1 /* 2 * GUSEMU32 - bus interface part 3 * 4 * Copyright (C) 2000-2007 Tibor "TS" Schütz 5 * 6 * Permission is hereby granted, free of charge, to any person obtaining a copy 7 * of this software and associated documentation files (the "Software"), to deal 8 * in the Software without restriction, including without limitation the rights 9 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell 10 * copies of the Software, and to permit persons to whom the Software is 11 * furnished to do so, subject to the following conditions: 12 * 13 * The above copyright notice and this permission notice shall be included in 14 * all copies or substantial portions of the Software. 15 * 16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 18 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL 19 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, 21 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN 22 * THE SOFTWARE. 23 */ 24 25 /* 26 * TODO: check mixer: see 7.20 of sdk for panning pos (applies to all gus models?)? 27 */ 28 29 #include "hw/gustate.h" 30 #include "hw/gusemu.h" 31 32 #define GUSregb(position) (* (gusptr+(position))) 33 #define GUSregw(position) (*(GUSword *) (gusptr+(position))) 34 #define GUSregd(position) (*(GUSdword *)(gusptr+(position))) 35 36 /* size given in bytes */ 37 unsigned int gus_read(GUSEmuState * state, int port, int size) 38 { 39 int value_read = 0; 40 41 GUSbyte *gusptr; 42 gusptr = state->gusdatapos; 43 GUSregd(portaccesses)++; 44 45 switch (port & 0xff0f) 46 { 47 /* MixerCtrlReg (read not supported on GUS classic) */ 48 /* case 0x200: return GUSregb(MixerCtrlReg2x0); */ 49 case 0x206: /* IRQstatReg / SB2x6IRQ */ 50 /* adlib/sb bits set in port handlers */ 51 /* timer/voice bits set in gus_irqgen() */ 52 /* dma bit set in gus_dma_transferdata */ 53 /* midi not implemented yet */ 54 return GUSregb(IRQStatReg2x6); 55 /* case 0x308: */ /* AdLib388 */ 56 case 0x208: 57 if (GUSregb(GUS45TimerCtrl) & 1) 58 return GUSregb(TimerStatus2x8); 59 return GUSregb(AdLibStatus2x8); /* AdLibStatus */ 60 case 0x309: /* AdLib389 */ 61 case 0x209: 62 return GUSregb(AdLibData2x9); /* AdLibData */ 63 case 0x20A: 64 return GUSregb(AdLibCommand2xA); /* AdLib2x8_2xA */ 65 66 #if 0 67 case 0x20B: /* GUS hidden registers (read not supported on GUS classic) */ 68 switch (GUSregb(RegCtrl_2xF) & 0x07) 69 { 70 case 0: /* IRQ/DMA select */ 71 if (GUSregb(MixerCtrlReg2x0) & 0x40) 72 return GUSregb(IRQ_2xB); /* control register select bit */ 73 else 74 return GUSregb(DMA_2xB); 75 /* case 1-5: */ /* general purpose emulation regs */ 76 /* return ... */ /* + status reset reg (write only) */ 77 case 6: 78 return GUSregb(Jumper_2xB); /* Joystick/MIDI enable (JumperReg) */ 79 default:; 80 } 81 break; 82 #endif 83 84 case 0x20C: /* SB2xCd */ 85 value_read = GUSregb(SB2xCd); 86 if (GUSregb(StatRead_2xF) & 0x20) 87 GUSregb(SB2xCd) ^= 0x80; /* toggle MSB on read */ 88 return value_read; 89 /* case 0x20D: */ /* SB2xD is write only -> 2xE writes to it*/ 90 case 0x20E: 91 if (GUSregb(RegCtrl_2xF) & 0x80) /* 2xE read IRQ enabled? */ 92 { 93 GUSregb(StatRead_2xF) |= 0x80; 94 GUS_irqrequest(state, state->gusirq, 1); 95 } 96 return GUSregb(SB2xE); /* SB2xE */ 97 case 0x20F: /* StatRead_2xF */ 98 /*set/clear fixed bits */ 99 /*value_read = (GUSregb(StatRead_2xF) & 0xf9)|1; */ /*(LSB not set on GUS classic!)*/ 100 value_read = (GUSregb(StatRead_2xF) & 0xf9); 101 if (GUSregb(MixerCtrlReg2x0) & 0x08) 102 value_read |= 2; /* DMA/IRQ enabled flag */ 103 return value_read; 104 /* case 0x300: */ /* MIDI (not implemented) */ 105 /* case 0x301: */ /* MIDI (not implemented) */ 106 case 0x302: 107 return GUSregb(VoiceSelReg3x2); /* VoiceSelReg */ 108 case 0x303: 109 return GUSregb(FunkSelReg3x3); /* FunkSelReg */ 110 case 0x304: /* DataRegLoByte3x4 + DataRegWord3x4 */ 111 case 0x305: /* DataRegHiByte3x5 */ 112 switch (GUSregb(FunkSelReg3x3)) 113 { 114 /* common functions */ 115 case 0x41: /* DramDMAContrReg */ 116 value_read = GUSregb(GUS41DMACtrl); /* &0xfb */ 117 GUSregb(GUS41DMACtrl) &= 0xbb; 118 if (state->gusdma >= 4) 119 value_read |= 0x04; 120 if (GUSregb(IRQStatReg2x6) & 0x80) 121 { 122 value_read |= 0x40; 123 GUSregb(IRQStatReg2x6) &= 0x7f; 124 if (!GUSregb(IRQStatReg2x6)) 125 GUS_irqclear(state, state->gusirq); 126 } 127 return (GUSbyte) value_read; 128 /* DramDMAmemPosReg */ 129 /* case 0x42: value_read=GUSregw(GUS42DMAStart); break;*/ 130 /* 43h+44h write only */ 131 case 0x45: 132 return GUSregb(GUS45TimerCtrl); /* TimerCtrlReg */ 133 /* 46h+47h write only */ 134 /* 48h: samp freq - write only */ 135 case 0x49: 136 return GUSregb(GUS49SampCtrl) & 0xbf; /* SampCtrlReg */ 137 /* case 4bh: */ /* joystick trim not supported */ 138 /* case 0x4c: return GUSregb(GUS4cReset); */ /* GUSreset: write only*/ 139 /* voice specific functions */ 140 case 0x80: 141 case 0x81: 142 case 0x82: 143 case 0x83: 144 case 0x84: 145 case 0x85: 146 case 0x86: 147 case 0x87: 148 case 0x88: 149 case 0x89: 150 case 0x8a: 151 case 0x8b: 152 case 0x8c: 153 case 0x8d: 154 { 155 int offset = 2 * (GUSregb(FunkSelReg3x3) & 0x0f); 156 offset += ((int) GUSregb(VoiceSelReg3x2) & 0x1f) << 5; /* = Voice*32 + Funktion*2 */ 157 value_read = GUSregw(offset); 158 } 159 break; 160 /* voice unspecific functions */ 161 case 0x8e: /* NumVoice */ 162 return GUSregb(NumVoices); 163 case 0x8f: /* irqstatreg */ 164 /* (pseudo IRQ-FIFO is processed during a gus_write(0x3X3,0x8f)) */ 165 return GUSregb(SynVoiceIRQ8f); 166 default: 167 return 0xffff; 168 } 169 if (size == 1) 170 { 171 if ((port & 0xff0f) == 0x305) 172 value_read = value_read >> 8; 173 value_read &= 0xff; 174 } 175 return (GUSword) value_read; 176 /* case 0x306: */ /* Mixer/Version info */ 177 /* return 0xff; */ /* Pre 3.6 boards, ICS mixer NOT present */ 178 case 0x307: /* DRAMaccess */ 179 { 180 GUSbyte *adr; 181 adr = state->himemaddr + (GUSregd(GUSDRAMPOS24bit) & 0xfffff); 182 return *adr; 183 } 184 default:; 185 } 186 return 0xffff; 187 } 188 189 void gus_write(GUSEmuState * state, int port, int size, unsigned int data) 190 { 191 GUSbyte *gusptr; 192 gusptr = state->gusdatapos; 193 GUSregd(portaccesses)++; 194 195 switch (port & 0xff0f) 196 { 197 case 0x200: /* MixerCtrlReg */ 198 GUSregb(MixerCtrlReg2x0) = (GUSbyte) data; 199 break; 200 case 0x206: /* IRQstatReg / SB2x6IRQ */ 201 if (GUSregb(GUS45TimerCtrl) & 0x20) /* SB IRQ enabled? -> set 2x6IRQ bit */ 202 { 203 GUSregb(TimerStatus2x8) |= 0x08; 204 GUSregb(IRQStatReg2x6) = 0x10; 205 GUS_irqrequest(state, state->gusirq, 1); 206 } 207 break; 208 case 0x308: /* AdLib 388h */ 209 case 0x208: /* AdLibCommandReg */ 210 GUSregb(AdLibCommand2xA) = (GUSbyte) data; 211 break; 212 case 0x309: /* AdLib 389h */ 213 case 0x209: /* AdLibDataReg */ 214 if ((GUSregb(AdLibCommand2xA) == 0x04) && (!(GUSregb(GUS45TimerCtrl) & 1))) /* GUS auto timer mode enabled? */ 215 { 216 if (data & 0x80) 217 GUSregb(TimerStatus2x8) &= 0x1f; /* AdLib IRQ reset? -> clear maskable adl. timer int regs */ 218 else 219 GUSregb(TimerDataReg2x9) = (GUSbyte) data; 220 } 221 else 222 { 223 GUSregb(AdLibData2x9) = (GUSbyte) data; 224 if (GUSregb(GUS45TimerCtrl) & 0x02) 225 { 226 GUSregb(TimerStatus2x8) |= 0x01; 227 GUSregb(IRQStatReg2x6) = 0x10; 228 GUS_irqrequest(state, state->gusirq, 1); 229 } 230 } 231 break; 232 case 0x20A: 233 GUSregb(AdLibStatus2x8) = (GUSbyte) data; 234 break; /* AdLibStatus2x8 */ 235 case 0x20B: /* GUS hidden registers */ 236 switch (GUSregb(RegCtrl_2xF) & 0x7) 237 { 238 case 0: 239 if (GUSregb(MixerCtrlReg2x0) & 0x40) 240 GUSregb(IRQ_2xB) = (GUSbyte) data; /* control register select bit */ 241 else 242 GUSregb(DMA_2xB) = (GUSbyte) data; 243 break; 244 /* case 1-4: general purpose emulation regs */ 245 case 5: /* clear stat reg 2xF */ 246 GUSregb(StatRead_2xF) = 0; /* ToDo: is this identical with GUS classic? */ 247 if (!GUSregb(IRQStatReg2x6)) 248 GUS_irqclear(state, state->gusirq); 249 break; 250 case 6: /* Jumper reg (Joystick/MIDI enable) */ 251 GUSregb(Jumper_2xB) = (GUSbyte) data; 252 break; 253 default:; 254 } 255 break; 256 case 0x20C: /* SB2xCd */ 257 if (GUSregb(GUS45TimerCtrl) & 0x20) 258 { 259 GUSregb(TimerStatus2x8) |= 0x10; /* SB IRQ enabled? -> set 2xCIRQ bit */ 260 GUSregb(IRQStatReg2x6) = 0x10; 261 GUS_irqrequest(state, state->gusirq, 1); 262 } 263 case 0x20D: /* SB2xCd no IRQ */ 264 GUSregb(SB2xCd) = (GUSbyte) data; 265 break; 266 case 0x20E: /* SB2xE */ 267 GUSregb(SB2xE) = (GUSbyte) data; 268 break; 269 case 0x20F: 270 GUSregb(RegCtrl_2xF) = (GUSbyte) data; 271 break; /* CtrlReg2xF */ 272 case 0x302: /* VoiceSelReg */ 273 GUSregb(VoiceSelReg3x2) = (GUSbyte) data; 274 break; 275 case 0x303: /* FunkSelReg */ 276 GUSregb(FunkSelReg3x3) = (GUSbyte) data; 277 if ((GUSbyte) data == 0x8f) /* set irqstatreg, get voicereg and clear IRQ */ 278 { 279 int voice; 280 if (GUSregd(voicewavetableirq)) /* WavetableIRQ */ 281 { 282 for (voice = 0; voice < 31; voice++) 283 { 284 if (GUSregd(voicewavetableirq) & (1 << voice)) 285 { 286 GUSregd(voicewavetableirq) ^= (1 << voice); /* clear IRQ bit */ 287 GUSregb(voice << 5) &= 0x7f; /* clear voice reg irq bit */ 288 if (!GUSregd(voicewavetableirq)) 289 GUSregb(IRQStatReg2x6) &= 0xdf; 290 if (!GUSregb(IRQStatReg2x6)) 291 GUS_irqclear(state, state->gusirq); 292 GUSregb(SynVoiceIRQ8f) = voice | 0x60; /* (bit==0 => IRQ wartend) */ 293 return; 294 } 295 } 296 } 297 else if (GUSregd(voicevolrampirq)) /* VolRamp IRQ */ 298 { 299 for (voice = 0; voice < 31; voice++) 300 { 301 if (GUSregd(voicevolrampirq) & (1 << voice)) 302 { 303 GUSregd(voicevolrampirq) ^= (1 << voice); /* clear IRQ bit */ 304 GUSregb((voice << 5) + VSRVolRampControl) &= 0x7f; /* clear voice volume reg irq bit */ 305 if (!GUSregd(voicevolrampirq)) 306 GUSregb(IRQStatReg2x6) &= 0xbf; 307 if (!GUSregb(IRQStatReg2x6)) 308 GUS_irqclear(state, state->gusirq); 309 GUSregb(SynVoiceIRQ8f) = voice | 0x80; /* (bit==0 => IRQ wartend) */ 310 return; 311 } 312 } 313 } 314 GUSregb(SynVoiceIRQ8f) = 0xe8; /* kein IRQ wartet */ 315 } 316 break; 317 case 0x304: 318 case 0x305: 319 { 320 GUSword writedata = (GUSword) data; 321 GUSword readmask = 0x0000; 322 if (size == 1) 323 { 324 readmask = 0xff00; 325 writedata &= 0xff; 326 if ((port & 0xff0f) == 0x305) 327 { 328 writedata = (GUSword) (writedata << 8); 329 readmask = 0x00ff; 330 } 331 } 332 switch (GUSregb(FunkSelReg3x3)) 333 { 334 /* voice specific functions */ 335 case 0x00: 336 case 0x01: 337 case 0x02: 338 case 0x03: 339 case 0x04: 340 case 0x05: 341 case 0x06: 342 case 0x07: 343 case 0x08: 344 case 0x09: 345 case 0x0a: 346 case 0x0b: 347 case 0x0c: 348 case 0x0d: 349 { 350 int offset; 351 if (!(GUSregb(GUS4cReset) & 0x01)) 352 break; /* reset flag active? */ 353 offset = 2 * (GUSregb(FunkSelReg3x3) & 0x0f); 354 offset += (GUSregb(VoiceSelReg3x2) & 0x1f) << 5; /* = Voice*32 + Funktion*2 */ 355 GUSregw(offset) = (GUSword) ((GUSregw(offset) & readmask) | writedata); 356 } 357 break; 358 /* voice unspecific functions */ 359 case 0x0e: /* NumVoices */ 360 GUSregb(NumVoices) = (GUSbyte) data; 361 break; 362 /* case 0x0f: */ /* read only */ 363 /* common functions */ 364 case 0x41: /* DramDMAContrReg */ 365 GUSregb(GUS41DMACtrl) = (GUSbyte) data; 366 if (data & 0x01) 367 GUS_dmarequest(state); 368 break; 369 case 0x42: /* DramDMAmemPosReg */ 370 GUSregw(GUS42DMAStart) = (GUSregw(GUS42DMAStart) & readmask) | writedata; 371 GUSregb(GUS50DMAHigh) &= 0xf; /* compatibility stuff... */ 372 break; 373 case 0x43: /* DRAMaddrLo */ 374 GUSregd(GUSDRAMPOS24bit) = 375 (GUSregd(GUSDRAMPOS24bit) & (readmask | 0xff0000)) | writedata; 376 break; 377 case 0x44: /* DRAMaddrHi */ 378 GUSregd(GUSDRAMPOS24bit) = 379 (GUSregd(GUSDRAMPOS24bit) & 0xffff) | ((data & 0x0f) << 16); 380 break; 381 case 0x45: /* TCtrlReg */ 382 GUSregb(GUS45TimerCtrl) = (GUSbyte) data; 383 if (!(data & 0x20)) 384 GUSregb(TimerStatus2x8) &= 0xe7; /* sb IRQ dis? -> clear 2x8/2xC sb IRQ flags */ 385 if (!(data & 0x02)) 386 GUSregb(TimerStatus2x8) &= 0xfe; /* adlib data IRQ dis? -> clear 2x8 adlib IRQ flag */ 387 if (!(GUSregb(TimerStatus2x8) & 0x19)) 388 GUSregb(IRQStatReg2x6) &= 0xef; /* 0xe6; $$clear IRQ if both IRQ bits are inactive or cleared */ 389 /* catch up delayed timer IRQs: */ 390 if ((GUSregw(TimerIRQs) > 1) && (GUSregb(TimerDataReg2x9) & 3)) 391 { 392 if (GUSregb(TimerDataReg2x9) & 1) /* start timer 1 (80us decrement rate) */ 393 { 394 if (!(GUSregb(TimerDataReg2x9) & 0x40)) 395 GUSregb(TimerStatus2x8) |= 0xc0; /* maskable bits */ 396 if (data & 4) /* timer1 irq enable */ 397 { 398 GUSregb(TimerStatus2x8) |= 4; /* nonmaskable bit */ 399 GUSregb(IRQStatReg2x6) |= 4; /* timer 1 irq pending */ 400 } 401 } 402 if (GUSregb(TimerDataReg2x9) & 2) /* start timer 2 (320us decrement rate) */ 403 { 404 if (!(GUSregb(TimerDataReg2x9) & 0x20)) 405 GUSregb(TimerStatus2x8) |= 0xa0; /* maskable bits */ 406 if (data & 8) /* timer2 irq enable */ 407 { 408 GUSregb(TimerStatus2x8) |= 2; /* nonmaskable bit */ 409 GUSregb(IRQStatReg2x6) |= 8; /* timer 2 irq pending */ 410 } 411 } 412 GUSregw(TimerIRQs)--; 413 if (GUSregw(BusyTimerIRQs) > 1) 414 GUSregw(BusyTimerIRQs)--; 415 else 416 GUSregw(BusyTimerIRQs) = 417 GUS_irqrequest(state, state->gusirq, GUSregw(TimerIRQs)); 418 } 419 else 420 GUSregw(TimerIRQs) = 0; 421 422 if (!(data & 0x04)) 423 { 424 GUSregb(TimerStatus2x8) &= 0xfb; /* clear non-maskable timer1 bit */ 425 GUSregb(IRQStatReg2x6) &= 0xfb; 426 } 427 if (!(data & 0x08)) 428 { 429 GUSregb(TimerStatus2x8) &= 0xfd; /* clear non-maskable timer2 bit */ 430 GUSregb(IRQStatReg2x6) &= 0xf7; 431 } 432 if (!GUSregb(IRQStatReg2x6)) 433 GUS_irqclear(state, state->gusirq); 434 break; 435 case 0x46: /* Counter1 */ 436 GUSregb(GUS46Counter1) = (GUSbyte) data; 437 break; 438 case 0x47: /* Counter2 */ 439 GUSregb(GUS47Counter2) = (GUSbyte) data; 440 break; 441 /* case 0x48: */ /* sampling freq reg not emulated (same as interwave) */ 442 case 0x49: /* SampCtrlReg */ 443 GUSregb(GUS49SampCtrl) = (GUSbyte) data; 444 break; 445 /* case 0x4b: */ /* joystick trim not emulated */ 446 case 0x4c: /* GUSreset */ 447 GUSregb(GUS4cReset) = (GUSbyte) data; 448 if (!(GUSregb(GUS4cReset) & 1)) /* reset... */ 449 { 450 GUSregd(voicewavetableirq) = 0; 451 GUSregd(voicevolrampirq) = 0; 452 GUSregw(TimerIRQs) = 0; 453 GUSregw(BusyTimerIRQs) = 0; 454 GUSregb(NumVoices) = 0xcd; 455 GUSregb(IRQStatReg2x6) = 0; 456 GUSregb(TimerStatus2x8) = 0; 457 GUSregb(AdLibData2x9) = 0; 458 GUSregb(TimerDataReg2x9) = 0; 459 GUSregb(GUS41DMACtrl) = 0; 460 GUSregb(GUS45TimerCtrl) = 0; 461 GUSregb(GUS49SampCtrl) = 0; 462 GUSregb(GUS4cReset) &= 0xf9; /* clear IRQ and DAC enable bits */ 463 GUS_irqclear(state, state->gusirq); 464 } 465 /* IRQ enable bit checked elsewhere */ 466 /* EnableDAC bit may be used by external callers */ 467 break; 468 } 469 } 470 break; 471 case 0x307: /* DRAMaccess */ 472 { 473 GUSbyte *adr; 474 adr = state->himemaddr + (GUSregd(GUSDRAMPOS24bit) & 0xfffff); 475 *adr = (GUSbyte) data; 476 } 477 break; 478 } 479 } 480 481 /* Attention when breaking up a single DMA transfer to multiple ones: 482 * it may lead to multiple terminal count interrupts and broken transfers: 483 * 484 * 1. Whenever you transfer a piece of data, the gusemu callback is invoked 485 * 2. The callback may generate a TC irq (if the register was set up to do so) 486 * 3. The irq may result in the program using the GUS to reprogram the GUS 487 * 488 * Some programs also decide to upload by just checking if TC occurs 489 * (via interrupt or a cleared GUS dma flag) 490 * and then start the next transfer, without checking DMA state 491 * 492 * Thus: Always make sure to set the TC flag correctly! 493 * 494 * Note that the genuine GUS had a granularity of 16 bytes/words for low/high DMA 495 * while later cards had atomic granularity provided by an additional GUS50DMAHigh register 496 * GUSemu also uses this register to support byte-granular transfers for better compatibility 497 * with emulators other than GUSemu32 498 */ 499 500 void gus_dma_transferdata(GUSEmuState * state, char *dma_addr, unsigned int count, int TC) 501 { 502 /* this function gets called by the callback function as soon as a DMA transfer is about to start 503 * dma_addr is a translated address within accessible memory, not the physical one, 504 * count is (real dma count register)+1 505 * note that the amount of bytes transferred is fully determined by values in the DMA registers 506 * do not forget to update DMA states after transferring the entire block: 507 * DREQ cleared & TC asserted after the _whole_ transfer */ 508 509 char *srcaddr; 510 char *destaddr; 511 char msbmask = 0; 512 GUSbyte *gusptr; 513 gusptr = state->gusdatapos; 514 515 srcaddr = dma_addr; /* system memory address */ 516 { 517 int offset = (GUSregw(GUS42DMAStart) << 4) + (GUSregb(GUS50DMAHigh) & 0xf); 518 if (state->gusdma >= 4) 519 offset = (offset & 0xc0000) + (2 * (offset & 0x1fff0)); /* 16 bit address translation */ 520 destaddr = (char *) state->himemaddr + offset; /* wavetable RAM address */ 521 } 522 523 GUSregw(GUS42DMAStart) += (GUSword) (count >> 4); /* ToDo: add 16bit GUS page limit? */ 524 GUSregb(GUS50DMAHigh) = (GUSbyte) ((count + GUSregb(GUS50DMAHigh)) & 0xf); /* ToDo: add 16bit GUS page limit? */ 525 526 if (GUSregb(GUS41DMACtrl) & 0x02) /* direction, 0 := sysram->gusram */ 527 { 528 char *tmpaddr = destaddr; 529 destaddr = srcaddr; 530 srcaddr = tmpaddr; 531 } 532 533 if ((GUSregb(GUS41DMACtrl) & 0x80) && (!(GUSregb(GUS41DMACtrl) & 0x02))) 534 msbmask = (const char) 0x80; /* invert MSB */ 535 for (; count > 0; count--) 536 { 537 if (GUSregb(GUS41DMACtrl) & 0x40) 538 *(destaddr++) = *(srcaddr++); /* 16 bit lobyte */ 539 else 540 *(destaddr++) = (msbmask ^ (*(srcaddr++))); /* 8 bit */ 541 if (state->gusdma >= 4) 542 *(destaddr++) = (msbmask ^ (*(srcaddr++))); /* 16 bit hibyte */ 543 } 544 545 if (TC) 546 { 547 (GUSregb(GUS41DMACtrl)) &= 0xfe; /* clear DMA request bit */ 548 if (GUSregb(GUS41DMACtrl) & 0x20) /* DMA terminal count IRQ */ 549 { 550 GUSregb(IRQStatReg2x6) |= 0x80; 551 GUS_irqrequest(state, state->gusirq, 1); 552 } 553 } 554 } 555