4 // Originally by David Raingeard (Cal2)
5 // GCC/SDL port by Niels Wagenaar (Linux/WIN32) and Carwin Jones (BeOS)
6 // Cleanups and endian wrongness amelioration by James Hammons
7 // Note: Endian wrongness probably stems from the MAME origins of this emu and
8 // the braindead way in which MAME handled memory when this was written. :-)
10 // JLH = James Hammons
11 // JPM = Jean-Paul Mari
14 // --- ---------- -----------------------------------------------------------
15 // JLH 11/25/2009 Major rewrite of memory subsystem and handlers
16 // JPM 09/04/2018 Added the new Models and BIOS handler
17 // JPM 10/13/2018 Added breakpoints features
18 // JPM Aug./2019 Fix specific breakpoint for ROM cartridge or unknown memory location writing; added a specific breakpoint for the M68K illegal & unimplemented instruction, unknown exceptions and address error exceptions
19 // JPM Aug./2019 Fix potential emulator freeze after an exception has occured
20 // JPM Feb./2021 Added a specific breakpoint for the M68K bus error exception, and a M68K exception catch detection
21 // JPM Apr./2021 Keep number of M68K cycles used in tracing mode
25 #define NEWMODELSBIOSHANDLER // New Jaguar models and bios usage handler
29 //#include <QApplication>
30 #include <QtWidgets/QMessageBox>
33 #include "SDL_opengl.h"
45 #include "m68000/m68kinterface.h"
51 //#include "debugger/BreakpointsWin.h"
52 #ifdef NEWMODELSBIOSHANDLER
53 #include "modelsBIOS.h"
57 //Do this in makefile??? Yes! Could, but it's easier to define here...
58 //#define LOG_UNMAPPED_MEMORY_ACCESSES
59 //#define ABORT_ON_UNMAPPED_MEMORY_ACCESS
60 //#define ABORT_ON_ILLEGAL_INSTRUCTIONS
61 //#define ABORT_ON_OFFICIAL_ILLEGAL_INSTRUCTION
62 #define CPU_DEBUG_MEMORY
63 //#define LOG_CD_BIOS_CALLS
64 #define CPU_DEBUG_TRACING
65 #define ALPINE_FUNCTIONS
67 // Private function prototypes
69 unsigned jaguar_unknown_readbyte(unsigned address
, uint32_t who
= UNKNOWN
);
70 unsigned jaguar_unknown_readword(unsigned address
, uint32_t who
= UNKNOWN
);
71 void jaguar_unknown_writebyte(unsigned address
, unsigned data
, uint32_t who
= UNKNOWN
);
72 void jaguar_unknown_writeword(unsigned address
, unsigned data
, uint32_t who
= UNKNOWN
);
73 void M68K_show_context(void);
75 void M68K_Debughalt(void);
80 #ifdef CPU_DEBUG_MEMORY
81 extern bool startMemLog
; // Set by "e" key
82 extern int effect_start
;
83 extern int effect_start2
, effect_start3
, effect_start4
, effect_start5
, effect_start6
;
86 // Really, need to include memory.h for this, but it might interfere with some stuff...
87 extern uint8_t jagMemSpace
[];
91 uint32_t jaguar_active_memory_dumps
= 0;
93 uint32_t jaguarMainROMCRC32
, jaguarROMSize
, jaguarRunAddress
;
94 bool jaguarCartInserted
= false;
95 bool lowerField
= false;
97 #ifdef CPU_DEBUG_MEMORY
98 uint8_t writeMemMax
[0x400000], writeMemMin
[0x400000];
99 uint8_t readMem
[0x400000];
100 uint32_t returnAddr
[4000], raPtr
= 0xFFFFFFFF;
103 uint32_t pcQueue
[0x400];
104 uint32_t a0Queue
[0x400];
105 uint32_t a1Queue
[0x400];
106 uint32_t a2Queue
[0x400];
107 uint32_t a3Queue
[0x400];
108 uint32_t a4Queue
[0x400];
109 uint32_t a5Queue
[0x400];
110 uint32_t a6Queue
[0x400];
111 uint32_t a7Queue
[0x400];
112 uint32_t d0Queue
[0x400];
113 uint32_t d1Queue
[0x400];
114 uint32_t d2Queue
[0x400];
115 uint32_t d3Queue
[0x400];
116 uint32_t d4Queue
[0x400];
117 uint32_t d5Queue
[0x400];
118 uint32_t d6Queue
[0x400];
119 uint32_t d7Queue
[0x400];
120 uint32_t srQueue
[0x400];
122 bool startM68KTracing
= false;
124 // Breakpoint on memory access vars (exported)
125 bool bpmActive
= false;
126 bool bpmSaveActive
= false;
128 uint32_t bpmAddress1
;
135 // Callback function to detect illegal instructions
137 void GPUDumpDisassembly(void);
138 void GPUDumpRegisters(void);
139 static bool start
= false;
141 void M68KInstructionHook(void)
143 uint32_t m68kPC
= m68k_get_reg(NULL
, M68K_REG_PC
);
144 // Temp, for comparing...
146 /* static char buffer[2048];//, mem[64];
147 m68k_disassemble(buffer, m68kPC, M68K_CPU_TYPE_68000);
148 printf("%08X: %s\n", m68kPC, buffer);//*/
150 //JaguarDasm(m68kPC, 1);
151 //Testing Hover Strike...
154 static int hitCount
= 0;
155 static int inRoutine
= 0;
158 //if (regs.pc == 0x80340A)
159 if (m68kPC
== 0x803416)
164 printf("%i: $80340A start. A0=%08X, A1=%08X ", hitCount
, m68k_get_reg(NULL
, M68K_REG_A0
), m68k_get_reg(NULL
, M68K_REG_A1
));
166 else if (m68kPC
== 0x803422)
169 printf("(%i instructions)\n", instSeen
);
176 // For code tracing...
177 #ifdef CPU_DEBUG_TRACING
178 if (startM68KTracing
)
180 static char buffer
[2048];
182 m68k_disassemble(buffer
, m68kPC
, 0, 1);
183 WriteLog("%06X: %s\n", m68kPC
, buffer
);
188 // Ideally, we'd save all the registers as well...
189 pcQueue
[pcQPtr
] = m68kPC
;
190 a0Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_A0
);
191 a1Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_A1
);
192 a2Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_A2
);
193 a3Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_A3
);
194 a4Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_A4
);
195 a5Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_A5
);
196 a6Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_A6
);
197 a7Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_A7
);
198 d0Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_D0
);
199 d1Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_D1
);
200 d2Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_D2
);
201 d3Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_D3
);
202 d4Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_D4
);
203 d5Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_D5
);
204 d6Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_D6
);
205 d7Queue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_D7
);
206 srQueue
[pcQPtr
] = m68k_get_reg(NULL
, M68K_REG_SR
);
210 if (m68kPC
& 0x01) // Oops! We're fetching an odd address!
212 WriteLog("M68K: Attempted to execute from an odd address!\n\nBacktrace:\n\n");
214 static char buffer
[2048];
215 for(int i
=0; i
<0x400; i
++)
217 // WriteLog("[A2=%08X, D0=%08X]\n", a2Queue[(pcQPtr + i) & 0x3FF], d0Queue[(pcQPtr + i) & 0x3FF]);
218 WriteLog("[A0=%08X, A1=%08X, A2=%08X, A3=%08X, A4=%08X, A5=%08X, A6=%08X, A7=%08X, D0=%08X, D1=%08X, D2=%08X, D3=%08X, D4=%08X, D5=%08X, D6=%08X, D7=%08X, SR=%04X]\n", a0Queue
[(pcQPtr
+ i
) & 0x3FF], a1Queue
[(pcQPtr
+ i
) & 0x3FF], a2Queue
[(pcQPtr
+ i
) & 0x3FF], a3Queue
[(pcQPtr
+ i
) & 0x3FF], a4Queue
[(pcQPtr
+ i
) & 0x3FF], a5Queue
[(pcQPtr
+ i
) & 0x3FF], a6Queue
[(pcQPtr
+ i
) & 0x3FF], a7Queue
[(pcQPtr
+ i
) & 0x3FF], d0Queue
[(pcQPtr
+ i
) & 0x3FF], d1Queue
[(pcQPtr
+ i
) & 0x3FF], d2Queue
[(pcQPtr
+ i
) & 0x3FF], d3Queue
[(pcQPtr
+ i
) & 0x3FF], d4Queue
[(pcQPtr
+ i
) & 0x3FF], d5Queue
[(pcQPtr
+ i
) & 0x3FF], d6Queue
[(pcQPtr
+ i
) & 0x3FF], d7Queue
[(pcQPtr
+ i
) & 0x3FF], srQueue
[(pcQPtr
+ i
) & 0x3FF]);
219 m68k_disassemble(buffer
, pcQueue
[(pcQPtr
+ i
) & 0x3FF], 0, 1);//M68K_CPU_TYPE_68000);
220 WriteLog("\t%08X: %s\n", pcQueue
[(pcQPtr
+ i
) & 0x3FF], buffer
);
224 uint32_t topOfStack
= m68k_get_reg(NULL
, M68K_REG_A7
);
225 WriteLog("M68K: Top of stack: %08X. Stack trace:\n", JaguarReadLong(topOfStack
));
226 for(int i
=0; i
<10; i
++)
227 WriteLog("%06X: %08X\n", topOfStack
- (i
* 4), JaguarReadLong(topOfStack
- (i
* 4)));
228 WriteLog("Jaguar: VBL interrupt is %s\n", ((TOMIRQEnabled(IRQ_VIDEO
)) && (JaguarInterruptHandlerIsValid(64))) ? "enabled" : "disabled");
234 // Disassemble everything
236 static char buffer[2048];
237 m68k_disassemble(buffer, m68kPC, M68K_CPU_TYPE_68000);
238 WriteLog("%08X: %s", m68kPC, buffer);
239 WriteLog("\t\tA0=%08X, A1=%08X, D0=%08X, D1=%08X\n",
240 m68k_get_reg(NULL, M68K_REG_A0), m68k_get_reg(NULL, M68K_REG_A1),
241 m68k_get_reg(NULL, M68K_REG_D0), m68k_get_reg(NULL, M68K_REG_D1));
243 /* if (m68kPC >= 0x807EC4 && m68kPC <= 0x807EDB)
245 static char buffer[2048];
246 m68k_disassemble(buffer, m68kPC, M68K_CPU_TYPE_68000);
247 WriteLog("%08X: %s", m68kPC, buffer);
248 WriteLog("\t\tA0=%08X, A1=%08X, D0=%08X, D1=%08X\n",
249 m68k_get_reg(NULL, M68K_REG_A0), m68k_get_reg(NULL, M68K_REG_A1),
250 m68k_get_reg(NULL, M68K_REG_D0), m68k_get_reg(NULL, M68K_REG_D1));
252 /* if (m68kPC == 0x8D0E48 && effect_start5)
254 WriteLog("\nM68K: At collision detection code. Exiting!\n\n");
256 GPUDumpDisassembly();
260 /* uint16_t opcode = JaguarReadWord(m68kPC);
261 if (opcode == 0x4E75) // RTS
264 // WriteLog("Jaguar: Returning from subroutine to %08X\n", JaguarReadLong(m68k_get_reg(NULL, M68K_REG_A7)));
266 uint32_t addr = JaguarReadLong(m68k_get_reg(NULL, M68K_REG_A7));
268 if (raPtr != 0xFFFFFFFF)
270 for(uint32_t i=0; i<=raPtr; i++)
272 if (returnAddr[i] == addr)
281 returnAddr[++raPtr] = addr;
285 //Flip Out! debugging...
288 00805FDC: movea.l #$9c6f8, A0 D0=00100010, A0=00100000
289 00805FE2: move.w #$10, (A0)+ D0=00100010, A0=0009C6F8
290 00805FE6: cmpa.l #$c96f8, A0 D0=00100010, A0=0009C6FA
291 00805FEC: bne 805fe2 D0=00100010, A0=0009C6FA
293 0080603A: move.l #$11ed7c, $100.w D0=61700080, A0=000C96F8, D1=00000000, A1=000040D8
295 0012314C: move.l (A0)+, (A1)+ D0=61700080, A0=00124174, D1=00000000, A1=00F03FFC
296 0012314E: cmpa.l #$f04000, A1 D0=61700080, A0=00124178, D1=00000000, A1=00F04000
297 00123154: blt 12314c D0=61700080, A0=00124178, D1=00000000, A1=00F04000
298 00123156: move.l #$0, $f035d0.l D0=61700080, A0=00124178, D1=00000000, A1=00F04000
299 00123160: move.l #$f03000, $f02110.l D0=61700080, A0=00124178, D1=00000000, A1=00F04000
300 0012316A: move.l #$1, $f02114.l D0=61700080, A0=00124178, D1=00000000, A1=00F04000
301 00123174: rts D0=61700080, A0=00124178, D1=00000000, A1=00F04000
303 /* static char buffer[2048];
304 //if (m68kPC > 0x805F48) start = true;
305 //if (m68kPC > 0x806486) start = true;
306 //if (m68kPC == 0x805FEE) start = true;
307 //if (m68kPC == 0x80600C)// start = true;
308 if (m68kPC == 0x802058) start = true;
310 // GPUDumpRegisters();
311 // GPUDumpDisassembly();
313 // M68K_show_context();
319 m68k_disassemble(buffer, m68kPC, M68K_CPU_TYPE_68000);
320 WriteLog("%08X: %s \t\tD0=%08X, A0=%08X, D1=%08X, A1=%08X\n", m68kPC, buffer, m68k_get_reg(NULL, M68K_REG_D0), m68k_get_reg(NULL, M68K_REG_A0), m68k_get_reg(NULL, M68K_REG_D1), m68k_get_reg(NULL, M68K_REG_A1));
323 /* if (m68kPC == 0x803F16)
325 WriteLog("M68K: Registers found at $803F16:\n");
326 WriteLog("\t68K PC=%06X\n", m68k_get_reg(NULL, M68K_REG_PC));
327 for(int i=M68K_REG_D0; i<=M68K_REG_D7; i++)
328 WriteLog("\tD%i = %08X\n", i-M68K_REG_D0, m68k_get_reg(NULL, (m68k_register_t)i));
330 for(int i=M68K_REG_A0; i<=M68K_REG_A7; i++)
331 WriteLog("\tA%i = %08X\n", i-M68K_REG_A0, m68k_get_reg(NULL, (m68k_register_t)i));
333 //Looks like the DSP is supposed to return $12345678 when it finishes its validation routine...
334 // !!! Investigate !!!
335 /*extern bool doDSPDis;
336 static bool disgo = false;
337 if (m68kPC == 0x50222)
340 // WriteLog("M68K: About to stuff $12345678 into $F1B000 (=%08X)...\n", DSPReadLong(0xF1B000, M68K));
341 // DSPWriteLong(0xF1B000, 0x12345678, M68K);
344 if (m68kPC == 0x5000)
349 static char buffer[2048];
350 m68k_disassemble(buffer, m68kPC, M68K_CPU_TYPE_68000);
351 WriteLog("%08X: %s", m68kPC, buffer);
352 WriteLog("\t\tA0=%08X, A1=%08X, D0=%08X, D1=%08X, D2=%08X\n",
353 m68k_get_reg(NULL, M68K_REG_A0), m68k_get_reg(NULL, M68K_REG_A1),
354 m68k_get_reg(NULL, M68K_REG_D0), m68k_get_reg(NULL, M68K_REG_D1), m68k_get_reg(NULL, M68K_REG_D2));
356 /* if (m68kPC == 0x82E1A)
358 static char buffer[2048];
359 m68k_disassemble(buffer, m68kPC, 0);//M68K_CPU_TYPE_68000);
360 WriteLog("--> [Routine start] %08X: %s", m68kPC, buffer);
361 WriteLog("\t\tA0=%08X, A1=%08X, D0=%08X(cmd), D1=%08X(# bytes), D2=%08X\n",
362 m68k_get_reg(NULL, M68K_REG_A0), m68k_get_reg(NULL, M68K_REG_A1),
363 m68k_get_reg(NULL, M68K_REG_D0), m68k_get_reg(NULL, M68K_REG_D1), m68k_get_reg(NULL, M68K_REG_D2));
365 /* if (m68kPC == 0x82E58)
366 WriteLog("--> [Routine end]\n");
367 if (m68kPC == 0x80004)
369 WriteLog("--> [Calling BusWrite2] D2: %08X\n", m68k_get_reg(NULL, M68K_REG_D2));
370 // m68k_set_reg(M68K_REG_D2, 0x12345678);
373 #ifdef LOG_CD_BIOS_CALLS
396 if (m68kPC
== 0x3000)
397 WriteLog("M68K: CD_init\n");
398 else if (m68kPC
== 0x3006 + (6 * 0))
399 WriteLog("M68K: CD_mode\n");
400 else if (m68kPC
== 0x3006 + (6 * 1))
401 WriteLog("M68K: CD_ack\n");
402 else if (m68kPC
== 0x3006 + (6 * 2))
403 WriteLog("M68K: CD_jeri\n");
404 else if (m68kPC
== 0x3006 + (6 * 3))
405 WriteLog("M68K: CD_spin\n");
406 else if (m68kPC
== 0x3006 + (6 * 4))
407 WriteLog("M68K: CD_stop\n");
408 else if (m68kPC
== 0x3006 + (6 * 5))
409 WriteLog("M68K: CD_mute\n");
410 else if (m68kPC
== 0x3006 + (6 * 6))
411 WriteLog("M68K: CD_umute\n");
412 else if (m68kPC
== 0x3006 + (6 * 7))
413 WriteLog("M68K: CD_paus\n");
414 else if (m68kPC
== 0x3006 + (6 * 8))
415 WriteLog("M68K: CD_upaus\n");
416 else if (m68kPC
== 0x3006 + (6 * 9))
417 WriteLog("M68K: CD_read\n");
418 else if (m68kPC
== 0x3006 + (6 * 10))
419 WriteLog("M68K: CD_uread\n");
420 else if (m68kPC
== 0x3006 + (6 * 11))
421 WriteLog("M68K: CD_setup\n");
422 else if (m68kPC
== 0x3006 + (6 * 12))
423 WriteLog("M68K: CD_ptr\n");
424 else if (m68kPC
== 0x3006 + (6 * 13))
425 WriteLog("M68K: CD_osamp\n");
426 else if (m68kPC
== 0x3006 + (6 * 14))
427 WriteLog("M68K: CD_getoc\n");
428 else if (m68kPC
== 0x3006 + (6 * 15))
429 WriteLog("M68K: CD_initm\n");
430 else if (m68kPC
== 0x3006 + (6 * 16))
431 WriteLog("M68K: CD_initf\n");
432 else if (m68kPC
== 0x3006 + (6 * 17))
433 WriteLog("M68K: CD_switch\n");
435 if (m68kPC
>= 0x3000 && m68kPC
<= 0x306C)
436 WriteLog("\t\tA0=%08X, A1=%08X, D0=%08X, D1=%08X, D2=%08X\n",
437 m68k_get_reg(NULL
, M68K_REG_A0
), m68k_get_reg(NULL
, M68K_REG_A1
),
438 m68k_get_reg(NULL
, M68K_REG_D0
), m68k_get_reg(NULL
, M68K_REG_D1
), m68k_get_reg(NULL
, M68K_REG_D2
));
441 #ifdef ABORT_ON_ILLEGAL_INSTRUCTIONS
442 if (!m68k_is_valid_instruction(m68k_read_memory_16(m68kPC
), 0))//M68K_CPU_TYPE_68000))
444 #ifndef ABORT_ON_OFFICIAL_ILLEGAL_INSTRUCTION
445 if (m68k_read_memory_16(m68kPC
) == 0x4AFC)
447 // This is a kludge to let homebrew programs work properly (i.e., let the other processors
448 // keep going even when the 68K dumped back to the debugger or what have you).
450 // m68k_set_reg(M68K_REG_PC, m68kPC - 2);
451 // Try setting the vector to the illegal instruction...
452 //This doesn't work right either! Do something else! Quick!
453 // SET32(jaguar_mainRam, 0x10, m68kPC);
459 WriteLog("\nM68K encountered an illegal instruction at %08X!!!\n\nAborting!\n", m68kPC
);
460 uint32_t topOfStack
= m68k_get_reg(NULL
, M68K_REG_A7
);
461 WriteLog("M68K: Top of stack: %08X. Stack trace:\n", JaguarReadLong(topOfStack
));
462 uint32_t address
= topOfStack
- (4 * 4 * 3);
464 for(int i
=0; i
<10; i
++)
466 WriteLog("%06X:", address
);
468 for(int j
=0; j
<4; j
++)
470 WriteLog(" %08X", JaguarReadLong(address
));
477 WriteLog("Jaguar: VBL interrupt is %s\n", ((TOMIRQEnabled(IRQ_VIDEO
)) && (JaguarInterruptHandlerIsValid(64))) ? "enabled" : "disabled");
481 // WriteLog("\n\n68K disasm\n\n");
482 // jaguar_dasm(0x802000, 0x50C);
493 Now here be dragons
...
494 Here is how memory ranges are defined in the CoJag driver
.
495 Note that we only have to be concerned with
3 entities read
/writing anything
:
496 The main CPU
, the GPU
, and the DSP
. Everything
else is unnecessary
. So we can keep our main memory
497 checking in jaguar
.cpp
, gpu
.cpp
and dsp
.cpp
. There should be NO checking in TOM
, JERRY
, etc
. other than
498 things that are entirely internal to those modules
. This way we should be able to get a handle on all
499 this crap which is currently scattered over Hell
's Half Acre(tm).
501 Also: We need to distinguish whether or not we need .b, .w, and .dw versions of everything, or if there
502 is a good way to collapse that shit (look below for inspiration). Current method works, but is error prone.
504 /*************************************
506 * Main CPU memory handlers
508 *************************************/
510 static ADDRESS_MAP_START( m68020_map, ADDRESS_SPACE_PROGRAM, 32 )
511 AM_RANGE(0x000000, 0x7fffff) AM_RAM AM_BASE(&jaguar_shared_ram) AM_SHARE(1)
512 AM_RANGE(0x800000, 0x9fffff) AM_ROM AM_REGION(REGION_USER1, 0) AM_BASE(&rom_base)
513 AM_RANGE(0xa00000, 0xa1ffff) AM_RAM
514 AM_RANGE(0xa20000, 0xa21fff) AM_READWRITE(eeprom_data_r, eeprom_data_w) AM_BASE(&generic_nvram32) AM_SIZE(&generic_nvram_size)
515 AM_RANGE(0xa30000, 0xa30003) AM_WRITE(watchdog_reset32_w)
516 AM_RANGE(0xa40000, 0xa40003) AM_WRITE(eeprom_enable_w)
517 AM_RANGE(0xb70000, 0xb70003) AM_READWRITE(misc_control_r, misc_control_w)
518 AM_RANGE(0xc00000, 0xdfffff) AM_ROMBANK(2)
519 AM_RANGE(0xe00000, 0xe003ff) AM_DEVREADWRITE(IDE_CONTROLLER, "ide", ide_controller32_r, ide_controller32_w)
520 AM_RANGE(0xf00000, 0xf003ff) AM_READWRITE(jaguar_tom_regs32_r, jaguar_tom_regs32_w)
521 AM_RANGE(0xf00400, 0xf007ff) AM_RAM AM_BASE(&jaguar_gpu_clut) AM_SHARE(2)
522 AM_RANGE(0xf02100, 0xf021ff) AM_READWRITE(gpuctrl_r, gpuctrl_w)
523 AM_RANGE(0xf02200, 0xf022ff) AM_READWRITE(jaguar_blitter_r, jaguar_blitter_w)
524 AM_RANGE(0xf03000, 0xf03fff) AM_MIRROR(0x008000) AM_RAM AM_BASE(&jaguar_gpu_ram) AM_SHARE(3)
525 AM_RANGE(0xf10000, 0xf103ff) AM_READWRITE(jaguar_jerry_regs32_r, jaguar_jerry_regs32_w)
526 AM_RANGE(0xf16000, 0xf1600b) AM_READ(cojag_gun_input_r) // GPI02
527 AM_RANGE(0xf17000, 0xf17003) AM_READ(status_r) // GPI03
528 // AM_RANGE(0xf17800, 0xf17803) AM_WRITE(latch_w) // GPI04
529 AM_RANGE(0xf17c00, 0xf17c03) AM_READ(jamma_r) // GPI05
530 AM_RANGE(0xf1a100, 0xf1a13f) AM_READWRITE(dspctrl_r, dspctrl_w)
531 AM_RANGE(0xf1a140, 0xf1a17f) AM_READWRITE(jaguar_serial_r, jaguar_serial_w)
532 AM_RANGE(0xf1b000, 0xf1cfff) AM_RAM AM_BASE(&jaguar_dsp_ram) AM_SHARE(4)
535 /*************************************
537 * GPU memory handlers
539 *************************************/
541 static ADDRESS_MAP_START( gpu_map, ADDRESS_SPACE_PROGRAM, 32 )
542 AM_RANGE(0x000000, 0x7fffff) AM_RAM AM_SHARE(1)
543 AM_RANGE(0x800000, 0xbfffff) AM_ROMBANK(8)
544 AM_RANGE(0xc00000, 0xdfffff) AM_ROMBANK(9)
545 AM_RANGE(0xe00000, 0xe003ff) AM_DEVREADWRITE(IDE_CONTROLLER, "ide", ide_controller32_r, ide_controller32_w)
546 AM_RANGE(0xf00000, 0xf003ff) AM_READWRITE(jaguar_tom_regs32_r, jaguar_tom_regs32_w)
547 AM_RANGE(0xf00400, 0xf007ff) AM_RAM AM_SHARE(2)
548 AM_RANGE(0xf02100, 0xf021ff) AM_READWRITE(gpuctrl_r, gpuctrl_w)
549 AM_RANGE(0xf02200, 0xf022ff) AM_READWRITE(jaguar_blitter_r, jaguar_blitter_w)
550 AM_RANGE(0xf03000, 0xf03fff) AM_RAM AM_SHARE(3)
551 AM_RANGE(0xf10000, 0xf103ff) AM_READWRITE(jaguar_jerry_regs32_r, jaguar_jerry_regs32_w)
554 /*************************************
556 * DSP memory handlers
558 *************************************/
560 static ADDRESS_MAP_START( dsp_map, ADDRESS_SPACE_PROGRAM, 32 )
561 AM_RANGE(0x000000, 0x7fffff) AM_RAM AM_SHARE(1)
562 AM_RANGE(0x800000, 0xbfffff) AM_ROMBANK(8)
563 AM_RANGE(0xc00000, 0xdfffff) AM_ROMBANK(9)
564 AM_RANGE(0xf10000, 0xf103ff) AM_READWRITE(jaguar_jerry_regs32_r, jaguar_jerry_regs32_w)
565 AM_RANGE(0xf1a100, 0xf1a13f) AM_READWRITE(dspctrl_r, dspctrl_w)
566 AM_RANGE(0xf1a140, 0xf1a17f) AM_READWRITE(jaguar_serial_r, jaguar_serial_w)
567 AM_RANGE(0xf1b000, 0xf1cfff) AM_RAM AM_SHARE(4)
568 AM_RANGE(0xf1d000, 0xf1dfff) AM_READ(jaguar_wave_rom_r) AM_BASE(&jaguar_wave_rom)
573 //#define EXPERIMENTAL_MEMORY_HANDLING
574 // Experimental memory mappage...
575 // Dunno if this is a good approach or not, but it seems to make better
576 // sense to have all this crap in one spot intstead of scattered all over
577 // the place the way it is now.
578 #ifdef EXPERIMENTAL_MEMORY_HANDLING
580 #define NEW_TIMER_SYSTEM
583 uint8_t jaguarMainRAM[0x400000]; // 68K CPU RAM
584 uint8_t jaguarMainROM[0x600000]; // 68K CPU ROM
585 uint8_t jaguarBootROM[0x040000]; // 68K CPU BIOS ROM--uses only half of this!
586 uint8_t jaguarCDBootROM[0x040000]; // 68K CPU CD BIOS ROM
587 bool BIOSLoaded = false;
588 bool CDBIOSLoaded = false;
590 uint8_t cdRAM[0x100];
591 uint8_t tomRAM[0x4000];
592 uint8_t jerryRAM[0x10000];
593 static uint16_t eeprom_ram[64];
595 // NOTE: CD BIOS ROM is read from cartridge space @ $802000 (it's a cartridge
, after all
)
598 enum MemType
{ MM_NOP
= 0, MM_RAM
, MM_ROM
, MM_IO
};
600 // M68K Memory map/handlers
602 { 0x000000, 0x3FFFFF, MM_RAM
, jaguarMainRAM
},
603 { 0x800000, 0xDFFEFF, MM_ROM
, jaguarMainROM
},
604 // Note that this is really memory mapped I/O region...
605 // { 0xDFFF00, 0xDFFFFF, MM_RAM, cdRAM },
606 { 0xDFFF00, 0xDFFF03, MM_IO
, cdBUTCH
}, // base of Butch == interrupt control register, R/W
607 { 0xDFFF04, 0xDFFF07, MM_IO
, cdDSCNTRL
}, // DSA control register, R/W
608 { 0xDFFF0A, 0xDFFF0B, MM_IO
, cdDS_DATA
}, // DSA TX/RX data, R/W
609 { 0xDFFF10, 0xDFFF13, MM_IO
, cdI2CNTRL
}, // i2s bus control register, R/W
610 { 0xDFFF14, 0xDFFF17, MM_IO
, cdSBCNTRL
}, // CD subcode control register, R/W
611 { 0xDFFF18, 0xDFFF1B, MM_IO
, cdSUBDATA
}, // Subcode data register A
612 { 0xDFFF1C, 0xDFFF1F, MM_IO
, cdSUBDATB
}, // Subcode data register B
613 { 0xDFFF20, 0xDFFF23, MM_IO
, cdSB_TIME
}, // Subcode time and compare enable (D24)
614 { 0xDFFF24, 0xDFFF27, MM_IO
, cdFIFO_DATA
}, // i2s FIFO data
615 { 0xDFFF28, 0xDFFF2B, MM_IO
, cdI2SDAT2
}, // i2s FIFO data (old)
616 { 0xDFFF2C, 0xDFFF2F, MM_IO
, cdUNKNOWN
}, // Seems to be some sort of I2S interface
618 { 0xE00000, 0xE3FFFF, MM_ROM
, jaguarBootROM
},
620 // { 0xF00000, 0xF0FFFF, MM_IO, TOM_REGS_RW },
621 { 0xF00050, 0xF00051, MM_IO
, tomTimerPrescaler
},
622 { 0xF00052, 0xF00053, MM_IO
, tomTimerDivider
},
623 { 0xF00400, 0xF005FF, MM_RAM
, tomRAM
}, // CLUT A&B: How to link these? Write to one writes to the other...
624 { 0xF00600, 0xF007FF, MM_RAM
, tomRAM
}, // Actually, this is a good approach--just make the reads the same as well
625 //What about LBUF writes???
626 { 0xF02100, 0xF0211F, MM_IO
, GPUWriteByte
}, // GPU CONTROL
627 { 0xF02200, 0xF0229F, MM_IO
, BlitterWriteByte
}, // BLITTER
628 { 0xF03000, 0xF03FFF, MM_RAM
, GPUWriteByte
}, // GPU RAM
630 { 0xF10000, 0xF1FFFF, MM_IO
, JERRY_REGS_RW
},
634 { 0xF14001, 0xF14001, MM_IO_RO, eepromFOO }
635 { 0xF14801, 0xF14801, MM_IO_WO, eepromBAR }
636 { 0xF15001, 0xF15001, MM_IO_RW, eepromBAZ }
639 { 0xF14000, 0xF14003, MM_IO, joystickFoo }
640 0 = pad0/1 button values (4 bits each), RO(?)
641 1 = pad0/1 index value (4 bits each), WO
643 3 = NTSC/PAL, certain button states, RO
645 JOYSTICK $F14000 Read/Write
647 Read fedcba98 7654321q f-1 Signals J15 to J1
648 q Cartridge EEPROM output data
649 Write exxxxxxm 76543210 e 1 = enable J7-J0 outputs
650 0 = disable J7-J0 outputs
653 0 = Audio muted (reset state)
655 7-4 J7-J4 outputs (port 2)
656 3-0 J3-J0 outputs (port 1)
657 JOYBUTS $F14002 Read Only
659 Read xxxxxxxx rrdv3210 x don't care
662 v 1 = NTSC Video hardware
663 0 = PAL Video hardware
664 3-2 Button inputs B3 & B2 (port 2)
665 1-0 Button inputs B1 & B0 (port 1)
667 J4 J5 J6 J7 Port 2 B2 B3 J12 J13 J14 J15
668 J3 J2 J1 J0 Port 1 B0 B1 J8 J9 J10 J11
676 0 1 1 1 Row 3 C3 Option # 9 6 3
680 1 0 1 1 Row 2 C2 C 0 8 5 2
682 1 1 0 1 Row 1 C1 B * 7 4 1
683 1 1 1 0 Row 0 Pause A Up Down Left Right
686 0 bit read in any position means that button is pressed.
687 C3 = C2 = 1 means std. Jag. cntrlr. or nothing attached.
691 void WriteByte(uint32_t address
, uint8_t byte
, uint32_t who
/*=UNKNOWN*/)
693 // Not sure, but I think the system only has 24 address bits...
694 address
&= 0x00FFFFFF;
696 // RAM ($000000 - $3FFFFF) 4M
697 if (address
<= 0x3FFFFF)
698 jaguarMainRAM
[address
] = byte
;
699 // hole ($400000 - $7FFFFF) 4M
700 else if (address
<= 0x7FFFFF)
702 // GAME ROM ($800000 - $DFFEFF) 6M - 256 bytes
703 else if (address
<= 0xDFFEFF)
705 // CDROM ($DFFF00 - $DFFFFF) 256 bytes
706 else if (address
<= 0xDFFFFF)
708 cdRAM
[address
& 0xFF] = byte
;
710 if ((address
& 0xFF) < 12 * 4)
711 WriteLog("[%s] ", BReg
[(address
& 0xFF) / 4]);
712 WriteLog("CDROM: %s writing byte $%02X at $%08X [68K PC=$%08X]\n", whoName
[who
], data
, offset
, m68k_get_reg(NULL
, M68K_REG_PC
));
715 // BIOS ROM ($E00000 - $E3FFFF) 256K
716 else if (address
<= 0xE3FFFF)
718 // hole ($E40000 - $EFFFFF) 768K
719 else if (address
<= 0xEFFFFF)
721 // TOM ($F00000 - $F0FFFF) 64K
722 else if (address
<= 0xF0FFFF)
725 if (address
== 0xF00050)
727 tomTimerPrescaler
= (tomTimerPrescaler
& 0x00FF) | ((uint16_t)byte
<< 8);
731 else if (address
== 0xF00051)
733 tomTimerPrescaler
= (tomTimerPrescaler
& 0xFF00) | byte
;
737 else if (address
== 0xF00052)
739 tomTimerDivider
= (tomTimerDivider
& 0x00FF) | ((uint16_t)byte
<< 8);
743 else if (address
== 0xF00053)
745 tomTimerDivider
= (tomTimerDivider
& 0xFF00) | byte
;
749 else if (address
>= 0xF00400 && address
<= 0xF007FF) // CLUT (A & B)
751 // Writing to one CLUT writes to the other
752 address
&= 0x5FF; // Mask out $F00600 (restrict to $F00400-5FF)
753 tomRAM
[address
] = tomRAM
[address
+ 0x200] = byte
;
756 //What about LBUF writes???
757 else if ((address
>= 0xF02100) && (address
<= 0xF0211F)) // GPU CONTROL
759 GPUWriteByte(address
, byte
, who
);
762 else if ((address
>= 0xF02200) && (address
<= 0xF0229F)) // BLITTER
764 BlitterWriteByte(address
, byte
, who
);
767 else if ((address
>= 0xF03000) && (address
<= 0xF03FFF)) // GPU RAM
769 GPUWriteByte(address
, byte
, who
);
773 tomRAM
[address
& 0x3FFF] = byte
;
775 // JERRY ($F10000 - $F1FFFF) 64K
776 else if (address
<= 0xF1FFFF)
780 WriteLog("jerry: writing byte %.2x at 0x%.6x\n", byte
, address
);
782 if ((address
>= DSP_CONTROL_RAM_BASE
) && (address
< DSP_CONTROL_RAM_BASE
+0x20))
784 DSPWriteByte(address
, byte
, who
);
787 else if ((address
>= DSP_WORK_RAM_BASE
) && (address
< DSP_WORK_RAM_BASE
+0x2000))
789 DSPWriteByte(address
, byte
, who
);
792 // SCLK ($F1A150--8 bits wide)
793 //NOTE: This should be taken care of in DAC...
794 else if ((address
>= 0xF1A152) && (address
<= 0xF1A153))
796 // WriteLog("JERRY: Writing %02X to SCLK...\n", data);
797 if ((address
& 0x03) == 2)
798 JERRYI2SInterruptDivide
= (JERRYI2SInterruptDivide
& 0x00FF) | ((uint32_t)byte
<< 8);
800 JERRYI2SInterruptDivide
= (JERRYI2SInterruptDivide
& 0xFF00) | (uint32_t)byte
;
802 JERRYI2SInterruptTimer
= -1;
803 #ifndef NEW_TIMER_SYSTEM
806 RemoveCallback(JERRYI2SCallback
);
811 // LTXD/RTXD/SCLK/SMODE $F1A148/4C/50/54 (really 16-bit registers...)
812 else if (address
>= 0xF1A148 && address
<= 0xF1A157)
814 DACWriteByte(address
, byte
, who
);
817 else if (address
>= 0xF10000 && address
<= 0xF10007)
819 #ifndef NEW_TIMER_SYSTEM
820 switch (address
& 0x07)
823 JERRYPIT1Prescaler
= (JERRYPIT1Prescaler
& 0x00FF) | (byte
<< 8);
827 JERRYPIT1Prescaler
= (JERRYPIT1Prescaler
& 0xFF00) | byte
;
831 JERRYPIT1Divider
= (JERRYPIT1Divider
& 0x00FF) | (byte
<< 8);
835 JERRYPIT1Divider
= (JERRYPIT1Divider
& 0xFF00) | byte
;
839 JERRYPIT2Prescaler
= (JERRYPIT2Prescaler
& 0x00FF) | (byte
<< 8);
843 JERRYPIT2Prescaler
= (JERRYPIT2Prescaler
& 0xFF00) | byte
;
847 JERRYPIT2Divider
= (JERRYPIT2Divider
& 0x00FF) | (byte
<< 8);
851 JERRYPIT2Divider
= (JERRYPIT2Divider
& 0xFF00) | byte
;
855 WriteLog("JERRY: Unhandled timer write (BYTE) at %08X...\n", address
);
859 /* else if ((offset >= 0xF10010) && (offset <= 0xF10015))
861 clock_byte_write(offset, byte);
864 // JERRY -> 68K interrupt enables/latches (need to be handled!)
865 else if (address
>= 0xF10020 && address
<= 0xF10023)
867 WriteLog("JERRY: (68K int en/lat - Unhandled!) Tried to write $%02X to $%08X!\n", byte
, address
);
869 /* else if ((offset >= 0xF17C00) && (offset <= 0xF17C01))
871 anajoy_byte_write(offset, byte);
874 else if ((address
>= 0xF14000) && (address
<= 0xF14003))
876 JoystickWriteByte(address
, byte
);
877 EepromWriteByte(address
, byte
);
880 else if ((address
>= 0xF14004) && (address
<= 0xF1A0FF))
882 EepromWriteByte(address
, byte
);
885 //Need to protect write attempts to Wavetable ROM (F1D000-FFF)
886 else if (address
>= 0xF1D000 && address
<= 0xF1DFFF)
889 jerryRAM
[address
& 0xFFFF] = byte
;
891 // hole ($F20000 - $FFFFFF) 1M - 128K
897 void WriteWord(uint32_t adddress
, uint16_t word
)
902 void WriteDWord(uint32_t adddress
, uint32_t dword
)
907 uint8_t ReadByte(uint32_t adddress
)
912 uint16_t ReadWord(uint32_t adddress
)
917 uint32_t ReadDWord(uint32_t adddress
)
923 void ShowM68KContext(void)
925 printf("\t68K PC=%06X\n", m68k_get_reg(NULL
, M68K_REG_PC
));
927 for(int i
=M68K_REG_D0
; i
<=M68K_REG_D7
; i
++)
929 printf("D%i = %08X ", i
-M68K_REG_D0
, m68k_get_reg(NULL
, (m68k_register_t
)i
));
931 if (i
== M68K_REG_D3
|| i
== M68K_REG_D7
)
935 for(int i
=M68K_REG_A0
; i
<=M68K_REG_A7
; i
++)
937 printf("A%i = %08X ", i
-M68K_REG_A0
, m68k_get_reg(NULL
, (m68k_register_t
)i
));
939 if (i
== M68K_REG_A3
|| i
== M68K_REG_A7
)
943 uint32_t currpc
= m68k_get_reg(NULL
, M68K_REG_PC
);
944 uint32_t disPC
= currpc
- 30;
949 uint32_t oldpc
= disPC
;
950 disPC
+= m68k_disassemble(buffer
, disPC
, 0, 1);
951 printf("%s%08X: %s\n", (oldpc
== currpc
? ">" : " "), oldpc
, buffer
);
953 while (disPC
< (currpc
+ 10));
958 // Custom UAE 68000 read/write/IRQ functions
965 IPL Name Vector Control
966 ---------+---------------+---------------+---------------
967 2 VBLANK IRQ $
100 INT1 bit
#0
968 2 GPU IRQ $
100 INT1 bit
#1
969 2 HBLANK IRQ $
100 INT1 bit
#2
970 2 Timer IRQ $
100 INT1 bit
#3
972 Note
: Both timer
interrupts (JPIT
&& PIT
) are on the same INT1 bit
.
973 and are therefore indistinguishable
.
975 A typical way to install a LEVEL2 handler
for the
68000 would be
976 something like
this, you gotta supply
"last_line" and "handler".
977 Note that the interrupt is
auto vectored thru $
100 (not $
68)
985 IRQS_HANDLED
=$
909 ;; VBLANK
and TIMER
987 move
.w
#$2700,sr ;; no IRQs please
988 move
.l
#handler,V_AUTO ;; install our routine
990 move
.w
#last_line,VI ;; scanline where IRQ should occur
991 ;; should be
'odd' BTW
992 move
.w
#IRQS_HANDLE&$FF,INT1 ;; enable VBLANK + TIMER
993 move
.w
#$2100,sr ;; enable IRQs on the 68K
1011 move
.w
#IRQS_HANDLED,INT1 ; clear latch, keep IRQ alive
1012 move
.w
#0,INT2 ; let GPU run again
1016 As you can see
, if you have multiple INT1 interrupts coming in
,
1017 you need to check the lower byte of INT1
, to see which interrupt
1020 int irq_ack_handler(int level
)
1022 #ifdef CPU_DEBUG_TRACING
1023 if (startM68KTracing
)
1025 WriteLog("irq_ack_handler: M68K PC=%06X\n", m68k_get_reg(NULL
, M68K_REG_PC
));
1029 // Tracing the IPL lines on the Jaguar schematic yields the following:
1030 // IPL1 is connected to INTL on TOM (OUT to 68K)
1031 // IPL0-2 are also tied to Vcc via 4.7K resistors!
1032 // (DINT on TOM goes into DINT on JERRY (IN Tom from Jerry))
1033 // There doesn't seem to be any other path to IPL0 or 2 on the schematic,
1034 // which means that *all* IRQs to the 68K are routed thru TOM at level 2.
1035 // Which means they're all maskable.
1037 // The GPU/DSP/etc are probably *not* issuing an NMI, but it seems to work
1039 // They aren't, and this causes problems with a, err, specific ROM. :-D
1043 m68k_set_irq(0); // Clear the IRQ (NOTE: Without this, the BIOS fails)...
1044 return 64; // Set user interrupt #0
1047 return M68K_INT_ACK_AUTOVECTOR
;
1052 void M68K_Debughalt(void)
1059 // M68000 breakpoints initialisations
1060 void m68k_brk_init(void)
1067 // Reset the M68000 breakpoints structures
1068 void m68k_brk_reset(void)
1070 // Reset the breakpoints
1077 // Delete a M68000 breakpoint (starting from 1)
1078 void m68k_brk_del(unsigned int NumBrk
)
1080 // Remove the breakpoint
1081 memset((void *)(brkInfo
+ (NumBrk
- 1)), 0, sizeof(S_BrkInfo
));
1085 // Add a M68000 breakpoint
1086 // return true if breakpoint has been added, and false if breakpoint already exists
1087 unsigned int m68k_brk_add(void *PtrInfo
)
1089 S_BrkInfo
*Ptr
= NULL
;
1091 // Check if breakpoint already exists
1092 for (size_t i
= 0; i
< brkNbr
; i
++)
1094 if (brkInfo
[i
].Used
)
1096 if (brkInfo
[i
].Adr
== ((S_BrkInfo
*)PtrInfo
)->Adr
)
1103 // Look for an available breakpoint
1104 for (size_t i
= 0; i
< brkNbr
, Ptr
; i
++)
1106 if (!brkInfo
[i
].Used
)
1115 brkInfo
= (S_BrkInfo
*)realloc(brkInfo
, (++brkNbr
* sizeof(S_BrkInfo
)));
1116 Ptr
= &brkInfo
[brkNbr
- 1];
1119 // Transfert the breakpoint information and init the activities
1120 memcpy((void *)Ptr
, PtrInfo
, sizeof(S_BrkInfo
));
1122 return (Ptr
->Active
= Ptr
->Used
= true);
1126 // Check if breakpoint has been reached
1127 unsigned int m68k_brk_check(unsigned int adr
)
1129 // Check if BPM has been reached
1130 if ((adr
== bpmAddress1
) && bpmActive
)
1137 // Check user breakpoints
1138 for (size_t i
= 0; i
< brkNbr
; i
++)
1140 if (brkInfo
[i
].Used
&& brkInfo
[i
].Active
)
1142 if (brkInfo
[i
].Adr
== adr
)
1144 brkInfo
[i
].HitCounts
++;
1151 // No breakpoint found
1156 // Disable the M68000 breakpoints
1157 void m68k_brk_disable(void)
1159 // reset active for the breakpoints
1160 for (size_t i
= 0; i
< brkNbr
; i
++)
1162 brkInfo
[i
].Active
= 0;
1167 // Reset the M68000 breakpoints
1168 void m68k_brk_hitcounts_reset(void)
1170 // reset hit counts for the breakpoints
1171 for (size_t i
= 0; i
< brkNbr
; i
++)
1173 brkInfo
[i
].HitCounts
= 0;
1178 // Close the M68000 breakpoints structures
1179 void m68k_brk_close(void)
1185 // Read 1 byte from address
1186 // Check if address reaches a breakpoint
1187 unsigned int m68k_read_memory_8(unsigned int address
)
1189 #ifdef ALPINE_FUNCTIONS
1190 // Check if breakpoint on memory is active, and deal with it
1191 if (!startM68KTracing
&& m68k_brk_check(address
))
1197 // Musashi does this automagically for you, UAE core does not :-P
1198 address
&= 0x00FFFFFF;
1199 #ifdef CPU_DEBUG_MEMORY
1200 // Note that the Jaguar only has 2M of RAM, not 4!
1201 if ((address
>= 0x000000) && (address
<= 0x1FFFFF))
1204 readMem
[address
] = 1;
1207 //WriteLog("[RM8] Addr: %08X\n", address);
1208 //; So, it seems that it stores the returned DWORD at $51136 and $FB074.
1209 /* if (address == 0x51136 || address == 0x51138 || address == 0xFB074 || address == 0xFB076
1210 || address == 0x1AF05E)
1211 WriteLog("[RM8 PC=%08X] Addr: %08X, val: %02X\n", m68k_get_reg(NULL, M68K_REG_PC), address, jaguar_mainRam[address]);//*/
1213 unsigned int retVal
= 0;
1215 // Note that the Jaguar only has 2M of RAM, not 4!
1216 if ((address
>= 0x000000) && (address
<= (vjs
.DRAM_size
- 1)))
1218 retVal
= jaguarMainRAM
[address
];
1220 // else if ((address >= 0x800000) && (address <= 0xDFFFFF))
1223 if ((address
>= 0x800000) && (address
<= 0xDFFEFF))
1225 retVal
= jaguarMainROM
[address
- 0x800000];
1229 if ((address
>= 0xE00000) && (address
<= 0xE3FFFF))
1231 // retVal = jaguarBootROM[address - 0xE00000];
1232 // retVal = jaguarDevBootROM1[address - 0xE00000];
1233 retVal
= jagMemSpace
[address
];
1237 if ((address
>= 0xDFFF00) && (address
<= 0xDFFFFF))
1239 retVal
= CDROMReadByte(address
);
1243 if ((address
>= 0xF00000) && (address
<= 0xF0FFFF))
1245 retVal
= TOMReadByte(address
, M68K
);
1249 if ((address
>= 0xF10000) && (address
<= 0xF1FFFF))
1251 retVal
= JERRYReadByte(address
, M68K
);
1255 retVal
= jaguar_unknown_readbyte(address
, M68K
);
1263 //if (address >= 0x2800 && address <= 0x281F)
1264 // WriteLog("M68K: Read byte $%02X at $%08X [PC=%08X]\n", retVal, address, m68k_get_reg(NULL, M68K_REG_PC));
1265 //if (address >= 0x8B5E4 && address <= 0x8B5E4 + 16)
1266 // WriteLog("M68K: Read byte $%02X at $%08X [PC=%08X]\n", retVal, address, m68k_get_reg(NULL, M68K_REG_PC));
1269 return MMURead8(address
, M68K
);
1275 void gpu_dump_disassembly(void);
1276 void gpu_dump_registers(void);
1279 unsigned int m68k_read_memory_16(unsigned int address
)
1281 #ifdef ALPINE_FUNCTIONS
1282 // Check if breakpoint on memory is active, and deal with it
1283 if (!startM68KTracing
&& m68k_brk_check(address
))
1289 // Musashi does this automagically for you, UAE core does not :-P
1290 address
&= 0x00FFFFFF;
1291 #ifdef CPU_DEBUG_MEMORY
1292 /* if ((address >= 0x000000) && (address <= 0x3FFFFE))
1295 readMem[address] = 1, readMem[address + 1] = 1;
1297 /* if (effect_start && (address >= 0x8064FC && address <= 0x806501))
1299 return 0x4E71; // NOP
1301 if (effect_start2 && (address >= 0x806502 && address <= 0x806507))
1303 return 0x4E71; // NOP
1305 if (effect_start3 && (address >= 0x806512 && address <= 0x806517))
1307 return 0x4E71; // NOP
1309 if (effect_start4 && (address >= 0x806524 && address <= 0x806527))
1311 return 0x4E71; // NOP
1313 if (effect_start5 && (address >= 0x80653E && address <= 0x806543)) //Collision detection!
1315 return 0x4E71; // NOP
1317 if (effect_start6 && (address >= 0x806544 && address <= 0x806547))
1319 return 0x4E71; // NOP
1322 //WriteLog("[RM16] Addr: %08X\n", address);
1323 /*if (m68k_get_reg(NULL, M68K_REG_PC) == 0x00005FBA)
1324 // for(int i=0; i<10000; i++)
1325 WriteLog("[M68K] In routine #6!\n");//*/
1326 //if (m68k_get_reg(NULL, M68K_REG_PC) == 0x00006696) // GPU Program #4
1327 //if (m68k_get_reg(NULL, M68K_REG_PC) == 0x00005B3C) // GPU Program #2
1328 /*if (m68k_get_reg(NULL, M68K_REG_PC) == 0x00005BA8) // GPU Program #3
1330 WriteLog("[M68K] About to run GPU! (Addr:%08X, data:%04X)\n", address, TOMReadWord(address));
1331 gpu_dump_registers();
1332 gpu_dump_disassembly();
1333 // for(int i=0; i<10000; i++)
1334 // WriteLog("[M68K] About to run GPU!\n");
1336 //WriteLog("[WM8 PC=%08X] Addr: %08X, val: %02X\n", m68k_get_reg(NULL, M68K_REG_PC), address, value);
1337 /*if (m68k_get_reg(NULL, M68K_REG_PC) >= 0x00006696 && m68k_get_reg(NULL, M68K_REG_PC) <= 0x000066A8)
1339 if (address == 0x000066A0)
1341 gpu_dump_registers();
1342 gpu_dump_disassembly();
1344 for(int i=0; i<10000; i++)
1345 WriteLog("[M68K] About to run GPU! (Addr:%08X, data:%04X)\n", address, TOMReadWord(address));
1347 //; So, it seems that it stores the returned DWORD at $51136 and $FB074.
1348 /* if (address == 0x51136 || address == 0x51138 || address == 0xFB074 || address == 0xFB076
1349 || address == 0x1AF05E)
1350 WriteLog("[RM16 PC=%08X] Addr: %08X, val: %04X\n", m68k_get_reg(NULL, M68K_REG_PC), address, GET16(jaguar_mainRam, address));//*/
1352 unsigned int retVal
= 0;
1354 // Note that the Jaguar only has 2M of RAM, not 4!
1355 if ((address
>= 0x000000) && (address
<= (vjs
.DRAM_size
- 2)))
1357 // retVal = (jaguar_mainRam[address] << 8) | jaguar_mainRam[address+1];
1358 retVal
= GET16(jaguarMainRAM
, address
);
1360 // else if ((address >= 0x800000) && (address <= 0xDFFFFE))
1363 if ((address
>= 0x800000) && (address
<= 0xDFFEFE))
1365 // Memory Track reading...
1366 if (((TOMGetMEMCON1() & 0x0006) == (2 << 1)) && (jaguarMainROMCRC32
== 0xFDF37F47))
1368 retVal
= MTReadWord(address
);
1372 retVal
= (jaguarMainROM
[address
- 0x800000] << 8) | jaguarMainROM
[address
- 0x800000 + 1];
1377 if ((address
>= 0xE00000) && (address
<= 0xE3FFFE))
1379 // retVal = (jaguarBootROM[address - 0xE00000] << 8) | jaguarBootROM[address - 0xE00000 + 1];
1380 // retVal = (jaguarDevBootROM1[address - 0xE00000] << 8) | jaguarDevBootROM1[address - 0xE00000 + 1];
1381 retVal
= (jagMemSpace
[address
] << 8) | jagMemSpace
[address
+ 1];
1385 if ((address
>= 0xDFFF00) && (address
<= 0xDFFFFE))
1387 retVal
= CDROMReadWord(address
, M68K
);
1391 if ((address
>= 0xF00000) && (address
<= 0xF0FFFE))
1393 retVal
= TOMReadWord(address
, M68K
);
1397 if ((address
>= 0xF10000) && (address
<= 0xF1FFFE))
1399 retVal
= JERRYReadWord(address
, M68K
);
1403 retVal
= jaguar_unknown_readword(address
, M68K
);
1411 //if (address >= 0xF1B000 && address <= 0xF1CFFF)
1412 // WriteLog("M68K: Read word $%04X at $%08X [PC=%08X]\n", retVal, address, m68k_get_reg(NULL, M68K_REG_PC));
1413 //if (address >= 0x2800 && address <= 0x281F)
1414 // WriteLog("M68K: Read word $%04X at $%08X [PC=%08X]\n", retVal, address, m68k_get_reg(NULL, M68K_REG_PC));
1415 //$8B3AE -> Transferred from $F1C010
1416 //$8B5E4 -> Only +1 read at $808AA
1417 //if (address >= 0x8B5E4 && address <= 0x8B5E4 + 16)
1418 // WriteLog("M68K: Read word $%04X at $%08X [PC=%08X]\n", retVal, address, m68k_get_reg(NULL, M68K_REG_PC));
1421 return MMURead16(address
, M68K
);
1426 // Alert message in case of exception vector request
1427 bool m68k_read_exception_vector(unsigned int address
, char *text
)
1433 msg
.sprintf("68000 exception\n%s at $%06x", text
, pcQueue
[pcQPtr
? (pcQPtr
- 1) : 0x3FF]);
1435 msg
.sprintf("68000 exception\n$%06x: %s", pcQueue
[pcQPtr
? (pcQPtr
- 1) : 0x3FF], text
);
1437 msgBox
.setText(msg
);
1438 msgBox
.setStandardButtons(QMessageBox::Abort
);
1439 msgBox
.setDefaultButton(QMessageBox::Abort
);
1441 return M68KDebugHalt();
1445 // Read 4 bytes from memory
1446 unsigned int m68k_read_memory_32(unsigned int address
)
1448 #ifdef ALPINE_FUNCTIONS
1449 // Check if breakpoint on memory is active, and deal with it
1450 if (!startM68KTracing
&& m68k_brk_check(address
))
1456 // Musashi does this automagically for you, UAE core does not :-P
1457 address
&= 0x00FFFFFF;
1458 //; So, it seems that it stores the returned DWORD at $51136 and $FB074.
1459 /* if (address == 0x51136 || address == 0xFB074 || address == 0x1AF05E)
1460 WriteLog("[RM32 PC=%08X] Addr: %08X, val: %08X\n", m68k_get_reg(NULL, M68K_REG_PC), address, (m68k_read_memory_16(address) << 16) | m68k_read_memory_16(address + 2));//*/
1462 //WriteLog("--> [RM32]\n");
1464 //uint32_t retVal = 0;
1466 // check exception vectors access
1467 if (vjs
.allowM68KExceptionCatch
&& (address
>= 0x8) && (address
<= 0x7c))
1472 m68k_read_exception_vector(address
, "Bus error");
1476 m68k_read_exception_vector(address
, "Address error");
1480 m68k_read_exception_vector(address
, "Illegal instruction");
1484 m68k_read_exception_vector(address
, "Unimplemented instruction");
1488 m68k_read_exception_vector(address
, "Exception not referenced");
1492 frameDone
= true; // Hack to avoid the freeze of the emulator
1496 // check ROM or Memory Track access
1497 if ((address
>= 0x800000) && (address
<= 0xDFFEFE))
1499 // Memory Track reading...
1500 if (((TOMGetMEMCON1() & 0x0006) == (2 << 1)) && (jaguarMainROMCRC32
== 0xFDF37F47))
1502 return MTReadLong(address
);
1506 return GET32(jaguarMainROM
, address
- 0x800000);
1511 // return value from memory
1512 return (m68k_read_memory_16(address
) << 16) | m68k_read_memory_16(address
+ 2);
1514 return MMURead32(address
, M68K
);
1519 // Alert message in case of writing to unknown memory location
1520 bool m68k_write_unknown_alert(unsigned int address
, char *bits
, unsigned int value
)
1525 msg
.sprintf("$%06x: Writing at this unknown memory location $%06x with a (%s bits) value of $%0x", pcQueue
[pcQPtr
? (pcQPtr
- 1) : 0x3FF], address
, bits
, value
);
1526 msgBox
.setText(msg
);
1527 msgBox
.setStandardButtons(QMessageBox::Abort
);
1528 msgBox
.setDefaultButton(QMessageBox::Abort
);
1530 return M68KDebugHalt();
1534 // Alert message in case of writing to cartridge/ROM memory location
1535 bool m68k_write_cartridge_alert(unsigned int address
, char *bits
, unsigned int value
)
1537 if (!M68KDebugHaltStatus())
1542 msg
.sprintf("$%06x: Writing at this ROM cartridge location $%06x with a (%s bits) value of $%0x", pcQueue
[pcQPtr
? (pcQPtr
- 1) : 0x3FF], address
, bits
, value
);
1543 msgBox
.setText(msg
);
1545 msgBox
.setInformativeText("Do you want to continue?");
1546 msgBox
.setStandardButtons(QMessageBox::Yes
| QMessageBox::No
);
1547 msgBox
.setDefaultButton(QMessageBox::No
);
1549 int retVal
= msgBox
.exec();
1551 if (retVal
== QMessageBox::Yes
)
1557 return M68KDebugHalt();
1567 // Check memory write location
1568 // BPM & cartridge/ROM detections
1569 bool m68k_write_memory_check(unsigned int address
, char *bits
, unsigned int value
)
1571 unsigned int address1
;
1573 #ifdef ALPINE_FUNCTIONS
1574 // Check if breakpoint on memory is active, and deal with it
1575 if (!M68KDebugHaltStatus() && bpmActive
&& (address
== bpmAddress1
))
1577 return M68KDebugHalt();
1582 // Rom writing authorisation detection
1583 if (!vjs
.allowWritesToROM
)
1585 // Calcul the end address
1586 if (strstr(bits
, "32"))
1588 address1
= address
+ 3;
1592 if (strstr(bits
, "16"))
1594 address1
= address
+ 1;
1602 // Rom writing detection
1603 if ((address
>= 0x800000) && (address1
< 0xDFFF00))
1605 return m68k_write_cartridge_alert(address
, bits
, value
);
1614 // Memory write location on 8 bits
1615 void m68k_write_memory_8(unsigned int address
, unsigned int value
)
1617 // Check memory write location on 8 bits
1618 if (!m68k_write_memory_check(address
, "8", value
))
1620 // Musashi does this automagically for you, UAE core does not :-P
1621 //address &= 0x00FFFFFF;
1622 #ifdef CPU_DEBUG_MEMORY
1623 // Note that the Jaguar only has 2M of RAM, not 4!
1624 if ((address
>= 0x000000) && (address
<= 0x1FFFFF))
1628 if (value
> writeMemMax
[address
])
1629 writeMemMax
[address
] = value
;
1630 if (value
< writeMemMin
[address
])
1631 writeMemMin
[address
] = value
;
1635 /*if (address == 0x4E00)
1636 WriteLog("M68K: Writing %02X at %08X, PC=%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));//*/
1637 //if ((address >= 0x1FF020 && address <= 0x1FF03F) || (address >= 0x1FF820 && address <= 0x1FF83F))
1638 // WriteLog("M68K: Writing %02X at %08X\n", value, address);
1639 //WriteLog("[WM8 PC=%08X] Addr: %08X, val: %02X\n", m68k_get_reg(NULL, M68K_REG_PC), address, value);
1641 if (address >= 0x18FA70 && address < (0x18FA70 + 8000))
1642 WriteLog("M68K: Byte %02X written at %08X by 68K\n", value, address);//*/
1644 /*if (address >= 0x53D0 && address <= 0x53FF)
1645 printf("M68K: Writing byte $%02X at $%08X, PC=$%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));//*/
1646 //Testing AvP on UAE core...
1647 //000075A0: FFFFF80E B6320220 (BITMAP)
1648 /*if (address == 0x75A0 && value == 0xFF)
1649 printf("M68K: (8) Tripwire hit...\n");//*/
1652 // Note that the Jaguar only has 2M of RAM, not 4!
1653 if ((address
>= 0x000000) && (address
<= (vjs
.DRAM_size
- 1)))
1655 jaguarMainRAM
[address
] = value
;
1659 if ((address
>= 0xDFFF00) && (address
<= 0xDFFFFF))
1661 CDROMWriteByte(address
, value
, M68K
);
1665 if ((address
>= 0xF00000) && (address
<= 0xF0FFFF))
1667 TOMWriteByte(address
, value
, M68K
);
1671 if ((address
>= 0xF10000) && (address
<= 0xF1FFFF))
1673 JERRYWriteByte(address
, value
, M68K
);
1677 if ((address
>= 0x800000) && (address
<= 0xDFFEFF))
1679 jagMemSpace
[address
] = (uint8_t)value
;
1683 jaguar_unknown_writebyte(address
, value
, M68K
);
1690 MMUWrite8(address
, value
, M68K
);
1696 // Memory write location on 16 bits
1697 void m68k_write_memory_16(unsigned int address
, unsigned int value
)
1699 // Check memory write location on 16 bits
1700 if (!m68k_write_memory_check(address
, "16", value
))
1702 // Musashi does this automagically for you, UAE core does not :-P
1703 //address &= 0x00FFFFFF;
1704 #ifdef CPU_DEBUG_MEMORY
1705 // Note that the Jaguar only has 2M of RAM, not 4!
1706 if ((address
>= 0x000000) && (address
<= 0x1FFFFE))
1710 uint8_t hi
= value
>> 8, lo
= value
& 0xFF;
1712 if (hi
> writeMemMax
[address
])
1713 writeMemMax
[address
] = hi
;
1714 if (hi
< writeMemMin
[address
])
1715 writeMemMin
[address
] = hi
;
1717 if (lo
> writeMemMax
[address
+ 1])
1718 writeMemMax
[address
+ 1] = lo
;
1719 if (lo
< writeMemMin
[address
+ 1])
1720 writeMemMin
[address
+ 1] = lo
;
1724 /*if (address == 0x4E00)
1725 WriteLog("M68K: Writing %02X at %08X, PC=%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));//*/
1726 //if ((address >= 0x1FF020 && address <= 0x1FF03F) || (address >= 0x1FF820 && address <= 0x1FF83F))
1727 // WriteLog("M68K: Writing %04X at %08X\n", value, address);
1728 //WriteLog("[WM16 PC=%08X] Addr: %08X, val: %04X\n", m68k_get_reg(NULL, M68K_REG_PC), address, value);
1729 //if (address >= 0xF02200 && address <= 0xF0229F)
1730 // WriteLog("M68K: Writing to blitter --> %04X at %08X\n", value, address);
1731 //if (address >= 0x0E75D0 && address <= 0x0E75E7)
1732 // WriteLog("M68K: Writing %04X at %08X, M68K PC=%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));
1733 /*extern uint32_t totalFrames;
1734 if (address == 0xF02114)
1735 WriteLog("M68K: Writing to GPU_CTRL (frame:%u)... [M68K PC:%08X]\n", totalFrames, m68k_get_reg(NULL, M68K_REG_PC));
1736 if (address == 0xF02110)
1737 WriteLog("M68K: Writing to GPU_PC (frame:%u)... [M68K PC:%08X]\n", totalFrames, m68k_get_reg(NULL, M68K_REG_PC));//*/
1738 //if (address >= 0xF03B00 && address <= 0xF03DFF)
1739 // WriteLog("M68K: Writing %04X to %08X...\n", value, address);
1741 /*if (address == 0x0100)//64*4)
1742 WriteLog("M68K: Wrote word to VI vector value %04X...\n", value);//*/
1744 if (address >= 0x18FA70 && address < (0x18FA70 + 8000))
1745 WriteLog("M68K: Word %04X written at %08X by 68K\n", value, address);//*/
1746 /* if (address == 0x51136 || address == 0x51138 || address == 0xFB074 || address == 0xFB076
1747 || address == 0x1AF05E)
1748 WriteLog("[WM16 PC=%08X] Addr: %08X, val: %04X\n", m68k_get_reg(NULL, M68K_REG_PC), address, value);//*/
1750 /*if (address >= 0x53D0 && address <= 0x53FF)
1751 printf("M68K: Writing word $%04X at $%08X, PC=$%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));//*/
1752 //Testing AvP on UAE core...
1753 //000075A0: FFFFF80E B6320220 (BITMAP)
1754 /*if (address == 0x75A0 && value == 0xFFFF)
1756 printf("\nM68K: (16) Tripwire hit...\n");
1761 // Note that the Jaguar only has 2M of RAM, not 4!
1762 if ((address
>= 0x000000) && (address
<= (vjs
.DRAM_size
- 2)))
1764 /* jaguar_mainRam[address] = value >> 8;
1765 jaguar_mainRam[address + 1] = value & 0xFF;*/
1766 SET16(jaguarMainRAM
, address
, value
);
1770 // Memory Track device writes....
1771 if ((address
>= 0x800000) && (address
<= 0x87FFFE))
1773 if (((TOMGetMEMCON1() & 0x0006) == (2 << 1)) && (jaguarMainROMCRC32
== 0xFDF37F47))
1775 MTWriteWord(address
, value
);
1780 if ((address
>= 0xDFFF00) && (address
<= 0xDFFFFE))
1782 CDROMWriteWord(address
, value
, M68K
);
1786 if ((address
>= 0xF00000) && (address
<= 0xF0FFFE))
1788 TOMWriteWord(address
, value
, M68K
);
1792 if ((address
>= 0xF10000) && (address
<= 0xF1FFFE))
1794 JERRYWriteWord(address
, value
, M68K
);
1798 if ((address
>= 0x800000) && (address
<= 0xDFFEFE))
1800 SET16(jagMemSpace
, address
, value
);
1804 jaguar_unknown_writeword(address
, value
, M68K
);
1805 #ifdef LOG_UNMAPPED_MEMORY_ACCESSES
1806 WriteLog("\tA0=%08X, A1=%08X, D0=%08X, D1=%08X\n", m68k_get_reg(NULL
, M68K_REG_A0
), m68k_get_reg(NULL
, M68K_REG_A1
), m68k_get_reg(NULL
, M68K_REG_D0
), m68k_get_reg(NULL
, M68K_REG_D1
));
1814 MMUWrite16(address
, value
, M68K
);
1820 // Memory write location on 32 bits
1821 void m68k_write_memory_32(unsigned int address
, unsigned int value
)
1823 // Check memory write location on 32 bits
1824 if (!m68k_write_memory_check(address
, "32", value
))
1826 // Musashi does this automagically for you, UAE core does not :-P
1827 //address &= 0x00FFFFFF;
1828 /*if (address == 0x4E00)
1829 WriteLog("M68K: Writing %02X at %08X, PC=%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));//*/
1830 //WriteLog("--> [WM32]\n");
1831 /*if (address == 0x0100)//64*4)
1832 WriteLog("M68K: Wrote dword to VI vector value %08X...\n", value);//*/
1833 /*if (address >= 0xF03214 && address < 0xF0321F)
1834 WriteLog("M68K: Writing DWORD (%08X) to GPU RAM (%08X)...\n", value, address);//*/
1835 //M68K: Writing DWORD (88E30047) to GPU RAM (00F03214)...
1836 /*extern bool doGPUDis;
1837 if (address == 0xF03214 && value == 0x88E30047)
1839 doGPUDis = true;//*/
1840 /* if (address == 0x51136 || address == 0xFB074)
1841 WriteLog("[WM32 PC=%08X] Addr: %08X, val: %02X\n", m68k_get_reg(NULL, M68K_REG_PC), address, value);//*/
1842 //Testing AvP on UAE core...
1843 //000075A0: FFFFF80E B6320220 (BITMAP)
1844 /*if (address == 0x75A0 && (value & 0xFFFF0000) == 0xFFFF0000)
1846 printf("\nM68K: (32) Tripwire hit...\n");
1851 m68k_write_memory_16(address
, value
>> 16);
1852 m68k_write_memory_16(address
+ 2, value
& 0xFFFF);
1854 MMUWrite32(address
, value
, M68K
);
1860 uint32_t JaguarGetHandler(uint32_t i
)
1862 return JaguarReadLong(i
* 4);
1866 bool JaguarInterruptHandlerIsValid(uint32_t i
) // Debug use only...
1868 uint32_t handler
= JaguarGetHandler(i
);
1869 return (handler
&& (handler
!= 0xFFFFFFFF) ? true : false);
1873 void M68K_show_context(void)
1875 WriteLog("68K PC=%06X\n", m68k_get_reg(NULL
, M68K_REG_PC
));
1877 for(int i
=M68K_REG_D0
; i
<=M68K_REG_D7
; i
++)
1879 WriteLog("D%i = %08X ", i
-M68K_REG_D0
, m68k_get_reg(NULL
, (m68k_register_t
)i
));
1881 if (i
== M68K_REG_D3
|| i
== M68K_REG_D7
)
1885 for(int i
=M68K_REG_A0
; i
<=M68K_REG_A7
; i
++)
1887 WriteLog("A%i = %08X ", i
-M68K_REG_A0
, m68k_get_reg(NULL
, (m68k_register_t
)i
));
1889 if (i
== M68K_REG_A3
|| i
== M68K_REG_A7
)
1893 WriteLog("68K disasm\n");
1894 // jaguar_dasm(s68000readPC()-0x1000,0x20000);
1895 JaguarDasm(m68k_get_reg(NULL
, M68K_REG_PC
) - 0x80, 0x200);
1896 // jaguar_dasm(0x5000, 0x14414);
1898 // WriteLog("\n.......[Cart start]...........\n\n");
1899 // jaguar_dasm(0x192000, 0x1000);//0x200);
1901 WriteLog("..................\n");
1903 if (TOMIRQEnabled(IRQ_VIDEO
))
1905 WriteLog("video int: enabled\n");
1906 JaguarDasm(JaguarGetHandler(64), 0x200);
1909 WriteLog("video int: disabled\n");
1911 WriteLog("..................\n");
1913 for(int i
=0; i
<256; i
++)
1915 WriteLog("handler %03i at ", i
);//$%08X\n", i, (unsigned int)JaguarGetHandler(i));
1916 uint32_t address
= (uint32_t)JaguarGetHandler(i
);
1919 WriteLog(".........\n");
1921 WriteLog("$%08X\n", address
);
1927 // Unknown read/write byte/word routines
1930 // It's hard to believe that developers would be sloppy with their memory
1931 // writes, yet in some cases the developers screwed up royal. E.g., Club Drive
1932 // has the following code:
1934 // 807EC4: movea.l #$f1b000, A1
1935 // 807ECA: movea.l #$8129e0, A0
1936 // 807ED0: move.l A0, D0
1937 // 807ED2: move.l #$f1bb94, D1
1938 // 807ED8: sub.l D0, D1
1939 // 807EDA: lsr.l #2, D1
1940 // 807EDC: move.l (A0)+, (A1)+
1941 // 807EDE: dbra D1, 807edc
1943 // The problem is at $807ED0--instead of putting A0 into D0, they really meant
1944 // to put A1 in. This mistake causes it to try and overwrite approximately
1945 // $700000 worth of address space! (That is, unless the 68K causes a bus
1948 void jaguar_unknown_writebyte(unsigned address
, unsigned data
, uint32_t who
/*=UNKNOWN*/)
1950 m68k_write_unknown_alert(address
, "8", data
);
1951 #ifdef LOG_UNMAPPED_MEMORY_ACCESSES
1952 WriteLog("Jaguar: Unknown byte %02X written at %08X by %s (M68K PC=%06X)\n", data
, address
, whoName
[who
], m68k_get_reg(NULL
, M68K_REG_PC
));
1954 #ifdef ABORT_ON_UNMAPPED_MEMORY_ACCESS
1955 // extern bool finished;
1957 // extern bool doDSPDis;
1964 void jaguar_unknown_writeword(unsigned address
, unsigned data
, uint32_t who
/*=UNKNOWN*/)
1966 m68k_write_unknown_alert(address
, "16", data
);
1967 #ifdef LOG_UNMAPPED_MEMORY_ACCESSES
1968 WriteLog("Jaguar: Unknown word %04X written at %08X by %s (M68K PC=%06X)\n", data
, address
, whoName
[who
], m68k_get_reg(NULL
, M68K_REG_PC
));
1970 #ifdef ABORT_ON_UNMAPPED_MEMORY_ACCESS
1971 // extern bool finished;
1973 // extern bool doDSPDis;
1980 unsigned jaguar_unknown_readbyte(unsigned address
, uint32_t who
/*=UNKNOWN*/)
1982 #ifdef LOG_UNMAPPED_MEMORY_ACCESSES
1983 WriteLog("Jaguar: Unknown byte read at %08X by %s (M68K PC=%06X)\n", address
, whoName
[who
], m68k_get_reg(NULL
, M68K_REG_PC
));
1985 #ifdef ABORT_ON_UNMAPPED_MEMORY_ACCESS
1986 // extern bool finished;
1988 // extern bool doDSPDis;
1996 unsigned jaguar_unknown_readword(unsigned address
, uint32_t who
/*=UNKNOWN*/)
1998 #ifdef LOG_UNMAPPED_MEMORY_ACCESSES
1999 WriteLog("Jaguar: Unknown word read at %08X by %s (M68K PC=%06X)\n", address
, whoName
[who
], m68k_get_reg(NULL
, M68K_REG_PC
));
2001 #ifdef ABORT_ON_UNMAPPED_MEMORY_ACCESS
2002 // extern bool finished;
2004 // extern bool doDSPDis;
2013 // Disassemble M68K instructions at the given offset
2016 unsigned int m68k_read_disassembler_8(unsigned int address
)
2018 return m68k_read_memory_8(address
);
2022 unsigned int m68k_read_disassembler_16(unsigned int address
)
2024 return m68k_read_memory_16(address
);
2028 unsigned int m68k_read_disassembler_32(unsigned int address
)
2030 return m68k_read_memory_32(address
);
2034 void JaguarDasm(uint32_t offset
, uint32_t qt
)
2037 static char buffer
[2048];//, mem[64];
2038 int pc
= offset
, oldpc
;
2040 for(uint32_t i
=0; i
<qt
; i
++)
2043 for(int j=0; j<64; j++)
2044 mem[j^0x01] = jaguar_byte_read(pc + j);
2046 pc += Dasm68000((char *)mem, buffer, 0);
2047 WriteLog("%08X: %s\n", oldpc, buffer);//*/
2049 pc
+= m68k_disassemble(buffer
, pc
, 0, 1);//M68K_CPU_TYPE_68000);
2050 WriteLog("%08X: %s\n", oldpc
, buffer
);//*/
2056 uint8_t JaguarReadByte(uint32_t offset
, uint32_t who
/*=UNKNOWN*/)
2058 uint8_t data
= 0x00;
2061 // First 2M is mirrored in the $0 - $7FFFFF range
2062 if (offset
< 0x800000)
2063 data
= jaguarMainRAM
[offset
& (vjs
.DRAM_size
- 1)];
2064 else if ((offset
>= 0x800000) && (offset
< 0xDFFF00))
2065 data
= jaguarMainROM
[offset
- 0x800000];
2066 else if ((offset
>= 0xDFFF00) && (offset
<= 0xDFFFFF))
2067 data
= CDROMReadByte(offset
, who
);
2068 else if ((offset
>= 0xE00000) && (offset
< 0xE40000))
2069 // data = jaguarBootROM[offset & 0x3FFFF];
2070 // data = jaguarDevBootROM1[offset & 0x3FFFF];
2071 data
= jagMemSpace
[offset
];
2072 else if ((offset
>= 0xF00000) && (offset
< 0xF10000))
2073 data
= TOMReadByte(offset
, who
);
2074 else if ((offset
>= 0xF10000) && (offset
< 0xF20000))
2075 data
= JERRYReadByte(offset
, who
);
2077 data
= jaguar_unknown_readbyte(offset
, who
);
2083 uint16_t JaguarReadWord(uint32_t offset
, uint32_t who
/*=UNKNOWN*/)
2087 // First 2M is mirrored in the $0 - $7FFFFF range
2088 if (offset
< 0x800000)
2090 return (jaguarMainRAM
[(offset
+0) & (vjs
.DRAM_size
- 1)] << 8) | jaguarMainRAM
[(offset
+1) & (vjs
.DRAM_size
- 1)];
2092 else if ((offset
>= 0x800000) && (offset
< 0xDFFF00))
2095 return (jaguarMainROM
[offset
+0] << 8) | jaguarMainROM
[offset
+1];
2097 // else if ((offset >= 0xDFFF00) && (offset < 0xDFFF00))
2098 else if ((offset
>= 0xDFFF00) && (offset
<= 0xDFFFFE))
2099 return CDROMReadWord(offset
, who
);
2100 else if ((offset
>= 0xE00000) && (offset
<= 0xE3FFFE))
2101 // return (jaguarBootROM[(offset+0) & 0x3FFFF] << 8) | jaguarBootROM[(offset+1) & 0x3FFFF];
2102 // return (jaguarDevBootROM1[(offset+0) & 0x3FFFF] << 8) | jaguarDevBootROM1[(offset+1) & 0x3FFFF];
2103 return (jagMemSpace
[offset
+ 0] << 8) | jagMemSpace
[offset
+ 1];
2104 else if ((offset
>= 0xF00000) && (offset
<= 0xF0FFFE))
2105 return TOMReadWord(offset
, who
);
2106 else if ((offset
>= 0xF10000) && (offset
<= 0xF1FFFE))
2107 return JERRYReadWord(offset
, who
);
2109 return jaguar_unknown_readword(offset
, who
);
2113 void JaguarWriteByte(uint32_t offset
, uint8_t data
, uint32_t who
/*=UNKNOWN*/)
2115 /* if ((offset & 0x1FFFFF) >= 0xE00 && (offset & 0x1FFFFF) < 0xE18)
2117 WriteLog("JWB: Byte %02X written at %08X by %s\n", data, offset, whoName[who]);
2119 /* if (offset >= 0x4E00 && offset < 0x4E04)
2120 WriteLog("JWB: Byte %02X written at %08X by %s\n", data, offset, whoName[who]);//*/
2121 //Need to check for writes in the range of $18FA70 + 8000...
2123 if (offset >= 0x18FA70 && offset < (0x18FA70 + 8000))
2124 WriteLog("JWB: Byte %02X written at %08X by %s\n", data, offset, whoName[who]);//*/
2128 // First 2M is mirrored in the $0 - $7FFFFF range
2129 if (offset
< 0x800000)
2131 jaguarMainRAM
[offset
& (vjs
.DRAM_size
- 1)] = data
;
2134 else if ((offset
>= 0xDFFF00) && (offset
<= 0xDFFFFF))
2136 CDROMWriteByte(offset
, data
, who
);
2139 else if ((offset
>= 0xF00000) && (offset
<= 0xF0FFFF))
2141 TOMWriteByte(offset
, data
, who
);
2144 else if ((offset
>= 0xF10000) && (offset
<= 0xF1FFFF))
2146 JERRYWriteByte(offset
, data
, who
);
2150 jaguar_unknown_writebyte(offset
, data
, who
);
2155 void JaguarWriteWord(uint32_t offset
, uint16_t data
, uint32_t who
/*=UNKNOWN*/)
2157 /* if ((offset & 0x1FFFFF) >= 0xE00 && (offset & 0x1FFFFF) < 0xE18)
2159 WriteLog("JWW: Word %04X written at %08X by %s\n", data, offset, whoName[who]);
2160 WriteLog(" GPU PC = $%06X\n", GPUReadLong(0xF02110, DEBUG));
2162 /* if (offset >= 0x4E00 && offset < 0x4E04)
2163 WriteLog("JWW: Word %04X written at %08X by %s\n", data, offset, whoName[who]);//*/
2164 /*if (offset == 0x0100)//64*4)
2165 WriteLog("M68K: %s wrote word to VI vector value %04X...\n", whoName[who], data);
2166 if (offset == 0x0102)//64*4)
2167 WriteLog("M68K: %s wrote word to VI vector+2 value %04X...\n", whoName[who], data);//*/
2168 //TEMP--Mirror of F03000? Yes, but only 32-bit CPUs can do it (i.e., NOT the 68K!)
2169 // PLUS, you would handle this in the GPU/DSP WriteLong code! Not here!
2170 //Need to check for writes in the range of $18FA70 + 8000...
2172 if (offset >= 0x18FA70 && offset < (0x18FA70 + 8000))
2173 WriteLog("JWW: Word %04X written at %08X by %s\n", data, offset, whoName[who]);//*/
2174 /*if (offset >= 0x2C00 && offset <= 0x2CFF)
2175 WriteLog("Jaguar: Word %04X written to TOC+%02X by %s\n", data, offset-0x2C00, whoName[who]);//*/
2179 // First 2M is mirrored in the $0 - $7FFFFF range
2180 if (offset
<= 0x7FFFFE)
2185 1A 69 F0 ($0000) -> Starfield
2186 1A 73 C8 ($0001) -> Final clearing blit & bitmap blit?
2189 1A 8F E8 ($0004) -> "Jaguar" small color logo?
2198 //This MUST be done by the 68K!
2199 /*if (offset == 0x670C)
2200 WriteLog("Jaguar: %s writing to location $670C...\n", whoName[who]);*/
2202 /*extern bool doGPUDis;
2203 //if ((offset == 0x100000 + 75522) && who == GPU) // 76,226 -> 75522
2204 if ((offset == 0x100000 + 128470) && who == GPU) // 107,167 -> 128470 (384 x 250 screen size 16BPP)
2205 //if ((offset >= 0x100000 && offset <= 0x12C087) && who == GPU)
2206 doGPUDis = true;//*/
2207 /*if (offset == 0x100000 + 128470) // 107,167 -> 128470 (384 x 250 screen size 16BPP)
2208 WriteLog("JWW: Writing value %04X at %08X by %s...\n", data, offset, whoName[who]);
2209 if ((data & 0xFF00) != 0x7700)
2210 WriteLog("JWW: Writing value %04X at %08X by %s...\n", data, offset, whoName[who]);//*/
2211 /*if ((offset >= 0x100000 && offset <= 0x147FFF) && who == GPU)
2213 /*if ((data & 0xFF00) != 0x7700 && who == GPU)
2214 WriteLog("JWW: Writing value %04X at %08X by %s...\n", data, offset, whoName[who]);//*/
2215 /*if ((offset >= 0x100000 + 0x48000 && offset <= 0x12C087 + 0x48000) && who == GPU)
2217 /*extern bool doGPUDis;
2218 if (offset == 0x120216 && who == GPU)
2219 doGPUDis = true;//*/
2220 /*extern uint32_t gpu_pc;
2221 if (who == GPU && (gpu_pc == 0xF03604 || gpu_pc == 0xF03638))
2223 uint32_t base = offset - (offset > 0x148000 ? 0x148000 : 0x100000);
2224 uint32_t y = base / 0x300;
2225 uint32_t x = (base - (y * 0x300)) / 2;
2226 WriteLog("JWW: Writing starfield star %04X at %08X (%u/%u) [%s]\n", data, offset, x, y, (gpu_pc == 0xF03604 ? "s" : "L"));
2229 JWW: Writing starfield star 775E at 0011F650 (555984/1447)
2231 //if (offset == (0x001E17F8 + 0x34))
2232 /*if (who == GPU && offset == (0x001E17F8 + 0x34))
2234 // WriteLog("JWW: Write at %08X written to by %s.\n", 0x001E17F8 + 0x34, whoName[who]);//*/
2235 /*extern uint32_t gpu_pc;
2236 if (who == GPU && (gpu_pc == 0xF03604 || gpu_pc == 0xF03638))
2238 extern int objectPtr;
2239 // if (offset > 0x148000)
2242 if (starCount > objectPtr)
2245 // if (starCount == 1)
2246 // WriteLog("--> Drawing 1st star...\n");
2248 // uint32_t base = offset - (offset > 0x148000 ? 0x148000 : 0x100000);
2249 // uint32_t y = base / 0x300;
2250 // uint32_t x = (base - (y * 0x300)) / 2;
2251 // WriteLog("JWW: Writing starfield star %04X at %08X (%u/%u) [%s]\n", data, offset, x, y, (gpu_pc == 0xF03604 ? "s" : "L"));
2253 //A star of interest...
2254 //-->JWW: Writing starfield star 77C9 at 0011D31A (269/155) [s]
2255 //1st trail +3(x), -1(y) -> 272, 154 -> 0011D020
2256 //JWW: Blitter writing echo 77B3 at 0011D022...
2258 //extern bool doGPUDis;
2259 /*if (offset == 0x11D022 + 0x48000 || offset == 0x11D022)// && who == GPU)
2262 WriteLog("JWW: %s writing echo %04X at %08X...\n", whoName[who], data, offset);
2265 if (offset == 0x11D31A + 0x48000 || offset == 0x11D31A)
2266 WriteLog("JWW: %s writing star %04X at %08X...\n", whoName[who], data, offset);//*/
2268 jaguarMainRAM
[(offset
+0) & (vjs
.DRAM_size
- 1)] = data
>> 8;
2269 jaguarMainRAM
[(offset
+1) & (vjs
.DRAM_size
- 1)] = data
& 0xFF;
2272 else if (offset
>= 0xDFFF00 && offset
<= 0xDFFFFE)
2274 CDROMWriteWord(offset
, data
, who
);
2277 else if (offset
>= 0xF00000 && offset
<= 0xF0FFFE)
2279 TOMWriteWord(offset
, data
, who
);
2282 else if (offset
>= 0xF10000 && offset
<= 0xF1FFFE)
2284 JERRYWriteWord(offset
, data
, who
);
2287 // Don't bomb on attempts to write to ROM
2288 else if (offset
>= 0x800000 && offset
<= 0xEFFFFF)
2291 jaguar_unknown_writeword(offset
, data
, who
);
2295 // We really should re-do this so that it does *real* 32-bit access... !!! FIX !!!
2296 uint32_t JaguarReadLong(uint32_t offset
, uint32_t who
/*=UNKNOWN*/)
2298 return (JaguarReadWord(offset
, who
) << 16) | JaguarReadWord(offset
+2, who
);
2302 // We really should re-do this so that it does *real* 32-bit access... !!! FIX !!!
2303 void JaguarWriteLong(uint32_t offset
, uint32_t data
, uint32_t who
/*=UNKNOWN*/)
2305 /* extern bool doDSPDis;
2306 if (offset < 0x400 && !doDSPDis)
2308 WriteLog("JLW: Write to %08X by %s... Starting DSP log!\n\n", offset, whoName[who]);
2311 /*if (offset == 0x0100)//64*4)
2312 WriteLog("M68K: %s wrote dword to VI vector value %08X...\n", whoName[who], data);//*/
2314 JaguarWriteWord(offset
, data
>> 16, who
);
2315 JaguarWriteWord(offset
+2, data
& 0xFFFF, who
);
2319 void JaguarSetScreenBuffer(uint32_t * buffer
)
2321 // This is in TOM, but we set it here...
2322 screenBuffer
= buffer
;
2326 void JaguarSetScreenPitch(uint32_t pitch
)
2328 // This is in TOM, but we set it here...
2329 screenPitch
= pitch
;
2334 // Jaguar console initialization
2336 void JaguarInit(void)
2338 // For randomizing RAM
2339 srand((unsigned int)time(NULL
));
2341 // Contents of local RAM are quasi-stable; we simulate this by randomizing RAM contents
2342 for(uint32_t i
=0; i
<vjs
.DRAM_size
; i
+=4)
2343 *((uint32_t *)(&jaguarMainRAM
[i
])) = rand();
2345 #ifdef CPU_DEBUG_MEMORY
2346 memset(readMem
, 0x00, 0x400000);
2347 memset(writeMemMin
, 0xFF, 0x400000);
2348 memset(writeMemMax
, 0x00, 0x400000);
2350 // memset(jaguarMainRAM, 0x00, 0x200000);
2351 // memset(jaguar_mainRom, 0xFF, 0x200000); // & set it to all Fs...
2352 // memset(jaguar_mainRom, 0x00, 0x200000); // & set it to all 0s...
2353 //NOTE: This *doesn't* fix FlipOut...
2354 //Or does it? Hmm...
2355 //Seems to want $01010101... Dunno why. Investigate!
2356 // memset(jaguarMainROM, 0x01, 0x600000); // & set it to all 01s...
2357 // memset(jaguar_mainRom, 0xFF, 0x600000); // & set it to all Fs...
2358 lowerField
= false; // Reset the lower field flag
2359 //temp, for crappy crap that sux
2360 memset(jaguarMainRAM
+ 0x804, 0xFF, 4);
2362 m68k_pulse_reset(); // Need to do this so UAE disasm doesn't segfault on exit
2372 //New timer based code stuffola...
2373 void HalflineCallback(void);
2374 void RenderCallback(void);
2375 void JaguarReset(void)
2377 // Only problem with this approach: It wipes out RAM loaded files...!
2378 // Contents of local RAM are quasi-stable; we simulate this by randomizing RAM contents
2379 for (uint32_t i
= 8; i
< vjs
.DRAM_size
; i
+= 4)
2381 *((uint32_t *)(&jaguarMainRAM
[i
])) = rand();
2384 // New timer base code stuffola...
2385 InitializeEventList();
2386 //Need to change this so it uses the single RAM space and load the BIOS
2387 //into it somewhere...
2388 //Also, have to change this here and in JaguarReadXX() currently
2389 // Only use the system BIOS if it's available...! (it's always available now!)
2390 // AND only if a jaguar cartridge has been inserted.
2391 #ifndef NEWMODELSBIOSHANDLER
2392 if (vjs
.useJaguarBIOS
&& jaguarCartInserted
&& !vjs
.hardwareTypeAlpine
&& !vjs
.softTypeDebugger
)
2394 memcpy(jaguarMainRAM
, jagMemSpace
+ 0xE00000, 8);
2396 if (vjs
.useJaguarBIOS
&& jaguarCartInserted
)
2403 SET32(jaguarMainRAM
, 4, jaguarRunAddress
);
2406 // WriteLog("jaguar_reset():\n");
2412 m68k_pulse_reset(); // Reset the 68000
2413 WriteLog("Jaguar: 68K reset. PC=%06X SP=%08X\n", m68k_get_reg(NULL
, M68K_REG_PC
), m68k_get_reg(NULL
, M68K_REG_A7
));
2414 lowerField
= false; // Reset the lower field flag
2415 // SetCallbackTime(ScanlineCallback, 63.5555);
2416 // SetCallbackTime(ScanlineCallback, 31.77775);
2417 SetCallbackTime(HalflineCallback
, (vjs
.hardwareTypeNTSC
? 31.777777777 : 32.0));
2421 void JaguarDone(void)
2423 #ifdef CPU_DEBUG_MEMORY
2424 /* WriteLog("\nJaguar: Memory Usage Stats (return addresses)\n\n");
2426 for(uint32_t i=0; i<=raPtr; i++)
2428 WriteLog("\t%08X\n", returnAddr[i]);
2429 WriteLog("M68000 disassembly at $%08X...\n", returnAddr[i] - 16);
2430 jaguar_dasm(returnAddr[i] - 16, 16);
2435 /* int start = 0, end = 0;
2436 bool endTriggered = false, startTriggered = false;
2437 for(int i=0; i<0x400000; i++)
2439 if (readMem[i] && writeMemMin[i] != 0xFF && writeMemMax != 0x00)
2441 if (!startTriggered)
2442 startTriggered = true, endTriggered = false, start = i;
2444 WriteLog("\t\tMin/Max @ %06X: %u/%u\n", i, writeMemMin[i], writeMemMax[i]);
2450 end = i - 1, endTriggered = true, startTriggered = false;
2451 WriteLog("\tMemory range accessed: %06X - %06X\n", start, end);
2458 // for(int i=M68K_REG_A0; i<=M68K_REG_A7; i++)
2459 // WriteLog("\tA%i = 0x%.8x\n", i-M68K_REG_A0, m68k_get_reg(NULL, (m68k_register_t)i));
2460 int32_t topOfStack
= m68k_get_reg(NULL
, M68K_REG_A7
);
2461 WriteLog("M68K: Top of stack: %08X -> (%08X). Stack trace:\n", topOfStack
, JaguarReadLong(topOfStack
));
2463 for(int i
=-2; i
<9; i
++)
2464 WriteLog("%06X: %08X\n", topOfStack
+ (i
* 4), JaguarReadLong(topOfStack
+ (i
* 4)));
2466 uint32_t address
= topOfStack
- (4 * 4 * 3);
2468 for(int i
=0; i
<10; i
++)
2470 WriteLog("%06X:", address
);
2472 for(int j
=0; j
<4; j
++)
2474 WriteLog(" %08X", JaguarReadLong(address
));
2482 /* WriteLog("\nM68000 disassembly at $802288...\n");
2483 jaguar_dasm(0x802288, 3);
2484 WriteLog("\nM68000 disassembly at $802200...\n");
2485 jaguar_dasm(0x802200, 500);
2486 WriteLog("\nM68000 disassembly at $802518...\n");
2487 jaguar_dasm(0x802518, 100);//*/
2489 /* WriteLog("\n\nM68000 disassembly at $803F00 (look @ $803F2A)...\n");
2490 jaguar_dasm(0x803F00, 500);
2493 /* WriteLog("\n\nM68000 disassembly at $802B00 (look @ $802B5E)...\n");
2494 jaguar_dasm(0x802B00, 500);
2497 /* WriteLog("\n\nM68000 disassembly at $809900 (look @ $8099F8)...\n");
2498 jaguar_dasm(0x809900, 500);
2501 /* WriteLog("\n\nDump of $8093C8:\n\n");
2502 for(int i=0x8093C8; i<0x809900; i+=4)
2503 WriteLog("%06X: %08X\n", i, JaguarReadLong(i));//*/
2504 /* WriteLog("\n\nM68000 disassembly at $90006C...\n");
2505 jaguar_dasm(0x90006C, 500);
2507 /* WriteLog("\n\nM68000 disassembly at $1AC000...\n");
2508 jaguar_dasm(0x1AC000, 6000);
2511 // WriteLog("Jaguar: CD BIOS version %04X\n", JaguarReadWord(0x3004));
2512 WriteLog("Jaguar: Interrupt enable = $%02X\n", TOMReadByte(0xF000E1, JAGUAR
) & 0x1F);
2513 WriteLog("Jaguar: Video interrupt is %s (line=%u)\n", ((TOMIRQEnabled(IRQ_VIDEO
))
2514 && (JaguarInterruptHandlerIsValid(64))) ? "enabled" : "disabled", TOMReadWord(0xF0004E, JAGUAR
));
2515 M68K_show_context();
2525 // temp, until debugger is in place
2526 //00802016: jsr $836F1A.l
2527 //0080201C: jsr $836B30.l
2528 //00802022: jsr $836B18.l
2529 //00802028: jsr $8135F0.l
2530 //00813C1E: jsr $813F76.l
2531 //00802038: jsr $836D00.l
2532 //00802098: jsr $8373A4.l
2533 //008020A2: jsr $83E24A.l
2534 //008020BA: jsr $83E156.l
2535 //008020C6: jsr $83E19C.l
2536 //008020E6: jsr $8445E8.l
2537 //008020EC: jsr $838C20.l
2538 //0080211A: jsr $838ED6.l
2539 //00802124: jsr $89CA56.l
2540 //0080212A: jsr $802B48.l
2542 WriteLog("-------------------------------------------\n");
2543 JaguarDasm(0x8445E8, 0x200);
2544 WriteLog("-------------------------------------------\n");
2545 JaguarDasm(0x838C20, 0x200);
2546 WriteLog("-------------------------------------------\n");
2547 JaguarDasm(0x838ED6, 0x200);
2548 WriteLog("-------------------------------------------\n");
2549 JaguarDasm(0x89CA56, 0x200);
2550 WriteLog("-------------------------------------------\n");
2551 JaguarDasm(0x802B48, 0x200);
2552 WriteLog("\n\nM68000 disassembly at $802000...\n");
2553 JaguarDasm(0x802000, 6000);
2556 /* WriteLog("\n\nM68000 disassembly at $6004...\n");
2557 JaguarDasm(0x6004, 10000);
2559 // WriteLog("\n\nM68000 disassembly at $802000...\n");
2560 // JaguarDasm(0x802000, 0x1000);
2561 // WriteLog("\n\nM68000 disassembly at $4100...\n");
2562 // JaguarDasm(0x4100, 200);
2563 // WriteLog("\n\nM68000 disassembly at $800800...\n");
2564 // JaguarDasm(0x800800, 0x1000);
2568 // Temp debugging stuff
2570 void DumpMainMemory(void)
2572 FILE * fp
= fopen("./memdump.bin", "wb");
2577 fwrite(jaguarMainRAM
, 1, vjs
.DRAM_size
, fp
);
2582 uint8_t * GetRamPtr(void)
2584 return jaguarMainRAM
;
2589 // New Jaguar execution stack
2590 // This executes 1 frame's worth of code.
2592 void JaguarExecuteNew(void)
2598 double timeToNextEvent
= GetTimeToNextEvent();
2599 //WriteLog("JEN: Time to next event (%u) is %f usec (%u RISC cycles)...\n", nextEvent, timeToNextEvent, USEC_TO_RISC_CYCLES(timeToNextEvent));
2601 m68k_execute(USEC_TO_M68K_CYCLES(timeToNextEvent
));
2604 GPUExec(USEC_TO_RISC_CYCLES(timeToNextEvent
));
2612 // Step over function
2613 int JaguarStepOver(int depth
)
2617 //bool case55 = false;
2632 cycles
+= JaguarStepInto();
2634 switch (M68KGetCurrentOpcodeFamily())
2653 //m68kSR = m68k_get_reg(NULL, M68K_REG_SR);
2654 if (m68k_get_reg(NULL
, M68K_REG_SR
) & 0x4)
2669 cycles
+= JaguarStepOver(depth
+1);
2684 while (!exit
&& !M68KDebugHaltStatus());
2687 #pragma message("Warning: !!! Need to verify the Jaguar Step Over function !!!")
2689 #warning "!!! Need to verify the Jaguar Step Over function !!!"
2695 // Step into function
2696 int JaguarStepInto(void)
2699 // double timeToNextEvent = GetTimeToNextEvent();
2701 cycles
= m68k_execute(USEC_TO_M68K_CYCLES(0));
2702 // m68k_execute(USEC_TO_M68K_CYCLES(timeToNextEvent));
2705 GPUExec(USEC_TO_RISC_CYCLES(0));
2707 // HandleNextEvent();
2709 #pragma message("Warning: !!! Need to verify the Jaguar Step Into function !!!")
2711 #warning "!!! Need to verify the Jaguar Step Into function !!!"
2718 // The thing to keep in mind is that the VC is advanced every HALF line,
2719 // regardless of whether the display is interlaced or not. The only difference
2720 // with an interlaced display is that the high bit of VC will be set when the
2721 // lower field is being rendered. (NB: The high bit of VC is ALWAYS set on the
2722 // lower field, regardless of whether it's in interlace mode or not.
2723 // NB2: Seems it doesn't always, not sure what the constraint is...)
2725 // Normally, TVs will render a full frame in 1/30s (NTSC) or 1/25s (PAL) by
2726 // rendering two fields that are slighty vertically offset from each other.
2727 // Each field is created in 1/60s (NTSC) or 1/50s (PAL), and every other line
2728 // is rendered in this mode so that each field, when overlaid on each other,
2729 // will yield the final picture at the full resolution for the full frame.
2731 // We execute a half frame in each timeslice (1/60s NTSC, 1/50s PAL).
2732 // Since the number of lines in a FULL frame is 525 for NTSC, 625 for PAL,
2733 // it will be half this number for a half frame. BUT, since we're counting
2734 // HALF lines, we double this number and we're back at 525 for NTSC, 625 for
2737 // Scanline times are 63.5555... μs in NTSC and 64 μs in PAL
2738 // Half line times are, naturally, half of this. :-P
2740 void HalflineCallback(void)
2742 uint16_t vc
= TOMReadWord(0xF00006, JAGUAR
);
2743 uint16_t vp
= TOMReadWord(0xF0003E, JAGUAR
) + 1;
2744 uint16_t vi
= TOMReadWord(0xF0004E, JAGUAR
);
2745 // uint16_t vbb = TOMReadWord(0xF00040, JAGUAR);
2748 // Each # of lines is for a full frame == 1/30s (NTSC), 1/25s (PAL).
2749 // So we cut the number of half-lines in a frame in half. :-P
2750 uint16_t numHalfLines
= ((vjs
.hardwareTypeNTSC
? 525 : 625) * 2) / 2;
2752 if ((vc
& 0x7FF) >= numHalfLines
)
2754 lowerField
= !lowerField
;
2755 // If we're rendering the lower field, set the high bit (#11, counting
2757 vc
= (lowerField
? 0x0800 : 0x0000);
2760 //WriteLog("HLC: Currently on line %u (VP=%u)...\n", vc, vp);
2761 TOMWriteWord(0xF00006, vc
, JAGUAR
);
2763 // Time for Vertical Interrupt?
2764 if ((vc
& 0x7FF) == vi
&& (vc
& 0x7FF) > 0 && TOMIRQEnabled(IRQ_VIDEO
))
2766 // We don't have to worry about autovectors & whatnot because the Jaguar
2767 // tells you through its HW registers who sent the interrupt...
2768 TOMSetPendingVideoInt();
2772 TOMExecHalfline(vc
, true);
2774 //Change this to VBB???
2775 //Doesn't seem to matter (at least for Flip Out & I-War)
2776 if ((vc
& 0x7FF) == 0)
2783 SetCallbackTime(HalflineCallback
, (vjs
.hardwareTypeNTSC
? 31.777777777 : 32.0));