4 // Originally by David Raingeard
5 // GCC/SDL port by Niels Wagenaar (Linux/WIN32) and Carwin Jones (BeOS)
6 // Cleanups/rewrites/fixes by James Hammons
8 // JLH = James Hammons <jlhamm@acm.org>
11 // --- ---------- -----------------------------------------------------------
12 // JLH 11/25/2009 Major rewrite of memory subsystem and handlers
15 // ------------------------------------------------------------
16 // JERRY REGISTERS (Mapped by Aaron Giles)
17 // ------------------------------------------------------------
18 // F10000-F13FFF R/W xxxxxxxx xxxxxxxx Jerry
19 // F10000 W xxxxxxxx xxxxxxxx JPIT1 - timer 1 pre-scaler
20 // F10002 W xxxxxxxx xxxxxxxx JPIT2 - timer 1 divider
21 // F10004 W xxxxxxxx xxxxxxxx JPIT3 - timer 2 pre-scaler
22 // F10008 W xxxxxxxx xxxxxxxx JPIT4 - timer 2 divider
23 // F10010 W ------xx xxxxxxxx CLK1 - processor clock divider
24 // F10012 W ------xx xxxxxxxx CLK2 - video clock divider
25 // F10014 W -------- --xxxxxx CLK3 - chroma clock divider
26 // F10020 R/W ---xxxxx ---xxxxx JINTCTRL - interrupt control register
27 // W ---x---- -------- (J_SYNCLR - clear synchronous serial intf ints)
28 // W ----x--- -------- (J_ASYNCLR - clear asynchronous serial intf ints)
29 // W -----x-- -------- (J_TIM2CLR - clear timer 2 [tempo] interrupts)
30 // W ------x- -------- (J_TIM1CLR - clear timer 1 [sample] interrupts)
31 // W -------x -------- (J_EXTCLR - clear external interrupts)
32 // R/W -------- ---x---- (J_SYNENA - enable synchronous serial intf ints)
33 // R/W -------- ----x--- (J_ASYNENA - enable asynchronous serial intf ints)
34 // R/W -------- -----x-- (J_TIM2ENA - enable timer 2 [tempo] interrupts)
35 // R/W -------- ------x- (J_TIM1ENA - enable timer 1 [sample] interrupts)
36 // R/W -------- -------x (J_EXTENA - enable external interrupts)
37 // F10030 R/W -------- xxxxxxxx ASIDATA - asynchronous serial data
38 // F10032 W -x------ -xxxxxxx ASICTRL - asynchronous serial control
39 // W -x------ -------- (TXBRK - transmit break)
40 // W -------- -x------ (CLRERR - clear error)
41 // W -------- --x----- (RINTEN - enable receiver interrupts)
42 // W -------- ---x---- (TINTEN - enable transmitter interrupts)
43 // W -------- ----x--- (RXIPOL - receiver input polarity)
44 // W -------- -----x-- (TXOPOL - transmitter output polarity)
45 // W -------- ------x- (PAREN - parity enable)
46 // W -------- -------x (ODD - odd parity select)
47 // F10032 R xxx-xxxx x-xxxxxx ASISTAT - asynchronous serial status
48 // R x------- -------- (ERROR - OR of PE,FE,OE)
49 // R -x------ -------- (TXBRK - transmit break)
50 // R --x----- -------- (SERIN - serial input)
51 // R ----x--- -------- (OE - overrun error)
52 // R -----x-- -------- (FE - framing error)
53 // R ------x- -------- (PE - parity error)
54 // R -------x -------- (TBE - transmit buffer empty)
55 // R -------- x------- (RBF - receive buffer full)
56 // R -------- ---x---- (TINTEN - enable transmitter interrupts)
57 // R -------- ----x--- (RXIPOL - receiver input polarity)
58 // R -------- -----x-- (TXOPOL - transmitter output polarity)
59 // R -------- ------x- (PAREN - parity enable)
60 // R -------- -------x (ODD - odd parity)
61 // F10034 R/W xxxxxxxx xxxxxxxx ASICLK - asynchronous serial interface clock
62 // F10036 R xxxxxxxx xxxxxxxx JPIT1 - timer 1 pre-scaler
63 // F10038 R xxxxxxxx xxxxxxxx JPIT2 - timer 1 divider
64 // F1003A R xxxxxxxx xxxxxxxx JPIT3 - timer 2 pre-scaler
65 // F1003C R xxxxxxxx xxxxxxxx JPIT4 - timer 2 divider
66 // ------------------------------------------------------------
67 // F14000-F17FFF R/W xxxxxxxx xxxxxxxx Joysticks and GPIO0-5
68 // F14000 R xxxxxxxx xxxxxxxx JOYSTICK - read joystick state
69 // F14000 W x------- xxxxxxxx JOYSTICK - latch joystick output
70 // W x------- -------- (enable joystick outputs)
71 // W -------- xxxxxxxx (joystick output data)
72 // F14002 R xxxxxxxx xxxxxxxx JOYBUTS - button register
73 // F14800-F14FFF R/W xxxxxxxx xxxxxxxx GPI00 - reserved (CD-ROM? no.)
74 // F15000-F15FFF R/W xxxxxxxx xxxxxxxx GPI01 - reserved
75 // F16000-F16FFF R/W xxxxxxxx xxxxxxxx GPI02 - reserved
76 // F17000-F177FF R/W xxxxxxxx xxxxxxxx GPI03 - reserved
77 // F17800-F17BFF R/W xxxxxxxx xxxxxxxx GPI04 - reserved
78 // F17C00-F17FFF R/W xxxxxxxx xxxxxxxx GPI05 - reserved
79 // ------------------------------------------------------------
80 // F18000-F1FFFF R/W xxxxxxxx xxxxxxxx Jerry DSP
81 // F1A100 R/W xxxxxxxx xxxxxxxx D_FLAGS - DSP flags register
82 // R/W x------- -------- (DMAEN - DMA enable)
83 // R/W -x------ -------- (REGPAGE - register page)
84 // W --x----- -------- (D_EXT0CLR - clear external interrupt 0)
85 // W ---x---- -------- (D_TIM2CLR - clear timer 2 interrupt)
86 // W ----x--- -------- (D_TIM1CLR - clear timer 1 interrupt)
87 // W -----x-- -------- (D_I2SCLR - clear I2S interrupt)
88 // W ------x- -------- (D_CPUCLR - clear CPU interrupt)
89 // R/W -------x -------- (D_EXT0ENA - enable external interrupt 0)
90 // R/W -------- x------- (D_TIM2ENA - enable timer 2 interrupt)
91 // R/W -------- -x------ (D_TIM1ENA - enable timer 1 interrupt)
92 // R/W -------- --x----- (D_I2SENA - enable I2S interrupt)
93 // R/W -------- ---x---- (D_CPUENA - enable CPU interrupt)
94 // R/W -------- ----x--- (IMASK - interrupt mask)
95 // R/W -------- -----x-- (NEGA_FLAG - ALU negative)
96 // R/W -------- ------x- (CARRY_FLAG - ALU carry)
97 // R/W -------- -------x (ZERO_FLAG - ALU zero)
98 // F1A102 R/W -------- ------xx D_FLAGS - upper DSP flags
99 // R/W -------- ------x- (D_EXT1ENA - enable external interrupt 1)
100 // R/W -------- -------x (D_EXT1CLR - clear external interrupt 1)
101 // F1A104 W -------- ----xxxx D_MTXC - matrix control register
102 // W -------- ----x--- (MATCOL - column/row major)
103 // W -------- -----xxx (MATRIX3-15 - matrix width)
104 // F1A108 W ----xxxx xxxxxx-- D_MTXA - matrix address register
105 // F1A10C W -------- -----x-x D_END - data organization register
106 // W -------- -----x-- (BIG_INST - big endian instruction fetch)
107 // W -------- -------x (BIG_IO - big endian I/O)
108 // F1A110 R/W xxxxxxxx xxxxxxxx D_PC - DSP program counter
109 // F1A114 R/W xxxxxxxx xx-xxxxx D_CTRL - DSP control/status register
110 // R xxxx---- -------- (VERSION - DSP version code)
111 // R/W ----x--- -------- (BUS_HOG - hog the bus!)
112 // R/W -----x-- -------- (D_EXT0LAT - external interrupt 0 latch)
113 // R/W ------x- -------- (D_TIM2LAT - timer 2 interrupt latch)
114 // R/W -------x -------- (D_TIM1LAT - timer 1 interrupt latch)
115 // R/W -------- x------- (D_I2SLAT - I2S interrupt latch)
116 // R/W -------- -x------ (D_CPULAT - CPU interrupt latch)
117 // R/W -------- ---x---- (SINGLE_GO - single step one instruction)
118 // R/W -------- ----x--- (SINGLE_STEP - single step mode)
119 // R/W -------- -----x-- (FORCEINT0 - cause interrupt 0 on GPU)
120 // R/W -------- ------x- (CPUINT - send GPU interrupt to CPU)
121 // R/W -------- -------x (DSPGO - enable DSP execution)
122 // F1A116 R/W -------- -------x D_CTRL - upper DSP control/status register
123 // R/W -------- -------x (D_EXT1LAT - external interrupt 1 latch)
124 // F1A118-F1A11B W xxxxxxxx xxxxxxxx D_MOD - modulo instruction mask
125 // F1A11C-F1A11F R xxxxxxxx xxxxxxxx D_REMAIN - divide unit remainder
126 // F1A11C W -------- -------x D_DIVCTRL - divide unit control
127 // W -------- -------x (DIV_OFFSET - 1=16.16 divide, 0=32-bit divide)
128 // F1A120-F1A123 R xxxxxxxx xxxxxxxx D_MACHI - multiply & accumulate high bits
129 // F1A148 W xxxxxxxx xxxxxxxx R_DAC - right transmit data
130 // F1A14C W xxxxxxxx xxxxxxxx L_DAC - left transmit data
131 // F1A150 W -------- xxxxxxxx SCLK - serial clock frequency
132 // F1A150 R -------- ------xx SSTAT
133 // R -------- ------x- (left - no description)
134 // R -------- -------x (WS - word strobe status)
135 // F1A154 W -------- --xxxx-x SMODE - serial mode
136 // W -------- --x----- (EVERYWORD - interrupt on MSB of every word)
137 // W -------- ---x---- (FALLING - interrupt on falling edge)
138 // W -------- ----x--- (RISING - interrupt of rising edge)
139 // W -------- -----x-- (WSEN - enable word strobes)
140 // W -------- -------x (INTERNAL - enables serial clock)
141 // ------------------------------------------------------------
142 // F1B000-F1CFFF R/W xxxxxxxx xxxxxxxx Local DSP RAM
143 // ------------------------------------------------------------
144 // F1D000 R xxxxxxxx xxxxxxxx ROM_TRI - triangle wave
145 // F1D200 R xxxxxxxx xxxxxxxx ROM_SINE - full sine wave
146 // F1D400 R xxxxxxxx xxxxxxxx ROM_AMSINE - amplitude modulated sine wave
147 // F1D600 R xxxxxxxx xxxxxxxx ROM_12W - sine wave and second order harmonic
148 // F1D800 R xxxxxxxx xxxxxxxx ROM_CHIRP16 - chirp
149 // F1DA00 R xxxxxxxx xxxxxxxx ROM_NTRI - traingle wave with noise
150 // F1DC00 R xxxxxxxx xxxxxxxx ROM_DELTA - spike
151 // F1DE00 R xxxxxxxx xxxxxxxx ROM_NOISE - white noise
152 // ------------------------------------------------------------
156 #include <string.h> // For memcpy
164 #include "joystick.h"
166 #include "m68000/m68kinterface.h"
167 #include "settings.h"
169 //#include "memory.h"
170 #include "wavetable.h"
172 //Note that 44100 Hz requires samples every 22.675737 usec.
173 //#define JERRY_DEBUG
175 /*static*/ uint8_t jerry_ram_8[0x10000];
177 //#define JERRY_CONFIG 0x4002 // ??? What's this ???
179 uint8_t analog_x, analog_y;
181 static uint32_t JERRYPIT1Prescaler;
182 static uint32_t JERRYPIT1Divider;
183 static uint32_t JERRYPIT2Prescaler;
184 static uint32_t JERRYPIT2Divider;
185 static int32_t jerry_timer_1_counter;
186 static int32_t jerry_timer_2_counter;
188 //uint32_t JERRYI2SInterruptDivide = 8;
189 int32_t JERRYI2SInterruptTimer = -1;
190 uint32_t jerryI2SCycles;
191 uint32_t jerryIntPending;
193 static uint16_t jerryInterruptMask = 0;
194 static uint16_t jerryPendingInterrupt = 0;
196 // Private function prototypes
198 void JERRYResetPIT1(void);
199 void JERRYResetPIT2(void);
200 void JERRYResetI2S(void);
202 void JERRYPIT1Callback(void);
203 void JERRYPIT2Callback(void);
204 void JERRYI2SCallback(void);
207 void JERRYResetI2S(void)
209 //WriteLog("i2s: reseting\n");
210 //This is really SCLK... !!! FIX !!!
212 JERRYI2SInterruptTimer = -1;
216 void JERRYResetPIT1(void)
218 RemoveCallback(JERRYPIT1Callback);
220 if (JERRYPIT1Prescaler | JERRYPIT1Divider)
222 double usecs = (float)(JERRYPIT1Prescaler + 1) * (float)(JERRYPIT1Divider + 1) * RISC_CYCLE_IN_USEC;
223 SetCallbackTime(JERRYPIT1Callback, usecs, EVENT_JERRY);
228 void JERRYResetPIT2(void)
230 RemoveCallback(JERRYPIT2Callback);
232 if (JERRYPIT1Prescaler | JERRYPIT1Divider)
234 double usecs = (float)(JERRYPIT2Prescaler + 1) * (float)(JERRYPIT2Divider + 1) * RISC_CYCLE_IN_USEC;
235 SetCallbackTime(JERRYPIT2Callback, usecs, EVENT_JERRY);
240 // This is the cause of the regressions in Cybermorph and Missile Command 3D...
241 // Solution: Probably have to check the DSP enable bit before sending these thru.
242 //#define JERRY_NO_IRQS
243 void JERRYPIT1Callback(void)
245 #ifndef JERRY_NO_IRQS
246 //WriteLog("JERRY: In PIT1 callback, IRQM=$%04X\n", jerryInterruptMask);
247 if (TOMIRQEnabled(IRQ_DSP))
249 if (jerryInterruptMask & IRQ2_TIMER1) // CPU Timer 1 IRQ
251 // Not sure, but I think we don't generate another IRQ if one's already going...
252 // But this seems to work... :-/
253 jerryPendingInterrupt |= IRQ2_TIMER1;
254 m68k_set_irq(2); // Generate 68K IPL 2
259 DSPSetIRQLine(DSPIRQ_TIMER0, ASSERT_LINE); // This does the 'IRQ enabled' checking...
264 void JERRYPIT2Callback(void)
266 #ifndef JERRY_NO_IRQS
267 if (TOMIRQEnabled(IRQ_DSP))
269 //WriteLog("JERRY: In PIT2 callback, IRQM=$%04X\n", jerryInterruptMask);
270 if (jerryInterruptMask & IRQ2_TIMER2) // CPU Timer 2 IRQ
272 jerryPendingInterrupt |= IRQ2_TIMER2;
273 m68k_set_irq(2); // Generate 68K IPL 2
278 DSPSetIRQLine(DSPIRQ_TIMER1, ASSERT_LINE); // This does the 'IRQ enabled' checking...
283 void JERRYI2SCallback(void)
285 // We don't have to divide the RISC clock rate by this--the reason is a bit
286 // convoluted. Will put explanation here later...
287 // What's needed here is to find the ratio of the frequency to the number of clock cycles
288 // in one second. For example, if the sample rate is 44100, we divide the clock rate by
289 // this: 26590906 / 44100 = 602 cycles.
290 // Which means, every 602 cycles that go by we have to generate an interrupt.
291 jerryI2SCycles = 32 * (2 * (sclk + 1));
292 //This makes audio faster, but not enough and the pitch is wrong besides
293 // jerryI2SCycles = 32 * (2 * (sclk - 1));
295 // If INTERNAL flag is set, then JERRY's SCLK is master
296 if (smode & SMODE_INTERNAL)
298 // This does the 'IRQ enabled' checking...
299 DSPSetIRQLine(DSPIRQ_SSI, ASSERT_LINE);
300 // double usecs = (float)jerryI2SCycles * RISC_CYCLE_IN_USEC;
301 //this fix is almost enough to fix timings in tripper, but not quite enough...
302 double usecs = (float)jerryI2SCycles * (vjs.hardwareTypeNTSC ? RISC_CYCLE_IN_USEC : RISC_CYCLE_PAL_IN_USEC);
303 SetCallbackTime(JERRYI2SCallback, usecs, EVENT_JERRY);
307 // JERRY is slave to external word clock
309 //Note that 44100 Hz requires samples every 22.675737 usec.
310 //When JERRY is slave to the word clock, we need to do interrupts either at 44.1K
311 //sample rate or at a 88.2K sample rate (11.332... usec).
312 /* // This is just a temporary kludge to see if the CD bus mastering works
313 // I.e., this is totally faked...!
314 // The whole interrupt system is pretty much borked and is need of an overhaul.
315 // What we need is a way of handling these interrupts when they happen instead of
316 // scanline boundaries the way it is now.
317 jerry_i2s_interrupt_timer -= cycles;
318 if (jerry_i2s_interrupt_timer <= 0)
320 //This is probably wrong as well (i.e., need to check enable lines)... !!! FIX !!! [DONE]
321 if (ButchIsReadyToSend())//Not sure this is right spot to check...
323 // return GetWordFromButchSSI(offset, who);
324 SetSSIWordsXmittedFromButch();
325 DSPSetIRQLine(DSPIRQ_SSI, ASSERT_LINE);
327 jerry_i2s_interrupt_timer += 602;
330 if (ButchIsReadyToSend())//Not sure this is right spot to check...
332 // return GetWordFromButchSSI(offset, who);
333 SetSSIWordsXmittedFromButch();
334 DSPSetIRQLine(DSPIRQ_SSI, ASSERT_LINE);
337 SetCallbackTime(JERRYI2SCallback, 22.675737, EVENT_JERRY);
345 memcpy(&jerry_ram_8[0xD000], waveTableROM, 0x1000);
347 JERRYPIT1Prescaler = 0xFFFF;
348 JERRYPIT2Prescaler = 0xFFFF;
349 JERRYPIT1Divider = 0xFFFF;
350 JERRYPIT2Divider = 0xFFFF;
351 jerryInterruptMask = 0x0000;
352 jerryPendingInterrupt = 0x0000;
358 void JERRYReset(void)
364 memset(jerry_ram_8, 0x00, 0xD000); // Don't clear out the Wavetable ROM...!
365 JERRYPIT1Prescaler = 0xFFFF;
366 JERRYPIT2Prescaler = 0xFFFF;
367 JERRYPIT1Divider = 0xFFFF;
368 JERRYPIT2Divider = 0xFFFF;
369 jerry_timer_1_counter = 0;
370 jerry_timer_2_counter = 0;
371 jerryInterruptMask = 0x0000;
372 jerryPendingInterrupt = 0x0000;
380 WriteLog("JERRY: M68K Interrupt control ($F10020) = %04X\n", GET16(jerry_ram_8, 0x20));
387 bool JERRYIRQEnabled(int irq)
389 // Read the word @ $F10020
390 // return jerry_ram_8[0x21] & (1 << irq);
391 return jerryInterruptMask & irq;
395 void JERRYSetPendingIRQ(int irq)
397 // This is the shadow of INT (it's a split RO/WO register)
398 // jerryIntPending |= (1 << irq);
399 jerryPendingInterrupt |= irq;
404 // JERRY byte access (read)
406 uint8_t JERRYReadByte(uint32_t offset, uint32_t who/*=UNKNOWN*/)
409 WriteLog("JERRY: Reading byte at %06X\n", offset);
411 if ((offset >= DSP_CONTROL_RAM_BASE) && (offset < DSP_CONTROL_RAM_BASE+0x20))
412 return DSPReadByte(offset, who);
413 else if ((offset >= DSP_WORK_RAM_BASE) && (offset < DSP_WORK_RAM_BASE+0x2000))
414 return DSPReadByte(offset, who);
415 // LRXD/RRXD/SSTAT $F1A148/4C/50 (really 16-bit registers...)
416 else if (offset >= 0xF1A148 && offset <= 0xF1A153)
417 return DACReadByte(offset, who);
418 // F10036 R xxxxxxxx xxxxxxxx JPIT1 - timer 1 pre-scaler
419 // F10038 R xxxxxxxx xxxxxxxx JPIT2 - timer 1 divider
420 // F1003A R xxxxxxxx xxxxxxxx JPIT3 - timer 2 pre-scaler
421 // F1003C R xxxxxxxx xxxxxxxx JPIT4 - timer 2 divider
423 // else if (offset >= 0xF10000 && offset <= 0xF10007)
424 //This is still wrong. What needs to be returned here are the values being counted down
425 //in the jerry_timer_n_counter variables... !!! FIX !!! [DONE]
427 //This is probably the problem with the new timer code... This is invalid
428 //under the new system... !!! FIX !!!
429 else if ((offset >= 0xF10036) && (offset <= 0xF1003D))
431 WriteLog("JERRY: Unhandled timer read (BYTE) at %08X...\n", offset);
433 // else if (offset >= 0xF10010 && offset <= 0xF10015)
434 // return clock_byte_read(offset);
435 // else if (offset >= 0xF17C00 && offset <= 0xF17C01)
436 // return anajoy_byte_read(offset);
437 else if (offset >= 0xF14000 && offset <= 0xF14003)
438 // return JoystickReadByte(offset) | EepromReadByte(offset);
440 uint16_t value = JoystickReadWord(offset & 0xFE);
447 // This is wrong, should only have the lowest bit from $F14001
448 return value | EepromReadByte(offset);
450 else if (offset >= 0xF14000 && offset <= 0xF1A0FF)
451 return EepromReadByte(offset);
453 return jerry_ram_8[offset & 0xFFFF];
458 // JERRY word access (read)
460 uint16_t JERRYReadWord(uint32_t offset, uint32_t who/*=UNKNOWN*/)
463 WriteLog("JERRY: Reading word at %06X\n", offset);
466 if ((offset >= DSP_CONTROL_RAM_BASE) && (offset < DSP_CONTROL_RAM_BASE+0x20))
467 return DSPReadWord(offset, who);
468 else if (offset >= DSP_WORK_RAM_BASE && offset <= DSP_WORK_RAM_BASE + 0x1FFF)
469 return DSPReadWord(offset, who);
470 // LRXD/RRXD/SSTAT $F1A148/4C/50 (really 16-bit registers...)
471 else if (offset >= 0xF1A148 && offset <= 0xF1A153)
472 return DACReadWord(offset, who);
473 // F10036 R xxxxxxxx xxxxxxxx JPIT1 - timer 1 pre-scaler
474 // F10038 R xxxxxxxx xxxxxxxx JPIT2 - timer 1 divider
475 // F1003A R xxxxxxxx xxxxxxxx JPIT3 - timer 2 pre-scaler
476 // F1003C R xxxxxxxx xxxxxxxx JPIT4 - timer 2 divider
478 // else if ((offset >= 0xF10000) && (offset <= 0xF10007))
479 //This is still wrong. What needs to be returned here are the values being counted down
480 //in the jerry_timer_n_counter variables... !!! FIX !!! [DONE]
481 else if ((offset >= 0xF10036) && (offset <= 0xF1003D))
483 WriteLog("JERRY: Unhandled timer read (WORD) at %08X...\n", offset);
485 // else if ((offset >= 0xF10010) && (offset <= 0xF10015))
486 // return clock_word_read(offset);
487 else if (offset == 0xF10020)
488 // return jerryIntPending;
489 return jerryPendingInterrupt;
490 // else if ((offset >= 0xF17C00) && (offset <= 0xF17C01))
491 // return anajoy_word_read(offset);
492 else if (offset == 0xF14000)
493 return (JoystickReadWord(offset) & 0xFFFE) | EepromReadWord(offset);
494 else if ((offset >= 0xF14002) && (offset < 0xF14003))
495 return JoystickReadWord(offset);
496 else if ((offset >= 0xF14000) && (offset <= 0xF1A0FF))
497 return EepromReadWord(offset);
499 /*if (offset >= 0xF1D000)
500 WriteLog("JERRY: Reading word at %08X [%04X]...\n", offset, ((uint16_t)jerry_ram_8[(offset+0)&0xFFFF] << 8) | jerry_ram_8[(offset+1)&0xFFFF]);//*/
502 offset &= 0xFFFF; // Prevent crashing...!
503 return ((uint16_t)jerry_ram_8[offset+0] << 8) | jerry_ram_8[offset+1];
508 // JERRY byte access (write)
510 void JERRYWriteByte(uint32_t offset, uint8_t data, uint32_t who/*=UNKNOWN*/)
513 WriteLog("jerry: writing byte %.2x at 0x%.6x\n",data,offset);
515 if ((offset >= DSP_CONTROL_RAM_BASE) && (offset < DSP_CONTROL_RAM_BASE+0x20))
517 DSPWriteByte(offset, data, who);
520 else if ((offset >= DSP_WORK_RAM_BASE) && (offset < DSP_WORK_RAM_BASE+0x2000))
522 DSPWriteByte(offset, data, who);
525 // SCLK ($F1A150--8 bits wide)
526 //NOTE: This should be taken care of in DAC...
528 else if ((offset >= 0xF1A152) && (offset <= 0xF1A153))
531 // WriteLog("JERRY: Writing %02X to SCLK...\n", data);
532 if ((offset & 0x03) == 2)
533 sclk = (sclk & 0x00FF) | ((uint32_t)data << 8);
535 sclk = (sclk & 0xFF00) | (uint32_t)data;
539 #warning "!!! SCLK should be handled in dac.cpp !!!"
540 JERRYI2SInterruptTimer = -1;
541 RemoveCallback(JERRYI2SCallback);
546 // LTXD/RTXD/SCLK/SMODE $F1A148/4C/50/54 (really 16-bit registers...)
547 else if (offset >= 0xF1A148 && offset <= 0xF1A157)
549 DACWriteByte(offset, data, who);
552 else if (offset >= 0xF10000 && offset <= 0xF10007)
554 WriteLog("JERRY: Unhandled timer write (BYTE) at %08X...\n", offset);
557 /* else if ((offset >= 0xF10010) && (offset <= 0xF10015))
559 clock_byte_write(offset, data);
562 // JERRY -> 68K interrupt enables/latches (need to be handled!)
563 else if (offset >= 0xF10020 && offset <= 0xF10021)//WAS:23)
565 if (offset == 0xF10020)
567 // Clear pending interrupts...
568 jerryPendingInterrupt &= ~data;
570 else if (offset == 0xF10021)
571 jerryInterruptMask = data;
572 //WriteLog("JERRY: (68K int en/lat - Unhandled!) Tried to write $%02X to $%08X!\n", data, offset);
573 //WriteLog("JERRY: (Previous is partially handled... IRQMask=$%04X)\n", jerryInterruptMask);
575 /* else if ((offset >= 0xF17C00) && (offset <= 0xF17C01))
577 anajoy_byte_write(offset, data);
580 else if ((offset >= 0xF14000) && (offset <= 0xF14003))
582 WriteLog("JERRYWriteByte: Unhandled byte write to JOYSTICK by %s.\n", whoName[who]);
583 // JoystickWriteByte(offset, data);
584 JoystickWriteWord(offset & 0xFE, (uint16_t)data);
585 // This is wrong, EEPROM is never written here
586 EepromWriteByte(offset, data);
589 else if ((offset >= 0xF14000) && (offset <= 0xF1A0FF))
591 EepromWriteByte(offset, data);
595 //Need to protect write attempts to Wavetable ROM (F1D000-FFF)
596 if (offset >= 0xF1D000 && offset <= 0xF1DFFF)
599 jerry_ram_8[offset & 0xFFFF] = data;
604 // JERRY word access (write)
606 void JERRYWriteWord(uint32_t offset, uint16_t data, uint32_t who/*=UNKNOWN*/)
609 WriteLog( "JERRY: Writing word %04X at %06X\n", data, offset);
612 if (offset == 0xF10000)
613 WriteLog("JERRY: JPIT1 word written by %s: %u\n", whoName[who], data);
614 else if (offset == 0xF10002)
615 WriteLog("JERRY: JPIT2 word written by %s: %u\n", whoName[who], data);
616 else if (offset == 0xF10004)
617 WriteLog("JERRY: JPIT3 word written by %s: %u\n", whoName[who], data);
618 else if (offset == 0xF10006)
619 WriteLog("JERRY: JPIT4 word written by %s: %u\n", whoName[who], data);
620 else if (offset == 0xF10010)
621 WriteLog("JERRY: CLK1 word written by %s: %u\n", whoName[who], data);
622 else if (offset == 0xF10012)
623 WriteLog("JERRY: CLK2 word written by %s: %u\n", whoName[who], data);
624 else if (offset == 0xF10014)
625 WriteLog("JERRY: CLK3 word written by %s: %u\n", whoName[who], data);
626 //else if (offset == 0xF1A100)
627 // WriteLog("JERRY: D_FLAGS word written by %s: %u\n", whoName[who], data);
628 //else if (offset == 0xF1A102)
629 // WriteLog("JERRY: D_FLAGS+2 word written by %s: %u\n", whoName[who], data);
630 else if (offset == 0xF10020)
631 WriteLog("JERRY: JINTCTRL word written by %s: $%04X (%s%s%s%s%s%s)\n", whoName[who], data,
632 (data & 0x01 ? "Extrnl " : ""), (data & 0x02 ? "DSP " : ""),
633 (data & 0x04 ? "Timer0 " : ""), (data & 0x08 ? "Timer1 " : ""),
634 (data & 0x10 ? "ASI " : ""), (data & 0x20 ? "I2S " : ""));
637 if ((offset >= DSP_CONTROL_RAM_BASE) && (offset < DSP_CONTROL_RAM_BASE+0x20))
639 DSPWriteWord(offset, data, who);
642 else if ((offset >= DSP_WORK_RAM_BASE) && (offset < DSP_WORK_RAM_BASE+0x2000))
644 DSPWriteWord(offset, data, who);
647 //NOTE: This should be taken care of in DAC...
649 else if (offset == 0xF1A152) // Bottom half of SCLK ($F1A150)
651 #warning "!!! SCLK should be handled in dac.cpp !!!"
652 WriteLog("JERRY: Writing $%X to SCLK (by %s)...\n", data, whoName[who]);
653 //This should *only* be enabled when SMODE has its INTERNAL bit set! !!! FIX !!!
655 sclk = (uint8_t)data;
659 JERRYI2SInterruptTimer = -1;
660 RemoveCallback(JERRYI2SCallback);
663 DACWriteWord(offset, data, who);
667 // LTXD/RTXD/SCLK/SMODE $F1A148/4C/50/54 (really 16-bit registers...)
668 else if (offset >= 0xF1A148 && offset <= 0xF1A156)
670 DACWriteWord(offset, data, who);
673 else if (offset >= 0xF10000 && offset <= 0xF10007)
675 switch(offset & 0x07)
678 JERRYPIT1Prescaler = data;
682 JERRYPIT1Divider = data;
686 JERRYPIT2Prescaler = data;
690 JERRYPIT2Divider = data;
693 // Need to handle (unaligned) cases???
697 /* else if (offset >= 0xF10010 && offset < 0xF10016)
699 clock_word_write(offset, data);
702 // JERRY -> 68K interrupt enables/latches (need to be handled!)
703 else if (offset >= 0xF10020 && offset <= 0xF10022)
705 jerryInterruptMask = data & 0xFF;
706 jerryPendingInterrupt &= ~(data >> 8);
707 //WriteLog("JERRY: (68K int en/lat - Unhandled!) Tried to write $%04X to $%08X!\n", data, offset);
708 //WriteLog("JERRY: (Previous is partially handled... IRQMask=$%04X)\n", jerryInterruptMask);
711 /* else if (offset >= 0xF17C00 && offset < 0xF17C02)
713 //I think this was removed from the Jaguar. If so, then we don't need this...!
714 anajoy_word_write(offset, data);
717 else if (offset >= 0xF14000 && offset < 0xF14003)
719 JoystickWriteWord(offset, data);
720 EepromWriteWord(offset, data);
723 else if (offset >= 0xF14000 && offset <= 0xF1A0FF)
725 EepromWriteWord(offset, data);
729 //Need to protect write attempts to Wavetable ROM (F1D000-FFF)
730 if (offset >= 0xF1D000 && offset <= 0xF1DFFF)
733 jerry_ram_8[(offset+0) & 0xFFFF] = (data >> 8) & 0xFF;
734 jerry_ram_8[(offset+1) & 0xFFFF] = data & 0xFF;
738 int JERRYGetPIT1Frequency(void)
740 int systemClockFrequency = (vjs.hardwareTypeNTSC ? RISC_CLOCK_RATE_NTSC : RISC_CLOCK_RATE_PAL);
741 return systemClockFrequency / ((JERRYPIT1Prescaler + 1) * (JERRYPIT1Divider + 1));
745 int JERRYGetPIT2Frequency(void)
747 int systemClockFrequency = (vjs.hardwareTypeNTSC ? RISC_CLOCK_RATE_NTSC : RISC_CLOCK_RATE_PAL);
748 return systemClockFrequency / ((JERRYPIT2Prescaler + 1) * (JERRYPIT2Divider + 1));