//
// JAGUAR.CPP
//
-// by Cal2
-// GCC/SDL port by Niels Wagenaar (Linux/WIN32) and Caz (BeOS)
+// Originally by David Raingeard (Cal2)
+// GCC/SDL port by Niels Wagenaar (Linux/WIN32) and Carwin Jones (BeOS)
// Cleanups and endian wrongness amelioration by James L. Hammons
// Note: Endian wrongness probably stems from the MAME origins of this emu and
-// the braindead way in which MAME handles memory. :-)
-//
+// the braindead way in which MAME handled memory when this was written. :-)
+//
+// JLH = James L. Hammons
+//
+// WHO WHEN WHAT
+// --- ---------- -----------------------------------------------------------
+// JLH 11/25/2009 Major rewrite of memory subsystem and handlers
+//
#include "jaguar.h"
-#include "video.h"
+
+#include <SDL.h>
+#include "SDL_opengl.h"
+#include "blitter.h"
+#include "cdrom.h"
+#include "dac.h"
+#include "dsp.h"
+#include "eeprom.h"
+#include "event.h"
+#include "gpu.h"
+#include "jerry.h"
+#include "joystick.h"
+#include "log.h"
+#include "m68k.h"
+//#include "memory.h"
+#include "mmu.h"
#include "settings.h"
-//#include "m68kdasmAG.h"
+#include "tom.h"
#define CPU_DEBUG
//Do this in makefile??? Yes! Could, but it's easier to define here...
-#define LOG_UNMAPPED_MEMORY_ACCESSES
+//#define LOG_UNMAPPED_MEMORY_ACCESSES
+//#define ABORT_ON_UNMAPPED_MEMORY_ACCESS
+#define ABORT_ON_ILLEGAL_INSTRUCTIONS
+//#define ABORT_ON_OFFICIAL_ILLEGAL_INSTRUCTION
#define CPU_DEBUG_MEMORY
+//#define LOG_CD_BIOS_CALLS
// Private function prototypes
// External variables
-//extern bool hardwareTypeNTSC; // Set to false for PAL
#ifdef CPU_DEBUG_MEMORY
extern bool startMemLog; // Set by "e" key
extern int effect_start;
extern int effect_start2, effect_start3, effect_start4, effect_start5, effect_start6;
#endif
-// Memory debugging identifiers
-
-char * whoName[9] =
- { "Unknown", "Jaguar", "DSP", "GPU", "TOM", "JERRY", "M68K", "Blitter", "OP" };
+// Really, need to include memory.h for this, but it might interfere with some stuff...
+extern uint8 jagMemSpace[];
-// These values are overridden by command line switches...
+// Internal variables
-//extern bool dsp_enabled;
-//extern bool jaguar_use_bios; // Default is now to USE the BIOS
uint32 jaguar_active_memory_dumps = 0;
-uint32 jaguar_mainRom_crc32;
+uint32 jaguarMainROMCRC32, jaguarROMSize, jaguarRunAddress;
+bool jaguarCartInserted = false;
+bool lowerField = false;
-/*static*/ uint8 * jaguar_mainRam = NULL;
-/*static*/ uint8 * jaguar_bootRom = NULL;
-/*static*/ uint8 * jaguar_mainRom = NULL;
#ifdef CPU_DEBUG_MEMORY
uint8 writeMemMax[0x400000], writeMemMin[0x400000];
uint8 readMem[0x400000];
uint32 returnAddr[4000], raPtr = 0xFFFFFFFF;
#endif
+uint32 pcQueue[0x400];
+uint32 pcQPtr = 0;
+
//
// Callback function to detect illegal instructions
//
-//void GPUDumpDisassembly(void);
-//void GPUDumpRegisters(void);
+void GPUDumpDisassembly(void);
+void GPUDumpRegisters(void);
+static bool start = false;
+
void M68KInstructionHook(void)
{
uint32 m68kPC = m68k_get_reg(NULL, M68K_REG_PC);
+// Temp, for comparing...
+{
+/* static char buffer[2048];//, mem[64];
+ m68k_disassemble(buffer, m68kPC, M68K_CPU_TYPE_68000);
+ printf("%08X: %s\n", m68kPC, buffer);//*/
+}
+//JaguarDasm(m68kPC, 1);
+//Testing Hover Strike...
+#if 0
+//Dasm(regs.pc, 1);
+static int hitCount = 0;
+static int inRoutine = 0;
+static int instSeen;
+
+//if (regs.pc == 0x80340A)
+if (m68kPC == 0x803416)
+{
+ hitCount++;
+ inRoutine = 1;
+ instSeen = 0;
+ printf("%i: $80340A start. A0=%08X, A1=%08X ", hitCount, m68k_get_reg(NULL, M68K_REG_A0), m68k_get_reg(NULL, M68K_REG_A1));
+}
+else if (m68kPC == 0x803422)
+{
+ inRoutine = 0;
+ printf("(%i instructions)\n", instSeen);
+}
+
+if (inRoutine)
+ instSeen++;
+#endif
+
+// For tracebacks...
+// Ideally, we'd save all the registers as well...
+ pcQueue[pcQPtr++] = m68kPC;
+ pcQPtr &= 0x3FF;
+
+ if (m68kPC & 0x01) // Oops! We're fetching an odd address!
+ {
+ WriteLog("M68K: Attempted to execute from an odd adress!\n\nBacktrace:\n\n");
+
+ static char buffer[2048];
+ for(int i=0; i<0x400; i++)
+ {
+ m68k_disassemble(buffer, pcQueue[(pcQPtr + i) & 0x3FF], M68K_CPU_TYPE_68000);
+ WriteLog("\t%08X: %s\n", pcQueue[(pcQPtr + i) & 0x3FF], buffer);
+ }
+ WriteLog("\n");
+
+ uint32 topOfStack = m68k_get_reg(NULL, M68K_REG_A7);
+ WriteLog("M68K: Top of stack: %08X. Stack trace:\n", JaguarReadLong(topOfStack));
+ for(int i=0; i<10; i++)
+ WriteLog("%06X: %08X\n", topOfStack - (i * 4), JaguarReadLong(topOfStack - (i * 4)));
+ WriteLog("Jaguar: VBL interrupt is %s\n", ((TOMIRQEnabled(IRQ_VIDEO)) && (JaguarInterruptHandlerIsValid(64))) ? "enabled" : "disabled");
+ M68K_show_context();
+ LogDone();
+ exit(0);
+ }
+
+ // Disassemble everything
+/* {
+ static char buffer[2048];
+ m68k_disassemble(buffer, m68kPC, M68K_CPU_TYPE_68000);
+ WriteLog("%08X: %s", m68kPC, buffer);
+ WriteLog("\t\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));
+ }//*/
/* if (m68kPC >= 0x807EC4 && m68kPC <= 0x807EDB)
{
static char buffer[2048];
}
}//*/
+//Flip Out! debugging...
+//805F46, 806486
+/*
+00805FDC: movea.l #$9c6f8, A0 D0=00100010, A0=00100000
+00805FE2: move.w #$10, (A0)+ D0=00100010, A0=0009C6F8
+00805FE6: cmpa.l #$c96f8, A0 D0=00100010, A0=0009C6FA
+00805FEC: bne 805fe2 D0=00100010, A0=0009C6FA
+
+0080603A: move.l #$11ed7c, $100.w D0=61700080, A0=000C96F8, D1=00000000, A1=000040D8
+
+0012314C: move.l (A0)+, (A1)+ D0=61700080, A0=00124174, D1=00000000, A1=00F03FFC
+0012314E: cmpa.l #$f04000, A1 D0=61700080, A0=00124178, D1=00000000, A1=00F04000
+00123154: blt 12314c D0=61700080, A0=00124178, D1=00000000, A1=00F04000
+00123156: move.l #$0, $f035d0.l D0=61700080, A0=00124178, D1=00000000, A1=00F04000
+00123160: move.l #$f03000, $f02110.l D0=61700080, A0=00124178, D1=00000000, A1=00F04000
+0012316A: move.l #$1, $f02114.l D0=61700080, A0=00124178, D1=00000000, A1=00F04000
+00123174: rts D0=61700080, A0=00124178, D1=00000000, A1=00F04000
+*/
/* static char buffer[2048];
+//if (m68kPC > 0x805F48) start = true;
+//if (m68kPC > 0x806486) start = true;
+//if (m68kPC == 0x805FEE) start = true;
+//if (m68kPC == 0x80600C)// start = true;
+if (m68kPC == 0x802058) start = true;
+//{
+// GPUDumpRegisters();
+// GPUDumpDisassembly();
+//
+// M68K_show_context();
+// log_done();
+// exit(0);
+//}
+ if (start)
+ {
m68k_disassemble(buffer, m68kPC, M68K_CPU_TYPE_68000);
- WriteLog("%08X: %s \t\tD0=%08X, A0=%08X\n", m68kPC, buffer, m68k_get_reg(NULL, M68K_REG_D0), m68k_get_reg(NULL, M68K_REG_A0));//*/
+ 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));
+ }//*/
/* if (m68kPC == 0x803F16)
{
for(int i=M68K_REG_A0; i<=M68K_REG_A7; i++)
WriteLog("\tA%i = %08X\n", i-M68K_REG_A0, m68k_get_reg(NULL, (m68k_register_t)i));
}*/
+//Looks like the DSP is supposed to return $12345678 when it finishes its validation routine...
+// !!! Investigate !!!
+/*extern bool doDSPDis;
+ static bool disgo = false;
+ if (m68kPC == 0x50222)
+ {
+ // CD BIOS hacking
+// WriteLog("M68K: About to stuff $12345678 into $F1B000 (=%08X)...\n", DSPReadLong(0xF1B000, M68K));
+// DSPWriteLong(0xF1B000, 0x12345678, M68K);
+// disgo = true;
+ }
+ if (m68kPC == 0x5000)
+// doDSPDis = true;
+ disgo = true;
+ if (disgo)
+ {
+ static char buffer[2048];
+ m68k_disassemble(buffer, m68kPC, M68K_CPU_TYPE_68000);
+ WriteLog("%08X: %s", m68kPC, buffer);
+ WriteLog("\t\tA0=%08X, A1=%08X, D0=%08X, D1=%08X, D2=%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), m68k_get_reg(NULL, M68K_REG_D2));
+ }//*/
+ if (m68kPC == 0x82E1A)
+ {
+ static char buffer[2048];
+ m68k_disassemble(buffer, m68kPC, M68K_CPU_TYPE_68000);
+ WriteLog("--> [Routine start] %08X: %s", m68kPC, buffer);
+ WriteLog("\t\tA0=%08X, A1=%08X, D0=%08X(cmd), D1=%08X(# bytes), D2=%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), m68k_get_reg(NULL, M68K_REG_D2));
+ }//*/
+ if (m68kPC == 0x82E58)
+ WriteLog("--> [Routine end]\n");
+ if (m68kPC == 0x80004)
+ {
+ WriteLog("--> [Calling BusWrite2] D2: %08X\n", m68k_get_reg(NULL, M68K_REG_D2));
+// m68k_set_reg(M68K_REG_D2, 0x12345678);
+ }//*/
+
+#ifdef LOG_CD_BIOS_CALLS
+/*
+CD_init:: -> $3000
+BIOS_VER:: -> $3004
+CD_mode:: -> $3006
+CD_ack:: -> $300C
+CD_jeri:: -> $3012
+CD_spin:: -> $3018
+CD_stop:: -> $301E
+CD_mute:: -> $3024
+CD_umute:: -> $302A
+CD_paus:: -> $3030
+CD_upaus:: -> $3036
+CD_read:: -> $303C
+CD_uread:: -> $3042
+CD_setup:: -> $3048
+CD_ptr:: -> $304E
+CD_osamp:: -> $3054
+CD_getoc:: -> $305A
+CD_initm:: -> $3060
+CD_initf:: -> $3066
+CD_switch:: -> $306C
+*/
+ if (m68kPC == 0x3000)
+ WriteLog("M68K: CD_init\n");
+ else if (m68kPC == 0x3006 + (6 * 0))
+ WriteLog("M68K: CD_mode\n");
+ else if (m68kPC == 0x3006 + (6 * 1))
+ WriteLog("M68K: CD_ack\n");
+ else if (m68kPC == 0x3006 + (6 * 2))
+ WriteLog("M68K: CD_jeri\n");
+ else if (m68kPC == 0x3006 + (6 * 3))
+ WriteLog("M68K: CD_spin\n");
+ else if (m68kPC == 0x3006 + (6 * 4))
+ WriteLog("M68K: CD_stop\n");
+ else if (m68kPC == 0x3006 + (6 * 5))
+ WriteLog("M68K: CD_mute\n");
+ else if (m68kPC == 0x3006 + (6 * 6))
+ WriteLog("M68K: CD_umute\n");
+ else if (m68kPC == 0x3006 + (6 * 7))
+ WriteLog("M68K: CD_paus\n");
+ else if (m68kPC == 0x3006 + (6 * 8))
+ WriteLog("M68K: CD_upaus\n");
+ else if (m68kPC == 0x3006 + (6 * 9))
+ WriteLog("M68K: CD_read\n");
+ else if (m68kPC == 0x3006 + (6 * 10))
+ WriteLog("M68K: CD_uread\n");
+ else if (m68kPC == 0x3006 + (6 * 11))
+ WriteLog("M68K: CD_setup\n");
+ else if (m68kPC == 0x3006 + (6 * 12))
+ WriteLog("M68K: CD_ptr\n");
+ else if (m68kPC == 0x3006 + (6 * 13))
+ WriteLog("M68K: CD_osamp\n");
+ else if (m68kPC == 0x3006 + (6 * 14))
+ WriteLog("M68K: CD_getoc\n");
+ else if (m68kPC == 0x3006 + (6 * 15))
+ WriteLog("M68K: CD_initm\n");
+ else if (m68kPC == 0x3006 + (6 * 16))
+ WriteLog("M68K: CD_initf\n");
+ else if (m68kPC == 0x3006 + (6 * 17))
+ WriteLog("M68K: CD_switch\n");
+
+ if (m68kPC >= 0x3000 && m68kPC <= 0x306C)
+ WriteLog("\t\tA0=%08X, A1=%08X, D0=%08X, D1=%08X, D2=%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), m68k_get_reg(NULL, M68K_REG_D2));
+#endif
+#ifdef ABORT_ON_ILLEGAL_INSTRUCTIONS
if (!m68k_is_valid_instruction(m68k_read_memory_16(m68kPC), M68K_CPU_TYPE_68000))
{
+#ifndef ABORT_ON_OFFICIAL_ILLEGAL_INSTRUCTION
+ if (m68k_read_memory_16(m68kPC) == 0x4AFC)
+ {
+ // This is a kludge to let homebrew programs work properly (i.e., let the other processors
+ // keep going even when the 68K dumped back to the debugger or what have you).
+//dis no wok right!
+// m68k_set_reg(M68K_REG_PC, m68kPC - 2);
+// Try setting the vector to the illegal instruction...
+//This doesn't work right either! Do something else! Quick!
+// SET32(jaguar_mainRam, 0x10, m68kPC);
+
+ return;
+ }
+#endif
+
WriteLog("\nM68K encountered an illegal instruction at %08X!!!\n\nAborting!\n", m68kPC);
uint32 topOfStack = m68k_get_reg(NULL, M68K_REG_A7);
WriteLog("M68K: Top of stack: %08X. Stack trace:\n", JaguarReadLong(topOfStack));
for(int i=0; i<10; i++)
WriteLog("%06X: %08X\n", topOfStack - (i * 4), JaguarReadLong(topOfStack - (i * 4)));
- WriteLog("Jaguar: VBL interrupt is %s\n", ((tom_irq_enabled(IRQ_VBLANK)) && (jaguar_interrupt_handler_is_valid(64))) ? "enabled" : "disabled");
+ WriteLog("Jaguar: VBL interrupt is %s\n", ((TOMIRQEnabled(IRQ_VIDEO)) && (JaguarInterruptHandlerIsValid(64))) ? "enabled" : "disabled");
M68K_show_context();
- log_done();
+
+//temp
+// WriteLog("\n\n68K disasm\n\n");
+// jaguar_dasm(0x802000, 0x50C);
+// WriteLog("\n\n");
+//endoftemp
+
+ LogDone();
exit(0);
}//*/
+#endif
+}
+
+#if 0
+Now here be dragons...
+Here is how memory ranges are defined in the CoJag driver.
+Note that we only have to be concerned with 3 entities read/writing anything:
+The main CPU, the GPU, and the DSP. Everything else is unnecessary. So we can keep our main memory
+checking in jaguar.cpp, gpu.cpp and dsp.cpp. There should be NO checking in TOM, JERRY, etc. other than
+things that are entirely internal to those modules. This way we should be able to get a handle on all
+this crap which is currently scattered over Hell's Half Acre(tm).
+
+Also: We need to distinguish whether or not we need .b, .w, and .dw versions of everything, or if there
+is a good way to collapse that shit (look below for inspiration). Current method works, but is error prone.
+
+/*************************************
+ *
+ * Main CPU memory handlers
+ *
+ *************************************/
+
+static ADDRESS_MAP_START( m68020_map, ADDRESS_SPACE_PROGRAM, 32 )
+ AM_RANGE(0x000000, 0x7fffff) AM_RAM AM_BASE(&jaguar_shared_ram) AM_SHARE(1)
+ AM_RANGE(0x800000, 0x9fffff) AM_ROM AM_REGION(REGION_USER1, 0) AM_BASE(&rom_base)
+ AM_RANGE(0xa00000, 0xa1ffff) AM_RAM
+ AM_RANGE(0xa20000, 0xa21fff) AM_READWRITE(eeprom_data_r, eeprom_data_w) AM_BASE(&generic_nvram32) AM_SIZE(&generic_nvram_size)
+ AM_RANGE(0xa30000, 0xa30003) AM_WRITE(watchdog_reset32_w)
+ AM_RANGE(0xa40000, 0xa40003) AM_WRITE(eeprom_enable_w)
+ AM_RANGE(0xb70000, 0xb70003) AM_READWRITE(misc_control_r, misc_control_w)
+ AM_RANGE(0xc00000, 0xdfffff) AM_ROMBANK(2)
+ AM_RANGE(0xe00000, 0xe003ff) AM_DEVREADWRITE(IDE_CONTROLLER, "ide", ide_controller32_r, ide_controller32_w)
+ AM_RANGE(0xf00000, 0xf003ff) AM_READWRITE(jaguar_tom_regs32_r, jaguar_tom_regs32_w)
+ AM_RANGE(0xf00400, 0xf007ff) AM_RAM AM_BASE(&jaguar_gpu_clut) AM_SHARE(2)
+ AM_RANGE(0xf02100, 0xf021ff) AM_READWRITE(gpuctrl_r, gpuctrl_w)
+ AM_RANGE(0xf02200, 0xf022ff) AM_READWRITE(jaguar_blitter_r, jaguar_blitter_w)
+ AM_RANGE(0xf03000, 0xf03fff) AM_MIRROR(0x008000) AM_RAM AM_BASE(&jaguar_gpu_ram) AM_SHARE(3)
+ AM_RANGE(0xf10000, 0xf103ff) AM_READWRITE(jaguar_jerry_regs32_r, jaguar_jerry_regs32_w)
+ AM_RANGE(0xf16000, 0xf1600b) AM_READ(cojag_gun_input_r) // GPI02
+ AM_RANGE(0xf17000, 0xf17003) AM_READ(status_r) // GPI03
+// AM_RANGE(0xf17800, 0xf17803) AM_WRITE(latch_w) // GPI04
+ AM_RANGE(0xf17c00, 0xf17c03) AM_READ(jamma_r) // GPI05
+ AM_RANGE(0xf1a100, 0xf1a13f) AM_READWRITE(dspctrl_r, dspctrl_w)
+ AM_RANGE(0xf1a140, 0xf1a17f) AM_READWRITE(jaguar_serial_r, jaguar_serial_w)
+ AM_RANGE(0xf1b000, 0xf1cfff) AM_RAM AM_BASE(&jaguar_dsp_ram) AM_SHARE(4)
+ADDRESS_MAP_END
+
+/*************************************
+ *
+ * GPU memory handlers
+ *
+ *************************************/
+
+static ADDRESS_MAP_START( gpu_map, ADDRESS_SPACE_PROGRAM, 32 )
+ AM_RANGE(0x000000, 0x7fffff) AM_RAM AM_SHARE(1)
+ AM_RANGE(0x800000, 0xbfffff) AM_ROMBANK(8)
+ AM_RANGE(0xc00000, 0xdfffff) AM_ROMBANK(9)
+ AM_RANGE(0xe00000, 0xe003ff) AM_DEVREADWRITE(IDE_CONTROLLER, "ide", ide_controller32_r, ide_controller32_w)
+ AM_RANGE(0xf00000, 0xf003ff) AM_READWRITE(jaguar_tom_regs32_r, jaguar_tom_regs32_w)
+ AM_RANGE(0xf00400, 0xf007ff) AM_RAM AM_SHARE(2)
+ AM_RANGE(0xf02100, 0xf021ff) AM_READWRITE(gpuctrl_r, gpuctrl_w)
+ AM_RANGE(0xf02200, 0xf022ff) AM_READWRITE(jaguar_blitter_r, jaguar_blitter_w)
+ AM_RANGE(0xf03000, 0xf03fff) AM_RAM AM_SHARE(3)
+ AM_RANGE(0xf10000, 0xf103ff) AM_READWRITE(jaguar_jerry_regs32_r, jaguar_jerry_regs32_w)
+ADDRESS_MAP_END
+
+/*************************************
+ *
+ * DSP memory handlers
+ *
+ *************************************/
+
+static ADDRESS_MAP_START( dsp_map, ADDRESS_SPACE_PROGRAM, 32 )
+ AM_RANGE(0x000000, 0x7fffff) AM_RAM AM_SHARE(1)
+ AM_RANGE(0x800000, 0xbfffff) AM_ROMBANK(8)
+ AM_RANGE(0xc00000, 0xdfffff) AM_ROMBANK(9)
+ AM_RANGE(0xf10000, 0xf103ff) AM_READWRITE(jaguar_jerry_regs32_r, jaguar_jerry_regs32_w)
+ AM_RANGE(0xf1a100, 0xf1a13f) AM_READWRITE(dspctrl_r, dspctrl_w)
+ AM_RANGE(0xf1a140, 0xf1a17f) AM_READWRITE(jaguar_serial_r, jaguar_serial_w)
+ AM_RANGE(0xf1b000, 0xf1cfff) AM_RAM AM_SHARE(4)
+ AM_RANGE(0xf1d000, 0xf1dfff) AM_READ(jaguar_wave_rom_r) AM_BASE(&jaguar_wave_rom)
+ADDRESS_MAP_END
+*/
+#endif
+
+//#define EXPERIMENTAL_MEMORY_HANDLING
+// Experimental memory mappage...
+// Dunno if this is a good approach or not, but it seems to make better
+// sense to have all this crap in one spot intstead of scattered all over
+// the place the way it is now.
+#ifdef EXPERIMENTAL_MEMORY_HANDLING
+// Needed defines...
+#define NEW_TIMER_SYSTEM
+
+/*
+uint8 jaguarMainRAM[0x400000]; // 68K CPU RAM
+uint8 jaguarMainROM[0x600000]; // 68K CPU ROM
+uint8 jaguarBootROM[0x040000]; // 68K CPU BIOS ROM--uses only half of this!
+uint8 jaguarCDBootROM[0x040000]; // 68K CPU CD BIOS ROM
+bool BIOSLoaded = false;
+bool CDBIOSLoaded = false;
+
+uint8 cdRAM[0x100];
+uint8 tomRAM[0x4000];
+uint8 jerryRAM[0x10000];
+static uint16 eeprom_ram[64];
+
+// NOTE: CD BIOS ROM is read from cartridge space @ $802000 (it's a cartridge, after all)
+*/
+
+enum MemType { MM_NOP = 0, MM_RAM, MM_ROM, MM_IO };
+
+// M68K Memory map/handlers
+uint32 {
+ { 0x000000, 0x3FFFFF, MM_RAM, jaguarMainRAM },
+ { 0x800000, 0xDFFEFF, MM_ROM, jaguarMainROM },
+// Note that this is really memory mapped I/O region...
+// { 0xDFFF00, 0xDFFFFF, MM_RAM, cdRAM },
+ { 0xDFFF00, 0xDFFF03, MM_IO, cdBUTCH }, // base of Butch == interrupt control register, R/W
+ { 0xDFFF04, 0xDFFF07, MM_IO, cdDSCNTRL }, // DSA control register, R/W
+ { 0xDFFF0A, 0xDFFF0B, MM_IO, cdDS_DATA }, // DSA TX/RX data, R/W
+ { 0xDFFF10, 0xDFFF13, MM_IO, cdI2CNTRL }, // i2s bus control register, R/W
+ { 0xDFFF14, 0xDFFF17, MM_IO, cdSBCNTRL }, // CD subcode control register, R/W
+ { 0xDFFF18, 0xDFFF1B, MM_IO, cdSUBDATA }, // Subcode data register A
+ { 0xDFFF1C, 0xDFFF1F, MM_IO, cdSUBDATB }, // Subcode data register B
+ { 0xDFFF20, 0xDFFF23, MM_IO, cdSB_TIME }, // Subcode time and compare enable (D24)
+ { 0xDFFF24, 0xDFFF27, MM_IO, cdFIFO_DATA }, // i2s FIFO data
+ { 0xDFFF28, 0xDFFF2B, MM_IO, cdI2SDAT2 }, // i2s FIFO data (old)
+ { 0xDFFF2C, 0xDFFF2F, MM_IO, cdUNKNOWN }, // Seems to be some sort of I2S interface
+
+ { 0xE00000, 0xE3FFFF, MM_ROM, jaguarBootROM },
+
+// { 0xF00000, 0xF0FFFF, MM_IO, TOM_REGS_RW },
+ { 0xF00050, 0xF00051, MM_IO, tomTimerPrescaler },
+ { 0xF00052, 0xF00053, MM_IO, tomTimerDivider },
+ { 0xF00400, 0xF005FF, MM_RAM, tomRAM }, // CLUT A&B: How to link these? Write to one writes to the other...
+ { 0xF00600, 0xF007FF, MM_RAM, tomRAM }, // Actually, this is a good approach--just make the reads the same as well
+ //What about LBUF writes???
+ { 0xF02100, 0xF0211F, MM_IO, GPUWriteByte }, // GPU CONTROL
+ { 0xF02200, 0xF0229F, MM_IO, BlitterWriteByte }, // BLITTER
+ { 0xF03000, 0xF03FFF, MM_RAM, GPUWriteByte }, // GPU RAM
+
+ { 0xF10000, 0xF1FFFF, MM_IO, JERRY_REGS_RW },
+
+/*
+ EEPROM:
+ { 0xF14001, 0xF14001, MM_IO_RO, eepromFOO }
+ { 0xF14801, 0xF14801, MM_IO_WO, eepromBAR }
+ { 0xF15001, 0xF15001, MM_IO_RW, eepromBAZ }
+
+ JOYSTICK:
+ { 0xF14000, 0xF14003, MM_IO, joystickFoo }
+ 0 = pad0/1 button values (4 bits each), RO(?)
+ 1 = pad0/1 index value (4 bits each), WO
+ 2 = unused, RO
+ 3 = NTSC/PAL, certain button states, RO
+
+JOYSTICK $F14000 Read/Write
+ 15.....8 7......0
+Read fedcba98 7654321q f-1 Signals J15 to J1
+ q Cartridge EEPROM output data
+Write exxxxxxm 76543210 e 1 = enable J7-J0 outputs
+ 0 = disable J7-J0 outputs
+ x don't care
+ m Audio mute
+ 0 = Audio muted (reset state)
+ 1 = Audio enabled
+ 7-4 J7-J4 outputs (port 2)
+ 3-0 J3-J0 outputs (port 1)
+JOYBUTS $F14002 Read Only
+ 15.....8 7......0
+Read xxxxxxxx rrdv3210 x don't care
+ r Reserved
+ d Reserved
+ v 1 = NTSC Video hardware
+ 0 = PAL Video hardware
+ 3-2 Button inputs B3 & B2 (port 2)
+ 1-0 Button inputs B1 & B0 (port 1)
+
+J4 J5 J6 J7 Port 2 B2 B3 J12 J13 J14 J15
+J3 J2 J1 J0 Port 1 B0 B1 J8 J9 J10 J11
+ 0 0 0 0
+ 0 0 0 1
+ 0 0 1 0
+ 0 0 1 1
+ 0 1 0 0
+ 0 1 0 1
+ 0 1 1 0
+ 0 1 1 1 Row 3 C3 Option # 9 6 3
+ 1 0 0 0
+ 1 0 0 1
+ 1 0 1 0
+ 1 0 1 1 Row 2 C2 C 0 8 5 2
+ 1 1 0 0
+ 1 1 0 1 Row 1 C1 B * 7 4 1
+ 1 1 1 0 Row 0 Pause A Up Down Left Right
+ 1 1 1 1
+
+0 bit read in any position means that button is pressed.
+C3 = C2 = 1 means std. Jag. cntrlr. or nothing attached.
+*/
+};
+
+void WriteByte(uint32 address, uint8 byte, uint32 who/*=UNKNOWN*/)
+{
+ // Not sure, but I think the system only has 24 address bits...
+ address &= 0x00FFFFFF;
+
+ // RAM ($000000 - $3FFFFF) 4M
+ if (address <= 0x3FFFFF)
+ jaguarMainRAM[address] = byte;
+ // hole ($400000 - $7FFFFF) 4M
+ else if (address <= 0x7FFFFF)
+ ; // Do nothing
+ // GAME ROM ($800000 - $DFFEFF) 6M - 256 bytes
+ else if (address <= 0xDFFEFF)
+ ; // Do nothing
+ // CDROM ($DFFF00 - $DFFFFF) 256 bytes
+ else if (address <= 0xDFFFFF)
+ {
+ cdRAM[address & 0xFF] = byte;
+#ifdef CDROM_LOG
+ if ((address & 0xFF) < 12 * 4)
+ WriteLog("[%s] ", BReg[(address & 0xFF) / 4]);
+ WriteLog("CDROM: %s writing byte $%02X at $%08X [68K PC=$%08X]\n", whoName[who], data, offset, m68k_get_reg(NULL, M68K_REG_PC));
+#endif
+ }
+ // BIOS ROM ($E00000 - $E3FFFF) 256K
+ else if (address <= 0xE3FFFF)
+ ; // Do nothing
+ // hole ($E40000 - $EFFFFF) 768K
+ else if (address <= 0xEFFFFF)
+ ; // Do nothing
+ // TOM ($F00000 - $F0FFFF) 64K
+ else if (address <= 0xF0FFFF)
+// ; // Do nothing
+ {
+ if (address == 0xF00050)
+ {
+ tomTimerPrescaler = (tomTimerPrescaler & 0x00FF) | ((uint16)byte << 8);
+ TOMResetPIT();
+ return;
+ }
+ else if (address == 0xF00051)
+ {
+ tomTimerPrescaler = (tomTimerPrescaler & 0xFF00) | byte;
+ TOMResetPIT();
+ return;
+ }
+ else if (address == 0xF00052)
+ {
+ tomTimerDivider = (tomTimerDivider & 0x00FF) | ((uint16)byte << 8);
+ TOMResetPIT();
+ return;
+ }
+ else if (address == 0xF00053)
+ {
+ tomTimerDivider = (tomTimerDivider & 0xFF00) | byte;
+ TOMResetPIT();
+ return;
+ }
+ else if (address >= 0xF00400 && address <= 0xF007FF) // CLUT (A & B)
+ {
+ // Writing to one CLUT writes to the other
+ address &= 0x5FF; // Mask out $F00600 (restrict to $F00400-5FF)
+ tomRAM[address] = tomRAM[address + 0x200] = byte;
+ return;
+ }
+ //What about LBUF writes???
+ else if ((address >= 0xF02100) && (address <= 0xF0211F)) // GPU CONTROL
+ {
+ GPUWriteByte(address, byte, who);
+ return;
+ }
+ else if ((address >= 0xF02200) && (address <= 0xF0229F)) // BLITTER
+ {
+ BlitterWriteByte(address, byte, who);
+ return;
+ }
+ else if ((address >= 0xF03000) && (address <= 0xF03FFF)) // GPU RAM
+ {
+ GPUWriteByte(address, byte, who);
+ return;
+ }
+
+ tomRAM[address & 0x3FFF] = byte;
+ }
+ // JERRY ($F10000 - $F1FFFF) 64K
+ else if (address <= 0xF1FFFF)
+// ; // Do nothing
+ {
+#ifdef JERRY_DEBUG
+ WriteLog("jerry: writing byte %.2x at 0x%.6x\n", byte, address);
+#endif
+ if ((address >= DSP_CONTROL_RAM_BASE) && (address < DSP_CONTROL_RAM_BASE+0x20))
+ {
+ DSPWriteByte(address, byte, who);
+ return;
+ }
+ else if ((address >= DSP_WORK_RAM_BASE) && (address < DSP_WORK_RAM_BASE+0x2000))
+ {
+ DSPWriteByte(address, byte, who);
+ return;
+ }
+ // SCLK ($F1A150--8 bits wide)
+//NOTE: This should be taken care of in DAC...
+ else if ((address >= 0xF1A152) && (address <= 0xF1A153))
+ {
+// WriteLog("JERRY: Writing %02X to SCLK...\n", data);
+ if ((address & 0x03) == 2)
+ JERRYI2SInterruptDivide = (JERRYI2SInterruptDivide & 0x00FF) | ((uint32)byte << 8);
+ else
+ JERRYI2SInterruptDivide = (JERRYI2SInterruptDivide & 0xFF00) | (uint32)byte;
+
+ JERRYI2SInterruptTimer = -1;
+#ifndef NEW_TIMER_SYSTEM
+ jerry_i2s_exec(0);
+#else
+ RemoveCallback(JERRYI2SCallback);
+ JERRYI2SCallback();
+#endif
+// return;
+ }
+ // LTXD/RTXD/SCLK/SMODE $F1A148/4C/50/54 (really 16-bit registers...)
+ else if (address >= 0xF1A148 && address <= 0xF1A157)
+ {
+ DACWriteByte(address, byte, who);
+ return;
+ }
+ else if (address >= 0xF10000 && address <= 0xF10007)
+ {
+#ifndef NEW_TIMER_SYSTEM
+ switch (address & 0x07)
+ {
+ case 0:
+ JERRYPIT1Prescaler = (JERRYPIT1Prescaler & 0x00FF) | (byte << 8);
+ JERRYResetPIT1();
+ break;
+ case 1:
+ JERRYPIT1Prescaler = (JERRYPIT1Prescaler & 0xFF00) | byte;
+ JERRYResetPIT1();
+ break;
+ case 2:
+ JERRYPIT1Divider = (JERRYPIT1Divider & 0x00FF) | (byte << 8);
+ JERRYResetPIT1();
+ break;
+ case 3:
+ JERRYPIT1Divider = (JERRYPIT1Divider & 0xFF00) | byte;
+ JERRYResetPIT1();
+ break;
+ case 4:
+ JERRYPIT2Prescaler = (JERRYPIT2Prescaler & 0x00FF) | (byte << 8);
+ JERRYResetPIT2();
+ break;
+ case 5:
+ JERRYPIT2Prescaler = (JERRYPIT2Prescaler & 0xFF00) | byte;
+ JERRYResetPIT2();
+ break;
+ case 6:
+ JERRYPIT2Divider = (JERRYPIT2Divider & 0x00FF) | (byte << 8);
+ JERRYResetPIT2();
+ break;
+ case 7:
+ JERRYPIT2Divider = (JERRYPIT2Divider & 0xFF00) | byte;
+ JERRYResetPIT2();
+ }
+#else
+WriteLog("JERRY: Unhandled timer write (BYTE) at %08X...\n", address);
+#endif
+ return;
+ }
+/* else if ((offset >= 0xF10010) && (offset <= 0xF10015))
+ {
+ clock_byte_write(offset, byte);
+ return;
+ }//*/
+ // JERRY -> 68K interrupt enables/latches (need to be handled!)
+ else if (address >= 0xF10020 && address <= 0xF10023)
+ {
+WriteLog("JERRY: (68K int en/lat - Unhandled!) Tried to write $%02X to $%08X!\n", byte, address);
+ }
+/* else if ((offset >= 0xF17C00) && (offset <= 0xF17C01))
+ {
+ anajoy_byte_write(offset, byte);
+ return;
+ }*/
+ else if ((address >= 0xF14000) && (address <= 0xF14003))
+ {
+ JoystickWriteByte(address, byte);
+ EepromWriteByte(address, byte);
+ return;
+ }
+ else if ((address >= 0xF14004) && (address <= 0xF1A0FF))
+ {
+ EepromWriteByte(address, byte);
+ return;
+ }
+//Need to protect write attempts to Wavetable ROM (F1D000-FFF)
+ else if (address >= 0xF1D000 && address <= 0xF1DFFF)
+ return;
+
+ jerryRAM[address & 0xFFFF] = byte;
+ }
+ // hole ($F20000 - $FFFFFF) 1M - 128K
+ else
+ ; // Do nothing
+}
+
+void WriteWord(uint32 adddress, uint16 word)
+{
+}
+
+void WriteDWord(uint32 adddress, uint32 dword)
+{
+}
+
+uint8 ReadByte(uint32 adddress)
+{
+}
+
+uint16 ReadWord(uint32 adddress)
+{
+}
+
+uint32 ReadDWord(uint32 adddress)
+{
+}
+#endif
+
+void ShowM68KContext(void)
+{
+ printf("\t68K PC=%06X\n", m68k_get_reg(NULL, M68K_REG_PC));
+
+ for(int i=M68K_REG_D0; i<=M68K_REG_D7; i++)
+ {
+ printf("D%i = %08X ", i-M68K_REG_D0, m68k_get_reg(NULL, (m68k_register_t)i));
+
+ if (i == M68K_REG_D3 || i == M68K_REG_D7)
+ printf("\n");
+ }
+
+ for(int i=M68K_REG_A0; i<=M68K_REG_A7; i++)
+ {
+ printf("A%i = %08X ", i-M68K_REG_A0, m68k_get_reg(NULL, (m68k_register_t)i));
+
+ if (i == M68K_REG_A3 || i == M68K_REG_A7)
+ printf("\n");
+ }
+
+ uint32_t currpc = m68k_get_reg(NULL, M68K_REG_PC);
+ uint32_t disPC = currpc - 30;
+ char buffer[128];
+
+ do
+ {
+ uint32_t oldpc = disPC;
+ disPC += m68k_disassemble(buffer, disPC, 0);
+ printf("%s%08X: %s\n", (oldpc == currpc ? ">" : " "), oldpc, buffer);
+ }
+ while (disPC < (currpc + 10));
}
//
// Musashi 68000 read/write/IRQ functions
//
+#if 0
+IRQs:
+=-=-=
+
+ IPL Name Vector Control
+ ---------+---------------+---------------+---------------
+ 2 VBLANK IRQ $100 INT1 bit #0
+ 2 GPU IRQ $100 INT1 bit #1
+ 2 HBLANK IRQ $100 INT1 bit #2
+ 2 Timer IRQ $100 INT1 bit #3
+
+ Note: Both timer interrupts (JPIT && PIT) are on the same INT1 bit.
+ and are therefore indistinguishable.
+
+ A typical way to install a LEVEL2 handler for the 68000 would be
+ something like this, you gotta supply "last_line" and "handler".
+ Note that the interrupt is auto vectored thru $100 (not $68)
+
+
+ V_AUTO = $100
+ VI = $F004E
+ INT1 = $F00E0
+ INT2 = $F00E2
+
+ IRQS_HANDLED=$909 ;; VBLANK and TIMER
+
+ move.w #$2700,sr ;; no IRQs please
+ move.l #handler,V_AUTO ;; install our routine
+
+ move.w #last_line,VI ;; scanline where IRQ should occur
+ ;; should be 'odd' BTW
+ move.w #IRQS_HANDLE&$FF,INT1 ;; enable VBLANK + TIMER
+ move.w #$2100,sr ;; enable IRQs on the 68K
+ ...
+
+handler:
+ move.w d0,-(a7)
+ move.w INT1,d0
+ btst.b #0,d0
+ bne.b .no_blank
+
+ ...
+
+.no_blank:
+ btst.b #3,d0
+ beq.b .no_timer
+
+ ...
+
+.no_timer:
+ move.w #IRQS_HANDLED,INT1 ; clear latch, keep IRQ alive
+ move.w #0,INT2 ; let GPU run again
+ move.w (a7)+,d0
+ rte
+
+ As you can see, if you have multiple INT1 interrupts coming in,
+ you need to check the lower byte of INT1, to see which interrupt
+ happened.
+#endif
int irq_ack_handler(int level)
{
- int vector = M68K_INT_ACK_AUTOVECTOR;
+ // Tracing the IPL lines on the Jaguar schematic yields the following:
+ // IPL1 is connected to INTL on TOM (OUT to 68K)
+ // IPL0-2 are also tied to Vcc via 4.7K resistors!
+ // (DINT on TOM goes into DINT on JERRY (IN Tom from Jerry))
+ // There doesn't seem to be any other path to IPL0 or 2 on the schematic, which means
+ // that *all* IRQs to the 68K are routed thru TOM at level 2. Which means they're all maskable.
// The GPU/DSP/etc are probably *not* issuing an NMI, but it seems to work OK...
+ // They aren't, and this causes problems with a, err, specific ROM. :-D
- if (level == 7)
+ if (level == 2)
{
- m68k_set_irq(0); // Clear the IRQ...
- vector = 64; // Set user interrupt #0
+ m68k_set_irq(0); // Clear the IRQ (NOTE: Without this, the BIOS fails)...
+ return 64; // Set user interrupt #0
}
- return vector;
+ return M68K_INT_ACK_AUTOVECTOR;
}
+//#define USE_NEW_MMU
+
unsigned int m68k_read_memory_8(unsigned int address)
{
+ // Musashi does this automagically for you, UAE core does not :-P
+ address &= 0x00FFFFFF;
#ifdef CPU_DEBUG_MEMORY
if ((address >= 0x000000) && (address <= 0x3FFFFF))
{
}
#endif
//WriteLog("[RM8] Addr: %08X\n", address);
+//; So, it seems that it stores the returned DWORD at $51136 and $FB074.
+/* if (address == 0x51136 || address == 0x51138 || address == 0xFB074 || address == 0xFB076
+ || address == 0x1AF05E)
+ WriteLog("[RM8 PC=%08X] Addr: %08X, val: %02X\n", m68k_get_reg(NULL, M68K_REG_PC), address, jaguar_mainRam[address]);//*/
+#ifndef USE_NEW_MMU
unsigned int retVal = 0;
if ((address >= 0x000000) && (address <= 0x3FFFFF))
- retVal = jaguar_mainRam[address];
- else if ((address >= 0x800000) && (address <= 0xDFFFFF))
- retVal = jaguar_mainRom[address - 0x800000];
+ retVal = jaguarMainRAM[address];
+// else if ((address >= 0x800000) && (address <= 0xDFFFFF))
+ else if ((address >= 0x800000) && (address <= 0xDFFEFF))
+ retVal = jaguarMainROM[address - 0x800000];
else if ((address >= 0xE00000) && (address <= 0xE3FFFF))
- retVal = jaguar_bootRom[address - 0xE00000];
+// retVal = jaguarBootROM[address - 0xE00000];
+// retVal = jaguarDevBootROM1[address - 0xE00000];
+ retVal = jagMemSpace[address];
else if ((address >= 0xDFFF00) && (address <= 0xDFFFFF))
retVal = CDROMReadByte(address);
else if ((address >= 0xF00000) && (address <= 0xF0FFFF))
else
retVal = jaguar_unknown_readbyte(address, M68K);
+//if (address >= 0x2800 && address <= 0x281F)
+// WriteLog("M68K: Read byte $%02X at $%08X [PC=%08X]\n", retVal, address, m68k_get_reg(NULL, M68K_REG_PC));
+//if (address >= 0x8B5E4 && address <= 0x8B5E4 + 16)
+// WriteLog("M68K: Read byte $%02X at $%08X [PC=%08X]\n", retVal, address, m68k_get_reg(NULL, M68K_REG_PC));
return retVal;
+#else
+ return MMURead8(address, M68K);
+#endif
}
void gpu_dump_disassembly(void);
unsigned int m68k_read_memory_16(unsigned int address)
{
+ // Musashi does this automagically for you, UAE core does not :-P
+ address &= 0x00FFFFFF;
#ifdef CPU_DEBUG_MEMORY
/* if ((address >= 0x000000) && (address <= 0x3FFFFE))
{
for(int i=0; i<10000; i++)
WriteLog("[M68K] About to run GPU! (Addr:%08X, data:%04X)\n", address, TOMReadWord(address));
}//*/
+//; So, it seems that it stores the returned DWORD at $51136 and $FB074.
+/* if (address == 0x51136 || address == 0x51138 || address == 0xFB074 || address == 0xFB076
+ || address == 0x1AF05E)
+ WriteLog("[RM16 PC=%08X] Addr: %08X, val: %04X\n", m68k_get_reg(NULL, M68K_REG_PC), address, GET16(jaguar_mainRam, address));//*/
+#ifndef USE_NEW_MMU
unsigned int retVal = 0;
if ((address >= 0x000000) && (address <= 0x3FFFFE))
- retVal = (jaguar_mainRam[address] << 8) | jaguar_mainRam[address+1];
- else if ((address >= 0x800000) && (address <= 0xDFFFFE))
- retVal = (jaguar_mainRom[address - 0x800000] << 8) | jaguar_mainRom[address - 0x800000 + 1];
+// retVal = (jaguar_mainRam[address] << 8) | jaguar_mainRam[address+1];
+ retVal = GET16(jaguarMainRAM, address);
+// else if ((address >= 0x800000) && (address <= 0xDFFFFE))
+ else if ((address >= 0x800000) && (address <= 0xDFFEFE))
+ retVal = (jaguarMainROM[address - 0x800000] << 8) | jaguarMainROM[address - 0x800000 + 1];
else if ((address >= 0xE00000) && (address <= 0xE3FFFE))
- retVal = (jaguar_bootRom[address - 0xE00000] << 8) | jaguar_bootRom[address - 0xE00000 + 1];
+// retVal = (jaguarBootROM[address - 0xE00000] << 8) | jaguarBootROM[address - 0xE00000 + 1];
+// retVal = (jaguarDevBootROM1[address - 0xE00000] << 8) | jaguarDevBootROM1[address - 0xE00000 + 1];
+ retVal = (jagMemSpace[address] << 8) | jagMemSpace[address + 1];
else if ((address >= 0xDFFF00) && (address <= 0xDFFFFE))
retVal = CDROMReadWord(address, M68K);
else if ((address >= 0xF00000) && (address <= 0xF0FFFE))
else
retVal = jaguar_unknown_readword(address, M68K);
+//if (address >= 0xF1B000 && address <= 0xF1CFFF)
+// WriteLog("M68K: Read word $%04X at $%08X [PC=%08X]\n", retVal, address, m68k_get_reg(NULL, M68K_REG_PC));
+//if (address >= 0x2800 && address <= 0x281F)
+// WriteLog("M68K: Read word $%04X at $%08X [PC=%08X]\n", retVal, address, m68k_get_reg(NULL, M68K_REG_PC));
+//$8B3AE -> Transferred from $F1C010
+//$8B5E4 -> Only +1 read at $808AA
+//if (address >= 0x8B5E4 && address <= 0x8B5E4 + 16)
+// WriteLog("M68K: Read word $%04X at $%08X [PC=%08X]\n", retVal, address, m68k_get_reg(NULL, M68K_REG_PC));
return retVal;
+#else
+ return MMURead16(address, M68K);
+#endif
}
unsigned int m68k_read_memory_32(unsigned int address)
{
+ // Musashi does this automagically for you, UAE core does not :-P
+ address &= 0x00FFFFFF;
+//; So, it seems that it stores the returned DWORD at $51136 and $FB074.
+/* if (address == 0x51136 || address == 0xFB074 || address == 0x1AF05E)
+ 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));//*/
+
//WriteLog("--> [RM32]\n");
+#ifndef USE_NEW_MMU
return (m68k_read_memory_16(address) << 16) | m68k_read_memory_16(address + 2);
+#else
+ return MMURead32(address, M68K);
+#endif
}
void m68k_write_memory_8(unsigned int address, unsigned int value)
{
+ // Musashi does this automagically for you, UAE core does not :-P
+ address &= 0x00FFFFFF;
#ifdef CPU_DEBUG_MEMORY
if ((address >= 0x000000) && (address <= 0x3FFFFF))
{
}
}
#endif
+/*if (address == 0x4E00)
+ WriteLog("M68K: Writing %02X at %08X, PC=%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));//*/
//if ((address >= 0x1FF020 && address <= 0x1FF03F) || (address >= 0x1FF820 && address <= 0x1FF83F))
// WriteLog("M68K: Writing %02X at %08X\n", value, address);
//WriteLog("[WM8 PC=%08X] Addr: %08X, val: %02X\n", m68k_get_reg(NULL, M68K_REG_PC), address, value);
+/*if (effect_start)
+ if (address >= 0x18FA70 && address < (0x18FA70 + 8000))
+ WriteLog("M68K: Byte %02X written at %08X by 68K\n", value, address);//*/
+//$53D0
+/*if (address >= 0x53D0 && address <= 0x53FF)
+ printf("M68K: Writing byte $%02X at $%08X, PC=$%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));//*/
+//Testing AvP on UAE core...
+//000075A0: FFFFF80E B6320220 (BITMAP)
+/*if (address == 0x75A0 && value == 0xFF)
+ printf("M68K: (8) Tripwire hit...\n");//*/
+
+#ifndef USE_NEW_MMU
if ((address >= 0x000000) && (address <= 0x3FFFFF))
- jaguar_mainRam[address] = value;
+ jaguarMainRAM[address] = value;
else if ((address >= 0xDFFF00) && (address <= 0xDFFFFF))
CDROMWriteByte(address, value, M68K);
else if ((address >= 0xF00000) && (address <= 0xF0FFFF))
JERRYWriteByte(address, value, M68K);
else
jaguar_unknown_writebyte(address, value, M68K);
+#else
+ MMUWrite8(address, value, M68K);
+#endif
}
void m68k_write_memory_16(unsigned int address, unsigned int value)
{
+ // Musashi does this automagically for you, UAE core does not :-P
+ address &= 0x00FFFFFF;
#ifdef CPU_DEBUG_MEMORY
if ((address >= 0x000000) && (address <= 0x3FFFFE))
{
}
}
#endif
+/*if (address == 0x4E00)
+ WriteLog("M68K: Writing %02X at %08X, PC=%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));//*/
//if ((address >= 0x1FF020 && address <= 0x1FF03F) || (address >= 0x1FF820 && address <= 0x1FF83F))
// WriteLog("M68K: Writing %04X at %08X\n", value, address);
//WriteLog("[WM16 PC=%08X] Addr: %08X, val: %04X\n", m68k_get_reg(NULL, M68K_REG_PC), address, value);
//if (address >= 0xF03B00 && address <= 0xF03DFF)
// WriteLog("M68K: Writing %04X to %08X...\n", value, address);
+/*if (address == 0x0100)//64*4)
+ WriteLog("M68K: Wrote word to VI vector value %04X...\n", value);//*/
+/*if (effect_start)
+ if (address >= 0x18FA70 && address < (0x18FA70 + 8000))
+ WriteLog("M68K: Word %04X written at %08X by 68K\n", value, address);//*/
+/* if (address == 0x51136 || address == 0x51138 || address == 0xFB074 || address == 0xFB076
+ || address == 0x1AF05E)
+ WriteLog("[WM16 PC=%08X] Addr: %08X, val: %04X\n", m68k_get_reg(NULL, M68K_REG_PC), address, value);//*/
+//$53D0
+/*if (address >= 0x53D0 && address <= 0x53FF)
+ printf("M68K: Writing word $%04X at $%08X, PC=$%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));//*/
+//Testing AvP on UAE core...
+//000075A0: FFFFF80E B6320220 (BITMAP)
+/*if (address == 0x75A0 && value == 0xFFFF)
+{
+ printf("\nM68K: (16) Tripwire hit...\n");
+ ShowM68KContext();
+}//*/
+
+#ifndef USE_NEW_MMU
if ((address >= 0x000000) && (address <= 0x3FFFFE))
{
/* jaguar_mainRam[address] = value >> 8;
jaguar_mainRam[address + 1] = value & 0xFF;*/
- SET16(jaguar_mainRam, address, value);
+ SET16(jaguarMainRAM, address, value);
}
else if ((address >= 0xDFFF00) && (address <= 0xDFFFFE))
CDROMWriteWord(address, value, M68K);
else
{
jaguar_unknown_writeword(address, value, M68K);
+#ifdef LOG_UNMAPPED_MEMORY_ACCESSES
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));
+#endif
}
+#else
+ MMUWrite16(address, value, M68K);
+#endif
}
void m68k_write_memory_32(unsigned int address, unsigned int value)
{
+ // Musashi does this automagically for you, UAE core does not :-P
+ address &= 0x00FFFFFF;
+/*if (address == 0x4E00)
+ WriteLog("M68K: Writing %02X at %08X, PC=%08X\n", value, address, m68k_get_reg(NULL, M68K_REG_PC));//*/
//WriteLog("--> [WM32]\n");
+/*if (address == 0x0100)//64*4)
+ WriteLog("M68K: Wrote dword to VI vector value %08X...\n", value);//*/
+/*if (address >= 0xF03214 && address < 0xF0321F)
+ WriteLog("M68K: Writing DWORD (%08X) to GPU RAM (%08X)...\n", value, address);//*/
+//M68K: Writing DWORD (88E30047) to GPU RAM (00F03214)...
+/*extern bool doGPUDis;
+if (address == 0xF03214 && value == 0x88E30047)
+// start = true;
+ doGPUDis = true;//*/
+/* if (address == 0x51136 || address == 0xFB074)
+ WriteLog("[WM32 PC=%08X] Addr: %08X, val: %02X\n", m68k_get_reg(NULL, M68K_REG_PC), address, value);//*/
+//Testing AvP on UAE core...
+//000075A0: FFFFF80E B6320220 (BITMAP)
+/*if (address == 0x75A0 && (value & 0xFFFF0000) == 0xFFFF0000)
+{
+ printf("\nM68K: (32) Tripwire hit...\n");
+ ShowM68KContext();
+}//*/
+
+#ifndef USE_NEW_MMU
m68k_write_memory_16(address, value >> 16);
m68k_write_memory_16(address + 2, value & 0xFFFF);
+#else
+ MMUWrite32(address, value, M68K);
+#endif
}
-uint32 jaguar_get_handler(uint32 i)
+uint32 JaguarGetHandler(uint32 i)
{
return JaguarReadLong(i * 4);
}
-uint32 jaguar_interrupt_handler_is_valid(uint32 i)
+bool JaguarInterruptHandlerIsValid(uint32 i) // Debug use only...
{
- uint32 handler = jaguar_get_handler(i);
- if (handler && (handler != 0xFFFFFFFF))
- return 1;
- else
- return 0;
+ uint32 handler = JaguarGetHandler(i);
+ return (handler && (handler != 0xFFFFFFFF) ? true : false);
}
void M68K_show_context(void)
{
- WriteLog("\t68K PC=%06X\n", m68k_get_reg(NULL, M68K_REG_PC));
+ WriteLog("68K PC=%06X\n", m68k_get_reg(NULL, M68K_REG_PC));
+
for(int i=M68K_REG_D0; i<=M68K_REG_D7; i++)
- WriteLog("\tD%i = %08X\n", i-M68K_REG_D0, m68k_get_reg(NULL, (m68k_register_t)i));
- WriteLog("\n");
+ {
+ WriteLog("D%i = %08X ", i-M68K_REG_D0, m68k_get_reg(NULL, (m68k_register_t)i));
+
+ if (i == M68K_REG_D3 || i == M68K_REG_D7)
+ WriteLog("\n");
+ }
+
for(int i=M68K_REG_A0; i<=M68K_REG_A7; i++)
- WriteLog("\tA%i = %08X\n", i-M68K_REG_A0, m68k_get_reg(NULL, (m68k_register_t)i));
+ {
+ WriteLog("A%i = %08X ", i-M68K_REG_A0, m68k_get_reg(NULL, (m68k_register_t)i));
+
+ if (i == M68K_REG_A3 || i == M68K_REG_A7)
+ WriteLog("\n");
+ }
WriteLog("68K disasm\n");
// jaguar_dasm(s68000readPC()-0x1000,0x20000);
- jaguar_dasm(m68k_get_reg(NULL, M68K_REG_PC) - 0x80, 0x200);
+ JaguarDasm(m68k_get_reg(NULL, M68K_REG_PC) - 0x80, 0x200);
// jaguar_dasm(0x5000, 0x14414);
+// WriteLog("\n.......[Cart start]...........\n\n");
+// jaguar_dasm(0x192000, 0x1000);//0x200);
+
WriteLog("..................\n");
- if (tom_irq_enabled(IRQ_VBLANK))
+ if (TOMIRQEnabled(IRQ_VIDEO))
{
- WriteLog("vblank int: enabled\n");
- jaguar_dasm(jaguar_get_handler(64), 0x200);
+ WriteLog("video int: enabled\n");
+ JaguarDasm(JaguarGetHandler(64), 0x200);
}
else
- WriteLog("vblank int: disabled\n");
+ WriteLog("video int: disabled\n");
WriteLog("..................\n");
for(int i=0; i<256; i++)
- WriteLog("handler %03i at $%08X\n", i, (unsigned int)jaguar_get_handler(i));
+ {
+ WriteLog("handler %03i at ", i);//$%08X\n", i, (unsigned int)JaguarGetHandler(i));
+ uint32 address = (uint32)JaguarGetHandler(i);
+
+ if (address == 0)
+ WriteLog(".........\n");
+ else
+ WriteLog("$%08X\n", address);
+ }
}
//
{
#ifdef LOG_UNMAPPED_MEMORY_ACCESSES
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));
- extern bool finished;
+#endif
+#ifdef ABORT_ON_UNMAPPED_MEMORY_ACCESS
+// extern bool finished;
finished = true;
- extern bool doDSPDis;
+// extern bool doDSPDis;
if (who == DSP)
doDSPDis = true;
#endif
{
#ifdef LOG_UNMAPPED_MEMORY_ACCESSES
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));
- extern bool finished;
+#endif
+#ifdef ABORT_ON_UNMAPPED_MEMORY_ACCESS
+// extern bool finished;
finished = true;
- extern bool doDSPDis;
+// extern bool doDSPDis;
if (who == DSP)
doDSPDis = true;
#endif
{
#ifdef LOG_UNMAPPED_MEMORY_ACCESSES
WriteLog("Jaguar: Unknown byte read at %08X by %s (M68K PC=%06X)\n", address, whoName[who], m68k_get_reg(NULL, M68K_REG_PC));
- extern bool finished;
+#endif
+#ifdef ABORT_ON_UNMAPPED_MEMORY_ACCESS
+// extern bool finished;
finished = true;
- extern bool doDSPDis;
+// extern bool doDSPDis;
if (who == DSP)
doDSPDis = true;
#endif
{
#ifdef LOG_UNMAPPED_MEMORY_ACCESSES
WriteLog("Jaguar: Unknown word read at %08X by %s (M68K PC=%06X)\n", address, whoName[who], m68k_get_reg(NULL, M68K_REG_PC));
- extern bool finished;
+#endif
+#ifdef ABORT_ON_UNMAPPED_MEMORY_ACCESS
+// extern bool finished;
finished = true;
- extern bool doDSPDis;
+// extern bool doDSPDis;
if (who == DSP)
doDSPDis = true;
#endif
return m68k_read_memory_32(address);
}
-void jaguar_dasm(uint32 offset, uint32 qt)
+void JaguarDasm(uint32 offset, uint32 qt)
{
#ifdef CPU_DEBUG
static char buffer[2048];//, mem[64];
offset &= 0xFFFFFF;
if (offset < 0x400000)
- data = jaguar_mainRam[offset & 0x3FFFFF];
+ data = jaguarMainRAM[offset & 0x3FFFFF];
else if ((offset >= 0x800000) && (offset < 0xC00000))
- data = jaguar_mainRom[offset - 0x800000];
+ data = jaguarMainROM[offset - 0x800000];
else if ((offset >= 0xDFFF00) && (offset <= 0xDFFFFF))
data = CDROMReadByte(offset, who);
else if ((offset >= 0xE00000) && (offset < 0xE40000))
- data = jaguar_bootRom[offset & 0x3FFFF];
+// data = jaguarBootROM[offset & 0x3FFFF];
+// data = jaguarDevBootROM1[offset & 0x3FFFF];
+ data = jagMemSpace[offset];
else if ((offset >= 0xF00000) && (offset < 0xF10000))
data = TOMReadByte(offset, who);
else if ((offset >= 0xF10000) && (offset < 0xF20000))
offset &= 0xFFFFFF;
if (offset <= 0x3FFFFE)
{
- return (jaguar_mainRam[(offset+0) & 0x3FFFFF] << 8) | jaguar_mainRam[(offset+1) & 0x3FFFFF];
+ return (jaguarMainRAM[(offset+0) & 0x3FFFFF] << 8) | jaguarMainRAM[(offset+1) & 0x3FFFFF];
}
else if ((offset >= 0x800000) && (offset <= 0xBFFFFE))
{
offset -= 0x800000;
- return (jaguar_mainRom[offset+0] << 8) | jaguar_mainRom[offset+1];
+ return (jaguarMainROM[offset+0] << 8) | jaguarMainROM[offset+1];
}
// else if ((offset >= 0xDFFF00) && (offset < 0xDFFF00))
else if ((offset >= 0xDFFF00) && (offset <= 0xDFFFFE))
return CDROMReadWord(offset, who);
else if ((offset >= 0xE00000) && (offset <= 0xE3FFFE))
- return (jaguar_bootRom[(offset+0) & 0x3FFFF] << 8) | jaguar_bootRom[(offset+1) & 0x3FFFF];
+// return (jaguarBootROM[(offset+0) & 0x3FFFF] << 8) | jaguarBootROM[(offset+1) & 0x3FFFF];
+// return (jaguarDevBootROM1[(offset+0) & 0x3FFFF] << 8) | jaguarDevBootROM1[(offset+1) & 0x3FFFF];
+ return (jagMemSpace[offset + 0] << 8) | jagMemSpace[offset + 1];
else if ((offset >= 0xF00000) && (offset <= 0xF0FFFE))
return TOMReadWord(offset, who);
else if ((offset >= 0xF10000) && (offset <= 0xF1FFFE))
void JaguarWriteByte(uint32 offset, uint8 data, uint32 who/*=UNKNOWN*/)
{
+/* if (offset >= 0x4E00 && offset < 0x4E04)
+ WriteLog("JWB: Byte %02X written at %08X by %s\n", data, offset, whoName[who]);//*/
+//Need to check for writes in the range of $18FA70 + 8000...
+/*if (effect_start)
+ if (offset >= 0x18FA70 && offset < (0x18FA70 + 8000))
+ WriteLog("JWB: Byte %02X written at %08X by %s\n", data, offset, whoName[who]);//*/
+
offset &= 0xFFFFFF;
if (offset < 0x400000)
{
- jaguar_mainRam[offset & 0x3FFFFF] = data;
+ jaguarMainRAM[offset & 0x3FFFFF] = data;
return;
}
else if ((offset >= 0xDFFF00) && (offset <= 0xDFFFFF))
JERRYWriteByte(offset, data, who);
return;
}
-
+
jaguar_unknown_writebyte(offset, data, who);
}
+uint32 starCount;
void JaguarWriteWord(uint32 offset, uint16 data, uint32 who/*=UNKNOWN*/)
{
+/* if (offset >= 0x4E00 && offset < 0x4E04)
+ WriteLog("JWW: Word %04X written at %08X by %s\n", data, offset, whoName[who]);//*/
+/*if (offset == 0x0100)//64*4)
+ WriteLog("M68K: %s wrote word to VI vector value %04X...\n", whoName[who], data);
+if (offset == 0x0102)//64*4)
+ WriteLog("M68K: %s wrote word to VI vector+2 value %04X...\n", whoName[who], data);//*/
//TEMP--Mirror of F03000? Yes, but only 32-bit CPUs can do it (i.e., NOT the 68K!)
// PLUS, you would handle this in the GPU/DSP WriteLong code! Not here!
+//Need to check for writes in the range of $18FA70 + 8000...
+/*if (effect_start)
+ if (offset >= 0x18FA70 && offset < (0x18FA70 + 8000))
+ WriteLog("JWW: Word %04X written at %08X by %s\n", data, offset, whoName[who]);//*/
+/*if (offset >= 0x2C00 && offset <= 0x2CFF)
+ WriteLog("Jaguar: Word %04X written to TOC+%02X by %s\n", data, offset-0x2C00, whoName[who]);//*/
+
offset &= 0xFFFFFF;
if (offset <= 0x3FFFFE)
{
+/*
+GPU Table (CD BIOS)
+
+1A 69 F0 ($0000) -> Starfield
+1A 73 C8 ($0001) -> Final clearing blit & bitmap blit?
+1A 79 F0 ($0002)
+1A 88 C0 ($0003)
+1A 8F E8 ($0004) -> "Jaguar" small color logo?
+1A 95 20 ($0005)
+1A 9F 08 ($0006)
+1A A1 38 ($0007)
+1A AB 38 ($0008)
+1A B3 C8 ($0009)
+1A B9 C0 ($000A)
+*/
+
//This MUST be done by the 68K!
/*if (offset == 0x670C)
WriteLog("Jaguar: %s writing to location $670C...\n", whoName[who]);*/
- jaguar_mainRam[(offset+0) & 0x3FFFFF] = (data>>8) & 0xFF;
- jaguar_mainRam[(offset+1) & 0x3FFFFF] = data & 0xFF;
+/*extern bool doGPUDis;
+//if ((offset == 0x100000 + 75522) && who == GPU) // 76,226 -> 75522
+if ((offset == 0x100000 + 128470) && who == GPU) // 107,167 -> 128470 (384 x 250 screen size 16BPP)
+//if ((offset >= 0x100000 && offset <= 0x12C087) && who == GPU)
+ doGPUDis = true;//*/
+/*if (offset == 0x100000 + 128470) // 107,167 -> 128470 (384 x 250 screen size 16BPP)
+ WriteLog("JWW: Writing value %04X at %08X by %s...\n", data, offset, whoName[who]);
+if ((data & 0xFF00) != 0x7700)
+ WriteLog("JWW: Writing value %04X at %08X by %s...\n", data, offset, whoName[who]);//*/
+/*if ((offset >= 0x100000 && offset <= 0x147FFF) && who == GPU)
+ return;//*/
+/*if ((data & 0xFF00) != 0x7700 && who == GPU)
+ WriteLog("JWW: Writing value %04X at %08X by %s...\n", data, offset, whoName[who]);//*/
+/*if ((offset >= 0x100000 + 0x48000 && offset <= 0x12C087 + 0x48000) && who == GPU)
+ return;//*/
+/*extern bool doGPUDis;
+if (offset == 0x120216 && who == GPU)
+ doGPUDis = true;//*/
+/*extern uint32 gpu_pc;
+if (who == GPU && (gpu_pc == 0xF03604 || gpu_pc == 0xF03638))
+{
+ uint32 base = offset - (offset > 0x148000 ? 0x148000 : 0x100000);
+ uint32 y = base / 0x300;
+ uint32 x = (base - (y * 0x300)) / 2;
+ WriteLog("JWW: Writing starfield star %04X at %08X (%u/%u) [%s]\n", data, offset, x, y, (gpu_pc == 0xF03604 ? "s" : "L"));
+}//*/
+/*
+JWW: Writing starfield star 775E at 0011F650 (555984/1447)
+*/
+//if (offset == (0x001E17F8 + 0x34))
+/*if (who == GPU && offset == (0x001E17F8 + 0x34))
+ data = 0xFE3C;//*/
+// WriteLog("JWW: Write at %08X written to by %s.\n", 0x001E17F8 + 0x34, whoName[who]);//*/
+/*extern uint32 gpu_pc;
+if (who == GPU && (gpu_pc == 0xF03604 || gpu_pc == 0xF03638))
+{
+ extern int objectPtr;
+// if (offset > 0x148000)
+// return;
+ starCount++;
+ if (starCount > objectPtr)
+ return;
+
+// if (starCount == 1)
+// WriteLog("--> Drawing 1st star...\n");
+//
+// uint32 base = offset - (offset > 0x148000 ? 0x148000 : 0x100000);
+// uint32 y = base / 0x300;
+// uint32 x = (base - (y * 0x300)) / 2;
+// WriteLog("JWW: Writing starfield star %04X at %08X (%u/%u) [%s]\n", data, offset, x, y, (gpu_pc == 0xF03604 ? "s" : "L"));
+
+//A star of interest...
+//-->JWW: Writing starfield star 77C9 at 0011D31A (269/155) [s]
+//1st trail +3(x), -1(y) -> 272, 154 -> 0011D020
+//JWW: Blitter writing echo 77B3 at 0011D022...
+}//*/
+//extern bool doGPUDis;
+/*if (offset == 0x11D022 + 0x48000 || offset == 0x11D022)// && who == GPU)
+{
+// doGPUDis = true;
+ WriteLog("JWW: %s writing echo %04X at %08X...\n", whoName[who], data, offset);
+// LogBlit();
+}
+if (offset == 0x11D31A + 0x48000 || offset == 0x11D31A)
+ WriteLog("JWW: %s writing star %04X at %08X...\n", whoName[who], data, offset);//*/
+
+ jaguarMainRAM[(offset+0) & 0x3FFFFF] = data >> 8;
+ jaguarMainRAM[(offset+1) & 0x3FFFFF] = data & 0xFF;
return;
}
else if (offset >= 0xDFFF00 && offset <= 0xDFFFFE)
// We really should re-do this so that it does *real* 32-bit access... !!! FIX !!!
void JaguarWriteLong(uint32 offset, uint32 data, uint32 who/*=UNKNOWN*/)
{
+/* extern bool doDSPDis;
+ if (offset < 0x400 && !doDSPDis)
+ {
+ WriteLog("JLW: Write to %08X by %s... Starting DSP log!\n\n", offset, whoName[who]);
+ doDSPDis = true;
+ }//*/
+/*if (offset == 0x0100)//64*4)
+ WriteLog("M68K: %s wrote dword to VI vector value %08X...\n", whoName[who], data);//*/
+
JaguarWriteWord(offset, data >> 16, who);
JaguarWriteWord(offset+2, data & 0xFFFF, who);
}
+void JaguarSetScreenBuffer(uint32 * buffer)
+{
+ // This is in TOM, but we set it here...
+ screenBuffer = buffer;
+}
+
+void JaguarSetScreenPitch(uint32 pitch)
+{
+ // This is in TOM, but we set it here...
+ screenPitch = pitch;
+}
+
//
// Jaguar console initialization
//
-void jaguar_init(void)
+void JaguarInit(void)
{
#ifdef CPU_DEBUG_MEMORY
memset(readMem, 0x00, 0x400000);
memset(writeMemMin, 0xFF, 0x400000);
memset(writeMemMax, 0x00, 0x400000);
#endif
- memory_malloc_secure((void **)&jaguar_mainRam, 0x400000, "Jaguar 68K CPU RAM");
- memory_malloc_secure((void **)&jaguar_bootRom, 0x040000, "Jaguar 68K CPU BIOS ROM");
- memory_malloc_secure((void **)&jaguar_mainRom, 0x600000, "Jaguar 68K CPU ROM");
- memset(jaguar_mainRam, 0x00, 0x400000);
+ memset(jaguarMainRAM, 0x00, 0x400000);
// memset(jaguar_mainRom, 0xFF, 0x200000); // & set it to all Fs...
// memset(jaguar_mainRom, 0x00, 0x200000); // & set it to all 0s...
//NOTE: This *doesn't* fix FlipOut...
- memset(jaguar_mainRom, 0x01, 0x600000); // & set it to all 01s...
-
-// cd_bios_boot("C:\\ftp\\jaguar\\cd\\Brain Dead 13.cdi");
-// cd_bios_boot("C:\\ftp\\jaguar\\cd\\baldies.cdi");
-// cd_bios_boot("C:\\ftp\\jaguar\\cd\\mystdemo.cdi");
-// cd_bios_boot("C:\\ftp\\jaguar\\cd\\battlemorph.cdi");
-// cd_bios_boot("C:\\ftp\\jaguar\\cd\\primalrage.cdi");
-// cd_bios_boot("C:\\ftp\\jaguar\\cd\\Dragons Lair.cdi");
+//Or does it? Hmm...
+//Seems to want $01010101... Dunno why. Investigate!
+ memset(jaguarMainROM, 0x01, 0x600000); // & set it to all 01s...
+// memset(jaguar_mainRom, 0xFF, 0x600000); // & set it to all Fs...
+ lowerField = false; // Reset the lower field flag
m68k_set_cpu_type(M68K_CPU_TYPE_68000);
- gpu_init();
+ m68k_pulse_reset(); // Need to do this so UAE disasm doesn't segfault on exit
+ GPUInit();
DSPInit();
- tom_init();
- jerry_init();
- cdrom_init();
+ TOMInit();
+ JERRYInit();
+ CDROMInit();
}
-void jaguar_done(void)
+//New timer based code stuffola...
+void HalflineCallback(void);
+void RenderCallback(void);
+void JaguarReset(void)
{
-#ifdef CPU_DEBUG_MEMORY
-/* WriteLog("\n\nM68000 disassembly at $8D0D44 (collision routine!)...\n");
- jaguar_dasm(0x8D0D44, 5000);
- WriteLog("\n");//*/
-/* WriteLog("\n\nM68000 disassembly at $806300 (look @ $806410)...\n");
- jaguar_dasm(0x806300, 5000);
- WriteLog("\n");//*/
+//Need to change this so it uses the single RAM space and load the BIOS
+//into it somewhere...
+//Also, have to change this here and in JaguarReadXX() currently
+ // Only use the system BIOS if it's available...! (it's always available now!)
+ // AND only if a jaguar cartridge has been inserted.
+ if (vjs.useJaguarBIOS && jaguarCartInserted && !vjs.hardwareTypeAlpine)
+ memcpy(jaguarMainRAM, jagMemSpace + 0xE00000, 8);
+ else
+ SET32(jaguarMainRAM, 4, jaguarRunAddress);
+
+// WriteLog("jaguar_reset():\n");
+ TOMReset();
+ JERRYReset();
+ GPUReset();
+ DSPReset();
+ CDROMReset();
+ m68k_pulse_reset(); // Reset the 68000
+ WriteLog("Jaguar: 68K reset. PC=%06X SP=%08X\n", m68k_get_reg(NULL, M68K_REG_PC), m68k_get_reg(NULL, M68K_REG_A7));
+
+ lowerField = false; // Reset the lower field flag
+ // New timer base code stuffola...
+ InitializeEventList();
+// SetCallbackTime(ScanlineCallback, 63.5555);
+// SetCallbackTime(ScanlineCallback, 31.77775);
+ SetCallbackTime(HalflineCallback, (vjs.hardwareTypeNTSC ? 31.777777777 : 32.0));
+}
+void JaguarDone(void)
+{
+#ifdef CPU_DEBUG_MEMORY
/* WriteLog("\nJaguar: Memory Usage Stats (return addresses)\n\n");
for(uint32 i=0; i<=raPtr; i++)
/* WriteLog("\n\nM68000 disassembly at $90006C...\n");
jaguar_dasm(0x90006C, 500);
WriteLog("\n");//*/
+/* WriteLog("\n\nM68000 disassembly at $1AC000...\n");
+ jaguar_dasm(0x1AC000, 6000);
+ WriteLog("\n");//*/
// WriteLog("Jaguar: CD BIOS version %04X\n", JaguarReadWord(0x3004));
- WriteLog("Jaguar: Interrupt enable = %02X\n", TOMReadByte(0xF000E1) & 0x1F);
- WriteLog("Jaguar: VBL interrupt is %s\n", ((tom_irq_enabled(IRQ_VBLANK)) && (jaguar_interrupt_handler_is_valid(64))) ? "enabled" : "disabled");
+ WriteLog("Jaguar: Interrupt enable = $%02X\n", TOMReadByte(0xF000E1, JAGUAR) & 0x1F);
+ WriteLog("Jaguar: Video interrupt is %s (line=%u)\n", ((TOMIRQEnabled(IRQ_VIDEO))
+ && (JaguarInterruptHandlerIsValid(64))) ? "enabled" : "disabled", TOMReadWord(0xF0004E, JAGUAR));
M68K_show_context();
//#endif
- cd_bios_done();
- cdrom_done();
- gpu_done();
- DSPDone();
- tom_done();
- jerry_done();
-
- memory_free(jaguar_mainRom);
- memory_free(jaguar_bootRom);
- memory_free(jaguar_mainRam);
-}
-
-void jaguar_reset(void)
-{
- if (vjs.useJaguarBIOS)
- memcpy(jaguar_mainRam, jaguar_bootRom, 8);
- else
- {
- SET32(jaguar_mainRam, 4, 0x00802000);
- // Handle PD stuff...
- // This should definitely go elsewhere (like in the cart load section)!
- if (jaguar_mainRom[0] == 0x60 && jaguar_mainRom[1] == 0x1A)
- {
- uint32 runAddress = GET32(jaguar_mainRom, 0x2A);
- uint32 progLength = GET32(jaguar_mainRom, 0x02);
- WriteLog("Setting up PD ROM... Run address: %08X, length: %08X\n", runAddress, progLength);
- memcpy(jaguar_mainRam + runAddress, jaguar_mainRom + 0x2E, progLength);
- SET32(jaguar_mainRam, 4, runAddress);
- }
- }
+#if 0 // This is drawn already...
+ WriteLog("Jaguar: 68K AutoVector table:\n", JaguarReadWord(0x3004));
+ for(uint32 i=0x64; i<=0x7C; i+=4)
+ WriteLog(" #%u: %08X\n", (i-0x64)/4, JaguarReadLong(i));
+#endif
-// WriteLog("jaguar_reset():\n");
-//#ifdef SOUND_OUTPUT
-// ws_audio_reset();
-//#endif
- cd_bios_reset();
- tom_reset();
- jerry_reset();
- gpu_reset();
- DSPReset();
- cdrom_reset();
- m68k_pulse_reset(); // Reset the 68000
- WriteLog("\t68K PC=%06X SP=%08X\n", m68k_get_reg(NULL, M68K_REG_PC), m68k_get_reg(NULL, M68K_REG_A7));
+ CDROMDone();
+ GPUDone();
+ DSPDone();
+ TOMDone();
+ JERRYDone();
+
+ // temp, until debugger is in place
+//00802016: jsr $836F1A.l
+//0080201C: jsr $836B30.l
+//00802022: jsr $836B18.l
+//00802028: jsr $8135F0.l
+//00813C1E: jsr $813F76.l
+//00802038: jsr $836D00.l
+//00802098: jsr $8373A4.l
+//008020A2: jsr $83E24A.l
+//008020BA: jsr $83E156.l
+//008020C6: jsr $83E19C.l
+//008020E6: jsr $8445E8.l
+//008020EC: jsr $838C20.l
+//0080211A: jsr $838ED6.l
+//00802124: jsr $89CA56.l
+//0080212A: jsr $802B48.l
+#if 0
+ WriteLog("-------------------------------------------\n");
+ JaguarDasm(0x8445E8, 0x200);
+ WriteLog("-------------------------------------------\n");
+ JaguarDasm(0x838C20, 0x200);
+ WriteLog("-------------------------------------------\n");
+ JaguarDasm(0x838ED6, 0x200);
+ WriteLog("-------------------------------------------\n");
+ JaguarDasm(0x89CA56, 0x200);
+ WriteLog("-------------------------------------------\n");
+ JaguarDasm(0x802B48, 0x200);
+ WriteLog("\n\nM68000 disassembly at $802000...\n");
+ JaguarDasm(0x802000, 6000);
+ WriteLog("\n");//*/
+#endif
+/* WriteLog("\n\nM68000 disassembly at $4000...\n");
+ JaguarDasm(0x4000, 10000);
+ WriteLog("\n");//*/
+// WriteLog("\n\nM68000 disassembly at $802000...\n");
+// JaguarDasm(0x800830, 0x1000);
}
//
// Main Jaguar execution loop (1 frame)
//
-void JaguarExecute(int16 * backbuffer, bool render)
+void JaguarExecute(uint32 * backbuffer, bool render)
{
- uint16 vp = TOMReadWord(0xF0003E) + 1;//Hmm. This is a WO register. Will work? Looks like. But wrong behavior!
- uint16 vi = TOMReadWord(0xF0004E);//Another WO register...
-// uint16 vdb = TOMReadWord(0xF00046);
+ uint16 vp = TOMReadWord(0xF0003E, JAGUAR) + 1;
+ uint16 vi = TOMReadWord(0xF0004E, JAGUAR);
+//Using WO registers is OK, since we're the ones controlling access--there's nothing wrong here! ;-)
+//Though we shouldn't be able to do it using TOMReadWord... !!! FIX !!!
+
+// uint16 vdb = TOMReadWord(0xF00046, JAGUAR);
//Note: This is the *definite* end of the display, though VDE *might* be less than this...
-// uint16 vbb = TOMReadWord(0xF00040);
+// uint16 vbb = TOMReadWord(0xF00040, JAGUAR);
//It seems that they mean it when they say that VDE is the end of object processing.
//However, we need to be able to tell the OP (or TOM) that we've reached the end of the
//buffer and not to write any more pixels... !!! FIX !!!
-// uint16 vde = TOMReadWord(0xF00048);
+// uint16 vde = TOMReadWord(0xF00048, JAGUAR);
uint16 refreshRate = (vjs.hardwareTypeNTSC ? 60 : 50);
+ uint32 m68kClockRate = (vjs.hardwareTypeNTSC ? M68K_CLOCK_RATE_NTSC : M68K_CLOCK_RATE_PAL);
+//Not sure the above is correct, since the number of lines and timings given in the JTRM
+//seem to indicate the refresh rate is *half* the above...
+// uint16 refreshRate = (vjs.hardwareTypeNTSC ? 30 : 25);
// Should these be hardwired or read from VP? Yes, from VP!
- uint32 M68KCyclesPerScanline
- = (vjs.hardwareTypeNTSC ? M68K_CLOCK_RATE_NTSC : M68K_CLOCK_RATE_PAL) / (vp * refreshRate);
- uint32 RISCCyclesPerScanline
- = (vjs.hardwareTypeNTSC ? RISC_CLOCK_RATE_NTSC : RISC_CLOCK_RATE_PAL) / (vp * refreshRate);
+ // Err, actually, they should be hardwired, and hardwired to a set # of
+ // lines as well...
+ uint32 M68KCyclesPerScanline = m68kClockRate / (vp * refreshRate);
+ uint32 RISCCyclesPerScanline = m68kClockRate / (vp * refreshRate);
- TOMResetBackbuffer(backbuffer);
/*extern int effect_start;
if (effect_start)
-{
- WriteLog("JagExe: VP=%u, VI=%u, VDB=%u, VBB=%u CPU CPS=%u, GPU CPS=%u\n", vp, vi, vdb, vbb, M68KCyclesPerScanline, RISCCyclesPerScanline);
-}//*/
+ WriteLog("JagExe: VP=%u, VI=%u, CPU CPS=%u, GPU CPS=%u\n", vp, vi, M68KCyclesPerScanline, RISCCyclesPerScanline);//*/
+//extern int start_logging;
for(uint16 i=0; i<vp; i++)
{
- // Increment the horizontal count (why? RNG?)
- TOMWriteWord(0xF00004, (TOMReadWord(0xF00004) + 1) & 0x7FF);
-
- TOMWriteWord(0xF00006, i); // Write the VC
-
- if (i == vi) // Time for Vertical Interrupt?
+ // Increment the horizontal count (why? RNG? Besides which, this is *NOT* cycle accurate!)
+ TOMWriteWord(0xF00004, (TOMReadWord(0xF00004, JAGUAR) + 1) & 0x7FF, JAGUAR);
+ TOMWriteWord(0xF00006, i, JAGUAR); // Write the VC
+
+//Not sure if this is correct...
+//Seems to be, kinda. According to the JTRM, this should only fire on odd lines in non-interlace mode...
+//Which means that it normally wouldn't go when it's zero.
+ if (i == vi && i > 0 && TOMIRQEnabled(IRQ_VIDEO)) // Time for Vertical Interrupt?
{
- if (tom_irq_enabled(IRQ_VBLANK))// && jaguar_interrupt_handler_is_valid(64))
- {
- // We don't have to worry about autovectors & whatnot because the Jaguar
- // tells you through its HW registers who sent the interrupt...
- tom_set_pending_video_int();
- m68k_set_irq(7);
- }
+ // We don't have to worry about autovectors & whatnot because the Jaguar
+ // tells you through its HW registers who sent the interrupt...
+ TOMSetPendingVideoInt();
+ m68k_set_irq(2);
}
-
-// uint32 invalid_instruction_address = s68000exec(M68KCyclesPerScanline);
-// if (invalid_instruction_address != 0x80000000)
-// cd_bios_process(invalid_instruction_address);
+
+//if (start_logging)
+// WriteLog("About to execute M68K (%u)...\n", i);
m68k_execute(M68KCyclesPerScanline);
- // No CD handling... !!! FIX !!!
- cd_bios_exec(i); // NOTE: Ignores parameter...
+//if (start_logging)
+// WriteLog("About to execute TOM's PIT (%u)...\n", i);
TOMExecPIT(RISCCyclesPerScanline);
- jerry_pit_exec(RISCCyclesPerScanline);
- jerry_i2s_exec(RISCCyclesPerScanline);
- gpu_exec(RISCCyclesPerScanline);
+//if (start_logging)
+// WriteLog("About to execute JERRY's PIT (%u)...\n", i);
+ JERRYExecPIT(RISCCyclesPerScanline);
+//if (start_logging)
+// WriteLog("About to execute JERRY's SSI (%u)...\n", i);
+ JERRYI2SExec(RISCCyclesPerScanline);
+ BUTCHExec(RISCCyclesPerScanline);
+//if (start_logging)
+// WriteLog("About to execute GPU (%u)...\n", i);
+ if (vjs.GPUEnabled)
+ GPUExec(RISCCyclesPerScanline);
if (vjs.DSPEnabled)
-// DSPExec(RISCCyclesPerScanline);
-// Do pipelined DSP execution...
- DSPExecP3(RISCCyclesPerScanline);
+ {
+ if (vjs.usePipelinedDSP)
+ DSPExecP2(RISCCyclesPerScanline); // Pipelined DSP execution (3 stage)...
+ else
+ DSPExec(RISCCyclesPerScanline); // Ordinary non-pipelined DSP
+// DSPExecComp(RISCCyclesPerScanline); // Comparison core
+ }
- TOMExecScanline(i, render);
+//if (start_logging)
+// WriteLog("About to execute OP (%u)...\n", i);
+ TOMExecHalfline(i, render);
}
}
if (fp == NULL)
return;
- fwrite(jaguar_mainRam, 1, 0x400000, fp);
+ fwrite(jaguarMainRAM, 1, 0x400000, fp);
fclose(fp);
}
uint8 * GetRamPtr(void)
{
- return jaguar_mainRam;
+ return jaguarMainRAM;
+}
+
+//
+// New Jaguar execution stack
+// This executes 1 frame's worth of code.
+//
+bool frameDone;
+void JaguarExecuteNew(void)
+{
+ frameDone = false;
+
+ do
+ {
+ double timeToNextEvent = GetTimeToNextEvent();
+//WriteLog("JEN: Time to next event (%u) is %f usec (%u RISC cycles)...\n", nextEvent, timeToNextEvent, USEC_TO_RISC_CYCLES(timeToNextEvent));
+
+ m68k_execute(USEC_TO_M68K_CYCLES(timeToNextEvent));
+
+ if (vjs.GPUEnabled)
+ GPUExec(USEC_TO_RISC_CYCLES(timeToNextEvent));
+
+ if (vjs.DSPEnabled)
+ {
+ if (vjs.usePipelinedDSP)
+ DSPExecP2(USEC_TO_RISC_CYCLES(timeToNextEvent)); // Pipelined DSP execution (3 stage)...
+ else
+ DSPExec(USEC_TO_RISC_CYCLES(timeToNextEvent)); // Ordinary non-pipelined DSP
+ }
+
+ HandleNextEvent();
+ }
+ while (!frameDone);
+}
+
+#define USE_CORRECT_PAL_TIMINGS
+// A lot of confusion comes from here...
+// The thing to keep in mind is that the VC is advanced every HALF line, regardless
+// of whether the display is interlaced or not. The only difference with an
+// interlaced display is that the high bit of VC will be set when the lower
+// field is being rendered. (NB: The high bit of VC is ALWAYS set on the lower field,
+// regardless of whether it's in interlace mode or not.
+// NB2: Seems it doens't always, not sure what the constraint is...)
+//
+// Normally, TVs will render a full frame in 1/30s (NTSC) or 1/25s (PAL) by
+// rendering two fields that are slighty vertically offset from each other.
+// Each field is created in 1/60s (NTSC) or 1/50s (PAL), and every other line
+// is rendered in this mode so that each field, when overlaid on each other,
+// will yield the final picture at the full resolution for the full frame.
+//
+// We execute a half frame in each timeslice (1/60s NTSC, 1/50s PAL).
+// Since the number of lines in a FULL frame is 525 for NTSC, 625 for PAL,
+// it will be half this number for a half frame. BUT, since we're counting
+// HALF lines, we double this number and we're back at 525 for NTSC, 625 for PAL.
+//
+// Scanline times are 63.5555... µs in NTSC and 64 µs in PAL
+// Half line times are, naturally, half of this. :-P
+void HalflineCallback(void)
+{
+//OK, this is hardwired to run in NTSC, and for who knows how long.
+//Need to fix this so that it does a half-line in the correct amount of time
+//and number of lines, depending on which mode we're in. [FIXED]
+ uint16 vc = TOMReadWord(0xF00006, JAGUAR);
+ uint16 vp = TOMReadWord(0xF0003E, JAGUAR) + 1;
+ uint16 vi = TOMReadWord(0xF0004E, JAGUAR);
+// uint16 vbb = TOMReadWord(0xF00040, JAGUAR);
+ vc++;
+
+#ifdef USE_CORRECT_PAL_TIMINGS
+ // Each # of lines is for a full frame == 1/30s (NTSC), 1/25s (PAL).
+ // So we cut the number of half-lines in a frame in half. :-P
+ uint16 numHalfLines = ((vjs.hardwareTypeNTSC ? 525 : 625) * 2) / 2;
+
+ if ((vc & 0x7FF) >= numHalfLines)
+#else
+ if ((vc & 0x7FF) >= vp)
+#endif
+ {
+ vc = 0;
+// lowerField = !lowerField;
+
+ // If we're rendering the lower field, set the high bit (#12, counting
+ // from 1) of VC
+ if (lowerField)
+ vc = 0x0800;
+ }
+
+//WriteLog("SLC: Currently on line %u (VP=%u)...\n", vc, vp);
+ TOMWriteWord(0xF00006, vc, JAGUAR);
+
+//This is a crappy kludge, but maybe it'll work for now...
+//Maybe it's not so bad, since the IRQ happens on a scanline boundary...
+ if ((vc & 0x7FF) == vi && (vc & 0x7FF) > 0 && TOMIRQEnabled(IRQ_VIDEO)) // Time for Vertical Interrupt?
+ {
+ // We don't have to worry about autovectors & whatnot because the Jaguar
+ // tells you through its HW registers who sent the interrupt...
+ TOMSetPendingVideoInt();
+ m68k_set_irq(2);
+ }
+
+ TOMExecHalfline(vc, true);
+
+//Change this to VBB???
+//Doesn't seem to matter (at least for Flip Out & I-War)
+ if ((vc & 0x7FF) == 0)
+// if (vc == vbb)
+ {
+ JoystickExec();
+ frameDone = true;
+ }//*/
+
+#ifdef USE_CORRECT_PAL_TIMINGS
+ SetCallbackTime(HalflineCallback, (vjs.hardwareTypeNTSC ? 31.777777777 : 32.0));
+#else
+// SetCallbackTime(HalflineCallback, 63.5555);
+ SetCallbackTime(HalflineCallback, 31.77775);
+#endif
+}
+
+// This isn't currently used, but maybe it should be...
+/*
+Nah, the scanline based code is good enough, and runs in 1 frame. The GUI
+handles all the rest, so this isn't needed. :-P
+*/
+void RenderCallback(void)
+{
+// SetCallbackTime(RenderCallback, 33303.082); // # Scanlines * scanline time
+ SetCallbackTime(RenderCallback, 16651.541); // # Scanlines * scanline time
}