// This is part of Pico Library // (c) Copyright 2004 Dave, All rights reserved. // (c) Copyright 2006 notaz, All rights reserved. // Free for non-commercial use. // For commercial use, separate licencing terms must be obtained. #include "PicoInt.h" int SekCycleCnt=0; // cycles done in this frame int SekCycleAim=0; // cycle aim unsigned int SekCycleCntT=0; /* context */ // Cyclone 68000 #ifdef EMU_C68K struct Cyclone PicoCpuCM68k; #endif // MUSASHI 68000 #ifdef EMU_M68K m68ki_cpu_core PicoCpuMM68k; #endif // FAME 68000 #ifdef EMU_F68K M68K_CONTEXT PicoCpuFM68k; #endif /* callbacks */ #ifdef EMU_C68K // interrupt acknowledgment static int SekIntAck(int level) { // try to emulate VDP's reaction to 68000 int ack if (level == 4) { Pico.video.pending_ints = 0; elprintf(EL_INTS, "hack: @ %06x [%i]", SekPc, SekCycleCnt); } else if(level == 6) { Pico.video.pending_ints &= ~0x20; elprintf(EL_INTS, "vack: @ %06x [%i]", SekPc, SekCycleCnt); } PicoCpuCM68k.irq = 0; return CYCLONE_INT_ACK_AUTOVECTOR; } static void SekResetAck(void) { elprintf(EL_ANOMALY, "Reset encountered @ %06x", SekPc); } static int SekUnrecognizedOpcode() { unsigned int pc, op; pc = SekPc; op = PicoCpuCM68k.read16(pc); elprintf(EL_ANOMALY, "Unrecognized Opcode %04x @ %06x", op, pc); // see if we are not executing trash if (pc < 0x200 || (pc > Pico.romsize+4 && (pc&0xe00000)!=0xe00000)) { PicoCpuCM68k.cycles = 0; PicoCpuCM68k.state_flags |= 1; return 1; } #ifdef EMU_M68K // debugging cyclone { extern int have_illegal; have_illegal = 1; } #endif return 0; } #endif #ifdef EMU_M68K static int SekIntAckM68K(int level) { if (level == 4) { Pico.video.pending_ints = 0; elprintf(EL_INTS, "hack: @ %06x [%i]", SekPc, SekCycleCnt); } else if(level == 6) { Pico.video.pending_ints &= ~0x20; elprintf(EL_INTS, "vack: @ %06x [%i]", SekPc, SekCycleCnt); } CPU_INT_LEVEL = 0; return M68K_INT_ACK_AUTOVECTOR; } static int SekTasCallback(void) { return 0; // no writeback } #endif #ifdef EMU_F68K static void SekIntAckF68K(unsigned level) { if (level == 4) { Pico.video.pending_ints = 0; elprintf(EL_INTS, "hack: @ %06x [%i]", SekPc, SekCycleCnt); } else if(level == 6) { Pico.video.pending_ints &= ~0x20; elprintf(EL_INTS, "vack: @ %06x [%i]", SekPc, SekCycleCnt); } PicoCpuFM68k.interrupts[0] = 0; } #endif PICO_INTERNAL void SekInit(void) { #ifdef EMU_C68K CycloneInit(); memset(&PicoCpuCM68k,0,sizeof(PicoCpuCM68k)); PicoCpuCM68k.IrqCallback=SekIntAck; PicoCpuCM68k.ResetCallback=SekResetAck; PicoCpuCM68k.UnrecognizedCallback=SekUnrecognizedOpcode; PicoCpuCM68k.flags=4; // Z set #endif #ifdef EMU_M68K { void *oldcontext = m68ki_cpu_p; m68k_set_context(&PicoCpuMM68k); m68k_set_cpu_type(M68K_CPU_TYPE_68000); m68k_init(); m68k_set_int_ack_callback(SekIntAckM68K); m68k_set_tas_instr_callback(SekTasCallback); //m68k_pulse_reset(); m68k_set_context(oldcontext); } #endif #ifdef EMU_F68K { void *oldcontext = g_m68kcontext; g_m68kcontext = &PicoCpuFM68k; memset(&PicoCpuFM68k, 0, sizeof(PicoCpuFM68k)); fm68k_init(); PicoCpuFM68k.iack_handler = SekIntAckF68K; PicoCpuFM68k.sr = 0x2704; // Z flag g_m68kcontext = oldcontext; } #endif } // Reset the 68000: PICO_INTERNAL int SekReset(void) { if (Pico.rom==NULL) return 1; #ifdef EMU_C68K PicoCpuCM68k.state_flags=0; PicoCpuCM68k.osp=0; PicoCpuCM68k.srh =0x27; // Supervisor mode PicoCpuCM68k.irq=0; PicoCpuCM68k.a[7]=PicoCpuCM68k.read32(0); // Stack Pointer PicoCpuCM68k.membase=0; PicoCpuCM68k.pc=PicoCpuCM68k.checkpc(PicoCpuCM68k.read32(4)); // Program Counter #endif #ifdef EMU_M68K m68k_set_context(&PicoCpuMM68k); // if we ever reset m68k, we always need it's context to be set m68ki_cpu.sp[0]=0; m68k_set_irq(0); m68k_pulse_reset(); REG_USP = 0; // ? #endif #ifdef EMU_F68K { g_m68kcontext = &PicoCpuFM68k; fm68k_reset(); } #endif return 0; } PICO_INTERNAL void SekSetRealTAS(int use_real) { #ifdef EMU_C68K CycloneSetRealTAS(use_real); #endif #ifdef EMU_F68K // TODO #endif } /* idle loop detection, not to be used in CD mode */ #ifdef EMU_C68K #include "cpu/Cyclone/tools/idle.h" #endif static int *idledet_addrs = NULL; static int idledet_count = 0, idledet_bads = 0; int idledet_start_frame = 0; int jumptab[0x10000]; static unsigned char *rom_verify = NULL; void SekInitIdleDet(void) { void *tmp = realloc(idledet_addrs, 0x200*4); if (tmp == NULL) { free(idledet_addrs); idledet_addrs = NULL; } else idledet_addrs = tmp; idledet_count = idledet_bads = 0; idledet_start_frame = Pico.m.frame_count + 360; rom_verify = realloc(rom_verify, Pico.romsize); memcpy(rom_verify, Pico.rom, Pico.romsize); #ifdef EMU_C68K CycloneInitIdle(); #endif #ifdef EMU_F68K { extern void *get_jumptab(void); memcpy(jumptab, get_jumptab(), sizeof(jumptab)); } fm68k_emulate(0, 0, 1); #endif } int SekIsIdleCode(unsigned short *dst, int bytes) { printf("SekIsIdleCode %04x %i\n", *dst, bytes); switch (bytes) { case 4: if ( (*dst & 0xfff8) == 0x4a10 || // tst.b ($aX) // there should be no need to wait (*dst & 0xfff8) == 0x4a28 || // tst.b ($xxxx,a0) // for byte change anywhere (*dst & 0xff3f) == 0x4a38 || // tst.x ($xxxx.w); tas ($xxxx.w) (*dst & 0xc1ff) == 0x0038 || // move.x ($xxxx.w), dX (*dst & 0xf13f) == 0xb038) // cmp.x ($xxxx.w), dX return 1; break; case 6: if ( ((dst[1] & 0xe0) == 0xe0 && ( // RAM and *dst == 0x4a39 || // tst.b ($xxxxxxxx) *dst == 0x4a79 || // tst.w ($xxxxxxxx) *dst == 0x4ab9 || // tst.l ($xxxxxxxx) (*dst & 0xc1ff) == 0x0039 || // move.x ($xxxxxxxx), dX (*dst & 0xf13f) == 0xb039))||// cmp.x ($xxxxxxxx), dX *dst == 0x0838 || // btst $X, ($xxxx.w) [6 byte op] (*dst & 0xffbf) == 0x0c38) // cmpi.{b,w} $X, ($xxxx.w) return 1; break; case 8: if ( ((dst[2] & 0xe0) == 0xe0 && ( // RAM and *dst == 0x0839 || // btst $X, ($xxxxxxxx.w) [8 byte op] (*dst & 0xffbf) == 0x0c39))||// cmpi.{b,w} $X, ($xxxxxxxx) *dst == 0x0cb8) // cmpi.l $X, ($xxxx.w) return 1; break; case 12: if ((*dst & 0xf1f8) == 0x3010 && // move.w (aX), dX (dst[1]&0xf100) == 0x0000 && // arithmetic (dst[3]&0xf100) == 0x0000) // arithmetic return 1; break; } return 0; } int SekRegisterIdlePatch(unsigned int pc, int oldop, int newop) { #ifdef EMU_C68K pc -= PicoCpuCM68k.membase; #endif pc &= ~0xff000000; elprintf(EL_IDLE, "idle: patch %06x %04x %04x #%i", pc, oldop, newop, idledet_count); if (pc > Pico.romsize && !(PicoAHW & PAHW_SVP)) { if (++idledet_bads > 128) return 2; // remove detector return 1; // don't patch } if (idledet_count >= 0x200 && (idledet_count & 0x1ff) == 0) { void *tmp = realloc(idledet_addrs, (idledet_count+0x200)*4); if (tmp == NULL) return 1; idledet_addrs = tmp; } if (pc < Pico.romsize) idledet_addrs[idledet_count++] = pc; return 0; } void SekFinishIdleDet(void) { int done_something = idledet_count > 0; #ifdef EMU_C68K CycloneFinishIdle(); #endif #ifdef EMU_F68K fm68k_emulate(0, 0, 2); #endif while (idledet_count > 0) { unsigned short *op = (unsigned short *)&Pico.rom[idledet_addrs[--idledet_count]]; if ((*op & 0xfd00) == 0x7100) *op &= 0xff, *op |= 0x6600; else if ((*op & 0xfd00) == 0x7500) *op &= 0xff, *op |= 0x6700; else if ((*op & 0xfd00) == 0x7d00) *op &= 0xff, *op |= 0x6000; else elprintf(EL_STATUS|EL_IDLE, "idle: don't know how to restore %04x", *op); } if (done_something) { int i, *jt; extern void *get_jumptab(void); for (i = 0; i < Pico.romsize; i++) if (rom_verify[i] != Pico.rom[i]) printf("ROM corruption @ %06x!\n", i), exit(1); jt = get_jumptab(); for (i = 0; i < 0x10000; i++) if (jumptab[i] != jt[i]) { printf("jumptab broken @ %04x\n", i); exit(1); } } } #if defined(EMU_M68K) && M68K_INSTRUCTION_HOOK == OPT_SPECIFY_HANDLER static unsigned char op_flags[0x400000/2] = { 0, }; static int atexit_set = 0; static void make_idc(void) { FILE *f = fopen("idc.idc", "w"); int i; if (!f) return; fprintf(f, "#include \nstatic main() {\n"); for (i = 0; i < 0x400000/2; i++) if (op_flags[i] != 0) fprintf(f, " MakeCode(0x%06x);\n", i*2); fprintf(f, "}\n"); fclose(f); } void instruction_hook(void) { if (!atexit_set) { atexit(make_idc); atexit_set = 1; } if (REG_PC < 0x400000) op_flags[REG_PC/2] = 1; } #endif