1
/***************************************************************************************
2
 *  Genesis Plus
3
 *  Z80 bus handlers (Genesis & Master System modes)
4
 *
5
 *  Support for SG-1000, Mark-III, Master System, Game Gear & Mega Drive ports access
6
 *
7
 *  Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003  Charles Mac Donald (original code)
8
 *  Copyright (C) 2007-2011  Eke-Eke (Genesis Plus GX)
9
 *
10
 *  Redistribution and use of this code or any derivative works are permitted
11
 *  provided that the following conditions are met:
12
 *
13
 *   - Redistributions may not be sold, nor may they be used in a commercial
14
 *     product or activity.
15
 *
16
 *   - Redistributions that are modified from the original source must include the
17
 *     complete source code, including the source code for all components used by a
18
 *     binary built from the modified sources. However, as a special exception, the
19
 *     source code distributed need not include anything that is normally distributed
20
 *     (in either source or binary form) with the major components (compiler, kernel,
21
 *     and so on) of the operating system on which the executable runs, unless that
22
 *     component itself accompanies the executable.
23
 *
24
 *   - Redistributions must reproduce the above copyright notice, this list of
25
 *     conditions and the following disclaimer in the documentation and/or other
26
 *     materials provided with the distribution.
27
 *
28
 *  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
29
 *  AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
30
 *  IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
31
 *  ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
32
 *  LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
33
 *  CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
34
 *  SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
35
 *  INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
36
 *  CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
37
 *  ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
38
 *  POSSIBILITY OF SUCH DAMAGE.
39
 *
40
 ****************************************************************************************/
41

42
#include "shared.h"
43

44

45
/*--------------------------------------------------------------------------*/
46
/*  Handlers for access to unused addresses and those which make the        */
47
/*  machine lock up.                                                        */
48
/*--------------------------------------------------------------------------*/
49

50
INLINE void z80_unused_w(unsigned int address, unsigned char data)
51
{
52
#ifdef LOGERROR
53
  error("Z80 unused write %04X = %02X (%x)\n", address, data, Z80.pc.w.l);
54
#endif
55
}
56

57
INLINE unsigned char z80_unused_r(unsigned int address)
58
{
59
#ifdef LOGERROR
60
  error("Z80 unused read %04X (%x)\n", address, Z80.pc.w.l);
61
#endif
62
  return 0xFF;
63
}
64

65
INLINE void z80_lockup_w(unsigned int address, unsigned char data)
66
{
67
#ifdef LOGERROR
68
  error("Z80 lockup write %04X = %02X (%x)\n", address, data, Z80.pc.w.l);
69
#endif
70
  if (!config.force_dtack)
71
  {
72
    Z80.cycles = 0xFFFFFFFF;
73
    zstate = 0;
74
  }
75
}
76

77
INLINE unsigned char z80_lockup_r(unsigned int address)
78
{
79
#ifdef LOGERROR
80
  error("Z80 lockup read %04X (%x)\n", address, Z80.pc.w.l);
81
#endif
82
  if (!config.force_dtack)
83
  {
84
    Z80.cycles = 0xFFFFFFFF;
85
    zstate = 0;
86
  }
87
  return 0xFF;
88
}
89

90

91
/*--------------------------------------------------------------------------*/
92
/*  Z80 Memory handlers (Genesis mode)                                      */
93
/*--------------------------------------------------------------------------*/
94

95
unsigned char z80_memory_r(unsigned int address)
96
{
97
  switch((address >> 13) & 7)
98
  {
99
    case 0: /* $0000-$3FFF: Z80 RAM (8K mirrored) */
100
    case 1:
101
    {
102
      return zram[address & 0x1FFF];
103
    }
104

105
    case 2: /* $4000-$5FFF: YM2612 */
106
    {
107
      return fm_read(Z80.cycles, address & 3);
108
    }
109

110
    case 3: /* $7F00-$7FFF: VDP */
111
    {
112
      if ((address >> 8) == 0x7F)
113
      {
114
        return (*zbank_memory_map[0xc0].read)(address);
115
      }
116
      return z80_unused_r(address);
117
    }
118
      
119
    default: /* $8000-$FFFF: 68k bank (32K) */
120
    {
121
      address = zbank | (address & 0x7FFF);
122
      if (zbank_memory_map[address >> 16].read)
123
      {
124
        return (*zbank_memory_map[address >> 16].read)(address);
125
      }
126
      return READ_BYTE(m68k.memory_map[address >> 16].base, address & 0xFFFF);
127
    }
128
  }
129
}
130

131

132
void z80_memory_w(unsigned int address, unsigned char data)
133
{
134
  switch((address >> 13) & 7)
135
  {
136
    case 0: /* $0000-$3FFF: Z80 RAM (8K mirrored) */
137
    case 1: 
138
    {
139
      zram[address & 0x1FFF] = data;
140
      return;
141
    }
142

143
    case 2: /* $4000-$5FFF: YM2612 */
144
    {
145
      fm_write(Z80.cycles, address & 3, data);
146
      return;
147
    }
148

149
    case 3: /* Bank register and VDP */
150
    {
151
      switch(address >> 8)
152
      {
153
        case 0x60: /* $6000-$60FF: Bank register */
154
        {
155
          gen_zbank_w(data & 1);
156
          return;
157
        }
158

159
        case 0x7F: /* $7F00-$7FFF: VDP */
160
        {
161
          (*zbank_memory_map[0xc0].write)(address, data);
162
          return;
163
        }
164

165
        default:
166
        {
167
          z80_unused_w(address, data);
168
          return;
169
        }
170
      }
171
    }
172

173
    default: /* $8000-$FFFF: 68k bank (32K) */
174
    {
175
      address = zbank | (address & 0x7FFF);
176
      if (zbank_memory_map[address >> 16].write)
177
      {
178
        (*zbank_memory_map[address >> 16].write)(address, data);
179
        return;
180
      }
181
      WRITE_BYTE(m68k.memory_map[address >> 16].base, address & 0xFFFF, data);
182
      return;
183
    }
184
  }
185
}
186

187
/*--------------------------------------------------------------------------*/
188
/*  Unused Port handlers                                                    */
189
/*                                                                          */
190
/*  Ports are unused when not in Mark III compatibility mode.               */
191
/*                                                                          */
192
/*  Genesis games that access ports anyway:                                 */
193
/*    Thunder Force IV reads port $BF in it's interrupt handler.            */
194
/*                                                                          */
195
/*--------------------------------------------------------------------------*/
196

197
unsigned char z80_unused_port_r(unsigned int port)
198
{
199
#if LOGERROR
200
  error("Z80 unused read from port %04X (%x)\n", port, Z80.pc.w.l);
201
#endif
202
  if (system_hw == SYSTEM_SMS)
203
  {
204
    unsigned int address = (Z80.pc.w.l - 1) & 0xFFFF;
205
    return z80_readmap[address >> 10][address & 0x3FF];
206
  }
207
  return 0xFF;
208
}
209

210
void z80_unused_port_w(unsigned int port, unsigned char data)
211
{
212
#if LOGERROR
213
  error("Z80 unused write to port %04X = %02X (%x)\n", port, data, Z80.pc.w.l);
214
#endif
215
}
216

217
/*--------------------------------------------------------------------------*/
218
/* MegaDrive / Genesis port handlers (Master System compatibility mode)     */
219
/*--------------------------------------------------------------------------*/
220

221
void z80_md_port_w(unsigned int port, unsigned char data)
222
{
223
  switch (port & 0xC1)
224
  {
225
    case 0x01:
226
    {
227
      io_z80_write(1, data, Z80.cycles + PBC_CYCLE_OFFSET);
228
      return;
229
    }
230

231
    case 0x40:
232
    case 0x41:
233
    {
234
      SN76489_Write(Z80.cycles, data);
235
      return;
236
    }
237

238
    case 0x80:
239
    {
240
      vdp_z80_data_w(data);
241
      return;
242
    }
243

244
    case 0x81:
245
    {
246
      vdp_z80_ctrl_w(data);
247
      return;
248
    }
249

250
    default:
251
    {
252
      port &= 0xFF;
253

254
      if ((port >= 0xF0) && (config.ym2413 & 1))
255
      {
256
        fm_write(Z80.cycles, port&3, data);
257
        return;
258
      }
259

260
      z80_unused_port_w(port, data);
261
      return;
262
    }
263
  }
264
}
265

266
unsigned char z80_md_port_r(unsigned int port)
267
{
268
  switch (port & 0xC1)
269
  {
270
    case 0x40:
271
    {
272
      return ((vdp_hvc_r(Z80.cycles - 15) >> 8) & 0xFF);
273
    }
274

275
    case 0x41:
276
    {
277
      return (vdp_hvc_r(Z80.cycles - 15) & 0xFF);
278
    }
279

280
    case 0x80:
281
    {
282
      return vdp_z80_data_r();
283
    }
284

285
    case 0x81:
286
    {
287
      return vdp_z80_ctrl_r(Z80.cycles);
288
    }
289

290
    default:
291
    {
292
      port &= 0xFF;
293

294
      if ((port == 0xC0) || (port == 0xC1) || (port == 0xDC) || (port == 0xDD))
295
      {
296
        return io_z80_read(port & 1);
297
      }
298

299
      /* read FM chip if enabled */
300
      if ((port >= 0xF0) && (config.ym2413 & 1))
301
      {
302
        return YM2413Read(port & 3); 
303
      }
304

305
      return z80_unused_port_r(port);
306
    }
307
  }
308
}
309

310

311
/*--------------------------------------------------------------------------*/
312
/* Game Gear port handlers                                                  */
313
/*--------------------------------------------------------------------------*/
314

315
void z80_gg_port_w(unsigned int port, unsigned char data)
316
{
317
  switch(port & 0xC1)
318
  {
319
    case 0x00:
320
    case 0x01:
321
    {
322
      port &= 0xFF;
323

324
      if (port < 0x07)
325
      {
326
        if (system_hw == SYSTEM_GG)
327
        {
328
          io_gg_write(port, data);
329
          return;
330
        }
331

332
        z80_unused_port_w(port & 0xFF, data);
333
        return;
334
      }
335

336
      io_z80_write(port & 1, data, Z80.cycles + SMS_CYCLE_OFFSET);
337
      return;
338
    }
339

340
    case 0x40:
341
    case 0x41:
342
    {
343
      SN76489_Write(Z80.cycles, data);
344
      return;
345
    }
346

347
    case 0x80:
348
    {
349
      vdp_z80_data_w(data);
350
      return;
351
    }
352

353
    case 0x81:
354
    {
355
      vdp_sms_ctrl_w(data);
356
      return;
357
    }
358

359
    default:
360
    {
361
      z80_unused_port_w(port & 0xFF, data);
362
      return;
363
    }
364
  }
365
}
366

367
unsigned char z80_gg_port_r(unsigned int port)
368
{
369
  switch(port & 0xC1)
370
  {
371
    case 0x00:
372
    case 0x01:
373
    {
374
      port &= 0xFF;
375

376
      if (port < 0x07)
377
      {
378
        if (system_hw == SYSTEM_GG)
379
        {
380
          return io_gg_read(port);
381
        }
382
      }
383

384
      return z80_unused_port_r(port);
385
    }
386

387
    case 0x40:
388
    {
389
      return ((vdp_hvc_r(Z80.cycles) >> 8) & 0xFF);
390
    }
391

392
    case 0x41:
393
    {
394
      return (vdp_hvc_r(Z80.cycles) & 0xFF);
395
    }
396

397
    case 0x80:
398
    {
399
      return vdp_z80_data_r();
400
    }
401

402
    case 0x81:
403
    {
404
      return vdp_z80_ctrl_r(Z80.cycles);
405
    }
406

407
    default:
408
    {
409
      port &= 0xFF;
410

411
      if ((port == 0xC0) || (port == 0xC1) || (port == 0xDC) || (port == 0xDD))
412
      {
413
        return io_z80_read(port & 1);
414
      }
415

416
      return z80_unused_port_r(port);
417
    }
418
  }
419
}
420

421

422
/*--------------------------------------------------------------------------*/
423
/* Master System port handlers                                              */
424
/*--------------------------------------------------------------------------*/
425

426
void z80_ms_port_w(unsigned int port, unsigned char data)
427
{
428
  switch (port & 0xC1)
429
  {
430
    case 0x00:
431
    case 0x01:
432
    {
433
      io_z80_write(port & 1, data, Z80.cycles + SMS_CYCLE_OFFSET);
434
      return;
435
    }
436

437
    case 0x40:
438
    case 0x41:
439
    {
440
      SN76489_Write(Z80.cycles, data);
441
      return;
442
    }
443

444
    case 0x80:
445
    {
446
      vdp_z80_data_w(data);
447
      return;
448
    }
449

450
    case 0x81:
451
    {
452
      vdp_sms_ctrl_w(data);
453
      return;
454
    }
455

456
    default:
457
    {
458
      if (!(port & 4) && (config.ym2413 & 1))
459
      {
460
        fm_write(Z80.cycles, port & 3, data);
461
        return;
462
      }
463

464
      z80_unused_port_w(port & 0xFF, data);
465
      return;
466
    }
467
  }
468
}
469

470
unsigned char z80_ms_port_r(unsigned int port)
471
{
472
  switch (port & 0xC1)
473
  {
474
    case 0x00:
475
    case 0x01:
476
    {
477
      return z80_unused_port_r(port & 0xFF);
478
    }
479

480
    case 0x40:
481
    {
482
      return ((vdp_hvc_r(Z80.cycles) >> 8) & 0xFF);
483
    }
484

485
    case 0x41:
486
    {
487
      return (vdp_hvc_r(Z80.cycles) & 0xFF);
488
    }
489

490
    case 0x80:
491
    {
492
      return vdp_z80_data_r();
493
    }
494

495
    case 0x81:
496
    {
497
      return vdp_z80_ctrl_r(Z80.cycles);
498
    }
499

500
    default:
501
    {
502
      /* read FM chip if enabled */
503
      if (!(port & 4) && (config.ym2413 & 1))
504
      {
505
        /* check if I/O ports are disabled */
506
        if (io_reg[0x0E] & 0x04)
507
        {
508
          return YM2413Read(port & 3);
509
        }
510
        else
511
        {
512
          return YM2413Read(port & 3) & io_z80_read(port & 1);
513
        }
514
      }
515

516
      /* check if I/O ports are enabled */
517
      if (!(io_reg[0x0E] & 0x04))
518
      {
519
        return io_z80_read(port & 1);
520
      }
521

522
      return z80_unused_port_r(port & 0xFF);
523
    }
524
  }
525
}
526

527

528
/*--------------------------------------------------------------------------*/
529
/* Mark III port handlers                                                   */
530
/*--------------------------------------------------------------------------*/
531

532
void z80_m3_port_w(unsigned int port, unsigned char data)
533
{
534
  switch (port & 0xC1)
535
  {
536
    case 0x00:
537
    case 0x01:
538
    {
539
      z80_unused_port_w(port, data);
540
      return;
541
    }
542

543
    case 0x40:
544
    case 0x41:
545
    {
546
      SN76489_Write(Z80.cycles, data);
547
      return;
548
    }
549

550
    case 0x80:
551
    {
552
      vdp_z80_data_w(data);
553
      return;
554
    }
555

556
    case 0x81:
557
    {
558
      vdp_sms_ctrl_w(data);
559
      return;
560
    }
561

562
    default:
563
    {
564
      if (!(port & 4) && (config.ym2413 & 1))
565
      {
566
        fm_write(Z80.cycles, port & 3, data);
567
        return;
568
      }
569

570
      z80_unused_port_w(port & 0xFF, data);
571
      return;
572
    }
573
  }
574
}
575

576
unsigned char z80_m3_port_r(unsigned int port)
577
{
578
  switch (port & 0xC1)
579
  {
580
    case 0x00:
581
    case 0x01:
582
    {
583
      return z80_unused_port_r(port & 0xFF);
584
    }
585

586
    case 0x40:
587
    {
588
      return ((vdp_hvc_r(Z80.cycles) >> 8) & 0xFF);
589
    }
590

591
    case 0x41:
592
    {
593
      return (vdp_hvc_r(Z80.cycles) & 0xFF);
594
    }
595

596
    case 0x80:
597
    {
598
      return vdp_z80_data_r();
599
    }
600

601
    case 0x81:
602
    {
603
      return vdp_z80_ctrl_r(Z80.cycles);
604
    }
605

606
    default:
607
    {
608
      /* read FM chip if enabled */
609
      if (!(port & 4) && (config.ym2413 & 1))
610
      {
611
        /* I/O ports are automatically disabled */
612
        return YM2413Read(port & 3);
613
      }
614

615
      /* read I/O ports   */
616
      return io_z80_read(port & 1);
617
    }
618
  }
619
}
620

621

622
/*--------------------------------------------------------------------------*/
623
/* SG-1000 port handlers                                                     */
624
/*--------------------------------------------------------------------------*/
625

626
void z80_sg_port_w(unsigned int port, unsigned char data)
627
{
628
  switch(port & 0xC1)
629
  {
630
    case 0x40:
631
    case 0x41:
632
    {
633
      SN76489_Write(Z80.cycles, data);
634
      return;
635
    }
636

637
    case 0x80:
638
    {
639
      vdp_z80_data_w(data);
640
      return;
641
    }
642

643
    case 0x81:
644
    {
645
      vdp_tms_ctrl_w(data);
646
      return;
647
    }
648

649
    default:
650
    {
651
      z80_unused_port_w(port & 0xFF, data);
652
      return;
653
    }
654
  }
655
}
656

657
unsigned char z80_sg_port_r(unsigned int port)
658
{
659
  switch (port & 0xC1)
660
  {
661
    case 0x80:
662
    {
663
      return vdp_z80_data_r();
664
    }
665

666
    case 0x81:
667
    {
668
      return vdp_z80_ctrl_r(Z80.cycles);
669
    }
670

671
    case 0xC0:
672
    case 0xC1:
673
    {
674
      return io_z80_read(port & 1);
675
    }
676

677
    default:
678
    {
679
      return z80_unused_port_r(port);
680
    }
681
  }
682
}
683

684