#include "mednafen/mednafen.h" #include "mednafen/mempatcher.h" #include "mednafen/git.h" #include "mednafen/general.h" #include "mednafen/md5.h" #include #include "mednafen/psx/gpu.h" #ifdef NEED_DEINTERLACER #include "mednafen/video/Deinterlacer.h" #endif #include #include #include #include #include #include "rsx/rsx_intf.h" #include "libretro_cbs.h" #include "libretro_options.h" #include "input.h" #include "mednafen/mednafen-endian.h" #include "../pgxp/pgxp_main.h" #include #define ISHEXDEC ((codeLine[cursor]>='0') && (codeLine[cursor]<='9')) || ((codeLine[cursor]>='a') && (codeLine[cursor]<='f')) || ((codeLine[cursor]>='A') && (codeLine[cursor]<='F')) struct retro_perf_callback perf_cb; retro_get_cpu_features_t perf_get_cpu_features_cb = NULL; retro_log_printf_t log_cb; static retro_audio_sample_t audio_cb; static retro_audio_sample_batch_t audio_batch_cb; static retro_input_poll_t input_poll_cb; static retro_input_state_t input_state_cb; static unsigned frame_count = 0; static unsigned internal_frame_count = 0; static bool display_internal_framerate = false; static bool allow_frame_duping = false; static bool failed_init = false; static unsigned image_offset = 0; static unsigned image_crop = 0; static bool crop_overscan = false; static bool enable_memcard1 = false; static bool enable_variable_serialization_size = false; unsigned cd_2x_speedup = 1; bool cd_async = false; bool cd_warned_slow = false; int64 cd_slow_timeout = 8000; // microseconds // Sets how often (in number of output frames/retro_run invocations) // the internal framerace counter should be updated if // display_internal_framerate is true. #define INTERNAL_FPS_SAMPLE_PERIOD 32 static int psx_skipbios; bool psx_cpu_overclock; static bool is_pal; enum dither_mode psx_gpu_dither_mode; //iCB: PGXP options unsigned int psx_pgxp_mode; unsigned int psx_pgxp_vertex_caching; unsigned int psx_pgxp_texture_correction; // \iCB char retro_save_directory[4096]; char retro_base_directory[4096]; static char retro_cd_base_directory[4096]; static char retro_cd_path[4096]; char retro_cd_base_name[4096]; #ifdef _WIN32 static char retro_slash = '\\'; #else static char retro_slash = '/'; #endif enum { REGION_JP = 0, REGION_NA = 1, REGION_EU = 2, }; static bool firmware_is_present(unsigned region) { char bios_path[4096]; static const size_t list_size = 10; const char *bios_name_list[list_size]; const char *bios_sha1; log_cb(RETRO_LOG_INFO, "Checking if required firmware is present.\n"); /* SHA1 and alternate BIOS names sourced from https://github.com/mamedev/mame/blob/master/src/mame/drivers/psx.cpp */ if (region == REGION_JP) { bios_name_list[0] = "scph5500.bin"; bios_name_list[1] = "SCPH5500.bin"; bios_name_list[2] = "SCPH-5500.bin"; bios_name_list[3] = NULL; bios_name_list[4] = NULL; bios_name_list[5] = NULL; bios_name_list[6] = NULL; bios_name_list[7] = NULL; bios_name_list[8] = NULL; bios_name_list[9] = NULL; bios_sha1 = "B05DEF971D8EC59F346F2D9AC21FB742E3EB6917"; } else if (region == REGION_NA) { bios_name_list[0] = "scph5501.bin"; bios_name_list[1] = "SCPH5501.bin"; bios_name_list[2] = "SCPH-5501.bin"; bios_name_list[3] = "scph5503.bin"; bios_name_list[4] = "SCPH5503.bin"; bios_name_list[5] = "SCPH-5503.bin"; bios_name_list[6] = "scph7003.bin"; bios_name_list[7] = "SCPH7003.bin"; bios_name_list[8] = "SCPH-7003.bin"; bios_name_list[9] = NULL; bios_sha1 = "0555C6FAE8906F3F09BAF5988F00E55F88E9F30B"; } else if (region == REGION_EU) { bios_name_list[0] = "scph5502.bin"; bios_name_list[1] = "SCPH5502.bin"; bios_name_list[2] = "SCPH-5502.bin"; bios_name_list[3] = "scph5552.bin"; bios_name_list[4] = "SCPH5552.bin"; bios_name_list[5] = "SCPH-5552.bin"; bios_name_list[6] = NULL; bios_name_list[7] = NULL; bios_name_list[8] = NULL; bios_name_list[9] = NULL; bios_sha1 = "F6BC2D1F5EB6593DE7D089C425AC681D6FFFD3F0"; } bool found = false; size_t i; for (i = 0; i < list_size; ++i) { if (!bios_name_list[i]) break; snprintf(bios_path, sizeof(bios_path), "%s%c%s", retro_base_directory, retro_slash, bios_name_list[i]); if (filestream_exists(bios_path)) { found = true; break; } } if (!found) { log_cb(RETRO_LOG_ERROR, "Firmware is missing: %s\n", bios_name_list[0]); return false; } char obtained_sha1[41]; sha1_calculate(bios_path, obtained_sha1); if (strcmp(obtained_sha1, bios_sha1)) { log_cb(RETRO_LOG_WARN, "Firmware found but has invalid SHA1: %s\n", bios_path); log_cb(RETRO_LOG_WARN, "Expected SHA1: %s\n", bios_sha1); log_cb(RETRO_LOG_WARN, "Obtained SHA1: %s\n", obtained_sha1); log_cb(RETRO_LOG_WARN, "Unsupported firmware may cause emulation glitches.\n"); return true; } log_cb(RETRO_LOG_INFO, "Firmware found: %s\n", bios_path); log_cb(RETRO_LOG_INFO, "Firmware SHA1: %s\n", obtained_sha1); return true; } static void extract_basename(char *buf, const char *path, size_t size) { const char *base = strrchr(path, '/'); if (!base) base = strrchr(path, '\\'); if (!base) base = path; if (*base == '\\' || *base == '/') base++; strncpy(buf, base, size - 1); buf[size - 1] = '\0'; char *ext = strrchr(buf, '.'); if (ext) *ext = '\0'; } static void extract_directory(char *buf, const char *path, size_t size) { strncpy(buf, path, size - 1); buf[size - 1] = '\0'; char *base = strrchr(buf, '/'); if (!base) base = strrchr(buf, '\\'); if (base) *base = '\0'; else buf[0] = '\0'; } /* start of Mednafen psx.cpp */ /* Mednafen - Multi-system Emulator * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "mednafen/psx/psx.h" #include "mednafen/psx/mdec.h" #include "mednafen/psx/frontio.h" #include "mednafen/psx/timer.h" #include "mednafen/psx/sio.h" #include "mednafen/psx/cdc.h" #include "mednafen/psx/spu.h" #include "mednafen/mempatcher.h" #include #include bool setting_apply_analog_toggle = false; bool use_mednafen_memcard0_method = false; extern MDFNGI EmulatedPSX; MDFNGI *MDFNGameInfo = NULL; #if PSX_DBGPRINT_ENABLE static unsigned psx_dbg_level = 0; void PSX_DBG(unsigned level, const char *format, ...) { if(psx_dbg_level >= level) { va_list ap; va_start(ap, format); vprintf(format, ap); va_end(ap); } } #else static unsigned const psx_dbg_level = 0; #endif /* Based off(but not the same as) public-domain "JKISS" PRNG. */ struct MDFN_PseudoRNG { uint32_t x,y,z,c; uint64_t lcgo; }; static MDFN_PseudoRNG PSX_PRNG; uint32_t PSX_GetRandU32(uint32_t mina, uint32_t maxa) { uint32_t tmp; const uint32_t range_m1 = maxa - mina; uint32_t range_mask = range_m1; range_mask |= range_mask >> 1; range_mask |= range_mask >> 2; range_mask |= range_mask >> 4; range_mask |= range_mask >> 8; range_mask |= range_mask >> 16; do { uint64_t t = 4294584393ULL * PSX_PRNG.z + PSX_PRNG.c; PSX_PRNG.x = 314527869 * PSX_PRNG.x + 1234567; PSX_PRNG.y ^= PSX_PRNG.y << 5; PSX_PRNG.y ^= PSX_PRNG.y >> 7; PSX_PRNG.y ^= PSX_PRNG.y << 22; PSX_PRNG.c = t >> 32; PSX_PRNG.z = t; PSX_PRNG.lcgo = (19073486328125ULL * PSX_PRNG.lcgo) + 1; tmp = ((PSX_PRNG.x + PSX_PRNG.y + PSX_PRNG.z) ^ (PSX_PRNG.lcgo >> 16)) & range_mask; } while(tmp > range_m1); return(mina + tmp); } static std::vector *cdifs = NULL; static std::vector cdifs_scex_ids; static bool CD_TrayOpen; int CD_SelectedDisc; // -1 for no disc static bool CD_IsPBP = false; extern int PBP_DiscCount; static uint64_t Memcard_PrevDC[8]; static int64_t Memcard_SaveDelay[8]; PS_CPU *CPU = NULL; PS_SPU *SPU = NULL; PS_CDC *CDC = NULL; FrontIO *FIO = NULL; static MultiAccessSizeMem<512 * 1024, uint32, false> *BIOSROM = NULL; static MultiAccessSizeMem<65536, uint32, false> *PIOMem = NULL; MultiAccessSizeMem<2048 * 1024, uint32, false> MainRAM; static uint32_t TextMem_Start; static std::vector TextMem; static const uint32_t SysControl_Mask[9] = { 0x00ffffff, 0x00ffffff, 0xffffffff, 0x2f1fffff, 0xffffffff, 0x2f1fffff, 0x2f1fffff, 0xffffffff, 0x0003ffff }; static const uint32_t SysControl_OR[9] = { 0x1f000000, 0x1f000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000 }; static struct { union { struct { uint32_t PIO_Base; // 0x1f801000 // BIOS Init: 0x1f000000, Writeable bits: 0x00ffffff(assumed, verify), FixedOR = 0x1f000000 uint32_t Unknown0; // 0x1f801004 // BIOS Init: 0x1f802000, Writeable bits: 0x00ffffff, FixedOR = 0x1f000000 uint32_t Unknown1; // 0x1f801008 // BIOS Init: 0x0013243f, ???? uint32_t Unknown2; // 0x1f80100c // BIOS Init: 0x00003022, Writeable bits: 0x2f1fffff, FixedOR = 0x00000000 uint32_t BIOS_Mapping; // 0x1f801010 // BIOS Init: 0x0013243f, ???? uint32_t SPU_Delay; // 0x1f801014 // BIOS Init: 0x200931e1, Writeable bits: 0x2f1fffff, FixedOR = 0x00000000 - Affects bus timing on access to SPU uint32_t CDC_Delay; // 0x1f801018 // BIOS Init: 0x00020843, Writeable bits: 0x2f1fffff, FixedOR = 0x00000000 uint32_t Unknown4; // 0x1f80101c // BIOS Init: 0x00070777, ???? uint32_t Unknown5; // 0x1f801020 // BIOS Init: 0x00031125(but rewritten with other values often), Writeable bits: 0x0003ffff, FixedOR = 0x00000000 -- Possibly CDC related }; uint32_t Regs[9]; }; } SysControl; static unsigned DMACycleSteal = 0; // Doesn't need to be saved in save states, since it's calculated in the ForceEventUpdates() call chain. void PSX_SetDMACycleSteal(unsigned stealage) { if (stealage > 200) // Due to 8-bit limitations in the CPU core. stealage = 200; DMACycleSteal = stealage; } // // Event stuff // static int32_t Running; // Set to -1 when not desiring exit, and 0 when we are. struct event_list_entry { uint32_t which; int32_t event_time; event_list_entry *prev; event_list_entry *next; }; static event_list_entry events[PSX_EVENT__COUNT]; static void EventReset(void) { unsigned i; for(i = 0; i < PSX_EVENT__COUNT; i++) { events[i].which = i; if(i == PSX_EVENT__SYNFIRST) events[i].event_time = (int32_t)0x80000000; else if(i == PSX_EVENT__SYNLAST) events[i].event_time = 0x7FFFFFFF; else events[i].event_time = PSX_EVENT_MAXTS; events[i].prev = (i > 0) ? &events[i - 1] : NULL; events[i].next = (i < (PSX_EVENT__COUNT - 1)) ? &events[i + 1] : NULL; } } //static void RemoveEvent(event_list_entry *e) //{ // e->prev->next = e->next; // e->next->prev = e->prev; //} static void RebaseTS(const int32_t timestamp) { unsigned i; for(i = 0; i < PSX_EVENT__COUNT; i++) { if(i == PSX_EVENT__SYNFIRST || i == PSX_EVENT__SYNLAST) continue; assert(events[i].event_time > timestamp); events[i].event_time -= timestamp; } CPU->SetEventNT(events[PSX_EVENT__SYNFIRST].next->event_time); } void PSX_SetEventNT(const int type, const int32_t next_timestamp) { event_list_entry *e = &events[type]; if(next_timestamp < e->event_time) { event_list_entry *fe = e; do { fe = fe->prev; }while(next_timestamp < fe->event_time); // Remove this event from the list, temporarily of course. e->prev->next = e->next; e->next->prev = e->prev; // Insert into the list, just after "fe". e->prev = fe; e->next = fe->next; fe->next->prev = e; fe->next = e; e->event_time = next_timestamp; } else if(next_timestamp > e->event_time) { event_list_entry *fe = e; do { fe = fe->next; } while(next_timestamp > fe->event_time); // Remove this event from the list, temporarily of course e->prev->next = e->next; e->next->prev = e->prev; // Insert into the list, just BEFORE "fe". e->prev = fe->prev; e->next = fe; fe->prev->next = e; fe->prev = e; e->event_time = next_timestamp; } CPU->SetEventNT(events[PSX_EVENT__SYNFIRST].next->event_time & Running); } // Called from debug.cpp too. void ForceEventUpdates(const int32_t timestamp) { PSX_SetEventNT(PSX_EVENT_GPU, GPU_Update(timestamp)); PSX_SetEventNT(PSX_EVENT_CDC, CDC->Update(timestamp)); PSX_SetEventNT(PSX_EVENT_TIMER, TIMER_Update(timestamp)); PSX_SetEventNT(PSX_EVENT_DMA, DMA_Update(timestamp)); PSX_SetEventNT(PSX_EVENT_FIO, FIO->Update(timestamp)); CPU->SetEventNT(events[PSX_EVENT__SYNFIRST].next->event_time); } bool MDFN_FASTCALL PSX_EventHandler(const int32_t timestamp) { event_list_entry *e = events[PSX_EVENT__SYNFIRST].next; while(timestamp >= e->event_time) // If Running = 0, PSX_EventHandler() may be called even if there isn't an event per-se, so while() instead of do { ... } while { int32_t nt; event_list_entry *prev = e->prev; switch(e->which) { default: abort(); case PSX_EVENT_GPU: nt = GPU_Update(e->event_time); break; case PSX_EVENT_CDC: nt = CDC->Update(e->event_time); break; case PSX_EVENT_TIMER: nt = TIMER_Update(e->event_time); break; case PSX_EVENT_DMA: nt = DMA_Update(e->event_time); break; case PSX_EVENT_FIO: nt = FIO->Update(e->event_time); break; } PSX_SetEventNT(e->which, nt); // Order of events can change due to calling PSX_SetEventNT(), this prev business ensures we don't miss an event due to reordering. e = prev->next; } return(Running); } void PSX_RequestMLExit(void) { Running = 0; CPU->SetEventNT(0); } // // End event stuff // /* Remember to update MemPeek<>() and MemPoke<>() when we change address decoding in MemRW() */ template static INLINE void MemRW(int32_t ×tamp, uint32_t A, uint32_t &V) { #if 0 if(IsWrite) printf("Write%d: %08x(orig=%08x), %08x\n", (int)(sizeof(T) * 8), A & mask[A >> 29], A, V); else printf("Read%d: %08x(orig=%08x)\n", (int)(sizeof(T) * 8), A & mask[A >> 29], A); #endif if(!IsWrite) timestamp += DMACycleSteal; //if(A == 0xa0 && IsWrite) // DBG_Break(); if(A < 0x00800000) { if(IsWrite) { //timestamp++; // Best-case timing. } else { // Overclock: get rid of memory access latency if (!psx_cpu_overclock) timestamp += 3; } if(Access24) { if(IsWrite) MainRAM.WriteU24(A & 0x1FFFFF, V); else V = MainRAM.ReadU24(A & 0x1FFFFF); } else { if(IsWrite) MainRAM.Write(A & 0x1FFFFF, V); else V = MainRAM.Read(A & 0x1FFFFF); } return; } if(A >= 0x1FC00000 && A <= 0x1FC7FFFF) { if(!IsWrite) { if(Access24) V = BIOSROM->ReadU24(A & 0x7FFFF); else V = BIOSROM->Read(A & 0x7FFFF); } return; } if(timestamp >= events[PSX_EVENT__SYNFIRST].next->event_time) PSX_EventHandler(timestamp); if(A >= 0x1F801000 && A <= 0x1F802FFF) { //if(IsWrite) // printf("HW Write%d: %08x %08x\n", (unsigned int)(sizeof(T)*8), (unsigned int)A, (unsigned int)V); //else // printf("HW Read%d: %08x\n", (unsigned int)(sizeof(T)*8), (unsigned int)A); if(A >= 0x1F801C00 && A <= 0x1F801FFF) // SPU { if(sizeof(T) == 4 && !Access24) { if(IsWrite) { //timestamp += 15; //if(timestamp >= events[PSX_EVENT__SYNFIRST].next->event_time) // PSX_EventHandler(timestamp); SPU->Write(timestamp, A | 0, V); SPU->Write(timestamp, A | 2, V >> 16); } else { timestamp += 36; if(timestamp >= events[PSX_EVENT__SYNFIRST].next->event_time) PSX_EventHandler(timestamp); V = SPU->Read(timestamp, A) | (SPU->Read(timestamp, A | 2) << 16); } } else { if(IsWrite) { //timestamp += 8; //if(timestamp >= events[PSX_EVENT__SYNFIRST].next->event_time) // PSX_EventHandler(timestamp); SPU->Write(timestamp, A & ~1, V); } else { timestamp += 16; // Just a guess, need to test. if(timestamp >= events[PSX_EVENT__SYNFIRST].next->event_time) PSX_EventHandler(timestamp); V = SPU->Read(timestamp, A & ~1); } } return; } // End SPU // CDC: TODO - 8-bit access. if(A >= 0x1f801800 && A <= 0x1f80180F) { if(!IsWrite) { timestamp += 6 * sizeof(T); //24; } if(IsWrite) CDC->Write(timestamp, A & 0x3, V); else V = CDC->Read(timestamp, A & 0x3); return; } if(A >= 0x1F801810 && A <= 0x1F801817) { if(!IsWrite) timestamp++; if(IsWrite) GPU_Write(timestamp, A, V); else V = GPU_Read(timestamp, A); return; } if(A >= 0x1F801820 && A <= 0x1F801827) { if(!IsWrite) timestamp++; if(IsWrite) MDEC_Write(timestamp, A, V); else V = MDEC_Read(timestamp, A); return; } if(A >= 0x1F801000 && A <= 0x1F801023) { unsigned index = (A & 0x1F) >> 2; if(!IsWrite) timestamp++; //if(A == 0x1F801014 && IsWrite) // fprintf(stderr, "%08x %08x\n",A,V); if(IsWrite) { V <<= (A & 3) * 8; SysControl.Regs[index] = V & SysControl_Mask[index]; } else { V = SysControl.Regs[index] | SysControl_OR[index]; V >>= (A & 3) * 8; } return; } if(A >= 0x1F801040 && A <= 0x1F80104F) { if(!IsWrite) timestamp++; if(IsWrite) FIO->Write(timestamp, A, V); else V = FIO->Read(timestamp, A); return; } if(A >= 0x1F801050 && A <= 0x1F80105F) { if(!IsWrite) timestamp++; #if 0 if(IsWrite) { PSX_WARNING("[SIO] Write: 0x%08x 0x%08x %u", A, V, (unsigned)sizeof(T)); } else { PSX_WARNING("[SIO] Read: 0x%08x", A); } #endif if(IsWrite) SIO_Write(timestamp, A, V); else V = SIO_Read(timestamp, A); return; } #if 0 if(A >= 0x1F801060 && A <= 0x1F801063) { if(IsWrite) { } else { } return; } #endif if(A >= 0x1F801070 && A <= 0x1F801077) // IRQ { if(!IsWrite) timestamp++; if(IsWrite) ::IRQ_Write(A, V); else V = ::IRQ_Read(A); return; } if(A >= 0x1F801080 && A <= 0x1F8010FF) // DMA { if(!IsWrite) timestamp++; if(IsWrite) DMA_Write(timestamp, A, V); else V = DMA_Read(timestamp, A); return; } if(A >= 0x1F801100 && A <= 0x1F80113F) // Root counters { if(!IsWrite) timestamp++; if(IsWrite) TIMER_Write(timestamp, A, V); else V = TIMER_Read(timestamp, A); return; } } if(A >= 0x1F000000 && A <= 0x1F7FFFFF) { if(!IsWrite) { //if((A & 0x7FFFFF) <= 0x84) //PSX_WARNING("[PIO] Read%d from 0x%08x at time %d", (int)(sizeof(T) * 8), A, timestamp); V = ~0U; // A game this affects: Tetris with Cardcaptor Sakura if(PIOMem) { if((A & 0x7FFFFF) < 65536) { if(Access24) V = PIOMem->ReadU24(A & 0x7FFFFF); else V = PIOMem->Read(A & 0x7FFFFF); } else if((A & 0x7FFFFF) < (65536 + TextMem.size())) { if(Access24) V = MDFN_de24lsb(&TextMem[(A & 0x7FFFFF) - 65536]); else switch(sizeof(T)) { case 1: V = TextMem[(A & 0x7FFFFF) - 65536]; break; case 2: V = MDFN_de16lsb(&TextMem[(A & 0x7FFFFF) - 65536]); break; case 4: V = MDFN_de32lsb(&TextMem[(A & 0x7FFFFF) - 65536]); break; } } } } return; } if(A == 0xFFFE0130) // Per tests on PS1, ignores the access(sort of, on reads the value is forced to 0 if not aligned) if not aligned to 4-bytes. { if(!IsWrite) V = CPU->GetBIU(); else CPU->SetBIU(V); return; } if(IsWrite) { PSX_WARNING("[MEM] Unknown write%d to %08x at time %d, =%08x(%d)", (int)(sizeof(T) * 8), A, timestamp, V, V); } else { V = 0; PSX_WARNING("[MEM] Unknown read%d from %08x at time %d", (int)(sizeof(T) * 8), A, timestamp); } } void MDFN_FASTCALL PSX_MemWrite8(int32_t timestamp, uint32_t A, uint32_t V) { MemRW(timestamp, A, V); } void MDFN_FASTCALL PSX_MemWrite16(int32_t timestamp, uint32_t A, uint32_t V) { MemRW(timestamp, A, V); } void MDFN_FASTCALL PSX_MemWrite24(int32_t timestamp, uint32_t A, uint32_t V) { MemRW(timestamp, A, V); } void MDFN_FASTCALL PSX_MemWrite32(int32_t timestamp, uint32_t A, uint32_t V) { MemRW(timestamp, A, V); } uint8_t MDFN_FASTCALL PSX_MemRead8(int32_t ×tamp, uint32_t A) { uint32_t V; MemRW(timestamp, A, V); return(V); } uint16_t MDFN_FASTCALL PSX_MemRead16(int32_t ×tamp, uint32_t A) { uint32_t V; MemRW(timestamp, A, V); return(V); } uint32_t MDFN_FASTCALL PSX_MemRead24(int32_t ×tamp, uint32_t A) { uint32_t V; MemRW(timestamp, A, V); return(V); } uint32_t MDFN_FASTCALL PSX_MemRead32(int32_t ×tamp, uint32_t A) { uint32_t V; MemRW(timestamp, A, V); return(V); } template static INLINE uint32_t MemPeek(int32_t timestamp, uint32_t A) { if(A < 0x00800000) { if(Access24) return(MainRAM.ReadU24(A & 0x1FFFFF)); return(MainRAM.Read(A & 0x1FFFFF)); } if(A >= 0x1FC00000 && A <= 0x1FC7FFFF) { if(Access24) return(BIOSROM->ReadU24(A & 0x7FFFF)); return(BIOSROM->Read(A & 0x7FFFF)); } if(A >= 0x1F801000 && A <= 0x1F802FFF) { if(A >= 0x1F801C00 && A <= 0x1F801FFF) // SPU { // TODO } // End SPU // CDC: TODO - 8-bit access. if(A >= 0x1f801800 && A <= 0x1f80180F) { // TODO } if(A >= 0x1F801810 && A <= 0x1F801817) { // TODO } if(A >= 0x1F801820 && A <= 0x1F801827) { // TODO } if(A >= 0x1F801000 && A <= 0x1F801023) { unsigned index = (A & 0x1F) >> 2; return((SysControl.Regs[index] | SysControl_OR[index]) >> ((A & 3) * 8)); } if(A >= 0x1F801040 && A <= 0x1F80104F) { // TODO } if(A >= 0x1F801050 && A <= 0x1F80105F) { // TODO } if(A >= 0x1F801070 && A <= 0x1F801077) // IRQ { // TODO } if(A >= 0x1F801080 && A <= 0x1F8010FF) // DMA { // TODO } if(A >= 0x1F801100 && A <= 0x1F80113F) // Root counters { // TODO } } if(A >= 0x1F000000 && A <= 0x1F7FFFFF) { if(PIOMem) { if((A & 0x7FFFFF) < 65536) { if(Access24) return(PIOMem->ReadU24(A & 0x7FFFFF)); return(PIOMem->Read(A & 0x7FFFFF)); } else if((A & 0x7FFFFF) < (65536 + TextMem.size())) { if(Access24) return(MDFN_de24lsb(&TextMem[(A & 0x7FFFFF) - 65536])); else switch(sizeof(T)) { case 1: return(TextMem[(A & 0x7FFFFF) - 65536]); case 2: return(MDFN_de16lsb(&TextMem[(A & 0x7FFFFF) - 65536])); case 4: return(MDFN_de32lsb(&TextMem[(A & 0x7FFFFF) - 65536])); } } } return(~0U); } if(A == 0xFFFE0130) return CPU->GetBIU(); return(0); } uint8_t PSX_MemPeek8(uint32_t A) { return MemPeek(0, A); } uint16_t PSX_MemPeek16(uint32_t A) { return MemPeek(0, A); } uint32_t PSX_MemPeek32(uint32_t A) { return MemPeek(0, A); } // FIXME: Add PSX_Reset() and FrontIO::Reset() so that emulated input devices don't get power-reset on reset-button reset. static void PSX_Power(void) { unsigned i; PSX_PRNG.x = 123456789; PSX_PRNG.y = 987654321; PSX_PRNG.z = 43219876; PSX_PRNG.c = 6543217; PSX_PRNG.lcgo = 0xDEADBEEFCAFEBABEULL; cd_warned_slow = false; memset(MainRAM.data32, 0, 2048 * 1024); for(i = 0; i < 9; i++) SysControl.Regs[i] = 0; CPU->Power(); EventReset(); TIMER_Power(); DMA_Power(); FIO->Power(); SIO_Power(); MDEC_Power(); CDC->Power(); GPU_Power(); //SPU->Power(); // Called from CDC->Power() IRQ_Power(); ForceEventUpdates(0); } template static INLINE void MemPoke(pscpu_timestamp_t timestamp, uint32 A, T V) { if(A < 0x00800000) { if(Access24) MainRAM.WriteU24(A & 0x1FFFFF, V); else MainRAM.Write(A & 0x1FFFFF, V); return; } if(A >= 0x1FC00000 && A <= 0x1FC7FFFF) { if(Access24) BIOSROM->WriteU24(A & 0x7FFFF, V); else BIOSROM->Write(A & 0x7FFFF, V); return; } if(A >= 0x1F801000 && A <= 0x1F802FFF) { if(A >= 0x1F801000 && A <= 0x1F801023) { unsigned index = (A & 0x1F) >> 2; SysControl.Regs[index] = (V << ((A & 3) * 8)) & SysControl_Mask[index]; return; } } if(A == 0xFFFE0130) { CPU->SetBIU(V); return; } } void PSX_MemPoke8(uint32 A, uint8 V) { MemPoke(0, A, V); } void PSX_MemPoke16(uint32 A, uint16 V) { MemPoke(0, A, V); } void PSX_MemPoke32(uint32 A, uint32 V) { MemPoke(0, A, V); } void PSX_GPULineHook(const int32_t timestamp, const int32_t line_timestamp, bool vsync, uint32_t *pixels, const MDFN_PixelFormat* const format, const unsigned width, const unsigned pix_clock_offset, const unsigned pix_clock, const unsigned pix_clock_divider) { FIO->GPULineHook(timestamp, line_timestamp, vsync, pixels, format, width, pix_clock_offset, pix_clock, pix_clock_divider); } static bool TestMagic(const char *name, MDFNFILE *fp) { if(GET_FSIZE_PTR(fp) < 0x800) return(false); if(memcmp(GET_FDATA_PTR(fp), "PS-X EXE", 8)) return(false); return(true); } static bool TestMagicCD(std::vector *CDInterfaces) { uint8_t buf[2048]; TOC toc; int dt; #ifndef HAVE_CDROM_NEW TOC_Clear(&toc); #endif (*CDInterfaces)[0]->ReadTOC(&toc); #ifdef HAVE_CDROM_NEW dt = toc.FindTrackByLBA(4); #else dt = TOC_FindTrackByLBA(&toc, 4); #endif if(dt > 0 && !(toc.tracks[dt].control & 0x4)) return(false); if((*CDInterfaces)[0]->ReadSector(buf, 4, 1) != 0x2) return(false); if(strncmp((char *)buf + 10, "Licensed by", strlen("Licensed by"))) return(false); //if(strncmp((char *)buf + 32, "Sony", 4)) // return(false); //for(int i = 0; i < 2048; i++) // printf("%d, %02x %c\n", i, buf[i], buf[i]); //exit(1); #if 0 { uint8_t buf[2048 * 7]; if((*cdifs)[0]->ReadSector(buf, 5, 7) == 0x2) { printf("CRC32: 0x%08x\n", (uint32)crc32(0, &buf[0], 0x3278)); } } #endif return(true); } static const char *CalcDiscSCEx_BySYSTEMCNF(CDIF *c, unsigned *rr) { uint8_t pvd[2048]; uint32_t rdel, rdel_len; const char *ret = NULL; Stream *fp = NULL; unsigned pvd_search_count = 0; fp = c->MakeStream(0, ~0U); fp->seek(0x8000, SEEK_SET); do { if((pvd_search_count++) == 32) { log_cb(RETRO_LOG_ERROR, "PVD search count limit met.\n"); ret = NULL; goto Breakout; } fp->read(pvd, 2048); if(memcmp(&pvd[1], "CD001", 5)) { log_cb(RETRO_LOG_ERROR, "Not ISO-9660\n"); ret = NULL; goto Breakout; } if(pvd[0] == 0xFF) { log_cb(RETRO_LOG_ERROR, "Missing Primary Volume Descriptor\n"); ret = NULL; goto Breakout; } } while(pvd[0] != 0x01); /*[156 ... 189], 34 bytes */ rdel = MDFN_de32lsb(&pvd[0x9E]); rdel_len = MDFN_de32lsb(&pvd[0xA6]); if(rdel_len >= (1024 * 1024 * 10)) /* Arbitrary sanity check. */ { log_cb(RETRO_LOG_ERROR, "Root directory table too large\n"); ret = NULL; goto Breakout; } fp->seek((int64)rdel * 2048, SEEK_SET); //printf("%08x, %08x\n", rdel * 2048, rdel_len); while(fp->tell() < (((int64)rdel * 2048) + rdel_len)) { uint8_t len_dr = fp->get_u8(); uint8_t dr[256 + 1]; memset(dr, 0xFF, sizeof(dr)); if(!len_dr) break; memset(dr, 0, sizeof(dr)); dr[0] = len_dr; fp->read(dr + 1, len_dr - 1); uint8_t len_fi = dr[0x20]; if(len_fi == 12 && !memcmp(&dr[0x21], "SYSTEM.CNF;1", 12)) { uint32_t file_lba = MDFN_de32lsb(&dr[0x02]); //uint32_t file_len = MDFN_de32lsb(&dr[0x0A]); uint8_t fb[2048 + 1]; char *bootpos; memset(fb, 0, sizeof(fb)); fp->seek(file_lba * 2048, SEEK_SET); fp->read(fb, 2048); bootpos = strstr((char*)fb, "BOOT") + 4; while(*bootpos == ' ' || *bootpos == '\t') bootpos++; if(*bootpos == '=') { bootpos++; while(*bootpos == ' ' || *bootpos == '\t') bootpos++; if(!strncasecmp(bootpos, "cdrom:\\", 7)) { bootpos += 7; char *tmp; if((tmp = strchr(bootpos, '_'))) *tmp = 0; if((tmp = strchr(bootpos, '.'))) *tmp = 0; if((tmp = strchr(bootpos, ';'))) *tmp = 0; //puts(bootpos); if(strlen(bootpos) == 4 && bootpos[0] == 'S' && (bootpos[1] == 'C' || bootpos[1] == 'L' || bootpos[1] == 'I')) { switch(bootpos[2]) { case 'E': if(rr) *rr = REGION_EU; ret = "SCEE"; goto Breakout; case 'U': if(rr) *rr = REGION_NA; ret = "SCEA"; goto Breakout; case 'K': // Korea? case 'B': case 'P': if(rr) *rr = REGION_JP; ret = "SCEI"; goto Breakout; } } } } //puts((char*)fb); //puts("ASOFKOASDFKO"); } } Breakout: if(fp) { delete fp; fp = NULL; } return(ret); } static unsigned CalcDiscSCEx(void) { const char *prev_valid_id = NULL; unsigned ret_region = MDFN_GetSettingI("psx.region_default"); cdifs_scex_ids.clear(); if(cdifs) for(unsigned i = 0; i < cdifs->size(); i++) { uint8_t buf[2048]; uint8_t fbuf[2048 + 1]; const char *id = CalcDiscSCEx_BySYSTEMCNF((*cdifs)[i], (i == 0) ? &ret_region : NULL); memset(fbuf, 0, sizeof(fbuf)); if(id == NULL && (*cdifs)[i]->ReadSector(buf, 4, 1) == 0x2) { unsigned ipos, opos; for(ipos = 0, opos = 0; ipos < 0x48; ipos++) { if(buf[ipos] > 0x20 && buf[ipos] < 0x80) { fbuf[opos++] = tolower(buf[ipos]); } } fbuf[opos++] = 0; PSX_DBG(PSX_DBG_SPARSE, "License string: %s", (char *)fbuf); if(strstr((char *)fbuf, "licensedby") != NULL) { if(strstr((char *)fbuf, "america") != NULL) { id = "SCEA"; if(!i) ret_region = REGION_NA; } else if(strstr((char *)fbuf, "europe") != NULL) { id = "SCEE"; if(!i) ret_region = REGION_EU; } else if(strstr((char *)fbuf, "japan") != NULL) { id = "SCEI"; // ? if(!i) ret_region = REGION_JP; } else if(strstr((char *)fbuf, "sonycomputerentertainmentinc.") != NULL) { id = "SCEI"; if(!i) ret_region = REGION_JP; } else // Failure case { if(prev_valid_id != NULL) id = prev_valid_id; else { switch(ret_region) // Less than correct, but meh, what can we do. { case REGION_JP: id = "SCEI"; break; case REGION_NA: id = "SCEA"; break; case REGION_EU: id = "SCEE"; break; } } } } } if(id != NULL) prev_valid_id = id; cdifs_scex_ids.push_back(id); } return ret_region; } static void InitCommon(std::vector *CDInterfaces, const bool EmulateMemcards = true, const bool WantPIOMem = false) { unsigned region, i; bool emulate_memcard[8]; bool emulate_multitap[2]; int sls, sle; #if PSX_DBGPRINT_ENABLE psx_dbg_level = MDFN_GetSettingUI("psx.dbg_level"); #endif for(i = 0; i < 8; i++) { char buf[64]; snprintf(buf, sizeof(buf), "psx.input.port%u.memcard", i + 1); emulate_memcard[i] = EmulateMemcards && MDFN_GetSettingB(buf); } if (!enable_memcard1) { emulate_memcard[1] = false; } emulate_multitap[0] = setting_psx_multitap_port_1; emulate_multitap[1] = setting_psx_multitap_port_2; cdifs = CDInterfaces; region = CalcDiscSCEx(); if(!MDFN_GetSettingB("psx.region_autodetect")) region = MDFN_GetSettingI("psx.region_default"); sls = MDFN_GetSettingI((region == REGION_EU) ? "psx.slstartp" : "psx.slstart"); sle = MDFN_GetSettingI((region == REGION_EU) ? "psx.slendp" : "psx.slend"); if(sls > sle) { int tmp = sls; sls = sle; sle = tmp; } CPU = new PS_CPU(); SPU = new PS_SPU(); GPU_Init(region == REGION_EU, sls, sle, psx_gpu_upscale_shift); CDC = new PS_CDC(); FIO = new FrontIO(emulate_memcard, emulate_multitap); FIO->SetAMCT(MDFN_GetSettingB("psx.input.analog_mode_ct")); for(unsigned i = 0; i < 8; i++) { char buf[64]; snprintf(buf, sizeof(buf), "psx.input.port%u.gun_chairs", i + 1); FIO->SetCrosshairsColor(i, MDFN_GetSettingUI(buf)); } input_set_fio( FIO ); DMA_Init(); GPU_FillVideoParams(&EmulatedPSX); switch (psx_gpu_dither_mode) { case DITHER_NATIVE: GPU_set_dither_upscale_shift(0); break; case DITHER_UPSCALED: GPU_set_dither_upscale_shift(psx_gpu_upscale_shift); break; case DITHER_OFF: break; } PGXP_SetModes(psx_pgxp_mode | psx_pgxp_vertex_caching | psx_pgxp_texture_correction); CD_TrayOpen = true; CD_SelectedDisc = -1; if(cdifs) { CD_TrayOpen = false; CD_SelectedDisc = 0; } CDC->SetDisc(true, NULL, NULL); CDC->SetDisc(CD_TrayOpen, (CD_SelectedDisc >= 0 && !CD_TrayOpen) ? (*cdifs)[CD_SelectedDisc] : NULL, (CD_SelectedDisc >= 0 && !CD_TrayOpen) ? cdifs_scex_ids[CD_SelectedDisc] : NULL); BIOSROM = new MultiAccessSizeMem<512 * 1024, uint32, false>(); PIOMem = NULL; if(WantPIOMem) PIOMem = new MultiAccessSizeMem<65536, uint32, false>(); for(uint32_t ma = 0x00000000; ma < 0x00800000; ma += 2048 * 1024) { CPU->SetFastMap(MainRAM.data32, 0x00000000 + ma, 2048 * 1024); CPU->SetFastMap(MainRAM.data32, 0x80000000 + ma, 2048 * 1024); CPU->SetFastMap(MainRAM.data32, 0xA0000000 + ma, 2048 * 1024); } CPU->SetFastMap(BIOSROM->data32, 0x1FC00000, 512 * 1024); CPU->SetFastMap(BIOSROM->data32, 0x9FC00000, 512 * 1024); CPU->SetFastMap(BIOSROM->data32, 0xBFC00000, 512 * 1024); if(PIOMem) { CPU->SetFastMap(PIOMem->data32, 0x1F000000, 65536); CPU->SetFastMap(PIOMem->data32, 0x9F000000, 65536); CPU->SetFastMap(PIOMem->data32, 0xBF000000, 65536); } MDFNMP_Init(1024, ((uint64)1 << 29) / 1024); MDFNMP_AddRAM(2048 * 1024, 0x00000000, MainRAM.data8); #if 0 MDFNMP_AddRAM(1024, 0x1F800000, ScratchRAM.data8); #endif const char *biospath_sname; if(region == REGION_JP) biospath_sname = "psx.bios_jp"; else if(region == REGION_EU) biospath_sname = "psx.bios_eu"; else if(region == REGION_NA) biospath_sname = "psx.bios_na"; else abort(); { const char *biospath = MDFN_MakeFName(MDFNMKF_FIRMWARE, 0, MDFN_GetSettingS(biospath_sname).c_str()); FileStream BIOSFile(biospath, MODE_READ); BIOSFile.read(BIOSROM->data8, 512 * 1024); } i = 0; if (!use_mednafen_memcard0_method) { FIO->LoadMemcard(0); i = 1; } for(; i < 8; i++) { char ext[64]; const char *memcard = NULL; snprintf(ext, sizeof(ext), "%d.mcr", i); memcard = MDFN_MakeFName(MDFNMKF_SAV, 0, ext); FIO->LoadMemcard(i, memcard); } for(i = 0; i < 8; i++) { Memcard_PrevDC[i] = FIO->GetMemcardDirtyCount(i); Memcard_SaveDelay[i] = -1; } input_init_calibration(); #ifdef WANT_DEBUGGER DBG_Init(); #endif PSX_Power(); } static bool LoadEXE(const uint8_t *data, const uint32_t size, bool ignore_pcsp = false) { uint32 PC = MDFN_de32lsb(&data[0x10]); uint32 SP = MDFN_de32lsb(&data[0x30]); uint32 TextStart = MDFN_de32lsb(&data[0x18]); uint32 TextSize = MDFN_de32lsb(&data[0x1C]); if(ignore_pcsp) log_cb(RETRO_LOG_INFO, "TextStart=0x%08x\nTextSize=0x%08x\n", TextStart, TextSize); else log_cb(RETRO_LOG_INFO, "PC=0x%08x\nSP=0x%08x\nTextStart=0x%08x\nTextSize=0x%08x\n", PC, SP, TextStart, TextSize); TextStart &= 0x1FFFFF; if(TextSize > 2048 * 1024) { MDFN_Error(0, "Text section too large"); return false; } if(TextSize > (size - 0x800)) { MDFN_Error(0, "Text section recorded size is larger than data available in file. Header=0x%08x, Available=0x%08x", TextSize, size - 0x800); return false; } if(TextSize < (size - 0x800)) { MDFN_Error(0, "Text section recorded size is smaller than data available in file. Header=0x%08x, Available=0x%08x", TextSize, size - 0x800); return false; } if(!TextMem.size()) { TextMem_Start = TextStart; TextMem.resize(TextSize); } if(TextStart < TextMem_Start) { uint32 old_size = TextMem.size(); //printf("RESIZE: 0x%08x\n", TextMem_Start - TextStart); TextMem.resize(old_size + TextMem_Start - TextStart); memmove(&TextMem[TextMem_Start - TextStart], &TextMem[0], old_size); TextMem_Start = TextStart; } if(TextMem.size() < (TextStart - TextMem_Start + TextSize)) TextMem.resize(TextStart - TextMem_Start + TextSize); memcpy(&TextMem[TextStart - TextMem_Start], data + 0x800, TextSize); // BIOS patch BIOSROM->WriteU32(0x6990, (3 << 26) | ((0xBF001000 >> 2) & ((1 << 26) - 1))); #if 0 BIOSROM->WriteU32(0x691C, (3 << 26) | ((0xBF001000 >> 2) & ((1 << 26) - 1))); #endif uint8 *po; po = &PIOMem->data8[0x0800]; MDFN_en32lsb(po, (0x0 << 26) | (31 << 21) | (0x8 << 0)); // JR po += 4; MDFN_en32lsb(po, 0); // NOP(kinda) po += 4; po = &PIOMem->data8[0x1000]; // Load cacheable-region target PC into r2 MDFN_en32lsb(po, (0xF << 26) | (0 << 21) | (1 << 16) | (0x9F001010 >> 16)); // LUI po += 4; MDFN_en32lsb(po, (0xD << 26) | (1 << 21) | (2 << 16) | (0x9F001010 & 0xFFFF)); // ORI po += 4; // Jump to r2 MDFN_en32lsb(po, (0x0 << 26) | (2 << 21) | (0x8 << 0)); // JR po += 4; MDFN_en32lsb(po, 0); // NOP(kinda) po += 4; // // 0x9F001010: // // Load source address into r8 uint32 sa = 0x9F000000 + 65536; MDFN_en32lsb(po, (0xF << 26) | (0 << 21) | (1 << 16) | (sa >> 16)); // LUI po += 4; MDFN_en32lsb(po, (0xD << 26) | (1 << 21) | (8 << 16) | (sa & 0xFFFF)); // ORI po += 4; // Load dest address into r9 MDFN_en32lsb(po, (0xF << 26) | (0 << 21) | (1 << 16) | (TextMem_Start >> 16)); // LUI po += 4; MDFN_en32lsb(po, (0xD << 26) | (1 << 21) | (9 << 16) | (TextMem_Start & 0xFFFF)); // ORI po += 4; // Load size into r10 MDFN_en32lsb(po, (0xF << 26) | (0 << 21) | (1 << 16) | (TextMem.size() >> 16)); // LUI po += 4; MDFN_en32lsb(po, (0xD << 26) | (1 << 21) | (10 << 16) | (TextMem.size() & 0xFFFF)); // ORI po += 4; // // Loop begin // MDFN_en32lsb(po, (0x24 << 26) | (8 << 21) | (1 << 16)); // LBU to r1 po += 4; MDFN_en32lsb(po, (0x08 << 26) | (10 << 21) | (10 << 16) | 0xFFFF); // Decrement size po += 4; MDFN_en32lsb(po, (0x28 << 26) | (9 << 21) | (1 << 16)); // SB from r1 po += 4; MDFN_en32lsb(po, (0x08 << 26) | (8 << 21) | (8 << 16) | 0x0001); // Increment source addr po += 4; MDFN_en32lsb(po, (0x05 << 26) | (0 << 21) | (10 << 16) | (-5 & 0xFFFF)); po += 4; MDFN_en32lsb(po, (0x08 << 26) | (9 << 21) | (9 << 16) | 0x0001); // Increment dest addr po += 4; // // Loop end // // Load SP into r29 if(ignore_pcsp) { po += 16; } else { MDFN_en32lsb(po, (0xF << 26) | (0 << 21) | (1 << 16) | (SP >> 16)); // LUI po += 4; MDFN_en32lsb(po, (0xD << 26) | (1 << 21) | (29 << 16) | (SP & 0xFFFF)); // ORI po += 4; // Load PC into r2 MDFN_en32lsb(po, (0xF << 26) | (0 << 21) | (1 << 16) | ((PC >> 16) | 0x8000)); // LUI po += 4; MDFN_en32lsb(po, (0xD << 26) | (1 << 21) | (2 << 16) | (PC & 0xFFFF)); // ORI po += 4; } // Half-assed instruction cache flush. ;) for(unsigned i = 0; i < 1024; i++) { MDFN_en32lsb(po, 0); po += 4; } // Jump to r2 MDFN_en32lsb(po, (0x0 << 26) | (2 << 21) | (0x8 << 0)); // JR po += 4; MDFN_en32lsb(po, 0); // NOP(kinda) po += 4; return true; } static int Load(const char *name, MDFNFILE *fp) { const bool IsPSF = false; if(!TestMagic(name, fp)) { MDFN_Error(0, "File format is unknown to module psx.."); return -1; } InitCommon(NULL, !IsPSF, true); TextMem.resize(0); if(GET_FSIZE_PTR(fp) >= 0x800) { if (!LoadEXE(GET_FDATA_PTR(fp), GET_FSIZE_PTR(fp))) return -1; } MDFNGameInfo = &EmulatedPSX; return(1); } static int LoadCD(std::vector *CDInterfaces) { InitCommon(CDInterfaces); if (psx_skipbios == 1) BIOSROM->WriteU32(0x6990, 0); MDFNGameInfo->GameType = GMT_CDROM; return(1); } static void Cleanup(void) { TextMem.resize(0); if(CDC) delete CDC; CDC = NULL; if(SPU) delete SPU; SPU = NULL; GPU_Destroy(); if(CPU) delete CPU; CPU = NULL; if(FIO) delete FIO; FIO = NULL; input_set_fio(NULL); DMA_Kill(); if(BIOSROM) delete BIOSROM; BIOSROM = NULL; if(PIOMem) delete PIOMem; PIOMem = NULL; cdifs = NULL; } static void CloseGame(void) { int i; if (!failed_init) { for(i = 0; i < 8; i++) { if (i == 0 && !use_mednafen_memcard0_method) { FIO->SaveMemcard(i); continue; } // If there's an error saving one memcard, don't skip trying to save the other, since it might succeed and // we can reduce potential data loss! try { char ext[64]; const char *memcard = NULL; snprintf(ext, sizeof(ext), "%d.mcr", i); memcard = MDFN_MakeFName(MDFNMKF_SAV, 0, ext); FIO->SaveMemcard(i, memcard); } catch(std::exception &e) { log_cb(RETRO_LOG_ERROR, "%s\n", e.what()); } } } Cleanup(); } static void CDInsertEject(void) { CD_TrayOpen = !CD_TrayOpen; for(unsigned disc = 0; disc < cdifs->size(); disc++) { #ifndef HAVE_CDROM_NEW if(!(*cdifs)[disc]->Eject(CD_TrayOpen)) { MDFN_DispMessage(_("Eject error.")); CD_TrayOpen = !CD_TrayOpen; } #endif } if(CD_TrayOpen) MDFN_DispMessage(_("Virtual CD Drive Tray Open")); else MDFN_DispMessage(_("Virtual CD Drive Tray Closed")); if(CD_IsPBP) { // only allow one pbp file to be loaded (at index 0) CDC->SetDisc(CD_TrayOpen, (CD_SelectedDisc >= 0 && !CD_TrayOpen) ? (*cdifs)[0] : NULL, (CD_SelectedDisc >= 0 && !CD_TrayOpen) ? cdifs_scex_ids[0] : NULL); } else { CDC->SetDisc(CD_TrayOpen, (CD_SelectedDisc >= 0 && !CD_TrayOpen) ? (*cdifs)[CD_SelectedDisc] : NULL, (CD_SelectedDisc >= 0 && !CD_TrayOpen) ? cdifs_scex_ids[CD_SelectedDisc] : NULL); } } static void CDEject(void) { if(!CD_TrayOpen) CDInsertEject(); } static void CDSelect(void) { if(cdifs && CD_TrayOpen) { int disc_count = (CD_IsPBP ? PBP_DiscCount : (int)cdifs->size()); CD_SelectedDisc = (CD_SelectedDisc + 1) % (disc_count + 1); if(CD_SelectedDisc == disc_count) CD_SelectedDisc = -1; if(CD_SelectedDisc == -1) MDFN_DispMessage(_("Disc absence selected.")); else MDFN_DispMessage(_("Disc %d of %d selected."), CD_SelectedDisc + 1, disc_count); } } int StateAction(StateMem *sm, int load, int data_only) { SFORMAT StateRegs[] = { SFVAR(CD_TrayOpen), SFVAR(CD_SelectedDisc), SFARRAY(MainRAM.data8, 1024 * 2048), SFARRAY32(SysControl.Regs, 9), SFVAR(PSX_PRNG.lcgo), SFVAR(PSX_PRNG.x), SFVAR(PSX_PRNG.y), SFVAR(PSX_PRNG.z), SFVAR(PSX_PRNG.c), SFEND }; int ret = MDFNSS_StateAction(sm, load, data_only, StateRegs, "MAIN"); // Call SetDisc() BEFORE we load CDC state, since SetDisc() has emulation side effects. We might want to clean this up in the future. if(load) { if(CD_IsPBP) { if(!cdifs || CD_SelectedDisc >= PBP_DiscCount) CD_SelectedDisc = -1; CDEject(); CDInsertEject(); } else { if(!cdifs || CD_SelectedDisc >= (int)cdifs->size()) CD_SelectedDisc = -1; CDC->SetDisc(CD_TrayOpen, (CD_SelectedDisc >= 0 && !CD_TrayOpen) ? (*cdifs)[CD_SelectedDisc] : NULL, (CD_SelectedDisc >= 0 && !CD_TrayOpen) ? cdifs_scex_ids[CD_SelectedDisc] : NULL); } } // TODO: Remember to increment dirty count in memory card state loading routine. ret &= CPU->StateAction(sm, load, data_only); ret &= DMA_StateAction(sm, load, data_only); ret &= TIMER_StateAction(sm, load, data_only); ret &= SIO_StateAction(sm, load, data_only); ret &= CDC->StateAction(sm, load, data_only); ret &= MDEC_StateAction(sm, load, data_only); ret &= GPU_StateAction(sm, load, data_only); ret &= SPU->StateAction(sm, load, data_only); ret &= FIO->StateAction(sm, load, data_only); ret &= IRQ_StateAction(sm, load, data_only); // Do it last. if(load) { ForceEventUpdates(0); // FIXME to work with debugger step mode. } return(ret); } static void DoSimpleCommand(int cmd) { switch(cmd) { case MDFN_MSC_RESET: PSX_Power(); break; case MDFN_MSC_POWER: PSX_Power(); break; case MDFN_MSC_INSERT_DISK: CDInsertEject(); break; case MDFN_MSC_SELECT_DISK: CDSelect(); break; case MDFN_MSC_EJECT_DISK: CDEject(); break; } } static void GSCondCode(MemoryPatch* patch, const char* cc, const unsigned len, const uint32 addr, const uint16 val) { char tmp[256]; if(patch->conditions.size() > 0) patch->conditions.append(", "); if(len == 2) snprintf(tmp, 256, "%u L 0x%08x %s 0x%04x", len, addr, cc, val & 0xFFFFU); else snprintf(tmp, 256, "%u L 0x%08x %s 0x%02x", len, addr, cc, val & 0xFFU); patch->conditions.append(tmp); } static bool DecodeGS(const std::string& cheat_string, MemoryPatch* patch) { uint64 code = 0; unsigned nybble_count = 0; for(unsigned i = 0; i < cheat_string.size(); i++) { if(cheat_string[i] == ' ' || cheat_string[i] == '-' || cheat_string[i] == ':' || cheat_string[i] == '+') continue; nybble_count++; code <<= 4; if(cheat_string[i] >= '0' && cheat_string[i] <= '9') code |= cheat_string[i] - '0'; else if(cheat_string[i] >= 'a' && cheat_string[i] <= 'f') code |= cheat_string[i] - 'a' + 0xA; else if(cheat_string[i] >= 'A' && cheat_string[i] <= 'F') code |= cheat_string[i] - 'A' + 0xA; else { if(cheat_string[i] & 0x80) log_cb(RETRO_LOG_ERROR, "[Mednafen]: Invalid character in GameShark code..\n"); else log_cb(RETRO_LOG_ERROR, "[Mednafen]: Invalid character in GameShark code: %c.\n", cheat_string[i]); return false; } } if(nybble_count != 12) { log_cb(RETRO_LOG_ERROR, "GameShark code is of an incorrect length.\n"); return false; } const uint8 code_type = code >> 40; const uint64 cl = code & 0xFFFFFFFFFFULL; patch->bigendian = false; patch->compare = 0; if(patch->type == 'T') { if(code_type != 0x80) log_cb(RETRO_LOG_ERROR, "Unrecognized GameShark code type for second part to copy bytes code.\n"); patch->addr = cl >> 16; return(false); } switch(code_type) { default: log_cb(RETRO_LOG_ERROR, "GameShark code type 0x%02X is currently not supported.\n", code_type); return(false); // TODO: case 0x10: // 16-bit increment patch->length = 2; patch->type = 'A'; patch->addr = cl >> 16; patch->val = cl & 0xFFFF; return(false); case 0x11: // 16-bit decrement patch->length = 2; patch->type = 'A'; patch->addr = cl >> 16; patch->val = (0 - cl) & 0xFFFF; return(false); case 0x20: // 8-bit increment patch->length = 1; patch->type = 'A'; patch->addr = cl >> 16; patch->val = cl & 0xFF; return(false); case 0x21: // 8-bit decrement patch->length = 1; patch->type = 'A'; patch->addr = cl >> 16; patch->val = (0 - cl) & 0xFF; return(false); // // // case 0x30: // 8-bit constant patch->length = 1; patch->type = 'R'; patch->addr = cl >> 16; patch->val = cl & 0xFF; return(false); case 0x80: // 16-bit constant patch->length = 2; patch->type = 'R'; patch->addr = cl >> 16; patch->val = cl & 0xFFFF; return(false); case 0x50: // Repeat thingy { const uint8 wcount = (cl >> 24) & 0xFF; const uint8 addr_inc = (cl >> 16) & 0xFF; const uint8 val_inc = (cl >> 0) & 0xFF; patch->mltpl_count = wcount; patch->mltpl_addr_inc = addr_inc; patch->mltpl_val_inc = val_inc; } return(true); case 0xC2: // Copy { const uint16 ccount = cl & 0xFFFF; patch->type = 'T'; patch->val = 0; patch->length = 1; patch->copy_src_addr = cl >> 16; patch->copy_src_addr_inc = 1; patch->mltpl_count = ccount; patch->mltpl_addr_inc = 1; patch->mltpl_val_inc = 0; } return(true); case 0xD0: // 16-bit == condition GSCondCode(patch, "==", 2, cl >> 16, cl); return(true); case 0xD1: // 16-bit != condition GSCondCode(patch, "!=", 2, cl >> 16, cl); return(true); case 0xD2: // 16-bit < condition GSCondCode(patch, "<", 2, cl >> 16, cl); return(true); case 0xD3: // 16-bit > condition GSCondCode(patch, ">", 2, cl >> 16, cl); return(true); case 0xE0: // 8-bit == condition GSCondCode(patch, "==", 1, cl >> 16, cl); return(true); case 0xE1: // 8-bit != condition GSCondCode(patch, "!=", 1, cl >> 16, cl); return(true); case 0xE2: // 8-bit < condition GSCondCode(patch, "<", 1, cl >> 16, cl); return(true); case 0xE3: // 8-bit > condition GSCondCode(patch, ">", 1, cl >> 16, cl); return(true); } } static CheatFormatStruct CheatFormats[] = { { "GameShark", "Sharks with lamprey eels for eyes.", DecodeGS }, }; static CheatFormatInfoStruct CheatFormatInfo = { 1, CheatFormats }; static const FileExtensionSpecStruct KnownExtensions[] = { { ".psf", "PSF1 Rip" }, { ".psx", "PS-X Executable" }, { ".exe", "PS-X Executable" }, { NULL, NULL } }; static const MDFNSetting_EnumList Region_List[] = { { "jp", REGION_JP, "Japan" }, { "na", REGION_NA, "North America" }, { "eu", REGION_EU, "Europe" }, { NULL, 0 }, }; #if 0 static const MDFNSetting_EnumList MultiTap_List[] = { { "0", 0, "Disabled" }, { "1", 1, "Enabled" }, { "auto", 0, "Automatically-enable multitap.", "NOT IMPLEMENTED YET(currently equivalent to 0") }, { NULL, 0 }, }; #endif static MDFNSetting PSXSettings[] = { { "psx.input.analog_mode_ct", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Enable analog mode combo-button alternate toggle.", "When enabled, instead of the configured Analog mode toggle button for the emulated DualShock, use a combination of buttons to toggle it instead. When Select, Start, and all four shoulder buttons are held down for about 1 second, the mode will toggle.", MDFNST_BOOL, "0", NULL, NULL }, { "psx.input.pport1.multitap", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Enable multitap on PSX port 1.", "Makes 3 more virtual ports available.\n\nNOTE: Enabling multitap in games that don't fully support it may cause deleterious effects.", MDFNST_BOOL, "0", NULL, NULL }, //MDFNST_ENUM, "auto", NULL, NULL, NULL, NULL, MultiTap_List }, { "psx.input.pport2.multitap", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Enable multitap on PSX port 2.", "Makes 3 more virtual ports available.\n\nNOTE: Enabling multitap in games that don't fully support it may cause deleterious effects.", MDFNST_BOOL, "0", NULL, NULL }, { "psx.input.port1.memcard", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Emulate memcard on virtual port 1.", NULL, MDFNST_BOOL, "1", NULL, NULL, }, { "psx.input.port2.memcard", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Emulate memcard on virtual port 2.", NULL, MDFNST_BOOL, "1", NULL, NULL, }, { "psx.input.port3.memcard", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Emulate memcard on virtual port 3.", NULL, MDFNST_BOOL, "1", NULL, NULL, }, { "psx.input.port4.memcard", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Emulate memcard on virtual port 4.", NULL, MDFNST_BOOL, "1", NULL, NULL, }, { "psx.input.port5.memcard", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Emulate memcard on virtual port 5.", NULL, MDFNST_BOOL, "1", NULL, NULL, }, { "psx.input.port6.memcard", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Emulate memcard on virtual port 6.", NULL, MDFNST_BOOL, "1", NULL, NULL, }, { "psx.input.port7.memcard", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Emulate memcard on virtual port 7.", NULL, MDFNST_BOOL, "1", NULL, NULL, }, { "psx.input.port8.memcard", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Emulate memcard on virtual port 8.", NULL, MDFNST_BOOL, "1", NULL, NULL, }, { "psx.input.port1.gun_chairs", MDFNSF_NOFLAGS, "Crosshairs color for lightgun on virtual port 1.", "A value of 0x1000000 disables crosshair drawing.", MDFNST_UINT, "0xFF0000", "0x000000", "0x1000000" }, { "psx.input.port2.gun_chairs", MDFNSF_NOFLAGS, "Crosshairs color for lightgun on virtual port 2.", "A value of 0x1000000 disables crosshair drawing.", MDFNST_UINT, "0x00FF00", "0x000000", "0x1000000" }, { "psx.input.port3.gun_chairs", MDFNSF_NOFLAGS, "Crosshairs color for lightgun on virtual port 3.", "A value of 0x1000000 disables crosshair drawing.", MDFNST_UINT, "0xFF00FF", "0x000000", "0x1000000" }, { "psx.input.port4.gun_chairs", MDFNSF_NOFLAGS, "Crosshairs color for lightgun on virtual port 4.", "A value of 0x1000000 disables crosshair drawing.", MDFNST_UINT, "0xFF8000", "0x000000", "0x1000000" }, { "psx.input.port5.gun_chairs", MDFNSF_NOFLAGS, "Crosshairs color for lightgun on virtual port 5.", "A value of 0x1000000 disables crosshair drawing.", MDFNST_UINT, "0xFFFF00", "0x000000", "0x1000000" }, { "psx.input.port6.gun_chairs", MDFNSF_NOFLAGS, "Crosshairs color for lightgun on virtual port 6.", "A value of 0x1000000 disables crosshair drawing.", MDFNST_UINT, "0x00FFFF", "0x000000", "0x1000000" }, { "psx.input.port7.gun_chairs", MDFNSF_NOFLAGS, "Crosshairs color for lightgun on virtual port 7.", "A value of 0x1000000 disables crosshair drawing.", MDFNST_UINT, "0x0080FF", "0x000000", "0x1000000" }, { "psx.input.port8.gun_chairs", MDFNSF_NOFLAGS, "Crosshairs color for lightgun on virtual port 8.", "A value of 0x1000000 disables crosshair drawing.", MDFNST_UINT, "0x8000FF", "0x000000", "0x1000000" }, { "psx.region_autodetect", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Attempt to auto-detect region of game.", NULL, MDFNST_BOOL, "1" }, { "psx.region_default", MDFNSF_EMU_STATE | MDFNSF_UNTRUSTED_SAFE, "Default region to use.", "Used if region autodetection fails or is disabled.", MDFNST_ENUM, "jp", NULL, NULL, NULL, NULL, Region_List }, { "psx.bios_jp", MDFNSF_EMU_STATE, "Path to the Japan SCPH-5500 ROM BIOS", NULL, MDFNST_STRING, "scph5500.bin" }, { "psx.bios_na", MDFNSF_EMU_STATE, "Path to the North America SCPH-5501 ROM BIOS", "SHA1 0555c6fae8906f3f09baf5988f00e55f88e9f30b", MDFNST_STRING, "scph5501.bin" }, { "psx.bios_eu", MDFNSF_EMU_STATE, "Path to the Europe SCPH-5502 ROM BIOS", NULL, MDFNST_STRING, "scph5502.bin" }, { "psx.spu.resamp_quality", MDFNSF_NOFLAGS, "SPU output resampler quality.", "0 is lowest quality and CPU usage, 10 is highest quality and CPU usage. The resampler that this setting refers to is used for converting from 44.1KHz to the sampling rate of the host audio device Mednafen is using. Changing Mednafen's output rate, via the \"sound.rate\" setting, to \"44100\" will bypass the resampler, which will decrease CPU usage by Mednafen, and can increase or decrease audio quality, depending on various operating system and hardware factors.", MDFNST_UINT, "5", "0", "10" }, { "psx.slstart", MDFNSF_NOFLAGS, "First displayed scanline in NTSC mode.", NULL, MDFNST_INT, "0", "0", "239" }, { "psx.slend", MDFNSF_NOFLAGS, "Last displayed scanline in NTSC mode.", NULL, MDFNST_INT, "239", "0", "239" }, { "psx.slstartp", MDFNSF_NOFLAGS, "First displayed scanline in PAL mode.", NULL, MDFNST_INT, "0", "0", "287" }, { "psx.slendp", MDFNSF_NOFLAGS, "Last displayed scanline in PAL mode.", NULL, MDFNST_INT, "287", "0", "287" }, #if PSX_DBGPRINT_ENABLE { "psx.dbg_level", MDFNSF_NOFLAGS, "Debug printf verbosity level.", NULL, MDFNST_UINT, "0", "0", "4" }, #endif { NULL }, }; // Note for the future: If we ever support PSX emulation with non-8-bit RGB color components, or add a new linear RGB colorspace to MDFN_PixelFormat, we'll need // to buffer the intermediate 24-bit non-linear RGB calculation into an array and pass that into the GPULineHook stuff, otherwise netplay could break when // an emulated GunCon is used. This IS assuming, of course, that we ever implement save state support so that netplay actually works at all... MDFNGI EmulatedPSX = { PSXSettings, MDFN_MASTERCLOCK_FIXED(33868800), 0, true, // Multires possible? // // Note: Following video settings will be overwritten during game load. // 0, // lcm_width 0, // lcm_height NULL, // Dummy 320, // Nominal width 240, // Nominal height 0, // Framebuffer width 0, // Framebuffer height // // // 2, // Number of output sound channels }; /* end of Mednafen psx.cpp */ //forward decls extern void Emulate(EmulateSpecStruct *espec); static bool overscan; static double last_sound_rate; #ifdef NEED_DEINTERLACER static bool PrevInterlaced; static Deinterlacer deint; #endif static MDFN_Surface *surf = NULL; static void alloc_surface(void) { MDFN_PixelFormat pix_fmt(MDFN_COLORSPACE_RGB, 16, 8, 0, 24); uint32_t width = MEDNAFEN_CORE_GEOMETRY_MAX_W; uint32_t height = is_pal ? MEDNAFEN_CORE_GEOMETRY_MAX_H : 480; width <<= GPU_get_upscale_shift(); height <<= GPU_get_upscale_shift(); if (surf != NULL) delete surf; surf = new MDFN_Surface(NULL, width, height, width, pix_fmt); } static void check_system_specs(void) { // Hints that we need a fairly powerful system to run this. unsigned level = 15; environ_cb(RETRO_ENVIRONMENT_SET_PERFORMANCE_LEVEL, &level); } static unsigned disk_get_num_images(void) { if(cdifs) return CD_IsPBP ? PBP_DiscCount : cdifs->size(); return 0; } static bool eject_state; static bool disk_set_eject_state(bool ejected) { log_cb(RETRO_LOG_INFO, "[Mednafen]: Ejected: %u.\n", ejected); if (ejected == eject_state) return false; DoSimpleCommand(ejected ? MDFN_MSC_EJECT_DISK : MDFN_MSC_INSERT_DISK); eject_state = ejected; return true; } static bool disk_get_eject_state(void) { return eject_state; } static unsigned disk_get_image_index(void) { // PSX global. Hacky. return CD_SelectedDisc; } static bool disk_set_image_index(unsigned index) { CD_SelectedDisc = index; if (CD_SelectedDisc > disk_get_num_images()) CD_SelectedDisc = disk_get_num_images(); // Very hacky. CDSelect command will increment first. CD_SelectedDisc--; DoSimpleCommand(MDFN_MSC_SELECT_DISK); return true; } // Mednafen PSX really doesn't support adding disk images on the fly ... // Hack around this. static void mednafen_update_md5_checksum(CDIF *iface) { uint8 LayoutMD5[16]; md5_context layout_md5; TOC toc; mednafen_md5_starts(&layout_md5); #ifndef HAVE_CDROM_NEW TOC_Clear(&toc); #endif iface->ReadTOC(&toc); mednafen_md5_update_u32_as_lsb(&layout_md5, toc.first_track); mednafen_md5_update_u32_as_lsb(&layout_md5, toc.last_track); mednafen_md5_update_u32_as_lsb(&layout_md5, toc.tracks[100].lba); for (uint32 track = toc.first_track; track <= toc.last_track; track++) { mednafen_md5_update_u32_as_lsb(&layout_md5, toc.tracks[track].lba); mednafen_md5_update_u32_as_lsb(&layout_md5, toc.tracks[track].control & 0x4); } mednafen_md5_finish(&layout_md5, LayoutMD5); memcpy(MDFNGameInfo->MD5, LayoutMD5, 16); char *md5 = mednafen_md5_asciistr(MDFNGameInfo->MD5); log_cb(RETRO_LOG_INFO, "[Mednafen]: Updated md5 checksum: %s.\n", md5); } // Untested ... static bool disk_replace_image_index(unsigned index, const struct retro_game_info *info) { if (index >= disk_get_num_images() || !eject_state || CD_IsPBP) return false; if (!info) { delete cdifs->at(index); cdifs->erase(cdifs->begin() + index); if (index < CD_SelectedDisc) CD_SelectedDisc--; // Poke into psx.cpp CalcDiscSCEx(); return true; } bool success = true; #ifdef HAVE_CDROM_NEW CDIF *iface = CDIF_Open(info->path, false); #else CDIF *iface = CDIF_Open(&success, info->path, false, false); #endif if (!success) return false; delete cdifs->at(index); cdifs->at(index) = iface; CalcDiscSCEx(); /* If we replace, we want the "swap disk manually effect". */ extract_basename(retro_cd_base_name, info->path, sizeof(retro_cd_base_name)); /* Ugly, but needed to get proper disk swapping effect. */ mednafen_update_md5_checksum(iface); return true; } static bool disk_add_image_index(void) { if(CD_IsPBP) return false; cdifs->push_back(NULL); return true; } static struct retro_disk_control_callback disk_interface = { disk_set_eject_state, disk_get_eject_state, disk_get_image_index, disk_set_image_index, disk_get_num_images, disk_replace_image_index, disk_add_image_index, }; static void fallback_log(enum retro_log_level level, const char *fmt, ...) { } void retro_init(void) { struct retro_log_callback log; uint64_t serialization_quirks = RETRO_SERIALIZATION_QUIRK_CORE_VARIABLE_SIZE; if (environ_cb(RETRO_ENVIRONMENT_GET_LOG_INTERFACE, &log)) log_cb = log.log; else log_cb = fallback_log; CDUtility_Init(); eject_state = false; const char *dir = NULL; if (environ_cb(RETRO_ENVIRONMENT_GET_SYSTEM_DIRECTORY, &dir) && dir) { snprintf(retro_base_directory, sizeof(retro_base_directory), "%s", dir); } else { /* TODO: Add proper fallback */ log_cb(RETRO_LOG_WARN, "System directory is not defined. Fallback on using same dir as ROM for system directory later ...\n"); failed_init = true; } if (environ_cb(RETRO_ENVIRONMENT_GET_SAVE_DIRECTORY, &dir) && dir) { // If save directory is defined use it, otherwise use system directory if (dir) snprintf(retro_save_directory, sizeof(retro_save_directory), "%s", dir); else snprintf(retro_save_directory, sizeof(retro_save_directory), "%s", retro_base_directory); } else { /* TODO: Add proper fallback */ log_cb(RETRO_LOG_WARN, "Save directory is not defined. Fallback on using SYSTEM directory ...\n"); snprintf(retro_save_directory, sizeof(retro_save_directory), "%s", retro_base_directory); } environ_cb(RETRO_ENVIRONMENT_SET_DISK_CONTROL_INTERFACE, &disk_interface); if (environ_cb(RETRO_ENVIRONMENT_GET_PERF_INTERFACE, &perf_cb)) perf_get_cpu_features_cb = perf_cb.get_cpu_features; else perf_get_cpu_features_cb = NULL; if (environ_cb(RETRO_ENVIRONMENT_SET_SERIALIZATION_QUIRKS, &serialization_quirks) && (serialization_quirks & RETRO_SERIALIZATION_QUIRK_FRONT_VARIABLE_SIZE)) enable_variable_serialization_size = true; setting_initial_scanline = 0; setting_last_scanline = 239; setting_initial_scanline_pal = 0; setting_last_scanline_pal = 287; check_system_specs(); } void retro_reset(void) { DoSimpleCommand(MDFN_MSC_RESET); } bool retro_load_game_special(unsigned, const struct retro_game_info *, size_t) { return false; } #ifdef EMSCRIPTEN static bool old_cdimagecache = true; #else static bool old_cdimagecache = false; #endif static bool boot = true; // shared memory cards support static bool shared_memorycards = false; static bool shared_memorycards_toggle = false; static bool has_new_geometry = false; static void check_variables(bool startup) { struct retro_variable var = {0}; extern void PSXDitherApply(bool); if (startup) { var.key = option_renderer; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (!strcmp(var.value, "software")) { rsx_intf_set_type(RSX_SOFTWARE); rsx_intf_set_fallback_type(RSX_SOFTWARE); } else if (!strcmp(var.value, "opengl")) { rsx_intf_set_type(RSX_OPENGL); rsx_intf_set_fallback_type(RSX_VULKAN); } else if (!strcmp(var.value, "vulkan")) { rsx_intf_set_type(RSX_VULKAN); rsx_intf_set_fallback_type(RSX_OPENGL); } } } #ifndef EMSCRIPTEN var.key = option_cd_access_method; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "sync") == 0) { old_cdimagecache = false; cd_async = false; } else if (strcmp(var.value, "async") == 0) { old_cdimagecache = false; cd_async = true; } else if (strcmp(var.value, "precache") == 0) { old_cdimagecache = true; cd_async = false; } } #endif var.key = option_cpu_overclock; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "enabled") == 0) psx_cpu_overclock = true; else if (strcmp(var.value, "disabled") == 0) psx_cpu_overclock = false; } else psx_cpu_overclock = false; var.key = option_skip_bios; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "enabled") == 0) psx_skipbios = 1; else psx_skipbios = 0; } var.key = option_widescreen_hack; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "enabled") == 0) { if (widescreen_hack == false) has_new_geometry = true; widescreen_hack = true; } else if (strcmp(var.value, "disabled") == 0) { if (widescreen_hack == true) has_new_geometry = true; widescreen_hack = false; } } else widescreen_hack = false; var.key = option_memcard1_enable; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "enabled") == 0) enable_memcard1 = true; else if (strcmp(var.value, "disabled") == 0) enable_memcard1 = false; } else enable_memcard1 = false; var.key = option_analog_calibration; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "enabled") == 0) input_enable_calibration( true ); else if (strcmp(var.value, "disabled") == 0) input_enable_calibration( false ); } else input_enable_calibration( false ); rsx_intf_refresh_variables(); switch (rsx_intf_is_type()) { case RSX_SOFTWARE: var.key = option_internal_resolution; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { uint8_t val = var.value[0] - '0'; if (var.value[1] != 'x') { val = (var.value[0] - '0') * 10; val += var.value[1] - '0'; } // Upscale must be a power of two assert((val & (val - 1)) == 0); // Crappy "ffs" implementation since the standard function is not // widely supported by libc in the wild uint8_t new_upscale_shift; for (new_upscale_shift = 0; (val & 1) == 0; ++new_upscale_shift) { val >>= 1; } psx_gpu_upscale_shift = new_upscale_shift; } else psx_gpu_upscale_shift = 0; break; case RSX_OPENGL: case RSX_VULKAN: psx_gpu_upscale_shift = 0; break; } var.key = option_dither_mode; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "1x(native)") == 0) psx_gpu_dither_mode = DITHER_NATIVE; else if (strcmp(var.value, "internal resolution") == 0) psx_gpu_dither_mode = DITHER_UPSCALED; else if (strcmp(var.value, "disabled") == 0) psx_gpu_dither_mode = DITHER_OFF; } else psx_gpu_dither_mode = DITHER_NATIVE; // iCB: PGXP settings var.key = option_pgxp_mode; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "disabled") == 0) psx_pgxp_mode = PGXP_MODE_NONE; else if (strcmp(var.value, "memory only") == 0) psx_pgxp_mode = PGXP_MODE_MEMORY | PGXP_MODE_GTE; else if (strcmp(var.value, "memory + CPU") == 0) psx_pgxp_mode = PGXP_MODE_MEMORY | PGXP_MODE_GTE | PGXP_MODE_CPU; } else psx_pgxp_mode = PGXP_MODE_NONE; var.key = option_pgxp_vertex; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "disabled") == 0) psx_pgxp_vertex_caching = PGXP_MODE_NONE; else if (strcmp(var.value, "enabled") == 0) psx_pgxp_vertex_caching = PGXP_VERTEX_CACHE; } else psx_pgxp_vertex_caching = PGXP_MODE_NONE; var.key = option_pgxp_texture; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "disabled") == 0) psx_pgxp_texture_correction = PGXP_MODE_NONE; else if (strcmp(var.value, "enabled") == 0) psx_pgxp_texture_correction = PGXP_TEXTURE_CORRECTION; } else psx_pgxp_texture_correction = PGXP_MODE_NONE; // \iCB var.key = option_analog_toggle; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if ((strcmp(var.value, "enabled") == 0) && setting_psx_analog_toggle != 1) { setting_psx_analog_toggle = 1; setting_apply_analog_toggle = true; } else if ((strcmp(var.value, "disabled") == 0) && setting_psx_analog_toggle != 0) { setting_psx_analog_toggle = 0; setting_apply_analog_toggle = true; } } var.key = option_multitap1; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "enabled") == 0) setting_psx_multitap_port_1 = true; else if (strcmp(var.value, "disabled") == 0) setting_psx_multitap_port_1 = false; } var.key = option_multitap2; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "enabled") == 0) setting_psx_multitap_port_2 = true; else if (strcmp(var.value, "disabled") == 0) setting_psx_multitap_port_2 = false; } var.key = option_mouse_sensitivity; var.value = NULL; if ( environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value ) input_set_mouse_sensitivity( atoi( var.value ) ); var.key = option_gun_cursor; var.value = NULL; if ( environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value ) { if ( !strcmp(var.value, "Off") ) { input_set_gun_cursor( FrontIO::SETTING_GUN_CROSSHAIR_OFF ); } else if ( !strcmp(var.value, "Cross") ) { input_set_gun_cursor( FrontIO::SETTING_GUN_CROSSHAIR_CROSS ); } else if ( !strcmp(var.value, "Dot") ) { input_set_gun_cursor( FrontIO::SETTING_GUN_CROSSHAIR_DOT ); } } var.key = option_initial_scanline; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { setting_initial_scanline = atoi(var.value); } var.key = option_last_scanline; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { setting_last_scanline = atoi(var.value); } var.key = option_initial_scanline_pal; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { setting_initial_scanline_pal = atoi(var.value); } var.key = option_last_scanline_pal; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { setting_last_scanline_pal = atoi(var.value); } if(setting_psx_multitap_port_1 && setting_psx_multitap_port_2) input_set_player_count( 8 ); else if (setting_psx_multitap_port_1 || setting_psx_multitap_port_2) input_set_player_count( 4 ); else input_set_player_count( 2 ); var.key = option_memcard0_method; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "libretro") == 0) use_mednafen_memcard0_method = false; else if (strcmp(var.value, "mednafen") == 0) use_mednafen_memcard0_method = true; } //this option depends on beetle_psx_use_mednafen_memcard0_method being disabled so it should be evaluated that var.key = option_memcard_shared; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "enabled") == 0) { if(boot) { if(use_mednafen_memcard0_method) shared_memorycards_toggle = true; } else { if(use_mednafen_memcard0_method) shared_memorycards_toggle = true; } } else if (strcmp(var.value, "disabled") == 0) { if(boot) shared_memorycards_toggle = false; else { shared_memorycards = false; } } } var.key = option_frame_duping; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (!strcmp(var.value, "enabled")) { bool can_dupe = false; if (environ_cb(RETRO_ENVIRONMENT_GET_CAN_DUPE, &can_dupe)) allow_frame_duping = true; } else if (!strcmp(var.value, "disabled")) allow_frame_duping = false; } else allow_frame_duping = false; var.key = option_display_internal_fps; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "enabled") == 0) display_internal_framerate = true; else if (strcmp(var.value, "disabled") == 0) display_internal_framerate = false; } else display_internal_framerate = false; var.key = option_crop_overscan; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "enabled") == 0) crop_overscan = true; else if (strcmp(var.value, "disabled") == 0) crop_overscan = false; } var.key = option_image_offset; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "disabled") == 0) image_offset = 0; else if (strcmp(var.value, "1 px") == 0) image_offset = -1; else if (strcmp(var.value, "-1 px") == 0) image_offset = 1; else if (strcmp(var.value, "2 px") == 0) image_offset = -2; else if (strcmp(var.value, "-2 px") == 0) image_offset = 2; else if (strcmp(var.value, "3 px") == 0) image_offset = -3; else if (strcmp(var.value, "-3 px") == 0) image_offset = 3; else if (strcmp(var.value, "4 px") == 0) image_offset = -4; else if (strcmp(var.value, "-4 px") == 0) image_offset = 4; } var.key = option_image_crop; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { if (strcmp(var.value, "disabled") == 0) image_crop = 0; else if (strcmp(var.value, "1 px") == 0) image_crop = 1; else if (strcmp(var.value, "2 px") == 0) image_crop = 2; else if (strcmp(var.value, "3 px") == 0) image_crop = 3; else if (strcmp(var.value, "4 px") == 0) image_crop = 4; else if (strcmp(var.value, "5 px") == 0) image_crop = 5; else if (strcmp(var.value, "6 px") == 0) image_crop = 6; else if (strcmp(var.value, "7 px") == 0) image_crop = 7; else if (strcmp(var.value, "8 px") == 0) image_crop = 8; } var.key = option_cd_fastload; if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE, &var) && var.value) { uint8_t val = var.value[0] - '0'; if (var.value[1] != 'x') { val = (var.value[0] - '0') * 10; val += var.value[1] - '0'; } // Value is a multiplier from the native 2x, so we divide by // two cd_2x_speedup = val / 2; } else cd_2x_speedup = 1; } #ifdef NEED_CD static void ReadM3U(std::vector &file_list, std::string path, unsigned depth = 0) { std::string dir_path; char linebuf[2048]; FILE *fp = fopen(path.c_str(), "rb"); if (fp == NULL) return; MDFN_GetFilePathComponents(path, &dir_path); while(fgets(linebuf, sizeof(linebuf), fp) != NULL) { std::string efp; if(linebuf[0] == '#') continue; string_trim_whitespace_right(linebuf); if(linebuf[0] == 0) continue; efp = MDFN_EvalFIP(dir_path, std::string(linebuf)); if(efp.size() >= 4 && efp.substr(efp.size() - 4) == ".m3u") { if(efp == path) { log_cb(RETRO_LOG_ERROR, "M3U at \"%s\" references self.\n", efp.c_str()); goto end; } if(depth == 99) { log_cb(RETRO_LOG_ERROR, "M3U load recursion too deep!\n"); goto end; } ReadM3U(file_list, efp, depth++); } else file_list.push_back(efp); } end: fclose(fp); } static std::vector CDInterfaces; // FIXME: Cleanup on error out. // TODO: LoadCommon() static MDFNGI *MDFNI_LoadCD(const char *devicename) { uint8 LayoutMD5[16]; log_cb(RETRO_LOG_INFO, "Loading %s...\n", devicename); try { if(devicename && strlen(devicename) > 4 && !strcasecmp(devicename + strlen(devicename) - 4, ".m3u")) { std::vector file_list; ReadM3U(file_list, devicename); for(unsigned i = 0; i < file_list.size(); i++) { bool success = true; #ifdef HAVE_CDROM_NEW CDIF *image = CDIF_Open(file_list[i].c_str(), old_cdimagecache); #else CDIF *image = CDIF_Open(&success, file_list[i].c_str(), false, old_cdimagecache); #endif CDInterfaces.push_back(image); } } else if(devicename && strlen(devicename) > 4 && !strcasecmp(devicename + strlen(devicename) - 4, ".pbp")) { bool success = true; #ifdef HAVE_CDROM_NEW CDIF *image = CDIF_Open(devicename, old_cdimagecache); #else CDIF *image = CDIF_Open(&success, devicename, false, old_cdimagecache); #endif CD_IsPBP = true; CDInterfaces.push_back(image); } else { bool success = true; #ifdef HAVE_CDROM_NEW CDIF *image = CDIF_Open(devicename, old_cdimagecache); #else CDIF *image = CDIF_Open(&success, devicename, false, old_cdimagecache); #endif CDInterfaces.push_back(image); } } catch(std::exception &e) { log_cb(RETRO_LOG_ERROR, "Error opening CD.\n"); return(0); } // Print out a track list for all discs. for(unsigned i = 0; i < CDInterfaces.size(); i++) { TOC toc; #ifndef HAVE_CDROM_NEW TOC_Clear(&toc); #endif CDInterfaces[i]->ReadTOC(&toc); log_cb(RETRO_LOG_DEBUG, "CD %d Layout:\n", i + 1); for(int32 track = toc.first_track; track <= toc.last_track; track++) { log_cb(RETRO_LOG_DEBUG, "Track %2d, LBA: %6d %s\n", track, toc.tracks[track].lba, (toc.tracks[track].control & 0x4) ? "DATA" : "AUDIO"); } log_cb(RETRO_LOG_DEBUG, "Leadout: %6d\n", toc.tracks[100].lba); } // Calculate layout MD5. The system emulation LoadCD() code is free to ignore this value and calculate // its own, or to use it to look up a game in its database. { md5_context layout_md5; mednafen_md5_starts(&layout_md5); for(unsigned i = 0; i < CDInterfaces.size(); i++) { TOC toc; #ifndef HAVE_CDROM_NEW TOC_Clear(&toc); #endif CDInterfaces[i]->ReadTOC(&toc); mednafen_md5_update_u32_as_lsb(&layout_md5, toc.first_track); mednafen_md5_update_u32_as_lsb(&layout_md5, toc.last_track); mednafen_md5_update_u32_as_lsb(&layout_md5, toc.tracks[100].lba); for(uint32 track = toc.first_track; track <= toc.last_track; track++) { mednafen_md5_update_u32_as_lsb(&layout_md5, toc.tracks[track].lba); mednafen_md5_update_u32_as_lsb(&layout_md5, toc.tracks[track].control & 0x4); } } mednafen_md5_finish(&layout_md5, LayoutMD5); } if (MDFNGameInfo == NULL) { MDFNGameInfo = &EmulatedPSX; } // TODO: include module name in hash memcpy(MDFNGameInfo->MD5, LayoutMD5, 16); if(!(LoadCD(&CDInterfaces))) { for(unsigned i = 0; i < CDInterfaces.size(); i++) delete CDInterfaces[i]; CDInterfaces.clear(); MDFNGameInfo = NULL; return NULL; } //MDFNI_SetLayerEnableMask(~0ULL); MDFN_LoadGameCheats(NULL); MDFNMP_InstallReadPatches(); return(MDFNGameInfo); } #endif static MDFNGI *MDFNI_LoadGame(const char *name) { MDFNFILE *GameFile; if(strlen(name) > 4 && ( !strcasecmp(name + strlen(name) - 4, ".cue") || !strcasecmp(name + strlen(name) - 4, ".ccd") || !strcasecmp(name + strlen(name) - 4, ".toc") || !strcasecmp(name + strlen(name) - 4, ".m3u") || !strcasecmp(name + strlen(name) - 4, ".chd") || !strcasecmp(name + strlen(name) - 4, ".pbp") )) return MDFNI_LoadCD(name); GameFile = file_open(name); if(!GameFile) goto error; if(Load(name, GameFile) <= 0) goto error; file_close(GameFile); GameFile = NULL; return(MDFNGameInfo); error: if (GameFile) file_close(GameFile); GameFile = NULL; MDFNGameInfo = NULL; return NULL; } bool retro_load_game(const struct retro_game_info *info) { char tocbasepath[4096]; bool ret = false; if (failed_init) return false; input_init_env( environ_cb ); enum retro_pixel_format fmt = RETRO_PIXEL_FORMAT_XRGB8888; if (!environ_cb(RETRO_ENVIRONMENT_SET_PIXEL_FORMAT, &fmt)) return false; extract_basename(retro_cd_base_name, info->path, sizeof(retro_cd_base_name)); extract_directory(retro_cd_base_directory, info->path, sizeof(retro_cd_base_directory)); snprintf(tocbasepath, sizeof(tocbasepath), "%s%c%s.toc", retro_cd_base_directory, retro_slash, retro_cd_base_name); if (filestream_exists(tocbasepath)) snprintf(retro_cd_path, sizeof(retro_cd_path), "%s", tocbasepath); else snprintf(retro_cd_path, sizeof(retro_cd_path), "%s", info->path); check_variables(true); //make sure shared memory cards and save states are enabled only at startup shared_memorycards = shared_memorycards_toggle; if (!MDFNI_LoadGame(retro_cd_path)) { failed_init = true; return false; } /* MDFNI_LoadGame() has been called, we can now query the game's region to deduce which firmware version is needed. In case the file is missing, we log error messages and make this function fail in order to prevent the core and the frontend hanging in a black screen */ if ( !firmware_is_present(CalcDiscSCEx()) ) { log_cb(RETRO_LOG_ERROR, "Content cannot be loaded\n"); return false; } MDFN_LoadGameCheats(NULL); MDFNMP_InstallReadPatches(); is_pal = (CalcDiscSCEx() == REGION_EU); content_is_pal = is_pal; alloc_surface(); #ifdef NEED_DEINTERLACER PrevInterlaced = false; deint.ClearState(); #endif input_init(); boot = false; frame_count = 0; internal_frame_count = 0; ret = rsx_intf_open(is_pal); return ret; } void retro_unload_game(void) { if(!MDFNGameInfo) return; rsx_intf_close(); MDFN_FlushGameCheats(0); CloseGame(); MDFNMP_Kill(); MDFNGameInfo = NULL; for(unsigned i = 0; i < CDInterfaces.size(); i++) delete CDInterfaces[i]; CDInterfaces.clear(); retro_cd_base_directory[0] = '\0'; retro_cd_path[0] = '\0'; retro_cd_base_name[0] = '\0'; } static uint64_t video_frames, audio_frames; #define SOUND_CHANNELS 2 void retro_run(void) { bool updated = false; rsx_intf_prepare_frame(); if (environ_cb(RETRO_ENVIRONMENT_GET_VARIABLE_UPDATE, &updated) && updated) { check_variables(false); struct retro_system_av_info new_av_info; /* Max width/height changed, need to call SET_SYSTEM_AV_INFO */ if (GPU_get_upscale_shift() != psx_gpu_upscale_shift) { retro_get_system_av_info(&new_av_info); if (environ_cb(RETRO_ENVIRONMENT_SET_SYSTEM_AV_INFO, &new_av_info)) { // We successfully changed the frontend's resolution, we can // apply the change immediately GPU_Rescale(psx_gpu_upscale_shift); alloc_surface(); has_new_geometry = false; } else { // Failed, we have to postpone the upscaling change psx_gpu_upscale_shift = GPU_get_upscale_shift(); } } /* Widescreen hack changed, need to call SET_GEOMETRY to change aspect ratio */ if (has_new_geometry) { retro_get_system_av_info(&new_av_info); if (environ_cb(RETRO_ENVIRONMENT_SET_GEOMETRY, &new_av_info)) { has_new_geometry = false; } } switch (psx_gpu_dither_mode) { case DITHER_NATIVE: GPU_set_dither_upscale_shift(0); break; case DITHER_UPSCALED: GPU_set_dither_upscale_shift(psx_gpu_upscale_shift); break; case DITHER_OFF: break; } PGXP_SetModes(psx_pgxp_mode | psx_pgxp_vertex_caching | psx_pgxp_texture_correction); } if (display_internal_framerate) { frame_count++; if (frame_count % INTERNAL_FPS_SAMPLE_PERIOD == 0) { char msg_buffer[64]; float fps = is_pal ? FPS_PAL : FPS_NTSC; float internal_fps = (internal_frame_count * fps) / INTERNAL_FPS_SAMPLE_PERIOD; snprintf(msg_buffer, sizeof(msg_buffer), _("Internal FPS: %.2f"), fps); MDFN_DispMessage(msg_buffer); internal_frame_count = 0; } } else { // Keep the counters at 0 so that they don't display a bogus // value if this option is enabled later on frame_count = 0; internal_frame_count = 0; } if (setting_apply_analog_toggle) { FIO->SetAMCT(setting_psx_analog_toggle); setting_apply_analog_toggle = false; } input_poll_cb(); input_update( input_state_cb ); static int32 rects[MEDNAFEN_CORE_GEOMETRY_MAX_H]; rects[0] = ~0; EmulateSpecStruct spec = {0}; spec.surface = surf; spec.SoundRate = 44100; spec.SoundBuf = NULL; spec.LineWidths = rects; spec.SoundBufMaxSize = 0; spec.SoundVolume = 1.0; spec.soundmultiplier = 1.0; spec.SoundBufSize = 0; spec.VideoFormatChanged = false; spec.SoundFormatChanged = false; EmulateSpecStruct *espec = (EmulateSpecStruct*)&spec; /* start of Emulate */ int32_t timestamp = 0; espec->skip = false; MDFNMP_ApplyPeriodicCheats(); espec->MasterCycles = 0; espec->SoundBufSize = 0; FIO->UpdateInput(); GPU_StartFrame(espec); Running = -1; timestamp = CPU->Run(timestamp); assert(timestamp); ForceEventUpdates(timestamp); #if 0 if(GPU_GetScanlineNum() < 100) PSX_DBG(PSX_DBG_ERROR, "[BUUUUUUUG] Frame timing end glitch; scanline=%u, st=%u\n", GPU_GetScanlineNum(), timestamp); #endif //printf("scanline=%u, st=%u\n", GPU_GetScanlineNum(), timestamp); espec->SoundBufSize = IntermediateBufferPos; IntermediateBufferPos = 0; CDC->ResetTS(); TIMER_ResetTS(); DMA_ResetTS(); GPU_ResetTS(); FIO->ResetTS(); RebaseTS(timestamp); espec->MasterCycles = timestamp; // Save memcards if dirty. unsigned players = input_get_player_count(); for(int i = 0; i < players; i++) { uint64_t new_dc = FIO->GetMemcardDirtyCount(i); if(new_dc > Memcard_PrevDC[i]) { Memcard_PrevDC[i] = new_dc; Memcard_SaveDelay[i] = 0; } if(Memcard_SaveDelay[i] >= 0) { Memcard_SaveDelay[i] += timestamp; if(Memcard_SaveDelay[i] >= (33868800 * 2)) // Wait until about 2 seconds of no new writes. { char ext[64]; const char *memcard = NULL; log_cb(RETRO_LOG_INFO, "Saving memcard %d...\n", i); if (i == 0 && !use_mednafen_memcard0_method) { FIO->SaveMemcard(i); Memcard_SaveDelay[i] = -1; Memcard_PrevDC[i] = 0; continue; } snprintf(ext, sizeof(ext), "%d.mcr", i); memcard = MDFN_MakeFName(MDFNMKF_SAV, 0, ext); FIO->SaveMemcard(i, memcard); Memcard_SaveDelay[i] = -1; Memcard_PrevDC[i] = 0; } } } /* end of Emulate */ const void *fb = NULL; unsigned width = rects[0]; unsigned height = spec.DisplayRect.h; uint8_t upscale_shift = GPU_get_upscale_shift(); if (rsx_intf_is_type() == RSX_SOFTWARE) { #ifdef NEED_DEINTERLACER if (spec.InterlaceOn) { if (!PrevInterlaced) deint.ClearState(); deint.Process(spec.surface, spec.DisplayRect, spec.LineWidths, spec.InterlaceField); PrevInterlaced = true; spec.InterlaceOn = false; spec.InterlaceField = 0; } else PrevInterlaced = false; #endif // PSX is rather special, and needs specific handling ... width = rects[0]; // spec.DisplayRect.w is 0. Only rects[0].w seems to return something sane. height = spec.DisplayRect.h; //fprintf(stderr, "(%u x %u)\n", width, height); // PSX core inserts padding on left and right (overscan). Optionally crop this. const uint32_t *pix = surf->pixels; unsigned pix_offset = 0; if (crop_overscan) { // 320 width -> 350 width. // 364 width -> 400 width. // 256 width -> 280 width. // 560 width -> 512 width. // 640 width -> 700 width. // Rectify this. switch (width) { // The shifts are not simply (padded_width - real_width) / 2. case 280: pix_offset += 10 + (image_offset + floor(0.5 * image_crop)); width = 256 - image_crop; break; case 350: pix_offset += 14 + (image_offset + floor(0.5 * image_crop)); width = 320 - image_crop; break; case 400: pix_offset += 15 + (image_offset + floor(0.5 * image_crop)); width = 364 - image_crop; break; case 560: pix_offset += 26 + (image_offset + floor(0.5 * image_crop)); width = 512 - image_crop; break; case 700: pix_offset += 33 + (image_offset + floor(0.5 * image_crop)); width = 640 - image_crop; break; default: // This shouldn't happen. break; } if (is_pal) { // Attempt to remove black bars. // These numbers are arbitrary since the bars differ some by game. // Changes aspect ratio in the process. height -= 36; pix_offset += 5 * (MEDNAFEN_CORE_GEOMETRY_MAX_W << 2); } } width <<= upscale_shift; height <<= upscale_shift; pix += pix_offset << upscale_shift; if (GPU_get_display_change_count() != 0) fb = pix; if (!allow_frame_duping) fb = pix; } int16_t *interbuf = (int16_t*)&IntermediateBuffer; rsx_intf_finalize_frame(fb, width, height, MEDNAFEN_CORE_GEOMETRY_MAX_W << (2 + upscale_shift)); video_frames++; audio_frames += spec.SoundBufSize; audio_batch_cb(interbuf, spec.SoundBufSize); if (GPU_get_display_change_count() != 0) { // For simplicity I assume that the game is using double // buffering and it swaps buffers once per frame. That's // obviously an oversimplification, if the game uses simple // buffering it will report 0 fps. internal_frame_count++; GPU_set_display_change_count(0); } } void retro_get_system_info(struct retro_system_info *info) { memset(info, 0, sizeof(*info)); info->library_name = MEDNAFEN_CORE_NAME; #ifdef GIT_VERSION info->library_version = MEDNAFEN_CORE_VERSION GIT_VERSION; #else info->library_version = MEDNAFEN_CORE_VERSION; #endif info->need_fullpath = true; info->valid_extensions = MEDNAFEN_CORE_EXTENSIONS; info->block_extract = false; } void retro_get_system_av_info(struct retro_system_av_info *info) { rsx_intf_get_system_av_info(info); } void retro_deinit(void) { delete surf; surf = NULL; log_cb(RETRO_LOG_INFO, "[%s]: Samples / Frame: %.5f\n", MEDNAFEN_CORE_NAME, (double)audio_frames / video_frames); log_cb(RETRO_LOG_INFO, "[%s]: Estimated FPS: %.5f\n", MEDNAFEN_CORE_NAME, (double)video_frames * 44100 / audio_frames); } unsigned retro_get_region(void) { if (is_pal) return RETRO_REGION_PAL; return RETRO_REGION_NTSC; } unsigned retro_api_version(void) { return RETRO_API_VERSION; } #if defined(HAVE_VULKAN) #define FIRST_RENDERER "vulkan" #if defined(HAVE_OPENGL) || defined(HAVE_OPENGLES) #define EXT_RENDERER "|opengl|software" #else #define EXT_RENDERER "|software" #endif #elif defined(HAVE_OPENGL) || defined(HAVE_OPENGLES) #define FIRST_RENDERER "opengl" #define EXT_RENDERER "|software" #else #define FIRST_RENDERER "software" #define EXT_RENDERER "" #endif void retro_set_environment(retro_environment_t cb) { struct retro_vfs_interface_info vfs_iface_info; environ_cb = cb; static const struct retro_variable vars[] = { #if defined(HAVE_OPENGL) || defined(HAVE_OPENGLES) || defined(HAVE_VULKAN) { option_renderer, "Renderer (restart); " FIRST_RENDERER EXT_RENDERER }, { option_renderer_software_fb, "Software framebuffer; enabled|disabled" }, #endif #ifdef HAVE_VULKAN { option_adaptive_smoothing, "Adaptive smoothing; enabled|disabled" }, #endif { option_internal_resolution, "Internal GPU resolution; 1x(native)|2x|4x|8x|16x|32x" }, #if defined(HAVE_OPENGL) || defined(HAVE_OPENGLES) // Only used in GL renderer for now. { option_filter, "Texture filtering; nearest|SABR|xBR|bilinear|3-point|JINC2" }, { option_depth, "Internal color depth; dithered 16bpp (native)|32bpp" }, { option_wireframe, "Wireframe mode; disabled|enabled" }, { option_display_vram, "Display full VRAM; disabled|enabled" }, #endif #if defined(HAVE_OPENGL) || defined(HAVE_OPENGLES) || defined(HAVE_VULKAN) { option_pgxp_mode, "PGXP operation mode; disabled|memory only|memory + CPU" }, //iCB:PGXP mode options { option_pgxp_vertex, "PGXP vertex cache; disabled|enabled" }, { option_pgxp_texture, "PGXP perspective correct texturing; disabled|enabled" }, #endif { option_widescreen_hack, "Widescreen mode hack; disabled|enabled" }, { option_frame_duping, "Frame duping (speedup); disabled|enabled" }, { option_cpu_overclock, "CPU Overclock; disabled|enabled" }, { option_skip_bios, "Skip BIOS; disabled|enabled" }, { option_dither_mode, "Dithering pattern; 1x(native)|internal resolution|disabled" }, { option_display_internal_fps, "Display internal FPS; disabled|enabled" }, { option_initial_scanline, "Initial scanline; 0|1|2|3|4|5|6|7|8|9|10|10|11|12|13|14|15|16|17|18|19|20|21|22|23|24|25|26|27|28|29|30|31|32|33|34|35|36|37|38|39|40" }, { option_last_scanline, "Last scanline; 239|238|237|236|235|234|232|231|230|229|228|227|226|225|224|223|222|221|220|219|218|217|216|215|214|213|212|211|210" }, { option_initial_scanline_pal, "Initial scanline PAL; 0|1|2|3|4|5|6|7|8|9|10|10|11|12|13|14|15|16|17|18|19|20|21|22|23|24|25|26|27|28|29|30|31|32|33|34|35|36|37|38|39|40" }, { option_last_scanline_pal, "Last scanline PAL; 287|286|285|284|283|283|282|281|280|279|278|277|276|275|274|273|272|271|270|269|268|267|266|265|264|263|262|261|260" }, { option_crop_overscan, "Crop Overscan; enabled|disabled" }, { option_image_crop, "Additional Cropping; disabled|1 px|2 px|3 px|4 px|5 px|6 px|7 px|8 px" }, { option_image_offset, "Offset Cropped Image; disabled|1 px|2 px|3 px|4 px|-4 px|-3 px|-2 px|-1 px" }, { option_analog_calibration, "Analog self-calibration; disabled|enabled" }, { option_analog_toggle, "DualShock Analog button toggle; disabled|enabled" }, { option_multitap1, "Port 1: Multitap enable; disabled|enabled" }, { option_multitap2, "Port 2: Multitap enable; disabled|enabled" }, { option_gun_cursor, "Gun Cursor; Cross|Dot|Off" }, { option_mouse_sensitivity, "Mouse Sensitivity; 100%|105%|110%|115%|120%|125%|130%|135%|140%|145%|150%|155%|160%|165%|170%|175%|180%|185%|190%|195%|200%|5%|10%|15%|20%|25%|30%|35%|40%|45%|50%|55%|60%|65%|70%|75%|80%|85%|90%|95%" }, #ifndef EMSCRIPTEN { option_cd_access_method, "CD Access Method (restart); sync|async|precache" }, #endif { option_memcard0_method, "Memcard 0 method; libretro|mednafen" }, { option_memcard1_enable, "Enable memory card 1; enabled|disabled" }, { option_memcard_shared, "Shared memcards (restart); disabled|enabled" }, { option_cd_fastload, "Increase CD loading speed; 2x (native)|4x|6x|8x|10x|12x|14x" }, { NULL, NULL }, }; cb(RETRO_ENVIRONMENT_SET_VARIABLES, (void*)vars); vfs_iface_info.required_interface_version = 1; vfs_iface_info.iface = NULL; if (environ_cb(RETRO_ENVIRONMENT_GET_VFS_INTERFACE, &vfs_iface_info)) filestream_vfs_init(&vfs_iface_info); input_set_env( cb ); rsx_intf_set_environment(cb); } void retro_set_audio_sample(retro_audio_sample_t cb) { audio_cb = cb; } void retro_set_audio_sample_batch(retro_audio_sample_batch_t cb) { audio_batch_cb = cb; } void retro_set_input_poll(retro_input_poll_t cb) { input_poll_cb = cb; } void retro_set_input_state(retro_input_state_t cb) { input_state_cb = cb; } void retro_set_video_refresh(retro_video_refresh_t cb) { video_cb = cb; rsx_intf_set_video_refresh(cb); } static size_t serialize_size; size_t retro_serialize_size(void) { if (enable_variable_serialization_size) { StateMem st; st.data = NULL; st.loc = 0; st.len = 0; st.malloced = 0; st.initial_malloc = 0; if (!MDFNSS_SaveSM(&st, 0, 0, NULL, NULL, NULL)) return 0; free(st.data); return serialize_size = st.len; } return serialize_size = 16777216; // 16MB } bool retro_serialize(void *data, size_t size) { /* it seems that mednafen can realloc pointers sent to it? since we don't know the disposition of void* data (is it safe to realloc?) we have to manage a new buffer here */ static bool logged; StateMem st; bool ret = false; uint8_t *_dat = (uint8_t*)malloc(size); if (!_dat) return false; st.data = _dat; st.loc = 0; st.len = 0; st.malloced = size; st.initial_malloc = 0; /* there are still some errors with the save states, * the size seems to change on some games for now * just log when this happens */ if (!logged && st.len != size) { log_cb(RETRO_LOG_WARN, "warning, save state size has changed\n"); logged = true; } ret = MDFNSS_SaveSM(&st, 0, 0, NULL, NULL, NULL); memcpy(data,st.data,size); free(st.data); return ret; } bool retro_unserialize(const void *data, size_t size) { StateMem st; st.data = (uint8_t*)data; st.loc = 0; st.len = size; st.malloced = 0; st.initial_malloc = 0; return MDFNSS_LoadSM(&st, 0, 0); } void *retro_get_memory_data(unsigned type) { uint8_t *data; switch (type) { case RETRO_MEMORY_SYSTEM_RAM: return MainRAM.data8; case RETRO_MEMORY_SAVE_RAM: if (use_mednafen_memcard0_method) return NULL; return FIO->GetMemcardDevice(0)->GetNVData(); default: break; } return NULL; } size_t retro_get_memory_size(unsigned type) { switch (type) { case RETRO_MEMORY_SYSTEM_RAM: return 0x200000; case RETRO_MEMORY_SAVE_RAM: if (use_mednafen_memcard0_method) return 0; return (1 << 17); default: break; } return 0; } void retro_cheat_reset(void) { MDFN_FlushGameCheats(1); } void retro_cheat_set(unsigned index, bool enabled, const char * codeLine) { const CheatFormatStruct* cf = CheatFormats; char name[256]; std::vector codeParts; int matchLength=0; int cursor; std::string part; if (codeLine==NULL) return; //Break the code into Parts for (cursor=0;;cursor++) { if (ISHEXDEC) { matchLength++; } else { if (matchLength) { part=codeLine+cursor-matchLength; part.erase(matchLength,std::string::npos); codeParts.push_back(part); matchLength=0; } } if (!codeLine[cursor]) { break; } } MemoryPatch patch; bool trueML=0; for (cursor=0;cursorDecodeCheat(std::string(part), &patch)) { //Generate a name sprintf(name,"cheat_%i_%i",index,cursor); //Set parameters patch.name=(std::string)name; patch.status=enabled; MDFNI_AddCheat(patch); patch=MemoryPatch(); } } catch(std::exception &e) { continue; } } } } #ifdef _WIN32 static void sanitize_path(std::string &path) { size_t size = path.size(); for (size_t i = 0; i < size; i++) if (path[i] == '/') path[i] = '\\'; } #endif // Use a simpler approach to make sure that things go right for libretro. const char *MDFN_MakeFName(MakeFName_Type type, int id1, const char *cd1) { static char fullpath[4096]; fullpath[0] = '\0'; switch (type) { case MDFNMKF_SAV: snprintf(fullpath, sizeof(fullpath), "%s%c%s.%s", retro_save_directory, retro_slash, (!shared_memorycards) ? retro_cd_base_name : "mednafen_psx_libretro_shared", cd1); break; case MDFNMKF_FIRMWARE: snprintf(fullpath, sizeof(fullpath), "%s%c%s", retro_base_directory, retro_slash, cd1); break; default: break; } return fullpath; } void MDFND_DispMessage(unsigned char *str) { const char *strc = (const char*)str; struct retro_message msg = { strc, 180 }; environ_cb(RETRO_ENVIRONMENT_SET_MESSAGE, &msg); } void MDFN_DispMessage(const char *format, ...) { char *str = new char[4096]; struct retro_message msg; va_list ap; va_start(ap,format); const char *strc = NULL; vsnprintf(str, 4096, format, ap); va_end(ap); strc = str; msg.frames = 180; msg.msg = strc; environ_cb(RETRO_ENVIRONMENT_SET_MESSAGE, &msg); }