//GiGaHeRz's SPU2 Driver //Copyright (c) 2003-2008, David Quintana // //This library is free software; you can redistribute it and/or //modify it under the terms of the GNU Lesser General Public //License as published by the Free Software Foundation; either //version 2.1 of the License, or (at your option) any later version. // //This library is distributed in the hope that it will be useful, //but WITHOUT ANY WARRANTY; without even the implied warranty of //MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU //Lesser General Public License for more details. // //You should have received a copy of the GNU Lesser General Public //License along with this library; if not, write to the Free Software //Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // #include "spu2.h" int crazy_debug=0; char s[4096]; FILE *spu2Log; void FileLog(const char *fmt, ...) { #ifdef SPU2_LOG int n; va_list list; if(!AccessLog()) return; if(!spu2Log) return; va_start(list, fmt); n=vsprintf(s,fmt, list); va_end(list); fputs(s,spu2Log); fflush(spu2Log); #if 0 if(crazy_debug) { fputs(s,stderr); fflush(stderr); } #endif #endif } void ConLog(const char *fmt, ...) { #ifdef SPU2_LOG int n; va_list list; if(!MsgToConsole()) return; va_start(list, fmt); n=vsprintf(s,fmt, list); va_end(list); fputs(s,stderr); fflush(stderr); if(spu2Log) { fputs(s,spu2Log); fflush(spu2Log); } #endif } void DoFullDump() { #ifdef SPU2_LOG FILE *dump; u8 c=0, v=0; if(MemDump()) { dump=fopen(MemDumpFileName,"wb"); if (dump) { fwrite(_spu2mem,0x200000,1,dump); fclose(dump); } } if(RegDump()) { dump=fopen(RegDumpFileName,"wb"); if (dump) { fwrite(spu2regs,0x2000,1,dump); fclose(dump); } } if(!CoresDump()) return; dump=fopen(CoresDumpFileName,"wt"); if (dump) { for(c=0;c<2;c++) { fprintf(dump,"#### CORE %d DUMP.\n",c); fprintf(dump,"Master Volume for Left Channel: %x\n" " - Value: %x\n" " - Mode: %x\n" " - Increment: %x\n", Cores[c].MasterL.Reg_VOL, Cores[c].MasterL.Value, Cores[c].MasterL.Mode, Cores[c].MasterL.Increment); fprintf(dump,"Master Volume for Right Channel: %x\n" " - Value: %x\n" " - Mode: %x\n" " - Increment: %x\n", Cores[c].MasterR.Reg_VOL, Cores[c].MasterR.Value, Cores[c].MasterR.Mode, Cores[c].MasterR.Increment); fprintf(dump,"Volume for External Data Input (Left Channel): %x\n",Cores[c].ExtL); fprintf(dump,"Volume for External Data Input (Right Channel): %x\n",Cores[c].ExtR); fprintf(dump,"Volume for Sound Data Input (Left Channel): %x\n",Cores[c].InpL); fprintf(dump,"Volume for Sound Data Input (Right Channel): %x\n",Cores[c].InpR); fprintf(dump,"Volume for Output from Effects (Left Channel): %x\n",Cores[c].FxL); fprintf(dump,"Volume for Output from Effects (Right Channel): %x\n",Cores[c].FxR); fprintf(dump,"Interrupt Address: %x\n",Cores[c].IRQA); fprintf(dump,"DMA Transfer Start Address: %x\n",Cores[c].TSA); fprintf(dump,"External Input to Direct Output (Left): %s\n",Cores[c].ExtDryL?"Yes":"No"); fprintf(dump,"External Input to Direct Output (Right): %s\n",Cores[c].ExtDryR?"Yes":"No"); fprintf(dump,"External Input to Effects (Left): %s\n",Cores[c].ExtWetL?"Yes":"No"); fprintf(dump,"External Input to Effects (Right): %s\n",Cores[c].ExtWetR?"Yes":"No"); fprintf(dump,"Sound Data Input to Direct Output (Left): %s\n",Cores[c].SndDryL?"Yes":"No"); fprintf(dump,"Sound Data Input to Direct Output (Right): %s\n",Cores[c].SndDryR?"Yes":"No"); fprintf(dump,"Sound Data Input to Effects (Left): %s\n",Cores[c].SndWetL?"Yes":"No"); fprintf(dump,"Sound Data Input to Effects (Right): %s\n",Cores[c].SndWetR?"Yes":"No"); fprintf(dump,"Voice Data Input to Direct Output (Left): %s\n",Cores[c].InpDryL?"Yes":"No"); fprintf(dump,"Voice Data Input to Direct Output (Right): %s\n",Cores[c].InpDryR?"Yes":"No"); fprintf(dump,"Voice Data Input to Effects (Left): %s\n",Cores[c].InpWetL?"Yes":"No"); fprintf(dump,"Voice Data Input to Effects (Right): %s\n",Cores[c].InpWetR?"Yes":"No"); fprintf(dump,"IRQ Enabled: %s\n",Cores[c].IRQEnable?"Yes":"No"); fprintf(dump,"Effects Enabled: %s\n",Cores[c].FxEnable?"Yes":"No"); fprintf(dump,"Mute Enabled: %s\n",Cores[c].Mute?"Yes":"No"); fprintf(dump,"Noise Clock: %d\n",Cores[c].NoiseClk); fprintf(dump,"DMA Bits: %d\n",Cores[c].DMABits); fprintf(dump,"Effects Start: %x\n",Cores[c].EffectsStartA); fprintf(dump,"Effects End: %x\n",Cores[c].EffectsEndA); fprintf(dump,"Registers:\n"); fprintf(dump," - PMON: %x\n",Cores[c].Regs.PMON); fprintf(dump," - NON: %x\n",Cores[c].Regs.NON); fprintf(dump," - VMIXL: %x\n",Cores[c].Regs.VMIXL); fprintf(dump," - VMIXR: %x\n",Cores[c].Regs.VMIXR); fprintf(dump," - VMIXEL: %x\n",Cores[c].Regs.VMIXEL); fprintf(dump," - VMIXER: %x\n",Cores[c].Regs.VMIXER); fprintf(dump," - MMIX: %x\n",Cores[c].Regs.VMIXEL); fprintf(dump," - ENDX: %x\n",Cores[c].Regs.VMIXER); fprintf(dump," - STATX: %x\n",Cores[c].Regs.VMIXEL); fprintf(dump," - ATTR: %x\n",Cores[c].Regs.VMIXER); for(v=0;v<24;v++) { fprintf(dump,"Voice %d:\n",v); fprintf(dump," - Volume for Left Channel: %x\n" " - Value: %x\n" " - Mode: %x\n" " - Increment: %x\n", Cores[c].Voices[v].VolumeL.Reg_VOL, Cores[c].Voices[v].VolumeL.Value, Cores[c].Voices[v].VolumeL.Mode, Cores[c].Voices[v].VolumeL.Increment); fprintf(dump," - Volume for Right Channel: %x\n" " - Value: %x\n" " - Mode: %x\n" " - Increment: %x\n", Cores[c].Voices[v].VolumeR.Reg_VOL, Cores[c].Voices[v].VolumeR.Value, Cores[c].Voices[v].VolumeR.Mode, Cores[c].Voices[v].VolumeR.Increment); fprintf(dump," - ADSR Envelope: %x & %x\n" " - Ar: %x\n" " - Am: %x\n" " - Dr: %x\n" " - Sl: %x\n" " - Sr: %x\n" " - Sm: %x\n" " - Rr: %x\n" " - Rm: %x\n" " - Phase: %x\n" " - Value: %x\n", Cores[c].Voices[v].ADSR.Reg_ADSR1, Cores[c].Voices[v].ADSR.Reg_ADSR2, Cores[c].Voices[v].ADSR.Ar, Cores[c].Voices[v].ADSR.Am, Cores[c].Voices[v].ADSR.Dr, Cores[c].Voices[v].ADSR.Sl, Cores[c].Voices[v].ADSR.Sr, Cores[c].Voices[v].ADSR.Sm, Cores[c].Voices[v].ADSR.Rr, Cores[c].Voices[v].ADSR.Rm, Cores[c].Voices[v].ADSR.Phase, Cores[c].Voices[v].ADSR.Value); fprintf(dump," - Pitch: %x\n",Cores[c].Voices[v].Pitch); fprintf(dump," - Modulated: %s\n",Cores[c].Voices[v].Modulated?"Yes":"No"); fprintf(dump," - Source: %s\n",Cores[c].Voices[v].Noise?"Noise":"Wave"); fprintf(dump," - Direct Output for Left Channel: %s\n",Cores[c].Voices[v].DryL?"Yes":"No"); fprintf(dump," - Direct Output for Right Channel: %s\n",Cores[c].Voices[v].DryR?"Yes":"No"); fprintf(dump," - Effects Output for Left Channel: %s\n",Cores[c].Voices[v].WetL?"Yes":"No"); fprintf(dump," - Effects Output for Right Channel: %s\n",Cores[c].Voices[v].WetR?"Yes":"No"); fprintf(dump," - Loop Start Adress: %x\n",Cores[c].Voices[v].LoopStartA); fprintf(dump," - Sound Start Adress: %x\n",Cores[c].Voices[v].StartA); fprintf(dump," - Next Data Adress: %x\n",Cores[c].Voices[v].NextA); fprintf(dump," - Play Start Cycle: %d\n",Cores[c].Voices[v].PlayCycle); fprintf(dump," - Play Status: %s\n",(Cores[c].Voices[v].ADSR.Phase>0)?"Playing":"Not Playing"); fprintf(dump," - Block Sample: %d\n",Cores[c].Voices[v].SCurrent); } fprintf(dump,"#### END OF DUMP.\n\n"); } } fclose(dump); dump=fopen("logs/effects.txt","wt"); if (dump) { for(c=0;c<2;c++) { fprintf(dump,"#### CORE %d EFFECTS PROCESSOR DUMP.\n",c); fprintf(dump," - IN_COEF_L: %x\n",Cores[c].Revb.IN_COEF_R); fprintf(dump," - IN_COEF_R: %x\n",Cores[c].Revb.IN_COEF_L); fprintf(dump," - FB_ALPHA: %x\n",Cores[c].Revb.FB_ALPHA); fprintf(dump," - FB_X: %x\n",Cores[c].Revb.FB_X); fprintf(dump," - FB_SRC_A: %x\n",Cores[c].Revb.FB_SRC_A); fprintf(dump," - FB_SRC_B: %x\n",Cores[c].Revb.FB_SRC_B); fprintf(dump," - IIR_ALPHA: %x\n",Cores[c].Revb.IIR_ALPHA); fprintf(dump," - IIR_COEF: %x\n",Cores[c].Revb.IIR_COEF); fprintf(dump," - IIR_SRC_A0: %x\n",Cores[c].Revb.IIR_SRC_A0); fprintf(dump," - IIR_SRC_A1: %x\n",Cores[c].Revb.IIR_SRC_A1); fprintf(dump," - IIR_SRC_B1: %x\n",Cores[c].Revb.IIR_SRC_B0); fprintf(dump," - IIR_SRC_B0: %x\n",Cores[c].Revb.IIR_SRC_B1); fprintf(dump," - IIR_DEST_A0: %x\n",Cores[c].Revb.IIR_DEST_A0); fprintf(dump," - IIR_DEST_A1: %x\n",Cores[c].Revb.IIR_DEST_A1); fprintf(dump," - IIR_DEST_B0: %x\n",Cores[c].Revb.IIR_DEST_B0); fprintf(dump," - IIR_DEST_B1: %x\n",Cores[c].Revb.IIR_DEST_B1); fprintf(dump," - ACC_COEF_A: %x\n",Cores[c].Revb.ACC_COEF_A); fprintf(dump," - ACC_COEF_B: %x\n",Cores[c].Revb.ACC_COEF_B); fprintf(dump," - ACC_COEF_C: %x\n",Cores[c].Revb.ACC_COEF_C); fprintf(dump," - ACC_COEF_D: %x\n",Cores[c].Revb.ACC_COEF_D); fprintf(dump," - ACC_SRC_A0: %x\n",Cores[c].Revb.ACC_SRC_A0); fprintf(dump," - ACC_SRC_A1: %x\n",Cores[c].Revb.ACC_SRC_A1); fprintf(dump," - ACC_SRC_B0: %x\n",Cores[c].Revb.ACC_SRC_B0); fprintf(dump," - ACC_SRC_B1: %x\n",Cores[c].Revb.ACC_SRC_B1); fprintf(dump," - ACC_SRC_C0: %x\n",Cores[c].Revb.ACC_SRC_C0); fprintf(dump," - ACC_SRC_C1: %x\n",Cores[c].Revb.ACC_SRC_C1); fprintf(dump," - ACC_SRC_D0: %x\n",Cores[c].Revb.ACC_SRC_D0); fprintf(dump," - ACC_SRC_D1: %x\n",Cores[c].Revb.ACC_SRC_D1); fprintf(dump," - MIX_DEST_A0: %x\n",Cores[c].Revb.MIX_DEST_A0); fprintf(dump," - MIX_DEST_A1: %x\n",Cores[c].Revb.MIX_DEST_A1); fprintf(dump," - MIX_DEST_B0: %x\n",Cores[c].Revb.MIX_DEST_B0); fprintf(dump," - MIX_DEST_B1: %x\n",Cores[c].Revb.MIX_DEST_B1); fprintf(dump,"#### END OF DUMP.\n\n"); } fclose(dump); } #endif }