e[C" => 0x10, # RIGHT
597 "\e[D" => 0x20, # LEFT
598 "\e[a" => 0x30 | 0x080, # UP
599 "\e[b" => 0x22 | 0x080, # DOWN
600 "\e[c" => 0x10 | 0x080, # RIGHT
601 "\e[d" => 0x20 | 0x080, # LEFT
602 "\e[7~" => 0x7b, # SETUP (home)
603 "\e[8~" => 0x23, # BREAK (end)
604 "\e[8\$" => 0x23 | 0x080, # SHIFT BREAK / DISCONNECT (shift-end)
605 "\x7f" => 0x33, # BACKSPACE
606
607 "\e[11~" => 0x32, # F1
608 "\e[11~" => 0x42, # F2
609 "\e[11~" => 0x31, # F3
610 "\e[11~" => 0x41, # F4
611);
551 612
552 my $slave = $PTY->slave; 613@KEYMAP{map chr, 0x20 .. 0x40, 0x5b .. 0x7e} = unpack "C*", pack "H*",
614 "779ad5a9a8b8a755a6b5b6b466256575" . "351a3929283837273626d656e634e5f5" . "b9" # 20..40
615 . "154514b7a5" . "244a6879591949485816574746766706" . "050a185a0817780969077a95c594a4"; # 5b..7e
553 616
554 $PTY->set_winsize (24, 80); 617$KEYMAP{"\x1f" & $_} ||= $KEYMAP{$_} | 0x100 for "a" .. "z"; # ctrl
618$KEYMAP{"\x20" ^ $_} ||= $KEYMAP{$_} | 0x080 for "a" .. "z"; # shift
555 619
556 unless (fork) { 620my $KEYMATCH = join "|", map quotemeta, reverse sort keys %KEYMAP;
557 $ENV{TERM} = $VT102 ? "vt102" : "vt100"; 621$KEYMATCH = qr{^($KEYMATCH)}s;
558 622
559 close $PTY; 623my %KMOD;
560 624
561 open STDIN , "<&", $slave; 625sub key {
562 open STDOUT, ">&", $slave; 626 my ($key) = @_;
563 open STDERR, ">&", $slave;
564 627
565 system "stty ixoff erase ^H"; 628 push @KQUEUE, -0x7c if !($key & 0x100) && delete $KMOD{0x7c}; # ctrl-up
629 push @KQUEUE, -0x7d if !($key & 0x080) && delete $KMOD{0x7d}; # shift-up
566 630
567 $PTY->make_slave_controlling_terminal; 631 push @KQUEUE, 0x7c if $key & 0x100 && !$KMOD{0x7c}++; # ctrl-down
568 $PTY->close_slave; 632 push @KQUEUE, 0x7d if $key & 0x080 && !$KMOD{0x7d}++; # shift-down
569 633
570 exec @ARGV; 634 $key &= 0x7f;
571 } 635 push @KQUEUE, $key, -$key;
572
573 $PTY->close_slave;
574
575} else {
576 open $PTY, "</dev/null" or die;#d
577} 636}
578 637
579############################################################################# 638my $STDIN_BUF;
580 639
640sub stdin_parse {
641 key $KEYMAP{$1}
642 while $STDIN_BUF =~ s/$KEYMATCH//;
643
644 # skip input we can't decipher
645 substr $STDIN_BUF, 0, 1, "";
646}
647
648if ($KBD) {
649 system "stty -icanon -icrnl -inlcr -echo min 1 time 0";
650 eval q{ sub END { system "stty sane" } };
651 $SIG{INT} = $SIG{TERM} = $SIG{QUIT} = sub { exit 1 };
652}
653
654#############################################################################
581# initial key input, to set up online mode etc. 655# initial key input, to set up online mode etc.
656# could be done via nvram defaults
657
582@KQUEUE = ( 658@KQUEUE = (
583 0x7b, -0x7b, # setup 659 0x7b, -0x7b, # setup
584 0, # delay 660 0, # delay
585 0x28, -0x28, # 4, toggle local/online 661 0x28, -0x28, # 4, toggle local/online
586 0x38, -0x38, # 5, setup b 662 0x38, -0x38, # 5, setup b
597 0x37, -0x37, # 6 toggle wrap around 673 0x37, -0x37, # 6 toggle wrap around
598 0x7b, -0x7b, # leave setup 674 0x7b, -0x7b, # leave setup
599); 675);
600 676
601############################################################################# 677#############################################################################
678# process/pty management
602 679
603# 0x80 shift, 0x100 ctrl, 0x200 toggle 680require IO::Pty;
604my %KEYMAP = ( 681$PTY = IO::Pty->new;
605 "\t" => 0x3a,
606 "\r" => 0x64,
607 "\n" => 0x44,
608 682
609 # hardcoded rxvt keys 683my $slave = $PTY->slave;
610 "\e" => 0x2a, # ESC
611 "\e[3~" => 0x03, # DC
612 "\e[5~" => 0x7e, # CAPS LOCK (prior)
613 "\e[6~" => 0x6a, # NO SCROLL (next)
614 "\e[A" => 0x30, # UP
615 "\e[B" => 0x22, # DOWN
616 "\e[C" => 0x10, # RIGHT
617 "\e[D" => 0x20, # LEFT
618 "\e[a" => 0x30 | 0x080, # UP
619 "\e[b" => 0x22 | 0x080, # DOWN
620 "\e[c" => 0x10 | 0x080, # RIGHT
621 "\e[d" => 0x20 | 0x080, # LEFT
622 "\e[7~" => 0x7b, # SETUP (home)
623 "\e[8~" => 0x23, # BREAK (end)
624 "\e[8\$" => 0x23 | 0x080, # SHIFT BREAK / DISCONNECT (shift-end)
625 "\x7f" => 0x33, # BACKSPACE
626 684
627 "\e[11~" => 0x32, # F1 685$PTY->set_winsize (24, 80);
628 "\e[11~" => 0x42, # F2
629 "\e[11~" => 0x31, # F3
630 "\e[11~" => 0x41, # F4
631);
632 686
633@KEYMAP{map chr, 0x20..0x40} = unpack "C*", pack "H*", 687unless (fork) {
634 "779ad5a9a8b8a755a6b5b6b466256575" . "351a3929283837273626d656e634e5f5" . "b9"; 688 $ENV{TERM} = $VT102 ? "vt102" : "vt100";
635 689
636@KEYMAP{map chr, 0x5b .. 0x7e} = unpack "C*", pack "H*", 690 close $PTY;
637 "154514b7a5" . "244a6879591949485816574746766706" . "050a185a0817780969077a95c594a4";
638 691
639$KEYMAP{"\x3f" & $_} ||= $KEYMAP{$_} | 0x100 for "a" .. "z"; # ctrl 692 open STDIN , "<&", $slave;
640$KEYMAP{uc $_} ||= $KEYMAP{$_} | 0x080 for "a" .. "z"; # shift 693 open STDOUT, ">&", $slave;
694 open STDERR, ">&", $slave;
641 695
642my $KEYMATCH = join "|", map quotemeta, reverse sort keys %KEYMAP; 696 system "stty ixoff erase ^H";
643$KEYMATCH = qr{^($KEYMATCH)}s;
644 697
645sub key { 698 $PTY->make_slave_controlling_terminal;
646 my ($key) = @_; 699 $PTY->close_slave;
647 700
648 state %MOD; 701 @ARGV = "sh" unless @ARGV;
649 702 exec @ARGV;
650 push @KQUEUE, -0x7c if !($key & 0x100) && delete $MOD{0x7c}; # ctrl-up
651 push @KQUEUE, -0x7d if !($key & 0x080) && delete $MOD{0x7d}; # shift-up
652
653 push @KQUEUE, 0x7c if $key & 0x100 && !$MOD{0x7c}++; # ctrl-down
654 push @KQUEUE, 0x7d if $key & 0x080 && !$MOD{0x7d}++; # shift-down
655
656 $key &= 0x7f;
657 push @KQUEUE, $key, -$key;
658} 703}
659 704
660my $STDIN_BUF; 705$PTY->close_slave;
661 706
662sub stdin_parse {
663 key $KEYMAP{$1}
664 while $STDIN_BUF =~ s/$KEYMATCH//;
665
666 # skip input we can't decipher
667 substr $STDIN_BUF, 0, 1, "";
668}
669
670if ($KBD) {
671 system "stty -icanon -icrnl -inlcr -echo min 1 time 0";
672 eval q{ sub END { system "stty sane" } };
673 $SIG{INT} = $SIG{TERM} = $SIG{QUIT} = sub { exit 1 };
674}
675
676############################################################################# 707#############################################################################
708# the actual hardware simulator
677 709
678my @ICACHE; # compiled instruction cache 710my @ICACHE; # compiled instruction cache
679 711
680# the cpu
681while () { 712while () {
682
683 # execute extended basic blocks 713 # execute extended basic blocks
684 $PC = ($ICACHE[$PC] ||= do { 714 $PC = ($ICACHE[$PC] ||= do {
685 my $pc = $PC; 715 my $pc = $PC;
686 716
687 my $insn = ""; 717 my $insn = "";
688 718
689 # the jit compiler 719 # the jit compiler
690 for (0..15) { 720 for (0..31) {
691
692 # optional tracing support
693 if (0) {
694 $insn .= qq<
695 if (\$PRSTATUS) {
696 status $pc;
697 die unless --\$PRSTATUS;
698 }
699 >;
700 }
701
702 my $imm; 721 my $imm;
703 my $op = $op[$M[$pc++]]; 722 my $op = $op[$M[$pc++]];
704 723
705 for ($op) { 724 for ($op) {
706 s/\bPUSH\b/\$M[--\$SP] =/g; # push byte to stack 725 s/\bPUSH\b/\$M[--\$SP] =/g; # push byte to stack
719 738
720 $insn .= "$op;\n"; 739 $insn .= "$op;\n";
721 } 740 }
722 741
723 742
724 $insn .= "$pc"; 743 $insn .= $pc;
725 $insn =~ s/\x00.*$//s; 744 $insn =~ s/\x00.*$//s;
726 745
727 eval "use integer; sub { $insn }" or die "$insn: $@" 746 eval "use integer; sub { $insn }" or die "$insn: $@"
728 })->(); 747 })->();
729 748
731 750
732 # things we do from time too time only 751 # things we do from time too time only
733 unless ($CLK & 0xf) { 752 unless ($CLK & 0xf) {
734 # do I/O 753 # do I/O
735 754
736 unless ($CLK & 0x7ff) { 755 unless ($CLK & 0xfff) {
737 756
738 # pty/serial I/O 757 # pty/serial I/O
739 unless (@PUSARTRECV || @KQUEUE || !$PTY) { 758 unless ((@PUSARTRECV >= 128) || @KQUEUE || !$PTY) {
740 my $rin = ""; (vec $rin, fileno $PTY, 1) = 1; 759 my $rin = ""; (vec $rin, fileno $PTY, 1) = 1;
741 760
742 if (select $rin, undef, undef, 0) { 761 if (select $rin, undef, undef, 0) {
743 sysread $PTY, my $buf, 256; 762 sysread $PTY, my $buf, 256;
744 push @PUSARTRECV, unpack "C*", $buf; 763 push @PUSARTRECV, unpack "C*", $buf;
760 779
761 $RST |= 2 if @PUSARTRECV && $XON; # VT100, but works on vt102, too (probably not used on real hardware though) 780 $RST |= 2 if @PUSARTRECV && $XON; # VT100, but works on vt102, too (probably not used on real hardware though)
762 #$INTPEND |= 2 if @PUSARTRECV && $XON; # VT102, 6.5 rxrdy 781 #$INTPEND |= 2 if @PUSARTRECV && $XON; # VT102, 6.5 rxrdy
763 782
764 # kick off vertical retrace form time to time 783 # kick off vertical retrace form time to time
765 unless ($CLK & 0x3ff) { 784 unless ($CLK & 0x1ff) {
766 $RST |= 4; # vertical retrace 785 $RST |= 4; # vertical retrace
767 } 786 }
768 787
769 # handle video hardware 788 # handle video hardware
770
771 unless ($CLK & 0x1fff) { 789 unless ($CLK & 0x3fff) {
772 prscr; 790 display;
773 } 791 }
774 } 792 }
775 793
776 # the interrupt logic 794 # the interrupt logic
777 $x = $INTPEND & ~$INTMASK; 795 if (($RST || ($INTPEND & ~$INTMASK)) && $IFF) {
778 if (($RST || $x) && $IFF) {
779 # rst 1 kbd data available 796 # rst 1 kbd data available
780 # rst 2 pusart xmit+recv flag 797 # rst 2 pusart xmit+recv flag
781 # rst 4 vertical retrace 798 # rst 4 vertical retrace
782 # 5.5 vt125 mb7 trans ready (serial send?) 799 # 5.5 vt125 mb7 trans ready (serial send?)
783 # 6.5 vt125 mb7 read ready (something modem?) 800 # 6.5 vt125 mb7 read ready (something modem?)
784 # 7.5 vt125 mb7 vblank h(?) 801 # 7.5 vt125 mb7 vblank h(?)
785 # trap vt125 mbi init h(?) 802 # trap vt125 mbi init h(?)
786 my $vec; 803 my $vec;
787 804
805 $x = $INTPEND & ~$INTMASK;
806
788 if ($x & 1) { $vec = 0x2c; $INTPEND &= ~1; 807 if ($x & 1) { $vec = 0x2c; $INTPEND &= ~1;
789 } elsif ($x & 2) { $vec = 0x34; $INTPEND &= ~2; 808 } elsif ($x & 2) { $vec = 0x34; $INTPEND &= ~2;
790 } elsif ($x & 4) { $vec = 0x3c; $INTPEND &= ~4; 809 } elsif ($x & 4) { $vec = 0x3c; $INTPEND &= ~4;
791# } elsif ($RST ) { $vec = $RST * 8; $RST = 0; # for some reason, this breaks vt102 810# } elsif ($RST ) { $vec = $RST * 8; $RST = 0; # the vt102 firmware doesn't like combined interrupts
792 } elsif ($RST & 1) { $vec = 0x08; $RST &= ~1; # separate is better for vt102 811 } elsif ($RST & 1) { $vec = 0x08; $RST &= ~1; # separate is better for vt102
793 } elsif ($RST & 2) { $vec = 0x10; $RST &= ~2; 812 } elsif ($RST & 2) { $vec = 0x10; $RST &= ~2;
794 } elsif ($RST & 4) { $vec = 0x20; $RST &= ~4; 813 } elsif ($RST & 4) { $vec = 0x20; $RST &= ~4;
795 } else { 814 } else {
796 die; 815 die;
801 $PC = $vec; 820 $PC = $vec;
802 821
803 $IFF = 0; 822 $IFF = 0;
804 } 823 }
805} 824}
825
826#############################################################################
827# roms in the data section + one newline
828#
829# vt100 @ 0x0000+0x0800 23-032E2
830# vt100 @ 0x0800+0x0800 23-061E2
831# vt100 @ 0x1000+0x0800 23-033E2
832# vt100 @ 0x1800+0x0800 23-034E2
833#
834# vt102 @ 0x0000+0x2000 23-226E4
835# vt102 @ 0x8000+0x2000 23-225E4
836#
837# vt131 @ 0xa000+0x0800 23-280E2
838#
806 839
807__DATA__ 840__DATA__
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