diff --git a/src/AREngine.cpp b/src/AREngine.cpp index 1d992b81..4e13a39a 100644 --- a/src/AREngine.cpp +++ b/src/AREngine.cpp @@ -29,40 +29,11 @@ namespace melonDS using Platform::Log; using Platform::LogLevel; - -AREngine::AREngine() +AREngine::AREngine(melonDS::NDS& nds) : NDS(nds) { CodeFile = nullptr; } -AREngine::~AREngine() -{ -} - -void AREngine::Reset() -{ - if (NDS::ConsoleType == 1) - { - BusRead8 = DSi::ARM7Read8; - BusRead16 = DSi::ARM7Read16; - BusRead32 = DSi::ARM7Read32; - BusWrite8 = DSi::ARM7Write8; - BusWrite16 = DSi::ARM7Write16; - BusWrite32 = DSi::ARM7Write32; - } - else - { - BusRead8 = NDS::ARM7Read8; - BusRead16 = NDS::ARM7Read16; - BusRead32 = NDS::ARM7Read32; - BusWrite8 = NDS::ARM7Write8; - BusWrite16 = NDS::ARM7Write16; - BusWrite32 = NDS::ARM7Write32; - } -} - - - #define case16(x) \ case ((x)+0x00): case ((x)+0x01): case ((x)+0x02): case ((x)+0x03): \ case ((x)+0x04): case ((x)+0x05): case ((x)+0x06): case ((x)+0x07): \ @@ -113,15 +84,15 @@ void AREngine::RunCheat(ARCode& arcode) switch (op) { case16(0x00): // 32-bit write - BusWrite32((a & 0x0FFFFFFF) + offset, b); + NDS.ARM7Write32((a & 0x0FFFFFFF) + offset, b); break; case16(0x10): // 16-bit write - BusWrite16((a & 0x0FFFFFFF) + offset, b & 0xFFFF); + NDS.ARM7Write16((a & 0x0FFFFFFF) + offset, b & 0xFFFF); break; case16(0x20): // 8-bit write - BusWrite8((a & 0x0FFFFFFF) + offset, b & 0xFF); + NDS.ARM7Write8((a & 0x0FFFFFFF) + offset, b & 0xFF); break; case16(0x30): // IF b > u32[a] @@ -131,7 +102,7 @@ void AREngine::RunCheat(ARCode& arcode) u32 addr = a & 0x0FFFFFFF; if (!addr) addr = offset; - u32 chk = BusRead32(addr); + u32 chk = NDS.ARM7Read32(addr); cond = (b > chk) ? 1:0; } @@ -144,7 +115,7 @@ void AREngine::RunCheat(ARCode& arcode) u32 addr = a & 0x0FFFFFFF; if (!addr) addr = offset; - u32 chk = BusRead32(addr); + u32 chk = NDS.ARM7Read32(addr); cond = (b < chk) ? 1:0; } @@ -157,7 +128,7 @@ void AREngine::RunCheat(ARCode& arcode) u32 addr = a & 0x0FFFFFFF; if (!addr) addr = offset; - u32 chk = BusRead32(addr); + u32 chk = NDS.ARM7Read32(addr); cond = (b == chk) ? 1:0; } @@ -170,7 +141,7 @@ void AREngine::RunCheat(ARCode& arcode) u32 addr = a & 0x0FFFFFFF; if (!addr) addr = offset; - u32 chk = BusRead32(addr); + u32 chk = NDS.ARM7Read32(addr); cond = (b != chk) ? 1:0; } @@ -183,7 +154,7 @@ void AREngine::RunCheat(ARCode& arcode) u32 addr = a & 0x0FFFFFFF; if (!addr) addr = offset; - u16 val = BusRead16(addr); + u16 val = NDS.ARM7Read16(addr); u16 chk = ~(b >> 16); chk &= val; @@ -198,7 +169,7 @@ void AREngine::RunCheat(ARCode& arcode) u32 addr = a & 0x0FFFFFFF; if (!addr) addr = offset; - u16 val = BusRead16(addr); + u16 val = NDS.ARM7Read16(addr); u16 chk = ~(b >> 16); chk &= val; @@ -213,7 +184,7 @@ void AREngine::RunCheat(ARCode& arcode) u32 addr = a & 0x0FFFFFFF; if (!addr) addr = offset; - u16 val = BusRead16(addr); + u16 val = NDS.ARM7Read16(addr); u16 chk = ~(b >> 16); chk &= val; @@ -228,7 +199,7 @@ void AREngine::RunCheat(ARCode& arcode) u32 addr = a & 0x0FFFFFFF; if (!addr) addr = offset; - u16 val = BusRead16(addr); + u16 val = NDS.ARM7Read16(addr); u16 chk = ~(b >> 16); chk &= val; @@ -237,7 +208,7 @@ void AREngine::RunCheat(ARCode& arcode) break; case16(0xB0): // offset = u32[a + offset] - offset = BusRead32((a & 0x0FFFFFFF) + offset); + offset = NDS.ARM7Read32((a & 0x0FFFFFFF) + offset); break; case 0xC0: // FOR 0..b @@ -274,7 +245,7 @@ void AREngine::RunCheat(ARCode& arcode) break; case 0xC6: // u32[b] = offset - BusWrite32(b, offset); + NDS.ARM7Write32(b, offset); break; case 0xD0: // ENDIF @@ -323,30 +294,30 @@ void AREngine::RunCheat(ARCode& arcode) break; case 0xD6: // u32[b+offset] = datareg / offset += 4 - BusWrite32(b + offset, datareg); + NDS.ARM7Write32(b + offset, datareg); offset += 4; break; case 0xD7: // u16[b+offset] = datareg / offset += 2 - BusWrite16(b + offset, datareg & 0xFFFF); + NDS.ARM7Write16(b + offset, datareg & 0xFFFF); offset += 2; break; case 0xD8: // u8[b+offset] = datareg / offset += 1 - BusWrite8(b + offset, datareg & 0xFF); + NDS.ARM7Write8(b + offset, datareg & 0xFF); offset += 1; break; case 0xD9: // datareg = u32[b+offset] - datareg = BusRead32(b + offset); + datareg = NDS.ARM7Read32(b + offset); break; case 0xDA: // datareg = u16[b+offset] - datareg = BusRead16(b + offset); + datareg = NDS.ARM7Read16(b + offset); break; case 0xDB: // datareg = u8[b+offset] - datareg = BusRead8(b + offset); + datareg = NDS.ARM7Read8(b + offset); break; case 0xDC: // offset += b @@ -361,8 +332,8 @@ void AREngine::RunCheat(ARCode& arcode) u32 bytesleft = b; while (bytesleft >= 8) { - BusWrite32(dstaddr, *code++); dstaddr += 4; - BusWrite32(dstaddr, *code++); dstaddr += 4; + NDS.ARM7Write32(dstaddr, *code++); dstaddr += 4; + NDS.ARM7Write32(dstaddr, *code++); dstaddr += 4; bytesleft -= 8; } if (bytesleft > 0) @@ -371,13 +342,13 @@ void AREngine::RunCheat(ARCode& arcode) code += 2; if (bytesleft >= 4) { - BusWrite32(dstaddr, *(u32*)leftover); dstaddr += 4; + NDS.ARM7Write32(dstaddr, *(u32*)leftover); dstaddr += 4; leftover += 4; bytesleft -= 4; } while (bytesleft > 0) { - BusWrite8(dstaddr, *leftover++); dstaddr++; + NDS.ARM7Write8(dstaddr, *leftover++); dstaddr++; bytesleft--; } } @@ -393,14 +364,14 @@ void AREngine::RunCheat(ARCode& arcode) u32 bytesleft = b; while (bytesleft >= 4) { - BusWrite32(dstaddr, BusRead32(srcaddr)); + NDS.ARM7Write32(dstaddr, NDS.ARM7Read32(srcaddr)); srcaddr += 4; dstaddr += 4; bytesleft -= 4; } while (bytesleft > 0) { - BusWrite8(dstaddr, BusRead8(srcaddr)); + NDS.ARM7Write8(dstaddr, NDS.ARM7Read8(srcaddr)); srcaddr++; dstaddr++; bytesleft--; diff --git a/src/AREngine.h b/src/AREngine.h index a6926abf..1f2ee186 100644 --- a/src/AREngine.h +++ b/src/AREngine.h @@ -23,12 +23,11 @@ namespace melonDS { +class NDS; class AREngine { public: - AREngine(); - ~AREngine(); - void Reset(); + AREngine(melonDS::NDS& nds); ARCodeFile* GetCodeFile() { return CodeFile; } void SetCodeFile(ARCodeFile* file) { CodeFile = file; } @@ -36,15 +35,8 @@ public: void RunCheats(); void RunCheat(ARCode& arcode); private: + melonDS::NDS& NDS; ARCodeFile* CodeFile; // AR code file - frontend is responsible for managing this - - // TEMPORARY - u8 (*BusRead8)(u32 addr); - u16 (*BusRead16)(u32 addr); - u32 (*BusRead32)(u32 addr); - void (*BusWrite8)(u32 addr, u8 val); - void (*BusWrite16)(u32 addr, u16 val); - void (*BusWrite32)(u32 addr, u32 val); }; } diff --git a/src/ARM.cpp b/src/ARM.cpp index a1485e99..659d303b 100644 --- a/src/ARM.cpp +++ b/src/ARM.cpp @@ -106,13 +106,12 @@ const u32 ARM::ConditionTable[16] = 0x0000 // NE }; -ARM::ARM(u32 num, ARMJIT& jit, melonDS::GPU& gpu) : +ARM::ARM(u32 num, melonDS::NDS& nds) : #ifdef GDBSTUB_ENABLED GdbStub(this, Platform::GetConfigInt(num ? Platform::GdbPortARM7 : Platform::GdbPortARM9)), #endif - JIT(jit), Num(num), // well uh - GPU(gpu) + NDS(nds) { #ifdef GDBSTUB_ENABLED if (Platform::GetConfigBool(Platform::GdbEnabled) @@ -130,14 +129,14 @@ ARM::~ARM() // dorp } -ARMv5::ARMv5(ARMJIT& jit, melonDS::GPU& gpu) : ARM(0, jit, gpu) +ARMv5::ARMv5(melonDS::NDS& nds) : ARM(0, nds) { - DTCM = JIT.Memory.GetARM9DTCM(); + DTCM = NDS.JIT.Memory.GetARM9DTCM(); PU_Map = PU_PrivMap; } -ARMv4::ARMv4(ARMJIT& jit, melonDS::GPU& gpu) : ARM(1, jit, gpu) +ARMv4::ARMv4(melonDS::NDS& nds) : ARM(1, nds) { // } @@ -198,56 +197,11 @@ void ARM::Reset() void ARMv5::Reset() { - if (NDS::ConsoleType == 1) - { - BusRead8 = DSi::ARM9Read8; - BusRead16 = DSi::ARM9Read16; - BusRead32 = DSi::ARM9Read32; - BusWrite8 = DSi::ARM9Write8; - BusWrite16 = DSi::ARM9Write16; - BusWrite32 = DSi::ARM9Write32; - GetMemRegion = DSi::ARM9GetMemRegion; - } - else - { - BusRead8 = NDS::ARM9Read8; - BusRead16 = NDS::ARM9Read16; - BusRead32 = NDS::ARM9Read32; - BusWrite8 = NDS::ARM9Write8; - BusWrite16 = NDS::ARM9Write16; - BusWrite32 = NDS::ARM9Write32; - GetMemRegion = NDS::ARM9GetMemRegion; - } - PU_Map = PU_PrivMap; ARM::Reset(); } -void ARMv4::Reset() -{ - if (NDS::ConsoleType) - { - BusRead8 = DSi::ARM7Read8; - BusRead16 = DSi::ARM7Read16; - BusRead32 = DSi::ARM7Read32; - BusWrite8 = DSi::ARM7Write8; - BusWrite16 = DSi::ARM7Write16; - BusWrite32 = DSi::ARM7Write32; - } - else - { - BusRead8 = NDS::ARM7Read8; - BusRead16 = NDS::ARM7Read16; - BusRead32 = NDS::ARM7Read32; - BusWrite8 = NDS::ARM7Write8; - BusWrite16 = NDS::ARM7Write16; - BusWrite32 = NDS::ARM7Write32; - } - - ARM::Reset(); -} - void ARM::DoSavestate(Savestate* file) { @@ -270,7 +224,7 @@ void ARM::DoSavestate(Savestate* file) file->VarArray(R_UND, 3*sizeof(u32)); file->Var32(&CurInstr); #ifdef JIT_ENABLED - if (file->Saving && NDS::EnableJIT) + if (file->Saving && NDS.EnableJIT) { // hack, the JIT doesn't really pipeline // but we still want JIT save states to be @@ -396,7 +350,7 @@ void ARMv5::JumpTo(u32 addr, bool restorecpsr) return; } - NDS::MonitorARM9Jump(addr); + NDS.MonitorARM9Jump(addr); } void ARMv4::JumpTo(u32 addr, bool restorecpsr) @@ -424,7 +378,7 @@ void ARMv4::JumpTo(u32 addr, bool restorecpsr) NextInstr[0] = CodeRead16(addr); NextInstr[1] = CodeRead16(addr+2); - Cycles += NDS::ARM7MemTimings[CodeCycles][0] + NDS::ARM7MemTimings[CodeCycles][1]; + Cycles += NDS.ARM7MemTimings[CodeCycles][0] + NDS.ARM7MemTimings[CodeCycles][1]; CPSR |= 0x20; } @@ -437,7 +391,7 @@ void ARMv4::JumpTo(u32 addr, bool restorecpsr) NextInstr[0] = CodeRead32(addr); NextInstr[1] = CodeRead32(addr+4); - Cycles += NDS::ARM7MemTimings[CodeCycles][2] + NDS::ARM7MemTimings[CodeCycles][3]; + Cycles += NDS.ARM7MemTimings[CodeCycles][2] + NDS.ARM7MemTimings[CodeCycles][3]; CPSR &= ~0x20; } @@ -582,8 +536,8 @@ void ARM::TriggerIRQ() // normally, those work by hijacking the ARM7 VBlank handler if (Num == 1) { - if ((NDS::IF[1] & NDS::IE[1]) & (1<RunCheats(); + if ((NDS.IF[1] & NDS.IE[1]) & (1<>12] & 0x04)) { Log(LogLevel::Error, "!!!!! EXCEPTION REGION NOT EXECUTABLE. THIS IS VERY BAD!!\n"); - NDS::Stop(Platform::StopReason::BadExceptionRegion); + NDS.Stop(Platform::StopReason::BadExceptionRegion); return; } @@ -639,20 +593,20 @@ void ARMv5::Execute() { Halted = 0; } - else if (NDS::HaltInterrupted(0)) + else if (NDS.HaltInterrupted(0)) { Halted = 0; - if (NDS::IME[0] & 0x1) + if (NDS.IME[0] & 0x1) TriggerIRQ(); } else { - NDS::ARM9Timestamp = NDS::ARM9Target; + NDS.ARM9Timestamp = NDS.ARM9Target; return; } } - while (NDS::ARM9Timestamp < NDS::ARM9Target) + while (NDS.ARM9Timestamp < NDS.ARM9Target) { if (CPSR & 0x20) // THUMB { @@ -696,9 +650,9 @@ void ARMv5::Execute() // TODO optimize this shit!!! if (Halted) { - if (Halted == 1 && NDS::ARM9Timestamp < NDS::ARM9Target) + if (Halted == 1 && NDS.ARM9Timestamp < NDS.ARM9Target) { - NDS::ARM9Timestamp = NDS::ARM9Target; + NDS.ARM9Timestamp = NDS.ARM9Target; } break; } @@ -709,7 +663,7 @@ void ARMv5::Execute() }*/ if (IRQ) TriggerIRQ(); - NDS::ARM9Timestamp += Cycles; + NDS.ARM9Timestamp += Cycles; Cycles = 0; } @@ -726,37 +680,37 @@ void ARMv5::ExecuteJIT() { Halted = 0; } - else if (NDS::HaltInterrupted(0)) + else if (NDS.HaltInterrupted(0)) { Halted = 0; - if (NDS::IME[0] & 0x1) + if (NDS.IME[0] & 0x1) TriggerIRQ(); } else { - NDS::ARM9Timestamp = NDS::ARM9Target; + NDS.ARM9Timestamp = NDS.ARM9Target; return; } } - while (NDS::ARM9Timestamp < NDS::ARM9Target) + while (NDS.ARM9Timestamp < NDS.ARM9Target) { u32 instrAddr = R[15] - ((CPSR&0x20)?2:4); if ((instrAddr < FastBlockLookupStart || instrAddr >= (FastBlockLookupStart + FastBlockLookupSize)) - && !JIT.SetupExecutableRegion(0, instrAddr, FastBlockLookup, FastBlockLookupStart, FastBlockLookupSize)) + && !NDS.JIT.SetupExecutableRegion(0, instrAddr, FastBlockLookup, FastBlockLookupStart, FastBlockLookupSize)) { - NDS::ARM9Timestamp = NDS::ARM9Target; + NDS.ARM9Timestamp = NDS.ARM9Target; Log(LogLevel::Error, "ARMv5 PC in non executable region %08X\n", R[15]); return; } - JitBlockEntry block = JIT.LookUpBlock(0, FastBlockLookup, + JitBlockEntry block = NDS.JIT.LookUpBlock(0, FastBlockLookup, instrAddr - FastBlockLookupStart, instrAddr); if (block) ARM_Dispatch(this, block); else - JIT.CompileBlock(this); + NDS.JIT.CompileBlock(this); if (StopExecution) { @@ -766,17 +720,17 @@ void ARMv5::ExecuteJIT() if (Halted || IdleLoop) { - if ((Halted == 1 || IdleLoop) && NDS::ARM9Timestamp < NDS::ARM9Target) + if ((Halted == 1 || IdleLoop) && NDS.ARM9Timestamp < NDS.ARM9Target) { Cycles = 0; - NDS::ARM9Timestamp = NDS::ARM9Target; + NDS.ARM9Timestamp = NDS.ARM9Target; } IdleLoop = 0; break; } } - NDS::ARM9Timestamp += Cycles; + NDS.ARM9Timestamp += Cycles; Cycles = 0; } @@ -795,20 +749,20 @@ void ARMv4::Execute() { Halted = 0; } - else if (NDS::HaltInterrupted(1)) + else if (NDS.HaltInterrupted(1)) { Halted = 0; - if (NDS::IME[1] & 0x1) + if (NDS.IME[1] & 0x1) TriggerIRQ(); } else { - NDS::ARM7Timestamp = NDS::ARM7Target; + NDS.ARM7Timestamp = NDS.ARM7Target; return; } } - while (NDS::ARM7Timestamp < NDS::ARM7Target) + while (NDS.ARM7Timestamp < NDS.ARM7Target) { if (CPSR & 0x20) // THUMB { @@ -847,9 +801,9 @@ void ARMv4::Execute() // TODO optimize this shit!!! if (Halted) { - if (Halted == 1 && NDS::ARM7Timestamp < NDS::ARM7Target) + if (Halted == 1 && NDS.ARM7Timestamp < NDS.ARM7Target) { - NDS::ARM7Timestamp = NDS::ARM7Target; + NDS.ARM7Timestamp = NDS.ARM7Target; } break; } @@ -860,7 +814,7 @@ void ARMv4::Execute() }*/ if (IRQ) TriggerIRQ(); - NDS::ARM7Timestamp += Cycles; + NDS.ARM7Timestamp += Cycles; Cycles = 0; } @@ -869,7 +823,9 @@ void ARMv4::Execute() if (Halted == 4) { - DSi::SoftReset(); + assert(NDS.ConsoleType == 1); + auto& dsi = dynamic_cast(NDS); + dsi.SoftReset(); Halted = 2; } } @@ -883,37 +839,37 @@ void ARMv4::ExecuteJIT() { Halted = 0; } - else if (NDS::HaltInterrupted(1)) + else if (NDS.HaltInterrupted(1)) { Halted = 0; - if (NDS::IME[1] & 0x1) + if (NDS.IME[1] & 0x1) TriggerIRQ(); } else { - NDS::ARM7Timestamp = NDS::ARM7Target; + NDS.ARM7Timestamp = NDS.ARM7Target; return; } } - while (NDS::ARM7Timestamp < NDS::ARM7Target) + while (NDS.ARM7Timestamp < NDS.ARM7Target) { u32 instrAddr = R[15] - ((CPSR&0x20)?2:4); if ((instrAddr < FastBlockLookupStart || instrAddr >= (FastBlockLookupStart + FastBlockLookupSize)) - && !JIT.SetupExecutableRegion(1, instrAddr, FastBlockLookup, FastBlockLookupStart, FastBlockLookupSize)) + && !NDS.JIT.SetupExecutableRegion(1, instrAddr, FastBlockLookup, FastBlockLookupStart, FastBlockLookupSize)) { - NDS::ARM7Timestamp = NDS::ARM7Target; + NDS.ARM7Timestamp = NDS.ARM7Target; Log(LogLevel::Error, "ARMv4 PC in non executable region %08X\n", R[15]); return; } - JitBlockEntry block = JIT.LookUpBlock(1, FastBlockLookup, + JitBlockEntry block = NDS.JIT.LookUpBlock(1, FastBlockLookup, instrAddr - FastBlockLookupStart, instrAddr); if (block) ARM_Dispatch(this, block); else - JIT.CompileBlock(this); + NDS.JIT.CompileBlock(this); if (StopExecution) { @@ -922,17 +878,17 @@ void ARMv4::ExecuteJIT() if (Halted || IdleLoop) { - if ((Halted == 1 || IdleLoop) && NDS::ARM7Timestamp < NDS::ARM7Target) + if ((Halted == 1 || IdleLoop) && NDS.ARM7Timestamp < NDS.ARM7Target) { Cycles = 0; - NDS::ARM7Timestamp = NDS::ARM7Target; + NDS.ARM7Timestamp = NDS.ARM7Target; } IdleLoop = 0; break; } } - NDS::ARM7Timestamp += Cycles; + NDS.ARM7Timestamp += Cycles; Cycles = 0; } @@ -941,7 +897,9 @@ void ARMv4::ExecuteJIT() if (Halted == 4) { - DSi::SoftReset(); + assert(NDS.ConsoleType == 1); + auto& dsi = dynamic_cast(NDS); + dsi.SoftReset(); Halted = 2; } } @@ -1136,8 +1094,8 @@ void ARM::WriteMem(u32 addr, int size, u32 v) void ARM::ResetGdb() { - NDS::Reset(); - GPU.StartFrame(); // need this to properly kick off the scheduler & frame output + NDS.Reset(); + NDS.GPU.StartFrame(); // need this to properly kick off the scheduler & frame output } int ARM::RemoteCmd(const u8* cmd, size_t len) { @@ -1193,6 +1151,195 @@ u32 ARMv5::ReadMem(u32 addr, int size) return ARM::ReadMem(addr, size); } -} #endif +void ARMv4::DataRead8(u32 addr, u32* val) +{ + *val = BusRead8(addr); + DataRegion = addr; + DataCycles = NDS.ARM7MemTimings[addr >> 15][0]; +} + +void ARMv4::DataRead16(u32 addr, u32* val) +{ + addr &= ~1; + + *val = BusRead16(addr); + DataRegion = addr; + DataCycles = NDS.ARM7MemTimings[addr >> 15][0]; +} + +void ARMv4::DataRead32(u32 addr, u32* val) +{ + addr &= ~3; + + *val = BusRead32(addr); + DataRegion = addr; + DataCycles = NDS.ARM7MemTimings[addr >> 15][2]; +} + +void ARMv4::DataRead32S(u32 addr, u32* val) +{ + addr &= ~3; + + *val = BusRead32(addr); + DataCycles += NDS.ARM7MemTimings[addr >> 15][3]; +} + +void ARMv4::DataWrite8(u32 addr, u8 val) +{ + BusWrite8(addr, val); + DataRegion = addr; + DataCycles = NDS.ARM7MemTimings[addr >> 15][0]; +} + +void ARMv4::DataWrite16(u32 addr, u16 val) +{ + addr &= ~1; + + BusWrite16(addr, val); + DataRegion = addr; + DataCycles = NDS.ARM7MemTimings[addr >> 15][0]; +} + +void ARMv4::DataWrite32(u32 addr, u32 val) +{ + addr &= ~3; + + BusWrite32(addr, val); + DataRegion = addr; + DataCycles = NDS.ARM7MemTimings[addr >> 15][2]; +} + +void ARMv4::DataWrite32S(u32 addr, u32 val) +{ + addr &= ~3; + + BusWrite32(addr, val); + DataCycles += NDS.ARM7MemTimings[addr >> 15][3]; +} + + +void ARMv4::AddCycles_C() +{ + // code only. this code fetch is sequential. + Cycles += NDS.ARM7MemTimings[CodeCycles][(CPSR&0x20)?1:3]; +} + +void ARMv4::AddCycles_CI(s32 num) +{ + // code+internal. results in a nonseq code fetch. + Cycles += NDS.ARM7MemTimings[CodeCycles][(CPSR&0x20)?0:2] + num; +} + +void ARMv4::AddCycles_CDI() +{ + // LDR/LDM cycles. + s32 numC = NDS.ARM7MemTimings[CodeCycles][(CPSR&0x20)?0:2]; + s32 numD = DataCycles; + + if ((DataRegion >> 24) == 0x02) // mainRAM + { + if (CodeRegion == 0x02) + Cycles += numC + numD; + else + { + numC++; + Cycles += std::max(numC + numD - 3, std::max(numC, numD)); + } + } + else if (CodeRegion == 0x02) + { + numD++; + Cycles += std::max(numC + numD - 3, std::max(numC, numD)); + } + else + { + Cycles += numC + numD + 1; + } +} + +void ARMv4::AddCycles_CD() +{ + // TODO: max gain should be 5c when writing to mainRAM + s32 numC = NDS.ARM7MemTimings[CodeCycles][(CPSR&0x20)?0:2]; + s32 numD = DataCycles; + + if ((DataRegion >> 24) == 0x02) + { + if (CodeRegion == 0x02) + Cycles += numC + numD; + else + Cycles += std::max(numC + numD - 3, std::max(numC, numD)); + } + else if (CodeRegion == 0x02) + { + Cycles += std::max(numC + numD - 3, std::max(numC, numD)); + } + else + { + Cycles += numC + numD; + } +} + +u8 ARMv5::BusRead8(u32 addr) +{ + return NDS.ARM9Read8(addr); +} + +u16 ARMv5::BusRead16(u32 addr) +{ + return NDS.ARM9Read16(addr); +} + +u32 ARMv5::BusRead32(u32 addr) +{ + return NDS.ARM9Read32(addr); +} + +void ARMv5::BusWrite8(u32 addr, u8 val) +{ + NDS.ARM9Write8(addr, val); +} + +void ARMv5::BusWrite16(u32 addr, u16 val) +{ + NDS.ARM9Write16(addr, val); +} + +void ARMv5::BusWrite32(u32 addr, u32 val) +{ + NDS.ARM9Write32(addr, val); +} + +u8 ARMv4::BusRead8(u32 addr) +{ + return NDS.ARM7Read8(addr); +} + +u16 ARMv4::BusRead16(u32 addr) +{ + return NDS.ARM7Read16(addr); +} + +u32 ARMv4::BusRead32(u32 addr) +{ + return NDS.ARM7Read32(addr); +} + +void ARMv4::BusWrite8(u32 addr, u8 val) +{ + NDS.ARM7Write8(addr, val); +} + +void ARMv4::BusWrite16(u32 addr, u16 val) +{ + NDS.ARM7Write16(addr, val); +} + +void ARMv4::BusWrite32(u32 addr, u32 val) +{ + NDS.ARM7Write32(addr, val); +} +} + diff --git a/src/ARM.h b/src/ARM.h index 9a99a072..4becff02 100644 --- a/src/ARM.h +++ b/src/ARM.h @@ -22,7 +22,7 @@ #include #include "types.h" -#include "NDS.h" +#include "MemRegion.h" #ifdef GDBSTUB_ENABLED #include "debug/GdbStub.h" @@ -48,6 +48,8 @@ const u32 DTCMPhysicalSize = 0x4000; class ARMJIT; class GPU; class ARMJIT_Memory; +class NDS; +class Savestate; class ARM #ifdef GDBSTUB_ENABLED @@ -55,7 +57,7 @@ class ARM #endif { public: - ARM(u32 num, ARMJIT& jit, GPU& gpu); + ARM(u32 num, NDS& nds); virtual ~ARM(); // destroy shit virtual void Reset(); @@ -73,6 +75,7 @@ public: Halted = halt; } + void NocashPrint(u32 addr) noexcept; virtual void Execute() = 0; #ifdef JIT_ENABLED virtual void ExecuteJIT() = 0; @@ -174,7 +177,7 @@ public: u32 ExceptionBase; - NDS::MemRegion CodeMem; + MemRegion CodeMem; #ifdef JIT_ENABLED u32 FastBlockLookupStart, FastBlockLookupSize; @@ -186,14 +189,14 @@ public: Gdb::GdbStub GdbStub; #endif - ARMJIT& JIT; + melonDS::NDS& NDS; protected: - u8 (*BusRead8)(u32 addr); - u16 (*BusRead16)(u32 addr); - u32 (*BusRead32)(u32 addr); - void (*BusWrite8)(u32 addr, u8 val); - void (*BusWrite16)(u32 addr, u16 val); - void (*BusWrite32)(u32 addr, u32 val); + virtual u8 BusRead8(u32 addr) = 0; + virtual u16 BusRead16(u32 addr) = 0; + virtual u32 BusRead32(u32 addr) = 0; + virtual void BusWrite8(u32 addr, u8 val) = 0; + virtual void BusWrite16(u32 addr, u16 val) = 0; + virtual void BusWrite32(u32 addr, u32 val) = 0; #ifdef GDBSTUB_ENABLED bool IsSingleStep; @@ -217,14 +220,12 @@ protected: void GdbCheckA(); void GdbCheckB(); void GdbCheckC(); -private: - melonDS::GPU& GPU; }; class ARMv5 : public ARM { public: - ARMv5(ARMJIT& jit, melonDS::GPU& gpu); + ARMv5(melonDS::NDS& nds); ~ARMv5(); void Reset() override; @@ -296,7 +297,7 @@ public: // Cycles += numC + numD; } - void GetCodeMemRegion(u32 addr, NDS::MemRegion* region); + void GetCodeMemRegion(u32 addr, MemRegion* region); void CP15Reset(); void CP15DoSavestate(Savestate* file); @@ -357,20 +358,26 @@ public: u8* CurICacheLine; - bool (*GetMemRegion)(u32 addr, bool write, NDS::MemRegion* region); + bool (*GetMemRegion)(u32 addr, bool write, MemRegion* region); #ifdef GDBSTUB_ENABLED u32 ReadMem(u32 addr, int size) override; void WriteMem(u32 addr, int size, u32 v) override; #endif + +protected: + u8 BusRead8(u32 addr) override; + u16 BusRead16(u32 addr) override; + u32 BusRead32(u32 addr) override; + void BusWrite8(u32 addr, u8 val) override; + void BusWrite16(u32 addr, u16 val) override; + void BusWrite32(u32 addr, u32 val) override; }; class ARMv4 : public ARM { public: - ARMv4(ARMJIT& jit, melonDS::GPU& gpu); - - void Reset() override; + ARMv4(melonDS::NDS& nds); void FillPipeline() override; @@ -391,134 +398,25 @@ public: return BusRead32(addr); } - void DataRead8(u32 addr, u32* val) override - { - *val = BusRead8(addr); - DataRegion = addr; - DataCycles = NDS::ARM7MemTimings[addr >> 15][0]; - } - - void DataRead16(u32 addr, u32* val) override - { - addr &= ~1; - - *val = BusRead16(addr); - DataRegion = addr; - DataCycles = NDS::ARM7MemTimings[addr >> 15][0]; - } - - void DataRead32(u32 addr, u32* val) override - { - addr &= ~3; - - *val = BusRead32(addr); - DataRegion = addr; - DataCycles = NDS::ARM7MemTimings[addr >> 15][2]; - } - - void DataRead32S(u32 addr, u32* val) override - { - addr &= ~3; - - *val = BusRead32(addr); - DataCycles += NDS::ARM7MemTimings[addr >> 15][3]; - } - - void DataWrite8(u32 addr, u8 val) override - { - BusWrite8(addr, val); - DataRegion = addr; - DataCycles = NDS::ARM7MemTimings[addr >> 15][0]; - } - - void DataWrite16(u32 addr, u16 val) override - { - addr &= ~1; - - BusWrite16(addr, val); - DataRegion = addr; - DataCycles = NDS::ARM7MemTimings[addr >> 15][0]; - } - - void DataWrite32(u32 addr, u32 val) override - { - addr &= ~3; - - BusWrite32(addr, val); - DataRegion = addr; - DataCycles = NDS::ARM7MemTimings[addr >> 15][2]; - } - - void DataWrite32S(u32 addr, u32 val) override - { - addr &= ~3; - - BusWrite32(addr, val); - DataCycles += NDS::ARM7MemTimings[addr >> 15][3]; - } - - - void AddCycles_C() override - { - // code only. this code fetch is sequential. - Cycles += NDS::ARM7MemTimings[CodeCycles][(CPSR&0x20)?1:3]; - } - - void AddCycles_CI(s32 num) override - { - // code+internal. results in a nonseq code fetch. - Cycles += NDS::ARM7MemTimings[CodeCycles][(CPSR&0x20)?0:2] + num; - } - - void AddCycles_CDI() override - { - // LDR/LDM cycles. - s32 numC = NDS::ARM7MemTimings[CodeCycles][(CPSR&0x20)?0:2]; - s32 numD = DataCycles; - - if ((DataRegion >> 24) == 0x02) // mainRAM - { - if (CodeRegion == 0x02) - Cycles += numC + numD; - else - { - numC++; - Cycles += std::max(numC + numD - 3, std::max(numC, numD)); - } - } - else if (CodeRegion == 0x02) - { - numD++; - Cycles += std::max(numC + numD - 3, std::max(numC, numD)); - } - else - { - Cycles += numC + numD + 1; - } - } - - void AddCycles_CD() override - { - // TODO: max gain should be 5c when writing to mainRAM - s32 numC = NDS::ARM7MemTimings[CodeCycles][(CPSR&0x20)?0:2]; - s32 numD = DataCycles; - - if ((DataRegion >> 24) == 0x02) - { - if (CodeRegion == 0x02) - Cycles += numC + numD; - else - Cycles += std::max(numC + numD - 3, std::max(numC, numD)); - } - else if (CodeRegion == 0x02) - { - Cycles += std::max(numC + numD - 3, std::max(numC, numD)); - } - else - { - Cycles += numC + numD; - } - } + void DataRead8(u32 addr, u32* val) override; + void DataRead16(u32 addr, u32* val) override; + void DataRead32(u32 addr, u32* val) override; + void DataRead32S(u32 addr, u32* val) override; + void DataWrite8(u32 addr, u8 val) override; + void DataWrite16(u32 addr, u16 val) override; + void DataWrite32(u32 addr, u32 val) override; + void DataWrite32S(u32 addr, u32 val) override; + void AddCycles_C() override; + void AddCycles_CI(s32 num) override; + void AddCycles_CDI() override; + void AddCycles_CD() override; +protected: + u8 BusRead8(u32 addr) override; + u16 BusRead16(u32 addr) override; + u32 BusRead32(u32 addr) override; + void BusWrite8(u32 addr, u8 val) override; + void BusWrite16(u32 addr, u16 val) override; + void BusWrite32(u32 addr, u32 val) override; }; namespace ARMInterpreter @@ -528,14 +426,5 @@ void A_UNK(ARM* cpu); void T_UNK(ARM* cpu); } - -namespace NDS -{ - -extern ARMv5* ARM9; -extern ARMv4* ARM7; - -} - } #endif // ARM_H diff --git a/src/ARMInterpreter_ALU.cpp b/src/ARMInterpreter_ALU.cpp index 313f7641..315d59d0 100644 --- a/src/ARMInterpreter_ALU.cpp +++ b/src/ARMInterpreter_ALU.cpp @@ -18,6 +18,7 @@ #include #include "ARM.h" +#include "NDS.h" namespace melonDS::ARMInterpreter { @@ -692,7 +693,7 @@ void A_MOV_REG_LSL_IMM_DBG(ARM* cpu) // but since they serve no purpose ATTOW, we can skip them u32 addr = cpu->R[15] + 4; // Skip 2nd ID and flags // TODO: Pass flags to NocashPrint - NDS::NocashPrint(cpu->Num, addr); + cpu->NDS.NocashPrint(cpu->Num, addr); } } @@ -1561,7 +1562,7 @@ void T_MOV_HIREG(ARM* cpu) // but since they serve no purpose ATTOW, we can skip them u32 addr = cpu->R[15] + 4; // Skip 2nd ID and flags // TODO: Pass flags to NocashPrint - NDS::NocashPrint(cpu->Num, addr); + cpu->NDS.NocashPrint(cpu->Num, addr); } } diff --git a/src/ARMJIT.cpp b/src/ARMJIT.cpp index 45445821..b938dfb8 100644 --- a/src/ARMJIT.cpp +++ b/src/ARMJIT.cpp @@ -64,20 +64,20 @@ const u32 CodeRegionSizes[ARMJIT_Memory::memregions_Count] = ITCMPhysicalSize, 0, sizeof(NDS::ARM9BIOS), - NDS::MainRAMMaxSize, - NDS::SharedWRAMSize, + MainRAMMaxSize, + SharedWRAMSize, 0, 0x100000, sizeof(NDS::ARM7BIOS), - NDS::ARM7WRAMSize, + ARM7WRAMSize, 0, 0, 0x40000, 0x10000, 0x10000, - DSi::NWRAMSize, - DSi::NWRAMSize, - DSi::NWRAMSize, + NWRAMSize, + NWRAMSize, + NWRAMSize, }; u32 ARMJIT::LocaliseCodeAddress(u32 num, u32 addr) const noexcept @@ -103,11 +103,11 @@ T SlowRead9(u32 addr, ARMv5* cpu) else if ((addr & cpu->DTCMMask) == cpu->DTCMBase) val = *(T*)&cpu->DTCM[addr & 0x3FFF]; else if (std::is_same::value) - val = (ConsoleType == 0 ? NDS::ARM9Read32 : DSi::ARM9Read32)(addr); + val = NDS::Current->ARM9Read32(addr); else if (std::is_same::value) - val = (ConsoleType == 0 ? NDS::ARM9Read16 : DSi::ARM9Read16)(addr); + val = NDS::Current->ARM9Read16(addr); else - val = (ConsoleType == 0 ? NDS::ARM9Read8 : DSi::ARM9Read8)(addr); + val = NDS::Current->ARM9Read8(addr); if (std::is_same::value) return ROR(val, offset << 3); @@ -123,11 +123,11 @@ T SlowRead7(u32 addr) T val; if (std::is_same::value) - val = (ConsoleType == 0 ? NDS::ARM7Read32 : DSi::ARM7Read32)(addr); + val = NDS::Current->ARM7Read32(addr); else if (std::is_same::value) - val = (ConsoleType == 0 ? NDS::ARM7Read16 : DSi::ARM7Read16)(addr); + val = NDS::Current->ARM7Read16(addr); else - val = (ConsoleType == 0 ? NDS::ARM7Read8 : DSi::ARM7Read8)(addr); + val = NDS::Current->ARM7Read8(addr); if (std::is_same::value) return ROR(val, offset << 3); @@ -142,7 +142,7 @@ void SlowWrite9(u32 addr, ARMv5* cpu, u32 val) if (addr < cpu->ITCMSize) { - cpu->JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr); + cpu->NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr); *(T*)&cpu->ITCM[addr & 0x7FFF] = val; } else if ((addr & cpu->DTCMMask) == cpu->DTCMBase) @@ -151,15 +151,15 @@ void SlowWrite9(u32 addr, ARMv5* cpu, u32 val) } else if (std::is_same::value) { - (ConsoleType == 0 ? NDS::ARM9Write32 : DSi::ARM9Write32)(addr, val); + NDS::Current->ARM9Write32(addr, val); } else if (std::is_same::value) { - (ConsoleType == 0 ? NDS::ARM9Write16 : DSi::ARM9Write16)(addr, val); + NDS::Current->ARM9Write16(addr, val); } else { - (ConsoleType == 0 ? NDS::ARM9Write8 : DSi::ARM9Write8)(addr, val); + NDS::Current->ARM9Write8(addr, val); } } @@ -169,11 +169,11 @@ void SlowWrite7(u32 addr, u32 val) addr &= ~(sizeof(T) - 1); if (std::is_same::value) - (ConsoleType == 0 ? NDS::ARM7Write32 : DSi::ARM7Write32)(addr, val); + NDS::Current->ARM7Write32(addr, val); else if (std::is_same::value) - (ConsoleType == 0 ? NDS::ARM7Write16 : DSi::ARM7Write16)(addr, val); + NDS::Current->ARM7Write16(addr, val); else - (ConsoleType == 0 ? NDS::ARM7Write8 : DSi::ARM7Write8)(addr, val); + NDS::Current->ARM7Write8(addr, val); } template diff --git a/src/ARMJIT.h b/src/ARMJIT.h index 4191824c..9e1ca074 100644 --- a/src/ARMJIT.h +++ b/src/ARMJIT.h @@ -30,6 +30,7 @@ #endif #include "ARMJIT_Compiler.h" +#include "MemConstants.h" namespace melonDS { @@ -39,7 +40,7 @@ class JitBlock; class ARMJIT { public: - ARMJIT() noexcept : JITCompiler(*this), Memory(*this) {} + ARMJIT(melonDS::NDS& nds) noexcept : NDS(nds), Memory(nds), JITCompiler(nds) {}; ~ARMJIT() noexcept NOOP_IF_NO_JIT; void InvalidateByAddr(u32) noexcept NOOP_IF_NO_JIT; void CheckAndInvalidateWVRAM(int) noexcept NOOP_IF_NO_JIT; @@ -72,8 +73,8 @@ public: bool BranchOptimizations = false; bool FastMemory = false; + melonDS::NDS& NDS; TinyVector InvalidLiterals {}; -private: friend class ARMJIT_Memory; void blockSanityCheck(u32 num, u32 blockAddr, JitBlockEntry entry) noexcept; void RetireJitBlock(JitBlock* block) noexcept; @@ -86,32 +87,32 @@ private: AddressRange CodeIndexITCM[ITCMPhysicalSize / 512] {}; - AddressRange CodeIndexMainRAM[NDS::MainRAMMaxSize / 512] {}; - AddressRange CodeIndexSWRAM[NDS::SharedWRAMSize / 512] {}; + AddressRange CodeIndexMainRAM[MainRAMMaxSize / 512] {}; + AddressRange CodeIndexSWRAM[SharedWRAMSize / 512] {}; AddressRange CodeIndexVRAM[0x100000 / 512] {}; - AddressRange CodeIndexARM9BIOS[sizeof(NDS::ARM9BIOS) / 512] {}; - AddressRange CodeIndexARM7BIOS[sizeof(NDS::ARM7BIOS) / 512] {}; - AddressRange CodeIndexARM7WRAM[NDS::ARM7WRAMSize / 512] {}; + AddressRange CodeIndexARM9BIOS[ARM9BIOSSize / 512] {}; + AddressRange CodeIndexARM7BIOS[ARM7BIOSSize / 512] {}; + AddressRange CodeIndexARM7WRAM[ARM7WRAMSize / 512] {}; AddressRange CodeIndexARM7WVRAM[0x40000 / 512] {}; AddressRange CodeIndexBIOS9DSi[0x10000 / 512] {}; AddressRange CodeIndexBIOS7DSi[0x10000 / 512] {}; - AddressRange CodeIndexNWRAM_A[DSi::NWRAMSize / 512] {}; - AddressRange CodeIndexNWRAM_B[DSi::NWRAMSize / 512] {}; - AddressRange CodeIndexNWRAM_C[DSi::NWRAMSize / 512] {}; + AddressRange CodeIndexNWRAM_A[NWRAMSize / 512] {}; + AddressRange CodeIndexNWRAM_B[NWRAMSize / 512] {}; + AddressRange CodeIndexNWRAM_C[NWRAMSize / 512] {}; u64 FastBlockLookupITCM[ITCMPhysicalSize / 2] {}; - u64 FastBlockLookupMainRAM[NDS::MainRAMMaxSize / 2] {}; - u64 FastBlockLookupSWRAM[NDS::SharedWRAMSize / 2] {}; + u64 FastBlockLookupMainRAM[MainRAMMaxSize / 2] {}; + u64 FastBlockLookupSWRAM[SharedWRAMSize / 2] {}; u64 FastBlockLookupVRAM[0x100000 / 2] {}; - u64 FastBlockLookupARM9BIOS[sizeof(NDS::ARM9BIOS) / 2] {}; - u64 FastBlockLookupARM7BIOS[sizeof(NDS::ARM7BIOS) / 2] {}; - u64 FastBlockLookupARM7WRAM[NDS::ARM7WRAMSize / 2] {}; + u64 FastBlockLookupARM9BIOS[ARM9BIOSSize / 2] {}; + u64 FastBlockLookupARM7BIOS[ARM7BIOSSize / 2] {}; + u64 FastBlockLookupARM7WRAM[ARM7WRAMSize / 2] {}; u64 FastBlockLookupARM7WVRAM[0x40000 / 2] {}; u64 FastBlockLookupBIOS9DSi[0x10000 / 2] {}; u64 FastBlockLookupBIOS7DSi[0x10000 / 2] {}; - u64 FastBlockLookupNWRAM_A[DSi::NWRAMSize / 2] {}; - u64 FastBlockLookupNWRAM_B[DSi::NWRAMSize / 2] {}; - u64 FastBlockLookupNWRAM_C[DSi::NWRAMSize / 2] {}; + u64 FastBlockLookupNWRAM_A[NWRAMSize / 2] {}; + u64 FastBlockLookupNWRAM_B[NWRAMSize / 2] {}; + u64 FastBlockLookupNWRAM_C[NWRAMSize / 2] {}; AddressRange* const CodeMemRegions[ARMJIT_Memory::memregions_Count] = { diff --git a/src/ARMJIT_A64/ARMJIT_Branch.cpp b/src/ARMJIT_A64/ARMJIT_Branch.cpp index d18a0e05..92717e91 100644 --- a/src/ARMJIT_A64/ARMJIT_Branch.cpp +++ b/src/ARMJIT_A64/ARMJIT_Branch.cpp @@ -17,6 +17,7 @@ */ #include "ARMJIT_Compiler.h" +#include "../NDS.h" using namespace Arm64Gen; @@ -132,7 +133,7 @@ void Compiler::Comp_JumpTo(u32 addr, bool forceNonConstantCycles) u32 compileTimePC = CurCPU->R[15]; CurCPU->R[15] = newPC; - cycles += NDS::ARM7MemTimings[codeCycles][0] + NDS::ARM7MemTimings[codeCycles][1]; + cycles += NDS.ARM7MemTimings[codeCycles][0] + NDS.ARM7MemTimings[codeCycles][1]; CurCPU->R[15] = compileTimePC; } @@ -144,7 +145,7 @@ void Compiler::Comp_JumpTo(u32 addr, bool forceNonConstantCycles) u32 compileTimePC = CurCPU->R[15]; CurCPU->R[15] = newPC; - cycles += NDS::ARM7MemTimings[codeCycles][2] + NDS::ARM7MemTimings[codeCycles][3]; + cycles += NDS.ARM7MemTimings[codeCycles][2] + NDS.ARM7MemTimings[codeCycles][3]; CurCPU->R[15] = compileTimePC; } @@ -235,7 +236,7 @@ void* Compiler::Gen_JumpTo7(int kind) LSR(W1, W0, 15); STR(INDEX_UNSIGNED, W1, RCPU, offsetof(ARM, CodeCycles)); - MOVP2R(X2, NDS::ARM7MemTimings); + MOVP2R(X2, NDS.ARM7MemTimings); LDR(W3, X2, ArithOption(W1, true)); FixupBranch switchToThumb; diff --git a/src/ARMJIT_A64/ARMJIT_Compiler.cpp b/src/ARMJIT_A64/ARMJIT_Compiler.cpp index 1b037588..c306dd84 100644 --- a/src/ARMJIT_A64/ARMJIT_Compiler.cpp +++ b/src/ARMJIT_A64/ARMJIT_Compiler.cpp @@ -21,6 +21,7 @@ #include "../ARMJIT_Internal.h" #include "../ARMInterpreter.h" #include "../ARMJIT.h" +#include "../NDS.h" #if defined(__SWITCH__) #include @@ -220,7 +221,7 @@ void Compiler::PopRegs(bool saveHiRegs, bool saveRegsToBeChanged) } } -Compiler::Compiler(ARMJIT& jit) : Arm64Gen::ARM64XEmitter(), JIT(jit) +Compiler::Compiler(melonDS::NDS& nds) : Arm64Gen::ARM64XEmitter(), NDS(nds) { #ifdef __SWITCH__ JitRWBase = aligned_alloc(0x1000, JitMemSize); @@ -705,12 +706,12 @@ JitBlockEntry Compiler::CompileBlock(ARM* cpu, bool thumb, FetchedInstr instrs[] if (JitMemMainSize - GetCodeOffset() < 1024 * 16) { Log(LogLevel::Debug, "JIT near memory full, resetting...\n"); - JIT.ResetBlockCache(); + NDS.JIT.ResetBlockCache(); } if ((JitMemMainSize + JitMemSecondarySize) - OtherCodeRegion < 1024 * 8) { Log(LogLevel::Debug, "JIT far memory full, resetting...\n"); - JIT.ResetBlockCache(); + NDS.JIT.ResetBlockCache(); } JitBlockEntry res = (JitBlockEntry)GetRXPtr(); @@ -723,7 +724,7 @@ JitBlockEntry Compiler::CompileBlock(ARM* cpu, bool thumb, FetchedInstr instrs[] CPSRDirty = false; if (hasMemInstr) - MOVP2R(RMemBase, Num == 0 ? JIT.Memory.FastMem9Start : JIT.Memory.FastMem7Start); + MOVP2R(RMemBase, Num == 0 ? NDS.JIT.Memory.FastMem9Start : NDS.JIT.Memory.FastMem7Start); for (int i = 0; i < instrsCount; i++) { @@ -871,7 +872,7 @@ void Compiler::Reset() void Compiler::Comp_AddCycles_C(bool forceNonConstant) { s32 cycles = Num ? - NDS::ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 1 : 3] + NDS.ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 1 : 3] : ((R15 & 0x2) ? 0 : CurInstr.CodeCycles); if (forceNonConstant) @@ -885,7 +886,7 @@ void Compiler::Comp_AddCycles_CI(u32 numI) IrregularCycles = true; s32 cycles = (Num ? - NDS::ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2] + NDS.ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2] : ((R15 & 0x2) ? 0 : CurInstr.CodeCycles)) + numI; if (Thumb || CurInstr.Cond() == 0xE) @@ -899,7 +900,7 @@ void Compiler::Comp_AddCycles_CI(u32 c, ARM64Reg numI, ArithOption shift) IrregularCycles = true; s32 cycles = (Num ? - NDS::ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2] + NDS.ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2] : ((R15 & 0x2) ? 0 : CurInstr.CodeCycles)) + c; ADD(RCycles, RCycles, cycles); @@ -919,7 +920,7 @@ void Compiler::Comp_AddCycles_CDI() s32 cycles; - s32 numC = NDS::ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2]; + s32 numC = NDS.ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2]; s32 numD = CurInstr.DataCycles; if ((CurInstr.DataRegion >> 24) == 0x02) // mainRAM @@ -964,7 +965,7 @@ void Compiler::Comp_AddCycles_CD() } else { - s32 numC = NDS::ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2]; + s32 numC = NDS.ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2]; s32 numD = CurInstr.DataCycles; if ((CurInstr.DataRegion >> 24) == 0x02) diff --git a/src/ARMJIT_A64/ARMJIT_Compiler.h b/src/ARMJIT_A64/ARMJIT_Compiler.h index d1e5c446..72dd7bcb 100644 --- a/src/ARMJIT_A64/ARMJIT_Compiler.h +++ b/src/ARMJIT_A64/ARMJIT_Compiler.h @@ -96,7 +96,11 @@ class Compiler : public Arm64Gen::ARM64XEmitter public: typedef void (Compiler::*CompileFunc)(); - Compiler(ARMJIT& jit); +#ifdef JIT_ENABLED + explicit Compiler(melonDS::NDS& nds); +#else + explicit Compiler(melonDS::NDS& nds) : XEmitter(), NDS(nds) {} +#endif ~Compiler(); void PushRegs(bool saveHiRegs, bool saveRegsToBeChanged, bool allowUnload = true); @@ -242,7 +246,7 @@ public: OtherCodeRegion = offset; } - ARMJIT& JIT; + melonDS::NDS& NDS; ptrdiff_t OtherCodeRegion; bool Exit; diff --git a/src/ARMJIT_A64/ARMJIT_LoadStore.cpp b/src/ARMJIT_A64/ARMJIT_LoadStore.cpp index 93cd75e6..22a410ae 100644 --- a/src/ARMJIT_A64/ARMJIT_LoadStore.cpp +++ b/src/ARMJIT_A64/ARMJIT_LoadStore.cpp @@ -21,6 +21,7 @@ #include "../ARMJIT.h" #include "../ARMJIT_Memory.h" +#include "../NDS.h" using namespace Arm64Gen; @@ -62,9 +63,9 @@ u8* Compiler::RewriteMemAccess(u8* pc) bool Compiler::Comp_MemLoadLiteral(int size, bool signExtend, int rd, u32 addr) { - u32 localAddr = JIT.LocaliseCodeAddress(Num, addr); + u32 localAddr = NDS.JIT.LocaliseCodeAddress(Num, addr); - int invalidLiteralIdx = JIT.InvalidLiterals.Find(localAddr); + int invalidLiteralIdx = NDS.JIT.InvalidLiterals.Find(localAddr); if (invalidLiteralIdx != -1) { return false; @@ -111,7 +112,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, Op2 offset, int size, int flags) if (size == 16) addressMask = ~1; - if (JIT.LiteralOptimizations && rn == 15 && rd != 15 && offset.IsImm && !(flags & (memop_Post|memop_Store|memop_Writeback))) + if (NDS.JIT.LiteralOptimizations && rn == 15 && rd != 15 && offset.IsImm && !(flags & (memop_Post|memop_Store|memop_Writeback))) { u32 addr = R15 + offset.Imm * ((flags & memop_SubtractOffset) ? -1 : 1); @@ -146,7 +147,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, Op2 offset, int size, int flags) MOV(W0, rnMapped); } - bool addrIsStatic = JIT.LiteralOptimizations + bool addrIsStatic = NDS.JIT.LiteralOptimizations && RegCache.IsLiteral(rn) && offset.IsImm && !(flags & (memop_Writeback|memop_Post)); u32 staticAddress; if (addrIsStatic) @@ -185,18 +186,18 @@ void Compiler::Comp_MemAccess(int rd, int rn, Op2 offset, int size, int flags) MOV(rnMapped, W0); u32 expectedTarget = Num == 0 - ? JIT.Memory.ClassifyAddress9(addrIsStatic ? staticAddress : CurInstr.DataRegion) - : JIT.Memory.ClassifyAddress7(addrIsStatic ? staticAddress : CurInstr.DataRegion); + ? NDS.JIT.Memory.ClassifyAddress9(addrIsStatic ? staticAddress : CurInstr.DataRegion) + : NDS.JIT.Memory.ClassifyAddress7(addrIsStatic ? staticAddress : CurInstr.DataRegion); - if (JIT.FastMemory && ((!Thumb && CurInstr.Cond() != 0xE) || JIT.Memory.IsFastmemCompatible(expectedTarget))) + if (NDS.JIT.FastMemory && ((!Thumb && CurInstr.Cond() != 0xE) || NDS.JIT.Memory.IsFastmemCompatible(expectedTarget))) { ptrdiff_t memopStart = GetCodeOffset(); LoadStorePatch patch; assert((rdMapped >= W8 && rdMapped <= W15) || (rdMapped >= W19 && rdMapped <= W25) || rdMapped == W4); patch.PatchFunc = flags & memop_Store - ? PatchedStoreFuncs[NDS::ConsoleType][Num][__builtin_ctz(size) - 3][rdMapped] - : PatchedLoadFuncs[NDS::ConsoleType][Num][__builtin_ctz(size) - 3][!!(flags & memop_SignExtend)][rdMapped]; + ? PatchedStoreFuncs[NDS.ConsoleType][Num][__builtin_ctz(size) - 3][rdMapped] + : PatchedLoadFuncs[NDS.ConsoleType][Num][__builtin_ctz(size) - 3][!!(flags & memop_SignExtend)][rdMapped]; // take a chance at fastmem if (size > 8) @@ -225,7 +226,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, Op2 offset, int size, int flags) { void* func = NULL; if (addrIsStatic) - func = JIT.Memory.GetFuncForAddr(CurCPU, staticAddress, flags & memop_Store, size); + func = NDS.JIT.Memory.GetFuncForAddr(CurCPU, staticAddress, flags & memop_Store, size); PushRegs(false, false); @@ -263,7 +264,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, Op2 offset, int size, int flags) if (flags & memop_Store) { MOV(W2, rdMapped); - switch (size | NDS::ConsoleType) + switch (size | NDS.ConsoleType) { case 32: QuickCallFunction(X3, SlowWrite9); break; case 33: QuickCallFunction(X3, SlowWrite9); break; @@ -275,7 +276,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, Op2 offset, int size, int flags) } else { - switch (size | NDS::ConsoleType) + switch (size | NDS.ConsoleType) { case 32: QuickCallFunction(X3, SlowRead9); break; case 33: QuickCallFunction(X3, SlowRead9); break; @@ -291,7 +292,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, Op2 offset, int size, int flags) if (flags & memop_Store) { MOV(W1, rdMapped); - switch (size | NDS::ConsoleType) + switch (size | NDS.ConsoleType) { case 32: QuickCallFunction(X3, SlowWrite7); break; case 33: QuickCallFunction(X3, SlowWrite7); break; @@ -303,7 +304,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, Op2 offset, int size, int flags) } else { - switch (size | NDS::ConsoleType) + switch (size | NDS.ConsoleType) { case 32: QuickCallFunction(X3, SlowRead7); break; case 33: QuickCallFunction(X3, SlowRead7); break; @@ -452,7 +453,7 @@ void Compiler::T_Comp_LoadPCRel() u32 offset = ((CurInstr.Instr & 0xFF) << 2); u32 addr = (R15 & ~0x2) + offset; - if (!JIT.LiteralOptimizations || !Comp_MemLoadLiteral(32, false, CurInstr.T_Reg(8), addr)) + if (!NDS.JIT.LiteralOptimizations || !Comp_MemLoadLiteral(32, false, CurInstr.T_Reg(8), addr)) Comp_MemAccess(CurInstr.T_Reg(8), 15, Op2(offset), 32, 0); } @@ -494,11 +495,11 @@ s32 Compiler::Comp_MemAccessBlock(int rn, BitSet16 regs, bool store, bool preinc Comp_AddCycles_CDI(); int expectedTarget = Num == 0 - ? JIT.Memory.ClassifyAddress9(CurInstr.DataRegion) - : JIT.Memory.ClassifyAddress7(CurInstr.DataRegion); + ? NDS.JIT.Memory.ClassifyAddress9(CurInstr.DataRegion) + : NDS.JIT.Memory.ClassifyAddress7(CurInstr.DataRegion); - bool compileFastPath = JIT.FastMemory - && store && !usermode && (CurInstr.Cond() < 0xE || JIT.Memory.IsFastmemCompatible(expectedTarget)); + bool compileFastPath = NDS.JIT.FastMemory + && store && !usermode && (CurInstr.Cond() < 0xE || NDS.JIT.Memory.IsFastmemCompatible(expectedTarget)); { s32 offset = decrement @@ -680,7 +681,7 @@ s32 Compiler::Comp_MemAccessBlock(int rn, BitSet16 regs, bool store, bool preinc if (Num == 0) { MOV(X3, RCPU); - switch ((u32)store * 2 | NDS::ConsoleType) + switch ((u32)store * 2 | NDS.ConsoleType) { case 0: QuickCallFunction(X4, SlowBlockTransfer9); break; case 1: QuickCallFunction(X4, SlowBlockTransfer9); break; @@ -690,7 +691,7 @@ s32 Compiler::Comp_MemAccessBlock(int rn, BitSet16 regs, bool store, bool preinc } else { - switch ((u32)store * 2 | NDS::ConsoleType) + switch ((u32)store * 2 | NDS.ConsoleType) { case 0: QuickCallFunction(X4, SlowBlockTransfer7); break; case 1: QuickCallFunction(X4, SlowBlockTransfer7); break; diff --git a/src/ARMJIT_Memory.cpp b/src/ARMJIT_Memory.cpp index 7ed9b8d1..bf1fb063 100644 --- a/src/ARMJIT_Memory.cpp +++ b/src/ARMJIT_Memory.cpp @@ -159,12 +159,12 @@ LONG ARMJIT_Memory::ExceptionHandler(EXCEPTION_POINTERS* exceptionInfo) return EXCEPTION_CONTINUE_SEARCH; } - u8* curArea = (u8*)(NDS::CurCPU == 0 ? NDS::JIT->Memory.FastMem9Start : NDS::JIT->Memory.FastMem7Start); + u8* curArea = (u8*)(NDS::Current->CurCPU == 0 ? NDS::Current->JIT.Memory.FastMem9Start : NDS::Current->JIT.Memory.FastMem7Start); FaultDescription desc {}; desc.EmulatedFaultAddr = (u8*)exceptionInfo->ExceptionRecord->ExceptionInformation[1] - curArea; desc.FaultPC = (u8*)exceptionInfo->ContextRecord->CONTEXT_PC; - if (FaultHandler(desc, *NDS::JIT)) + if (FaultHandler(desc, *NDS::Current)) { exceptionInfo->ContextRecord->CONTEXT_PC = (u64)desc.FaultPC; return EXCEPTION_CONTINUE_EXECUTION; @@ -194,12 +194,12 @@ void ARMJIT_Memory::SigsegvHandler(int sig, siginfo_t* info, void* rawContext) ucontext_t* context = (ucontext_t*)rawContext; FaultDescription desc {}; - u8* curArea = (u8*)(NDS::CurCPU == 0 ? NDS::JIT->Memory.FastMem9Start : NDS::JIT->Memory.FastMem7Start); + u8* curArea = (u8*)(NDS::Current->CurCPU == 0 ? NDS::Current->JIT.Memory.FastMem9Start : NDS::Current->JIT.Memory.FastMem7Start); desc.EmulatedFaultAddr = (u8*)info->si_addr - curArea; desc.FaultPC = (u8*)context->CONTEXT_PC; - if (FaultHandler(desc, *NDS::JIT)) + if (FaultHandler(desc, *NDS::Current)) { context->CONTEXT_PC = (u64)desc.FaultPC; return; @@ -319,12 +319,12 @@ void ARMJIT_Memory::SetCodeProtectionRange(u32 addr, u32 size, u32 num, int prot } #endif -void ARMJIT_Memory::Mapping::Unmap(int region, ARMJIT_Memory& memory) noexcept +void ARMJIT_Memory::Mapping::Unmap(int region, melonDS::NDS& nds) noexcept { - u32 dtcmStart = NDS::ARM9->DTCMBase; - u32 dtcmSize = ~NDS::ARM9->DTCMMask + 1; + u32 dtcmStart = nds.ARM9.DTCMBase; + u32 dtcmSize = ~nds.ARM9.DTCMMask + 1; bool skipDTCM = Num == 0 && region != memregion_DTCM; - u8* statuses = Num == 0 ? memory.MappingStatus9 : memory.MappingStatus7; + u8* statuses = Num == 0 ? nds.JIT.Memory.MappingStatus9 : nds.JIT.Memory.MappingStatus7; u32 offset = 0; while (offset < Size) { @@ -367,20 +367,20 @@ void ARMJIT_Memory::Mapping::Unmap(int region, ARMJIT_Memory& memory) noexcept bool success; if (dtcmStart > Addr) { - success = memory.UnmapFromRange(Addr, 0, OffsetsPerRegion[region] + LocalOffset, dtcmStart - Addr); + success = nds.JIT.Memory.UnmapFromRange(Addr, 0, OffsetsPerRegion[region] + LocalOffset, dtcmStart - Addr); assert(success); } if (dtcmEnd < Addr + Size) { u32 offset = dtcmStart - Addr + dtcmSize; - success = memory.UnmapFromRange(dtcmEnd, 0, OffsetsPerRegion[region] + LocalOffset + offset, Size - offset); + success = nds.JIT.Memory.UnmapFromRange(dtcmEnd, 0, OffsetsPerRegion[region] + LocalOffset + offset, Size - offset); assert(success); } } else #endif { - bool succeded = memory.UnmapFromRange(Addr, Num, OffsetsPerRegion[region] + LocalOffset, Size); + bool succeded = nds.JIT.Memory.UnmapFromRange(Addr, Num, OffsetsPerRegion[region] + LocalOffset, Size); assert(succeded); } #endif @@ -401,7 +401,7 @@ void ARMJIT_Memory::SetCodeProtection(int region, u32 offset, bool protect) noex u32 effectiveAddr = mapping.Addr + (offset - mapping.LocalOffset); if (mapping.Num == 0 && region != memregion_DTCM - && (effectiveAddr & NDS::ARM9->DTCMMask) == NDS::ARM9->DTCMBase) + && (effectiveAddr & NDS.ARM9.DTCMMask) == NDS.ARM9.DTCMBase) continue; u8* states = (u8*)(mapping.Num == 0 ? MappingStatus9 : MappingStatus7); @@ -427,9 +427,9 @@ void ARMJIT_Memory::RemapDTCM(u32 newBase, u32 newSize) noexcept { // this first part could be made more efficient // by unmapping DTCM first and then map the holes - u32 oldDTCMBase = NDS::ARM9->DTCMBase; - u32 oldDTCMSize = ~NDS::ARM9->DTCMMask + 1; - u32 oldDTCMEnd = oldDTCMBase + NDS::ARM9->DTCMMask; + u32 oldDTCMBase = NDS.ARM9.DTCMBase; + u32 oldDTCMSize = ~NDS.ARM9.DTCMMask + 1; + u32 oldDTCMEnd = oldDTCMBase + NDS.ARM9.DTCMMask; u32 newEnd = newBase + newSize; @@ -454,7 +454,7 @@ void ARMJIT_Memory::RemapDTCM(u32 newBase, u32 newSize) noexcept if (mapping.Num == 0 && overlap) { - mapping.Unmap(region, *this); + mapping.Unmap(region, NDS); Mappings[region].Remove(i); } else @@ -466,20 +466,22 @@ void ARMJIT_Memory::RemapDTCM(u32 newBase, u32 newSize) noexcept for (int i = 0; i < Mappings[memregion_DTCM].Length; i++) { - Mappings[memregion_DTCM][i].Unmap(memregion_DTCM, *this); + Mappings[memregion_DTCM][i].Unmap(memregion_DTCM, NDS); } Mappings[memregion_DTCM].Clear(); } void ARMJIT_Memory::RemapNWRAM(int num) noexcept { + auto* dsi = dynamic_cast(&NDS); + assert(dsi != nullptr); for (int i = 0; i < Mappings[memregion_SharedWRAM].Length;) { Mapping& mapping = Mappings[memregion_SharedWRAM][i]; - if (DSi::NWRAMStart[mapping.Num][num] < mapping.Addr + mapping.Size - && DSi::NWRAMEnd[mapping.Num][num] > mapping.Addr) + if (dsi->NWRAMStart[mapping.Num][num] < mapping.Addr + mapping.Size + && dsi->NWRAMEnd[mapping.Num][num] > mapping.Addr) { - mapping.Unmap(memregion_SharedWRAM, *this); + mapping.Unmap(memregion_SharedWRAM, NDS); Mappings[memregion_SharedWRAM].Remove(i); } else @@ -489,7 +491,7 @@ void ARMJIT_Memory::RemapNWRAM(int num) noexcept } for (int i = 0; i < Mappings[memregion_NewSharedWRAM_A + num].Length; i++) { - Mappings[memregion_NewSharedWRAM_A + num][i].Unmap(memregion_NewSharedWRAM_A + num, *this); + Mappings[memregion_NewSharedWRAM_A + num][i].Unmap(memregion_NewSharedWRAM_A + num, NDS); } Mappings[memregion_NewSharedWRAM_A + num].Clear(); } @@ -502,7 +504,7 @@ void ARMJIT_Memory::RemapSWRAM() noexcept Mapping& mapping = Mappings[memregion_WRAM7][i]; if (mapping.Addr + mapping.Size <= 0x03800000) { - mapping.Unmap(memregion_WRAM7, *this); + mapping.Unmap(memregion_WRAM7, NDS); Mappings[memregion_WRAM7].Remove(i); } else @@ -510,14 +512,14 @@ void ARMJIT_Memory::RemapSWRAM() noexcept } for (int i = 0; i < Mappings[memregion_SharedWRAM].Length; i++) { - Mappings[memregion_SharedWRAM][i].Unmap(memregion_SharedWRAM, *this); + Mappings[memregion_SharedWRAM][i].Unmap(memregion_SharedWRAM, NDS); } Mappings[memregion_SharedWRAM].Clear(); } bool ARMJIT_Memory::MapAtAddress(u32 addr) noexcept { - u32 num = NDS::CurCPU; + u32 num = NDS.CurCPU; int region = num == 0 ? ClassifyAddress9(addr) @@ -533,10 +535,10 @@ bool ARMJIT_Memory::MapAtAddress(u32 addr) noexcept u8* states = num == 0 ? MappingStatus9 : MappingStatus7; //printf("mapping mirror %x, %x %x %d %d\n", mirrorStart, mirrorSize, memoryOffset, region, num); - bool isExecutable = JIT.CodeMemRegions[region]; + bool isExecutable = NDS.JIT.CodeMemRegions[region]; - u32 dtcmStart = NDS::ARM9->DTCMBase; - u32 dtcmSize = ~NDS::ARM9->DTCMMask + 1; + u32 dtcmStart = NDS.ARM9.DTCMBase; + u32 dtcmSize = ~NDS.ARM9.DTCMMask + 1; u32 dtcmEnd = dtcmStart + dtcmSize; #ifndef __SWITCH__ #ifndef _WIN32 @@ -565,7 +567,7 @@ bool ARMJIT_Memory::MapAtAddress(u32 addr) noexcept } #endif - AddressRange* range = JIT.CodeMemRegions[region] + memoryOffset / 512; + AddressRange* range = NDS.JIT.CodeMemRegions[region] + memoryOffset / 512; // this overcomplicated piece of code basically just finds whole pieces of code memory // which can be mapped/protected @@ -586,7 +588,7 @@ bool ARMJIT_Memory::MapAtAddress(u32 addr) noexcept bool hasCode = isExecutable && PageContainsCode(&range[offset / 512]); while (offset < mirrorSize && (!isExecutable || PageContainsCode(&range[offset / 512]) == hasCode) - && (!skipDTCM || mirrorStart + offset != NDS::ARM9->DTCMBase)) + && (!skipDTCM || mirrorStart + offset != NDS.ARM9.DTCMBase)) { assert(states[(mirrorStart + offset) >> 12] == memstate_Unmapped); states[(mirrorStart + offset) >> 12] = hasCode ? memstate_MappedProtected : memstate_MappedRW; @@ -620,19 +622,19 @@ bool ARMJIT_Memory::MapAtAddress(u32 addr) noexcept return true; } -bool ARMJIT_Memory::FaultHandler(FaultDescription& faultDesc, ARMJIT& jit) +bool ARMJIT_Memory::FaultHandler(FaultDescription& faultDesc, melonDS::NDS& nds) { - if (jit.JITCompiler.IsJITFault(faultDesc.FaultPC)) + if (nds.JIT.JITCompiler.IsJITFault(faultDesc.FaultPC)) { bool rewriteToSlowPath = true; - u8* memStatus = NDS::CurCPU == 0 ? jit.Memory.MappingStatus9 : jit.Memory.MappingStatus7; + u8* memStatus = nds.CurCPU == 0 ? nds.JIT.Memory.MappingStatus9 : nds.JIT.Memory.MappingStatus7; if (memStatus[faultDesc.EmulatedFaultAddr >> 12] == memstate_Unmapped) - rewriteToSlowPath = !jit.Memory.MapAtAddress(faultDesc.EmulatedFaultAddr); + rewriteToSlowPath = !nds.JIT.Memory.MapAtAddress(faultDesc.EmulatedFaultAddr); if (rewriteToSlowPath) - faultDesc.FaultPC = jit.JITCompiler.RewriteMemAccess(faultDesc.FaultPC); + faultDesc.FaultPC = nds.JIT.JITCompiler.RewriteMemAccess(faultDesc.FaultPC); return true; } @@ -641,7 +643,7 @@ bool ARMJIT_Memory::FaultHandler(FaultDescription& faultDesc, ARMJIT& jit) const u64 AddrSpaceSize = 0x100000000; -ARMJIT_Memory::ARMJIT_Memory(ARMJIT& jit) noexcept : JIT(jit) +ARMJIT_Memory::ARMJIT_Memory(melonDS::NDS& nds) : NDS(nds) { #if defined(__SWITCH__) MemoryBase = (u8*)aligned_alloc(0x1000, MemoryTotalSize); @@ -815,7 +817,7 @@ void ARMJIT_Memory::Reset() noexcept for (int region = 0; region < memregions_Count; region++) { for (int i = 0; i < Mappings[region].Length; i++) - Mappings[region][i].Unmap(region, *this); + Mappings[region][i].Unmap(region, NDS); Mappings[region].Clear(); } @@ -866,8 +868,8 @@ bool ARMJIT_Memory::GetMirrorLocation(int region, u32 num, u32 addr, u32& memory } return false; case memregion_MainRAM: - mirrorStart = addr & ~NDS::MainRAMMask; - mirrorSize = NDS::MainRAMMask + 1; + mirrorStart = addr & ~NDS.MainRAMMask; + mirrorSize = NDS.MainRAMMask + 1; return true; case memregion_BIOS9: if (num == 0) @@ -886,26 +888,26 @@ bool ARMJIT_Memory::GetMirrorLocation(int region, u32 num, u32 addr, u32& memory } return false; case memregion_SharedWRAM: - if (num == 0 && NDS::SWRAM_ARM9.Mem) + if (num == 0 && NDS.SWRAM_ARM9.Mem) { - mirrorStart = addr & ~NDS::SWRAM_ARM9.Mask; - mirrorSize = NDS::SWRAM_ARM9.Mask + 1; - memoryOffset = NDS::SWRAM_ARM9.Mem - GetSharedWRAM(); + mirrorStart = addr & ~NDS.SWRAM_ARM9.Mask; + mirrorSize = NDS.SWRAM_ARM9.Mask + 1; + memoryOffset = NDS.SWRAM_ARM9.Mem - GetSharedWRAM(); return true; } - else if (num == 1 && NDS::SWRAM_ARM7.Mem) + else if (num == 1 && NDS.SWRAM_ARM7.Mem) { - mirrorStart = addr & ~NDS::SWRAM_ARM7.Mask; - mirrorSize = NDS::SWRAM_ARM7.Mask + 1; - memoryOffset = NDS::SWRAM_ARM7.Mem - GetSharedWRAM(); + mirrorStart = addr & ~NDS.SWRAM_ARM7.Mask; + mirrorSize = NDS.SWRAM_ARM7.Mask + 1; + memoryOffset = NDS.SWRAM_ARM7.Mem - GetSharedWRAM(); return true; } return false; case memregion_WRAM7: if (num == 1) { - mirrorStart = addr & ~(NDS::ARM7WRAMSize - 1); - mirrorSize = NDS::ARM7WRAMSize; + mirrorStart = addr & ~(ARM7WRAMSize - 1); + mirrorSize = ARM7WRAMSize; return true; } return false; @@ -927,7 +929,9 @@ bool ARMJIT_Memory::GetMirrorLocation(int region, u32 num, u32 addr, u32& memory return false; case memregion_NewSharedWRAM_A: { - u8* ptr = DSi::NWRAMMap_A[num][(addr >> 16) & DSi::NWRAMMask[num][0]]; + auto* dsi = dynamic_cast(&NDS); + assert(dsi != nullptr); + u8* ptr = dsi->NWRAMMap_A[num][(addr >> 16) & dsi->NWRAMMask[num][0]]; if (ptr) { memoryOffset = ptr - GetNWRAM_A(); @@ -939,7 +943,9 @@ bool ARMJIT_Memory::GetMirrorLocation(int region, u32 num, u32 addr, u32& memory } case memregion_NewSharedWRAM_B: { - u8* ptr = DSi::NWRAMMap_B[num][(addr >> 15) & DSi::NWRAMMask[num][1]]; + auto* dsi = dynamic_cast(&NDS); + assert(dsi != nullptr); + u8* ptr = dsi->NWRAMMap_B[num][(addr >> 15) & dsi->NWRAMMask[num][1]]; if (ptr) { memoryOffset = ptr - GetNWRAM_B(); @@ -951,7 +957,9 @@ bool ARMJIT_Memory::GetMirrorLocation(int region, u32 num, u32 addr, u32& memory } case memregion_NewSharedWRAM_C: { - u8* ptr = DSi::NWRAMMap_C[num][(addr >> 15) & DSi::NWRAMMask[num][2]]; + auto* dsi = dynamic_cast(&NDS); + assert(dsi != nullptr); + u8* ptr = dsi->NWRAMMap_C[num][(addr >> 15) & dsi->NWRAMMask[num][2]]; if (ptr) { memoryOffset = ptr - GetNWRAM_C(); @@ -964,16 +972,20 @@ bool ARMJIT_Memory::GetMirrorLocation(int region, u32 num, u32 addr, u32& memory case memregion_BIOS9DSi: if (num == 0) { + auto* dsi = dynamic_cast(&NDS); + assert(dsi != nullptr); mirrorStart = addr & ~0xFFFF; - mirrorSize = DSi::SCFG_BIOS & (1<<0) ? 0x8000 : 0x10000; + mirrorSize = dsi->SCFG_BIOS & (1<<0) ? 0x8000 : 0x10000; return true; } return false; case memregion_BIOS7DSi: if (num == 1) { + auto* dsi = dynamic_cast(&NDS); + assert(dsi != nullptr); mirrorStart = addr & ~0xFFFF; - mirrorSize = DSi::SCFG_BIOS & (1<<8) ? 0x8000 : 0x10000; + mirrorSize = dsi->SCFG_BIOS & (1<<8) ? 0x8000 : 0x10000; return true; } return false; @@ -990,18 +1002,18 @@ u32 ARMJIT_Memory::LocaliseAddress(int region, u32 num, u32 addr) const noexcept case memregion_ITCM: return (addr & (ITCMPhysicalSize - 1)) | (memregion_ITCM << 27); case memregion_MainRAM: - return (addr & NDS::MainRAMMask) | (memregion_MainRAM << 27); + return (addr & NDS.MainRAMMask) | (memregion_MainRAM << 27); case memregion_BIOS9: return (addr & 0xFFF) | (memregion_BIOS9 << 27); case memregion_BIOS7: return (addr & 0x3FFF) | (memregion_BIOS7 << 27); case memregion_SharedWRAM: if (num == 0) - return ((addr & NDS::SWRAM_ARM9.Mask) + (NDS::SWRAM_ARM9.Mem - GetSharedWRAM())) | (memregion_SharedWRAM << 27); + return ((addr & NDS.SWRAM_ARM9.Mask) + (NDS.SWRAM_ARM9.Mem - GetSharedWRAM())) | (memregion_SharedWRAM << 27); else - return ((addr & NDS::SWRAM_ARM7.Mask) + (NDS::SWRAM_ARM7.Mem - GetSharedWRAM())) | (memregion_SharedWRAM << 27); + return ((addr & NDS.SWRAM_ARM7.Mask) + (NDS.SWRAM_ARM7.Mem - GetSharedWRAM())) | (memregion_SharedWRAM << 27); case memregion_WRAM7: - return (addr & (NDS::ARM7WRAMSize - 1)) | (memregion_WRAM7 << 27); + return (addr & (melonDS::ARM7WRAMSize - 1)) | (memregion_WRAM7 << 27); case memregion_VRAM: // TODO: take mapping properly into account return (addr & 0xFFFFF) | (memregion_VRAM << 27); @@ -1010,7 +1022,9 @@ u32 ARMJIT_Memory::LocaliseAddress(int region, u32 num, u32 addr) const noexcept return (addr & 0x3FFFF) | (memregion_VWRAM << 27); case memregion_NewSharedWRAM_A: { - u8* ptr = DSi::NWRAMMap_A[num][(addr >> 16) & DSi::NWRAMMask[num][0]]; + auto* dsi = dynamic_cast(&NDS); + assert(dsi != nullptr); + u8* ptr = dsi->NWRAMMap_A[num][(addr >> 16) & dsi->NWRAMMask[num][0]]; if (ptr) return (ptr - GetNWRAM_A() + (addr & 0xFFFF)) | (memregion_NewSharedWRAM_A << 27); else @@ -1018,7 +1032,9 @@ u32 ARMJIT_Memory::LocaliseAddress(int region, u32 num, u32 addr) const noexcept } case memregion_NewSharedWRAM_B: { - u8* ptr = DSi::NWRAMMap_B[num][(addr >> 15) & DSi::NWRAMMask[num][1]]; + auto* dsi = dynamic_cast(&NDS); + assert(dsi != nullptr); + u8* ptr = dsi->NWRAMMap_B[num][(addr >> 15) & dsi->NWRAMMask[num][1]]; if (ptr) return (ptr - GetNWRAM_B() + (addr & 0x7FFF)) | (memregion_NewSharedWRAM_B << 27); else @@ -1026,7 +1042,9 @@ u32 ARMJIT_Memory::LocaliseAddress(int region, u32 num, u32 addr) const noexcept } case memregion_NewSharedWRAM_C: { - u8* ptr = DSi::NWRAMMap_C[num][(addr >> 15) & DSi::NWRAMMask[num][2]]; + auto* dsi = dynamic_cast(&NDS); + assert(dsi != nullptr); + u8* ptr = dsi->NWRAMMap_C[num][(addr >> 15) & dsi->NWRAMMask[num][2]]; if (ptr) return (ptr - GetNWRAM_C() + (addr & 0x7FFF)) | (memregion_NewSharedWRAM_C << 27); else @@ -1043,19 +1061,20 @@ u32 ARMJIT_Memory::LocaliseAddress(int region, u32 num, u32 addr) const noexcept int ARMJIT_Memory::ClassifyAddress9(u32 addr) const noexcept { - if (addr < NDS::ARM9->ITCMSize) + if (addr < NDS.ARM9.ITCMSize) { return memregion_ITCM; } - else if ((addr & NDS::ARM9->DTCMMask) == NDS::ARM9->DTCMBase) + else if ((addr & NDS.ARM9.DTCMMask) == NDS.ARM9.DTCMBase) { return memregion_DTCM; } else { - if (NDS::ConsoleType == 1 && addr >= 0xFFFF0000 && !(DSi::SCFG_BIOS & (1<<1))) + auto& dsi = static_cast(NDS); // ONLY use this if ConsoleType == 1! + if (NDS.ConsoleType == 1 && addr >= 0xFFFF0000 && !(dsi.SCFG_BIOS & (1<<1))) { - if ((addr >= 0xFFFF8000) && (DSi::SCFG_BIOS & (1<<0))) + if ((addr >= 0xFFFF8000) && (dsi.SCFG_BIOS & (1<<0))) return memregion_Other; return memregion_BIOS9DSi; @@ -1070,17 +1089,17 @@ int ARMJIT_Memory::ClassifyAddress9(u32 addr) const noexcept case 0x02000000: return memregion_MainRAM; case 0x03000000: - if (NDS::ConsoleType == 1) + if (NDS.ConsoleType == 1) { - if (addr >= DSi::NWRAMStart[0][0] && addr < DSi::NWRAMEnd[0][0]) + if (addr >= dsi.NWRAMStart[0][0] && addr < dsi.NWRAMEnd[0][0]) return memregion_NewSharedWRAM_A; - if (addr >= DSi::NWRAMStart[0][1] && addr < DSi::NWRAMEnd[0][1]) + if (addr >= dsi.NWRAMStart[0][1] && addr < dsi.NWRAMEnd[0][1]) return memregion_NewSharedWRAM_B; - if (addr >= DSi::NWRAMStart[0][2] && addr < DSi::NWRAMEnd[0][2]) + if (addr >= dsi.NWRAMStart[0][2] && addr < dsi.NWRAMEnd[0][2]) return memregion_NewSharedWRAM_C; } - if (NDS::SWRAM_ARM9.Mem) + if (NDS.SWRAM_ARM9.Mem) return memregion_SharedWRAM; return memregion_Other; case 0x04000000: @@ -1088,7 +1107,7 @@ int ARMJIT_Memory::ClassifyAddress9(u32 addr) const noexcept case 0x06000000: return memregion_VRAM; case 0x0C000000: - return (NDS::ConsoleType==1) ? memregion_MainRAM : memregion_Other; + return (NDS.ConsoleType==1) ? memregion_MainRAM : memregion_Other; default: return memregion_Other; } @@ -1097,9 +1116,10 @@ int ARMJIT_Memory::ClassifyAddress9(u32 addr) const noexcept int ARMJIT_Memory::ClassifyAddress7(u32 addr) const noexcept { - if (NDS::ConsoleType == 1 && addr < 0x00010000 && !(DSi::SCFG_BIOS & (1<<9))) + auto& dsi = static_cast(NDS); + if (NDS.ConsoleType == 1 && addr < 0x00010000 && !(dsi.SCFG_BIOS & (1<<9))) { - if (addr >= 0x00008000 && DSi::SCFG_BIOS & (1<<8)) + if (addr >= 0x00008000 && dsi.SCFG_BIOS & (1<<8)) return memregion_Other; return memregion_BIOS7DSi; @@ -1116,17 +1136,17 @@ int ARMJIT_Memory::ClassifyAddress7(u32 addr) const noexcept case 0x02800000: return memregion_MainRAM; case 0x03000000: - if (NDS::ConsoleType == 1) + if (NDS.ConsoleType == 1) { - if (addr >= DSi::NWRAMStart[1][0] && addr < DSi::NWRAMEnd[1][0]) + if (addr >= dsi.NWRAMStart[1][0] && addr < dsi.NWRAMEnd[1][0]) return memregion_NewSharedWRAM_A; - if (addr >= DSi::NWRAMStart[1][1] && addr < DSi::NWRAMEnd[1][1]) + if (addr >= dsi.NWRAMStart[1][1] && addr < dsi.NWRAMEnd[1][1]) return memregion_NewSharedWRAM_B; - if (addr >= DSi::NWRAMStart[1][2] && addr < DSi::NWRAMEnd[1][2]) + if (addr >= dsi.NWRAMStart[1][2] && addr < dsi.NWRAMEnd[1][2]) return memregion_NewSharedWRAM_C; } - if (NDS::SWRAM_ARM7.Mem) + if (NDS.SWRAM_ARM7.Mem) return memregion_SharedWRAM; return memregion_WRAM7; case 0x03800000: @@ -1140,7 +1160,7 @@ int ARMJIT_Memory::ClassifyAddress7(u32 addr) const noexcept return memregion_VWRAM; case 0x0C000000: case 0x0C800000: - return (NDS::ConsoleType==1) ? memregion_MainRAM : memregion_Other; + return (NDS.ConsoleType==1) ? memregion_MainRAM : memregion_Other; default: return memregion_Other; } @@ -1163,11 +1183,11 @@ void VRAMWrite(u32 addr, T val) { switch (addr & 0x00E00000) { - case 0x00000000: NDS::GPU->WriteVRAM_ABG(addr, val); return; - case 0x00200000: NDS::GPU->WriteVRAM_BBG(addr, val); return; - case 0x00400000: NDS::GPU->WriteVRAM_AOBJ(addr, val); return; - case 0x00600000: NDS::GPU->WriteVRAM_BOBJ(addr, val); return; - default: NDS::GPU->WriteVRAM_LCDC(addr, val); return; + case 0x00000000: NDS::Current->GPU.WriteVRAM_ABG(addr, val); return; + case 0x00200000: NDS::Current->GPU.WriteVRAM_BBG(addr, val); return; + case 0x00400000: NDS::Current->GPU.WriteVRAM_AOBJ(addr, val); return; + case 0x00600000: NDS::Current->GPU.WriteVRAM_BOBJ(addr, val); return; + default: NDS::Current->GPU.WriteVRAM_LCDC(addr, val); return; } } template @@ -1175,59 +1195,119 @@ T VRAMRead(u32 addr) { switch (addr & 0x00E00000) { - case 0x00000000: return NDS::GPU->ReadVRAM_ABG(addr); - case 0x00200000: return NDS::GPU->ReadVRAM_BBG(addr); - case 0x00400000: return NDS::GPU->ReadVRAM_AOBJ(addr); - case 0x00600000: return NDS::GPU->ReadVRAM_BOBJ(addr); - default: return NDS::GPU->ReadVRAM_LCDC(addr); + case 0x00000000: return NDS::Current->GPU.ReadVRAM_ABG(addr); + case 0x00200000: return NDS::Current->GPU.ReadVRAM_BBG(addr); + case 0x00400000: return NDS::Current->GPU.ReadVRAM_AOBJ(addr); + case 0x00600000: return NDS::Current->GPU.ReadVRAM_BOBJ(addr); + default: return NDS::Current->GPU.ReadVRAM_LCDC(addr); } } static u8 GPU3D_Read8(u32 addr) noexcept { - return NDS::GPU->GPU3D.Read8(addr); + return NDS::Current->GPU.GPU3D.Read8(addr); } static u16 GPU3D_Read16(u32 addr) noexcept { - return NDS::GPU->GPU3D.Read16(addr); + return NDS::Current->GPU.GPU3D.Read16(addr); } static u32 GPU3D_Read32(u32 addr) noexcept { - return NDS::GPU->GPU3D.Read32(addr); + return NDS::Current->GPU.GPU3D.Read32(addr); } static void GPU3D_Write8(u32 addr, u8 val) noexcept { - NDS::GPU->GPU3D.Write8(addr, val); + NDS::Current->GPU.GPU3D.Write8(addr, val); } static void GPU3D_Write16(u32 addr, u16 val) noexcept { - NDS::GPU->GPU3D.Write16(addr, val); + NDS::Current->GPU.GPU3D.Write16(addr, val); } static void GPU3D_Write32(u32 addr, u32 val) noexcept { - NDS::GPU->GPU3D.Write32(addr, val); + NDS::Current->GPU.GPU3D.Write32(addr, val); } template static T GPU_ReadVRAM_ARM7(u32 addr) noexcept { - return NDS::GPU->ReadVRAM_ARM7(addr); + return NDS::Current->GPU.ReadVRAM_ARM7(addr); } template static void GPU_WriteVRAM_ARM7(u32 addr, T val) noexcept { - NDS::GPU->WriteVRAM_ARM7(addr, val); + NDS::Current->GPU.WriteVRAM_ARM7(addr, val); } u32 NDSCartSlot_ReadROMData() { // TODO: Add a NDS* parameter, when NDS* is eventually implemented - return NDS::NDSCartSlot->ReadROMData(); + return NDS::Current->NDSCartSlot.ReadROMData(); +} + +static u8 NDS_ARM9IORead8(u32 addr) +{ + return NDS::Current->ARM9IORead8(addr); +} + +static u16 NDS_ARM9IORead16(u32 addr) +{ + return NDS::Current->ARM9IORead16(addr); +} + +static u32 NDS_ARM9IORead32(u32 addr) +{ + return NDS::Current->ARM9IORead32(addr); +} + +static void NDS_ARM9IOWrite8(u32 addr, u8 val) +{ + NDS::Current->ARM9IOWrite8(addr, val); +} + +static void NDS_ARM9IOWrite16(u32 addr, u16 val) +{ + NDS::Current->ARM9IOWrite16(addr, val); +} + +static void NDS_ARM9IOWrite32(u32 addr, u32 val) +{ + NDS::Current->ARM9IOWrite32(addr, val); +} + +static u8 NDS_ARM7IORead8(u32 addr) +{ + return NDS::Current->ARM7IORead8(addr); +} + +static u16 NDS_ARM7IORead16(u32 addr) +{ + return NDS::Current->ARM7IORead16(addr); +} + +static u32 NDS_ARM7IORead32(u32 addr) +{ + return NDS::Current->ARM7IORead32(addr); +} + +static void NDS_ARM7IOWrite8(u32 addr, u8 val) +{ + NDS::Current->ARM7IOWrite8(addr, val); +} + +static void NDS_ARM7IOWrite16(u32 addr, u16 val) +{ + NDS::Current->ARM7IOWrite16(addr, val); +} + +static void NDS_ARM7IOWrite32(u32 addr, u32 val) +{ + NDS::Current->ARM7IOWrite32(addr, val); } void* ARMJIT_Memory::GetFuncForAddr(ARM* cpu, u32 addr, bool store, int size) const noexcept @@ -1237,7 +1317,7 @@ void* ARMJIT_Memory::GetFuncForAddr(ARM* cpu, u32 addr, bool store, int size) co switch (addr & 0xFF000000) { case 0x04000000: - if (!store && size == 32 && addr == 0x04100010 && NDS::ExMemCnt[0] & (1<<11)) + if (!store && size == 32 && addr == 0x04100010 && NDS.ExMemCnt[0] & (1<<11)) return (void*)NDSCartSlot_ReadROMData; /* @@ -1259,30 +1339,17 @@ void* ARMJIT_Memory::GetFuncForAddr(ARM* cpu, u32 addr, bool store, int size) co } } - if (NDS::ConsoleType == 0) + switch (size | store) { - switch (size | store) - { - case 8: return (void*)NDS::ARM9IORead8; - case 9: return (void*)NDS::ARM9IOWrite8; - case 16: return (void*)NDS::ARM9IORead16; - case 17: return (void*)NDS::ARM9IOWrite16; - case 32: return (void*)NDS::ARM9IORead32; - case 33: return (void*)NDS::ARM9IOWrite32; - } - } - else - { - switch (size | store) - { - case 8: return (void*)DSi::ARM9IORead8; - case 9: return (void*)DSi::ARM9IOWrite8; - case 16: return (void*)DSi::ARM9IORead16; - case 17: return (void*)DSi::ARM9IOWrite16; - case 32: return (void*)DSi::ARM9IORead32; - case 33: return (void*)DSi::ARM9IOWrite32; - } + case 8: return (void*)NDS_ARM9IORead8; + case 9: return (void*)NDS_ARM9IOWrite8; + case 16: return (void*)NDS_ARM9IORead16; + case 17: return (void*)NDS_ARM9IOWrite16; + case 32: return (void*)NDS_ARM9IORead32; + case 33: return (void*)NDS_ARM9IOWrite32; } + // NDS::Current will delegate to the DSi versions of these methods + // if it's really a DSi break; case 0x06000000: switch (size | store) @@ -1315,29 +1382,14 @@ void* ARMJIT_Memory::GetFuncForAddr(ARM* cpu, u32 addr, bool store, int size) co } }*/ - if (NDS::ConsoleType == 0) + switch (size | store) { - switch (size | store) - { - case 8: return (void*)NDS::ARM7IORead8; - case 9: return (void*)NDS::ARM7IOWrite8; - case 16: return (void*)NDS::ARM7IORead16; - case 17: return (void*)NDS::ARM7IOWrite16; - case 32: return (void*)NDS::ARM7IORead32; - case 33: return (void*)NDS::ARM7IOWrite32; - } - } - else - { - switch (size | store) - { - case 8: return (void*)DSi::ARM7IORead8; - case 9: return (void*)DSi::ARM7IOWrite8; - case 16: return (void*)DSi::ARM7IORead16; - case 17: return (void*)DSi::ARM7IOWrite16; - case 32: return (void*)DSi::ARM7IORead32; - case 33: return (void*)DSi::ARM7IOWrite32; - } + case 8: return (void*)NDS_ARM7IORead8; + case 9: return (void*)NDS_ARM7IOWrite8; + case 16: return (void*)NDS_ARM7IORead16; + case 17: return (void*)NDS_ARM7IOWrite16; + case 32: return (void*)NDS_ARM7IORead32; + case 33: return (void*)NDS_ARM7IOWrite32; } break; // TODO: the wifi funcs also ought to check POWCNT diff --git a/src/ARMJIT_Memory.h b/src/ARMJIT_Memory.h index ed484373..487005b2 100644 --- a/src/ARMJIT_Memory.h +++ b/src/ARMJIT_Memory.h @@ -23,7 +23,7 @@ #include "TinyVector.h" #include "ARM.h" -#include "DSi.h" +#include "MemConstants.h" #if defined(__SWITCH__) #include @@ -44,6 +44,7 @@ namespace melonDS { +namespace Platform { struct DynamicLibrary; } class Compiler; class ARMJIT; @@ -57,13 +58,13 @@ constexpr u32 RoundUp(u32 size) noexcept } const u32 MemBlockMainRAMOffset = 0; -const u32 MemBlockSWRAMOffset = RoundUp(NDS::MainRAMMaxSize); -const u32 MemBlockARM7WRAMOffset = MemBlockSWRAMOffset + RoundUp(NDS::SharedWRAMSize); -const u32 MemBlockDTCMOffset = MemBlockARM7WRAMOffset + RoundUp(NDS::ARM7WRAMSize); +const u32 MemBlockSWRAMOffset = RoundUp(MainRAMMaxSize); +const u32 MemBlockARM7WRAMOffset = MemBlockSWRAMOffset + RoundUp(SharedWRAMSize); +const u32 MemBlockDTCMOffset = MemBlockARM7WRAMOffset + RoundUp(ARM7WRAMSize); const u32 MemBlockNWRAM_AOffset = MemBlockDTCMOffset + RoundUp(DTCMPhysicalSize); -const u32 MemBlockNWRAM_BOffset = MemBlockNWRAM_AOffset + RoundUp(DSi::NWRAMSize); -const u32 MemBlockNWRAM_COffset = MemBlockNWRAM_BOffset + RoundUp(DSi::NWRAMSize); -const u32 MemoryTotalSize = MemBlockNWRAM_COffset + RoundUp(DSi::NWRAMSize); +const u32 MemBlockNWRAM_BOffset = MemBlockNWRAM_AOffset + RoundUp(NWRAMSize); +const u32 MemBlockNWRAM_COffset = MemBlockNWRAM_BOffset + RoundUp(NWRAMSize); +const u32 MemoryTotalSize = MemBlockNWRAM_COffset + RoundUp(NWRAMSize); class ARMJIT_Memory { @@ -96,7 +97,7 @@ public: #ifdef JIT_ENABLED public: - explicit ARMJIT_Memory(ARMJIT& jit) noexcept; + explicit ARMJIT_Memory(melonDS::NDS& nds); ~ARMJIT_Memory() noexcept; ARMJIT_Memory(const ARMJIT_Memory&) = delete; ARMJIT_Memory(ARMJIT_Memory&&) = delete; @@ -144,7 +145,7 @@ private: u32 Size, LocalOffset; u32 Num; - void Unmap(int region, ARMJIT_Memory& memory) noexcept; + void Unmap(int region, NDS& nds) noexcept; }; struct FaultDescription @@ -152,12 +153,12 @@ private: u32 EmulatedFaultAddr; u8* FaultPC; }; - static bool FaultHandler(FaultDescription& faultDesc, ARMJIT& jit); + static bool FaultHandler(FaultDescription& faultDesc, melonDS::NDS& nds); bool MapIntoRange(u32 addr, u32 num, u32 offset, u32 size) noexcept; bool UnmapFromRange(u32 addr, u32 num, u32 offset, u32 size) noexcept; void SetCodeProtectionRange(u32 addr, u32 size, u32 num, int protection) noexcept; - ARMJIT& JIT; + melonDS::NDS& NDS; void* FastMem9Start; void* FastMem7Start; u8* MemoryBase = nullptr; @@ -180,7 +181,7 @@ private: TinyVector Mappings[memregions_Count] {}; #else public: - explicit ARMJIT_Memory(ARMJIT&) {}; + explicit ARMJIT_Memory(melonDS::NDS&) {}; ~ARMJIT_Memory() = default; ARMJIT_Memory(const ARMJIT_Memory&) = delete; ARMJIT_Memory(ARMJIT_Memory&&) = delete; @@ -214,13 +215,13 @@ public: [[nodiscard]] u8* GetNWRAM_C() noexcept { return NWRAM_C.data(); } [[nodiscard]] const u8* GetNWRAM_C() const noexcept { return NWRAM_C.data(); } private: - std::array MainRAM {}; - std::array ARM7WRAM {}; - std::array SharedWRAM {}; + std::array MainRAM {}; + std::array ARM7WRAM {}; + std::array SharedWRAM {}; std::array DTCM {}; - std::array NWRAM_A {}; - std::array NWRAM_B {}; - std::array NWRAM_C {}; + std::array NWRAM_A {}; + std::array NWRAM_B {}; + std::array NWRAM_C {}; #endif }; } diff --git a/src/ARMJIT_x64/ARMJIT_Branch.cpp b/src/ARMJIT_x64/ARMJIT_Branch.cpp index 5d76447e..f7a01f48 100644 --- a/src/ARMJIT_x64/ARMJIT_Branch.cpp +++ b/src/ARMJIT_x64/ARMJIT_Branch.cpp @@ -18,6 +18,7 @@ #include "ARMJIT_Compiler.h" #include "../ARM.h" +#include "../NDS.h" using namespace Gen; @@ -120,7 +121,7 @@ void Compiler::Comp_JumpTo(u32 addr, bool forceNonConstantCycles) u32 compileTimePC = CurCPU->R[15]; CurCPU->R[15] = newPC; - cycles += NDS::ARM7MemTimings[codeCycles][0] + NDS::ARM7MemTimings[codeCycles][1]; + cycles += NDS.ARM7MemTimings[codeCycles][0] + NDS.ARM7MemTimings[codeCycles][1]; CurCPU->R[15] = compileTimePC; } @@ -132,7 +133,7 @@ void Compiler::Comp_JumpTo(u32 addr, bool forceNonConstantCycles) u32 compileTimePC = CurCPU->R[15]; CurCPU->R[15] = newPC; - cycles += NDS::ARM7MemTimings[codeCycles][2] + NDS::ARM7MemTimings[codeCycles][3]; + cycles += NDS.ARM7MemTimings[codeCycles][2] + NDS.ARM7MemTimings[codeCycles][3]; CurCPU->R[15] = compileTimePC; } diff --git a/src/ARMJIT_x64/ARMJIT_Compiler.cpp b/src/ARMJIT_x64/ARMJIT_Compiler.cpp index 9fc72370..eec4d7d1 100644 --- a/src/ARMJIT_x64/ARMJIT_Compiler.cpp +++ b/src/ARMJIT_x64/ARMJIT_Compiler.cpp @@ -20,6 +20,7 @@ #include "../ARMJIT.h" #include "../ARMInterpreter.h" +#include "../NDS.h" #include #include @@ -234,7 +235,7 @@ void Compiler::A_Comp_MSR() */ u8 CodeMemory[1024 * 1024 * 32]; -Compiler::Compiler(ARMJIT& jit) : XEmitter(), JIT(jit) +Compiler::Compiler(melonDS::NDS& nds) : XEmitter(), NDS(nds) { { #ifdef _WIN32 @@ -714,12 +715,12 @@ JitBlockEntry Compiler::CompileBlock(ARM* cpu, bool thumb, FetchedInstr instrs[] if (NearSize - (GetCodePtr() - NearStart) < 1024 * 32) // guess... { Log(LogLevel::Debug, "near reset\n"); - JIT.ResetBlockCache(); + NDS.JIT.ResetBlockCache(); } if (FarSize - (FarCode - FarStart) < 1024 * 32) // guess... { Log(LogLevel::Debug, "far reset\n"); - JIT.ResetBlockCache(); + NDS.JIT.ResetBlockCache(); } ConstantCycles = 0; @@ -863,7 +864,7 @@ JitBlockEntry Compiler::CompileBlock(ARM* cpu, bool thumb, FetchedInstr instrs[] void Compiler::Comp_AddCycles_C(bool forceNonConstant) { s32 cycles = Num ? - NDS::ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 1 : 3] + NDS.ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 1 : 3] : ((R15 & 0x2) ? 0 : CurInstr.CodeCycles); if ((!Thumb && CurInstr.Cond() < 0xE) || forceNonConstant) @@ -875,7 +876,7 @@ void Compiler::Comp_AddCycles_C(bool forceNonConstant) void Compiler::Comp_AddCycles_CI(u32 i) { s32 cycles = (Num ? - NDS::ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2] + NDS.ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2] : ((R15 & 0x2) ? 0 : CurInstr.CodeCycles)) + i; if (!Thumb && CurInstr.Cond() < 0xE) @@ -887,7 +888,7 @@ void Compiler::Comp_AddCycles_CI(u32 i) void Compiler::Comp_AddCycles_CI(Gen::X64Reg i, int add) { s32 cycles = Num ? - NDS::ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2] + NDS.ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2] : ((R15 & 0x2) ? 0 : CurInstr.CodeCycles); if (!Thumb && CurInstr.Cond() < 0xE) @@ -912,7 +913,7 @@ void Compiler::Comp_AddCycles_CDI() s32 cycles; - s32 numC = NDS::ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2]; + s32 numC = NDS.ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2]; s32 numD = CurInstr.DataCycles; if ((CurInstr.DataRegion >> 24) == 0x02) // mainRAM @@ -957,7 +958,7 @@ void Compiler::Comp_AddCycles_CD() } else { - s32 numC = NDS::ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2]; + s32 numC = NDS.ARM7MemTimings[CurInstr.CodeCycles][Thumb ? 0 : 2]; s32 numD = CurInstr.DataCycles; if ((CurInstr.DataRegion >> 4) == 0x02) diff --git a/src/ARMJIT_x64/ARMJIT_Compiler.h b/src/ARMJIT_x64/ARMJIT_Compiler.h index f38a6c3a..fa6d78a4 100644 --- a/src/ARMJIT_x64/ARMJIT_Compiler.h +++ b/src/ARMJIT_x64/ARMJIT_Compiler.h @@ -35,6 +35,7 @@ namespace melonDS { class ARMJIT; class ARMJIT_Memory; +class NDS; const Gen::X64Reg RCPU = Gen::RBP; const Gen::X64Reg RCPSR = Gen::R15; @@ -81,9 +82,9 @@ class Compiler : public Gen::XEmitter { public: #ifdef JIT_ENABLED - explicit Compiler(ARMJIT& jit); + explicit Compiler(melonDS::NDS& nds); #else - explicit Compiler(ARMJIT& jit) : XEmitter(), JIT(jit) {} + explicit Compiler(melonDS::NDS& nds) : XEmitter(), NDS(nds) {} #endif void Reset(); @@ -243,7 +244,7 @@ public: void CreateMethod(const char* namefmt, void* start, ...); #endif - ARMJIT& JIT; + melonDS::NDS& NDS; u8* FarCode {}; u8* NearCode {}; u32 FarSize {}; diff --git a/src/ARMJIT_x64/ARMJIT_LoadStore.cpp b/src/ARMJIT_x64/ARMJIT_LoadStore.cpp index 9b7d865f..72a073db 100644 --- a/src/ARMJIT_x64/ARMJIT_LoadStore.cpp +++ b/src/ARMJIT_x64/ARMJIT_LoadStore.cpp @@ -18,6 +18,7 @@ #include "ARMJIT_Compiler.h" #include "../ARMJIT.h" +#include "../NDS.h" using namespace Gen; @@ -68,9 +69,9 @@ u8* Compiler::RewriteMemAccess(u8* pc) bool Compiler::Comp_MemLoadLiteral(int size, bool signExtend, int rd, u32 addr) { - u32 localAddr = JIT.LocaliseCodeAddress(Num, addr); + u32 localAddr = NDS.JIT.LocaliseCodeAddress(Num, addr); - int invalidLiteralIdx = JIT.InvalidLiterals.Find(localAddr); + int invalidLiteralIdx = NDS.JIT.InvalidLiterals.Find(localAddr); if (invalidLiteralIdx != -1) { return false; @@ -118,7 +119,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, const Op2& op2, int size, int flag if (size == 16) addressMask = ~1; - if (JIT.LiteralOptimizations && rn == 15 && rd != 15 && op2.IsImm && !(flags & (memop_Post|memop_Store|memop_Writeback))) + if (NDS.JIT.LiteralOptimizations && rn == 15 && rd != 15 && op2.IsImm && !(flags & (memop_Post|memop_Store|memop_Writeback))) { u32 addr = R15 + op2.Imm * ((flags & memop_SubtractOffset) ? -1 : 1); @@ -135,7 +136,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, const Op2& op2, int size, int flag Comp_AddCycles_CDI(); } - bool addrIsStatic = JIT.LiteralOptimizations + bool addrIsStatic = NDS.JIT.LiteralOptimizations && RegCache.IsLiteral(rn) && op2.IsImm && !(flags & (memop_Writeback|memop_Post)); u32 staticAddress; if (addrIsStatic) @@ -196,10 +197,10 @@ void Compiler::Comp_MemAccess(int rd, int rn, const Op2& op2, int size, int flag MOV(32, rnMapped, R(finalAddr)); u32 expectedTarget = Num == 0 - ? JIT.Memory.ClassifyAddress9(CurInstr.DataRegion) - : JIT.Memory.ClassifyAddress7(CurInstr.DataRegion); + ? NDS.JIT.Memory.ClassifyAddress9(CurInstr.DataRegion) + : NDS.JIT.Memory.ClassifyAddress7(CurInstr.DataRegion); - if (JIT.FastMemory && ((!Thumb && CurInstr.Cond() != 0xE) || JIT.Memory.IsFastmemCompatible(expectedTarget))) + if (NDS.JIT.FastMemory && ((!Thumb && CurInstr.Cond() != 0xE) || NDS.JIT.Memory.IsFastmemCompatible(expectedTarget))) { if (rdMapped.IsImm()) { @@ -212,12 +213,12 @@ void Compiler::Comp_MemAccess(int rd, int rn, const Op2& op2, int size, int flag assert(rdMapped.GetSimpleReg() >= 0 && rdMapped.GetSimpleReg() < 16); patch.PatchFunc = flags & memop_Store - ? PatchedStoreFuncs[NDS::ConsoleType][Num][__builtin_ctz(size) - 3][rdMapped.GetSimpleReg()] - : PatchedLoadFuncs[NDS::ConsoleType][Num][__builtin_ctz(size) - 3][!!(flags & memop_SignExtend)][rdMapped.GetSimpleReg()]; + ? PatchedStoreFuncs[NDS.ConsoleType][Num][__builtin_ctz(size) - 3][rdMapped.GetSimpleReg()] + : PatchedLoadFuncs[NDS.ConsoleType][Num][__builtin_ctz(size) - 3][!!(flags & memop_SignExtend)][rdMapped.GetSimpleReg()]; assert(patch.PatchFunc != NULL); - MOV(64, R(RSCRATCH), ImmPtr(Num == 0 ? JIT.Memory.FastMem9Start : JIT.Memory.FastMem7Start)); + MOV(64, R(RSCRATCH), ImmPtr(Num == 0 ? NDS.JIT.Memory.FastMem9Start : NDS.JIT.Memory.FastMem7Start)); X64Reg maskedAddr = RSCRATCH3; if (size > 8) @@ -268,7 +269,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, const Op2& op2, int size, int flag void* func = NULL; if (addrIsStatic) - func = JIT.Memory.GetFuncForAddr(CurCPU, staticAddress, flags & memop_Store, size); + func = NDS.JIT.Memory.GetFuncForAddr(CurCPU, staticAddress, flags & memop_Store, size); if (func) { @@ -313,7 +314,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, const Op2& op2, int size, int flag MOV(32, R(ABI_PARAM1), R(RSCRATCH3)); if (flags & memop_Store) { - switch (size | NDS::ConsoleType) + switch (size | NDS.ConsoleType) { case 32: CALL((void*)&SlowWrite9); break; case 16: CALL((void*)&SlowWrite9); break; @@ -325,7 +326,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, const Op2& op2, int size, int flag } else { - switch (size | NDS::ConsoleType) + switch (size | NDS.ConsoleType) { case 32: CALL((void*)&SlowRead9); break; case 16: CALL((void*)&SlowRead9); break; @@ -344,7 +345,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, const Op2& op2, int size, int flag { MOV(32, R(ABI_PARAM2), rdMapped); - switch (size | NDS::ConsoleType) + switch (size | NDS.ConsoleType) { case 32: CALL((void*)&SlowWrite7); break; case 16: CALL((void*)&SlowWrite7); break; @@ -356,7 +357,7 @@ void Compiler::Comp_MemAccess(int rd, int rn, const Op2& op2, int size, int flag } else { - switch (size | NDS::ConsoleType) + switch (size | NDS.ConsoleType) { case 32: CALL((void*)&SlowRead7); break; case 16: CALL((void*)&SlowRead7); break; @@ -422,16 +423,16 @@ s32 Compiler::Comp_MemAccessBlock(int rn, BitSet16 regs, bool store, bool preinc s32 offset = (regsCount * 4) * (decrement ? -1 : 1); int expectedTarget = Num == 0 - ? JIT.Memory.ClassifyAddress9(CurInstr.DataRegion) - : JIT.Memory.ClassifyAddress7(CurInstr.DataRegion); + ? NDS.JIT.Memory.ClassifyAddress9(CurInstr.DataRegion) + : NDS.JIT.Memory.ClassifyAddress7(CurInstr.DataRegion); if (!store) Comp_AddCycles_CDI(); else Comp_AddCycles_CD(); - bool compileFastPath = JIT.FastMemory - && !usermode && (CurInstr.Cond() < 0xE || JIT.Memory.IsFastmemCompatible(expectedTarget)); + bool compileFastPath = NDS.JIT.FastMemory + && !usermode && (CurInstr.Cond() < 0xE || NDS.JIT.Memory.IsFastmemCompatible(expectedTarget)); // we need to make sure that the stack stays aligned to 16 bytes #ifdef _WIN32 @@ -454,7 +455,7 @@ s32 Compiler::Comp_MemAccessBlock(int rn, BitSet16 regs, bool store, bool preinc u8* fastPathStart = GetWritableCodePtr(); u8* loadStoreAddr[16]; - MOV(64, R(RSCRATCH2), ImmPtr(Num == 0 ? JIT.Memory.FastMem9Start : JIT.Memory.FastMem7Start)); + MOV(64, R(RSCRATCH2), ImmPtr(Num == 0 ? NDS.JIT.Memory.FastMem9Start : NDS.JIT.Memory.FastMem7Start)); ADD(64, R(RSCRATCH2), R(RSCRATCH4)); u32 offset = 0; @@ -523,7 +524,7 @@ s32 Compiler::Comp_MemAccessBlock(int rn, BitSet16 regs, bool store, bool preinc if (Num == 0) MOV(64, R(ABI_PARAM4), R(RCPU)); - switch (Num * 2 | NDS::ConsoleType) + switch (Num * 2 | NDS.ConsoleType) { case 0: CALL((void*)&SlowBlockTransfer9); break; case 1: CALL((void*)&SlowBlockTransfer9); break; @@ -627,7 +628,7 @@ s32 Compiler::Comp_MemAccessBlock(int rn, BitSet16 regs, bool store, bool preinc if (Num == 0) MOV(64, R(ABI_PARAM4), R(RCPU)); - switch (Num * 2 | NDS::ConsoleType) + switch (Num * 2 | NDS.ConsoleType) { case 0: CALL((void*)&SlowBlockTransfer9); break; case 1: CALL((void*)&SlowBlockTransfer9); break; @@ -808,7 +809,7 @@ void Compiler::T_Comp_LoadPCRel() { u32 offset = (CurInstr.Instr & 0xFF) << 2; u32 addr = (R15 & ~0x2) + offset; - if (!JIT.LiteralOptimizations || !Comp_MemLoadLiteral(32, false, CurInstr.T_Reg(8), addr)) + if (!NDS.JIT.LiteralOptimizations || !Comp_MemLoadLiteral(32, false, CurInstr.T_Reg(8), addr)) Comp_MemAccess(CurInstr.T_Reg(8), 15, Op2(offset), 32, 0); } diff --git a/src/CP15.cpp b/src/CP15.cpp index af23da3a..7cea845d 100644 --- a/src/CP15.cpp +++ b/src/CP15.cpp @@ -124,7 +124,7 @@ void ARMv5::UpdateDTCMSetting() if (newDTCMBase != DTCMBase || newDTCMMask != DTCMMask) { - JIT.Memory.RemapDTCM(newDTCMBase, newDTCMSize); + NDS.JIT.Memory.RemapDTCM(newDTCMBase, newDTCMSize); DTCMBase = newDTCMBase; DTCMMask = newDTCMMask; } @@ -295,7 +295,7 @@ void ARMv5::UpdateRegionTimings(u32 addrstart, u32 addrend) for (u32 i = addrstart; i < addrend; i++) { u8 pu = PU_Map[i]; - u8* bustimings = NDS::ARM9MemTimings[i >> 2]; + u8* bustimings = NDS.ARM9MemTimings[i >> 2]; if (pu & 0x40) { @@ -303,7 +303,7 @@ void ARMv5::UpdateRegionTimings(u32 addrstart, u32 addrend) } else { - MemTimings[i][0] = bustimings[2] << NDS::ARM9ClockShift; + MemTimings[i][0] = bustimings[2] << NDS.ARM9ClockShift; } if (pu & 0x10) @@ -314,9 +314,9 @@ void ARMv5::UpdateRegionTimings(u32 addrstart, u32 addrend) } else { - MemTimings[i][1] = bustimings[0] << NDS::ARM9ClockShift; - MemTimings[i][2] = bustimings[2] << NDS::ARM9ClockShift; - MemTimings[i][3] = bustimings[3] << NDS::ARM9ClockShift; + MemTimings[i][1] = bustimings[0] << NDS.ARM9ClockShift; + MemTimings[i][2] = bustimings[2] << NDS.ARM9ClockShift; + MemTimings[i][3] = bustimings[3] << NDS.ARM9ClockShift; } } } @@ -388,14 +388,14 @@ void ARMv5::ICacheLookup(u32 addr) else { for (int i = 0; i < 32; i+=4) - *(u32*)&ptr[i] = NDS::ARM9Read32(addr+i); + *(u32*)&ptr[i] = NDS.ARM9Read32(addr+i); } ICacheTags[line] = tag; // ouch :/ //printf("cache miss %08X: %d/%d\n", addr, NDS::ARM9MemTimings[addr >> 14][2], NDS::ARM9MemTimings[addr >> 14][3]); - CodeCycles = (NDS::ARM9MemTimings[addr >> 14][2] + (NDS::ARM9MemTimings[addr >> 14][3] * 7)) << NDS::ARM9ClockShift; + CodeCycles = (NDS.ARM9MemTimings[addr >> 14][2] + (NDS.ARM9MemTimings[addr >> 14][3] * 7)) << NDS.ARM9ClockShift; CurICacheLine = ptr; } @@ -923,7 +923,7 @@ void ARMv5::DataWrite8(u32 addr, u8 val) { DataCycles = 1; *(u8*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val; - JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr); + NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr); return; } if ((addr & DTCMMask) == DTCMBase) @@ -953,7 +953,7 @@ void ARMv5::DataWrite16(u32 addr, u16 val) { DataCycles = 1; *(u16*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val; - JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr); + NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr); return; } if ((addr & DTCMMask) == DTCMBase) @@ -983,7 +983,7 @@ void ARMv5::DataWrite32(u32 addr, u32 val) { DataCycles = 1; *(u32*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val; - JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr); + NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr); return; } if ((addr & DTCMMask) == DTCMBase) @@ -1006,7 +1006,7 @@ void ARMv5::DataWrite32S(u32 addr, u32 val) DataCycles += 1; *(u32*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val; #ifdef JIT_ENABLED - JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr); + NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr); #endif return; } @@ -1021,7 +1021,7 @@ void ARMv5::DataWrite32S(u32 addr, u32 val) DataCycles += MemTimings[addr >> 12][3]; } -void ARMv5::GetCodeMemRegion(u32 addr, NDS::MemRegion* region) +void ARMv5::GetCodeMemRegion(u32 addr, MemRegion* region) { /*if (addr < ITCMSize) { @@ -1030,7 +1030,7 @@ void ARMv5::GetCodeMemRegion(u32 addr, NDS::MemRegion* region) return; }*/ - GetMemRegion(addr, false, &CodeMem); + NDS.ARM9GetMemRegion(addr, false, &CodeMem); } } diff --git a/src/DMA.cpp b/src/DMA.cpp index 8afc8971..717b38fa 100644 --- a/src/DMA.cpp +++ b/src/DMA.cpp @@ -49,10 +49,10 @@ using Platform::LogLevel; // TODO: timings are nonseq when address is fixed/decrementing -DMA::DMA(u32 cpu, u32 num, melonDS::GPU& gpu) : +DMA::DMA(u32 cpu, u32 num, melonDS::NDS& nds) : CPU(cpu), Num(num), - GPU(gpu) + NDS(nds) { if (cpu == 0) CountMask = 0x001FFFFF; @@ -145,7 +145,7 @@ void DMA::WriteCnt(u32 val) if ((StartMode & 0x7) == 0) Start(); else if (StartMode == 0x07) - GPU.GPU3D.CheckFIFODMA(); + NDS.GPU.GPU3D.CheckFIFODMA(); if (StartMode==0x06 || StartMode==0x13) Log(LogLevel::Warn, "UNIMPLEMENTED ARM%d DMA%d START MODE %02X, %08X->%08X\n", CPU?7:9, Num, StartMode, SrcAddr, DstAddr); @@ -192,7 +192,7 @@ void DMA::Start() MRAMBurstTable = DMATiming::MRAMDummy; InProgress = true; - NDS::StopCPU(CPU, 1<> 14; u32 dst_id = CurDstAddr >> 14; - u32 src_rgn = NDS::ARM9Regions[src_id]; - u32 dst_rgn = NDS::ARM9Regions[dst_id]; + u32 src_rgn = NDS.ARM9Regions[src_id]; + u32 dst_rgn = NDS.ARM9Regions[dst_id]; u32 src_n, src_s, dst_n, dst_s; - src_n = NDS::ARM9MemTimings[src_id][4]; - src_s = NDS::ARM9MemTimings[src_id][5]; - dst_n = NDS::ARM9MemTimings[dst_id][4]; - dst_s = NDS::ARM9MemTimings[dst_id][5]; + src_n = NDS.ARM9MemTimings[src_id][4]; + src_s = NDS.ARM9MemTimings[src_id][5]; + dst_n = NDS.ARM9MemTimings[dst_id][4]; + dst_s = NDS.ARM9MemTimings[dst_id][5]; - if (src_rgn == NDS::Mem9_MainRAM) + if (src_rgn == Mem9_MainRAM) { - if (dst_rgn == NDS::Mem9_MainRAM) + if (dst_rgn == Mem9_MainRAM) return 16; if (SrcAddrInc > 0) @@ -220,7 +220,7 @@ u32 DMA::UnitTimings9_16(bool burststart) { MRAMBurstCount = 0; - if (dst_rgn == NDS::Mem9_GBAROM) + if (dst_rgn == Mem9_GBAROM) { if (dst_s == 4) MRAMBurstTable = DMATiming::MRAMRead16Bursts[1]; @@ -241,7 +241,7 @@ u32 DMA::UnitTimings9_16(bool burststart) (burststart ? dst_n : dst_s); } } - else if (dst_rgn == NDS::Mem9_MainRAM) + else if (dst_rgn == Mem9_MainRAM) { if (DstAddrInc > 0) { @@ -249,7 +249,7 @@ u32 DMA::UnitTimings9_16(bool burststart) { MRAMBurstCount = 0; - if (src_rgn == NDS::Mem9_GBAROM) + if (src_rgn == Mem9_GBAROM) { if (src_s == 4) MRAMBurstTable = DMATiming::MRAMWrite16Bursts[1]; @@ -286,18 +286,18 @@ u32 DMA::UnitTimings9_32(bool burststart) u32 src_id = CurSrcAddr >> 14; u32 dst_id = CurDstAddr >> 14; - u32 src_rgn = NDS::ARM9Regions[src_id]; - u32 dst_rgn = NDS::ARM9Regions[dst_id]; + u32 src_rgn = NDS.ARM9Regions[src_id]; + u32 dst_rgn = NDS.ARM9Regions[dst_id]; u32 src_n, src_s, dst_n, dst_s; - src_n = NDS::ARM9MemTimings[src_id][6]; - src_s = NDS::ARM9MemTimings[src_id][7]; - dst_n = NDS::ARM9MemTimings[dst_id][6]; - dst_s = NDS::ARM9MemTimings[dst_id][7]; + src_n = NDS.ARM9MemTimings[src_id][6]; + src_s = NDS.ARM9MemTimings[src_id][7]; + dst_n = NDS.ARM9MemTimings[dst_id][6]; + dst_s = NDS.ARM9MemTimings[dst_id][7]; - if (src_rgn == NDS::Mem9_MainRAM) + if (src_rgn == Mem9_MainRAM) { - if (dst_rgn == NDS::Mem9_MainRAM) + if (dst_rgn == Mem9_MainRAM) return 18; if (SrcAddrInc > 0) @@ -306,7 +306,7 @@ u32 DMA::UnitTimings9_32(bool burststart) { MRAMBurstCount = 0; - if (dst_rgn == NDS::Mem9_GBAROM) + if (dst_rgn == Mem9_GBAROM) { if (dst_s == 8) MRAMBurstTable = DMATiming::MRAMRead32Bursts[2]; @@ -329,7 +329,7 @@ u32 DMA::UnitTimings9_32(bool burststart) (burststart ? dst_n : dst_s); } } - else if (dst_rgn == NDS::Mem9_MainRAM) + else if (dst_rgn == Mem9_MainRAM) { if (DstAddrInc > 0) { @@ -337,7 +337,7 @@ u32 DMA::UnitTimings9_32(bool burststart) { MRAMBurstCount = 0; - if (src_rgn == NDS::Mem9_GBAROM) + if (src_rgn == Mem9_GBAROM) { if (src_s == 8) MRAMBurstTable = DMATiming::MRAMWrite32Bursts[2]; @@ -378,18 +378,18 @@ u32 DMA::UnitTimings7_16(bool burststart) u32 src_id = CurSrcAddr >> 15; u32 dst_id = CurDstAddr >> 15; - u32 src_rgn = NDS::ARM7Regions[src_id]; - u32 dst_rgn = NDS::ARM7Regions[dst_id]; + u32 src_rgn = NDS.ARM7Regions[src_id]; + u32 dst_rgn = NDS.ARM7Regions[dst_id]; u32 src_n, src_s, dst_n, dst_s; - src_n = NDS::ARM7MemTimings[src_id][0]; - src_s = NDS::ARM7MemTimings[src_id][1]; - dst_n = NDS::ARM7MemTimings[dst_id][0]; - dst_s = NDS::ARM7MemTimings[dst_id][1]; + src_n = NDS.ARM7MemTimings[src_id][0]; + src_s = NDS.ARM7MemTimings[src_id][1]; + dst_n = NDS.ARM7MemTimings[dst_id][0]; + dst_s = NDS.ARM7MemTimings[dst_id][1]; - if (src_rgn == NDS::Mem7_MainRAM) + if (src_rgn == Mem7_MainRAM) { - if (dst_rgn == NDS::Mem7_MainRAM) + if (dst_rgn == Mem7_MainRAM) return 16; if (SrcAddrInc > 0) @@ -398,7 +398,7 @@ u32 DMA::UnitTimings7_16(bool burststart) { MRAMBurstCount = 0; - if (dst_rgn == NDS::Mem7_GBAROM || dst_rgn == NDS::Mem7_Wifi0 || dst_rgn == NDS::Mem7_Wifi1) + if (dst_rgn == Mem7_GBAROM || dst_rgn == Mem7_Wifi0 || dst_rgn == Mem7_Wifi1) { if (dst_s == 4) MRAMBurstTable = DMATiming::MRAMRead16Bursts[1]; @@ -419,7 +419,7 @@ u32 DMA::UnitTimings7_16(bool burststart) (burststart ? dst_n : dst_s); } } - else if (dst_rgn == NDS::Mem7_MainRAM) + else if (dst_rgn == Mem7_MainRAM) { if (DstAddrInc > 0) { @@ -427,7 +427,7 @@ u32 DMA::UnitTimings7_16(bool burststart) { MRAMBurstCount = 0; - if (src_rgn == NDS::Mem7_GBAROM || src_rgn == NDS::Mem7_Wifi0 || src_rgn == NDS::Mem7_Wifi1) + if (src_rgn == Mem7_GBAROM || src_rgn == Mem7_Wifi0 || src_rgn == Mem7_Wifi1) { if (src_s == 4) MRAMBurstTable = DMATiming::MRAMWrite16Bursts[1]; @@ -464,18 +464,18 @@ u32 DMA::UnitTimings7_32(bool burststart) u32 src_id = CurSrcAddr >> 15; u32 dst_id = CurDstAddr >> 15; - u32 src_rgn = NDS::ARM7Regions[src_id]; - u32 dst_rgn = NDS::ARM7Regions[dst_id]; + u32 src_rgn = NDS.ARM7Regions[src_id]; + u32 dst_rgn = NDS.ARM7Regions[dst_id]; u32 src_n, src_s, dst_n, dst_s; - src_n = NDS::ARM7MemTimings[src_id][2]; - src_s = NDS::ARM7MemTimings[src_id][3]; - dst_n = NDS::ARM7MemTimings[dst_id][2]; - dst_s = NDS::ARM7MemTimings[dst_id][3]; + src_n = NDS.ARM7MemTimings[src_id][2]; + src_s = NDS.ARM7MemTimings[src_id][3]; + dst_n = NDS.ARM7MemTimings[dst_id][2]; + dst_s = NDS.ARM7MemTimings[dst_id][3]; - if (src_rgn == NDS::Mem7_MainRAM) + if (src_rgn == Mem7_MainRAM) { - if (dst_rgn == NDS::Mem7_MainRAM) + if (dst_rgn == Mem7_MainRAM) return 18; if (SrcAddrInc > 0) @@ -484,7 +484,7 @@ u32 DMA::UnitTimings7_32(bool burststart) { MRAMBurstCount = 0; - if (dst_rgn == NDS::Mem7_GBAROM || dst_rgn == NDS::Mem7_Wifi0 || dst_rgn == NDS::Mem7_Wifi1) + if (dst_rgn == Mem7_GBAROM || dst_rgn == Mem7_Wifi0 || dst_rgn == Mem7_Wifi1) { if (dst_s == 8) MRAMBurstTable = DMATiming::MRAMRead32Bursts[2]; @@ -507,7 +507,7 @@ u32 DMA::UnitTimings7_32(bool burststart) (burststart ? dst_n : dst_s); } } - else if (dst_rgn == NDS::Mem7_MainRAM) + else if (dst_rgn == Mem7_MainRAM) { if (DstAddrInc > 0) { @@ -515,7 +515,7 @@ u32 DMA::UnitTimings7_32(bool burststart) { MRAMBurstCount = 0; - if (src_rgn == NDS::Mem7_GBAROM || src_rgn == NDS::Mem7_Wifi0 || src_rgn == NDS::Mem7_Wifi1) + if (src_rgn == Mem7_GBAROM || src_rgn == Mem7_Wifi0 || src_rgn == Mem7_Wifi1) { if (src_s == 8) MRAMBurstTable = DMATiming::MRAMWrite32Bursts[2]; @@ -549,10 +549,9 @@ u32 DMA::UnitTimings7_32(bool burststart) } } -template void DMA::Run9() { - if (NDS::ARM9Timestamp >= NDS::ARM9Target) return; + if (NDS.ARM9Timestamp >= NDS.ARM9Target) return; Executing = true; @@ -564,40 +563,34 @@ void DMA::Run9() { while (IterCount > 0 && !Stall) { - NDS::ARM9Timestamp += (UnitTimings9_16(burststart) << NDS::ARM9ClockShift); + NDS.ARM9Timestamp += (UnitTimings9_16(burststart) << NDS.ARM9ClockShift); burststart = false; - if (ConsoleType == 1) - DSi::ARM9Write16(CurDstAddr, DSi::ARM9Read16(CurSrcAddr)); - else - NDS::ARM9Write16(CurDstAddr, NDS::ARM9Read16(CurSrcAddr)); + NDS.ARM9Write16(CurDstAddr, NDS.ARM9Read16(CurSrcAddr)); CurSrcAddr += SrcAddrInc<<1; CurDstAddr += DstAddrInc<<1; IterCount--; RemCount--; - if (NDS::ARM9Timestamp >= NDS::ARM9Target) break; + if (NDS.ARM9Timestamp >= NDS.ARM9Target) break; } } else { while (IterCount > 0 && !Stall) { - NDS::ARM9Timestamp += (UnitTimings9_32(burststart) << NDS::ARM9ClockShift); + NDS.ARM9Timestamp += (UnitTimings9_32(burststart) << NDS.ARM9ClockShift); burststart = false; - if (ConsoleType == 1) - DSi::ARM9Write32(CurDstAddr, DSi::ARM9Read32(CurSrcAddr)); - else - NDS::ARM9Write32(CurDstAddr, NDS::ARM9Read32(CurSrcAddr)); + NDS.ARM9Write32(CurDstAddr, NDS.ARM9Read32(CurSrcAddr)); CurSrcAddr += SrcAddrInc<<2; CurDstAddr += DstAddrInc<<2; IterCount--; RemCount--; - if (NDS::ARM9Timestamp >= NDS::ARM9Target) break; + if (NDS.ARM9Timestamp >= NDS.ARM9Target) break; } } @@ -609,10 +602,10 @@ void DMA::Run9() if (IterCount == 0) { Running = 0; - NDS::ResumeCPU(0, 1< void DMA::Run7() { - if (NDS::ARM7Timestamp >= NDS::ARM7Target) return; + if (NDS.ARM7Timestamp >= NDS.ARM7Target) return; Executing = true; @@ -644,40 +636,34 @@ void DMA::Run7() { while (IterCount > 0 && !Stall) { - NDS::ARM7Timestamp += UnitTimings7_16(burststart); + NDS.ARM7Timestamp += UnitTimings7_16(burststart); burststart = false; - if (ConsoleType == 1) - DSi::ARM7Write16(CurDstAddr, DSi::ARM7Read16(CurSrcAddr)); - else - NDS::ARM7Write16(CurDstAddr, NDS::ARM7Read16(CurSrcAddr)); + NDS.ARM7Write16(CurDstAddr, NDS.ARM7Read16(CurSrcAddr)); CurSrcAddr += SrcAddrInc<<1; CurDstAddr += DstAddrInc<<1; IterCount--; RemCount--; - if (NDS::ARM7Timestamp >= NDS::ARM7Target) break; + if (NDS.ARM7Timestamp >= NDS.ARM7Target) break; } } else { while (IterCount > 0 && !Stall) { - NDS::ARM7Timestamp += UnitTimings7_32(burststart); + NDS.ARM7Timestamp += UnitTimings7_32(burststart); burststart = false; - if (ConsoleType == 1) - DSi::ARM7Write32(CurDstAddr, DSi::ARM7Read32(CurSrcAddr)); - else - NDS::ARM7Write32(CurDstAddr, NDS::ARM7Read32(CurSrcAddr)); + NDS.ARM7Write32(CurDstAddr, NDS.ARM7Read32(CurSrcAddr)); CurSrcAddr += SrcAddrInc<<2; CurDstAddr += DstAddrInc<<2; IterCount--; RemCount--; - if (NDS::ARM7Timestamp >= NDS::ARM7Target) break; + if (NDS.ARM7Timestamp >= NDS.ARM7Target) break; } } @@ -689,7 +675,7 @@ void DMA::Run7() if (IterCount == 0) { Running = 0; - NDS::ResumeCPU(1, 1< void DMA::Run() { if (!Running) return; - if (CPU == 0) return Run9(); - else return Run7(); + if (CPU == 0) return Run9(); + else return Run7(); } -template void DMA::Run<0>(); -template void DMA::Run<1>(); - } \ No newline at end of file diff --git a/src/DMA.h b/src/DMA.h index 5535661d..e0e3be15 100644 --- a/src/DMA.h +++ b/src/DMA.h @@ -21,17 +21,16 @@ #include #include "types.h" -#include "Savestate.h" -#include "DMA_Timings.h" namespace melonDS { -class GPU; +class NDS; +class Savestate; class DMA { public: - DMA(u32 cpu, u32 num, GPU& gpu); + DMA(u32 cpu, u32 num, NDS& nds); ~DMA() = default; void Reset(); @@ -46,12 +45,8 @@ public: u32 UnitTimings7_16(bool burststart); u32 UnitTimings7_32(bool burststart); - template void Run(); - - template void Run9(); - template void Run7(); bool IsInMode(u32 mode) const noexcept @@ -83,7 +78,7 @@ public: u32 Cnt {}; private: - melonDS::GPU& GPU; + melonDS::NDS& NDS; u32 CPU {}; u32 Num {}; diff --git a/src/DSi.cpp b/src/DSi.cpp index 351d5ed4..f2781e48 100644 --- a/src/DSi.cpp +++ b/src/DSi.cpp @@ -45,135 +45,88 @@ namespace melonDS { using namespace Platform; -namespace DSi +// matching NDMA modes for DSi +const u32 NDMAModes[] = { + // ARM9 -u16 SCFG_BIOS; -u16 SCFG_Clock9; -u16 SCFG_Clock7; -u32 SCFG_EXT[2]; -u32 SCFG_MC; -u16 SCFG_RST; + 0x10, // immediate + 0x06, // VBlank + 0x07, // HBlank + 0x08, // scanline start + 0x09, // mainmem FIFO + 0x04, // DS cart slot + 0xFF, // GBA cart slot + 0x0A, // GX FIFO + 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, -u8 ARM9iBIOS[0x10000] = { 0 }; -u8 ARM7iBIOS[0x10000] = { 0 }; + // ARM7 -u32 MBK[2][9]; + 0x30, // immediate + 0x26, // VBlank + 0x24, // DS cart slot + 0xFF, // wifi / GBA cart slot (TODO) +}; -u8* NWRAM_A; -u8* NWRAM_B; -u8* NWRAM_C; - -u8* NWRAMMap_A[2][4]; -u8* NWRAMMap_B[3][8]; -u8* NWRAMMap_C[3][8]; - -u32 NWRAMStart[2][3]; -u32 NWRAMEnd[2][3]; -u32 NWRAMMask[2][3]; - -u32 NDMACnt[2]; -DSi_NDMA* NDMAs[8]; - -std::unique_ptr NANDImage; -DSi_SDHost* SDMMC; -DSi_SDHost* SDIO; - -DSi_I2CHost* I2C; -DSi_CamModule* CamModule; -DSi_AES* AES; -DSi_DSP* DSP; - -// FIXME: these currently have no effect (and aren't stored in a savestate) -// ... not that they matter all that much -u8 GPIO_Data; -u8 GPIO_Dir; -u8 GPIO_IEdgeSel; -u8 GPIO_IE; -u8 GPIO_WiFi; - - -void Set_SCFG_Clock9(u16 val); -void Set_SCFG_MC(u32 val); - - -bool Init() +DSi::DSi() noexcept : + NDS(1), + NDMAs { + DSi_NDMA(0, 0, *this), + DSi_NDMA(0, 1, *this), + DSi_NDMA(0, 2, *this), + DSi_NDMA(0, 3, *this), + DSi_NDMA(1, 0, *this), + DSi_NDMA(1, 1, *this), + DSi_NDMA(1, 2, *this), + DSi_NDMA(1, 3, *this), + }, + DSP(*this), + SDMMC(*this, 0), + SDIO(*this, 1), + I2C(*this), + CamModule(*this), + AES(*this) { // Memory is owned by ARMJIT_Memory, don't free it - NWRAM_A = NDS::JIT->Memory.GetNWRAM_A(); - NWRAM_B = NDS::JIT->Memory.GetNWRAM_B(); - NWRAM_C = NDS::JIT->Memory.GetNWRAM_C(); - - NDMAs[0] = new DSi_NDMA(0, 0, *NDS::GPU); - NDMAs[1] = new DSi_NDMA(0, 1, *NDS::GPU); - NDMAs[2] = new DSi_NDMA(0, 2, *NDS::GPU); - NDMAs[3] = new DSi_NDMA(0, 3, *NDS::GPU); - NDMAs[4] = new DSi_NDMA(1, 0, *NDS::GPU); - NDMAs[5] = new DSi_NDMA(1, 1, *NDS::GPU); - NDMAs[6] = new DSi_NDMA(1, 2, *NDS::GPU); - NDMAs[7] = new DSi_NDMA(1, 3, *NDS::GPU); - - SDMMC = new DSi_SDHost(0); - SDIO = new DSi_SDHost(1); - - I2C = new DSi_I2CHost(); - CamModule = new DSi_CamModule(); - AES = new DSi_AES(); - DSP = new DSi_DSP(); - - return true; + NWRAM_A = JIT.Memory.GetNWRAM_A(); + NWRAM_B = JIT.Memory.GetNWRAM_B(); + NWRAM_C = NDS::JIT.Memory.GetNWRAM_C(); } -void DeInit() +DSi::~DSi() noexcept { // Memory is owned externally NWRAM_A = nullptr; NWRAM_B = nullptr; NWRAM_C = nullptr; - - for (int i = 0; i < 8; i++) - { - delete NDMAs[i]; - NDMAs[i] = nullptr; - } - - delete SDMMC; SDMMC = nullptr; - delete SDIO; SDIO = nullptr; - - delete I2C; I2C = nullptr; - delete CamModule; CamModule = nullptr; - delete AES; AES = nullptr; - delete DSP; DSP = nullptr; - - NANDImage = nullptr; - // The NANDImage is cleaned up (and its underlying file closed) - // as part of unique_ptr's destructor } -void Reset() +void DSi::Reset() { - //NDS::ARM9->CP15Write(0x910, 0x0D00000A); - //NDS::ARM9->CP15Write(0x911, 0x00000020); - //NDS::ARM9->CP15Write(0x100, NDS::ARM9->CP15Read(0x100) | 0x00050000); + //ARM9.CP15Write(0x910, 0x0D00000A); + //ARM9.CP15Write(0x911, 0x00000020); + //ARM9.CP15Write(0x100, ARM9.CP15Read(0x100) | 0x00050000); + NDS::Reset(); - NDS::MapSharedWRAM(3); + KeyInput &= ~(1 << (16+6)); + MapSharedWRAM(3); NDMACnt[0] = 0; NDMACnt[1] = 0; - for (int i = 0; i < 8; i++) NDMAs[i]->Reset(); + for (int i = 0; i < 8; i++) NDMAs[i].Reset(); - I2C->Reset(); - CamModule->Reset(); - DSP->Reset(); + I2C.Reset(); + CamModule.Reset(); + DSP.Reset(); - SDMMC->CloseHandles(); - SDIO->CloseHandles(); + SDMMC.CloseHandles(); + SDIO.CloseHandles(); LoadNAND(); - SDMMC->Reset(); - SDIO->Reset(); + SDMMC.Reset(); + SDIO.Reset(); - AES->Reset(); + AES.Reset(); if (Platform::GetConfigBool(Platform::DSi_FullBIOSBoot)) { @@ -187,10 +140,10 @@ void Reset() SCFG_Clock7 = 0x0187; SCFG_EXT[0] = 0x8307F100; SCFG_EXT[1] = 0x93FFFB06; - SCFG_MC = 0x0010 | (~((u32)(NDS::NDSCartSlot->GetCart() != nullptr))&1);//0x0011; + SCFG_MC = 0x0010 | (~((u32)(NDSCartSlot.GetCart() != nullptr))&1);//0x0011; SCFG_RST = 0; - DSP->SetRstLine(false); + DSP.SetRstLine(false); GPIO_Data = 0xff; // these actually initialize to high after reset GPIO_Dir = 0x80; // enable sound out, all others input @@ -199,16 +152,44 @@ void Reset() GPIO_WiFi = 0; // LCD init flag - NDS::GPU->DispStat[0] |= (1<<6); - NDS::GPU->DispStat[1] |= (1<<6); + GPU.DispStat[0] |= (1<<6); + GPU.DispStat[1] |= (1<<6); } -void Stop() +void DSi::Stop(Platform::StopReason reason) { - CamModule->Stop(); + NDS::Stop(reason); + CamModule.Stop(); } -void DoSavestate(Savestate* file) +bool DSi::LoadCart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen) +{ + if (NDS::LoadCart(romdata, romlen, savedata, savelen)) + { + SetCartInserted(true); + return true; + } + + return false; +} + + +void DSi::EjectCart() +{ + NDS::EjectCart(); + + SetCartInserted(false); +} +void DSi::CamInputFrame(int cam, u32* data, int width, int height, bool rgb) +{ + switch (cam) + { + case 0: return I2C.GetOuterCamera()->InputFrame(data, width, height, rgb); + case 1: return I2C.GetInnerCamera()->InputFrame(data, width, height, rgb); + } +} + +void DSi::DoSavestateExtra(Savestate* file) { file->Section("DSIG"); @@ -232,7 +213,7 @@ void DoSavestate(Savestate* file) { Set_SCFG_Clock9(SCFG_Clock9); Set_SCFG_MC(SCFG_MC); - DSP->SetRstLine(SCFG_RST & 0x0001); + DSP.SetRstLine(SCFG_RST & 0x0001); MBK[0][8] = 0; MBK[1][8] = 0; @@ -277,17 +258,17 @@ void DoSavestate(Savestate* file) } for (int i = 0; i < 8; i++) - NDMAs[i]->DoSavestate(file); + NDMAs[i].DoSavestate(file); - AES->DoSavestate(file); - CamModule->DoSavestate(file); - DSP->DoSavestate(file); - I2C->DoSavestate(file); - SDMMC->DoSavestate(file); - SDIO->DoSavestate(file); + AES.DoSavestate(file); + CamModule.DoSavestate(file); + DSP.DoSavestate(file); + I2C.DoSavestate(file); + SDMMC.DoSavestate(file); + SDIO.DoSavestate(file); } -void SetCartInserted(bool inserted) +void DSi::SetCartInserted(bool inserted) { if (inserted) SCFG_MC &= ~1; @@ -295,7 +276,7 @@ void SetCartInserted(bool inserted) SCFG_MC |= 1; } -void DecryptModcryptArea(u32 offset, u32 size, u8* iv) +void DSi::DecryptModcryptArea(u32 offset, u32 size, u8* iv) { AES_ctx ctx; u8 key[16]; @@ -304,13 +285,13 @@ void DecryptModcryptArea(u32 offset, u32 size, u8* iv) if ((offset == 0) || (size == 0)) return; - const NDSHeader& header = NDS::NDSCartSlot->GetCart()->GetHeader(); + const NDSHeader& header = NDSCartSlot.GetCart()->GetHeader(); if ((header.DSiCryptoFlags & (1<<4)) || (header.AppFlags & (1<<7))) { // dev key - const u8* cartrom = NDS::NDSCartSlot->GetCart()->GetROM(); + const u8* cartrom = NDSCartSlot.GetCart()->GetROM(); memcpy(key, &cartrom[0], 16); } else @@ -394,13 +375,13 @@ void DecryptModcryptArea(u32 offset, u32 size, u8* iv) } } -void SetupDirectBoot() +void DSi::SetupDirectBoot() { bool dsmode = false; - NDSHeader& header = NDS::NDSCartSlot->GetCart()->GetHeader(); - const u8* cartrom = NDS::NDSCartSlot->GetCart()->GetROM(); - u32 cartid = NDS::NDSCartSlot->GetCart()->ID(); - DSi_TSC* tsc = (DSi_TSC*)NDS::SPI->GetTSC(); + NDSHeader& header = NDSCartSlot.GetCart()->GetHeader(); + const u8* cartrom = NDSCartSlot.GetCart()->GetROM(); + u32 cartid = NDSCartSlot.GetCart()->ID(); + DSi_TSC* tsc = (DSi_TSC*)SPI.GetTSC(); // TODO: add controls for forcing DS or DSi mode? if (!(header.UnitCode & 0x02)) @@ -550,7 +531,7 @@ void SetupDirectBoot() } } - Firmware::WifiBoard nwifiver = NDS::SPI->GetFirmware()->GetHeader().WifiBoard; + Firmware::WifiBoard nwifiver = SPI.GetFirmware()->GetHeader().WifiBoard; ARM9Write8(0x020005E0, static_cast(nwifiver)); // TODO: these should be taken from the wifi firmware in NAND @@ -576,7 +557,7 @@ void SetupDirectBoot() ARM9Write32(0x02FFFC00, cartid); ARM9Write16(0x02FFFC40, 0x0001); // boot indicator - ARM9Write8(0x02FFFDFA, I2C->GetBPTWL()->GetBootFlag() | 0x80); + ARM9Write8(0x02FFFDFA, I2C.GetBPTWL()->GetBootFlag() | 0x80); ARM9Write8(0x02FFFDFB, 0x01); } @@ -588,7 +569,7 @@ void SetupDirectBoot() if (header.ARM9ROMOffset >= 0x4000 && header.ARM9ROMOffset < 0x8000) { u8 securearea[0x800]; - NDS::NDSCartSlot->DecryptSecureArea(securearea); + NDSCartSlot.DecryptSecureArea(securearea); for (u32 i = 0; i < 0x800; i+=4) { @@ -638,37 +619,37 @@ void SetupDirectBoot() } } - NDS::ARM7BIOSProt = 0x20; + ARM7BIOSProt = 0x20; - NDS::SPI->GetFirmwareMem()->SetupDirectBoot(true); + SPI.GetFirmwareMem()->SetupDirectBoot(); - NDS::ARM9->CP15Write(0x100, 0x00056078); - NDS::ARM9->CP15Write(0x200, 0x0000004A); - NDS::ARM9->CP15Write(0x201, 0x0000004A); - NDS::ARM9->CP15Write(0x300, 0x0000000A); - NDS::ARM9->CP15Write(0x502, 0x15111011); - NDS::ARM9->CP15Write(0x503, 0x05101011); - NDS::ARM9->CP15Write(0x600, 0x04000033); - NDS::ARM9->CP15Write(0x601, 0x04000033); - NDS::ARM9->CP15Write(0x610, 0x02000031); - NDS::ARM9->CP15Write(0x611, 0x02000031); - NDS::ARM9->CP15Write(0x620, 0x00000000); - NDS::ARM9->CP15Write(0x621, 0x00000000); - NDS::ARM9->CP15Write(0x630, 0x08000033); - NDS::ARM9->CP15Write(0x631, 0x08000033); - NDS::ARM9->CP15Write(0x640, 0x0E00001B); - NDS::ARM9->CP15Write(0x641, 0x0E00001B); - NDS::ARM9->CP15Write(0x650, 0x00000000); - NDS::ARM9->CP15Write(0x651, 0x00000000); - NDS::ARM9->CP15Write(0x660, 0xFFFF001D); - NDS::ARM9->CP15Write(0x661, 0xFFFF001D); - NDS::ARM9->CP15Write(0x670, 0x02FFC01B); - NDS::ARM9->CP15Write(0x671, 0x02FFC01B); - NDS::ARM9->CP15Write(0x910, 0x0E00000A); - NDS::ARM9->CP15Write(0x911, 0x00000020); + ARM9.CP15Write(0x100, 0x00056078); + ARM9.CP15Write(0x200, 0x0000004A); + ARM9.CP15Write(0x201, 0x0000004A); + ARM9.CP15Write(0x300, 0x0000000A); + ARM9.CP15Write(0x502, 0x15111011); + ARM9.CP15Write(0x503, 0x05101011); + ARM9.CP15Write(0x600, 0x04000033); + ARM9.CP15Write(0x601, 0x04000033); + ARM9.CP15Write(0x610, 0x02000031); + ARM9.CP15Write(0x611, 0x02000031); + ARM9.CP15Write(0x620, 0x00000000); + ARM9.CP15Write(0x621, 0x00000000); + ARM9.CP15Write(0x630, 0x08000033); + ARM9.CP15Write(0x631, 0x08000033); + ARM9.CP15Write(0x640, 0x0E00001B); + ARM9.CP15Write(0x641, 0x0E00001B); + ARM9.CP15Write(0x650, 0x00000000); + ARM9.CP15Write(0x651, 0x00000000); + ARM9.CP15Write(0x660, 0xFFFF001D); + ARM9.CP15Write(0x661, 0xFFFF001D); + ARM9.CP15Write(0x670, 0x02FFC01B); + ARM9.CP15Write(0x671, 0x02FFC01B); + ARM9.CP15Write(0x910, 0x0E00000A); + ARM9.CP15Write(0x911, 0x00000020); } -void SoftReset() +void DSi::SoftReset() { // TODO: check exactly what is reset // presumably, main RAM isn't reset, since the DSi can be told @@ -678,30 +659,30 @@ void SoftReset() // also, BPTWL[0x70] could be abused to quickly boot specific titles - NDS::JIT->Reset(); - NDS::JIT->CheckAndInvalidateITCM(); + JIT.Reset(); + JIT.CheckAndInvalidateITCM(); - NDS::ARM9->Reset(); - NDS::ARM7->Reset(); + ARM9.Reset(); + ARM7.Reset(); - NDS::ARM9->CP15Reset(); + ARM9.CP15Reset(); NDS::MapSharedWRAM(3); // TODO: does the DSP get reset? NWRAM doesn't, so I'm assuming no // *HOWEVER*, the bootrom (which does get rerun) does remap NWRAM, and thus // the DSP most likely gets reset - DSP->Reset(); + DSP.Reset(); - SDMMC->CloseHandles(); - SDIO->CloseHandles(); + SDMMC.CloseHandles(); + SDIO.CloseHandles(); LoadNAND(); - SDMMC->Reset(); - SDIO->Reset(); + SDMMC.Reset(); + SDIO.Reset(); - AES->Reset(); + AES.Reset(); if (Platform::GetConfigBool(Platform::DSi_FullBIOSBoot)) { @@ -718,15 +699,15 @@ void SoftReset() SCFG_MC = 0x0010;//0x0011; // TODO: is this actually reset? SCFG_RST = 0; - DSP->SetRstLine(false); + DSP.SetRstLine(false); // LCD init flag - NDS::GPU->DispStat[0] |= (1<<6); - NDS::GPU->DispStat[1] |= (1<<6); + GPU.DispStat[0] |= (1<<6); + GPU.DispStat[1] |= (1<<6); } -bool LoadNAND() +bool DSi::LoadNAND() { if (!NANDImage) { @@ -905,8 +886,8 @@ bool LoadNAND() if (Platform::GetConfigBool(Platform::DSi_FullBIOSBoot)) { // point CPUs to boot ROM reset vectors - NDS::ARM9->JumpTo(0xFFFF0000); - NDS::ARM7->JumpTo(0x00000000); + ARM9.JumpTo(0xFFFF0000); + ARM7.JumpTo(0x00000000); } else { @@ -921,10 +902,10 @@ bool LoadNAND() ARM7Write16(eaddr+0x3E, 0x40E0); ARM7Write16(eaddr+0x42, 0x0001); - memcpy(&NDS::ARM9->ITCM[0x4400], &ARM9iBIOS[0x87F4], 0x400); - memcpy(&NDS::ARM9->ITCM[0x4800], &ARM9iBIOS[0x9920], 0x80); - memcpy(&NDS::ARM9->ITCM[0x4894], &ARM9iBIOS[0x99A0], 0x1048); - memcpy(&NDS::ARM9->ITCM[0x58DC], &ARM9iBIOS[0xA9E8], 0x1048); + memcpy(&ARM9.ITCM[0x4400], &ARM9iBIOS[0x87F4], 0x400); + memcpy(&ARM9.ITCM[0x4800], &ARM9iBIOS[0x9920], 0x80); + memcpy(&ARM9.ITCM[0x4894], &ARM9iBIOS[0x99A0], 0x1048); + memcpy(&ARM9.ITCM[0x58DC], &ARM9iBIOS[0xA9E8], 0x1048); u8 ARM7Init[0x3C00]; memset(ARM7Init, 0, 0x3C00); @@ -937,8 +918,8 @@ bool LoadNAND() ARM7Write32(0x03FFC400+i, *(u32*)&ARM7Init[i]); // repoint the CPUs to the boot2 binaries - NDS::ARM9->JumpTo(bootparams[2]); - NDS::ARM7->JumpTo(bootparams[6]); + ARM9.JumpTo(bootparams[2]); + ARM7.JumpTo(bootparams[6]); } // user data is now expected to be patched by the frontend @@ -947,78 +928,104 @@ bool LoadNAND() } -void RunNDMAs(u32 cpu) +void DSi::RunNDMAs(u32 cpu) { // TODO: round-robin mode (requires DMA channels to have a subblock delay set) if (cpu == 0) { - if (NDS::ARM9Timestamp >= NDS::ARM9Target) return; + if (ARM9Timestamp >= ARM9Target) return; - if (!(NDS::CPUStop & NDS::CPUStop_GXStall)) NDMAs[0]->Run(); - if (!(NDS::CPUStop & NDS::CPUStop_GXStall)) NDMAs[1]->Run(); - if (!(NDS::CPUStop & NDS::CPUStop_GXStall)) NDMAs[2]->Run(); - if (!(NDS::CPUStop & NDS::CPUStop_GXStall)) NDMAs[3]->Run(); + if (!(CPUStop & CPUStop_GXStall)) NDMAs[0].Run(); + if (!(CPUStop & CPUStop_GXStall)) NDMAs[1].Run(); + if (!(CPUStop & CPUStop_GXStall)) NDMAs[2].Run(); + if (!(CPUStop & CPUStop_GXStall)) NDMAs[3].Run(); } else { - if (NDS::ARM7Timestamp >= NDS::ARM7Target) return; + if (ARM7Timestamp >= ARM7Target) return; - NDMAs[4]->Run(); - NDMAs[5]->Run(); - NDMAs[6]->Run(); - NDMAs[7]->Run(); + NDMAs[4].Run(); + NDMAs[5].Run(); + NDMAs[6].Run(); + NDMAs[7].Run(); } } -void StallNDMAs() +void DSi::StallNDMAs() { // TODO } -bool NDMAsInMode(u32 cpu, u32 mode) + +bool DSi::DMAsInMode(u32 cpu, u32 mode) +{ + if (NDS::DMAsInMode(cpu, mode)) return true; + + return NDMAsInMode(cpu, NDMAModes[mode]); +} + +bool DSi::DMAsRunning(u32 cpu) +{ + if (NDS::DMAsRunning(cpu)) return true; + + return NDMAsRunning(cpu); +} + +bool DSi::NDMAsInMode(u32 cpu, u32 mode) { cpu <<= 2; - if (NDMAs[cpu+0]->IsInMode(mode)) return true; - if (NDMAs[cpu+1]->IsInMode(mode)) return true; - if (NDMAs[cpu+2]->IsInMode(mode)) return true; - if (NDMAs[cpu+3]->IsInMode(mode)) return true; + if (NDMAs[cpu+0].IsInMode(mode)) return true; + if (NDMAs[cpu+1].IsInMode(mode)) return true; + if (NDMAs[cpu+2].IsInMode(mode)) return true; + if (NDMAs[cpu+3].IsInMode(mode)) return true; return false; } -bool NDMAsRunning(u32 cpu) +bool DSi::NDMAsRunning(u32 cpu) { cpu <<= 2; - if (NDMAs[cpu+0]->IsRunning()) return true; - if (NDMAs[cpu+1]->IsRunning()) return true; - if (NDMAs[cpu+2]->IsRunning()) return true; - if (NDMAs[cpu+3]->IsRunning()) return true; + if (NDMAs[cpu+0].IsRunning()) return true; + if (NDMAs[cpu+1].IsRunning()) return true; + if (NDMAs[cpu+2].IsRunning()) return true; + if (NDMAs[cpu+3].IsRunning()) return true; return false; } -void CheckNDMAs(u32 cpu, u32 mode) +void DSi::CheckNDMAs(u32 cpu, u32 mode) { cpu <<= 2; - NDMAs[cpu+0]->StartIfNeeded(mode); - NDMAs[cpu+1]->StartIfNeeded(mode); - NDMAs[cpu+2]->StartIfNeeded(mode); - NDMAs[cpu+3]->StartIfNeeded(mode); + NDMAs[cpu+0].StartIfNeeded(mode); + NDMAs[cpu+1].StartIfNeeded(mode); + NDMAs[cpu+2].StartIfNeeded(mode); + NDMAs[cpu+3].StartIfNeeded(mode); } -void StopNDMAs(u32 cpu, u32 mode) +void DSi::StopNDMAs(u32 cpu, u32 mode) { cpu <<= 2; - NDMAs[cpu+0]->StopIfNeeded(mode); - NDMAs[cpu+1]->StopIfNeeded(mode); - NDMAs[cpu+2]->StopIfNeeded(mode); - NDMAs[cpu+3]->StopIfNeeded(mode); + NDMAs[cpu+0].StopIfNeeded(mode); + NDMAs[cpu+1].StopIfNeeded(mode); + NDMAs[cpu+2].StopIfNeeded(mode); + NDMAs[cpu+3].StopIfNeeded(mode); } +void DSi::StopDMAs(u32 cpu, u32 mode) +{ + NDS::StopDMAs(cpu, mode); + StopNDMAs(cpu, mode); +} +void DSi::CheckDMAs(u32 cpu, u32 mode) +{ + NDS::CheckDMAs(cpu, mode); + + CheckNDMAs(cpu, NDMAModes[mode]); +} // new WRAM mapping // TODO: find out what happens upon overlapping slots!! -void MapNWRAM_A(u32 num, u8 val) +void DSi::MapNWRAM_A(u32 num, u8 val) { // NWRAM Bank A does not allow all bits to be set // possible non working combinations are caught by later code, but these are not set-able at all @@ -1035,7 +1042,7 @@ void MapNWRAM_A(u32 num, u8 val) u8 oldval = (MBK[0][mbkn] >> mbks) & 0xFF; if (oldval == val) return; - NDS::JIT->Memory.RemapNWRAM(0); + JIT.Memory.RemapNWRAM(0); MBK[0][mbkn] &= ~(0xFF << mbks); MBK[0][mbkn] |= (val << mbks); @@ -1063,7 +1070,7 @@ void MapNWRAM_A(u32 num, u8 val) } } -void MapNWRAM_B(u32 num, u8 val) +void DSi::MapNWRAM_B(u32 num, u8 val) { // NWRAM Bank B does not allow all bits to be set // possible non working combinations are caught by later code, but these are not set-able at all @@ -1080,7 +1087,7 @@ void MapNWRAM_B(u32 num, u8 val) u8 oldval = (MBK[0][mbkn] >> mbks) & 0xFF; if (oldval == val) return; - NDS::JIT->Memory.RemapNWRAM(1); + JIT.Memory.RemapNWRAM(1); MBK[0][mbkn] &= ~(0xFF << mbks); MBK[0][mbkn] |= (val << mbks); @@ -1110,7 +1117,7 @@ void MapNWRAM_B(u32 num, u8 val) } } -void MapNWRAM_C(u32 num, u8 val) +void DSi::MapNWRAM_C(u32 num, u8 val) { // NWRAM Bank C does not allow all bits to be set // possible non working combinations are caught by later code, but these are not set-able at all @@ -1127,7 +1134,7 @@ void MapNWRAM_C(u32 num, u8 val) u8 oldval = (MBK[0][mbkn] >> mbks) & 0xFF; if (oldval == val) return; - NDS::JIT->Memory.RemapNWRAM(2); + JIT.Memory.RemapNWRAM(2); MBK[0][mbkn] &= ~(0xFF << mbks); MBK[0][mbkn] |= (val << mbks); @@ -1157,7 +1164,7 @@ void MapNWRAM_C(u32 num, u8 val) } } -void MapNWRAMRange(u32 cpu, u32 num, u32 val) +void DSi::MapNWRAMRange(u32 cpu, u32 num, u32 val) { // The windowing registers are not writeable in all bits // We need to do this before the change test, so we do not @@ -1176,7 +1183,7 @@ void MapNWRAMRange(u32 cpu, u32 num, u32 val) u32 oldval = MBK[cpu][5+num]; if (oldval == val) return; - NDS::JIT->Memory.RemapNWRAM(num); + JIT.Memory.RemapNWRAM(num); MBK[cpu][5+num] = val; @@ -1228,41 +1235,41 @@ void MapNWRAMRange(u32 cpu, u32 num, u32 val) } } -void ApplyNewRAMSize(u32 size) +void DSi::ApplyNewRAMSize(u32 size) { switch (size) { case 0: case 1: - NDS::MainRAMMask = 0x3FFFFF; + MainRAMMask = 0x3FFFFF; Log(LogLevel::Debug, "RAM: 4MB\n"); break; case 2: case 3: // TODO: debug console w/ 32MB? - NDS::MainRAMMask = 0xFFFFFF; + MainRAMMask = 0xFFFFFF; Log(LogLevel::Debug, "RAM: 16MB\n"); break; } } -void Set_SCFG_Clock9(u16 val) +void DSi::Set_SCFG_Clock9(u16 val) { - NDS::ARM9Timestamp >>= NDS::ARM9ClockShift; - NDS::ARM9Target >>= NDS::ARM9ClockShift; + ARM9Timestamp >>= ARM9ClockShift; + ARM9Target >>= ARM9ClockShift; Log(LogLevel::Debug, "CLOCK9=%04X\n", val); SCFG_Clock9 = val & 0x0187; - if (SCFG_Clock9 & (1<<0)) NDS::ARM9ClockShift = 2; - else NDS::ARM9ClockShift = 1; + if (SCFG_Clock9 & (1<<0)) ARM9ClockShift = 2; + else ARM9ClockShift = 1; - NDS::ARM9Timestamp <<= NDS::ARM9ClockShift; - NDS::ARM9Target <<= NDS::ARM9ClockShift; - NDS::ARM9->UpdateRegionTimings(0x00000, 0x100000); + ARM9Timestamp <<= ARM9ClockShift; + ARM9Target <<= ARM9ClockShift; + ARM9.UpdateRegionTimings(0x00000, 0x100000); } -void Set_SCFG_MC(u32 val) +void DSi::Set_SCFG_MC(u32 val) { u32 oldslotstatus = SCFG_MC & 0xC; @@ -1273,13 +1280,14 @@ void Set_SCFG_MC(u32 val) if ((oldslotstatus == 0x0) && ((SCFG_MC & 0xC) == 0x4)) { - NDS::NDSCartSlot->ResetCart(); + NDSCartSlot.ResetCart(); } } -u8 ARM9Read8(u32 addr) +u8 DSi::ARM9Read8(u32 addr) { + assert(ConsoleType == 1); if ((addr >= 0xFFFF0000) && (!(SCFG_BIOS & (1<<1)))) { if ((addr >= 0xFFFF8000) && (SCFG_BIOS & (1<<0))) @@ -1317,17 +1325,18 @@ u8 ARM9Read8(u32 addr) case 0x08000000: case 0x09000000: case 0x0A000000: - return (NDS::ExMemCnt[0] & (1<<7)) ? 0 : 0xFF; + return (ExMemCnt[0] & (1<<7)) ? 0 : 0xFF; case 0x0C000000: - return *(u8*)&NDS::MainRAM[addr & NDS::MainRAMMask]; + return *(u8*)&MainRAM[addr & MainRAMMask]; } return NDS::ARM9Read8(addr); } -u16 ARM9Read16(u32 addr) +u16 DSi::ARM9Read16(u32 addr) { + assert(ConsoleType == 1); addr &= ~0x1; if ((addr >= 0xFFFF0000) && (!(SCFG_BIOS & (1<<1)))) @@ -1367,17 +1376,18 @@ u16 ARM9Read16(u32 addr) case 0x08000000: case 0x09000000: case 0x0A000000: - return (NDS::ExMemCnt[0] & (1<<7)) ? 0 : 0xFFFF; + return (ExMemCnt[0] & (1<<7)) ? 0 : 0xFFFF; case 0x0C000000: - return *(u16*)&NDS::MainRAM[addr & NDS::MainRAMMask]; + return *(u16*)&MainRAM[addr & MainRAMMask]; } return NDS::ARM9Read16(addr); } -u32 ARM9Read32(u32 addr) +u32 DSi::ARM9Read32(u32 addr) { + assert(ConsoleType == 1); addr &= ~0x3; if ((addr >= 0xFFFF0000) && (!(SCFG_BIOS & (1<<1)))) @@ -1422,17 +1432,18 @@ u32 ARM9Read32(u32 addr) case 0x08000000: case 0x09000000: case 0x0A000000: - return (NDS::ExMemCnt[0] & (1<<7)) ? 0 : 0xFFFFFFFF; + return (ExMemCnt[0] & (1<<7)) ? 0 : 0xFFFFFFFF; case 0x0C000000: - return *(u32*)&NDS::MainRAM[addr & NDS::MainRAMMask]; + return *(u32*)&MainRAM[addr & MainRAMMask]; } return NDS::ARM9Read32(addr); } -void ARM9Write8(u32 addr, u8 val) +void DSi::ARM9Write8(u32 addr, u8 val) { + assert(ConsoleType == 1); switch (addr & 0xFF000000) { case 0x03000000: @@ -1452,7 +1463,7 @@ void ARM9Write8(u32 addr, u8 val) continue; u8* ptr = &NWRAM_A[page * 0x10000]; *(u8*)&ptr[addr & 0xFFFF] = val; - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); } return; } @@ -1470,7 +1481,7 @@ void ARM9Write8(u32 addr, u8 val) continue; u8* ptr = &NWRAM_B[page * 0x8000]; *(u8*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); } return; } @@ -1488,7 +1499,7 @@ void ARM9Write8(u32 addr, u8 val) continue; u8* ptr = &NWRAM_C[page * 0x8000]; *(u8*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); } return; } @@ -1501,14 +1512,14 @@ void ARM9Write8(u32 addr, u8 val) case 0x06000000: if (!(SCFG_EXT[0] & (1<<13))) return; - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_VRAM>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_VRAM>(addr); switch (addr & 0x00E00000) { - case 0x00000000: NDS::GPU->WriteVRAM_ABG(addr, val); return; - case 0x00200000: NDS::GPU->WriteVRAM_BBG(addr, val); return; - case 0x00400000: NDS::GPU->WriteVRAM_AOBJ(addr, val); return; - case 0x00600000: NDS::GPU->WriteVRAM_BOBJ(addr, val); return; - default: NDS::GPU->WriteVRAM_LCDC(addr, val); return; + case 0x00000000: GPU.WriteVRAM_ABG(addr, val); return; + case 0x00200000: GPU.WriteVRAM_BBG(addr, val); return; + case 0x00400000: GPU.WriteVRAM_AOBJ(addr, val); return; + case 0x00600000: GPU.WriteVRAM_BOBJ(addr, val); return; + default: GPU.WriteVRAM_LCDC(addr, val); return; } case 0x08000000: @@ -1517,16 +1528,17 @@ void ARM9Write8(u32 addr, u8 val) return; case 0x0C000000: - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); - *(u8*)&NDS::MainRAM[addr & NDS::MainRAMMask] = val; + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); + *(u8*)&MainRAM[addr & MainRAMMask] = val; return; } return NDS::ARM9Write8(addr, val); } -void ARM9Write16(u32 addr, u16 val) +void DSi::ARM9Write16(u32 addr, u16 val) { + assert(ConsoleType == 1); addr &= ~0x1; switch (addr & 0xFF000000) @@ -1548,7 +1560,7 @@ void ARM9Write16(u32 addr, u16 val) continue; u8* ptr = &NWRAM_A[page * 0x10000]; *(u16*)&ptr[addr & 0xFFFF] = val; - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); } return; } @@ -1566,7 +1578,7 @@ void ARM9Write16(u32 addr, u16 val) continue; u8* ptr = &NWRAM_B[page * 0x8000]; *(u16*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); } return; } @@ -1584,7 +1596,7 @@ void ARM9Write16(u32 addr, u16 val) continue; u8* ptr = &NWRAM_C[page * 0x8000]; *(u16*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); } return; } @@ -1601,16 +1613,17 @@ void ARM9Write16(u32 addr, u16 val) return; case 0x0C000000: - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); - *(u16*)&NDS::MainRAM[addr & NDS::MainRAMMask] = val; + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); + *(u16*)&MainRAM[addr & MainRAMMask] = val; return; } return NDS::ARM9Write16(addr, val); } -void ARM9Write32(u32 addr, u32 val) +void DSi::ARM9Write32(u32 addr, u32 val) { + assert(ConsoleType == 1); addr &= ~0x3; switch (addr & 0xFF000000) @@ -1632,7 +1645,7 @@ void ARM9Write32(u32 addr, u32 val) continue; u8* ptr = &NWRAM_A[page * 0x10000]; *(u32*)&ptr[addr & 0xFFFF] = val; - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); } return; } @@ -1650,7 +1663,7 @@ void ARM9Write32(u32 addr, u32 val) continue; u8* ptr = &NWRAM_B[page * 0x8000]; *(u32*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); } return; } @@ -1668,7 +1681,7 @@ void ARM9Write32(u32 addr, u32 val) continue; u8* ptr = &NWRAM_C[page * 0x8000]; *(u32*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); } return; } @@ -1685,22 +1698,23 @@ void ARM9Write32(u32 addr, u32 val) return; case 0x0C000000: - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); - *(u32*)&NDS::MainRAM[addr & NDS::MainRAMMask] = val; + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); + *(u32*)&MainRAM[addr & MainRAMMask] = val; return; } return NDS::ARM9Write32(addr, val); } -bool ARM9GetMemRegion(u32 addr, bool write, NDS::MemRegion* region) +bool DSi::ARM9GetMemRegion(u32 addr, bool write, MemRegion* region) { + assert(ConsoleType == 1); switch (addr & 0xFF000000) { case 0x02000000: case 0x0C000000: - region->Mem = NDS::MainRAM; - region->Mask = NDS::MainRAMMask; + region->Mem = MainRAM; + region->Mask = MainRAMMask; return true; } @@ -1714,7 +1728,7 @@ bool ARM9GetMemRegion(u32 addr, bool write, NDS::MemRegion* region) return false; } - region->Mem = NDS::ARM9BIOS; + region->Mem = ARM9BIOS; region->Mask = 0xFFF; } else @@ -1731,15 +1745,15 @@ bool ARM9GetMemRegion(u32 addr, bool write, NDS::MemRegion* region) -u8 ARM7Read8(u32 addr) +u8 DSi::ARM7Read8(u32 addr) { if ((addr < 0x00010000) && (!(SCFG_BIOS & (1<<9)))) { if ((addr >= 0x00008000) && (SCFG_BIOS & (1<<8))) return 0xFF; - if (NDS::ARM7->R[15] >= 0x00010000) + if (ARM7.R[15] >= 0x00010000) return 0xFF; - if (addr < NDS::ARM7BIOSProt && NDS::ARM7->R[15] >= NDS::ARM7BIOSProt) + if (addr < ARM7BIOSProt && ARM7.R[15] >= ARM7BIOSProt) return 0xFF; return *(u8*)&ARM7iBIOS[addr & 0xFFFF]; @@ -1778,27 +1792,28 @@ u8 ARM7Read8(u32 addr) case 0x09800000: case 0x0A000000: case 0x0A800000: - return (NDS::ExMemCnt[0] & (1<<7)) ? 0xFF : 0; + return (ExMemCnt[0] & (1<<7)) ? 0xFF : 0; case 0x0C000000: case 0x0C800000: - return *(u8*)&NDS::MainRAM[addr & NDS::MainRAMMask]; + return *(u8*)&MainRAM[addr & MainRAMMask]; } return NDS::ARM7Read8(addr); } -u16 ARM7Read16(u32 addr) +u16 DSi::ARM7Read16(u32 addr) { + assert(ConsoleType == 1); addr &= ~0x1; if ((addr < 0x00010000) && (!(SCFG_BIOS & (1<<9)))) { if ((addr >= 0x00008000) && (SCFG_BIOS & (1<<8))) return 0xFFFF; - if (NDS::ARM7->R[15] >= 0x00010000) + if (ARM7.R[15] >= 0x00010000) return 0xFFFF; - if (addr < NDS::ARM7BIOSProt && NDS::ARM7->R[15] >= NDS::ARM7BIOSProt) + if (addr < ARM7BIOSProt && ARM7.R[15] >= ARM7BIOSProt) return 0xFFFF; return *(u16*)&ARM7iBIOS[addr & 0xFFFF]; @@ -1837,17 +1852,17 @@ u16 ARM7Read16(u32 addr) case 0x09800000: case 0x0A000000: case 0x0A800000: - return (NDS::ExMemCnt[0] & (1<<7)) ? 0xFFFF : 0; + return (ExMemCnt[0] & (1<<7)) ? 0xFFFF : 0; case 0x0C000000: case 0x0C800000: - return *(u16*)&NDS::MainRAM[addr & NDS::MainRAMMask]; + return *(u16*)&MainRAM[addr & MainRAMMask]; } return NDS::ARM7Read16(addr); } -u32 ARM7Read32(u32 addr) +u32 DSi::ARM7Read32(u32 addr) { addr &= ~0x3; @@ -1855,9 +1870,9 @@ u32 ARM7Read32(u32 addr) { if ((addr >= 0x00008000) && (SCFG_BIOS & (1<<8))) return 0xFFFFFFFF; - if (NDS::ARM7->R[15] >= 0x00010000) + if (ARM7.R[15] >= 0x00010000) return 0xFFFFFFFF; - if (addr < NDS::ARM7BIOSProt && NDS::ARM7->R[15] >= NDS::ARM7BIOSProt) + if (addr < ARM7BIOSProt && ARM7.R[15] >= ARM7BIOSProt) return 0xFFFFFFFF; return *(u32*)&ARM7iBIOS[addr & 0xFFFF]; @@ -1906,8 +1921,9 @@ u32 ARM7Read32(u32 addr) return NDS::ARM7Read32(addr); } -void ARM7Write8(u32 addr, u8 val) +void DSi::ARM7Write8(u32 addr, u8 val) { + assert(ConsoleType == 1); switch (addr & 0xFF800000) { case 0x03000000: @@ -1928,7 +1944,7 @@ void ARM7Write8(u32 addr, u8 val) continue; u8* ptr = &NWRAM_A[page * 0x10000]; *(u8*)&ptr[addr & 0xFFFF] = val; - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); } return; } @@ -1946,7 +1962,7 @@ void ARM7Write8(u32 addr, u8 val) continue; u8* ptr = &NWRAM_B[page * 0x8000]; *(u8*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); } return; } @@ -1964,7 +1980,7 @@ void ARM7Write8(u32 addr, u8 val) continue; u8* ptr = &NWRAM_C[page * 0x8000]; *(u8*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); } return; } @@ -1985,7 +2001,7 @@ void ARM7Write8(u32 addr, u8 val) case 0x0C000000: case 0x0C800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); *(u8*)&NDS::MainRAM[addr & NDS::MainRAMMask] = val; return; } @@ -1993,8 +2009,9 @@ void ARM7Write8(u32 addr, u8 val) return NDS::ARM7Write8(addr, val); } -void ARM7Write16(u32 addr, u16 val) +void DSi::ARM7Write16(u32 addr, u16 val) { + assert(ConsoleType == 1); addr &= ~0x1; switch (addr & 0xFF800000) @@ -2017,7 +2034,7 @@ void ARM7Write16(u32 addr, u16 val) continue; u8* ptr = &NWRAM_A[page * 0x10000]; *(u16*)&ptr[addr & 0xFFFF] = val; - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); } return; } @@ -2035,7 +2052,7 @@ void ARM7Write16(u32 addr, u16 val) continue; u8* ptr = &NWRAM_B[page * 0x8000]; *(u16*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); } return; } @@ -2053,7 +2070,7 @@ void ARM7Write16(u32 addr, u16 val) continue; u8* ptr = &NWRAM_C[page * 0x8000]; *(u16*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); } return; } @@ -2074,7 +2091,7 @@ void ARM7Write16(u32 addr, u16 val) case 0x0C000000: case 0x0C800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); *(u16*)&NDS::MainRAM[addr & NDS::MainRAMMask] = val; return; } @@ -2082,8 +2099,9 @@ void ARM7Write16(u32 addr, u16 val) return NDS::ARM7Write16(addr, val); } -void ARM7Write32(u32 addr, u32 val) +void DSi::ARM7Write32(u32 addr, u32 val) { + assert(ConsoleType == 1); addr &= ~0x3; switch (addr & 0xFF800000) @@ -2106,7 +2124,7 @@ void ARM7Write32(u32 addr, u32 val) continue; u8* ptr = &NWRAM_A[page * 0x10000]; *(u32*)&ptr[addr & 0xFFFF] = val; - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_A>(addr); } return; } @@ -2124,7 +2142,7 @@ void ARM7Write32(u32 addr, u32 val) continue; u8* ptr = &NWRAM_B[page * 0x8000]; *(u32*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_B>(addr); } return; } @@ -2142,7 +2160,7 @@ void ARM7Write32(u32 addr, u32 val) continue; u8* ptr = &NWRAM_C[page * 0x8000]; *(u32*)&ptr[addr & 0x7FFF] = val; - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_NewSharedWRAM_C>(addr); } return; } @@ -2163,7 +2181,7 @@ void ARM7Write32(u32 addr, u32 val) case 0x0C000000: case 0x0C800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); *(u32*)&NDS::MainRAM[addr & NDS::MainRAMMask] = val; return; } @@ -2171,8 +2189,9 @@ void ARM7Write32(u32 addr, u32 val) return NDS::ARM7Write32(addr, val); } -bool ARM7GetMemRegion(u32 addr, bool write, NDS::MemRegion* region) +bool DSi::ARM7GetMemRegion(u32 addr, bool write, MemRegion* region) { + assert(ConsoleType == 1); switch (addr & 0xFF800000) { case 0x02000000: @@ -2216,7 +2235,7 @@ bool ARM7GetMemRegion(u32 addr, bool write, NDS::MemRegion* region) case (addr): return (val) & 0xFFFF; \ case (addr+2): return (val) >> 16; -u8 ARM9IORead8(u32 addr) +u8 DSi::ARM9IORead8(u32 addr) { switch (addr) { @@ -2237,20 +2256,21 @@ u8 ARM9IORead8(u32 addr) if ((addr & 0xFFFFFF00) == 0x04004200) { if (!(SCFG_EXT[0] & (1<<17))) return 0; - return CamModule->Read8(addr); + return CamModule.Read8(addr); } if ((addr & 0xFFFFFF00) == 0x04004300) { if (!(SCFG_EXT[0] & (1<<18))) return 0; - return DSP->Read8(addr); + return DSP.Read8(addr); } return NDS::ARM9IORead8(addr); } -u16 ARM9IORead16(u32 addr) +u16 DSi::ARM9IORead16(u32 addr) { + assert(ConsoleType == 1); switch (addr) { case 0x04004000: return SCFG_BIOS & 0xFF; @@ -2272,20 +2292,21 @@ u16 ARM9IORead16(u32 addr) if ((addr & 0xFFFFFF00) == 0x04004200) { if (!(SCFG_EXT[0] & (1<<17))) return 0; - return CamModule->Read16(addr); + return CamModule.Read16(addr); } if ((addr & 0xFFFFFF00) == 0x04004300) { if (!(SCFG_EXT[0] & (1<<18))) return 0; - return DSP->Read16(addr); + return DSP.Read16(addr); } return NDS::ARM9IORead16(addr); } -u32 ARM9IORead32(u32 addr) +u32 DSi::ARM9IORead32(u32 addr) { + assert(ConsoleType == 1); switch (addr) { case 0x04004000: return SCFG_BIOS & 0xFF; @@ -2304,53 +2325,54 @@ u32 ARM9IORead32(u32 addr) case 0x04004060: return MBK[0][8]; case 0x04004100: return NDMACnt[0]; - case 0x04004104: return NDMAs[0]->SrcAddr; - case 0x04004108: return NDMAs[0]->DstAddr; - case 0x0400410C: return NDMAs[0]->TotalLength; - case 0x04004110: return NDMAs[0]->BlockLength; - case 0x04004114: return NDMAs[0]->SubblockTimer; - case 0x04004118: return NDMAs[0]->FillData; - case 0x0400411C: return NDMAs[0]->Cnt; - case 0x04004120: return NDMAs[1]->SrcAddr; - case 0x04004124: return NDMAs[1]->DstAddr; - case 0x04004128: return NDMAs[1]->TotalLength; - case 0x0400412C: return NDMAs[1]->BlockLength; - case 0x04004130: return NDMAs[1]->SubblockTimer; - case 0x04004134: return NDMAs[1]->FillData; - case 0x04004138: return NDMAs[1]->Cnt; - case 0x0400413C: return NDMAs[2]->SrcAddr; - case 0x04004140: return NDMAs[2]->DstAddr; - case 0x04004144: return NDMAs[2]->TotalLength; - case 0x04004148: return NDMAs[2]->BlockLength; - case 0x0400414C: return NDMAs[2]->SubblockTimer; - case 0x04004150: return NDMAs[2]->FillData; - case 0x04004154: return NDMAs[2]->Cnt; - case 0x04004158: return NDMAs[3]->SrcAddr; - case 0x0400415C: return NDMAs[3]->DstAddr; - case 0x04004160: return NDMAs[3]->TotalLength; - case 0x04004164: return NDMAs[3]->BlockLength; - case 0x04004168: return NDMAs[3]->SubblockTimer; - case 0x0400416C: return NDMAs[3]->FillData; - case 0x04004170: return NDMAs[3]->Cnt; + case 0x04004104: return NDMAs[0].SrcAddr; + case 0x04004108: return NDMAs[0].DstAddr; + case 0x0400410C: return NDMAs[0].TotalLength; + case 0x04004110: return NDMAs[0].BlockLength; + case 0x04004114: return NDMAs[0].SubblockTimer; + case 0x04004118: return NDMAs[0].FillData; + case 0x0400411C: return NDMAs[0].Cnt; + case 0x04004120: return NDMAs[1].SrcAddr; + case 0x04004124: return NDMAs[1].DstAddr; + case 0x04004128: return NDMAs[1].TotalLength; + case 0x0400412C: return NDMAs[1].BlockLength; + case 0x04004130: return NDMAs[1].SubblockTimer; + case 0x04004134: return NDMAs[1].FillData; + case 0x04004138: return NDMAs[1].Cnt; + case 0x0400413C: return NDMAs[2].SrcAddr; + case 0x04004140: return NDMAs[2].DstAddr; + case 0x04004144: return NDMAs[2].TotalLength; + case 0x04004148: return NDMAs[2].BlockLength; + case 0x0400414C: return NDMAs[2].SubblockTimer; + case 0x04004150: return NDMAs[2].FillData; + case 0x04004154: return NDMAs[2].Cnt; + case 0x04004158: return NDMAs[3].SrcAddr; + case 0x0400415C: return NDMAs[3].DstAddr; + case 0x04004160: return NDMAs[3].TotalLength; + case 0x04004164: return NDMAs[3].BlockLength; + case 0x04004168: return NDMAs[3].SubblockTimer; + case 0x0400416C: return NDMAs[3].FillData; + case 0x04004170: return NDMAs[3].Cnt; } if ((addr & 0xFFFFFF00) == 0x04004200) { if (!(SCFG_EXT[0] & (1<<17))) return 0; - return CamModule->Read32(addr); + return CamModule.Read32(addr); } if ((addr & 0xFFFFFF00) == 0x04004300) { if (!(SCFG_EXT[0] & (1<<18))) return 0; - return DSP->Read32(addr); + return DSP.Read32(addr); } return NDS::ARM9IORead32(addr); } -void ARM9IOWrite8(u32 addr, u8 val) +void DSi::ARM9IOWrite8(u32 addr, u8 val) { + assert(ConsoleType == 1); switch (addr) { case 0x04000301: @@ -2367,7 +2389,7 @@ void ARM9IOWrite8(u32 addr, u8 val) if (!(SCFG_EXT[0] & (1 << 31))) /* no access to SCFG Registers if disabled*/ return; SCFG_RST = (SCFG_RST & 0xFF00) | val; - DSP->SetRstLine(val & 1); + DSP.SetRstLine(val & 1); return; case 0x04004040: @@ -2407,20 +2429,21 @@ void ARM9IOWrite8(u32 addr, u8 val) if ((addr & 0xFFFFFF00) == 0x04004200) { if (!(SCFG_EXT[0] & (1<<17))) return; - return CamModule->Write8(addr, val); + return CamModule.Write8(addr, val); } if ((addr & 0xFFFFFF00) == 0x04004300) { if (!(SCFG_EXT[0] & (1<<18))) return; - return DSP->Write8(addr, val); + return DSP.Write8(addr, val); } return NDS::ARM9IOWrite8(addr, val); } -void ARM9IOWrite16(u32 addr, u16 val) +void DSi::ARM9IOWrite16(u32 addr, u16 val) { + assert(ConsoleType == 1); switch (addr) { case 0x04004004: @@ -2433,7 +2456,7 @@ void ARM9IOWrite16(u32 addr, u16 val) if (!(SCFG_EXT[0] & (1 << 31))) /* no access to SCFG Registers if disabled*/ return; SCFG_RST = val; - DSP->SetRstLine(val & 1); + DSP.SetRstLine(val & 1); return; case 0x04004040: @@ -2467,20 +2490,21 @@ void ARM9IOWrite16(u32 addr, u16 val) if ((addr & 0xFFFFFF00) == 0x04004200) { if (!(SCFG_EXT[0] & (1<<17))) return; - return CamModule->Write16(addr, val); + return CamModule.Write16(addr, val); } if ((addr & 0xFFFFFF00) == 0x04004300) { if (!(SCFG_EXT[0] & (1<<18))) return; - return DSP->Write16(addr, val); + return DSP.Write16(addr, val); } return NDS::ARM9IOWrite16(addr, val); } -void ARM9IOWrite32(u32 addr, u32 val) +void DSi::ARM9IOWrite32(u32 addr, u32 val) { + assert(ConsoleType == 1); switch (addr) { case 0x04004004: @@ -2488,7 +2512,7 @@ void ARM9IOWrite32(u32 addr, u32 val) return; Set_SCFG_Clock9(val & 0xFFFF); SCFG_RST = val >> 16; - DSP->SetRstLine((val >> 16) & 1); + DSP.SetRstLine((val >> 16) & 1); break; case 0x04004008: @@ -2523,7 +2547,7 @@ void ARM9IOWrite32(u32 addr, u32 val) // is still busy clearing/relocating shit //if (newram != oldram) // NDS::ScheduleEvent(NDS::Event_DSi_RAMSizeChange, false, 512*512*512, ApplyNewRAMSize, newram); - Log(LogLevel::Debug, "from %08X, ARM7 %08X, %08X\n", NDS::GetPC(0), NDS::GetPC(1), NDS::ARM7->R[1]); + Log(LogLevel::Debug, "from %08X, ARM7 %08X, %08X\n", NDS::GetPC(0), NDS::GetPC(1), ARM7.R[1]); } return; @@ -2584,54 +2608,55 @@ void ARM9IOWrite32(u32 addr, u32 val) return; case 0x04004100: NDMACnt[0] = val & 0x800F0000; return; - case 0x04004104: NDMAs[0]->SrcAddr = val & 0xFFFFFFFC; return; - case 0x04004108: NDMAs[0]->DstAddr = val & 0xFFFFFFFC; return; - case 0x0400410C: NDMAs[0]->TotalLength = val & 0x0FFFFFFF; return; - case 0x04004110: NDMAs[0]->BlockLength = val & 0x00FFFFFF; return; - case 0x04004114: NDMAs[0]->SubblockTimer = val & 0x0003FFFF; return; - case 0x04004118: NDMAs[0]->FillData = val; return; - case 0x0400411C: NDMAs[0]->WriteCnt(val); return; - case 0x04004120: NDMAs[1]->SrcAddr = val & 0xFFFFFFFC; return; - case 0x04004124: NDMAs[1]->DstAddr = val & 0xFFFFFFFC; return; - case 0x04004128: NDMAs[1]->TotalLength = val & 0x0FFFFFFF; return; - case 0x0400412C: NDMAs[1]->BlockLength = val & 0x00FFFFFF; return; - case 0x04004130: NDMAs[1]->SubblockTimer = val & 0x0003FFFF; return; - case 0x04004134: NDMAs[1]->FillData = val; return; - case 0x04004138: NDMAs[1]->WriteCnt(val); return; - case 0x0400413C: NDMAs[2]->SrcAddr = val & 0xFFFFFFFC; return; - case 0x04004140: NDMAs[2]->DstAddr = val & 0xFFFFFFFC; return; - case 0x04004144: NDMAs[2]->TotalLength = val & 0x0FFFFFFF; return; - case 0x04004148: NDMAs[2]->BlockLength = val & 0x00FFFFFF; return; - case 0x0400414C: NDMAs[2]->SubblockTimer = val & 0x0003FFFF; return; - case 0x04004150: NDMAs[2]->FillData = val; return; - case 0x04004154: NDMAs[2]->WriteCnt(val); return; - case 0x04004158: NDMAs[3]->SrcAddr = val & 0xFFFFFFFC; return; - case 0x0400415C: NDMAs[3]->DstAddr = val & 0xFFFFFFFC; return; - case 0x04004160: NDMAs[3]->TotalLength = val & 0x0FFFFFFF; return; - case 0x04004164: NDMAs[3]->BlockLength = val & 0x00FFFFFF; return; - case 0x04004168: NDMAs[3]->SubblockTimer = val & 0x0003FFFF; return; - case 0x0400416C: NDMAs[3]->FillData = val; return; - case 0x04004170: NDMAs[3]->WriteCnt(val); return; + case 0x04004104: NDMAs[0].SrcAddr = val & 0xFFFFFFFC; return; + case 0x04004108: NDMAs[0].DstAddr = val & 0xFFFFFFFC; return; + case 0x0400410C: NDMAs[0].TotalLength = val & 0x0FFFFFFF; return; + case 0x04004110: NDMAs[0].BlockLength = val & 0x00FFFFFF; return; + case 0x04004114: NDMAs[0].SubblockTimer = val & 0x0003FFFF; return; + case 0x04004118: NDMAs[0].FillData = val; return; + case 0x0400411C: NDMAs[0].WriteCnt(val); return; + case 0x04004120: NDMAs[1].SrcAddr = val & 0xFFFFFFFC; return; + case 0x04004124: NDMAs[1].DstAddr = val & 0xFFFFFFFC; return; + case 0x04004128: NDMAs[1].TotalLength = val & 0x0FFFFFFF; return; + case 0x0400412C: NDMAs[1].BlockLength = val & 0x00FFFFFF; return; + case 0x04004130: NDMAs[1].SubblockTimer = val & 0x0003FFFF; return; + case 0x04004134: NDMAs[1].FillData = val; return; + case 0x04004138: NDMAs[1].WriteCnt(val); return; + case 0x0400413C: NDMAs[2].SrcAddr = val & 0xFFFFFFFC; return; + case 0x04004140: NDMAs[2].DstAddr = val & 0xFFFFFFFC; return; + case 0x04004144: NDMAs[2].TotalLength = val & 0x0FFFFFFF; return; + case 0x04004148: NDMAs[2].BlockLength = val & 0x00FFFFFF; return; + case 0x0400414C: NDMAs[2].SubblockTimer = val & 0x0003FFFF; return; + case 0x04004150: NDMAs[2].FillData = val; return; + case 0x04004154: NDMAs[2].WriteCnt(val); return; + case 0x04004158: NDMAs[3].SrcAddr = val & 0xFFFFFFFC; return; + case 0x0400415C: NDMAs[3].DstAddr = val & 0xFFFFFFFC; return; + case 0x04004160: NDMAs[3].TotalLength = val & 0x0FFFFFFF; return; + case 0x04004164: NDMAs[3].BlockLength = val & 0x00FFFFFF; return; + case 0x04004168: NDMAs[3].SubblockTimer = val & 0x0003FFFF; return; + case 0x0400416C: NDMAs[3].FillData = val; return; + case 0x04004170: NDMAs[3].WriteCnt(val); return; } if ((addr & 0xFFFFFF00) == 0x04004200) { if (!(SCFG_EXT[0] & (1<<17))) return; - return CamModule->Write32(addr, val); + return CamModule.Write32(addr, val); } if ((addr & 0xFFFFFF00) == 0x04004300) { if (!(SCFG_EXT[0] & (1<<18))) return; - return DSP->Write32(addr, val); + return DSP.Write32(addr, val); } return NDS::ARM9IOWrite32(addr, val); } -u8 ARM7IORead8(u32 addr) +u8 DSi::ARM7IORead8(u32 addr) { + assert(ConsoleType == 1); switch (addr) { @@ -2650,8 +2675,8 @@ u8 ARM7IORead8(u32 addr) CASE_READ8_32BIT(0x0400405C, MBK[1][7]) CASE_READ8_32BIT(0x04004060, MBK[1][8]) - case 0x04004500: return I2C->ReadData(); - case 0x04004501: return I2C->ReadCnt(); + case 0x04004500: return I2C.ReadData(); + case 0x04004501: return I2C.ReadCnt(); case 0x04004D00: if (SCFG_BIOS & (1<<10)) return 0; return NANDImage->GetConsoleID() & 0xFF; case 0x04004D01: if (SCFG_BIOS & (1<<10)) return 0; return (NANDImage->GetConsoleID() >> 8) & 0xFF; @@ -2663,8 +2688,8 @@ u8 ARM7IORead8(u32 addr) case 0x04004D07: if (SCFG_BIOS & (1<<10)) return 0; return NANDImage->GetConsoleID() >> 56; case 0x04004D08: return 0; - case 0x4004700: return DSP->ReadSNDExCnt() & 0xFF; - case 0x4004701: return DSP->ReadSNDExCnt() >> 8; + case 0x4004700: return DSP.ReadSNDExCnt() & 0xFF; + case 0x4004701: return DSP.ReadSNDExCnt() >> 8; case 0x04004C00: return GPIO_Data; case 0x04004C01: return GPIO_Dir; @@ -2677,8 +2702,9 @@ u8 ARM7IORead8(u32 addr) return NDS::ARM7IORead8(addr); } -u16 ARM7IORead16(u32 addr) +u16 DSi::ARM7IORead16(u32 addr) { + assert(ConsoleType == 1); switch (addr) { case 0x04000218: return NDS::IE2; @@ -2706,7 +2732,7 @@ u16 ARM7IORead16(u32 addr) case 0x04004D06: if (SCFG_BIOS & (1<<10)) return 0; return NANDImage->GetConsoleID() >> 48; case 0x04004D08: return 0; - case 0x4004700: return DSP->ReadSNDExCnt(); + case 0x4004700: return DSP.ReadSNDExCnt(); case 0x04004C00: return GPIO_Data | ((u16)GPIO_Dir << 8); case 0x04004C02: return GPIO_IEdgeSel | ((u16)GPIO_IE << 8); @@ -2715,18 +2741,19 @@ u16 ARM7IORead16(u32 addr) if (addr >= 0x04004800 && addr < 0x04004A00) { - return SDMMC->Read(addr); + return SDMMC.Read(addr); } if (addr >= 0x04004A00 && addr < 0x04004C00) { - return SDIO->Read(addr); + return SDIO.Read(addr); } return NDS::ARM7IORead16(addr); } -u32 ARM7IORead32(u32 addr) +u32 DSi::ARM7IORead32(u32 addr) { + assert(ConsoleType == 1); switch (addr) { case 0x04000218: return NDS::IE2; @@ -2747,63 +2774,64 @@ u32 ARM7IORead32(u32 addr) case 0x04004060: return MBK[1][8]; case 0x04004100: return NDMACnt[1]; - case 0x04004104: return NDMAs[4]->SrcAddr; - case 0x04004108: return NDMAs[4]->DstAddr; - case 0x0400410C: return NDMAs[4]->TotalLength; - case 0x04004110: return NDMAs[4]->BlockLength; - case 0x04004114: return NDMAs[4]->SubblockTimer; - case 0x04004118: return NDMAs[4]->FillData; - case 0x0400411C: return NDMAs[4]->Cnt; - case 0x04004120: return NDMAs[5]->SrcAddr; - case 0x04004124: return NDMAs[5]->DstAddr; - case 0x04004128: return NDMAs[5]->TotalLength; - case 0x0400412C: return NDMAs[5]->BlockLength; - case 0x04004130: return NDMAs[5]->SubblockTimer; - case 0x04004134: return NDMAs[5]->FillData; - case 0x04004138: return NDMAs[5]->Cnt; - case 0x0400413C: return NDMAs[6]->SrcAddr; - case 0x04004140: return NDMAs[6]->DstAddr; - case 0x04004144: return NDMAs[6]->TotalLength; - case 0x04004148: return NDMAs[6]->BlockLength; - case 0x0400414C: return NDMAs[6]->SubblockTimer; - case 0x04004150: return NDMAs[6]->FillData; - case 0x04004154: return NDMAs[6]->Cnt; - case 0x04004158: return NDMAs[7]->SrcAddr; - case 0x0400415C: return NDMAs[7]->DstAddr; - case 0x04004160: return NDMAs[7]->TotalLength; - case 0x04004164: return NDMAs[7]->BlockLength; - case 0x04004168: return NDMAs[7]->SubblockTimer; - case 0x0400416C: return NDMAs[7]->FillData; - case 0x04004170: return NDMAs[7]->Cnt; + case 0x04004104: return NDMAs[4].SrcAddr; + case 0x04004108: return NDMAs[4].DstAddr; + case 0x0400410C: return NDMAs[4].TotalLength; + case 0x04004110: return NDMAs[4].BlockLength; + case 0x04004114: return NDMAs[4].SubblockTimer; + case 0x04004118: return NDMAs[4].FillData; + case 0x0400411C: return NDMAs[4].Cnt; + case 0x04004120: return NDMAs[5].SrcAddr; + case 0x04004124: return NDMAs[5].DstAddr; + case 0x04004128: return NDMAs[5].TotalLength; + case 0x0400412C: return NDMAs[5].BlockLength; + case 0x04004130: return NDMAs[5].SubblockTimer; + case 0x04004134: return NDMAs[5].FillData; + case 0x04004138: return NDMAs[5].Cnt; + case 0x0400413C: return NDMAs[6].SrcAddr; + case 0x04004140: return NDMAs[6].DstAddr; + case 0x04004144: return NDMAs[6].TotalLength; + case 0x04004148: return NDMAs[6].BlockLength; + case 0x0400414C: return NDMAs[6].SubblockTimer; + case 0x04004150: return NDMAs[6].FillData; + case 0x04004154: return NDMAs[6].Cnt; + case 0x04004158: return NDMAs[7].SrcAddr; + case 0x0400415C: return NDMAs[7].DstAddr; + case 0x04004160: return NDMAs[7].TotalLength; + case 0x04004164: return NDMAs[7].BlockLength; + case 0x04004168: return NDMAs[7].SubblockTimer; + case 0x0400416C: return NDMAs[7].FillData; + case 0x04004170: return NDMAs[7].Cnt; - case 0x04004400: return AES->ReadCnt(); - case 0x0400440C: return AES->ReadOutputFIFO(); + case 0x04004400: return AES.ReadCnt(); + case 0x0400440C: return AES.ReadOutputFIFO(); case 0x04004D00: if (SCFG_BIOS & (1<<10)) return 0; return NANDImage->GetConsoleID() & 0xFFFFFFFF; case 0x04004D04: if (SCFG_BIOS & (1<<10)) return 0; return NANDImage->GetConsoleID() >> 32; case 0x04004D08: return 0; case 0x4004700: - Log(LogLevel::Debug, "32-Bit SNDExCnt read? %08X\n", NDS::ARM7->R[15]); - return DSP->ReadSNDExCnt(); + Log(LogLevel::Debug, "32-Bit SNDExCnt read? %08X\n", ARM7.R[15]); + return DSP.ReadSNDExCnt(); } if (addr >= 0x04004800 && addr < 0x04004A00) { - if (addr == 0x0400490C) return SDMMC->ReadFIFO32(); - return SDMMC->Read(addr) | (SDMMC->Read(addr+2) << 16); + if (addr == 0x0400490C) return SDMMC.ReadFIFO32(); + return SDMMC.Read(addr) | (SDMMC.Read(addr+2) << 16); } if (addr >= 0x04004A00 && addr < 0x04004C00) { - if (addr == 0x04004B0C) return SDIO->ReadFIFO32(); - return SDIO->Read(addr) | (SDIO->Read(addr+2) << 16); + if (addr == 0x04004B0C) return SDIO.ReadFIFO32(); + return SDIO.Read(addr) | (SDIO.Read(addr+2) << 16); } return NDS::ARM7IORead32(addr); } -void ARM7IOWrite8(u32 addr, u8 val) +void DSi::ARM7IOWrite8(u32 addr, u8 val) { + assert(ConsoleType == 1); switch (addr) { case 0x04004000: @@ -2834,14 +2862,14 @@ void ARM7IOWrite8(u32 addr, u8 val) return; } - case 0x04004500: I2C->WriteData(val); return; - case 0x04004501: I2C->WriteCnt(val); return; + case 0x04004500: I2C.WriteData(val); return; + case 0x04004501: I2C.WriteCnt(val); return; case 0x4004700: - DSP->WriteSNDExCnt((u16)val, 0xFF); + DSP.WriteSNDExCnt((u16)val, 0xFF); return; case 0x4004701: - DSP->WriteSNDExCnt(((u16)val << 8), 0xFF00); + DSP.WriteSNDExCnt(((u16)val << 8), 0xFF00); return; case 0x04004C00: @@ -2866,7 +2894,7 @@ void ARM7IOWrite8(u32 addr, u8 val) u32 shift = (addr&3)*8; addr -= 0x04004420; addr &= ~3; - AES->WriteIV(addr, (u32)val << shift, 0xFF << shift); + AES.WriteIV(addr, (u32)val << shift, 0xFF << shift); return; } if (addr >= 0x04004430 && addr < 0x04004440) @@ -2874,7 +2902,7 @@ void ARM7IOWrite8(u32 addr, u8 val) u32 shift = (addr&3)*8; addr -= 0x04004430; addr &= ~3; - AES->WriteMAC(addr, (u32)val << shift, 0xFF << shift); + AES.WriteMAC(addr, (u32)val << shift, 0xFF << shift); return; } if (addr >= 0x04004440 && addr < 0x04004500) @@ -2888,17 +2916,18 @@ void ARM7IOWrite8(u32 addr, u8 val) switch (addr >> 4) { - case 0: AES->WriteKeyNormal(n, addr&0xF, (u32)val << shift, 0xFF << shift); return; - case 1: AES->WriteKeyX(n, addr&0xF, (u32)val << shift, 0xFF << shift); return; - case 2: AES->WriteKeyY(n, addr&0xF, (u32)val << shift, 0xFF << shift); return; + case 0: AES.WriteKeyNormal(n, addr&0xF, (u32)val << shift, 0xFF << shift); return; + case 1: AES.WriteKeyX(n, addr&0xF, (u32)val << shift, 0xFF << shift); return; + case 2: AES.WriteKeyY(n, addr&0xF, (u32)val << shift, 0xFF << shift); return; } } return NDS::ARM7IOWrite8(addr, val); } -void ARM7IOWrite16(u32 addr, u16 val) +void DSi::ARM7IOWrite16(u32 addr, u16 val) { + assert(ConsoleType == 1); switch (addr) { case 0x04000218: NDS::IE2 = (val & 0x7FF7); NDS::UpdateIRQ(1); return; @@ -2936,11 +2965,11 @@ void ARM7IOWrite16(u32 addr, u16 val) return; case 0x04004406: - AES->WriteBlkCnt(val<<16); + AES.WriteBlkCnt(val<<16); return; case 0x4004700: - DSP->WriteSNDExCnt(val, 0xFFFF); + DSP.WriteSNDExCnt(val, 0xFFFF); return; case 0x04004C00: @@ -2961,7 +2990,7 @@ void ARM7IOWrite16(u32 addr, u16 val) u32 shift = (addr&1)*16; addr -= 0x04004420; addr &= ~1; - AES->WriteIV(addr, (u32)val << shift, 0xFFFF << shift); + AES.WriteIV(addr, (u32)val << shift, 0xFFFF << shift); return; } if (addr >= 0x04004430 && addr < 0x04004440) @@ -2969,7 +2998,7 @@ void ARM7IOWrite16(u32 addr, u16 val) u32 shift = (addr&1)*16; addr -= 0x04004430; addr &= ~1; - AES->WriteMAC(addr, (u32)val << shift, 0xFFFF << shift); + AES.WriteMAC(addr, (u32)val << shift, 0xFFFF << shift); return; } if (addr >= 0x04004440 && addr < 0x04004500) @@ -2983,28 +3012,29 @@ void ARM7IOWrite16(u32 addr, u16 val) switch (addr >> 4) { - case 0: AES->WriteKeyNormal(n, addr&0xF, (u32)val << shift, 0xFFFF << shift); return; - case 1: AES->WriteKeyX(n, addr&0xF, (u32)val << shift, 0xFFFF << shift); return; - case 2: AES->WriteKeyY(n, addr&0xF, (u32)val << shift, 0xFFFF << shift); return; + case 0: AES.WriteKeyNormal(n, addr&0xF, (u32)val << shift, 0xFFFF << shift); return; + case 1: AES.WriteKeyX(n, addr&0xF, (u32)val << shift, 0xFFFF << shift); return; + case 2: AES.WriteKeyY(n, addr&0xF, (u32)val << shift, 0xFFFF << shift); return; } } if (addr >= 0x04004800 && addr < 0x04004A00) { - SDMMC->Write(addr, val); + SDMMC.Write(addr, val); return; } if (addr >= 0x04004A00 && addr < 0x04004C00) { - SDIO->Write(addr, val); + SDIO.Write(addr, val); return; } return NDS::ARM7IOWrite16(addr, val); } -void ARM7IOWrite32(u32 addr, u32 val) +void DSi::ARM7IOWrite32(u32 addr, u32 val) { + assert(ConsoleType == 1); switch (addr) { case 0x04000218: NDS::IE2 = (val & 0x7FF7); NDS::UpdateIRQ(1); return; @@ -3054,55 +3084,55 @@ void ARM7IOWrite32(u32 addr, u32 val) return; case 0x04004100: NDMACnt[1] = val & 0x800F0000; return; - case 0x04004104: NDMAs[4]->SrcAddr = val & 0xFFFFFFFC; return; - case 0x04004108: NDMAs[4]->DstAddr = val & 0xFFFFFFFC; return; - case 0x0400410C: NDMAs[4]->TotalLength = val & 0x0FFFFFFF; return; - case 0x04004110: NDMAs[4]->BlockLength = val & 0x00FFFFFF; return; - case 0x04004114: NDMAs[4]->SubblockTimer = val & 0x0003FFFF; return; - case 0x04004118: NDMAs[4]->FillData = val; return; - case 0x0400411C: NDMAs[4]->WriteCnt(val); return; - case 0x04004120: NDMAs[5]->SrcAddr = val & 0xFFFFFFFC; return; - case 0x04004124: NDMAs[5]->DstAddr = val & 0xFFFFFFFC; return; - case 0x04004128: NDMAs[5]->TotalLength = val & 0x0FFFFFFF; return; - case 0x0400412C: NDMAs[5]->BlockLength = val & 0x00FFFFFF; return; - case 0x04004130: NDMAs[5]->SubblockTimer = val & 0x0003FFFF; return; - case 0x04004134: NDMAs[5]->FillData = val; return; - case 0x04004138: NDMAs[5]->WriteCnt(val); return; - case 0x0400413C: NDMAs[6]->SrcAddr = val & 0xFFFFFFFC; return; - case 0x04004140: NDMAs[6]->DstAddr = val & 0xFFFFFFFC; return; - case 0x04004144: NDMAs[6]->TotalLength = val & 0x0FFFFFFF; return; - case 0x04004148: NDMAs[6]->BlockLength = val & 0x00FFFFFF; return; - case 0x0400414C: NDMAs[6]->SubblockTimer = val & 0x0003FFFF; return; - case 0x04004150: NDMAs[6]->FillData = val; return; - case 0x04004154: NDMAs[6]->WriteCnt(val); return; - case 0x04004158: NDMAs[7]->SrcAddr = val & 0xFFFFFFFC; return; - case 0x0400415C: NDMAs[7]->DstAddr = val & 0xFFFFFFFC; return; - case 0x04004160: NDMAs[7]->TotalLength = val & 0x0FFFFFFF; return; - case 0x04004164: NDMAs[7]->BlockLength = val & 0x00FFFFFF; return; - case 0x04004168: NDMAs[7]->SubblockTimer = val & 0x0003FFFF; return; - case 0x0400416C: NDMAs[7]->FillData = val; return; - case 0x04004170: NDMAs[7]->WriteCnt(val); return; + case 0x04004104: NDMAs[4].SrcAddr = val & 0xFFFFFFFC; return; + case 0x04004108: NDMAs[4].DstAddr = val & 0xFFFFFFFC; return; + case 0x0400410C: NDMAs[4].TotalLength = val & 0x0FFFFFFF; return; + case 0x04004110: NDMAs[4].BlockLength = val & 0x00FFFFFF; return; + case 0x04004114: NDMAs[4].SubblockTimer = val & 0x0003FFFF; return; + case 0x04004118: NDMAs[4].FillData = val; return; + case 0x0400411C: NDMAs[4].WriteCnt(val); return; + case 0x04004120: NDMAs[5].SrcAddr = val & 0xFFFFFFFC; return; + case 0x04004124: NDMAs[5].DstAddr = val & 0xFFFFFFFC; return; + case 0x04004128: NDMAs[5].TotalLength = val & 0x0FFFFFFF; return; + case 0x0400412C: NDMAs[5].BlockLength = val & 0x00FFFFFF; return; + case 0x04004130: NDMAs[5].SubblockTimer = val & 0x0003FFFF; return; + case 0x04004134: NDMAs[5].FillData = val; return; + case 0x04004138: NDMAs[5].WriteCnt(val); return; + case 0x0400413C: NDMAs[6].SrcAddr = val & 0xFFFFFFFC; return; + case 0x04004140: NDMAs[6].DstAddr = val & 0xFFFFFFFC; return; + case 0x04004144: NDMAs[6].TotalLength = val & 0x0FFFFFFF; return; + case 0x04004148: NDMAs[6].BlockLength = val & 0x00FFFFFF; return; + case 0x0400414C: NDMAs[6].SubblockTimer = val & 0x0003FFFF; return; + case 0x04004150: NDMAs[6].FillData = val; return; + case 0x04004154: NDMAs[6].WriteCnt(val); return; + case 0x04004158: NDMAs[7].SrcAddr = val & 0xFFFFFFFC; return; + case 0x0400415C: NDMAs[7].DstAddr = val & 0xFFFFFFFC; return; + case 0x04004160: NDMAs[7].TotalLength = val & 0x0FFFFFFF; return; + case 0x04004164: NDMAs[7].BlockLength = val & 0x00FFFFFF; return; + case 0x04004168: NDMAs[7].SubblockTimer = val & 0x0003FFFF; return; + case 0x0400416C: NDMAs[7].FillData = val; return; + case 0x04004170: NDMAs[7].WriteCnt(val); return; - case 0x04004400: AES->WriteCnt(val); return; - case 0x04004404: AES->WriteBlkCnt(val); return; - case 0x04004408: AES->WriteInputFIFO(val); return; + case 0x04004400: AES.WriteCnt(val); return; + case 0x04004404: AES.WriteBlkCnt(val); return; + case 0x04004408: AES.WriteInputFIFO(val); return; case 0x4004700: - Log(LogLevel::Debug, "32-Bit SNDExCnt write? %08X %08X\n", val, NDS::ARM7->R[15]); - DSP->WriteSNDExCnt(val, 0xFFFF); + Log(LogLevel::Debug, "32-Bit SNDExCnt write? %08X %08X\n", val, ARM7.R[15]); + DSP.WriteSNDExCnt(val, 0xFFFF); return; } if (addr >= 0x04004420 && addr < 0x04004430) { addr -= 0x04004420; - AES->WriteIV(addr, val, 0xFFFFFFFF); + AES.WriteIV(addr, val, 0xFFFFFFFF); return; } if (addr >= 0x04004430 && addr < 0x04004440) { addr -= 0x04004430; - AES->WriteMAC(addr, val, 0xFFFFFFFF); + AES.WriteMAC(addr, val, 0xFFFFFFFF); return; } if (addr >= 0x04004440 && addr < 0x04004500) @@ -3113,31 +3143,31 @@ void ARM7IOWrite32(u32 addr, u32 val) switch (addr >> 4) { - case 0: AES->WriteKeyNormal(n, addr&0xF, val, 0xFFFFFFFF); return; - case 1: AES->WriteKeyX(n, addr&0xF, val, 0xFFFFFFFF); return; - case 2: AES->WriteKeyY(n, addr&0xF, val, 0xFFFFFFFF); return; + case 0: AES.WriteKeyNormal(n, addr&0xF, val, 0xFFFFFFFF); return; + case 1: AES.WriteKeyX(n, addr&0xF, val, 0xFFFFFFFF); return; + case 2: AES.WriteKeyY(n, addr&0xF, val, 0xFFFFFFFF); return; } } if (addr >= 0x04004800 && addr < 0x04004A00) { - if (addr == 0x0400490C) { SDMMC->WriteFIFO32(val); return; } - SDMMC->Write(addr, val & 0xFFFF); - SDMMC->Write(addr+2, val >> 16); + if (addr == 0x0400490C) { SDMMC.WriteFIFO32(val); return; } + SDMMC.Write(addr, val & 0xFFFF); + SDMMC.Write(addr+2, val >> 16); return; } if (addr >= 0x04004A00 && addr < 0x04004C00) { - if (addr == 0x04004B0C) { SDIO->WriteFIFO32(val); return; } - SDIO->Write(addr, val & 0xFFFF); - SDIO->Write(addr+2, val >> 16); + if (addr == 0x04004B0C) { SDIO.WriteFIFO32(val); return; } + SDIO.Write(addr, val & 0xFFFF); + SDIO.Write(addr+2, val >> 16); return; } if (addr >= 0x04004300 && addr <= 0x04004400) { - DSP->Write32(addr, val); + DSP.Write32(addr, val); return; } @@ -3145,5 +3175,3 @@ void ARM7IOWrite32(u32 addr, u32 val) } } - -} \ No newline at end of file diff --git a/src/DSi.h b/src/DSi.h index ac6bf772..a221b5d7 100644 --- a/src/DSi.h +++ b/src/DSi.h @@ -20,7 +20,12 @@ #define DSI_H #include "NDS.h" +#include "DSi_NDMA.h" #include "DSi_SD.h" +#include "DSi_DSP.h" +#include "DSi_AES.h" +#include "DSi_Camera.h" +#include "DSi_NAND.h" namespace melonDS { @@ -34,99 +39,135 @@ namespace DSi_NAND class NANDImage; } -namespace DSi +class DSi final : public NDS { +protected: + void DoSavestateExtra(Savestate* file) override; +public: + u16 SCFG_BIOS; + u16 SCFG_Clock9; + u32 SCFG_EXT[2]; -extern u16 SCFG_BIOS; -extern u16 SCFG_Clock9; -extern u32 SCFG_EXT[2]; + u8 ARM9iBIOS[0x10000]; + u8 ARM7iBIOS[0x10000]; + std::unique_ptr NANDImage; + DSi_SDHost SDMMC; + DSi_SDHost SDIO; + const u32 NWRAMSize = 0x40000; -extern u8 ARM9iBIOS[0x10000]; -extern u8 ARM7iBIOS[0x10000]; + u8* NWRAM_A; + u8* NWRAM_B; + u8* NWRAM_C; -extern std::unique_ptr NANDImage; -extern DSi_SDHost* SDMMC; -extern DSi_SDHost* SDIO; + u8* NWRAMMap_A[2][4]; + u8* NWRAMMap_B[3][8]; + u8* NWRAMMap_C[3][8]; -const u32 NWRAMSize = 0x40000; + u32 NWRAMStart[2][3]; + u32 NWRAMEnd[2][3]; + u32 NWRAMMask[2][3]; -extern u8* NWRAM_A; -extern u8* NWRAM_B; -extern u8* NWRAM_C; + DSi_I2CHost I2C; + DSi_CamModule CamModule; + DSi_AES AES; + DSi_DSP DSP; -extern u8* NWRAMMap_A[2][4]; -extern u8* NWRAMMap_B[3][8]; -extern u8* NWRAMMap_C[3][8]; + void Reset() override; + void Stop(Platform::StopReason reason) override; -extern u32 NWRAMStart[2][3]; -extern u32 NWRAMEnd[2][3]; -extern u32 NWRAMMask[2][3]; + bool DoSavestate(Savestate* file); -extern DSi_I2CHost* I2C; -extern DSi_CamModule* CamModule; -extern DSi_AES* AES; -extern DSi_DSP* DSP; + void SetCartInserted(bool inserted); -bool Init(); -void DeInit(); -void Reset(); -void Stop(); + void SetupDirectBoot() override; + void SoftReset(); -void DoSavestate(Savestate* file); + bool LoadNAND(); -void SetCartInserted(bool inserted); + void RunNDMAs(u32 cpu); + void StallNDMAs(); + bool NDMAsInMode(u32 cpu, u32 mode); + bool NDMAsRunning(u32 cpu); + void CheckNDMAs(u32 cpu, u32 mode); + void StopNDMAs(u32 cpu, u32 mode); -void SetupDirectBoot(); -void SoftReset(); + void MapNWRAM_A(u32 num, u8 val); + void MapNWRAM_B(u32 num, u8 val); + void MapNWRAM_C(u32 num, u8 val); + void MapNWRAMRange(u32 cpu, u32 num, u32 val); -bool LoadNAND(); + u8 ARM9Read8(u32 addr) override; + u16 ARM9Read16(u32 addr) override; + u32 ARM9Read32(u32 addr) override; + void ARM9Write8(u32 addr, u8 val) override; + void ARM9Write16(u32 addr, u16 val) override; + void ARM9Write32(u32 addr, u32 val) override; -void RunNDMAs(u32 cpu); -void StallNDMAs(); -bool NDMAsInMode(u32 cpu, u32 mode); -bool NDMAsRunning(u32 cpu); -void CheckNDMAs(u32 cpu, u32 mode); -void StopNDMAs(u32 cpu, u32 mode); + bool ARM9GetMemRegion(u32 addr, bool write, MemRegion* region) override; -void MapNWRAM_A(u32 num, u8 val); -void MapNWRAM_B(u32 num, u8 val); -void MapNWRAM_C(u32 num, u8 val); -void MapNWRAMRange(u32 cpu, u32 num, u32 val); + u8 ARM7Read8(u32 addr) override; + u16 ARM7Read16(u32 addr) override; + u32 ARM7Read32(u32 addr) override; + void ARM7Write8(u32 addr, u8 val) override; + void ARM7Write16(u32 addr, u16 val) override; + void ARM7Write32(u32 addr, u32 val) override; -u8 ARM9Read8(u32 addr); -u16 ARM9Read16(u32 addr); -u32 ARM9Read32(u32 addr); -void ARM9Write8(u32 addr, u8 val); -void ARM9Write16(u32 addr, u16 val); -void ARM9Write32(u32 addr, u32 val); + bool ARM7GetMemRegion(u32 addr, bool write, MemRegion* region) override; -bool ARM9GetMemRegion(u32 addr, bool write, NDS::MemRegion* region); + u8 ARM9IORead8(u32 addr) override; + u16 ARM9IORead16(u32 addr) override; + u32 ARM9IORead32(u32 addr) override; + void ARM9IOWrite8(u32 addr, u8 val) override; + void ARM9IOWrite16(u32 addr, u16 val) override; + void ARM9IOWrite32(u32 addr, u32 val) override; -u8 ARM7Read8(u32 addr); -u16 ARM7Read16(u32 addr); -u32 ARM7Read32(u32 addr); -void ARM7Write8(u32 addr, u8 val); -void ARM7Write16(u32 addr, u16 val); -void ARM7Write32(u32 addr, u32 val); + u8 ARM7IORead8(u32 addr) override; + u16 ARM7IORead16(u32 addr) override; + u32 ARM7IORead32(u32 addr) override; + void ARM7IOWrite8(u32 addr, u8 val) override; + void ARM7IOWrite16(u32 addr, u16 val) override; + void ARM7IOWrite32(u32 addr, u32 val) override; -bool ARM7GetMemRegion(u32 addr, bool write, NDS::MemRegion* region); +public: + DSi() noexcept; + ~DSi() noexcept override; + DSi(const DSi&) = delete; + DSi& operator=(const DSi&) = delete; + DSi(DSi&&) = delete; + DSi& operator=(DSi&&) = delete; + bool LoadCart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen) override; + void EjectCart() override; + bool NeedsDirectBoot() override + { + // for now, DSi mode requires original BIOS/NAND + return false; + } + void CamInputFrame(int cam, u32* data, int width, int height, bool rgb) override; + bool DMAsInMode(u32 cpu, u32 mode) override; + bool DMAsRunning(u32 cpu) override; + void StopDMAs(u32 cpu, u32 mode) override; + void CheckDMAs(u32 cpu, u32 mode) override; + u16 SCFG_Clock7; + u32 SCFG_MC; + u16 SCFG_RST; + u32 MBK[2][9]; + u32 NDMACnt[2]; + std::array NDMAs; + // FIXME: these currently have no effect (and aren't stored in a savestate) + // ... not that they matter all that much + u8 GPIO_Data; + u8 GPIO_Dir; + u8 GPIO_IEdgeSel; + u8 GPIO_IE; + u8 GPIO_WiFi; -u8 ARM9IORead8(u32 addr); -u16 ARM9IORead16(u32 addr); -u32 ARM9IORead32(u32 addr); -void ARM9IOWrite8(u32 addr, u8 val); -void ARM9IOWrite16(u32 addr, u16 val); -void ARM9IOWrite32(u32 addr, u32 val); - -u8 ARM7IORead8(u32 addr); -u16 ARM7IORead16(u32 addr); -u32 ARM7IORead32(u32 addr); -void ARM7IOWrite8(u32 addr, u8 val); -void ARM7IOWrite16(u32 addr, u16 val); -void ARM7IOWrite32(u32 addr, u32 val); - -} +private: + void Set_SCFG_Clock9(u16 val); + void Set_SCFG_MC(u32 val); + void DecryptModcryptArea(u32 offset, u32 size, u8* iv); + void ApplyNewRAMSize(u32 size); +}; } #endif // DSI_H diff --git a/src/DSi_AES.cpp b/src/DSi_AES.cpp index a29e43f1..8e04586a 100644 --- a/src/DSi_AES.cpp +++ b/src/DSi_AES.cpp @@ -36,7 +36,7 @@ using Platform::LogLevel; #define _printhex2R(str, size) { for (int z = 0; z < (size); z++) printf("%02X", (str)[((size)-1)-z]); } -DSi_AES::DSi_AES() +DSi_AES::DSi_AES(melonDS::DSi& dsi) : DSi(dsi) { const u8 zero[16] = {0}; AES_init_ctx_iv(&Ctx, zero, zero); @@ -78,7 +78,7 @@ void DSi_AES::Reset() OutputMACDue = false; // initialize keys - u64 consoleid = DSi::NANDImage->GetConsoleID(); + u64 consoleid = DSi.NANDImage->GetConsoleID(); // slot 0: modcrypt *(u32*)&KeyX[0][0] = 0x746E694E; @@ -313,7 +313,7 @@ void DSi_AES::WriteCnt(u32 val) AES_init_ctx_iv(&Ctx, key, iv); } - DSi::CheckNDMAs(1, 0x2A); + DSi.CheckNDMAs(1, 0x2A); } else { @@ -347,9 +347,9 @@ u32 DSi_AES::ReadOutputFIFO() else { if (OutputFIFO.Level() > 0) - DSi::CheckNDMAs(1, 0x2B); + DSi.CheckNDMAs(1, 0x2B); else - DSi::StopNDMAs(1, 0x2B); + DSi.StopNDMAs(1, 0x2B); if (OutputMACDue && OutputFIFO.Level() <= 12) { @@ -384,7 +384,7 @@ void DSi_AES::CheckInputDMA() if (InputFIFO.Level() <= InputDMASize) { // trigger input DMA - DSi::CheckNDMAs(1, 0x2A); + DSi.CheckNDMAs(1, 0x2A); } Update(); @@ -395,7 +395,7 @@ void DSi_AES::CheckOutputDMA() if (OutputFIFO.Level() >= OutputDMASize) { // trigger output DMA - DSi::CheckNDMAs(1, 0x2B); + DSi.CheckNDMAs(1, 0x2B); } } @@ -475,13 +475,13 @@ void DSi_AES::Update() } Cnt &= ~(1<<31); - if (Cnt & (1<<30)) NDS::SetIRQ2(NDS::IRQ2_DSi_AES); - DSi::StopNDMAs(1, 0x2A); + if (Cnt & (1<<30)) DSi.SetIRQ2(IRQ2_DSi_AES); + DSi.StopNDMAs(1, 0x2A); if (!OutputFIFO.IsEmpty()) - DSi::CheckNDMAs(1, 0x2B); + DSi.CheckNDMAs(1, 0x2B); else - DSi::StopNDMAs(1, 0x2B); + DSi.StopNDMAs(1, 0x2B); OutputFlush = false; } } diff --git a/src/DSi_AES.h b/src/DSi_AES.h index 9c0a63fe..4df82695 100644 --- a/src/DSi_AES.h +++ b/src/DSi_AES.h @@ -45,10 +45,11 @@ __attribute((always_inline)) static void Bswap128(void* Dst, const void* Src) #endif #pragma GCC diagnostic pop +class DSi; class DSi_AES { public: - DSi_AES(); + DSi_AES(melonDS::DSi& dsi); ~DSi_AES(); void Reset(); void DoSavestate(Savestate* file); @@ -73,6 +74,7 @@ public: static void DeriveNormalKey(u8* keyX, u8* keyY, u8* normalkey); private: + melonDS::DSi& DSi; u32 Cnt; u32 BlkCnt; diff --git a/src/DSi_Camera.cpp b/src/DSi_Camera.cpp index 708875c1..225bea8b 100644 --- a/src/DSi_Camera.cpp +++ b/src/DSi_Camera.cpp @@ -38,13 +38,13 @@ const u32 DSi_CamModule::kIRQInterval = 1120000; // ~30 FPS const u32 DSi_CamModule::kTransferStart = 60000; -DSi_CamModule::DSi_CamModule() +DSi_CamModule::DSi_CamModule(melonDS::DSi& dsi) : DSi(dsi) { - NDS::RegisterEventFunc(NDS::Event_DSi_CamIRQ, 0, MemberEventFunc(DSi_CamModule, IRQ)); - NDS::RegisterEventFunc(NDS::Event_DSi_CamTransfer, 0, MemberEventFunc(DSi_CamModule, TransferScanline)); + DSi.RegisterEventFunc(Event_DSi_CamIRQ, 0, MemberEventFunc(DSi_CamModule, IRQ)); + DSi.RegisterEventFunc(Event_DSi_CamTransfer, 0, MemberEventFunc(DSi_CamModule, TransferScanline)); - Camera0 = DSi::I2C->GetOuterCamera(); - Camera1 = DSi::I2C->GetInnerCamera(); + Camera0 = DSi.I2C.GetOuterCamera(); + Camera1 = DSi.I2C.GetInnerCamera(); } DSi_CamModule::~DSi_CamModule() @@ -52,8 +52,8 @@ DSi_CamModule::~DSi_CamModule() Camera0 = nullptr; Camera1 = nullptr; - NDS::UnregisterEventFunc(NDS::Event_DSi_CamIRQ, 0); - NDS::UnregisterEventFunc(NDS::Event_DSi_CamTransfer, 0); + DSi.UnregisterEventFunc(Event_DSi_CamIRQ, 0); + DSi.UnregisterEventFunc(Event_DSi_CamTransfer, 0); } void DSi_CamModule::Reset() @@ -70,7 +70,7 @@ void DSi_CamModule::Reset() BufferNumLines = 0; CurCamera = nullptr; - NDS::ScheduleEvent(NDS::Event_DSi_CamIRQ, false, kIRQInterval, 0, 0); + DSi.ScheduleEvent(Event_DSi_CamIRQ, false, kIRQInterval, 0, 0); } void DSi_CamModule::Stop() @@ -106,7 +106,7 @@ void DSi_CamModule::IRQ(u32 param) activecam->StartTransfer(); if (Cnt & (1<<11)) - NDS::SetIRQ(0, NDS::IRQ_DSi_Camera); + DSi.SetIRQ(0, IRQ_DSi_Camera); if (Cnt & (1<<15)) { @@ -114,11 +114,11 @@ void DSi_CamModule::IRQ(u32 param) BufferWritePos = 0; BufferNumLines = 0; CurCamera = activecam; - NDS::ScheduleEvent(NDS::Event_DSi_CamTransfer, false, kTransferStart, 0, 0); + DSi.ScheduleEvent(Event_DSi_CamTransfer, false, kTransferStart, 0, 0); } } - NDS::ScheduleEvent(NDS::Event_DSi_CamIRQ, true, kIRQInterval, 0, 0); + DSi.ScheduleEvent(Event_DSi_CamIRQ, true, kIRQInterval, 0, 0); } void DSi_CamModule::TransferScanline(u32 line) @@ -144,7 +144,7 @@ void DSi_CamModule::TransferScanline(u32 line) if (line < ystart || line > yend) { if (!CurCamera->TransferDone()) - NDS::ScheduleEvent(NDS::Event_DSi_CamTransfer, false, delay, 0, line+1); + DSi.ScheduleEvent(Event_DSi_CamTransfer, false, delay, 0, line+1); return; } @@ -212,7 +212,7 @@ void DSi_CamModule::TransferScanline(u32 line) BufferReadPos = 0; // checkme BufferWritePos = 0; BufferNumLines = 0; - DSi::CheckNDMAs(0, 0x0B); + DSi.CheckNDMAs(0, 0x0B); } else { @@ -224,7 +224,7 @@ void DSi_CamModule::TransferScanline(u32 line) if (CurCamera->TransferDone()) return; - NDS::ScheduleEvent(NDS::Event_DSi_CamTransfer, false, delay, 0, line+1); + DSi.ScheduleEvent(Event_DSi_CamTransfer, false, delay, 0, line+1); } @@ -379,7 +379,7 @@ void DSi_CamModule::Write32(u32 addr, u32 val) -DSi_Camera::DSi_Camera(DSi_I2CHost* host, u32 num) : DSi_I2CDevice(host), Num(num) +DSi_Camera::DSi_Camera(melonDS::DSi& dsi, DSi_I2CHost* host, u32 num) : DSi_I2CDevice(dsi, host), Num(num) { } diff --git a/src/DSi_Camera.h b/src/DSi_Camera.h index 8a62e47d..ec409223 100644 --- a/src/DSi_Camera.h +++ b/src/DSi_Camera.h @@ -25,17 +25,18 @@ namespace melonDS { +class DSi; class DSi_CamModule; class DSi_Camera : public DSi_I2CDevice { public: - DSi_Camera(DSi_I2CHost* host, u32 num); + DSi_Camera(melonDS::DSi& dsi, DSi_I2CHost* host, u32 num); ~DSi_Camera(); - void DoSavestate(Savestate* file); + void DoSavestate(Savestate* file) override; - void Reset(); + void Reset() override; void Stop(); bool IsActivated(); @@ -45,9 +46,9 @@ public: // lengths in words int TransferScanline(u32* buffer, int maxlen); - void Acquire(); - u8 Read(bool last); - void Write(u8 val, bool last); + void Acquire() override; + u8 Read(bool last) override; + void Write(u8 val, bool last) override; void InputFrame(u32* data, int width, int height, bool rgb); @@ -84,7 +85,7 @@ private: class DSi_CamModule { public: - DSi_CamModule(); + DSi_CamModule(melonDS::DSi& dsi); ~DSi_CamModule(); void Reset(); void Stop(); @@ -105,6 +106,7 @@ public: void Write32(u32 addr, u32 val); private: + melonDS::DSi& DSi; DSi_Camera* Camera0; // 78 / facing outside DSi_Camera* Camera1; // 7A / selfie cam diff --git a/src/DSi_DSP.cpp b/src/DSi_DSP.cpp index 61d2b162..088943a9 100644 --- a/src/DSi_DSP.cpp +++ b/src/DSi_DSP.cpp @@ -55,33 +55,33 @@ u16 DSi_DSP::GetPSTS() void DSi_DSP::IrqRep0() { - if (DSP_PCFG & (1<< 9)) NDS::SetIRQ(0, NDS::IRQ_DSi_DSP); + if (DSP_PCFG & (1<< 9)) DSi.SetIRQ(0, IRQ_DSi_DSP); } void DSi_DSP::IrqRep1() { - if (DSP_PCFG & (1<<10)) NDS::SetIRQ(0, NDS::IRQ_DSi_DSP); + if (DSP_PCFG & (1<<10)) DSi.SetIRQ(0, IRQ_DSi_DSP); } void DSi_DSP::IrqRep2() { - if (DSP_PCFG & (1<<11)) NDS::SetIRQ(0, NDS::IRQ_DSi_DSP); + if (DSP_PCFG & (1<<11)) DSi.SetIRQ(0, IRQ_DSi_DSP); } void DSi_DSP::IrqSem() { DSP_PSTS |= 1<<9; // apparently these are always fired? - NDS::SetIRQ(0, NDS::IRQ_DSi_DSP); + DSi.SetIRQ(0, IRQ_DSi_DSP); } u16 DSi_DSP::DSPRead16(u32 addr) { if (!(addr & 0x40000)) { - u8* ptr = DSi::NWRAMMap_B[2][(addr >> 15) & 0x7]; + u8* ptr = DSi.NWRAMMap_B[2][(addr >> 15) & 0x7]; return ptr ? *(u16*)&ptr[addr & 0x7FFF] : 0; } else { - u8* ptr = DSi::NWRAMMap_C[2][(addr >> 15) & 0x7]; + u8* ptr = DSi.NWRAMMap_C[2][(addr >> 15) & 0x7]; return ptr ? *(u16*)&ptr[addr & 0x7FFF] : 0; } } @@ -92,12 +92,12 @@ void DSi_DSP::DSPWrite16(u32 addr, u16 val) if (!(addr & 0x40000)) { - u8* ptr = DSi::NWRAMMap_B[2][(addr >> 15) & 0x7]; + u8* ptr = DSi.NWRAMMap_B[2][(addr >> 15) & 0x7]; if (ptr) *(u16*)&ptr[addr & 0x7FFF] = val; } else { - u8* ptr = DSi::NWRAMMap_C[2][(addr >> 15) & 0x7]; + u8* ptr = DSi.NWRAMMap_C[2][(addr >> 15) & 0x7]; if (ptr) *(u16*)&ptr[addr & 0x7FFF] = val; } } @@ -107,9 +107,9 @@ void DSi_DSP::AudioCb(std::array frame) // TODO } -DSi_DSP::DSi_DSP() +DSi_DSP::DSi_DSP(melonDS::DSi& dsi) : DSi(dsi) { - NDS::RegisterEventFunc(NDS::Event_DSi_DSP, 0, MemberEventFunc(DSi_DSP, DSPCatchUpU32)); + DSi.RegisterEventFunc(Event_DSi_DSP, 0, MemberEventFunc(DSi_DSP, DSPCatchUpU32)); TeakraCore = new Teakra::Teakra(); SCFG_RST = false; @@ -133,12 +133,12 @@ DSi_DSP::DSi_DSP() // these happen instantaneously and without too much regard for bus aribtration // rules, so, this might have to be changed later on Teakra::AHBMCallback cb; - cb.read8 = DSi::ARM9Read8; - cb.write8 = DSi::ARM9Write8; - cb.read16 = DSi::ARM9Read16; - cb.write16 = DSi::ARM9Write16; - cb.read32 = DSi::ARM9Read32; - cb.write32 = DSi::ARM9Write32; + cb.read8 = [this](auto addr) { return DSi.ARM9Read8(addr); }; + cb.write8 = [this](auto addr, auto val) { DSi.ARM9Write8(addr, val); }; + cb.read16 = [this](auto addr) { return DSi.ARM9Read16(addr); }; + cb.write16 = [this](auto addr, auto val) { DSi.ARM9Write16(addr, val); }; + cb.read32 = [this](auto addr) { return DSi.ARM9Read32(addr); }; + cb.write32 = [this](auto addr, auto val) { DSi.ARM9Write32(addr, val); }; TeakraCore->SetAHBMCallback(cb); TeakraCore->SetAudioCallback(std::bind(&DSi_DSP::AudioCb, this, _1)); @@ -156,7 +156,7 @@ DSi_DSP::~DSi_DSP() //PDATAWriteFifo = NULL; TeakraCore = NULL; - NDS::UnregisterEventFunc(NDS::Event_DSi_DSP, 0); + DSi.UnregisterEventFunc(Event_DSi_DSP, 0); } void DSi_DSP::Reset() @@ -177,7 +177,7 @@ void DSi_DSP::Reset() //PDATAWriteFifo->Clear(); TeakraCore->Reset(); - NDS::CancelEvent(NDS::Event_DSi_DSP); + DSi.CancelEvent(Event_DSi_DSP); SNDExCnt = 0; } @@ -190,17 +190,17 @@ void DSi_DSP::SetRstLine(bool release) { SCFG_RST = release; Reset(); - DSPTimestamp = NDS::ARM9Timestamp; // only start now! + DSPTimestamp = DSi.ARM9Timestamp; // only start now! } inline bool DSi_DSP::IsDSPCoreEnabled() { - return (DSi::SCFG_Clock9 & (1<<1)) && SCFG_RST && (!(DSP_PCFG & (1<<0))); + return (DSi.SCFG_Clock9 & (1<<1)) && SCFG_RST && (!(DSP_PCFG & (1<<0))); } inline bool DSi_DSP::IsDSPIOEnabled() { - return (DSi::SCFG_Clock9 & (1<<1)) && SCFG_RST; + return (DSi.SCFG_Clock9 & (1<<1)) && SCFG_RST; } bool DSi_DSP::DSPCatchUp() @@ -210,13 +210,13 @@ bool DSi_DSP::DSPCatchUp() { // nothing to do, but advance the current time so that we don't do an // unreasonable amount of cycles when rst is released - if (DSPTimestamp < NDS::ARM9Timestamp) - DSPTimestamp = NDS::ARM9Timestamp; + if (DSPTimestamp < DSi.ARM9Timestamp) + DSPTimestamp = DSi.ARM9Timestamp; return false; } - u64 curtime = NDS::ARM9Timestamp; + u64 curtime = DSi.ARM9Timestamp; if (DSPTimestamp >= curtime) return true; // ummmm?! @@ -257,7 +257,7 @@ void DSi_DSP::PDataDMAWrite(u16 wrval) { switch (TeakraCore->AHBMGetUnitSize(0)) { - case 0: /* 8bit */ DSi::ARM9Write8 (addr, (u8)wrval); break; + case 0: /* 8bit */ DSi.ARM9Write8 (addr, (u8)wrval); break; case 1: /* 16 b */ TeakraCore->AHBMWrite16(addr, wrval); break; // does it work like this, or should it first buffer two u16's // until it has enough data to write to the actual destination? @@ -272,7 +272,7 @@ void DSi_DSP::PDataDMAWrite(u16 wrval) if (DSP_PCFG & (1<<1)) // auto-increment ++DSP_PADR; // overflows and stays within a 64k 'page' // TODO: is this +1 or +2? - NDS::SetIRQ(0, NDS::IRQ_DSi_DSP); // wrfifo empty + DSi.SetIRQ(0, IRQ_DSi_DSP); // wrfifo empty } // TODO: FIFO interrupts! (rd full, nonempty) u16 DSi_DSP::PDataDMARead() @@ -299,7 +299,7 @@ u16 DSi_DSP::PDataDMARead() { switch (TeakraCore->AHBMGetUnitSize(0)) { - case 0: /* 8bit */ r = DSi::ARM9Read8 (addr); break; + case 0: /* 8bit */ r = DSi.ARM9Read8 (addr); break; case 1: /* 16 b */ r = TeakraCore->AHBMRead16(addr); break; case 2: /* 32 b */ r = (u16)TeakraCore->AHBMRead32(addr); break; } @@ -337,7 +337,7 @@ void DSi_DSP::PDataDMAStart() for (int i = 0; i < amt; ++i) PDataDMAFetch(); - NDS::SetIRQ(0, NDS::IRQ_DSi_DSP); + DSi.SetIRQ(0, IRQ_DSi_DSP); } void DSi_DSP::PDataDMACancel() @@ -372,7 +372,7 @@ u16 DSi_DSP::PDataDMAReadMMIO() } if (!PDATAReadFifo.IsEmpty() || PDATAReadFifo.IsFull()) - NDS::SetIRQ(0, NDS::IRQ_DSi_DSP); + DSi.SetIRQ(0, IRQ_DSi_DSP); return ret; } @@ -477,7 +477,7 @@ void DSi_DSP::Write8(u32 addr, u8 val) } void DSi_DSP::Write16(u32 addr, u16 val) { - Log(LogLevel::Debug,"DSP WRITE16 %d %08X %08X %08X\n", IsDSPCoreEnabled(), addr, val, NDS::GetPC(0)); + Log(LogLevel::Debug,"DSP WRITE16 %d %08X %08X %08X\n", IsDSPCoreEnabled(), addr, val, DSi.GetPC(0)); //if (!IsDSPIOEnabled()) return; DSPCatchUp(); @@ -565,8 +565,8 @@ void DSi_DSP::Run(u32 cycles) DSPTimestamp += cycles; - NDS::CancelEvent(NDS::Event_DSi_DSP); - NDS::ScheduleEvent(NDS::Event_DSi_DSP, false, + DSi.CancelEvent(Event_DSi_DSP); + DSi.ScheduleEvent(Event_DSi_DSP, false, 16384/*from citra (TeakraSlice)*/, 0, 0); } diff --git a/src/DSi_DSP.h b/src/DSi_DSP.h index 18ad3d1d..a18dabf1 100644 --- a/src/DSi_DSP.h +++ b/src/DSi_DSP.h @@ -29,10 +29,11 @@ namespace Teakra { class Teakra; } namespace melonDS { +class DSi; class DSi_DSP { public: - DSi_DSP(); + DSi_DSP(melonDS::DSi& dsi); ~DSi_DSP(); void Reset(); void DoSavestate(Savestate* file); @@ -68,6 +69,7 @@ public: void AudioCb(std::array frame); private: + melonDS::DSi& DSi; // not sure whether to not rather put it somewhere else u16 SNDExCnt; diff --git a/src/DSi_I2C.cpp b/src/DSi_I2C.cpp index 678c8be6..d5ea60c6 100644 --- a/src/DSi_I2C.cpp +++ b/src/DSi_I2C.cpp @@ -57,7 +57,7 @@ const u8 DSi_BPTWL::VolumeUpTable[32] = }; -DSi_BPTWL::DSi_BPTWL(DSi_I2CHost* host) : DSi_I2CDevice(host) +DSi_BPTWL::DSi_BPTWL(melonDS::DSi& dsi, DSi_I2CHost* host) : DSi_I2CDevice(dsi, host) { } @@ -177,19 +177,19 @@ void DSi_BPTWL::DoHardwareReset(bool direct) if (direct) { // TODO: This doesn't seem to stop the SPU - DSi::SoftReset(); + DSi.SoftReset(); return; } // TODO: soft-reset might need to be scheduled later! // TODO: this has been moved for the JIT to work, nothing is confirmed here - NDS::ARM7->Halt(4); + DSi.ARM7.Halt(4); } void DSi_BPTWL::DoShutdown() { ResetButtonState(); - NDS::Stop(Platform::StopReason::PowerOff); + DSi.Stop(Platform::StopReason::PowerOff); } @@ -369,7 +369,7 @@ void DSi_BPTWL::SetIRQ(u8 irqFlag) if (GetIRQMode()) { - NDS::SetIRQ2(NDS::IRQ2_DSi_BPTWL); + DSi.SetIRQ2(IRQ2_DSi_BPTWL); } } @@ -451,11 +451,11 @@ void DSi_BPTWL::Write(u8 val, bool last) } -DSi_I2CHost::DSi_I2CHost() +DSi_I2CHost::DSi_I2CHost(melonDS::DSi& dsi) : DSi(dsi) { - BPTWL = new DSi_BPTWL(this); - Camera0 = new DSi_Camera(this, 0); - Camera1 = new DSi_Camera(this, 1); + BPTWL = new DSi_BPTWL(dsi, this); + Camera0 = new DSi_Camera(dsi, this, 0); + Camera1 = new DSi_Camera(dsi, this, 1); } DSi_I2CHost::~DSi_I2CHost() diff --git a/src/DSi_I2C.h b/src/DSi_I2C.h index 83d7e028..51fe78e6 100644 --- a/src/DSi_I2C.h +++ b/src/DSi_I2C.h @@ -26,11 +26,11 @@ namespace melonDS { class DSi_I2CHost; class DSi_Camera; - +class DSi; class DSi_I2CDevice { public: - DSi_I2CDevice(DSi_I2CHost* host) : Host(host) {} + DSi_I2CDevice(melonDS::DSi& dsi, DSi_I2CHost* host) : DSi(dsi), Host(host) {} virtual ~DSi_I2CDevice() {} virtual void Reset() = 0; virtual void DoSavestate(Savestate* file) = 0; @@ -40,6 +40,7 @@ public: virtual void Write(u8 val, bool last) = 0; protected: + melonDS::DSi& DSi; DSi_I2CHost* Host; }; @@ -80,7 +81,7 @@ public: IRQ_ValidMask = 0x7B, }; - DSi_BPTWL(DSi_I2CHost* host); + DSi_BPTWL(melonDS::DSi& dsi, DSi_I2CHost* host); ~DSi_BPTWL() override; void Reset() override; void DoSavestate(Savestate* file) override; @@ -153,7 +154,7 @@ private: class DSi_I2CHost { public: - DSi_I2CHost(); + DSi_I2CHost(melonDS::DSi& dsi); ~DSi_I2CHost(); void Reset(); void DoSavestate(Savestate* file); @@ -169,6 +170,7 @@ public: void WriteData(u8 val); private: + melonDS::DSi& DSi; u8 Cnt; u8 Data; diff --git a/src/DSi_NDMA.cpp b/src/DSi_NDMA.cpp index 4f248eae..fe1f0ba7 100644 --- a/src/DSi_NDMA.cpp +++ b/src/DSi_NDMA.cpp @@ -28,7 +28,7 @@ namespace melonDS using Platform::Log; using Platform::LogLevel; -DSi_NDMA::DSi_NDMA(u32 cpu, u32 num, melonDS::GPU& gpu) : GPU(gpu) +DSi_NDMA::DSi_NDMA(u32 cpu, u32 num, melonDS::DSi& dsi) : DSi(dsi), CPU(cpu), Num(num) { CPU = cpu; Num = num; @@ -127,7 +127,7 @@ void DSi_NDMA::WriteCnt(u32 val) if ((StartMode & 0x1F) == 0x10) Start(); else if (StartMode == 0x0A) - GPU.GPU3D.CheckFIFODMA(); + DSi.GPU.GPU3D.CheckFIFODMA(); // TODO: unsupported start modes: // * timers (00-03) @@ -181,13 +181,13 @@ void DSi_NDMA::Start() //if (SubblockTimer & 0xFFFF) // printf("TODO! NDMA SUBBLOCK TIMER: %08X\n", SubblockTimer); - if (NDS::DMAsRunning(CPU)) + if (DSi.DMAsRunning(CPU)) Running = 1; else Running = 2; InProgress = true; - NDS::StopCPU(CPU, 1<<(Num+4)); + DSi.StopCPU(CPU, 1<<(Num+4)); } void DSi_NDMA::Run() @@ -199,7 +199,7 @@ void DSi_NDMA::Run() void DSi_NDMA::Run9() { - if (NDS::ARM9Timestamp >= NDS::ARM9Target) return; + if (DSi.ARM9Timestamp >= DSi.ARM9Target) return; Executing = true; @@ -214,11 +214,11 @@ void DSi_NDMA::Run9() if ((CurSrcAddr >> 24) == 0x02 && (CurDstAddr >> 24) == 0x02) { - unitcycles = NDS::ARM9MemTimings[CurSrcAddr >> 14][2] + NDS::ARM9MemTimings[CurDstAddr >> 14][2]; + unitcycles = DSi.ARM9MemTimings[CurSrcAddr >> 14][2] + DSi.ARM9MemTimings[CurDstAddr >> 14][2]; } else { - unitcycles = NDS::ARM9MemTimings[CurSrcAddr >> 14][3] + NDS::ARM9MemTimings[CurDstAddr >> 14][3]; + unitcycles = DSi.ARM9MemTimings[CurSrcAddr >> 14][3] + DSi.ARM9MemTimings[CurDstAddr >> 14][3]; if ((CurSrcAddr >> 24) == (CurDstAddr >> 24)) unitcycles++; else if ((CurSrcAddr >> 24) == 0x02) @@ -234,12 +234,12 @@ void DSi_NDMA::Run9() while (IterCount > 0 && !Stall) { - NDS::ARM9Timestamp += (unitcycles << NDS::ARM9ClockShift); + DSi.ARM9Timestamp += (unitcycles << DSi.ARM9ClockShift); if (dofill) - DSi::ARM9Write32(CurDstAddr, FillData); + DSi.ARM9Write32(CurDstAddr, FillData); else - DSi::ARM9Write32(CurDstAddr, DSi::ARM9Read32(CurSrcAddr)); + DSi.ARM9Write32(CurDstAddr, DSi.ARM9Read32(CurSrcAddr)); CurSrcAddr += SrcAddrInc<<2; CurDstAddr += DstAddrInc<<2; @@ -247,7 +247,7 @@ void DSi_NDMA::Run9() RemCount--; TotalRemCount--; - if (NDS::ARM9Timestamp >= NDS::ARM9Target) break; + if (DSi.ARM9Timestamp >= DSi.ARM9Target) break; } Executing = false; @@ -258,10 +258,10 @@ void DSi_NDMA::Run9() if (IterCount == 0) { Running = 0; - NDS::ResumeCPU(0, 1<<(Num+4)); + DSi.ResumeCPU(0, 1<<(Num+4)); if (StartMode == 0x0A) - GPU.GPU3D.CheckFIFODMA(); + DSi.GPU.GPU3D.CheckFIFODMA(); } return; @@ -270,25 +270,25 @@ void DSi_NDMA::Run9() if ((StartMode & 0x1F) == 0x10) // CHECKME { Cnt &= ~(1<<31); - if (Cnt & (1<<30)) NDS::SetIRQ(0, NDS::IRQ_DSi_NDMA0 + Num); + if (Cnt & (1<<30)) DSi.SetIRQ(0, IRQ_DSi_NDMA0 + Num); } else if (!(Cnt & (1<<29))) { if (TotalRemCount == 0) { Cnt &= ~(1<<31); - if (Cnt & (1<<30)) NDS::SetIRQ(0, NDS::IRQ_DSi_NDMA0 + Num); + if (Cnt & (1<<30)) DSi.SetIRQ(0, IRQ_DSi_NDMA0 + Num); } } Running = 0; InProgress = false; - NDS::ResumeCPU(0, 1<<(Num+4)); + DSi.ResumeCPU(0, 1<<(Num+4)); } void DSi_NDMA::Run7() { - if (NDS::ARM7Timestamp >= NDS::ARM7Target) return; + if (DSi.ARM7Timestamp >= DSi.ARM7Target) return; Executing = true; @@ -303,11 +303,11 @@ void DSi_NDMA::Run7() if ((CurSrcAddr >> 24) == 0x02 && (CurDstAddr >> 24) == 0x02) { - unitcycles = NDS::ARM7MemTimings[CurSrcAddr >> 15][2] + NDS::ARM7MemTimings[CurDstAddr >> 15][2]; + unitcycles = DSi.ARM7MemTimings[CurSrcAddr >> 15][2] + DSi.ARM7MemTimings[CurDstAddr >> 15][2]; } else { - unitcycles = NDS::ARM7MemTimings[CurSrcAddr >> 15][3] + NDS::ARM7MemTimings[CurDstAddr >> 15][3]; + unitcycles = DSi.ARM7MemTimings[CurSrcAddr >> 15][3] + DSi.ARM7MemTimings[CurDstAddr >> 15][3]; if ((CurSrcAddr >> 23) == (CurDstAddr >> 23)) unitcycles++; else if ((CurSrcAddr >> 24) == 0x02) @@ -323,12 +323,12 @@ void DSi_NDMA::Run7() while (IterCount > 0 && !Stall) { - NDS::ARM7Timestamp += unitcycles; + DSi.ARM7Timestamp += unitcycles; if (dofill) - DSi::ARM7Write32(CurDstAddr, FillData); + DSi.ARM7Write32(CurDstAddr, FillData); else - DSi::ARM7Write32(CurDstAddr, DSi::ARM7Read32(CurSrcAddr)); + DSi.ARM7Write32(CurDstAddr, DSi.ARM7Read32(CurSrcAddr)); CurSrcAddr += SrcAddrInc<<2; CurDstAddr += DstAddrInc<<2; @@ -336,7 +336,7 @@ void DSi_NDMA::Run7() RemCount--; TotalRemCount--; - if (NDS::ARM7Timestamp >= NDS::ARM7Target) break; + if (DSi.ARM7Timestamp >= DSi.ARM7Target) break; } Executing = false; @@ -347,10 +347,10 @@ void DSi_NDMA::Run7() if (IterCount == 0) { Running = 0; - NDS::ResumeCPU(1, 1<<(Num+4)); + DSi.ResumeCPU(1, 1<<(Num+4)); - DSi::AES->CheckInputDMA(); - DSi::AES->CheckOutputDMA(); + DSi.AES.CheckInputDMA(); + DSi.AES.CheckOutputDMA(); } return; @@ -359,23 +359,23 @@ void DSi_NDMA::Run7() if ((StartMode & 0x1F) == 0x10) // CHECKME { Cnt &= ~(1<<31); - if (Cnt & (1<<30)) NDS::SetIRQ(1, NDS::IRQ_DSi_NDMA0 + Num); + if (Cnt & (1<<30)) DSi.SetIRQ(1, IRQ_DSi_NDMA0 + Num); } else if (!(Cnt & (1<<29))) { if (TotalRemCount == 0) { Cnt &= ~(1<<31); - if (Cnt & (1<<30)) NDS::SetIRQ(1, NDS::IRQ_DSi_NDMA0 + Num); + if (Cnt & (1<<30)) DSi.SetIRQ(1, IRQ_DSi_NDMA0 + Num); } } Running = 0; InProgress = false; - NDS::ResumeCPU(1, 1<<(Num+4)); + DSi.ResumeCPU(1, 1<<(Num+4)); - DSi::AES->CheckInputDMA(); - DSi::AES->CheckOutputDMA(); + DSi.AES.CheckInputDMA(); + DSi.AES.CheckOutputDMA(); } } \ No newline at end of file diff --git a/src/DSi_NDMA.h b/src/DSi_NDMA.h index 4479341b..7e87da7b 100644 --- a/src/DSi_NDMA.h +++ b/src/DSi_NDMA.h @@ -24,12 +24,12 @@ namespace melonDS { -class GPU; +class DSi; class DSi_NDMA { public: - DSi_NDMA(u32 cpu, u32 num, GPU& gpu); + DSi_NDMA(u32 cpu, u32 num, melonDS::DSi& dsi); ~DSi_NDMA(); void Reset(); @@ -77,7 +77,7 @@ public: u32 Cnt; private: - melonDS::GPU& GPU; + melonDS::DSi& DSi; u32 CPU, Num; u32 StartMode; diff --git a/src/DSi_NWifi.cpp b/src/DSi_NWifi.cpp index 66320ba2..9e006e2c 100644 --- a/src/DSi_NWifi.cpp +++ b/src/DSi_NWifi.cpp @@ -119,21 +119,22 @@ const u8 CIS1[256] = }; -DSi_NWifi::DSi_NWifi(DSi_SDHost* host) - : DSi_SDDevice(host), - Mailbox - { - // HACK - // the mailboxes are supposed to be 0x80 bytes - // however, as we do things instantly, emulating this is meaningless - // and only adds complication - DynamicFIFO(0x600), DynamicFIFO(0x600), DynamicFIFO(0x600), DynamicFIFO(0x600), - DynamicFIFO(0x600), DynamicFIFO(0x600), DynamicFIFO(0x600), DynamicFIFO(0x600), - // mailbox 8: extra mailbox acting as a bigger RX buffer - DynamicFIFO(0x8000) - } +DSi_NWifi::DSi_NWifi(melonDS::DSi& dsi, DSi_SDHost* host) : + DSi_SDDevice(host), + Mailbox + { + // HACK + // the mailboxes are supposed to be 0x80 bytes + // however, as we do things instantly, emulating this is meaningless + // and only adds complication + DynamicFIFO(0x600), DynamicFIFO(0x600), DynamicFIFO(0x600), DynamicFIFO(0x600), + DynamicFIFO(0x600), DynamicFIFO(0x600), DynamicFIFO(0x600), DynamicFIFO(0x600), + // mailbox 8: extra mailbox acting as a bigger RX buffer + DynamicFIFO(0x8000) + }, + DSi(dsi) { - NDS::RegisterEventFunc(NDS::Event_DSi_NWifi, 0, MemberEventFunc(DSi_NWifi, MSTimer)); + DSi.RegisterEventFunc(Event_DSi_NWifi, 0, MemberEventFunc(DSi_NWifi, MSTimer)); // this seems to control whether the firmware upload is done EEPROMReady = 0; @@ -141,9 +142,9 @@ DSi_NWifi::DSi_NWifi(DSi_SDHost* host) DSi_NWifi::~DSi_NWifi() { - NDS::CancelEvent(NDS::Event_DSi_NWifi); + DSi.CancelEvent(Event_DSi_NWifi); - NDS::UnregisterEventFunc(NDS::Event_DSi_NWifi, 0); + DSi.UnregisterEventFunc(Event_DSi_NWifi, 0); } void DSi_NWifi::Reset() @@ -164,7 +165,7 @@ void DSi_NWifi::Reset() for (int i = 0; i < 9; i++) Mailbox[i].Clear(); - const Firmware* fw = NDS::SPI->GetFirmware(); + const Firmware* fw = DSi.SPI.GetFirmware(); MacAddress mac = fw->GetHeader().MacAddr; Log(LogLevel::Info, "NWifi MAC: %02X:%02X:%02X:%02X:%02X:%02X\n", @@ -226,7 +227,7 @@ void DSi_NWifi::Reset() BeaconTimer = 0x10A2220ULL; ConnectionStatus = 0; - NDS::CancelEvent(NDS::Event_DSi_NWifi); + DSi.CancelEvent(Event_DSi_NWifi); } void DSi_NWifi::DoSavestate(Savestate* file) @@ -909,7 +910,7 @@ void DSi_NWifi::HTC_Command() SendWMIEvent(1, 0x1006, regdomain_evt, 4); BootPhase = 2; - NDS::ScheduleEvent(NDS::Event_DSi_NWifi, false, 33611, 0, 0); + DSi.ScheduleEvent(Event_DSi_NWifi, false, 33611, 0, 0); } break; @@ -1608,7 +1609,7 @@ void DSi_NWifi::MSTimer(u32 param) CheckRX(); } - NDS::ScheduleEvent(NDS::Event_DSi_NWifi, true, 33611, 0, 0); + DSi.ScheduleEvent(Event_DSi_NWifi, true, 33611, 0, 0); } } \ No newline at end of file diff --git a/src/DSi_NWifi.h b/src/DSi_NWifi.h index f3e5e150..39e9459c 100644 --- a/src/DSi_NWifi.h +++ b/src/DSi_NWifi.h @@ -28,7 +28,7 @@ namespace melonDS class DSi_NWifi : public DSi_SDDevice { public: - DSi_NWifi(DSi_SDHost* host); + DSi_NWifi(melonDS::DSi& dsi, DSi_SDHost* host); ~DSi_NWifi(); void Reset(); @@ -45,6 +45,7 @@ public: void MSTimer(u32 param); private: + melonDS::DSi& DSi; u32 TransferCmd; u32 TransferAddr; u32 RemSize; diff --git a/src/DSi_SD.cpp b/src/DSi_SD.cpp index 54f03cea..4cbf595d 100644 --- a/src/DSi_SD.cpp +++ b/src/DSi_SD.cpp @@ -57,13 +57,13 @@ enum }; -DSi_SDHost::DSi_SDHost(u32 num) +DSi_SDHost::DSi_SDHost(melonDS::DSi& dsi, u32 num) : DSi(dsi) { Num = num; - NDS::RegisterEventFunc(Num ? NDS::Event_DSi_SDIOTransfer : NDS::Event_DSi_SDMMCTransfer, + DSi.RegisterEventFunc(Num ? Event_DSi_SDIOTransfer : Event_DSi_SDMMCTransfer, Transfer_TX, MemberEventFunc(DSi_SDHost, FinishTX)); - NDS::RegisterEventFunc(Num ? NDS::Event_DSi_SDIOTransfer : NDS::Event_DSi_SDMMCTransfer, + DSi.RegisterEventFunc(Num ? Event_DSi_SDIOTransfer : Event_DSi_SDMMCTransfer, Transfer_RX, MemberEventFunc(DSi_SDHost, FinishRX)); Ports[0] = nullptr; @@ -75,9 +75,9 @@ DSi_SDHost::~DSi_SDHost() if (Ports[0]) delete Ports[0]; if (Ports[1]) delete Ports[1]; - NDS::UnregisterEventFunc(Num ? NDS::Event_DSi_SDIOTransfer : NDS::Event_DSi_SDMMCTransfer, + DSi.UnregisterEventFunc(Num ? Event_DSi_SDIOTransfer : Event_DSi_SDMMCTransfer, Transfer_TX); - NDS::UnregisterEventFunc(Num ? NDS::Event_DSi_SDIOTransfer : NDS::Event_DSi_SDMMCTransfer, + DSi.UnregisterEventFunc(Num ? Event_DSi_SDIOTransfer : Event_DSi_SDMMCTransfer, Transfer_RX); } @@ -156,15 +156,15 @@ void DSi_SDHost::Reset() else sd = nullptr; - mmc = new DSi_MMCStorage(this, *DSi::NANDImage); - mmc->SetCID(DSi::NANDImage->GetEMMCID().data()); + mmc = new DSi_MMCStorage(this, *DSi.NANDImage); + mmc->SetCID(DSi.NANDImage->GetEMMCID().data()); Ports[0] = sd; Ports[1] = mmc; } else { - DSi_NWifi* nwifi = new DSi_NWifi(this); + DSi_NWifi* nwifi = new DSi_NWifi(DSi, this); Ports[0] = nwifi; } @@ -228,7 +228,7 @@ void DSi_SDHost::UpdateData32IRQ() newflags &= (Data32IRQ >> 11); if ((oldflags == 0) && (newflags != 0)) - NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO : NDS::IRQ2_DSi_SDMMC); + DSi.SetIRQ2(Num ? IRQ2_DSi_SDIO : IRQ2_DSi_SDMMC); } void DSi_SDHost::ClearIRQ(u32 irq) @@ -244,7 +244,7 @@ void DSi_SDHost::SetIRQ(u32 irq) u32 newflags = IRQStatus & ~IRQMask; if ((oldflags == 0) && (newflags != 0)) - NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO : NDS::IRQ2_DSi_SDMMC); + DSi.SetIRQ2(Num ? IRQ2_DSi_SDIO : IRQ2_DSi_SDMMC); } void DSi_SDHost::UpdateIRQ(u32 oldmask) @@ -253,7 +253,7 @@ void DSi_SDHost::UpdateIRQ(u32 oldmask) u32 newflags = IRQStatus & ~IRQMask; if ((oldflags == 0) && (newflags != 0)) - NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO : NDS::IRQ2_DSi_SDMMC); + DSi.SetIRQ2(Num ? IRQ2_DSi_SDIO : IRQ2_DSi_SDMMC); } void DSi_SDHost::SetCardIRQ() @@ -270,8 +270,8 @@ void DSi_SDHost::SetCardIRQ() if ((oldflags == 0) && (newflags != 0)) // checkme { - NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO : NDS::IRQ2_DSi_SDMMC); - NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO_Data1 : NDS::IRQ2_DSi_SD_Data1); + DSi.SetIRQ2(Num ? IRQ2_DSi_SDIO : IRQ2_DSi_SDMMC); + DSi.SetIRQ2(Num ? IRQ2_DSi_SDIO_Data1 : IRQ2_DSi_SD_Data1); } } @@ -282,8 +282,8 @@ void DSi_SDHost::UpdateCardIRQ(u16 oldmask) if ((oldflags == 0) && (newflags != 0)) // checkme { - NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO : NDS::IRQ2_DSi_SDMMC); - NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO_Data1 : NDS::IRQ2_DSi_SD_Data1); + DSi.SetIRQ2(Num ? IRQ2_DSi_SDIO : IRQ2_DSi_SDMMC); + DSi.SetIRQ2(Num ? IRQ2_DSi_SDIO_Data1 : IRQ2_DSi_SD_Data1); } } @@ -324,7 +324,7 @@ u32 DSi_SDHost::DataRX(u8* data, u32 len) // we need a delay because DSi boot2 will send a command and then wait for IRQ0 // but if IRQ24 is thrown instantly, the handler clears IRQ0 before the // send-command function starts polling IRQ status - NDS::ScheduleEvent(Num ? NDS::Event_DSi_SDIOTransfer : NDS::Event_DSi_SDMMCTransfer, + DSi.ScheduleEvent(Num ? Event_DSi_SDIOTransfer : Event_DSi_SDMMCTransfer, false, 512, Transfer_RX, 0); return len; @@ -366,7 +366,7 @@ u32 DSi_SDHost::DataTX(u8* data, u32 len) if (DataFIFO32.IsEmpty()) { SetIRQ(25); - DSi::CheckNDMAs(1, Num ? 0x29 : 0x28); + DSi.CheckNDMAs(1, Num ? 0x29 : 0x28); } return 0; } @@ -405,7 +405,7 @@ u32 DSi_SDHost::DataTX(u8* data, u32 len) CurFIFO ^= 1; BlockCountInternal--; - NDS::ScheduleEvent(Num ? NDS::Event_DSi_SDIOTransfer : NDS::Event_DSi_SDMMCTransfer, + DSi.ScheduleEvent(Num ? Event_DSi_SDIOTransfer : Event_DSi_SDMMCTransfer, false, 512, Transfer_TX, 0); return len; @@ -536,7 +536,7 @@ u16 DSi_SDHost::Read(u32 addr) case 0x10A: return 0; } - Log(LogLevel::Warn, "unknown %s read %08X @ %08X\n", SD_DESC, addr, NDS::GetPC(1)); + Log(LogLevel::Warn, "unknown %s read %08X @ %08X\n", SD_DESC, addr, DSi.GetPC(1)); return 0; } @@ -761,7 +761,7 @@ void DSi_SDHost::UpdateFIFO32() if ((DataFIFO32.Level() << 2) >= BlockLen32) { - DSi::CheckNDMAs(1, Num ? 0x29 : 0x28); + DSi.CheckNDMAs(1, Num ? 0x29 : 0x28); } } diff --git a/src/DSi_SD.h b/src/DSi_SD.h index faa42964..17ba8d30 100644 --- a/src/DSi_SD.h +++ b/src/DSi_SD.h @@ -32,12 +32,13 @@ namespace DSi_NAND } class DSi_SDDevice; +class DSi; class DSi_SDHost { public: - DSi_SDHost(u32 num); + DSi_SDHost(melonDS::DSi& dsi, u32 num); ~DSi_SDHost(); void CloseHandles(); @@ -69,6 +70,7 @@ public: void CheckSwapFIFO(); private: + melonDS::DSi& DSi; u32 Num; u16 PortSelect; diff --git a/src/DSi_SPI_TSC.cpp b/src/DSi_SPI_TSC.cpp index 520e57ba..6c7a15c7 100644 --- a/src/DSi_SPI_TSC.cpp +++ b/src/DSi_SPI_TSC.cpp @@ -28,7 +28,7 @@ using Platform::Log; using Platform::LogLevel; -DSi_TSC::DSi_TSC(SPIHost* host) : TSC(host) +DSi_TSC::DSi_TSC(melonDS::DSi& dsi) : TSC(dsi) { } @@ -198,7 +198,7 @@ void DSi_TSC::Write(u8 val) { Log(LogLevel::Debug, "DSi_SPI_TSC: DS-compatibility mode\n"); DataPos = 0; - NDS::KeyInput |= (1 << (16+6)); + NDS.KeyInput |= (1 << (16+6)); return; } } diff --git a/src/DSi_SPI_TSC.h b/src/DSi_SPI_TSC.h index 8e9ff912..47777da5 100644 --- a/src/DSi_SPI_TSC.h +++ b/src/DSi_SPI_TSC.h @@ -25,10 +25,11 @@ namespace melonDS { +class DSi; class DSi_TSC : public TSC { public: - DSi_TSC(SPIHost* host); + DSi_TSC(melonDS::DSi& dsi); ~DSi_TSC() override; void Reset() override; diff --git a/src/GBACart.cpp b/src/GBACart.cpp index a0c5467e..f5e320f9 100644 --- a/src/GBACart.cpp +++ b/src/GBACart.cpp @@ -850,7 +850,7 @@ void GBACartSlot::LoadAddon(int type) noexcept { switch (type) { - case NDS::GBAAddon_RAMExpansion: + case GBAAddon_RAMExpansion: Cart = std::make_unique(); break; diff --git a/src/GPU.cpp b/src/GPU.cpp index 27dcbfbb..7a81f7dd 100644 --- a/src/GPU.cpp +++ b/src/GPU.cpp @@ -64,12 +64,12 @@ enum VRAMDirty need to be reset for the respective VRAM bank. */ -GPU::GPU(ARMJIT& jit) noexcept : GPU2D_A(0, *this), GPU2D_B(1, *this), JIT(jit) +GPU::GPU(melonDS::NDS& nds) noexcept : NDS(nds), GPU2D_A(0, *this), GPU2D_B(1, *this), GPU3D(nds) { - NDS::RegisterEventFunc(NDS::Event_LCD, LCD_StartHBlank, MemberEventFunc(GPU, StartHBlank)); - NDS::RegisterEventFunc(NDS::Event_LCD, LCD_StartScanline, MemberEventFunc(GPU, StartScanline)); - NDS::RegisterEventFunc(NDS::Event_LCD, LCD_FinishFrame, MemberEventFunc(GPU, FinishFrame)); - NDS::RegisterEventFunc(NDS::Event_DisplayFIFO, 0, MemberEventFunc(GPU, DisplayFIFO)); + NDS.RegisterEventFunc(Event_LCD, LCD_StartHBlank, MemberEventFunc(GPU, StartHBlank)); + NDS.RegisterEventFunc(Event_LCD, LCD_StartScanline, MemberEventFunc(GPU, StartScanline)); + NDS.RegisterEventFunc(Event_LCD, LCD_FinishFrame, MemberEventFunc(GPU, FinishFrame)); + NDS.RegisterEventFunc(Event_DisplayFIFO, 0, MemberEventFunc(GPU, DisplayFIFO)); GPU2D_Renderer = std::make_unique(*this); @@ -92,10 +92,10 @@ GPU::~GPU() noexcept Framebuffer[1][0] = nullptr; Framebuffer[1][1] = nullptr; - NDS::UnregisterEventFunc(NDS::Event_LCD, LCD_StartHBlank); - NDS::UnregisterEventFunc(NDS::Event_LCD, LCD_StartScanline); - NDS::UnregisterEventFunc(NDS::Event_LCD, LCD_FinishFrame); - NDS::UnregisterEventFunc(NDS::Event_DisplayFIFO, 0); + NDS.UnregisterEventFunc(Event_LCD, LCD_StartHBlank); + NDS.UnregisterEventFunc(Event_LCD, LCD_StartScanline); + NDS.UnregisterEventFunc(Event_LCD, LCD_FinishFrame); + NDS.UnregisterEventFunc(Event_DisplayFIFO, 0); } void GPU::ResetVRAMCache() noexcept @@ -298,7 +298,7 @@ void GPU::DoSavestate(Savestate* file) noexcept void GPU::AssignFramebuffers() noexcept { int backbuf = FrontBuffer ? 0 : 1; - if (NDS::PowerControl9 & (1<<15)) + if (NDS.PowerControl9 & (1<<15)) { GPU2D_Renderer->SetFramebuffer(Framebuffer[backbuf][0], Framebuffer[backbuf][1]); } @@ -588,7 +588,7 @@ void GPU::MapVRAM_CD(u32 bank, u8 cnt) noexcept VRAMMap_ARM7[ofs] |= bankmask; memset(VRAMDirty[bank].Data, 0xFF, sizeof(VRAMDirty[bank].Data)); VRAMSTAT |= (1 << (bank-2)); - JIT.CheckAndInvalidateWVRAM(ofs); + NDS.JIT.CheckAndInvalidateWVRAM(ofs); break; case 3: // texture @@ -942,8 +942,8 @@ void GPU::DisplayFIFO(u32 x) noexcept if (x < 256) { // transfer the next 8 pixels - NDS::CheckDMAs(0, 0x04); - NDS::ScheduleEvent(NDS::Event_DisplayFIFO, true, 6*8, 0, x+8); + NDS.CheckDMAs(0, 0x04); + NDS.ScheduleEvent(Event_DisplayFIFO, true, 6*8, 0, x+8); } else GPU2D_A.SampleFIFO(253, 3); // sample the remaining pixels @@ -954,7 +954,7 @@ void GPU::StartFrame() noexcept // only run the display FIFO if needed: // * if it is used for display or capture // * if we have display FIFO DMA - RunFIFO = GPU2D_A.UsesFIFO() || NDS::DMAsInMode(0, 0x04); + RunFIFO = GPU2D_A.UsesFIFO() || NDS.DMAsInMode(0, 0x04); TotalScanlines = 0; StartScanline(0); @@ -982,7 +982,7 @@ void GPU::StartHBlank(u32 line) noexcept GPU2D_Renderer->DrawSprites(line+1, &GPU2D_B); } - NDS::CheckDMAs(0, 0x02); + NDS.CheckDMAs(0, 0x02); } else if (VCount == 215) { @@ -994,13 +994,13 @@ void GPU::StartHBlank(u32 line) noexcept GPU2D_Renderer->DrawSprites(0, &GPU2D_B); } - if (DispStat[0] & (1<<4)) NDS::SetIRQ(0, NDS::IRQ_HBlank); - if (DispStat[1] & (1<<4)) NDS::SetIRQ(1, NDS::IRQ_HBlank); + if (DispStat[0] & (1<<4)) NDS.SetIRQ(0, IRQ_HBlank); + if (DispStat[1] & (1<<4)) NDS.SetIRQ(1, IRQ_HBlank); if (VCount < 262) - NDS::ScheduleEvent(NDS::Event_LCD, true, (LINE_CYCLES - HBLANK_CYCLES), LCD_StartScanline, line+1); + NDS.ScheduleEvent(Event_LCD, true, (LINE_CYCLES - HBLANK_CYCLES), LCD_StartScanline, line+1); else - NDS::ScheduleEvent(NDS::Event_LCD, true, (LINE_CYCLES - HBLANK_CYCLES), LCD_FinishFrame, line+1); + NDS.ScheduleEvent(Event_LCD, true, (LINE_CYCLES - HBLANK_CYCLES), LCD_FinishFrame, line+1); } void GPU::FinishFrame(u32 lines) noexcept @@ -1053,7 +1053,7 @@ void GPU::StartScanline(u32 line) noexcept { DispStat[0] |= (1<<2); - if (DispStat[0] & (1<<5)) NDS::SetIRQ(0, NDS::IRQ_VCount); + if (DispStat[0] & (1<<5)) NDS.SetIRQ(0, IRQ_VCount); } else DispStat[0] &= ~(1<<2); @@ -1062,7 +1062,7 @@ void GPU::StartScanline(u32 line) noexcept { DispStat[1] |= (1<<2); - if (DispStat[1] & (1<<5)) NDS::SetIRQ(1, NDS::IRQ_VCount); + if (DispStat[1] & (1<<5)) NDS.SetIRQ(1, IRQ_VCount); } else DispStat[1] &= ~(1<<2); @@ -1071,9 +1071,9 @@ void GPU::StartScanline(u32 line) noexcept GPU2D_B.CheckWindows(VCount); if (VCount >= 2 && VCount < 194) - NDS::CheckDMAs(0, 0x03); + NDS.CheckDMAs(0, 0x03); else if (VCount == 194) - NDS::StopDMAs(0, 0x03); + NDS.StopDMAs(0, 0x03); if (line < 192) { @@ -1085,7 +1085,7 @@ void GPU::StartScanline(u32 line) noexcept } if (RunFIFO) - NDS::ScheduleEvent(NDS::Event_DisplayFIFO, false, 32, 0, 0); + NDS.ScheduleEvent(Event_DisplayFIFO, false, 32, 0, 0); } if (VCount == 262) @@ -1111,13 +1111,13 @@ void GPU::StartScanline(u32 line) noexcept DispStat[0] |= (1<<0); DispStat[1] |= (1<<0); - NDS::StopDMAs(0, 0x04); + NDS.StopDMAs(0, 0x04); - NDS::CheckDMAs(0, 0x01); - NDS::CheckDMAs(1, 0x11); + NDS.CheckDMAs(0, 0x01); + NDS.CheckDMAs(1, 0x11); - if (DispStat[0] & (1<<3)) NDS::SetIRQ(0, NDS::IRQ_VBlank); - if (DispStat[1] & (1<<3)) NDS::SetIRQ(1, NDS::IRQ_VBlank); + if (DispStat[0] & (1<<3)) NDS.SetIRQ(0, IRQ_VBlank); + if (DispStat[1] & (1<<3)) NDS.SetIRQ(1, IRQ_VBlank); GPU2D_A.VBlank(); GPU2D_B.VBlank(); @@ -1131,7 +1131,7 @@ void GPU::StartScanline(u32 line) noexcept } } - NDS::ScheduleEvent(NDS::Event_LCD, true, HBLANK_CYCLES, LCD_StartHBlank, line); + NDS.ScheduleEvent(Event_LCD, true, HBLANK_CYCLES, LCD_StartHBlank, line); } diff --git a/src/GPU.h b/src/GPU.h index dbeec528..84210c9d 100644 --- a/src/GPU.h +++ b/src/GPU.h @@ -67,7 +67,7 @@ struct RenderSettings class GPU { public: - GPU(ARMJIT& jit) noexcept; + GPU(melonDS::NDS& nds) noexcept; ~GPU() noexcept; void Reset() noexcept; void Stop() noexcept; @@ -536,7 +536,7 @@ public: void SyncDirtyFlags() noexcept; - ARMJIT& JIT; + melonDS::NDS& NDS; u16 VCount = 0; u16 TotalScanlines = 0; u16 DispStat[2] {}; @@ -582,7 +582,7 @@ public: GPU2D::Unit GPU2D_A; GPU2D::Unit GPU2D_B; - melonDS::GPU3D GPU3D {}; + melonDS::GPU3D GPU3D; NonStupidBitField<128*1024/VRAMDirtyGranularity> VRAMDirty[9] {}; VRAMTrackingSet<512*1024, 16*1024> VRAMDirty_ABG {}; diff --git a/src/GPU3D.cpp b/src/GPU3D.cpp index b00e6fd2..5603a136 100644 --- a/src/GPU3D.cpp +++ b/src/GPU3D.cpp @@ -139,6 +139,10 @@ const u8 CmdNumParams[256] = void MatrixLoadIdentity(s32* m); +GPU3D::GPU3D(melonDS::NDS& nds) noexcept : NDS(nds) +{ +} + void GPU3D::ResetRenderingState() noexcept { RenderNumPolygons = 0; @@ -1596,7 +1600,7 @@ void GPU3D::CmdFIFOWrite(CmdFIFOEntry& entry) noexcept // has 64 entries. this is less complicated than trying to make STMxx stall-able. CmdStallQueue.Write(entry); - NDS::GXFIFOStall(); + NDS.GXFIFOStall(); return; } @@ -1640,7 +1644,7 @@ GPU3D::CmdFIFOEntry GPU3D::CmdFIFORead() noexcept } if (CmdStallQueue.IsEmpty()) - NDS::GXFIFOUnstall(); + NDS.GXFIFOUnstall(); } CheckFIFODMA(); @@ -2273,13 +2277,13 @@ void GPU3D::Run() noexcept if (!GeometryEnabled || FlushRequest || (CmdPIPE.IsEmpty() && !(GXStat & (1<<27)))) { - Timestamp = NDS::ARM9Timestamp >> NDS::ARM9ClockShift; + Timestamp = NDS.ARM9Timestamp >> NDS.ARM9ClockShift; return; } - s32 cycles = (NDS::ARM9Timestamp >> NDS::ARM9ClockShift) - Timestamp; + s32 cycles = (NDS.ARM9Timestamp >> NDS.ARM9ClockShift) - Timestamp; CycleCount -= cycles; - Timestamp = NDS::ARM9Timestamp >> NDS::ARM9ClockShift; + Timestamp = NDS.ARM9Timestamp >> NDS.ARM9ClockShift; if (CycleCount <= 0) { @@ -2312,14 +2316,14 @@ void GPU3D::CheckFIFOIRQ() noexcept case 2: irq = CmdFIFO.IsEmpty(); break; } - if (irq) NDS::SetIRQ(0, NDS::IRQ_GXFIFO); - else NDS::ClearIRQ(0, NDS::IRQ_GXFIFO); + if (irq) NDS.SetIRQ(0, IRQ_GXFIFO); + else NDS.ClearIRQ(0, IRQ_GXFIFO); } void GPU3D::CheckFIFODMA() noexcept { if (CmdFIFO.Level() < 128) - NDS::CheckDMAs(0, 0x07); + NDS.CheckDMAs(0, 0x07); } void GPU3D::VCount144() noexcept diff --git a/src/GPU3D.h b/src/GPU3D.h index f543ff86..1d3e1265 100644 --- a/src/GPU3D.h +++ b/src/GPU3D.h @@ -81,11 +81,12 @@ struct Polygon }; class Renderer3D; +class NDS; class GPU3D { public: - GPU3D() noexcept = default; + GPU3D(melonDS::NDS& nds) noexcept; ~GPU3D() noexcept = default; void Reset() noexcept; @@ -124,6 +125,7 @@ public: void Write16(u32 addr, u16 val) noexcept; void Write32(u32 addr, u32 val) noexcept; private: + melonDS::NDS& NDS; typedef union { u64 _contents; diff --git a/src/MemConstants.h b/src/MemConstants.h new file mode 100644 index 00000000..ab80faba --- /dev/null +++ b/src/MemConstants.h @@ -0,0 +1,35 @@ +/* + Copyright 2016-2023 melonDS team + + This file is part of melonDS. + + melonDS 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 3 of the License, or (at your option) + any later version. + + melonDS 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 melonDS. If not, see http://www.gnu.org/licenses/. +*/ + +#ifndef MELONDS_MEMCONSTANTS_H +#define MELONDS_MEMCONSTANTS_H + +#include "types.h" + +namespace melonDS +{ +constexpr u32 MainRAMMaxSize = 0x1000000; +constexpr u32 SharedWRAMSize = 0x8000; +constexpr u32 ARM7WRAMSize = 0x10000; +constexpr u32 NWRAMSize = 0x40000; +constexpr u32 ARM9BIOSSize = 0x1000; +constexpr u32 ARM7BIOSSize = 0x4000; +constexpr u32 DSiBIOSSize = 0x10000; +} + +#endif // MELONDS_MEMCONSTANTS_H \ No newline at end of file diff --git a/src/MemRegion.h b/src/MemRegion.h new file mode 100644 index 00000000..11b3d1da --- /dev/null +++ b/src/MemRegion.h @@ -0,0 +1,33 @@ +/* + Copyright 2016-2023 melonDS team + + This file is part of melonDS. + + melonDS 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 3 of the License, or (at your option) + any later version. + + melonDS 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 melonDS. If not, see http://www.gnu.org/licenses/. +*/ + +#ifndef MELONDS_MEMREGION_H +#define MELONDS_MEMREGION_H + +#include "types.h" + +// this file exists to break #include cycle loops +namespace melonDS +{ +struct MemRegion +{ + u8* Mem; + u32 Mask; +}; +} +#endif //MELONDS_MEMREGION_H diff --git a/src/NDS.cpp b/src/NDS.cpp index 576eb9cd..3aa4a52a 100644 --- a/src/NDS.cpp +++ b/src/NDS.cpp @@ -47,8 +47,8 @@ namespace melonDS { using namespace Platform; -namespace NDS -{ +const s32 kMaxIterationCycles = 64; +const s32 kIterationCycleMargin = 8; // timing notes // @@ -72,204 +72,49 @@ namespace NDS // // timings for GBA slot and wifi are set up at runtime -int ConsoleType; +NDS* NDS::Current = nullptr; -u8 ARM9MemTimings[0x40000][8]; -u32 ARM9Regions[0x40000]; -u8 ARM7MemTimings[0x20000][4]; -u32 ARM7Regions[0x20000]; - -ARMv5* ARM9; -ARMv4* ARM7; - -#ifdef JIT_ENABLED -bool EnableJIT; -#endif - -u32 NumFrames; -u32 NumLagFrames; -bool LagFrameFlag; -u64 LastSysClockCycles; -u64 FrameStartTimestamp; - -int CurCPU; - -const s32 kMaxIterationCycles = 64; -const s32 kIterationCycleMargin = 8; - -u32 ARM9ClockShift; - -// no need to worry about those overflowing, they can keep going for atleast 4350 years -u64 ARM9Timestamp, ARM9Target; -u64 ARM7Timestamp, ARM7Target; -u64 SysTimestamp; - -struct SchedEvent +NDS::NDS(int type) noexcept : + ConsoleType(type), + JIT(*this), + SPU(*this), + GPU(*this), + SPI(*this), + RTC(*this), + Wifi(*this), + NDSCartSlot(*this), + GBACartSlot(), + AREngine(*this), + ARM9(*this), + ARM7(*this), + DMAs { + DMA(0, 0, *this), + DMA(0, 1, *this), + DMA(0, 2, *this), + DMA(0, 3, *this), + DMA(1, 0, *this), + DMA(1, 1, *this), + DMA(1, 2, *this), + DMA(1, 3, *this), + } { - std::map Funcs; - u64 Timestamp; - u32 FuncID; - u32 Param; -}; + RegisterEventFunc(Event_Div, 0, MemberEventFunc(NDS, DivDone)); + RegisterEventFunc(Event_Sqrt, 0, MemberEventFunc(NDS, SqrtDone)); -SchedEvent SchedList[Event_MAX]; -u32 SchedListMask; - -u32 CPUStop; - -u8 ARM9BIOS[0x1000]; -u8 ARM7BIOS[0x4000]; - -u8* MainRAM; -u32 MainRAMMask; - -u8* SharedWRAM; -u8 WRAMCnt; - -// putting them together so they're always next to each other -MemRegion SWRAM_ARM9; -MemRegion SWRAM_ARM7; - -u8* ARM7WRAM; - -u16 ExMemCnt[2]; - -// TODO: these belong in NDSCart! -u8 ROMSeed0[2*8]; -u8 ROMSeed1[2*8]; - -// IO shit -u32 IME[2]; -u32 IE[2], IF[2]; -u32 IE2, IF2; - -u8 PostFlag9; -u8 PostFlag7; -u16 PowerControl9; -u16 PowerControl7; - -u16 WifiWaitCnt; - -u16 ARM7BIOSProt; - -Timer Timers[8]; -u8 TimerCheckMask[2]; -u64 TimerTimestamp[2]; - -DMA* DMAs[8]; -u32 DMA9Fill[4]; - -u16 IPCSync9, IPCSync7; -u16 IPCFIFOCnt9, IPCFIFOCnt7; -FIFO IPCFIFO9; // FIFO in which the ARM9 writes -FIFO IPCFIFO7; - -u16 DivCnt; -u32 DivNumerator[2]; -u32 DivDenominator[2]; -u32 DivQuotient[2]; -u32 DivRemainder[2]; - -u16 SqrtCnt; -u32 SqrtVal[2]; -u32 SqrtRes; - -u32 KeyInput; -u16 KeyCnt[2]; -u16 RCnt; - -class SPU* SPU; -class SPIHost* SPI; -class RTC* RTC; -class Wifi* Wifi; -std::unique_ptr NDSCartSlot; -std::unique_ptr GBACartSlot; -std::unique_ptr GPU; -std::unique_ptr JIT; -class AREngine* AREngine; - -bool Running; - -bool RunningGame; - -void DivDone(u32 param); -void SqrtDone(u32 param); -void RunTimer(u32 tid, s32 cycles); -void UpdateWifiTimings(); -void SetWifiWaitCnt(u16 val); -void SetGBASlotTimings(); - - -bool Init() -{ - RegisterEventFunc(Event_Div, 0, DivDone); - RegisterEventFunc(Event_Sqrt, 0, SqrtDone); - - JIT = std::make_unique(); - GPU = std::make_unique(*JIT); - - MainRAM = JIT->Memory.GetMainRAM(); - SharedWRAM = JIT->Memory.GetSharedWRAM(); - ARM7WRAM = JIT->Memory.GetARM7WRAM(); - - ARM9 = new ARMv5(*JIT, *GPU); - ARM7 = new ARMv4(*JIT, *GPU); - - DMAs[0] = new DMA(0, 0, *GPU); - DMAs[1] = new DMA(0, 1, *GPU); - DMAs[2] = new DMA(0, 2, *GPU); - DMAs[3] = new DMA(0, 3, *GPU); - DMAs[4] = new DMA(1, 0, *GPU); - DMAs[5] = new DMA(1, 1, *GPU); - DMAs[6] = new DMA(1, 2, *GPU); - DMAs[7] = new DMA(1, 3, *GPU); - - SPU = new class SPU; - SPI = new class SPIHost(); - RTC = new class RTC(); - Wifi = new class Wifi(); - NDSCartSlot = std::make_unique(); - GBACartSlot = std::make_unique(); - - if (!DSi::Init()) return false; - - AREngine = new class AREngine(); - - return true; + MainRAM = JIT.Memory.GetMainRAM(); + SharedWRAM = JIT.Memory.GetSharedWRAM(); + ARM7WRAM = JIT.Memory.GetARM7WRAM(); } -void DeInit() +NDS::~NDS() noexcept { - delete ARM9; ARM9 = nullptr; - delete ARM7; ARM7 = nullptr; - - for (int i = 0; i < 8; i++) - { - delete DMAs[i]; - DMAs[i] = nullptr; - } - - delete SPU; SPU = nullptr; - delete SPI; SPI = nullptr; - delete RTC; RTC = nullptr; - delete Wifi; Wifi = nullptr; - - NDSCartSlot = nullptr; - GBACartSlot = nullptr; - GPU = nullptr; - - DSi::DeInit(); - - delete AREngine; AREngine = nullptr; - UnregisterEventFunc(Event_Div, 0); UnregisterEventFunc(Event_Sqrt, 0); - - JIT = nullptr; + // The destructor for each component is automatically called by the compiler } -void SetARM9RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, int nonseq, int seq) +void NDS::SetARM9RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, int nonseq, int seq) { addrstart >>= 2; addrend >>= 2; @@ -308,10 +153,10 @@ void SetARM9RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, ARM9Regions[i] = region; } - ARM9->UpdateRegionTimings(addrstart<<2, addrend<<2); + ARM9.UpdateRegionTimings(addrstart<<2, addrend<<2); } -void SetARM7RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, int nonseq, int seq) +void NDS::SetARM7RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, int nonseq, int seq) { addrstart >>= 3; addrend >>= 3; @@ -342,7 +187,7 @@ void SetARM7RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, } } -void InitTimings() +void NDS::InitTimings() { // TODO, eventually: // VRAM is initially unmapped. The timings should be those of void regions. @@ -379,7 +224,7 @@ void InitTimings() // handled later: GBA slot, wifi } -bool NeedsDirectBoot() +bool NDS::NeedsDirectBoot() { if (ConsoleType == 1) { @@ -393,144 +238,142 @@ bool NeedsDirectBoot() return true; // DSi/3DS firmwares aren't bootable - if (!SPI->GetFirmware()->IsBootable()) + if (!SPI.GetFirmware()->IsBootable()) return true; return false; } } -void SetupDirectBoot(const std::string& romname) +void NDS::SetupDirectBoot() { - const NDSHeader& header = NDSCartSlot->GetCart()->GetHeader(); + const NDSHeader& header = NDSCartSlot.GetCart()->GetHeader(); + u32 cartid = NDSCartSlot.GetCart()->ID(); + const u8* cartrom = NDSCartSlot.GetCart()->GetROM(); + MapSharedWRAM(3); - if (ConsoleType == 1) + // setup main RAM data + + for (u32 i = 0; i < 0x170; i+=4) { - DSi::SetupDirectBoot(); - } - else - { - u32 cartid = NDSCartSlot->GetCart()->ID(); - const u8* cartrom = NDSCartSlot->GetCart()->GetROM(); - MapSharedWRAM(3); - - // setup main RAM data - - for (u32 i = 0; i < 0x170; i+=4) - { - u32 tmp = *(u32*)&cartrom[i]; - ARM9Write32(0x027FFE00+i, tmp); - } - - ARM9Write32(0x027FF800, cartid); - ARM9Write32(0x027FF804, cartid); - ARM9Write16(0x027FF808, header.HeaderCRC16); - ARM9Write16(0x027FF80A, header.SecureAreaCRC16); - - ARM9Write16(0x027FF850, 0x5835); - - ARM9Write32(0x027FFC00, cartid); - ARM9Write32(0x027FFC04, cartid); - ARM9Write16(0x027FFC08, header.HeaderCRC16); - ARM9Write16(0x027FFC0A, header.SecureAreaCRC16); - - ARM9Write16(0x027FFC10, 0x5835); - ARM9Write16(0x027FFC30, 0xFFFF); - ARM9Write16(0x027FFC40, 0x0001); - - u32 arm9start = 0; - - // load the ARM9 secure area - if (header.ARM9ROMOffset >= 0x4000 && header.ARM9ROMOffset < 0x8000) - { - u8 securearea[0x800]; - NDSCartSlot->DecryptSecureArea(securearea); - - for (u32 i = 0; i < 0x800; i+=4) - { - ARM9Write32(header.ARM9RAMAddress+i, *(u32*)&securearea[i]); - arm9start += 4; - } - } - - // CHECKME: firmware seems to load this in 0x200 byte chunks - - for (u32 i = arm9start; i < header.ARM9Size; i+=4) - { - u32 tmp = *(u32*)&cartrom[header.ARM9ROMOffset+i]; - ARM9Write32(header.ARM9RAMAddress+i, tmp); - } - - for (u32 i = 0; i < header.ARM7Size; i+=4) - { - u32 tmp = *(u32*)&cartrom[header.ARM7ROMOffset+i]; - ARM7Write32(header.ARM7RAMAddress+i, tmp); - } - - ARM7BIOSProt = 0x1204; - - SPI->GetFirmwareMem()->SetupDirectBoot(false); - - ARM9->CP15Write(0x100, 0x00012078); - ARM9->CP15Write(0x200, 0x00000042); - ARM9->CP15Write(0x201, 0x00000042); - ARM9->CP15Write(0x300, 0x00000002); - ARM9->CP15Write(0x502, 0x15111011); - ARM9->CP15Write(0x503, 0x05100011); - ARM9->CP15Write(0x600, 0x04000033); - ARM9->CP15Write(0x601, 0x04000033); - ARM9->CP15Write(0x610, 0x0200002B); - ARM9->CP15Write(0x611, 0x0200002B); - ARM9->CP15Write(0x620, 0x00000000); - ARM9->CP15Write(0x621, 0x00000000); - ARM9->CP15Write(0x630, 0x08000035); - ARM9->CP15Write(0x631, 0x08000035); - ARM9->CP15Write(0x640, 0x0300001B); - ARM9->CP15Write(0x641, 0x0300001B); - ARM9->CP15Write(0x650, 0x00000000); - ARM9->CP15Write(0x651, 0x00000000); - ARM9->CP15Write(0x660, 0xFFFF001D); - ARM9->CP15Write(0x661, 0xFFFF001D); - ARM9->CP15Write(0x670, 0x027FF017); - ARM9->CP15Write(0x671, 0x027FF017); - ARM9->CP15Write(0x910, 0x0300000A); - ARM9->CP15Write(0x911, 0x00000020); + u32 tmp = *(u32*)&cartrom[i]; + NDS::ARM9Write32(0x027FFE00+i, tmp); } - NDSCartSlot->SetupDirectBoot(romname); + NDS::ARM9Write32(0x027FF800, cartid); + NDS::ARM9Write32(0x027FF804, cartid); + NDS::ARM9Write16(0x027FF808, header.HeaderCRC16); + NDS::ARM9Write16(0x027FF80A, header.SecureAreaCRC16); - ARM9->R[12] = header.ARM9EntryAddress; - ARM9->R[13] = 0x03002F7C; - ARM9->R[14] = header.ARM9EntryAddress; - ARM9->R_IRQ[0] = 0x03003F80; - ARM9->R_SVC[0] = 0x03003FC0; + NDS::ARM9Write16(0x027FF850, 0x5835); - ARM7->R[12] = header.ARM7EntryAddress; - ARM7->R[13] = 0x0380FD80; - ARM7->R[14] = header.ARM7EntryAddress; - ARM7->R_IRQ[0] = 0x0380FF80; - ARM7->R_SVC[0] = 0x0380FFC0; + NDS::ARM9Write32(0x027FFC00, cartid); + NDS::ARM9Write32(0x027FFC04, cartid); + NDS::ARM9Write16(0x027FFC08, header.HeaderCRC16); + NDS::ARM9Write16(0x027FFC0A, header.SecureAreaCRC16); - ARM9->JumpTo(header.ARM9EntryAddress); - ARM7->JumpTo(header.ARM7EntryAddress); + NDS::ARM9Write16(0x027FFC10, 0x5835); + NDS::ARM9Write16(0x027FFC30, 0xFFFF); + NDS::ARM9Write16(0x027FFC40, 0x0001); + + u32 arm9start = 0; + + // load the ARM9 secure area + if (header.ARM9ROMOffset >= 0x4000 && header.ARM9ROMOffset < 0x8000) + { + u8 securearea[0x800]; + NDSCartSlot.DecryptSecureArea(securearea); + + for (u32 i = 0; i < 0x800; i+=4) + { + NDS::ARM9Write32(header.ARM9RAMAddress+i, *(u32*)&securearea[i]); + arm9start += 4; + } + } + + // CHECKME: firmware seems to load this in 0x200 byte chunks + + for (u32 i = arm9start; i < header.ARM9Size; i+=4) + { + u32 tmp = *(u32*)&cartrom[header.ARM9ROMOffset+i]; + NDS::ARM9Write32(header.ARM9RAMAddress+i, tmp); + } + + for (u32 i = 0; i < header.ARM7Size; i+=4) + { + u32 tmp = *(u32*)&cartrom[header.ARM7ROMOffset+i]; + NDS::ARM7Write32(header.ARM7RAMAddress+i, tmp); + } + + ARM7BIOSProt = 0x1204; + + SPI.GetFirmwareMem()->SetupDirectBoot(); + + ARM9.CP15Write(0x100, 0x00012078); + ARM9.CP15Write(0x200, 0x00000042); + ARM9.CP15Write(0x201, 0x00000042); + ARM9.CP15Write(0x300, 0x00000002); + ARM9.CP15Write(0x502, 0x15111011); + ARM9.CP15Write(0x503, 0x05100011); + ARM9.CP15Write(0x600, 0x04000033); + ARM9.CP15Write(0x601, 0x04000033); + ARM9.CP15Write(0x610, 0x0200002B); + ARM9.CP15Write(0x611, 0x0200002B); + ARM9.CP15Write(0x620, 0x00000000); + ARM9.CP15Write(0x621, 0x00000000); + ARM9.CP15Write(0x630, 0x08000035); + ARM9.CP15Write(0x631, 0x08000035); + ARM9.CP15Write(0x640, 0x0300001B); + ARM9.CP15Write(0x641, 0x0300001B); + ARM9.CP15Write(0x650, 0x00000000); + ARM9.CP15Write(0x651, 0x00000000); + ARM9.CP15Write(0x660, 0xFFFF001D); + ARM9.CP15Write(0x661, 0xFFFF001D); + ARM9.CP15Write(0x670, 0x027FF017); + ARM9.CP15Write(0x671, 0x027FF017); + ARM9.CP15Write(0x910, 0x0300000A); + ARM9.CP15Write(0x911, 0x00000020); +} + +void NDS::SetupDirectBoot(const std::string& romname) +{ + const NDSHeader& header = NDSCartSlot.GetCart()->GetHeader(); + SetupDirectBoot(); + + NDSCartSlot.SetupDirectBoot(romname); + + ARM9.R[12] = header.ARM9EntryAddress; + ARM9.R[13] = 0x03002F7C; + ARM9.R[14] = header.ARM9EntryAddress; + ARM9.R_IRQ[0] = 0x03003F80; + ARM9.R_SVC[0] = 0x03003FC0; + + ARM7.R[12] = header.ARM7EntryAddress; + ARM7.R[13] = 0x0380FD80; + ARM7.R[14] = header.ARM7EntryAddress; + ARM7.R_IRQ[0] = 0x0380FF80; + ARM7.R_SVC[0] = 0x0380FFC0; + + ARM9.JumpTo(header.ARM9EntryAddress); + ARM7.JumpTo(header.ARM7EntryAddress); PostFlag9 = 0x01; PostFlag7 = 0x01; PowerControl9 = 0x820F; - GPU->SetPowerCnt(PowerControl9); + GPU.SetPowerCnt(PowerControl9); // checkme RCnt = 0x8000; - NDSCartSlot->SetSPICnt(0x8000); + NDSCartSlot.SetSPICnt(0x8000); - SPU->SetBias(0x200); + SPU.SetBias(0x200); SetWifiWaitCnt(0x0030); } -void Reset() +void NDS::Reset() { Platform::FileHandle* f; u32 i; @@ -544,7 +387,7 @@ void Reset() // BIOS files are now loaded by the frontend - JIT->Reset(); + JIT.Reset(); if (ConsoleType == 1) { @@ -561,7 +404,7 @@ void Reset() // has to be called before InitTimings // otherwise some PU settings are completely // unitialised on the first run - ARM9->CP15Reset(); + ARM9.CP15Reset(); ARM9Timestamp = 0; ARM9Target = 0; ARM7Timestamp = 0; ARM7Target = 0; @@ -610,8 +453,8 @@ void Reset() DivCnt = 0; SqrtCnt = 0; - ARM9->Reset(); - ARM7->Reset(); + ARM9.Reset(); + ARM7.Reset(); CPUStop = 0; @@ -621,7 +464,7 @@ void Reset() TimerTimestamp[0] = 0; TimerTimestamp[1] = 0; - for (i = 0; i < 8; i++) DMAs[i]->Reset(); + for (i = 0; i < 8; i++) DMAs[i].Reset(); memset(DMA9Fill, 0, 4*4); for (i = 0; i < Event_MAX; i++) @@ -639,24 +482,24 @@ void Reset() KeyCnt[1] = 0; RCnt = 0; - GPU->Reset(); - NDSCartSlot->Reset(); - GBACartSlot->Reset(); - SPU->Reset(); - SPI->Reset(); - RTC->Reset(); - Wifi->Reset(); + GPU.Reset(); + NDSCartSlot.Reset(); + GBACartSlot.Reset(); + SPU.Reset(); + SPI.Reset(); + RTC.Reset(); + Wifi.Reset(); // TODO: move the SOUNDBIAS/degrade logic to SPU? // The SOUNDBIAS register does nothing on DSi - SPU->SetApplyBias(ConsoleType == 0); + SPU.SetApplyBias(ConsoleType == 0); bool degradeAudio = true; if (ConsoleType == 1) { - DSi::Reset(); + //DSi::Reset(); KeyInput &= ~(1 << (16+6)); degradeAudio = false; } @@ -667,12 +510,10 @@ void Reset() else if (bitDepth == 2) // Always 16-bit degradeAudio = false; - SPU->SetDegrade10Bit(degradeAudio); - - AREngine->Reset(); + SPU.SetDegrade10Bit(degradeAudio); } -void Start() +void NDS::Start() { Running = true; } @@ -694,7 +535,7 @@ static const char* StopReasonName(Platform::StopReason reason) } } -void Stop(Platform::StopReason reason) +void NDS::Stop(Platform::StopReason reason) { Platform::LogLevel level; switch (reason) @@ -715,14 +556,11 @@ void Stop(Platform::StopReason reason) Log(level, "Stopping emulated console (Reason: %s)\n", StopReasonName(reason)); Running = false; Platform::SignalStop(reason); - GPU->Stop(); - SPU->Stop(); - - if (ConsoleType == 1) - DSi::Stop(); + GPU.Stop(); + SPU.Stop(); } -bool DoSavestate(Savestate* file) +bool NDS::DoSavestate(Savestate* file) { file->Section("NDSG"); @@ -835,36 +673,35 @@ bool DoSavestate(Savestate* file) } for (int i = 0; i < 8; i++) - DMAs[i]->DoSavestate(file); + DMAs[i].DoSavestate(file); - ARM9->DoSavestate(file); - ARM7->DoSavestate(file); + ARM9.DoSavestate(file); + ARM7.DoSavestate(file); - NDSCartSlot->DoSavestate(file); + NDSCartSlot.DoSavestate(file); if (ConsoleType == 0) - GBACartSlot->DoSavestate(file); - GPU->DoSavestate(file); - SPU->DoSavestate(file); - SPI->DoSavestate(file); - RTC->DoSavestate(file); - Wifi->DoSavestate(file); + GBACartSlot.DoSavestate(file); + GPU.DoSavestate(file); + SPU.DoSavestate(file); + SPI.DoSavestate(file); + RTC.DoSavestate(file); + Wifi.DoSavestate(file); - if (ConsoleType == 1) - DSi::DoSavestate(file); + DoSavestateExtra(file); // Handles DSi state if applicable if (!file->Saving) { - GPU->SetPowerCnt(PowerControl9); + GPU.SetPowerCnt(PowerControl9); - SPU->SetPowerCnt(PowerControl7 & 0x0001); - Wifi->SetPowerCnt(PowerControl7 & 0x0002); + SPU.SetPowerCnt(PowerControl7 & 0x0001); + Wifi.SetPowerCnt(PowerControl7 & 0x0002); } #ifdef JIT_ENABLED if (!file->Saving) { - JIT->ResetBlockCache(); - JIT->Memory.Reset(); + JIT.ResetBlockCache(); + JIT.Memory.Reset(); } #endif @@ -873,80 +710,70 @@ bool DoSavestate(Savestate* file) return true; } -void SetConsoleType(int type) +bool NDS::LoadCart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen) { - ConsoleType = type; -} - -bool LoadCart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen) -{ - if (!NDSCartSlot->LoadROM(romdata, romlen)) + if (!NDSCartSlot.LoadROM(romdata, romlen)) return false; if (savedata && savelen) - NDSCartSlot->LoadSave(savedata, savelen); + NDSCartSlot.LoadSave(savedata, savelen); return true; } -void LoadSave(const u8* savedata, u32 savelen) +void NDS::LoadSave(const u8* savedata, u32 savelen) { if (savedata && savelen) - NDSCartSlot->LoadSave(savedata, savelen); + NDSCartSlot.LoadSave(savedata, savelen); } -void EjectCart() +void NDS::EjectCart() { - NDSCartSlot->EjectCart(); + NDSCartSlot.EjectCart(); } -bool CartInserted() +bool NDS::CartInserted() { - return NDSCartSlot->GetCart() != nullptr; + return NDSCartSlot.GetCart() != nullptr; } -bool LoadGBACart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen) +bool NDS::LoadGBACart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen) { - if (!GBACartSlot) - return false; - - if (!GBACartSlot->LoadROM(romdata, romlen)) + if (!GBACartSlot.LoadROM(romdata, romlen)) return false; if (savedata && savelen) - GBACartSlot->LoadSave(savedata, savelen); + GBACartSlot.LoadSave(savedata, savelen); return true; } -void LoadGBAAddon(int type) +void NDS::LoadGBAAddon(int type) { - if (GBACartSlot) - GBACartSlot->LoadAddon(type); + GBACartSlot.LoadAddon(type); } -void EjectGBACart() +void NDS::EjectGBACart() { - if (GBACartSlot) - GBACartSlot->EjectCart(); + GBACartSlot.EjectCart(); } -void LoadBIOS() +void NDS::LoadBIOS() { Reset(); } -bool IsLoadedARM9BIOSBuiltIn() +bool NDS::IsLoadedARM9BIOSBuiltIn() { - return memcmp(NDS::ARM9BIOS, bios_arm9_bin, sizeof(NDS::ARM9BIOS)) == 0; + return memcmp(ARM9BIOS, bios_arm9_bin, sizeof(NDS::ARM9BIOS)) == 0; } -bool IsLoadedARM7BIOSBuiltIn() +bool NDS::IsLoadedARM7BIOSBuiltIn() { - return memcmp(NDS::ARM7BIOS, bios_arm7_bin, sizeof(NDS::ARM7BIOS)) == 0; + return memcmp(ARM7BIOS, bios_arm7_bin, sizeof(NDS::ARM7BIOS)) == 0; } -u64 NextTarget() +u64 NDS::NextTarget() { u64 minEvent = UINT64_MAX; @@ -971,7 +798,7 @@ u64 NextTarget() return max; } -void RunSystem(u64 timestamp) +void NDS::RunSystem(u64 timestamp) { SysTimestamp = timestamp; @@ -996,7 +823,7 @@ void RunSystem(u64 timestamp) } } -u64 NextTargetSleep() +u64 NDS::NextTargetSleep() { u64 minEvent = UINT64_MAX; @@ -1019,7 +846,7 @@ u64 NextTargetSleep() return minEvent; } -void RunSystemSleep(u64 timestamp) +void NDS::RunSystemSleep(u64 timestamp) { u64 offset = timestamp - SysTimestamp; SysTimestamp = timestamp; @@ -1061,12 +888,12 @@ void RunSystemSleep(u64 timestamp) } } -template -u32 RunFrame() +template +u32 NDS::RunFrame() { FrameStartTimestamp = SysTimestamp; - GPU->TotalScanlines = 0; + GPU.TotalScanlines = 0; LagFrameFlag = true; bool runFrame = Running && !(CPUStop & CPUStop_Sleep); @@ -1090,7 +917,7 @@ u32 RunFrame() ARM7Timestamp = target; TimerTimestamp[0] = target; TimerTimestamp[1] = target; - GPU->GPU3D.Timestamp = target; + GPU.GPU3D.Timestamp = target; RunSystemSleep(target); if (!(CPUStop & CPUStop_Sleep)) @@ -1098,20 +925,20 @@ u32 RunFrame() } if (SysTimestamp >= frametarget) - GPU->BlankFrame(); + GPU.BlankFrame(); } else { - ARM9->CheckGdbIncoming(); - ARM7->CheckGdbIncoming(); + ARM9.CheckGdbIncoming(); + ARM7.CheckGdbIncoming(); if (!(CPUStop & CPUStop_Wakeup)) { - GPU->StartFrame(); + GPU.StartFrame(); } CPUStop &= ~CPUStop_Wakeup; - while (Running && GPU->TotalScanlines==0) + while (Running && GPU.TotalScanlines==0) { u64 target = NextTarget(); ARM9Target = target << ARM9ClockShift; @@ -1120,30 +947,34 @@ u32 RunFrame() if (CPUStop & CPUStop_GXStall) { // GXFIFO stall - s32 cycles = GPU->GPU3D.CyclesToRunFor(); + s32 cycles = GPU.GPU3D.CyclesToRunFor(); ARM9Timestamp = std::min(ARM9Target, ARM9Timestamp+(cycles<Run(); - if (!(CPUStop & CPUStop_GXStall)) DMAs[1]->Run(); - if (!(CPUStop & CPUStop_GXStall)) DMAs[2]->Run(); - if (!(CPUStop & CPUStop_GXStall)) DMAs[3]->Run(); - if (ConsoleType == 1) DSi::RunNDMAs(0); + DMAs[0].Run(); + if (!(CPUStop & CPUStop_GXStall)) DMAs[1].Run(); + if (!(CPUStop & CPUStop_GXStall)) DMAs[2].Run(); + if (!(CPUStop & CPUStop_GXStall)) DMAs[3].Run(); + if (ConsoleType == 1) + { + auto& dsi = dynamic_cast(*this); + dsi.RunNDMAs(0); + } } else { #ifdef JIT_ENABLED if (EnableJIT) - ARM9->ExecuteJIT(); + ARM9.ExecuteJIT(); else #endif - ARM9->Execute(); + ARM9.Execute(); } RunTimers(0); - GPU->GPU3D.Run(); + GPU.GPU3D.Run(); target = ARM9Timestamp >> ARM9ClockShift; CurCPU = 1; @@ -1154,20 +985,24 @@ u32 RunFrame() if (CPUStop & CPUStop_DMA7) { - DMAs[4]->Run(); - DMAs[5]->Run(); - DMAs[6]->Run(); - DMAs[7]->Run(); - if (ConsoleType == 1) DSi::RunNDMAs(1); + DMAs[4].Run(); + DMAs[5].Run(); + DMAs[6].Run(); + DMAs[7].Run(); + if (ConsoleType == 1) + { + auto& dsi = dynamic_cast(*this); + dsi.RunNDMAs(1); + } } else { #ifdef JIT_ENABLED if (EnableJIT) - ARM7->ExecuteJIT(); + ARM7.ExecuteJIT(); else #endif - ARM7->Execute(); + ARM7.Execute(); } RunTimers(1); @@ -1182,7 +1017,7 @@ u32 RunFrame() } } - if (GPU->TotalScanlines == 0) + if (GPU.TotalScanlines == 0) continue; #ifdef DEBUG_CHECK_DESYNC @@ -1190,9 +1025,9 @@ u32 RunFrame() (u32)(SysTimestamp>>32), (u32)SysTimestamp, (ARM9Timestamp>>1)-SysTimestamp, ARM7Timestamp-SysTimestamp, - GPU3D::Timestamp-SysTimestamp); + GPU.GPU3D.Timestamp-SysTimestamp); #endif - SPU->TransferOutput(); + SPU.TransferOutput(); break; } @@ -1203,26 +1038,22 @@ u32 RunFrame() NumLagFrames++; if (Running) - return GPU->TotalScanlines; + return GPU.TotalScanlines; else return 263; } -u32 RunFrame() +u32 NDS::RunFrame() { #ifdef JIT_ENABLED if (EnableJIT) - return NDS::ConsoleType == 1 - ? RunFrame() - : RunFrame(); + return RunFrame(); else #endif - return NDS::ConsoleType == 1 - ? RunFrame() - : RunFrame(); + return RunFrame(); } -void Reschedule(u64 target) +void NDS::Reschedule(u64 target) { if (CurCPU == 0) { @@ -1236,21 +1067,21 @@ void Reschedule(u64 target) } } -void RegisterEventFunc(u32 id, u32 funcid, EventFunc func) +void NDS::RegisterEventFunc(u32 id, u32 funcid, EventFunc func) { SchedEvent& evt = SchedList[id]; evt.Funcs[funcid] = func; } -void UnregisterEventFunc(u32 id, u32 funcid) +void NDS::UnregisterEventFunc(u32 id, u32 funcid) { SchedEvent& evt = SchedList[id]; evt.Funcs.erase(funcid); } -void ScheduleEvent(u32 id, bool periodic, s32 delay, u32 funcid, u32 param) +void NDS::ScheduleEvent(u32 id, bool periodic, s32 delay, u32 funcid, u32 param) { if (SchedListMask & (1<GetTSC()->SetTouchCoords(x, y); + SPI.GetTSC()->SetTouchCoords(x, y); } -void ReleaseScreen() +void NDS::ReleaseScreen() { - SPI->GetTSC()->SetTouchCoords(0x000, 0xFFF); + SPI.GetTSC()->SetTouchCoords(0x000, 0xFFF); } -void CheckKeyIRQ(u32 cpu, u32 oldkey, u32 newkey) +void NDS::CheckKeyIRQ(u32 cpu, u32 oldkey, u32 newkey) { u16 cnt = KeyCnt[cpu]; if (!(cnt & (1<<14))) // IRQ disabled @@ -1325,7 +1156,7 @@ void CheckKeyIRQ(u32 cpu, u32 oldkey, u32 newkey) SetIRQ(cpu, IRQ_Keypad); } -void SetKeyMask(u32 mask) +void NDS::SetKeyMask(u32 mask) { u32 key_lo = mask & 0x3FF; u32 key_hi = (mask >> 10) & 0x3; @@ -1338,13 +1169,13 @@ void SetKeyMask(u32 mask) CheckKeyIRQ(1, oldkey, KeyInput); } -bool IsLidClosed() +bool NDS::IsLidClosed() { if (KeyInput & (1<<23)) return true; return false; } -void SetLidClosed(bool closed) +void NDS::SetLidClosed(bool closed) { if (closed) { @@ -1357,24 +1188,9 @@ void SetLidClosed(bool closed) } } -void CamInputFrame(int cam, u32* data, int width, int height, bool rgb) +void NDS::MicInputFrame(s16* data, int samples) { - // TODO: support things like the GBA-slot camera addon - // whenever these are emulated - - if (ConsoleType == 1) - { - switch (cam) - { - case 0: return DSi::CamModule->GetOuterCamera()->InputFrame(data, width, height, rgb); - case 1: return DSi::CamModule->GetInnerCamera()->InputFrame(data, width, height, rgb); - } - } -} - -void MicInputFrame(s16* data, int samples) -{ - return SPI->GetTSC()->MicInputFrame(data, samples); + return SPI.GetTSC()->MicInputFrame(data, samples); } /*int ImportSRAM(u8* data, u32 length) @@ -1383,19 +1199,19 @@ void MicInputFrame(s16* data, int samples) }*/ -void Halt() +void NDS::Halt() { Log(LogLevel::Info, "Halt()\n"); Running = false; } -void MapSharedWRAM(u8 val) +void NDS::MapSharedWRAM(u8 val) { if (val == WRAMCnt) return; - NDS::JIT->Memory.RemapSWRAM(); + JIT.Memory.RemapSWRAM(); WRAMCnt = val; @@ -1432,7 +1248,7 @@ void MapSharedWRAM(u8 val) } -void UpdateWifiTimings() +void NDS::UpdateWifiTimings() { if (PowerControl7 & 0x0002) { @@ -1449,7 +1265,7 @@ void UpdateWifiTimings() } } -void SetWifiWaitCnt(u16 val) +void NDS::SetWifiWaitCnt(u16 val) { if (WifiWaitCnt == val) return; @@ -1457,7 +1273,7 @@ void SetWifiWaitCnt(u16 val) UpdateWifiTimings(); } -void SetGBASlotTimings() +void NDS::SetGBASlotTimings() { const int ntimings[4] = {10, 8, 6, 18}; const u16 openbus[4] = {0xFE08, 0x0000, 0x0000, 0xFFFF}; @@ -1492,28 +1308,27 @@ void SetGBASlotTimings() // for example, the Cartridge Construction Kit relies on this to determine that // the GBA slot is empty - assert(GBACartSlot != nullptr); - GBACartSlot->SetOpenBusDecay(openbus[(curcnt>>2) & 0x3]); + GBACartSlot.SetOpenBusDecay(openbus[(curcnt>>2) & 0x3]); } -void UpdateIRQ(u32 cpu) +void NDS::UpdateIRQ(u32 cpu) { - ARM* arm = cpu ? (ARM*)ARM7 : (ARM*)ARM9; + ARM& arm = cpu ? (ARM&)ARM7 : (ARM&)ARM9; if (IME[cpu] & 0x1) { - arm->IRQ = !!(IE[cpu] & IF[cpu]); + arm.IRQ = !!(IE[cpu] & IF[cpu]); if ((ConsoleType == 1) && cpu) - arm->IRQ |= !!(IE2 & IF2); + arm.IRQ |= !!(IE2 & IF2); } else { - arm->IRQ = 0; + arm.IRQ = 0; } } -void SetIRQ(u32 cpu, u32 irq) +void NDS::SetIRQ(u32 cpu, u32 irq) { IF[cpu] |= (1 << irq); UpdateIRQ(cpu); @@ -1524,30 +1339,30 @@ void SetIRQ(u32 cpu, u32 irq) { CPUStop &= ~CPUStop_Sleep; CPUStop |= CPUStop_Wakeup; - GPU->GPU3D.RestartFrame(); + GPU.GPU3D.RestartFrame(); } } } -void ClearIRQ(u32 cpu, u32 irq) +void NDS::ClearIRQ(u32 cpu, u32 irq) { IF[cpu] &= ~(1 << irq); UpdateIRQ(cpu); } -void SetIRQ2(u32 irq) +void NDS::SetIRQ2(u32 irq) { IF2 |= (1 << irq); UpdateIRQ(1); } -void ClearIRQ2(u32 irq) +void NDS::ClearIRQ2(u32 irq) { IF2 &= ~(1 << irq); UpdateIRQ(1); } -bool HaltInterrupted(u32 cpu) +bool NDS::HaltInterrupted(u32 cpu) { if (cpu == 0) { @@ -1564,62 +1379,66 @@ bool HaltInterrupted(u32 cpu) return false; } -void StopCPU(u32 cpu, u32 mask) +void NDS::StopCPU(u32 cpu, u32 mask) { if (cpu) { CPUStop |= (mask << 16); - ARM7->Halt(2); + ARM7.Halt(2); } else { CPUStop |= mask; - ARM9->Halt(2); + ARM9.Halt(2); } } -void ResumeCPU(u32 cpu, u32 mask) +void NDS::ResumeCPU(u32 cpu, u32 mask) { if (cpu) mask <<= 16; CPUStop &= ~mask; } -void GXFIFOStall() +void NDS::GXFIFOStall() { if (CPUStop & CPUStop_GXStall) return; CPUStop |= CPUStop_GXStall; - if (CurCPU == 1) ARM9->Halt(2); + if (CurCPU == 1) ARM9.Halt(2); else { - DMAs[0]->StallIfRunning(); - DMAs[1]->StallIfRunning(); - DMAs[2]->StallIfRunning(); - DMAs[3]->StallIfRunning(); - if (ConsoleType == 1) DSi::StallNDMAs(); + DMAs[0].StallIfRunning(); + DMAs[1].StallIfRunning(); + DMAs[2].StallIfRunning(); + DMAs[3].StallIfRunning(); + if (ConsoleType == 1) + { + auto& dsi = dynamic_cast(*this); + dsi.StallNDMAs(); + } } } -void GXFIFOUnstall() +void NDS::GXFIFOUnstall() { CPUStop &= ~CPUStop_GXStall; } -void EnterSleepMode() +void NDS::EnterSleepMode() { if (CPUStop & CPUStop_Sleep) return; CPUStop |= CPUStop_Sleep; - ARM7->Halt(2); + ARM7.Halt(2); } -u32 GetPC(u32 cpu) +u32 NDS::GetPC(u32 cpu) { - return cpu ? ARM7->R[15] : ARM9->R[15]; + return cpu ? ARM7.R[15] : ARM9.R[15]; } -u64 GetSysClockCycles(int num) +u64 NDS::GetSysClockCycles(int num) { u64 ret; @@ -1646,19 +1465,19 @@ u64 GetSysClockCycles(int num) return ret; } -void NocashPrint(u32 ncpu, u32 addr) +void NDS::NocashPrint(u32 ncpu, u32 addr) { // addr: debug string - ARM* cpu = ncpu ? (ARM*)ARM7 : (ARM*)ARM9; - u8 (*readfn)(u32) = ncpu ? NDS::ARM7Read8 : NDS::ARM9Read8; + ARM* cpu = ncpu ? (ARM*)&ARM7 : (ARM*)&ARM9; + u8 (NDS::*readfn)(u32) = ncpu ? &NDS::ARM7Read8 : &NDS::ARM9Read8; char output[1024]; int ptr = 0; for (int i = 0; i < 120 && ptr < 1023; ) { - char ch = readfn(addr++); + char ch = (this->*readfn)(addr++); i++; if (ch == '%') @@ -1666,7 +1485,7 @@ void NocashPrint(u32 ncpu, u32 addr) char cmd[16]; int j; for (j = 0; j < 15; ) { - char ch2 = readfn(addr++); + char ch2 = (this->*readfn)(addr++); i++; if (i >= 120) break; if (ch2 == '%') break; @@ -1701,7 +1520,7 @@ void NocashPrint(u32 ncpu, u32 addr) else if (!strcmp(cmd, "lr")) sprintf(subs, "%08X", cpu->R[14]); else if (!strcmp(cmd, "pc")) sprintf(subs, "%08X", cpu->R[15]); else if (!strcmp(cmd, "frame")) sprintf(subs, "%u", NumFrames); - else if (!strcmp(cmd, "scanline")) sprintf(subs, "%u", GPU->VCount); + else if (!strcmp(cmd, "scanline")) sprintf(subs, "%u", GPU.VCount); else if (!strcmp(cmd, "totalclks")) sprintf(subs, "%" PRIu64, GetSysClockCycles(0)); else if (!strcmp(cmd, "lastclks")) sprintf(subs, "%" PRIu64, GetSysClockCycles(1)); else if (!strcmp(cmd, "zeroclks")) @@ -1727,16 +1546,14 @@ void NocashPrint(u32 ncpu, u32 addr) Log(LogLevel::Debug, "%s", output); } - - -void MonitorARM9Jump(u32 addr) +void NDS::MonitorARM9Jump(u32 addr) { // checkme: can the entrypoint addr be THUMB? // also TODO: make it work in DSi mode - if ((!RunningGame) && NDSCartSlot->GetCart()) + if ((!RunningGame) && NDSCartSlot.GetCart()) { - const NDSHeader& header = NDSCartSlot->GetCart()->GetHeader(); + const NDSHeader& header = NDSCartSlot.GetCart()->GetHeader(); if (addr == header.ARM9EntryAddress) { Log(LogLevel::Info, "Game is now booting\n"); @@ -1747,7 +1564,7 @@ void MonitorARM9Jump(u32 addr) -void HandleTimerOverflow(u32 tid) +void NDS::HandleTimerOverflow(u32 tid) { Timer* timer = &Timers[tid]; @@ -1780,7 +1597,7 @@ void HandleTimerOverflow(u32 tid) } } -void RunTimer(u32 tid, s32 cycles) +void NDS::RunTimer(u32 tid, s32 cycles) { Timer* timer = &Timers[tid]; @@ -1792,7 +1609,7 @@ void RunTimer(u32 tid, s32 cycles) } } -void RunTimers(u32 cpu) +void NDS::RunTimers(u32 cpu) { u32 timermask = TimerCheckMask[cpu]; s32 cycles; @@ -1812,7 +1629,7 @@ void RunTimers(u32 cpu) const s32 TimerPrescaler[4] = {0, 6, 8, 10}; -u16 TimerGetCounter(u32 timer) +u16 NDS::TimerGetCounter(u32 timer) { RunTimers(timer>>2); u32 ret = Timers[timer].Counter; @@ -1820,7 +1637,7 @@ u16 TimerGetCounter(u32 timer) return ret >> 10; } -void TimerStart(u32 id, u16 cnt) +void NDS::TimerStart(u32 id, u16 cnt) { Timer* timer = &Timers[id]; u16 curstart = timer->Cnt & (1<<7); @@ -1844,93 +1661,49 @@ void TimerStart(u32 id, u16 cnt) -// matching NDMA modes for DSi -const u32 NDMAModes[] = -{ - // ARM9 - - 0x10, // immediate - 0x06, // VBlank - 0x07, // HBlank - 0x08, // scanline start - 0x09, // mainmem FIFO - 0x04, // DS cart slot - 0xFF, // GBA cart slot - 0x0A, // GX FIFO - 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, - - // ARM7 - - 0x30, // immediate - 0x26, // VBlank - 0x24, // DS cart slot - 0xFF, // wifi / GBA cart slot (TODO) -}; - -bool DMAsInMode(u32 cpu, u32 mode) +bool NDS::DMAsInMode(u32 cpu, u32 mode) { cpu <<= 2; - if (DMAs[cpu+0]->IsInMode(mode)) return true; - if (DMAs[cpu+1]->IsInMode(mode)) return true; - if (DMAs[cpu+2]->IsInMode(mode)) return true; - if (DMAs[cpu+3]->IsInMode(mode)) return true; - - if (ConsoleType == 1) - { - cpu >>= 2; - return DSi::NDMAsInMode(cpu, NDMAModes[mode]); - } + if (DMAs[cpu+0].IsInMode(mode)) return true; + if (DMAs[cpu+1].IsInMode(mode)) return true; + if (DMAs[cpu+2].IsInMode(mode)) return true; + if (DMAs[cpu+3].IsInMode(mode)) return true; return false; } -bool DMAsRunning(u32 cpu) +bool NDS::DMAsRunning(u32 cpu) { cpu <<= 2; - if (DMAs[cpu+0]->IsRunning()) return true; - if (DMAs[cpu+1]->IsRunning()) return true; - if (DMAs[cpu+2]->IsRunning()) return true; - if (DMAs[cpu+3]->IsRunning()) return true; - if (ConsoleType == 1) - { - if (DSi::NDMAsRunning(cpu>>2)) return true; - } + if (DMAs[cpu+0].IsRunning()) return true; + if (DMAs[cpu+1].IsRunning()) return true; + if (DMAs[cpu+2].IsRunning()) return true; + if (DMAs[cpu+3].IsRunning()) return true; + return false; } -void CheckDMAs(u32 cpu, u32 mode) +void NDS::CheckDMAs(u32 cpu, u32 mode) { cpu <<= 2; - DMAs[cpu+0]->StartIfNeeded(mode); - DMAs[cpu+1]->StartIfNeeded(mode); - DMAs[cpu+2]->StartIfNeeded(mode); - DMAs[cpu+3]->StartIfNeeded(mode); - - if (ConsoleType == 1) - { - cpu >>= 2; - DSi::CheckNDMAs(cpu, NDMAModes[mode]); - } + DMAs[cpu+0].StartIfNeeded(mode); + DMAs[cpu+1].StartIfNeeded(mode); + DMAs[cpu+2].StartIfNeeded(mode); + DMAs[cpu+3].StartIfNeeded(mode); } -void StopDMAs(u32 cpu, u32 mode) +void NDS::StopDMAs(u32 cpu, u32 mode) { cpu <<= 2; - DMAs[cpu+0]->StopIfNeeded(mode); - DMAs[cpu+1]->StopIfNeeded(mode); - DMAs[cpu+2]->StopIfNeeded(mode); - DMAs[cpu+3]->StopIfNeeded(mode); - - if (ConsoleType == 1) - { - cpu >>= 2; - DSi::StopNDMAs(cpu, NDMAModes[mode]); - } + DMAs[cpu+0].StopIfNeeded(mode); + DMAs[cpu+1].StopIfNeeded(mode); + DMAs[cpu+2].StopIfNeeded(mode); + DMAs[cpu+3].StopIfNeeded(mode); } -void DivDone(u32 param) +void NDS::DivDone(u32 param) { DivCnt &= ~0xC000; @@ -2008,15 +1781,15 @@ void DivDone(u32 param) DivCnt |= 0x4000; } -void StartDiv() +void NDS::StartDiv() { - NDS::CancelEvent(NDS::Event_Div); + CancelEvent(Event_Div); DivCnt |= 0x8000; - NDS::ScheduleEvent(NDS::Event_Div, false, ((DivCnt&0x3)==0) ? 18:34, 0, 0); + ScheduleEvent(Event_Div, false, ((DivCnt&0x3)==0) ? 18:34, 0, 0); } // http://stackoverflow.com/questions/1100090/looking-for-an-efficient-integer-square-root-algorithm-for-arm-thumb2 -void SqrtDone(u32 param) +void NDS::SqrtDone(u32 param) { u64 val; u32 res = 0; @@ -2056,19 +1829,19 @@ void SqrtDone(u32 param) SqrtRes = res; } -void StartSqrt() +void NDS::StartSqrt() { - NDS::CancelEvent(NDS::Event_Sqrt); + CancelEvent(Event_Sqrt); SqrtCnt |= 0x8000; - NDS::ScheduleEvent(NDS::Event_Sqrt, false, 13, 0, 0); + ScheduleEvent(Event_Sqrt, false, 13, 0, 0); } -void debug(u32 param) +void NDS::debug(u32 param) { - Log(LogLevel::Debug, "ARM9 PC=%08X LR=%08X %08X\n", ARM9->R[15], ARM9->R[14], ARM9->R_IRQ[1]); - Log(LogLevel::Debug, "ARM7 PC=%08X LR=%08X %08X\n", ARM7->R[15], ARM7->R[14], ARM7->R_IRQ[1]); + Log(LogLevel::Debug, "ARM9 PC=%08X LR=%08X %08X\n", ARM9.R[15], ARM9.R[14], ARM9.R_IRQ[1]); + Log(LogLevel::Debug, "ARM7 PC=%08X LR=%08X %08X\n", ARM7.R[15], ARM7.R[14], ARM7.R_IRQ[1]); Log(LogLevel::Debug, "ARM9 IME=%08X IE=%08X IF=%08X\n", IME[0], IE[0], IF[0]); Log(LogLevel::Debug, "ARM7 IME=%08X IE=%08X IF=%08X IE2=%04X IF2=%04X\n", IME[1], IE[1], IF[1], IE2, IF2); @@ -2077,20 +1850,20 @@ void debug(u32 param) // printf("VRAM %c: %02X\n", 'A'+i, GPU->VRAMCNT[i]); Platform::FileHandle* shit = Platform::OpenFile("debug/DSfirmware.bin", FileMode::Write); - Platform::FileWrite(ARM9->ITCM, 0x8000, 1, shit); + Platform::FileWrite(ARM9.ITCM, 0x8000, 1, shit); for (u32 i = 0x02000000; i < 0x02400000; i+=4) { - u32 val = ARM7Read32(i); + u32 val = NDS::ARM7Read32(i); Platform::FileWrite(&val, 4, 1, shit); } for (u32 i = 0x037F0000; i < 0x03810000; i+=4) { - u32 val = ARM7Read32(i); + u32 val = NDS::ARM7Read32(i); Platform::FileWrite(&val, 4, 1, shit); } for (u32 i = 0x06000000; i < 0x06040000; i+=4) { - u32 val = ARM7Read32(i); + u32 val = NDS::ARM7Read32(i); Platform::FileWrite(&val, 4, 1, shit); } Platform::CloseFile(shit); @@ -2114,7 +1887,7 @@ void debug(u32 param) -u8 ARM9Read8(u32 addr) +u8 NDS::ARM9Read8(u32 addr) { if ((addr & 0xFFFFF000) == 0xFFFF0000) { @@ -2137,44 +1910,43 @@ u8 ARM9Read8(u32 addr) } case 0x04000000: - return ARM9IORead8(addr); + // Specifically want to call the NDS version, not a subclass + return NDS::ARM9IORead8(addr); case 0x05000000: if (!(PowerControl9 & ((addr & 0x400) ? (1<<9) : (1<<1)))) return 0; - return GPU->ReadPalette(addr); + return GPU.ReadPalette(addr); case 0x06000000: switch (addr & 0x00E00000) { - case 0x00000000: return GPU->ReadVRAM_ABG(addr); - case 0x00200000: return GPU->ReadVRAM_BBG(addr); - case 0x00400000: return GPU->ReadVRAM_AOBJ(addr); - case 0x00600000: return GPU->ReadVRAM_BOBJ(addr); - default: return GPU->ReadVRAM_LCDC(addr); + case 0x00000000: return GPU.ReadVRAM_ABG(addr); + case 0x00200000: return GPU.ReadVRAM_BBG(addr); + case 0x00400000: return GPU.ReadVRAM_AOBJ(addr); + case 0x00600000: return GPU.ReadVRAM_BOBJ(addr); + default: return GPU.ReadVRAM_LCDC(addr); } case 0x07000000: if (!(PowerControl9 & ((addr & 0x400) ? (1<<9) : (1<<1)))) return 0; - return GPU->ReadOAM(addr); + return GPU.ReadOAM(addr); case 0x08000000: case 0x09000000: if (ExMemCnt[0] & (1<<7)) return 0x00; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - if (addr & 0x1) return GBACartSlot->ROMRead(addr-1) >> 8; - return GBACartSlot->ROMRead(addr) & 0xFF; + if (addr & 0x1) return GBACartSlot.ROMRead(addr-1) >> 8; + return GBACartSlot.ROMRead(addr) & 0xFF; case 0x0A000000: if (ExMemCnt[0] & (1<<7)) return 0x00; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - return GBACartSlot->SRAMRead(addr); + return GBACartSlot.SRAMRead(addr); } Log(LogLevel::Debug, "unknown arm9 read8 %08X\n", addr); return 0; } -u16 ARM9Read16(u32 addr) +u16 NDS::ARM9Read16(u32 addr) { addr &= ~0x1; @@ -2199,44 +1971,42 @@ u16 ARM9Read16(u32 addr) } case 0x04000000: - return ARM9IORead16(addr); + return NDS::ARM9IORead16(addr); case 0x05000000: if (!(PowerControl9 & ((addr & 0x400) ? (1<<9) : (1<<1)))) return 0; - return GPU->ReadPalette(addr); + return GPU.ReadPalette(addr); case 0x06000000: switch (addr & 0x00E00000) { - case 0x00000000: return GPU->ReadVRAM_ABG(addr); - case 0x00200000: return GPU->ReadVRAM_BBG(addr); - case 0x00400000: return GPU->ReadVRAM_AOBJ(addr); - case 0x00600000: return GPU->ReadVRAM_BOBJ(addr); - default: return GPU->ReadVRAM_LCDC(addr); + case 0x00000000: return GPU.ReadVRAM_ABG(addr); + case 0x00200000: return GPU.ReadVRAM_BBG(addr); + case 0x00400000: return GPU.ReadVRAM_AOBJ(addr); + case 0x00600000: return GPU.ReadVRAM_BOBJ(addr); + default: return GPU.ReadVRAM_LCDC(addr); } case 0x07000000: if (!(PowerControl9 & ((addr & 0x400) ? (1<<9) : (1<<1)))) return 0; - return GPU->ReadOAM(addr); + return GPU.ReadOAM(addr); case 0x08000000: case 0x09000000: if (ExMemCnt[0] & (1<<7)) return 0x0000; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - return GBACartSlot->ROMRead(addr); + return GBACartSlot.ROMRead(addr); case 0x0A000000: if (ExMemCnt[0] & (1<<7)) return 0x0000; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - return GBACartSlot->SRAMRead(addr) | - (GBACartSlot->SRAMRead(addr+1) << 8); + return GBACartSlot.SRAMRead(addr) | + (GBACartSlot.SRAMRead(addr+1) << 8); } - //if (addr) Log(LogLevel::Warn, "unknown arm9 read16 %08X %08X\n", addr, ARM9->R[15]); + //if (addr) Log(LogLevel::Warn, "unknown arm9 read16 %08X %08X\n", addr, ARM9.R[15]); return 0; } -u32 ARM9Read32(u32 addr) +u32 NDS::ARM9Read32(u32 addr) { addr &= ~0x3; @@ -2261,65 +2031,63 @@ u32 ARM9Read32(u32 addr) } case 0x04000000: - return ARM9IORead32(addr); + return NDS::ARM9IORead32(addr); case 0x05000000: if (!(PowerControl9 & ((addr & 0x400) ? (1<<9) : (1<<1)))) return 0; - return GPU->ReadPalette(addr); + return GPU.ReadPalette(addr); case 0x06000000: switch (addr & 0x00E00000) { - case 0x00000000: return GPU->ReadVRAM_ABG(addr); - case 0x00200000: return GPU->ReadVRAM_BBG(addr); - case 0x00400000: return GPU->ReadVRAM_AOBJ(addr); - case 0x00600000: return GPU->ReadVRAM_BOBJ(addr); - default: return GPU->ReadVRAM_LCDC(addr); + case 0x00000000: return GPU.ReadVRAM_ABG(addr); + case 0x00200000: return GPU.ReadVRAM_BBG(addr); + case 0x00400000: return GPU.ReadVRAM_AOBJ(addr); + case 0x00600000: return GPU.ReadVRAM_BOBJ(addr); + default: return GPU.ReadVRAM_LCDC(addr); } case 0x07000000: if (!(PowerControl9 & ((addr & 0x400) ? (1<<9) : (1<<1)))) return 0; - return GPU->ReadOAM(addr & 0x7FF); + return GPU.ReadOAM(addr & 0x7FF); case 0x08000000: case 0x09000000: if (ExMemCnt[0] & (1<<7)) return 0x00000000; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - return GBACartSlot->ROMRead(addr) | - (GBACartSlot->ROMRead(addr+2) << 16); + return GBACartSlot.ROMRead(addr) | + (GBACartSlot.ROMRead(addr+2) << 16); case 0x0A000000: if (ExMemCnt[0] & (1<<7)) return 0x00000000; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - return GBACartSlot->SRAMRead(addr) | - (GBACartSlot->SRAMRead(addr+1) << 8) | - (GBACartSlot->SRAMRead(addr+2) << 16) | - (GBACartSlot->SRAMRead(addr+3) << 24); + return GBACartSlot.SRAMRead(addr) | + (GBACartSlot.SRAMRead(addr+1) << 8) | + (GBACartSlot.SRAMRead(addr+2) << 16) | + (GBACartSlot.SRAMRead(addr+3) << 24); } - //Log(LogLevel::Warn, "unknown arm9 read32 %08X | %08X %08X\n", addr, ARM9->R[15], ARM9->R[12]); + //Log(LogLevel::Warn, "unknown arm9 read32 %08X | %08X %08X\n", addr, ARM9.R[15], ARM9.R[12]); return 0; } -void ARM9Write8(u32 addr, u8 val) +void NDS::ARM9Write8(u32 addr, u8 val) { switch (addr & 0xFF000000) { case 0x02000000: - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); *(u8*)&MainRAM[addr & MainRAMMask] = val; return; case 0x03000000: if (SWRAM_ARM9.Mem) { - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_SharedWRAM>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_SharedWRAM>(addr); *(u8*)&SWRAM_ARM9.Mem[addr & SWRAM_ARM9.Mask] = val; } return; case 0x04000000: - ARM9IOWrite8(addr, val); + NDS::ARM9IOWrite8(addr, val); return; case 0x05000000: @@ -2333,142 +2101,137 @@ void ARM9Write8(u32 addr, u8 val) case 0x0A000000: if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write - assert(GBACartSlot != nullptr); - GBACartSlot->SRAMWrite(addr, val); + GBACartSlot.SRAMWrite(addr, val); return; } Log(LogLevel::Debug, "unknown arm9 write8 %08X %02X\n", addr, val); } -void ARM9Write16(u32 addr, u16 val) +void NDS::ARM9Write16(u32 addr, u16 val) { addr &= ~0x1; switch (addr & 0xFF000000) { case 0x02000000: - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); *(u16*)&MainRAM[addr & MainRAMMask] = val; return; case 0x03000000: if (SWRAM_ARM9.Mem) { - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_SharedWRAM>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_SharedWRAM>(addr); *(u16*)&SWRAM_ARM9.Mem[addr & SWRAM_ARM9.Mask] = val; } return; case 0x04000000: - ARM9IOWrite16(addr, val); + NDS::ARM9IOWrite16(addr, val); return; case 0x05000000: if (!(PowerControl9 & ((addr & 0x400) ? (1<<9) : (1<<1)))) return; - GPU->WritePalette(addr, val); + GPU.WritePalette(addr, val); return; case 0x06000000: - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_VRAM>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_VRAM>(addr); switch (addr & 0x00E00000) { - case 0x00000000: GPU->WriteVRAM_ABG(addr, val); return; - case 0x00200000: GPU->WriteVRAM_BBG(addr, val); return; - case 0x00400000: GPU->WriteVRAM_AOBJ(addr, val); return; - case 0x00600000: GPU->WriteVRAM_BOBJ(addr, val); return; - default: GPU->WriteVRAM_LCDC(addr, val); return; + case 0x00000000: GPU.WriteVRAM_ABG(addr, val); return; + case 0x00200000: GPU.WriteVRAM_BBG(addr, val); return; + case 0x00400000: GPU.WriteVRAM_AOBJ(addr, val); return; + case 0x00600000: GPU.WriteVRAM_BOBJ(addr, val); return; + default: GPU.WriteVRAM_LCDC(addr, val); return; } case 0x07000000: if (!(PowerControl9 & ((addr & 0x400) ? (1<<9) : (1<<1)))) return; - GPU->WriteOAM(addr, val); + GPU.WriteOAM(addr, val); return; case 0x08000000: case 0x09000000: if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write - assert(GBACartSlot != nullptr); - GBACartSlot->ROMWrite(addr, val); + GBACartSlot.ROMWrite(addr, val); return; case 0x0A000000: if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write - assert(GBACartSlot != nullptr); - GBACartSlot->SRAMWrite(addr, val & 0xFF); - GBACartSlot->SRAMWrite(addr+1, val >> 8); + GBACartSlot.SRAMWrite(addr, val & 0xFF); + GBACartSlot.SRAMWrite(addr+1, val >> 8); return; } //if (addr) Log(LogLevel::Warn, "unknown arm9 write16 %08X %04X\n", addr, val); } -void ARM9Write32(u32 addr, u32 val) +void NDS::ARM9Write32(u32 addr, u32 val) { addr &= ~0x3; switch (addr & 0xFF000000) { case 0x02000000: - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_MainRAM>(addr); *(u32*)&MainRAM[addr & MainRAMMask] = val; return ; case 0x03000000: if (SWRAM_ARM9.Mem) { - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_SharedWRAM>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_SharedWRAM>(addr); *(u32*)&SWRAM_ARM9.Mem[addr & SWRAM_ARM9.Mask] = val; } return; case 0x04000000: - ARM9IOWrite32(addr, val); + NDS::ARM9IOWrite32(addr, val); return; case 0x05000000: if (!(PowerControl9 & ((addr & 0x400) ? (1<<9) : (1<<1)))) return; - GPU->WritePalette(addr, val); + GPU.WritePalette(addr, val); return; case 0x06000000: - NDS::JIT->CheckAndInvalidate<0, ARMJIT_Memory::memregion_VRAM>(addr); + JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_VRAM>(addr); switch (addr & 0x00E00000) { - case 0x00000000: GPU->WriteVRAM_ABG(addr, val); return; - case 0x00200000: GPU->WriteVRAM_BBG(addr, val); return; - case 0x00400000: GPU->WriteVRAM_AOBJ(addr, val); return; - case 0x00600000: GPU->WriteVRAM_BOBJ(addr, val); return; - default: GPU->WriteVRAM_LCDC(addr, val); return; + case 0x00000000: GPU.WriteVRAM_ABG(addr, val); return; + case 0x00200000: GPU.WriteVRAM_BBG(addr, val); return; + case 0x00400000: GPU.WriteVRAM_AOBJ(addr, val); return; + case 0x00600000: GPU.WriteVRAM_BOBJ(addr, val); return; + default: GPU.WriteVRAM_LCDC(addr, val); return; } case 0x07000000: if (!(PowerControl9 & ((addr & 0x400) ? (1<<9) : (1<<1)))) return; - GPU->WriteOAM(addr, val); + GPU.WriteOAM(addr, val); return; case 0x08000000: case 0x09000000: if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write - assert(GBACartSlot != nullptr); - GBACartSlot->ROMWrite(addr, val & 0xFFFF); - GBACartSlot->ROMWrite(addr+2, val >> 16); + GBACartSlot.ROMWrite(addr, val & 0xFFFF); + GBACartSlot.ROMWrite(addr+2, val >> 16); return; case 0x0A000000: if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write - assert(GBACartSlot != nullptr); - GBACartSlot->SRAMWrite(addr, val & 0xFF); - GBACartSlot->SRAMWrite(addr+1, (val >> 8) & 0xFF); - GBACartSlot->SRAMWrite(addr+2, (val >> 16) & 0xFF); - GBACartSlot->SRAMWrite(addr+3, val >> 24); + GBACartSlot.SRAMWrite(addr, val & 0xFF); + GBACartSlot.SRAMWrite(addr+1, (val >> 8) & 0xFF); + GBACartSlot.SRAMWrite(addr+2, (val >> 16) & 0xFF); + GBACartSlot.SRAMWrite(addr+3, val >> 24); return; } - //Log(LogLevel::Warn, "unknown arm9 write32 %08X %08X | %08X\n", addr, val, ARM9->R[15]); + //Log(LogLevel::Warn, "unknown arm9 write32 %08X %08X | %08X\n", addr, val, ARM9.R[15]); } -bool ARM9GetMemRegion(u32 addr, bool write, MemRegion* region) +bool NDS::ARM9GetMemRegion(u32 addr, bool write, MemRegion* region) { switch (addr & 0xFF000000) { @@ -2500,14 +2263,14 @@ bool ARM9GetMemRegion(u32 addr, bool write, MemRegion* region) -u8 ARM7Read8(u32 addr) +u8 NDS::ARM7Read8(u32 addr) { if (addr < 0x00004000) { // TODO: check the boundary? is it 4000 or higher on regular DS? - if (ARM7->R[15] >= 0x00004000) + if (ARM7.R[15] >= 0x00004000) return 0xFF; - if (addr < ARM7BIOSProt && ARM7->R[15] >= ARM7BIOSProt) + if (addr < ARM7BIOSProt && ARM7.R[15] >= ARM7BIOSProt) return 0xFF; return *(u8*)&ARM7BIOS[addr]; @@ -2533,50 +2296,48 @@ u8 ARM7Read8(u32 addr) return *(u8*)&ARM7WRAM[addr & (ARM7WRAMSize - 1)]; case 0x04000000: - return ARM7IORead8(addr); + return NDS::ARM7IORead8(addr); case 0x04800000: if (addr < 0x04810000) { if (!(PowerControl7 & (1<<1))) return 0; - if (addr & 0x1) return Wifi->Read(addr-1) >> 8; - return Wifi->Read(addr) & 0xFF; + if (addr & 0x1) return Wifi.Read(addr-1) >> 8; + return Wifi.Read(addr) & 0xFF; } break; case 0x06000000: case 0x06800000: - return GPU->ReadVRAM_ARM7(addr); + return GPU.ReadVRAM_ARM7(addr); case 0x08000000: case 0x08800000: case 0x09000000: case 0x09800000: if (!(ExMemCnt[0] & (1<<7))) return 0x00; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - if (addr & 0x1) return GBACartSlot->ROMRead(addr-1) >> 8; - return GBACartSlot->ROMRead(addr) & 0xFF; + if (addr & 0x1) return GBACartSlot.ROMRead(addr-1) >> 8; + return GBACartSlot.ROMRead(addr) & 0xFF; case 0x0A000000: case 0x0A800000: if (!(ExMemCnt[0] & (1<<7))) return 0x00; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - return GBACartSlot->SRAMRead(addr); + return GBACartSlot.SRAMRead(addr); } - Log(LogLevel::Debug, "unknown arm7 read8 %08X %08X %08X/%08X\n", addr, ARM7->R[15], ARM7->R[0], ARM7->R[1]); + Log(LogLevel::Debug, "unknown arm7 read8 %08X %08X %08X/%08X\n", addr, ARM7.R[15], ARM7.R[0], ARM7.R[1]); return 0; } -u16 ARM7Read16(u32 addr) +u16 NDS::ARM7Read16(u32 addr) { addr &= ~0x1; if (addr < 0x00004000) { - if (ARM7->R[15] >= 0x00004000) + if (ARM7.R[15] >= 0x00004000) return 0xFFFF; - if (addr < ARM7BIOSProt && ARM7->R[15] >= ARM7BIOSProt) + if (addr < ARM7BIOSProt && ARM7.R[15] >= ARM7BIOSProt) return 0xFFFF; return *(u16*)&ARM7BIOS[addr]; @@ -2602,49 +2363,47 @@ u16 ARM7Read16(u32 addr) return *(u16*)&ARM7WRAM[addr & (ARM7WRAMSize - 1)]; case 0x04000000: - return ARM7IORead16(addr); + return NDS::ARM7IORead16(addr); case 0x04800000: if (addr < 0x04810000) { if (!(PowerControl7 & (1<<1))) return 0; - return Wifi->Read(addr); + return Wifi.Read(addr); } break; case 0x06000000: case 0x06800000: - return GPU->ReadVRAM_ARM7(addr); + return GPU.ReadVRAM_ARM7(addr); case 0x08000000: case 0x08800000: case 0x09000000: case 0x09800000: if (!(ExMemCnt[0] & (1<<7))) return 0x0000; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - return GBACartSlot->ROMRead(addr); + return GBACartSlot.ROMRead(addr); case 0x0A000000: case 0x0A800000: if (!(ExMemCnt[0] & (1<<7))) return 0x0000; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - return GBACartSlot->SRAMRead(addr) | - (GBACartSlot->SRAMRead(addr+1) << 8); + return GBACartSlot.SRAMRead(addr) | + (GBACartSlot.SRAMRead(addr+1) << 8); } - Log(LogLevel::Debug, "unknown arm7 read16 %08X %08X\n", addr, ARM7->R[15]); + Log(LogLevel::Debug, "unknown arm7 read16 %08X %08X\n", addr, ARM7.R[15]); return 0; } -u32 ARM7Read32(u32 addr) +u32 NDS::ARM7Read32(u32 addr) { addr &= ~0x3; if (addr < 0x00004000) { - if (ARM7->R[15] >= 0x00004000) + if (ARM7.R[15] >= 0x00004000) return 0xFFFFFFFF; - if (addr < ARM7BIOSProt && ARM7->R[15] >= ARM7BIOSProt) + if (addr < ARM7BIOSProt && ARM7.R[15] >= ARM7BIOSProt) return 0xFFFFFFFF; return *(u32*)&ARM7BIOS[addr]; @@ -2670,80 +2429,78 @@ u32 ARM7Read32(u32 addr) return *(u32*)&ARM7WRAM[addr & (ARM7WRAMSize - 1)]; case 0x04000000: - return ARM7IORead32(addr); + return NDS::ARM7IORead32(addr); case 0x04800000: if (addr < 0x04810000) { if (!(PowerControl7 & (1<<1))) return 0; - return Wifi->Read(addr) | (Wifi->Read(addr+2) << 16); + return Wifi.Read(addr) | (Wifi.Read(addr+2) << 16); } break; case 0x06000000: case 0x06800000: - return GPU->ReadVRAM_ARM7(addr); + return GPU.ReadVRAM_ARM7(addr); case 0x08000000: case 0x08800000: case 0x09000000: case 0x09800000: if (!(ExMemCnt[0] & (1<<7))) return 0x00000000; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - return GBACartSlot->ROMRead(addr) | - (GBACartSlot->ROMRead(addr+2) << 16); + return GBACartSlot.ROMRead(addr) | + (GBACartSlot.ROMRead(addr+2) << 16); case 0x0A000000: case 0x0A800000: if (!(ExMemCnt[0] & (1<<7))) return 0x00000000; // deselected CPU is 00h-filled - assert(GBACartSlot != nullptr); - return GBACartSlot->SRAMRead(addr) | - (GBACartSlot->SRAMRead(addr+1) << 8) | - (GBACartSlot->SRAMRead(addr+2) << 16) | - (GBACartSlot->SRAMRead(addr+3) << 24); + return GBACartSlot.SRAMRead(addr) | + (GBACartSlot.SRAMRead(addr+1) << 8) | + (GBACartSlot.SRAMRead(addr+2) << 16) | + (GBACartSlot.SRAMRead(addr+3) << 24); } - //Log(LogLevel::Warn, "unknown arm7 read32 %08X | %08X\n", addr, ARM7->R[15]); + //Log(LogLevel::Warn, "unknown arm7 read32 %08X | %08X\n", addr, ARM7.R[15]); return 0; } -void ARM7Write8(u32 addr, u8 val) +void NDS::ARM7Write8(u32 addr, u8 val) { switch (addr & 0xFF800000) { case 0x02000000: case 0x02800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); *(u8*)&MainRAM[addr & MainRAMMask] = val; return; case 0x03000000: if (SWRAM_ARM7.Mem) { - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_SharedWRAM>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_SharedWRAM>(addr); *(u8*)&SWRAM_ARM7.Mem[addr & SWRAM_ARM7.Mask] = val; return; } else { - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); *(u8*)&ARM7WRAM[addr & (ARM7WRAMSize - 1)] = val; return; } case 0x03800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); *(u8*)&ARM7WRAM[addr & (ARM7WRAMSize - 1)] = val; return; case 0x04000000: - ARM7IOWrite8(addr, val); + NDS::ARM7IOWrite8(addr, val); return; case 0x06000000: case 0x06800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_VWRAM>(addr); - GPU->WriteVRAM_ARM7(addr, val); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_VWRAM>(addr); + GPU.WriteVRAM_ARM7(addr, val); return; case 0x08000000: @@ -2755,17 +2512,16 @@ void ARM7Write8(u32 addr, u8 val) case 0x0A000000: case 0x0A800000: if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write - assert(GBACartSlot != nullptr); - GBACartSlot->SRAMWrite(addr, val); + GBACartSlot.SRAMWrite(addr, val); return; } - //if (ARM7->R[15] > 0x00002F30) // ARM7 BIOS bug + //if (ARM7.R[15] > 0x00002F30) // ARM7 BIOS bug if (addr >= 0x01000000) - Log(LogLevel::Debug, "unknown arm7 write8 %08X %02X @ %08X\n", addr, val, ARM7->R[15]); + Log(LogLevel::Debug, "unknown arm7 write8 %08X %02X @ %08X\n", addr, val, ARM7.R[15]); } -void ARM7Write16(u32 addr, u16 val) +void NDS::ARM7Write16(u32 addr, u16 val) { addr &= ~0x1; @@ -2773,46 +2529,46 @@ void ARM7Write16(u32 addr, u16 val) { case 0x02000000: case 0x02800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); *(u16*)&MainRAM[addr & MainRAMMask] = val; return; case 0x03000000: if (SWRAM_ARM7.Mem) { - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_SharedWRAM>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_SharedWRAM>(addr); *(u16*)&SWRAM_ARM7.Mem[addr & SWRAM_ARM7.Mask] = val; return; } else { - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); *(u16*)&ARM7WRAM[addr & (ARM7WRAMSize - 1)] = val; return; } case 0x03800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); *(u16*)&ARM7WRAM[addr & (ARM7WRAMSize - 1)] = val; return; case 0x04000000: - ARM7IOWrite16(addr, val); + NDS::ARM7IOWrite16(addr, val); return; case 0x04800000: if (addr < 0x04810000) { if (!(PowerControl7 & (1<<1))) return; - Wifi->Write(addr, val); + Wifi.Write(addr, val); return; } break; case 0x06000000: case 0x06800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_VWRAM>(addr); - GPU->WriteVRAM_ARM7(addr, val); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_VWRAM>(addr); + GPU.WriteVRAM_ARM7(addr, val); return; case 0x08000000: @@ -2820,23 +2576,22 @@ void ARM7Write16(u32 addr, u16 val) case 0x09000000: case 0x09800000: if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write - assert(GBACartSlot != nullptr); - GBACartSlot->ROMWrite(addr, val); + GBACartSlot.ROMWrite(addr, val); return; case 0x0A000000: case 0x0A800000: if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write - GBACartSlot->SRAMWrite(addr, val & 0xFF); - GBACartSlot->SRAMWrite(addr+1, val >> 8); + GBACartSlot.SRAMWrite(addr, val & 0xFF); + GBACartSlot.SRAMWrite(addr+1, val >> 8); return; } if (addr >= 0x01000000) - Log(LogLevel::Debug, "unknown arm7 write16 %08X %04X @ %08X\n", addr, val, ARM7->R[15]); + Log(LogLevel::Debug, "unknown arm7 write16 %08X %04X @ %08X\n", addr, val, ARM7.R[15]); } -void ARM7Write32(u32 addr, u32 val) +void NDS::ARM7Write32(u32 addr, u32 val) { addr &= ~0x3; @@ -2844,47 +2599,47 @@ void ARM7Write32(u32 addr, u32 val) { case 0x02000000: case 0x02800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_MainRAM>(addr); *(u32*)&MainRAM[addr & MainRAMMask] = val; return; case 0x03000000: if (SWRAM_ARM7.Mem) { - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_SharedWRAM>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_SharedWRAM>(addr); *(u32*)&SWRAM_ARM7.Mem[addr & SWRAM_ARM7.Mask] = val; return; } else { - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); *(u32*)&ARM7WRAM[addr & (ARM7WRAMSize - 1)] = val; return; } case 0x03800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_WRAM7>(addr); *(u32*)&ARM7WRAM[addr & (ARM7WRAMSize - 1)] = val; return; case 0x04000000: - ARM7IOWrite32(addr, val); + NDS::ARM7IOWrite32(addr, val); return; case 0x04800000: if (addr < 0x04810000) { if (!(PowerControl7 & (1<<1))) return; - Wifi->Write(addr, val & 0xFFFF); - Wifi->Write(addr+2, val >> 16); + Wifi.Write(addr, val & 0xFFFF); + Wifi.Write(addr+2, val >> 16); return; } break; case 0x06000000: case 0x06800000: - NDS::JIT->CheckAndInvalidate<1, ARMJIT_Memory::memregion_VWRAM>(addr); - GPU->WriteVRAM_ARM7(addr, val); + JIT.CheckAndInvalidate<1, ARMJIT_Memory::memregion_VWRAM>(addr); + GPU.WriteVRAM_ARM7(addr, val); return; case 0x08000000: @@ -2892,27 +2647,25 @@ void ARM7Write32(u32 addr, u32 val) case 0x09000000: case 0x09800000: if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write - assert(GBACartSlot != nullptr); - GBACartSlot->ROMWrite(addr, val & 0xFFFF); - GBACartSlot->ROMWrite(addr+2, val >> 16); + GBACartSlot.ROMWrite(addr, val & 0xFFFF); + GBACartSlot.ROMWrite(addr+2, val >> 16); return; case 0x0A000000: case 0x0A800000: if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write - assert(GBACartSlot != nullptr); - GBACartSlot->SRAMWrite(addr, val & 0xFF); - GBACartSlot->SRAMWrite(addr+1, (val >> 8) & 0xFF); - GBACartSlot->SRAMWrite(addr+2, (val >> 16) & 0xFF); - GBACartSlot->SRAMWrite(addr+3, val >> 24); + GBACartSlot.SRAMWrite(addr, val & 0xFF); + GBACartSlot.SRAMWrite(addr+1, (val >> 8) & 0xFF); + GBACartSlot.SRAMWrite(addr+2, (val >> 16) & 0xFF); + GBACartSlot.SRAMWrite(addr+3, val >> 24); return; } if (addr >= 0x01000000) - Log(LogLevel::Debug, "unknown arm7 write32 %08X %08X @ %08X\n", addr, val, ARM7->R[15]); + Log(LogLevel::Debug, "unknown arm7 write32 %08X %08X @ %08X\n", addr, val, ARM7.R[15]); } -bool ARM7GetMemRegion(u32 addr, bool write, MemRegion* region) +bool NDS::ARM7GetMemRegion(u32 addr, bool write, MemRegion* region) { switch (addr & 0xFF800000) { @@ -2945,7 +2698,7 @@ bool ARM7GetMemRegion(u32 addr, bool write, MemRegion* region) // BIOS. ARM7 PC has to be within range. if (addr < 0x00004000 && !write) { - if (ARM7->R[15] < 0x4000 && (addr >= ARM7BIOSProt || ARM7->R[15] < ARM7BIOSProt)) + if (ARM7.R[15] < 0x4000 && (addr >= ARM7BIOSProt || ARM7.R[15] < ARM7BIOSProt)) { region->Mem = ARM7BIOS; region->Mask = 0x3FFF; @@ -2970,7 +2723,7 @@ bool ARM7GetMemRegion(u32 addr, bool write, MemRegion* region) case (addr+2): return ((val) >> 16) & 0xFF; \ case (addr+3): return (val) >> 24; -u8 ARM9IORead8(u32 addr) +u8 NDS::ARM9IORead8(u32 addr) { switch (addr) { @@ -2981,54 +2734,54 @@ u8 ARM9IORead8(u32 addr) case 0x040001A2: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->ReadSPIData(); + return NDSCartSlot.ReadSPIData(); return 0; case 0x040001A8: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(0); + return NDSCartSlot.GetROMCommand(0); return 0; case 0x040001A9: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(1); + return NDSCartSlot.GetROMCommand(1); return 0; case 0x040001AA: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(2); + return NDSCartSlot.GetROMCommand(2); return 0; case 0x040001AB: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(3); + return NDSCartSlot.GetROMCommand(3); return 0; case 0x040001AC: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(4); + return NDSCartSlot.GetROMCommand(4); return 0; case 0x040001AD: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(5); + return NDSCartSlot.GetROMCommand(5); return 0; case 0x040001AE: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(6); + return NDSCartSlot.GetROMCommand(6); return 0; case 0x040001AF: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(7); + return NDSCartSlot.GetROMCommand(7); return 0; case 0x04000208: return IME[0]; - case 0x04000240: return GPU->VRAMCNT[0]; - case 0x04000241: return GPU->VRAMCNT[1]; - case 0x04000242: return GPU->VRAMCNT[2]; - case 0x04000243: return GPU->VRAMCNT[3]; - case 0x04000244: return GPU->VRAMCNT[4]; - case 0x04000245: return GPU->VRAMCNT[5]; - case 0x04000246: return GPU->VRAMCNT[6]; + case 0x04000240: return GPU.VRAMCNT[0]; + case 0x04000241: return GPU.VRAMCNT[1]; + case 0x04000242: return GPU.VRAMCNT[2]; + case 0x04000243: return GPU.VRAMCNT[3]; + case 0x04000244: return GPU.VRAMCNT[4]; + case 0x04000245: return GPU.VRAMCNT[5]; + case 0x04000246: return GPU.VRAMCNT[6]; case 0x04000247: return WRAMCnt; - case 0x04000248: return GPU->VRAMCNT[7]; - case 0x04000249: return GPU->VRAMCNT[8]; + case 0x04000248: return GPU.VRAMCNT[7]; + case 0x04000249: return GPU.VRAMCNT[8]; CASE_READ8_16BIT(0x04000280, DivCnt) CASE_READ8_32BIT(0x04000290, DivNumerator[0]) @@ -3050,15 +2803,15 @@ u8 ARM9IORead8(u32 addr) if (addr >= 0x04000000 && addr < 0x04000060) { - return GPU->GPU2D_A.Read8(addr); + return GPU.GPU2D_A.Read8(addr); } if (addr >= 0x04001000 && addr < 0x04001060) { - return GPU->GPU2D_B.Read8(addr); + return GPU.GPU2D_B.Read8(addr); } if (addr >= 0x04000320 && addr < 0x040006A4) { - return GPU->GPU3D.Read8(addr); + return GPU.GPU3D.Read8(addr); } // NO$GBA debug register "Emulation ID" if(addr >= 0x04FFFA00 && addr < 0x04FFFA10) @@ -3070,29 +2823,29 @@ u8 ARM9IORead8(u32 addr) } if ((addr & 0xFFFFF000) != 0x04004000) - Log(LogLevel::Debug, "unknown ARM9 IO read8 %08X %08X\n", addr, ARM9->R[15]); + Log(LogLevel::Debug, "unknown ARM9 IO read8 %08X %08X\n", addr, ARM9.R[15]); return 0; } -u16 ARM9IORead16(u32 addr) +u16 NDS::ARM9IORead16(u32 addr) { switch (addr) { - case 0x04000004: return GPU->DispStat[0]; - case 0x04000006: return GPU->VCount; + case 0x04000004: return GPU.DispStat[0]; + case 0x04000006: return GPU.VCount; - case 0x04000060: return GPU->GPU3D.Read16(addr); + case 0x04000060: return GPU.GPU3D.Read16(addr); case 0x04000064: - case 0x04000066: return GPU->GPU2D_A.Read16(addr); + case 0x04000066: return GPU.GPU2D_A.Read16(addr); - case 0x040000B8: return DMAs[0]->Cnt & 0xFFFF; - case 0x040000BA: return DMAs[0]->Cnt >> 16; - case 0x040000C4: return DMAs[1]->Cnt & 0xFFFF; - case 0x040000C6: return DMAs[1]->Cnt >> 16; - case 0x040000D0: return DMAs[2]->Cnt & 0xFFFF; - case 0x040000D2: return DMAs[2]->Cnt >> 16; - case 0x040000DC: return DMAs[3]->Cnt & 0xFFFF; - case 0x040000DE: return DMAs[3]->Cnt >> 16; + case 0x040000B8: return DMAs[0].Cnt & 0xFFFF; + case 0x040000BA: return DMAs[0].Cnt >> 16; + case 0x040000C4: return DMAs[1].Cnt & 0xFFFF; + case 0x040000C6: return DMAs[1].Cnt >> 16; + case 0x040000D0: return DMAs[2].Cnt & 0xFFFF; + case 0x040000D2: return DMAs[2].Cnt >> 16; + case 0x040000DC: return DMAs[3].Cnt & 0xFFFF; + case 0x040000DE: return DMAs[3].Cnt >> 16; case 0x040000E0: return ((u16*)DMA9Fill)[0]; case 0x040000E2: return ((u16*)DMA9Fill)[1]; @@ -3128,32 +2881,32 @@ u16 ARM9IORead16(u32 addr) case 0x040001A0: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetSPICnt(); + return NDSCartSlot.GetSPICnt(); return 0; case 0x040001A2: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->ReadSPIData(); + return NDSCartSlot.ReadSPIData(); return 0; case 0x040001A8: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(0) | - (NDSCartSlot->GetROMCommand(1) << 8); + return NDSCartSlot.GetROMCommand(0) | + (NDSCartSlot.GetROMCommand(1) << 8); return 0; case 0x040001AA: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(2) | - (NDSCartSlot->GetROMCommand(3) << 8); + return NDSCartSlot.GetROMCommand(2) | + (NDSCartSlot.GetROMCommand(3) << 8); return 0; case 0x040001AC: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(4) | - (NDSCartSlot->GetROMCommand(5) << 8); + return NDSCartSlot.GetROMCommand(4) | + (NDSCartSlot.GetROMCommand(5) << 8); return 0; case 0x040001AE: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(6) | - (NDSCartSlot->GetROMCommand(7) << 8); + return NDSCartSlot.GetROMCommand(6) | + (NDSCartSlot.GetROMCommand(7) << 8); return 0; case 0x04000204: return ExMemCnt[0]; @@ -3161,11 +2914,11 @@ u16 ARM9IORead16(u32 addr) case 0x04000210: return IE[0] & 0xFFFF; case 0x04000212: return IE[0] >> 16; - case 0x04000240: return GPU->VRAMCNT[0] | (GPU->VRAMCNT[1] << 8); - case 0x04000242: return GPU->VRAMCNT[2] | (GPU->VRAMCNT[3] << 8); - case 0x04000244: return GPU->VRAMCNT[4] | (GPU->VRAMCNT[5] << 8); - case 0x04000246: return GPU->VRAMCNT[6] | (WRAMCnt << 8); - case 0x04000248: return GPU->VRAMCNT[7] | (GPU->VRAMCNT[8] << 8); + case 0x04000240: return GPU.VRAMCNT[0] | (GPU.VRAMCNT[1] << 8); + case 0x04000242: return GPU.VRAMCNT[2] | (GPU.VRAMCNT[3] << 8); + case 0x04000244: return GPU.VRAMCNT[4] | (GPU.VRAMCNT[5] << 8); + case 0x04000246: return GPU.VRAMCNT[6] | (WRAMCnt << 8); + case 0x04000248: return GPU.VRAMCNT[7] | (GPU.VRAMCNT[8] << 8); case 0x04000280: return DivCnt; case 0x04000290: return DivNumerator[0] & 0xFFFF; @@ -3205,43 +2958,43 @@ u16 ARM9IORead16(u32 addr) if ((addr >= 0x04000000 && addr < 0x04000060) || (addr == 0x0400006C)) { - return GPU->GPU2D_A.Read16(addr); + return GPU.GPU2D_A.Read16(addr); } if ((addr >= 0x04001000 && addr < 0x04001060) || (addr == 0x0400106C)) { - return GPU->GPU2D_B.Read16(addr); + return GPU.GPU2D_B.Read16(addr); } if (addr >= 0x04000320 && addr < 0x040006A4) { - return GPU->GPU3D.Read16(addr); + return GPU.GPU3D.Read16(addr); } if ((addr & 0xFFFFF000) != 0x04004000) - Log(LogLevel::Debug, "unknown ARM9 IO read16 %08X %08X\n", addr, ARM9->R[15]); + Log(LogLevel::Debug, "unknown ARM9 IO read16 %08X %08X\n", addr, ARM9.R[15]); return 0; } -u32 ARM9IORead32(u32 addr) +u32 NDS::ARM9IORead32(u32 addr) { switch (addr) { - case 0x04000004: return GPU->DispStat[0] | (GPU->VCount << 16); + case 0x04000004: return GPU.DispStat[0] | (GPU.VCount << 16); - case 0x04000060: return GPU->GPU3D.Read32(addr); - case 0x04000064: return GPU->GPU2D_A.Read32(addr); + case 0x04000060: return GPU.GPU3D.Read32(addr); + case 0x04000064: return GPU.GPU2D_A.Read32(addr); - case 0x040000B0: return DMAs[0]->SrcAddr; - case 0x040000B4: return DMAs[0]->DstAddr; - case 0x040000B8: return DMAs[0]->Cnt; - case 0x040000BC: return DMAs[1]->SrcAddr; - case 0x040000C0: return DMAs[1]->DstAddr; - case 0x040000C4: return DMAs[1]->Cnt; - case 0x040000C8: return DMAs[2]->SrcAddr; - case 0x040000CC: return DMAs[2]->DstAddr; - case 0x040000D0: return DMAs[2]->Cnt; - case 0x040000D4: return DMAs[3]->SrcAddr; - case 0x040000D8: return DMAs[3]->DstAddr; - case 0x040000DC: return DMAs[3]->Cnt; + case 0x040000B0: return DMAs[0].SrcAddr; + case 0x040000B4: return DMAs[0].DstAddr; + case 0x040000B8: return DMAs[0].Cnt; + case 0x040000BC: return DMAs[1].SrcAddr; + case 0x040000C0: return DMAs[1].DstAddr; + case 0x040000C4: return DMAs[1].Cnt; + case 0x040000C8: return DMAs[2].SrcAddr; + case 0x040000CC: return DMAs[2].DstAddr; + case 0x040000D0: return DMAs[2].Cnt; + case 0x040000D4: return DMAs[3].SrcAddr; + case 0x040000D8: return DMAs[3].DstAddr; + case 0x040000DC: return DMAs[3].Cnt; case 0x040000E0: return DMA9Fill[0]; case 0x040000E4: return DMA9Fill[1]; @@ -3258,39 +3011,39 @@ u32 ARM9IORead32(u32 addr) case 0x04000130: LagFrameFlag = false; return (KeyInput & 0xFFFF) | (KeyCnt[0] << 16); case 0x04000180: return IPCSync9; - case 0x04000184: return ARM9IORead16(addr); + case 0x04000184: return NDS::ARM9IORead16(addr); case 0x040001A0: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetSPICnt() | (NDSCartSlot->ReadSPIData() << 16); + return NDSCartSlot.GetSPICnt() | (NDSCartSlot.ReadSPIData() << 16); return 0; case 0x040001A4: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCnt(); + return NDSCartSlot.GetROMCnt(); return 0; case 0x040001A8: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(0) | - (NDSCartSlot->GetROMCommand(1) << 8) | - (NDSCartSlot->GetROMCommand(2) << 16) | - (NDSCartSlot->GetROMCommand(3) << 24); + return NDSCartSlot.GetROMCommand(0) | + (NDSCartSlot.GetROMCommand(1) << 8) | + (NDSCartSlot.GetROMCommand(2) << 16) | + (NDSCartSlot.GetROMCommand(3) << 24); return 0; case 0x040001AC: if (!(ExMemCnt[0] & (1<<11))) - return NDSCartSlot->GetROMCommand(4) | - (NDSCartSlot->GetROMCommand(5) << 8) | - (NDSCartSlot->GetROMCommand(6) << 16) | - (NDSCartSlot->GetROMCommand(7) << 24); + return NDSCartSlot.GetROMCommand(4) | + (NDSCartSlot.GetROMCommand(5) << 8) | + (NDSCartSlot.GetROMCommand(6) << 16) | + (NDSCartSlot.GetROMCommand(7) << 24); return 0; case 0x04000208: return IME[0]; case 0x04000210: return IE[0]; case 0x04000214: return IF[0]; - case 0x04000240: return GPU->VRAMCNT[0] | (GPU->VRAMCNT[1] << 8) | (GPU->VRAMCNT[2] << 16) | (GPU->VRAMCNT[3] << 24); - case 0x04000244: return GPU->VRAMCNT[4] | (GPU->VRAMCNT[5] << 8) | (GPU->VRAMCNT[6] << 16) | (WRAMCnt << 24); - case 0x04000248: return GPU->VRAMCNT[7] | (GPU->VRAMCNT[8] << 8); + case 0x04000240: return GPU.VRAMCNT[0] | (GPU.VRAMCNT[1] << 8) | (GPU.VRAMCNT[2] << 16) | (GPU.VRAMCNT[3] << 24); + case 0x04000244: return GPU.VRAMCNT[4] | (GPU.VRAMCNT[5] << 8) | (GPU.VRAMCNT[6] << 16) | (WRAMCnt << 24); + case 0x04000248: return GPU.VRAMCNT[7] | (GPU.VRAMCNT[8] << 8); case 0x04000280: return DivCnt; case 0x04000290: return DivNumerator[0]; @@ -3332,7 +3085,7 @@ u32 ARM9IORead32(u32 addr) return IPCFIFO7.Peek(); case 0x04100010: - if (!(ExMemCnt[0] & (1<<11))) return NDSCartSlot->ReadROMData(); + if (!(ExMemCnt[0] & (1<<11))) return NDSCartSlot.ReadROMData(); return 0; case 0x04004000: @@ -3349,30 +3102,30 @@ u32 ARM9IORead32(u32 addr) if ((addr >= 0x04000000 && addr < 0x04000060) || (addr == 0x0400006C)) { - return GPU->GPU2D_A.Read32(addr); + return GPU.GPU2D_A.Read32(addr); } if ((addr >= 0x04001000 && addr < 0x04001060) || (addr == 0x0400106C)) { - return GPU->GPU2D_B.Read32(addr); + return GPU.GPU2D_B.Read32(addr); } if (addr >= 0x04000320 && addr < 0x040006A4) { - return GPU->GPU3D.Read32(addr); + return GPU.GPU3D.Read32(addr); } if ((addr & 0xFFFFF000) != 0x04004000) - Log(LogLevel::Debug, "unknown ARM9 IO read32 %08X %08X\n", addr, ARM9->R[15]); + Log(LogLevel::Debug, "unknown ARM9 IO read32 %08X %08X\n", addr, ARM9.R[15]); return 0; } -void ARM9IOWrite8(u32 addr, u8 val) +void NDS::ARM9IOWrite8(u32 addr, u8 val) { switch (addr) { case 0x0400006C: - case 0x0400006D: GPU->GPU2D_A.Write8(addr, val); return; + case 0x0400006D: GPU.GPU2D_A.Write8(addr, val); return; case 0x0400106C: - case 0x0400106D: GPU->GPU2D_B.Write8(addr, val); return; + case 0x0400106D: GPU.GPU2D_B.Write8(addr, val); return; case 0x04000132: KeyCnt[0] = (KeyCnt[0] & 0xFF00) | val; @@ -3382,43 +3135,43 @@ void ARM9IOWrite8(u32 addr, u8 val) return; case 0x04000188: - ARM9IOWrite32(addr, val | (val << 8) | (val << 16) | (val << 24)); + NDS::ARM9IOWrite32(addr, val | (val << 8) | (val << 16) | (val << 24)); return; case 0x040001A0: if (!(ExMemCnt[0] & (1<<11))) - NDSCartSlot->WriteSPICnt((NDSCartSlot->GetSPICnt() & 0xFF00) | val); + NDSCartSlot.WriteSPICnt((NDSCartSlot.GetSPICnt() & 0xFF00) | val); return; case 0x040001A1: if (!(ExMemCnt[0] & (1<<11))) - NDSCartSlot->WriteSPICnt((NDSCartSlot->GetSPICnt() & 0x00FF) | (val << 8)); + NDSCartSlot.WriteSPICnt((NDSCartSlot.GetSPICnt() & 0x00FF) | (val << 8)); return; case 0x040001A2: if (!(ExMemCnt[0] & (1<<11))) - NDSCartSlot->WriteSPIData(val); + NDSCartSlot.WriteSPIData(val); return; - case 0x040001A8: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot->SetROMCommand(0, val); return; - case 0x040001A9: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot->SetROMCommand(1, val); return; - case 0x040001AA: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot->SetROMCommand(2, val); return; - case 0x040001AB: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot->SetROMCommand(3, val); return; - case 0x040001AC: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot->SetROMCommand(4, val); return; - case 0x040001AD: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot->SetROMCommand(5, val); return; - case 0x040001AE: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot->SetROMCommand(6, val); return; - case 0x040001AF: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot->SetROMCommand(7, val); return; + case 0x040001A8: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot.SetROMCommand(0, val); return; + case 0x040001A9: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot.SetROMCommand(1, val); return; + case 0x040001AA: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot.SetROMCommand(2, val); return; + case 0x040001AB: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot.SetROMCommand(3, val); return; + case 0x040001AC: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot.SetROMCommand(4, val); return; + case 0x040001AD: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot.SetROMCommand(5, val); return; + case 0x040001AE: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot.SetROMCommand(6, val); return; + case 0x040001AF: if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot.SetROMCommand(7, val); return; case 0x04000208: IME[0] = val & 0x1; UpdateIRQ(0); return; - case 0x04000240: GPU->MapVRAM_AB(0, val); return; - case 0x04000241: GPU->MapVRAM_AB(1, val); return; - case 0x04000242: GPU->MapVRAM_CD(2, val); return; - case 0x04000243: GPU->MapVRAM_CD(3, val); return; - case 0x04000244: GPU->MapVRAM_E(4, val); return; - case 0x04000245: GPU->MapVRAM_FG(5, val); return; - case 0x04000246: GPU->MapVRAM_FG(6, val); return; + case 0x04000240: GPU.MapVRAM_AB(0, val); return; + case 0x04000241: GPU.MapVRAM_AB(1, val); return; + case 0x04000242: GPU.MapVRAM_CD(2, val); return; + case 0x04000243: GPU.MapVRAM_CD(3, val); return; + case 0x04000244: GPU.MapVRAM_E(4, val); return; + case 0x04000245: GPU.MapVRAM_FG(5, val); return; + case 0x04000246: GPU.MapVRAM_FG(6, val); return; case 0x04000247: MapSharedWRAM(val); return; - case 0x04000248: GPU->MapVRAM_H(7, val); return; - case 0x04000249: GPU->MapVRAM_I(8, val); return; + case 0x04000248: GPU.MapVRAM_H(7, val); return; + case 0x04000249: GPU.MapVRAM_I(8, val); return; case 0x04000300: if (PostFlag9 & 0x01) val |= 0x01; @@ -3428,46 +3181,46 @@ void ARM9IOWrite8(u32 addr, u8 val) if (addr >= 0x04000000 && addr < 0x04000060) { - GPU->GPU2D_A.Write8(addr, val); + GPU.GPU2D_A.Write8(addr, val); return; } if (addr >= 0x04001000 && addr < 0x04001060) { - GPU->GPU2D_B.Write8(addr, val); + GPU.GPU2D_B.Write8(addr, val); return; } if (addr >= 0x04000320 && addr < 0x040006A4) { - GPU->GPU3D.Write8(addr, val); + GPU.GPU3D.Write8(addr, val); return; } - Log(LogLevel::Debug, "unknown ARM9 IO write8 %08X %02X %08X\n", addr, val, ARM9->R[15]); + Log(LogLevel::Debug, "unknown ARM9 IO write8 %08X %02X %08X\n", addr, val, ARM9.R[15]); } -void ARM9IOWrite16(u32 addr, u16 val) +void NDS::ARM9IOWrite16(u32 addr, u16 val) { switch (addr) { - case 0x04000004: GPU->SetDispStat(0, val); return; - case 0x04000006: GPU->SetVCount(val); return; + case 0x04000004: GPU.SetDispStat(0, val); return; + case 0x04000006: GPU.SetVCount(val); return; - case 0x04000060: GPU->GPU3D.Write16(addr, val); return; + case 0x04000060: GPU.GPU3D.Write16(addr, val); return; case 0x04000068: - case 0x0400006A: GPU->GPU2D_A.Write16(addr, val); return; + case 0x0400006A: GPU.GPU2D_A.Write16(addr, val); return; - case 0x0400006C: GPU->GPU2D_A.Write16(addr, val); return; - case 0x0400106C: GPU->GPU2D_B.Write16(addr, val); return; + case 0x0400006C: GPU.GPU2D_A.Write16(addr, val); return; + case 0x0400106C: GPU.GPU2D_B.Write16(addr, val); return; - case 0x040000B8: DMAs[0]->WriteCnt((DMAs[0]->Cnt & 0xFFFF0000) | val); return; - case 0x040000BA: DMAs[0]->WriteCnt((DMAs[0]->Cnt & 0x0000FFFF) | (val << 16)); return; - case 0x040000C4: DMAs[1]->WriteCnt((DMAs[1]->Cnt & 0xFFFF0000) | val); return; - case 0x040000C6: DMAs[1]->WriteCnt((DMAs[1]->Cnt & 0x0000FFFF) | (val << 16)); return; - case 0x040000D0: DMAs[2]->WriteCnt((DMAs[2]->Cnt & 0xFFFF0000) | val); return; - case 0x040000D2: DMAs[2]->WriteCnt((DMAs[2]->Cnt & 0x0000FFFF) | (val << 16)); return; - case 0x040000DC: DMAs[3]->WriteCnt((DMAs[3]->Cnt & 0xFFFF0000) | val); return; - case 0x040000DE: DMAs[3]->WriteCnt((DMAs[3]->Cnt & 0x0000FFFF) | (val << 16)); return; + case 0x040000B8: DMAs[0].WriteCnt((DMAs[0].Cnt & 0xFFFF0000) | val); return; + case 0x040000BA: DMAs[0].WriteCnt((DMAs[0].Cnt & 0x0000FFFF) | (val << 16)); return; + case 0x040000C4: DMAs[1].WriteCnt((DMAs[1].Cnt & 0xFFFF0000) | val); return; + case 0x040000C6: DMAs[1].WriteCnt((DMAs[1].Cnt & 0x0000FFFF) | (val << 16)); return; + case 0x040000D0: DMAs[2].WriteCnt((DMAs[2].Cnt & 0xFFFF0000) | val); return; + case 0x040000D2: DMAs[2].WriteCnt((DMAs[2].Cnt & 0x0000FFFF) | (val << 16)); return; + case 0x040000DC: DMAs[3].WriteCnt((DMAs[3].Cnt & 0xFFFF0000) | val); return; + case 0x040000DE: DMAs[3].WriteCnt((DMAs[3].Cnt & 0x0000FFFF) | (val << 16)); return; case 0x040000E0: DMA9Fill[0] = (DMA9Fill[0] & 0xFFFF0000) | val; return; case 0x040000E2: DMA9Fill[0] = (DMA9Fill[0] & 0x0000FFFF) | (val << 16); return; @@ -3515,44 +3268,44 @@ void ARM9IOWrite16(u32 addr, u16 val) return; case 0x04000188: - ARM9IOWrite32(addr, val | (val << 16)); + NDS::ARM9IOWrite32(addr, val | (val << 16)); return; case 0x040001A0: if (!(ExMemCnt[0] & (1<<11))) - NDSCartSlot->WriteSPICnt(val); + NDSCartSlot.WriteSPICnt(val); return; case 0x040001A2: if (!(ExMemCnt[0] & (1<<11))) - NDSCartSlot->WriteSPIData(val & 0xFF); + NDSCartSlot.WriteSPIData(val & 0xFF); return; case 0x040001A8: if (!(ExMemCnt[0] & (1<<11))) { - NDSCartSlot->SetROMCommand(0, val & 0xFF); - NDSCartSlot->SetROMCommand(1, val >> 8); + NDSCartSlot.SetROMCommand(0, val & 0xFF); + NDSCartSlot.SetROMCommand(1, val >> 8); } return; case 0x040001AA: if (!(ExMemCnt[0] & (1<<11))) { - NDSCartSlot->SetROMCommand(2, val & 0xFF); - NDSCartSlot->SetROMCommand(3, val >> 8); + NDSCartSlot.SetROMCommand(2, val & 0xFF); + NDSCartSlot.SetROMCommand(3, val >> 8); } return; case 0x040001AC: if (!(ExMemCnt[0] & (1<<11))) { - NDSCartSlot->SetROMCommand(4, val & 0xFF); - NDSCartSlot->SetROMCommand(5, val >> 8); + NDSCartSlot.SetROMCommand(4, val & 0xFF); + NDSCartSlot.SetROMCommand(5, val >> 8); } return; case 0x040001AE: if (!(ExMemCnt[0] & (1<<11))) { - NDSCartSlot->SetROMCommand(6, val & 0xFF); - NDSCartSlot->SetROMCommand(7, val >> 8); + NDSCartSlot.SetROMCommand(6, val & 0xFF); + NDSCartSlot.SetROMCommand(7, val >> 8); } return; @@ -3575,24 +3328,24 @@ void ARM9IOWrite16(u32 addr, u16 val) // TODO: what happens when writing to IF this way?? case 0x04000240: - GPU->MapVRAM_AB(0, val & 0xFF); - GPU->MapVRAM_AB(1, val >> 8); + GPU.MapVRAM_AB(0, val & 0xFF); + GPU.MapVRAM_AB(1, val >> 8); return; case 0x04000242: - GPU->MapVRAM_CD(2, val & 0xFF); - GPU->MapVRAM_CD(3, val >> 8); + GPU.MapVRAM_CD(2, val & 0xFF); + GPU.MapVRAM_CD(3, val >> 8); return; case 0x04000244: - GPU->MapVRAM_E(4, val & 0xFF); - GPU->MapVRAM_FG(5, val >> 8); + GPU.MapVRAM_E(4, val & 0xFF); + GPU.MapVRAM_FG(5, val >> 8); return; case 0x04000246: - GPU->MapVRAM_FG(6, val & 0xFF); + GPU.MapVRAM_FG(6, val & 0xFF); MapSharedWRAM(val >> 8); return; case 0x04000248: - GPU->MapVRAM_H(7, val & 0xFF); - GPU->MapVRAM_I(8, val >> 8); + GPU.MapVRAM_H(7, val & 0xFF); + GPU.MapVRAM_I(8, val >> 8); return; case 0x04000280: DivCnt = val; StartDiv(); return; @@ -3606,57 +3359,57 @@ void ARM9IOWrite16(u32 addr, u16 val) case 0x04000304: PowerControl9 = val & 0x820F; - GPU->SetPowerCnt(PowerControl9); + GPU.SetPowerCnt(PowerControl9); return; } if (addr >= 0x04000000 && addr < 0x04000060) { - GPU->GPU2D_A.Write16(addr, val); + GPU.GPU2D_A.Write16(addr, val); return; } if (addr >= 0x04001000 && addr < 0x04001060) { - GPU->GPU2D_B.Write16(addr, val); + GPU.GPU2D_B.Write16(addr, val); return; } if (addr >= 0x04000320 && addr < 0x040006A4) { - GPU->GPU3D.Write16(addr, val); + GPU.GPU3D.Write16(addr, val); return; } - Log(LogLevel::Debug, "unknown ARM9 IO write16 %08X %04X %08X\n", addr, val, ARM9->R[15]); + Log(LogLevel::Debug, "unknown ARM9 IO write16 %08X %04X %08X\n", addr, val, ARM9.R[15]); } -void ARM9IOWrite32(u32 addr, u32 val) +void NDS::ARM9IOWrite32(u32 addr, u32 val) { switch (addr) { case 0x04000004: - GPU->SetDispStat(0, val & 0xFFFF); - GPU->SetVCount(val >> 16); + GPU.SetDispStat(0, val & 0xFFFF); + GPU.SetVCount(val >> 16); return; - case 0x04000060: GPU->GPU3D.Write32(addr, val); return; + case 0x04000060: GPU.GPU3D.Write32(addr, val); return; case 0x04000064: - case 0x04000068: GPU->GPU2D_A.Write32(addr, val); return; + case 0x04000068: GPU.GPU2D_A.Write32(addr, val); return; - case 0x0400006C: GPU->GPU2D_A.Write16(addr, val&0xFFFF); return; - case 0x0400106C: GPU->GPU2D_B.Write16(addr, val&0xFFFF); return; + case 0x0400006C: GPU.GPU2D_A.Write16(addr, val&0xFFFF); return; + case 0x0400106C: GPU.GPU2D_B.Write16(addr, val&0xFFFF); return; - case 0x040000B0: DMAs[0]->SrcAddr = val; return; - case 0x040000B4: DMAs[0]->DstAddr = val; return; - case 0x040000B8: DMAs[0]->WriteCnt(val); return; - case 0x040000BC: DMAs[1]->SrcAddr = val; return; - case 0x040000C0: DMAs[1]->DstAddr = val; return; - case 0x040000C4: DMAs[1]->WriteCnt(val); return; - case 0x040000C8: DMAs[2]->SrcAddr = val; return; - case 0x040000CC: DMAs[2]->DstAddr = val; return; - case 0x040000D0: DMAs[2]->WriteCnt(val); return; - case 0x040000D4: DMAs[3]->SrcAddr = val; return; - case 0x040000D8: DMAs[3]->DstAddr = val; return; - case 0x040000DC: DMAs[3]->WriteCnt(val); return; + case 0x040000B0: DMAs[0].SrcAddr = val; return; + case 0x040000B4: DMAs[0].DstAddr = val; return; + case 0x040000B8: DMAs[0].WriteCnt(val); return; + case 0x040000BC: DMAs[1].SrcAddr = val; return; + case 0x040000C0: DMAs[1].DstAddr = val; return; + case 0x040000C4: DMAs[1].WriteCnt(val); return; + case 0x040000C8: DMAs[2].SrcAddr = val; return; + case 0x040000CC: DMAs[2].DstAddr = val; return; + case 0x040000D0: DMAs[2].WriteCnt(val); return; + case 0x040000D4: DMAs[3].SrcAddr = val; return; + case 0x040000D8: DMAs[3].DstAddr = val; return; + case 0x040000DC: DMAs[3].WriteCnt(val); return; case 0x040000E0: DMA9Fill[0] = val; return; case 0x040000E4: DMA9Fill[1] = val; return; @@ -3686,7 +3439,7 @@ void ARM9IOWrite32(u32 addr, u32 val) case 0x04000180: case 0x04000184: - ARM9IOWrite16(addr, val); + NDS::ARM9IOWrite16(addr, val); return; case 0x04000188: if (IPCFIFOCnt9 & 0x8000) @@ -3706,31 +3459,31 @@ void ARM9IOWrite32(u32 addr, u32 val) case 0x040001A0: if (!(ExMemCnt[0] & (1<<11))) { - NDSCartSlot->WriteSPICnt(val & 0xFFFF); - NDSCartSlot->WriteSPIData((val >> 16) & 0xFF); + NDSCartSlot.WriteSPICnt(val & 0xFFFF); + NDSCartSlot.WriteSPIData((val >> 16) & 0xFF); } return; case 0x040001A4: if (!(ExMemCnt[0] & (1<<11))) - NDSCartSlot->WriteROMCnt(val); + NDSCartSlot.WriteROMCnt(val); return; case 0x040001A8: if (!(ExMemCnt[0] & (1<<11))) { - NDSCartSlot->SetROMCommand(0, val & 0xFF); - NDSCartSlot->SetROMCommand(1, (val >> 8) & 0xFF); - NDSCartSlot->SetROMCommand(2, (val >> 16) & 0xFF); - NDSCartSlot->SetROMCommand(3, val >> 24); + NDSCartSlot.SetROMCommand(0, val & 0xFF); + NDSCartSlot.SetROMCommand(1, (val >> 8) & 0xFF); + NDSCartSlot.SetROMCommand(2, (val >> 16) & 0xFF); + NDSCartSlot.SetROMCommand(3, val >> 24); } return; case 0x040001AC: if (!(ExMemCnt[0] & (1<<11))) { - NDSCartSlot->SetROMCommand(4, val & 0xFF); - NDSCartSlot->SetROMCommand(5, (val >> 8) & 0xFF); - NDSCartSlot->SetROMCommand(6, (val >> 16) & 0xFF); - NDSCartSlot->SetROMCommand(7, val >> 24); + NDSCartSlot.SetROMCommand(4, val & 0xFF); + NDSCartSlot.SetROMCommand(5, (val >> 8) & 0xFF); + NDSCartSlot.SetROMCommand(6, (val >> 16) & 0xFF); + NDSCartSlot.SetROMCommand(7, val >> 24); } return; @@ -3739,23 +3492,23 @@ void ARM9IOWrite32(u32 addr, u32 val) case 0x04000208: IME[0] = val & 0x1; UpdateIRQ(0); return; case 0x04000210: IE[0] = val; UpdateIRQ(0); return; - case 0x04000214: IF[0] &= ~val; GPU->GPU3D.CheckFIFOIRQ(); UpdateIRQ(0); return; + case 0x04000214: IF[0] &= ~val; GPU.GPU3D.CheckFIFOIRQ(); UpdateIRQ(0); return; case 0x04000240: - GPU->MapVRAM_AB(0, val & 0xFF); - GPU->MapVRAM_AB(1, (val >> 8) & 0xFF); - GPU->MapVRAM_CD(2, (val >> 16) & 0xFF); - GPU->MapVRAM_CD(3, val >> 24); + GPU.MapVRAM_AB(0, val & 0xFF); + GPU.MapVRAM_AB(1, (val >> 8) & 0xFF); + GPU.MapVRAM_CD(2, (val >> 16) & 0xFF); + GPU.MapVRAM_CD(3, val >> 24); return; case 0x04000244: - GPU->MapVRAM_E(4, val & 0xFF); - GPU->MapVRAM_FG(5, (val >> 8) & 0xFF); - GPU->MapVRAM_FG(6, (val >> 16) & 0xFF); + GPU.MapVRAM_E(4, val & 0xFF); + GPU.MapVRAM_FG(5, (val >> 8) & 0xFF); + GPU.MapVRAM_FG(6, (val >> 16) & 0xFF); MapSharedWRAM(val >> 24); return; case 0x04000248: - GPU->MapVRAM_H(7, val & 0xFF); - GPU->MapVRAM_I(8, (val >> 8) & 0xFF); + GPU.MapVRAM_H(7, val & 0xFF); + GPU.MapVRAM_I(8, (val >> 8) & 0xFF); return; case 0x04000280: DivCnt = val; StartDiv(); return; @@ -3772,11 +3525,11 @@ void ARM9IOWrite32(u32 addr, u32 val) case 0x04000304: PowerControl9 = val & 0x820F; - GPU->SetPowerCnt(PowerControl9); + GPU.SetPowerCnt(PowerControl9); return; case 0x04100010: - if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot->WriteROMData(val); + if (!(ExMemCnt[0] & (1<<11))) NDSCartSlot.WriteROMData(val); return; // NO$GBA debug register "String Out (raw)" @@ -3810,25 +3563,25 @@ void ARM9IOWrite32(u32 addr, u32 val) if (addr >= 0x04000000 && addr < 0x04000060) { - GPU->GPU2D_A.Write32(addr, val); + GPU.GPU2D_A.Write32(addr, val); return; } if (addr >= 0x04001000 && addr < 0x04001060) { - GPU->GPU2D_B.Write32(addr, val); + GPU.GPU2D_B.Write32(addr, val); return; } if (addr >= 0x04000320 && addr < 0x040006A4) { - GPU->GPU3D.Write32(addr, val); + GPU.GPU3D.Write32(addr, val); return; } - Log(LogLevel::Debug, "unknown ARM9 IO write32 %08X %08X %08X\n", addr, val, ARM9->R[15]); + Log(LogLevel::Debug, "unknown ARM9 IO write32 %08X %08X %08X\n", addr, val, ARM9.R[15]); } -u8 ARM7IORead8(u32 addr) +u8 NDS::ARM7IORead8(u32 addr) { switch (addr) { @@ -3841,51 +3594,51 @@ u8 ARM7IORead8(u32 addr) case 0x04000136: return (KeyInput >> 16) & 0xFF; case 0x04000137: return KeyInput >> 24; - case 0x04000138: return RTC->Read() & 0xFF; + case 0x04000138: return RTC.Read() & 0xFF; case 0x040001A2: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->ReadSPIData(); + return NDSCartSlot.ReadSPIData(); return 0; case 0x040001A8: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(0); + return NDSCartSlot.GetROMCommand(0); return 0; case 0x040001A9: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(1); + return NDSCartSlot.GetROMCommand(1); return 0; case 0x040001AA: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(2); + return NDSCartSlot.GetROMCommand(2); return 0; case 0x040001AB: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(3); + return NDSCartSlot.GetROMCommand(3); return 0; case 0x040001AC: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(4); + return NDSCartSlot.GetROMCommand(4); return 0; case 0x040001AD: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(5); + return NDSCartSlot.GetROMCommand(5); return 0; case 0x040001AE: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(6); + return NDSCartSlot.GetROMCommand(6); return 0; case 0x040001AF: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(7); + return NDSCartSlot.GetROMCommand(7); return 0; - case 0x040001C2: return SPI->ReadData(); + case 0x040001C2: return SPI.ReadData(); case 0x04000208: return IME[1]; - case 0x04000240: return GPU->VRAMSTAT; + case 0x04000240: return GPU.VRAMSTAT; case 0x04000241: return WRAMCnt; case 0x04000300: return PostFlag7; @@ -3894,29 +3647,29 @@ u8 ARM7IORead8(u32 addr) if (addr >= 0x04000400 && addr < 0x04000520) { - return SPU->Read8(addr); + return SPU.Read8(addr); } if ((addr & 0xFFFFF000) != 0x04004000) - Log(LogLevel::Debug, "unknown ARM7 IO read8 %08X %08X\n", addr, ARM7->R[15]); + Log(LogLevel::Debug, "unknown ARM7 IO read8 %08X %08X\n", addr, ARM7.R[15]); return 0; } -u16 ARM7IORead16(u32 addr) +u16 NDS::ARM7IORead16(u32 addr) { switch (addr) { - case 0x04000004: return GPU->DispStat[1]; - case 0x04000006: return GPU->VCount; + case 0x04000004: return GPU.DispStat[1]; + case 0x04000006: return GPU.VCount; - case 0x040000B8: return DMAs[4]->Cnt & 0xFFFF; - case 0x040000BA: return DMAs[4]->Cnt >> 16; - case 0x040000C4: return DMAs[5]->Cnt & 0xFFFF; - case 0x040000C6: return DMAs[5]->Cnt >> 16; - case 0x040000D0: return DMAs[6]->Cnt & 0xFFFF; - case 0x040000D2: return DMAs[6]->Cnt >> 16; - case 0x040000DC: return DMAs[7]->Cnt & 0xFFFF; - case 0x040000DE: return DMAs[7]->Cnt >> 16; + case 0x040000B8: return DMAs[4].Cnt & 0xFFFF; + case 0x040000BA: return DMAs[4].Cnt >> 16; + case 0x040000C4: return DMAs[5].Cnt & 0xFFFF; + case 0x040000C6: return DMAs[5].Cnt >> 16; + case 0x040000D0: return DMAs[6].Cnt & 0xFFFF; + case 0x040000D2: return DMAs[6].Cnt >> 16; + case 0x040000DC: return DMAs[7].Cnt & 0xFFFF; + case 0x040000DE: return DMAs[7].Cnt >> 16; case 0x04000100: return TimerGetCounter(4); case 0x04000102: return Timers[4].Cnt; @@ -3932,7 +3685,7 @@ u16 ARM7IORead16(u32 addr) case 0x04000134: return RCnt; case 0x04000136: return KeyInput >> 16; - case 0x04000138: return RTC->Read(); + case 0x04000138: return RTC.Read(); case 0x04000180: return IPCSync7; case 0x04000184: @@ -3945,32 +3698,32 @@ u16 ARM7IORead16(u32 addr) return val; } - case 0x040001A0: if (ExMemCnt[0] & (1<<11)) return NDSCartSlot->GetSPICnt(); return 0; - case 0x040001A2: if (ExMemCnt[0] & (1<<11)) return NDSCartSlot->ReadSPIData(); return 0; + case 0x040001A0: if (ExMemCnt[0] & (1<<11)) return NDSCartSlot.GetSPICnt(); return 0; + case 0x040001A2: if (ExMemCnt[0] & (1<<11)) return NDSCartSlot.ReadSPIData(); return 0; case 0x040001A8: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(0) | - (NDSCartSlot->GetROMCommand(1) << 8); + return NDSCartSlot.GetROMCommand(0) | + (NDSCartSlot.GetROMCommand(1) << 8); return 0; case 0x040001AA: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(2) | - (NDSCartSlot->GetROMCommand(3) << 8); + return NDSCartSlot.GetROMCommand(2) | + (NDSCartSlot.GetROMCommand(3) << 8); return 0; case 0x040001AC: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(4) | - (NDSCartSlot->GetROMCommand(5) << 8); + return NDSCartSlot.GetROMCommand(4) | + (NDSCartSlot.GetROMCommand(5) << 8); return 0; case 0x040001AE: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(6) | - (NDSCartSlot->GetROMCommand(7) << 8); + return NDSCartSlot.GetROMCommand(6) | + (NDSCartSlot.GetROMCommand(7) << 8); return 0; - case 0x040001C0: return SPI->ReadCnt(); - case 0x040001C2: return SPI->ReadData(); + case 0x040001C0: return SPI.ReadCnt(); + case 0x040001C2: return SPI.ReadData(); case 0x04000204: return ExMemCnt[1]; case 0x04000206: @@ -3988,32 +3741,32 @@ u16 ARM7IORead16(u32 addr) if (addr >= 0x04000400 && addr < 0x04000520) { - return SPU->Read16(addr); + return SPU.Read16(addr); } if ((addr & 0xFFFFF000) != 0x04004000) - Log(LogLevel::Debug, "unknown ARM7 IO read16 %08X %08X\n", addr, ARM7->R[15]); + Log(LogLevel::Debug, "unknown ARM7 IO read16 %08X %08X\n", addr, ARM7.R[15]); return 0; } -u32 ARM7IORead32(u32 addr) +u32 NDS::ARM7IORead32(u32 addr) { switch (addr) { - case 0x04000004: return GPU->DispStat[1] | (GPU->VCount << 16); + case 0x04000004: return GPU.DispStat[1] | (GPU.VCount << 16); - case 0x040000B0: return DMAs[4]->SrcAddr; - case 0x040000B4: return DMAs[4]->DstAddr; - case 0x040000B8: return DMAs[4]->Cnt; - case 0x040000BC: return DMAs[5]->SrcAddr; - case 0x040000C0: return DMAs[5]->DstAddr; - case 0x040000C4: return DMAs[5]->Cnt; - case 0x040000C8: return DMAs[6]->SrcAddr; - case 0x040000CC: return DMAs[6]->DstAddr; - case 0x040000D0: return DMAs[6]->Cnt; - case 0x040000D4: return DMAs[7]->SrcAddr; - case 0x040000D8: return DMAs[7]->DstAddr; - case 0x040000DC: return DMAs[7]->Cnt; + case 0x040000B0: return DMAs[4].SrcAddr; + case 0x040000B4: return DMAs[4].DstAddr; + case 0x040000B8: return DMAs[4].Cnt; + case 0x040000BC: return DMAs[5].SrcAddr; + case 0x040000C0: return DMAs[5].DstAddr; + case 0x040000C4: return DMAs[5].Cnt; + case 0x040000C8: return DMAs[6].SrcAddr; + case 0x040000CC: return DMAs[6].DstAddr; + case 0x040000D0: return DMAs[6].Cnt; + case 0x040000D4: return DMAs[7].SrcAddr; + case 0x040000D8: return DMAs[7].DstAddr; + case 0x040000DC: return DMAs[7].Cnt; case 0x04000100: return TimerGetCounter(4) | (Timers[4].Cnt << 16); case 0x04000104: return TimerGetCounter(5) | (Timers[5].Cnt << 16); @@ -4022,37 +3775,37 @@ u32 ARM7IORead32(u32 addr) case 0x04000130: return (KeyInput & 0xFFFF) | (KeyCnt[1] << 16); case 0x04000134: return RCnt | (KeyInput & 0xFFFF0000); - case 0x04000138: return RTC->Read(); + case 0x04000138: return RTC.Read(); case 0x04000180: return IPCSync7; - case 0x04000184: return ARM7IORead16(addr); + case 0x04000184: return NDS::ARM7IORead16(addr); case 0x040001A0: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetSPICnt() | (NDSCartSlot->ReadSPIData() << 16); + return NDSCartSlot.GetSPICnt() | (NDSCartSlot.ReadSPIData() << 16); return 0; case 0x040001A4: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCnt(); + return NDSCartSlot.GetROMCnt(); return 0; case 0x040001A8: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(0) | - (NDSCartSlot->GetROMCommand(1) << 8) | - (NDSCartSlot->GetROMCommand(2) << 16) | - (NDSCartSlot->GetROMCommand(3) << 24); + return NDSCartSlot.GetROMCommand(0) | + (NDSCartSlot.GetROMCommand(1) << 8) | + (NDSCartSlot.GetROMCommand(2) << 16) | + (NDSCartSlot.GetROMCommand(3) << 24); return 0; case 0x040001AC: if (ExMemCnt[0] & (1<<11)) - return NDSCartSlot->GetROMCommand(4) | - (NDSCartSlot->GetROMCommand(5) << 8) | - (NDSCartSlot->GetROMCommand(6) << 16) | - (NDSCartSlot->GetROMCommand(7) << 24); + return NDSCartSlot.GetROMCommand(4) | + (NDSCartSlot.GetROMCommand(5) << 8) | + (NDSCartSlot.GetROMCommand(6) << 16) | + (NDSCartSlot.GetROMCommand(7) << 24); return 0; case 0x040001C0: - return SPI->ReadCnt() | (SPI->ReadData() << 16); + return SPI.ReadCnt() | (SPI.ReadData() << 16); case 0x04000208: return IME[1]; case 0x04000210: return IE[1]; @@ -4083,21 +3836,21 @@ u32 ARM7IORead32(u32 addr) return IPCFIFO9.Peek(); case 0x04100010: - if (ExMemCnt[0] & (1<<11)) return NDSCartSlot->ReadROMData(); + if (ExMemCnt[0] & (1<<11)) return NDSCartSlot.ReadROMData(); return 0; } if (addr >= 0x04000400 && addr < 0x04000520) { - return SPU->Read32(addr); + return SPU.Read32(addr); } if ((addr & 0xFFFFF000) != 0x04004000) - Log(LogLevel::Debug, "unknown ARM7 IO read32 %08X %08X\n", addr, ARM7->R[15]); + Log(LogLevel::Debug, "unknown ARM7 IO read32 %08X %08X\n", addr, ARM7.R[15]); return 0; } -void ARM7IOWrite8(u32 addr, u8 val) +void NDS::ARM7IOWrite8(u32 addr, u8 val) { switch (addr) { @@ -4114,44 +3867,44 @@ void ARM7IOWrite8(u32 addr, u8 val) RCnt = (RCnt & 0x00FF) | (val << 8); return; - case 0x04000138: RTC->Write(val, true); return; + case 0x04000138: RTC.Write(val, true); return; case 0x04000188: - ARM7IOWrite32(addr, val | (val << 8) | (val << 16) | (val << 24)); + NDS::ARM7IOWrite32(addr, val | (val << 8) | (val << 16) | (val << 24)); return; case 0x040001A0: if (ExMemCnt[0] & (1<<11)) { - NDSCartSlot->WriteSPICnt((NDSCartSlot->GetSPICnt() & 0xFF00) | val); + NDSCartSlot.WriteSPICnt((NDSCartSlot.GetSPICnt() & 0xFF00) | val); } return; case 0x040001A1: if (ExMemCnt[0] & (1<<11)) - NDSCartSlot->WriteSPICnt((NDSCartSlot->GetSPICnt() & 0x00FF) | (val << 8)); + NDSCartSlot.WriteSPICnt((NDSCartSlot.GetSPICnt() & 0x00FF) | (val << 8)); return; case 0x040001A2: if (ExMemCnt[0] & (1<<11)) - NDSCartSlot->WriteSPIData(val); + NDSCartSlot.WriteSPIData(val); return; - case 0x040001A8: if (ExMemCnt[0] & (1<<11)) NDSCartSlot->SetROMCommand(0, val); return; - case 0x040001A9: if (ExMemCnt[0] & (1<<11)) NDSCartSlot->SetROMCommand(1, val); return; - case 0x040001AA: if (ExMemCnt[0] & (1<<11)) NDSCartSlot->SetROMCommand(2, val); return; - case 0x040001AB: if (ExMemCnt[0] & (1<<11)) NDSCartSlot->SetROMCommand(3, val); return; - case 0x040001AC: if (ExMemCnt[0] & (1<<11)) NDSCartSlot->SetROMCommand(4, val); return; - case 0x040001AD: if (ExMemCnt[0] & (1<<11)) NDSCartSlot->SetROMCommand(5, val); return; - case 0x040001AE: if (ExMemCnt[0] & (1<<11)) NDSCartSlot->SetROMCommand(6, val); return; - case 0x040001AF: if (ExMemCnt[0] & (1<<11)) NDSCartSlot->SetROMCommand(7, val); return; + case 0x040001A8: if (ExMemCnt[0] & (1<<11)) NDSCartSlot.SetROMCommand(0, val); return; + case 0x040001A9: if (ExMemCnt[0] & (1<<11)) NDSCartSlot.SetROMCommand(1, val); return; + case 0x040001AA: if (ExMemCnt[0] & (1<<11)) NDSCartSlot.SetROMCommand(2, val); return; + case 0x040001AB: if (ExMemCnt[0] & (1<<11)) NDSCartSlot.SetROMCommand(3, val); return; + case 0x040001AC: if (ExMemCnt[0] & (1<<11)) NDSCartSlot.SetROMCommand(4, val); return; + case 0x040001AD: if (ExMemCnt[0] & (1<<11)) NDSCartSlot.SetROMCommand(5, val); return; + case 0x040001AE: if (ExMemCnt[0] & (1<<11)) NDSCartSlot.SetROMCommand(6, val); return; + case 0x040001AF: if (ExMemCnt[0] & (1<<11)) NDSCartSlot.SetROMCommand(7, val); return; case 0x040001C2: - SPI->WriteData(val); + SPI.WriteData(val); return; case 0x04000208: IME[1] = val & 0x1; UpdateIRQ(1); return; case 0x04000300: - if (ARM7->R[15] >= 0x4000) + if (ARM7.R[15] >= 0x4000) return; if (!(PostFlag7 & 0x01)) PostFlag7 = val & 0x01; @@ -4160,35 +3913,35 @@ void ARM7IOWrite8(u32 addr, u8 val) case 0x04000301: val &= 0xC0; if (val == 0x40) Stop(StopReason::GBAModeNotSupported); - else if (val == 0x80) ARM7->Halt(1); + else if (val == 0x80) ARM7.Halt(1); else if (val == 0xC0) EnterSleepMode(); return; } if (addr >= 0x04000400 && addr < 0x04000520) { - SPU->Write8(addr, val); + SPU.Write8(addr, val); return; } - Log(LogLevel::Debug, "unknown ARM7 IO write8 %08X %02X %08X\n", addr, val, ARM7->R[15]); + Log(LogLevel::Debug, "unknown ARM7 IO write8 %08X %02X %08X\n", addr, val, ARM7.R[15]); } -void ARM7IOWrite16(u32 addr, u16 val) +void NDS::ARM7IOWrite16(u32 addr, u16 val) { switch (addr) { - case 0x04000004: GPU->SetDispStat(1, val); return; - case 0x04000006: GPU->SetVCount(val); return; + case 0x04000004: GPU.SetDispStat(1, val); return; + case 0x04000006: GPU.SetVCount(val); return; - case 0x040000B8: DMAs[4]->WriteCnt((DMAs[4]->Cnt & 0xFFFF0000) | val); return; - case 0x040000BA: DMAs[4]->WriteCnt((DMAs[4]->Cnt & 0x0000FFFF) | (val << 16)); return; - case 0x040000C4: DMAs[5]->WriteCnt((DMAs[5]->Cnt & 0xFFFF0000) | val); return; - case 0x040000C6: DMAs[5]->WriteCnt((DMAs[5]->Cnt & 0x0000FFFF) | (val << 16)); return; - case 0x040000D0: DMAs[6]->WriteCnt((DMAs[6]->Cnt & 0xFFFF0000) | val); return; - case 0x040000D2: DMAs[6]->WriteCnt((DMAs[6]->Cnt & 0x0000FFFF) | (val << 16)); return; - case 0x040000DC: DMAs[7]->WriteCnt((DMAs[7]->Cnt & 0xFFFF0000) | val); return; - case 0x040000DE: DMAs[7]->WriteCnt((DMAs[7]->Cnt & 0x0000FFFF) | (val << 16)); return; + case 0x040000B8: DMAs[4].WriteCnt((DMAs[4].Cnt & 0xFFFF0000) | val); return; + case 0x040000BA: DMAs[4].WriteCnt((DMAs[4].Cnt & 0x0000FFFF) | (val << 16)); return; + case 0x040000C4: DMAs[5].WriteCnt((DMAs[5].Cnt & 0xFFFF0000) | val); return; + case 0x040000C6: DMAs[5].WriteCnt((DMAs[5].Cnt & 0x0000FFFF) | (val << 16)); return; + case 0x040000D0: DMAs[6].WriteCnt((DMAs[6].Cnt & 0xFFFF0000) | val); return; + case 0x040000D2: DMAs[6].WriteCnt((DMAs[6].Cnt & 0x0000FFFF) | (val << 16)); return; + case 0x040000DC: DMAs[7].WriteCnt((DMAs[7].Cnt & 0xFFFF0000) | val); return; + case 0x040000DE: DMAs[7].WriteCnt((DMAs[7].Cnt & 0x0000FFFF) | (val << 16)); return; case 0x04000100: Timers[4].Reload = val; return; case 0x04000102: TimerStart(4, val); return; @@ -4202,7 +3955,7 @@ void ARM7IOWrite16(u32 addr, u16 val) case 0x04000132: KeyCnt[1] = val; return; case 0x04000134: RCnt = val; return; - case 0x04000138: RTC->Write(val, false); return; + case 0x04000138: RTC.Write(val, false); return; case 0x04000180: IPCSync9 &= 0xFFF0; @@ -4228,44 +3981,44 @@ void ARM7IOWrite16(u32 addr, u16 val) return; case 0x04000188: - ARM7IOWrite32(addr, val | (val << 16)); + NDS::ARM7IOWrite32(addr, val | (val << 16)); return; case 0x040001A0: if (ExMemCnt[0] & (1<<11)) - NDSCartSlot->WriteSPICnt(val); + NDSCartSlot.WriteSPICnt(val); return; case 0x040001A2: if (ExMemCnt[0] & (1<<11)) - NDSCartSlot->WriteSPIData(val & 0xFF); + NDSCartSlot.WriteSPIData(val & 0xFF); return; case 0x040001A8: if (ExMemCnt[0] & (1<<11)) { - NDSCartSlot->SetROMCommand(0, val & 0xFF); - NDSCartSlot->SetROMCommand(1, val >> 8); + NDSCartSlot.SetROMCommand(0, val & 0xFF); + NDSCartSlot.SetROMCommand(1, val >> 8); } return; case 0x040001AA: if (ExMemCnt[0] & (1<<11)) { - NDSCartSlot->SetROMCommand(2, val & 0xFF); - NDSCartSlot->SetROMCommand(3, val >> 8); + NDSCartSlot.SetROMCommand(2, val & 0xFF); + NDSCartSlot.SetROMCommand(3, val >> 8); } return; case 0x040001AC: if (ExMemCnt[0] & (1<<11)) { - NDSCartSlot->SetROMCommand(4, val & 0xFF); - NDSCartSlot->SetROMCommand(5, val >> 8); + NDSCartSlot.SetROMCommand(4, val & 0xFF); + NDSCartSlot.SetROMCommand(5, val >> 8); } return; case 0x040001AE: if (ExMemCnt[0] & (1<<11)) { - NDSCartSlot->SetROMCommand(6, val & 0xFF); - NDSCartSlot->SetROMCommand(7, val >> 8); + NDSCartSlot.SetROMCommand(6, val & 0xFF); + NDSCartSlot.SetROMCommand(7, val >> 8); } return; @@ -4273,10 +4026,10 @@ void ARM7IOWrite16(u32 addr, u16 val) case 0x040001BA: ROMSeed1[12] = val & 0x7F; return; case 0x040001C0: - SPI->WriteCnt(val); + SPI.WriteCnt(val); return; case 0x040001C2: - SPI->WriteData(val & 0xFF); + SPI.WriteData(val & 0xFF); return; case 0x04000204: @@ -4298,7 +4051,7 @@ void ARM7IOWrite16(u32 addr, u16 val) // TODO: what happens when writing to IF this way?? case 0x04000300: - if (ARM7->R[15] >= 0x4000) + if (ARM7.R[15] >= 0x4000) return; if (!(PostFlag7 & 0x01)) PostFlag7 = val & 0x01; @@ -4308,8 +4061,8 @@ void ARM7IOWrite16(u32 addr, u16 val) { u16 change = PowerControl7 ^ val; PowerControl7 = val & 0x0003; - SPU->SetPowerCnt(val & 0x0001); - Wifi->SetPowerCnt(val & 0x0002); + SPU.SetPowerCnt(val & 0x0001); + Wifi.SetPowerCnt(val & 0x0002); if (change & 0x0002) UpdateWifiTimings(); } return; @@ -4322,34 +4075,34 @@ void ARM7IOWrite16(u32 addr, u16 val) if (addr >= 0x04000400 && addr < 0x04000520) { - SPU->Write16(addr, val); + SPU.Write16(addr, val); return; } - Log(LogLevel::Debug, "unknown ARM7 IO write16 %08X %04X %08X\n", addr, val, ARM7->R[15]); + Log(LogLevel::Debug, "unknown ARM7 IO write16 %08X %04X %08X\n", addr, val, ARM7.R[15]); } -void ARM7IOWrite32(u32 addr, u32 val) +void NDS::ARM7IOWrite32(u32 addr, u32 val) { switch (addr) { case 0x04000004: - GPU->SetDispStat(1, val & 0xFFFF); - GPU->SetVCount(val >> 16); + GPU.SetDispStat(1, val & 0xFFFF); + GPU.SetVCount(val >> 16); return; - case 0x040000B0: DMAs[4]->SrcAddr = val; return; - case 0x040000B4: DMAs[4]->DstAddr = val; return; - case 0x040000B8: DMAs[4]->WriteCnt(val); return; - case 0x040000BC: DMAs[5]->SrcAddr = val; return; - case 0x040000C0: DMAs[5]->DstAddr = val; return; - case 0x040000C4: DMAs[5]->WriteCnt(val); return; - case 0x040000C8: DMAs[6]->SrcAddr = val; return; - case 0x040000CC: DMAs[6]->DstAddr = val; return; - case 0x040000D0: DMAs[6]->WriteCnt(val); return; - case 0x040000D4: DMAs[7]->SrcAddr = val; return; - case 0x040000D8: DMAs[7]->DstAddr = val; return; - case 0x040000DC: DMAs[7]->WriteCnt(val); return; + case 0x040000B0: DMAs[4].SrcAddr = val; return; + case 0x040000B4: DMAs[4].DstAddr = val; return; + case 0x040000B8: DMAs[4].WriteCnt(val); return; + case 0x040000BC: DMAs[5].SrcAddr = val; return; + case 0x040000C0: DMAs[5].DstAddr = val; return; + case 0x040000C4: DMAs[5].WriteCnt(val); return; + case 0x040000C8: DMAs[6].SrcAddr = val; return; + case 0x040000CC: DMAs[6].DstAddr = val; return; + case 0x040000D0: DMAs[6].WriteCnt(val); return; + case 0x040000D4: DMAs[7].SrcAddr = val; return; + case 0x040000D8: DMAs[7].DstAddr = val; return; + case 0x040000DC: DMAs[7].WriteCnt(val); return; case 0x04000100: Timers[4].Reload = val & 0xFFFF; @@ -4370,11 +4123,11 @@ void ARM7IOWrite32(u32 addr, u32 val) case 0x04000130: KeyCnt[1] = val >> 16; return; case 0x04000134: RCnt = val & 0xFFFF; return; - case 0x04000138: RTC->Write(val & 0xFFFF, false); return; + case 0x04000138: RTC.Write(val & 0xFFFF, false); return; case 0x04000180: case 0x04000184: - ARM7IOWrite16(addr, val); + NDS::ARM7IOWrite16(addr, val); return; case 0x04000188: if (IPCFIFOCnt7 & 0x8000) @@ -4394,31 +4147,31 @@ void ARM7IOWrite32(u32 addr, u32 val) case 0x040001A0: if (ExMemCnt[0] & (1<<11)) { - NDSCartSlot->WriteSPICnt(val & 0xFFFF); - NDSCartSlot->WriteSPIData((val >> 16) & 0xFF); + NDSCartSlot.WriteSPICnt(val & 0xFFFF); + NDSCartSlot.WriteSPIData((val >> 16) & 0xFF); } return; case 0x040001A4: if (ExMemCnt[0] & (1<<11)) - NDSCartSlot->WriteROMCnt(val); + NDSCartSlot.WriteROMCnt(val); return; case 0x040001A8: if (ExMemCnt[0] & (1<<11)) { - NDSCartSlot->SetROMCommand(0, val & 0xFF); - NDSCartSlot->SetROMCommand(1, (val >> 8) & 0xFF); - NDSCartSlot->SetROMCommand(2, (val >> 16) & 0xFF); - NDSCartSlot->SetROMCommand(3, val >> 24); + NDSCartSlot.SetROMCommand(0, val & 0xFF); + NDSCartSlot.SetROMCommand(1, (val >> 8) & 0xFF); + NDSCartSlot.SetROMCommand(2, (val >> 16) & 0xFF); + NDSCartSlot.SetROMCommand(3, val >> 24); } return; case 0x040001AC: if (ExMemCnt[0] & (1<<11)) { - NDSCartSlot->SetROMCommand(4, val & 0xFF); - NDSCartSlot->SetROMCommand(5, (val >> 8) & 0xFF); - NDSCartSlot->SetROMCommand(6, (val >> 16) & 0xFF); - NDSCartSlot->SetROMCommand(7, val >> 24); + NDSCartSlot.SetROMCommand(4, val & 0xFF); + NDSCartSlot.SetROMCommand(5, (val >> 8) & 0xFF); + NDSCartSlot.SetROMCommand(6, (val >> 16) & 0xFF); + NDSCartSlot.SetROMCommand(7, val >> 24); } return; @@ -4426,8 +4179,8 @@ void ARM7IOWrite32(u32 addr, u32 val) case 0x040001B4: *(u32*)&ROMSeed1[8] = val; return; case 0x040001C0: - SPI->WriteCnt(val & 0xFFFF); - SPI->WriteData((val >> 16) & 0xFF); + SPI.WriteCnt(val & 0xFFFF); + SPI.WriteData((val >> 16) & 0xFF); return; case 0x04000208: IME[1] = val & 0x1; UpdateIRQ(1); return; @@ -4438,8 +4191,8 @@ void ARM7IOWrite32(u32 addr, u32 val) { u16 change = PowerControl7 ^ val; PowerControl7 = val & 0x0003; - SPU->SetPowerCnt(val & 0x0001); - Wifi->SetPowerCnt(val & 0x0002); + SPU.SetPowerCnt(val & 0x0001); + Wifi.SetPowerCnt(val & 0x0002); if (change & 0x0002) UpdateWifiTimings(); } return; @@ -4450,19 +4203,17 @@ void ARM7IOWrite32(u32 addr, u32 val) return; case 0x04100010: - if (ExMemCnt[0] & (1<<11)) NDSCartSlot->WriteROMData(val); + if (ExMemCnt[0] & (1<<11)) NDSCartSlot.WriteROMData(val); return; } if (addr >= 0x04000400 && addr < 0x04000520) { - SPU->Write32(addr, val); + SPU.Write32(addr, val); return; } - Log(LogLevel::Debug, "unknown ARM7 IO write32 %08X %08X %08X\n", addr, val, ARM7->R[15]); -} - + Log(LogLevel::Debug, "unknown ARM7 IO write32 %08X %08X %08X\n", addr, val, ARM7.R[15]); } } \ No newline at end of file diff --git a/src/NDS.h b/src/NDS.h index 7bfad625..0979b2fa 100644 --- a/src/NDS.h +++ b/src/NDS.h @@ -29,6 +29,14 @@ #include "types.h" #include "NDSCart.h" #include "GBACart.h" +#include "SPU.h" +#include "SPI.h" +#include "RTC.h" +#include "Wifi.h" +#include "AREngine.h" +#include "GPU.h" +#include "ARMJIT.h" +#include "DMA.h" // when touching the main loop/timing code, pls test a lot of shit // with this enabled, to make sure it doesn't desync @@ -36,17 +44,6 @@ namespace melonDS { -class SPU; -class SPIHost; -class RTC; -class Wifi; - -class AREngine; -class GPU; -class ARMJIT; - -namespace NDS -{ enum { @@ -75,7 +72,13 @@ enum typedef std::function EventFunc; #define MemberEventFunc(cls,func) std::bind(&cls::func,this,std::placeholders::_1) - +struct SchedEvent +{ + std::map Funcs; + u64 Timestamp; + u32 FuncID; + u32 Param; +}; enum { IRQ_VBlank = 0, @@ -197,196 +200,274 @@ enum // TODO: add DSi regions! }; -struct MemRegion -{ - u8* Mem; - u32 Mask; -}; - // supported GBA slot addon types enum { GBAAddon_RAMExpansion = 1, }; +class SPU; +class SPIHost; +class RTC; +class Wifi; + +class AREngine; +class GPU; +class ARMJIT; + +class NDS +{ +public: + #ifdef JIT_ENABLED -extern bool EnableJIT; + bool EnableJIT; #endif -extern int ConsoleType; -extern int CurCPU; + int ConsoleType; + int CurCPU; -extern u8 ARM9MemTimings[0x40000][8]; -extern u32 ARM9Regions[0x40000]; -extern u8 ARM7MemTimings[0x20000][4]; -extern u32 ARM7Regions[0x20000]; + SchedEvent SchedList[Event_MAX] {}; + u8 ARM9MemTimings[0x40000][8]; + u32 ARM9Regions[0x40000]; + u8 ARM7MemTimings[0x20000][4]; + u32 ARM7Regions[0x20000]; -extern u32 NumFrames; -extern u32 NumLagFrames; -extern bool LagFrameFlag; + u32 NumFrames; + u32 NumLagFrames; + bool LagFrameFlag; -extern u64 ARM9Timestamp, ARM9Target; -extern u64 ARM7Timestamp, ARM7Target; -extern u32 ARM9ClockShift; + // no need to worry about those overflowing, they can keep going for atleast 4350 years + u64 ARM9Timestamp, ARM9Target; + u64 ARM7Timestamp, ARM7Target; + u32 ARM9ClockShift; -extern u32 IME[2]; -extern u32 IE[2]; -extern u32 IF[2]; -extern u32 IE2; -extern u32 IF2; -extern Timer Timers[8]; + u32 IME[2]; + u32 IE[2]; + u32 IF[2]; + u32 IE2; + u32 IF2; + Timer Timers[8]; -extern u32 CPUStop; + u32 CPUStop; -extern u16 PowerControl9; + u16 PowerControl9; -extern u16 ExMemCnt[2]; -extern u8 ROMSeed0[2*8]; -extern u8 ROMSeed1[2*8]; + u16 ExMemCnt[2]; + u8 ROMSeed0[2*8]; + u8 ROMSeed1[2*8]; -extern u8 ARM9BIOS[0x1000]; -extern u8 ARM7BIOS[0x4000]; -extern u16 ARM7BIOSProt; + u8 ARM9BIOS[0x1000]; + u8 ARM7BIOS[0x4000]; + u16 ARM7BIOSProt; -extern u8* MainRAM; -extern u32 MainRAMMask; + u8* MainRAM; + u32 MainRAMMask; -const u32 MainRAMMaxSize = 0x1000000; + const u32 MainRAMMaxSize = 0x1000000; -const u32 SharedWRAMSize = 0x8000; -extern u8* SharedWRAM; + const u32 SharedWRAMSize = 0x8000; + u8* SharedWRAM; -extern MemRegion SWRAM_ARM9; -extern MemRegion SWRAM_ARM7; + MemRegion SWRAM_ARM9; + MemRegion SWRAM_ARM7; -extern u32 KeyInput; -extern u16 RCnt; + u32 KeyInput; + u16 RCnt; -extern class SPU* SPU; -extern class SPIHost* SPI; -extern class RTC* RTC; -extern class Wifi* Wifi; -extern std::unique_ptr NDSCartSlot; -extern std::unique_ptr GBACartSlot; -extern std::unique_ptr GPU; -extern std::unique_ptr JIT; -extern class AREngine* AREngine; + // JIT MUST be declared before all other component objects, + // as they'll need the memory that it allocates in its constructor! + // (Reminder: C++ fields are initialized in the order they're declared, + // regardless of what the constructor's initializer list says.) + melonDS::ARMJIT JIT; + ARMv5 ARM9; + ARMv4 ARM7; + melonDS::SPU SPU; + SPIHost SPI; + melonDS::RTC RTC; + melonDS::Wifi Wifi; + NDSCart::NDSCartSlot NDSCartSlot; + GBACart::GBACartSlot GBACartSlot; + melonDS::GPU GPU; + melonDS::AREngine AREngine; -const u32 ARM7WRAMSize = 0x10000; -extern u8* ARM7WRAM; + const u32 ARM7WRAMSize = 0x10000; + u8* ARM7WRAM; -bool Init(); -void DeInit(); -void Reset(); -void Start(); + virtual void Reset(); + void Start(); -/// Stop the emulator. -void Stop(Platform::StopReason reason = Platform::StopReason::External); + /// Stop the emulator. + virtual void Stop(Platform::StopReason reason = Platform::StopReason::External); -bool DoSavestate(Savestate* file); + bool DoSavestate(Savestate* file); -void SetARM9RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, int nonseq, int seq); -void SetARM7RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, int nonseq, int seq); + void SetARM9RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, int nonseq, int seq); + void SetARM7RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, int nonseq, int seq); -// 0=DS 1=DSi -void SetConsoleType(int type); + // 0=DS 1=DSi + void SetConsoleType(int type); -void LoadBIOS(); -bool IsLoadedARM9BIOSBuiltIn(); -bool IsLoadedARM7BIOSBuiltIn(); + void LoadBIOS(); + bool IsLoadedARM9BIOSBuiltIn(); + bool IsLoadedARM7BIOSBuiltIn(); -bool LoadCart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen); -void LoadSave(const u8* savedata, u32 savelen); -void EjectCart(); -bool CartInserted(); + virtual bool LoadCart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen); + void LoadSave(const u8* savedata, u32 savelen); + virtual void EjectCart(); + bool CartInserted(); -bool NeedsDirectBoot(); -void SetupDirectBoot(const std::string& romname); + virtual bool NeedsDirectBoot(); + void SetupDirectBoot(const std::string& romname); + virtual void SetupDirectBoot(); -bool LoadGBACart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen); -void LoadGBAAddon(int type); -void EjectGBACart(); + bool LoadGBACart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen); + void LoadGBAAddon(int type); + void EjectGBACart(); -u32 RunFrame(); + u32 RunFrame(); -void TouchScreen(u16 x, u16 y); -void ReleaseScreen(); + bool IsRunning() const noexcept { return Running; } -void SetKeyMask(u32 mask); + void TouchScreen(u16 x, u16 y); + void ReleaseScreen(); -bool IsLidClosed(); -void SetLidClosed(bool closed); + void SetKeyMask(u32 mask); -void CamInputFrame(int cam, u32* data, int width, int height, bool rgb); -void MicInputFrame(s16* data, int samples); + bool IsLidClosed(); + void SetLidClosed(bool closed); -void RegisterEventFunc(u32 id, u32 funcid, EventFunc func); -void UnregisterEventFunc(u32 id, u32 funcid); -void ScheduleEvent(u32 id, bool periodic, s32 delay, u32 funcid, u32 param); -void CancelEvent(u32 id); + virtual void CamInputFrame(int cam, u32* data, int width, int height, bool rgb) {} + void MicInputFrame(s16* data, int samples); -void debug(u32 p); + void RegisterEventFunc(u32 id, u32 funcid, EventFunc func); + void UnregisterEventFunc(u32 id, u32 funcid); + void ScheduleEvent(u32 id, bool periodic, s32 delay, u32 funcid, u32 param); + void CancelEvent(u32 id); -void Halt(); + void debug(u32 p); -void MapSharedWRAM(u8 val); + void Halt(); -void UpdateIRQ(u32 cpu); -void SetIRQ(u32 cpu, u32 irq); -void ClearIRQ(u32 cpu, u32 irq); -void SetIRQ2(u32 irq); -void ClearIRQ2(u32 irq); -bool HaltInterrupted(u32 cpu); -void StopCPU(u32 cpu, u32 mask); -void ResumeCPU(u32 cpu, u32 mask); -void GXFIFOStall(); -void GXFIFOUnstall(); + void MapSharedWRAM(u8 val); -u32 GetPC(u32 cpu); -u64 GetSysClockCycles(int num); -void NocashPrint(u32 cpu, u32 addr); + void UpdateIRQ(u32 cpu); + void SetIRQ(u32 cpu, u32 irq); + void ClearIRQ(u32 cpu, u32 irq); + void SetIRQ2(u32 irq); + void ClearIRQ2(u32 irq); + bool HaltInterrupted(u32 cpu); + void StopCPU(u32 cpu, u32 mask); + void ResumeCPU(u32 cpu, u32 mask); + void GXFIFOStall(); + void GXFIFOUnstall(); -void MonitorARM9Jump(u32 addr); + u32 GetPC(u32 cpu); + u64 GetSysClockCycles(int num); + void NocashPrint(u32 cpu, u32 addr); -bool DMAsInMode(u32 cpu, u32 mode); -bool DMAsRunning(u32 cpu); -void CheckDMAs(u32 cpu, u32 mode); -void StopDMAs(u32 cpu, u32 mode); + void MonitorARM9Jump(u32 addr); -void RunTimers(u32 cpu); + virtual bool DMAsInMode(u32 cpu, u32 mode); + virtual bool DMAsRunning(u32 cpu); + virtual void CheckDMAs(u32 cpu, u32 mode); + virtual void StopDMAs(u32 cpu, u32 mode); -u8 ARM9Read8(u32 addr); -u16 ARM9Read16(u32 addr); -u32 ARM9Read32(u32 addr); -void ARM9Write8(u32 addr, u8 val); -void ARM9Write16(u32 addr, u16 val); -void ARM9Write32(u32 addr, u32 val); + void RunTimers(u32 cpu); -bool ARM9GetMemRegion(u32 addr, bool write, MemRegion* region); + virtual u8 ARM9Read8(u32 addr); + virtual u16 ARM9Read16(u32 addr); + virtual u32 ARM9Read32(u32 addr); + virtual void ARM9Write8(u32 addr, u8 val); + virtual void ARM9Write16(u32 addr, u16 val); + virtual void ARM9Write32(u32 addr, u32 val); -u8 ARM7Read8(u32 addr); -u16 ARM7Read16(u32 addr); -u32 ARM7Read32(u32 addr); -void ARM7Write8(u32 addr, u8 val); -void ARM7Write16(u32 addr, u16 val); -void ARM7Write32(u32 addr, u32 val); + virtual bool ARM9GetMemRegion(u32 addr, bool write, MemRegion* region); -bool ARM7GetMemRegion(u32 addr, bool write, MemRegion* region); + virtual u8 ARM7Read8(u32 addr); + virtual u16 ARM7Read16(u32 addr); + virtual u32 ARM7Read32(u32 addr); + virtual void ARM7Write8(u32 addr, u8 val); + virtual void ARM7Write16(u32 addr, u16 val); + virtual void ARM7Write32(u32 addr, u32 val); -u8 ARM9IORead8(u32 addr); -u16 ARM9IORead16(u32 addr); -u32 ARM9IORead32(u32 addr); -void ARM9IOWrite8(u32 addr, u8 val); -void ARM9IOWrite16(u32 addr, u16 val); -void ARM9IOWrite32(u32 addr, u32 val); + virtual bool ARM7GetMemRegion(u32 addr, bool write, MemRegion* region); -u8 ARM7IORead8(u32 addr); -u16 ARM7IORead16(u32 addr); -u32 ARM7IORead32(u32 addr); -void ARM7IOWrite8(u32 addr, u8 val); -void ARM7IOWrite16(u32 addr, u16 val); -void ARM7IOWrite32(u32 addr, u32 val); + virtual u8 ARM9IORead8(u32 addr); + virtual u16 ARM9IORead16(u32 addr); + virtual u32 ARM9IORead32(u32 addr); + virtual void ARM9IOWrite8(u32 addr, u8 val); + virtual void ARM9IOWrite16(u32 addr, u16 val); + virtual void ARM9IOWrite32(u32 addr, u32 val); -} + virtual u8 ARM7IORead8(u32 addr); + virtual u16 ARM7IORead16(u32 addr); + virtual u32 ARM7IORead32(u32 addr); + virtual void ARM7IOWrite8(u32 addr, u8 val); + virtual void ARM7IOWrite16(u32 addr, u16 val); + virtual void ARM7IOWrite32(u32 addr, u32 val); + +private: + void InitTimings(); + u32 SchedListMask; + u64 SysTimestamp; + u8 WRAMCnt; + u8 PostFlag9; + u8 PostFlag7; + u16 PowerControl7; + u16 WifiWaitCnt; + u8 TimerCheckMask[2]; + u64 TimerTimestamp[2]; + DMA DMAs[8]; + u32 DMA9Fill[4]; + u16 IPCSync9, IPCSync7; + u16 IPCFIFOCnt9, IPCFIFOCnt7; + FIFO IPCFIFO9; // FIFO in which the ARM9 writes + FIFO IPCFIFO7; + u16 DivCnt; + u32 DivNumerator[2]; + u32 DivDenominator[2]; + u32 DivQuotient[2]; + u32 DivRemainder[2]; + u16 SqrtCnt; + u32 SqrtVal[2]; + u32 SqrtRes; + u16 KeyCnt[2]; + bool Running; + bool RunningGame; + u64 LastSysClockCycles; + u64 FrameStartTimestamp; + u64 NextTarget(); + u64 NextTargetSleep(); + void CheckKeyIRQ(u32 cpu, u32 oldkey, u32 newkey); + void Reschedule(u64 target); + void RunSystemSleep(u64 timestamp); + void RunSystem(u64 timestamp); + void HandleTimerOverflow(u32 tid); + u16 TimerGetCounter(u32 timer); + void TimerStart(u32 id, u16 cnt); + void StartDiv(); + void DivDone(u32 param); + void SqrtDone(u32 param); + void StartSqrt(); + void RunTimer(u32 tid, s32 cycles); + void UpdateWifiTimings(); + void SetWifiWaitCnt(u16 val); + void SetGBASlotTimings(); + void EnterSleepMode(); + template + u32 RunFrame(); +public: + NDS() noexcept : NDS(0) {} + virtual ~NDS() noexcept; + NDS(const NDS&) = delete; + NDS& operator=(const NDS&) = delete; + NDS(NDS&&) = delete; + NDS& operator=(NDS&&) = delete; + // The frontend should set and unset this manually after creating and destroying the NDS object. + [[deprecated("Temporary workaround until JIT code generation is revised to accommodate multiple NDS objects.")]] static NDS* Current; +protected: + explicit NDS(int type) noexcept; + virtual void DoSavestateExtra(Savestate* file) {} +}; } #endif // NDS_H diff --git a/src/NDSCart.cpp b/src/NDSCart.cpp index 77262a70..95306fc5 100644 --- a/src/NDSCart.cpp +++ b/src/NDSCart.cpp @@ -214,11 +214,11 @@ void CartCommon::Reset() DSiMode = false; } -void CartCommon::SetupDirectBoot(const std::string& romname) +void CartCommon::SetupDirectBoot(const std::string& romname, NDS& nds) { CmdEncMode = 2; DataEncMode = 2; - DSiMode = IsDSi && (NDS::ConsoleType==1); + DSiMode = IsDSi && (nds.ConsoleType==1); } void CartCommon::DoSavestate(Savestate* file) @@ -238,7 +238,7 @@ void CartCommon::LoadSave(const u8* savedata, u32 savelen) { } -int CartCommon::ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) +int CartCommon::ROMCommandStart(NDS& nds, NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) { if (CmdEncMode == 0) { @@ -267,15 +267,16 @@ int CartCommon::ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* dat case 0x3C: CmdEncMode = 1; - cartslot.Key1_InitKeycode(false, *(u32*)&ROM[0xC], 2, 2, NDS::ARM7BIOS, sizeof(NDS::ARM7BIOS)); + cartslot.Key1_InitKeycode(false, *(u32*)&ROM[0xC], 2, 2, nds.ARM7BIOS, sizeof(NDS::ARM7BIOS)); DSiMode = false; return 0; case 0x3D: if (IsDSi) { + auto& dsi = static_cast(nds); CmdEncMode = 1; - cartslot.Key1_InitKeycode(true, *(u32*)&ROM[0xC], 1, 2, DSi::ARM7iBIOS, sizeof(DSi::ARM7iBIOS)); + cartslot.Key1_InitKeycode(true, *(u32*)&ROM[0xC], 1, 2, dsi.ARM7iBIOS, sizeof(DSi::ARM7iBIOS)); DSiMode = true; } return 0; @@ -359,12 +360,6 @@ u8 CartCommon::SPIWrite(u8 val, u32 pos, bool last) return 0xFF; } -void CartCommon::SetIRQ() -{ - NDS::SetIRQ(0, NDS::IRQ_CartIREQMC); - NDS::SetIRQ(1, NDS::IRQ_CartIREQMC); -} - u8 *CartCommon::GetSaveMemory() const { return nullptr; @@ -496,9 +491,9 @@ void CartRetail::LoadSave(const u8* savedata, u32 savelen) Platform::WriteNDSSave(savedata, len, 0, len); } -int CartRetail::ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) +int CartRetail::ROMCommandStart(NDS& nds, NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) { - if (CmdEncMode != 2) return CartCommon::ROMCommandStart(cartslot, cmd, data, len); + if (CmdEncMode != 2) return CartCommon::ROMCommandStart(nds, cartslot, cmd, data, len); switch (cmd[0]) { @@ -519,7 +514,7 @@ int CartRetail::ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* dat return 0; default: - return CartCommon::ROMCommandStart(cartslot, cmd, data, len); + return CartCommon::ROMCommandStart(nds, cartslot, cmd, data, len); } } @@ -900,9 +895,9 @@ void CartRetailNAND::LoadSave(const u8* savedata, u32 savelen) BuildSRAMID(); } -int CartRetailNAND::ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) +int CartRetailNAND::ROMCommandStart(NDS& nds, NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) { - if (CmdEncMode != 2) return CartCommon::ROMCommandStart(cartslot, cmd, data, len); + if (CmdEncMode != 2) return CartCommon::ROMCommandStart(nds, cartslot, cmd, data, len); switch (cmd[0]) { @@ -1032,7 +1027,7 @@ int CartRetailNAND::ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* return 0; default: - return CartRetail::ROMCommandStart(cartslot, cmd, data, len); + return CartRetail::ROMCommandStart(nds, cartslot, cmd, data, len); } } @@ -1152,7 +1147,7 @@ void CartRetailBT::DoSavestate(Savestate* file) u8 CartRetailBT::SPIWrite(u8 val, u32 pos, bool last) { - Log(LogLevel::Debug,"POKETYPE SPI: %02X %d %d - %08X\n", val, pos, last, NDS::GetPC(0)); + //Log(LogLevel::Debug,"POKETYPE SPI: %02X %d %d - %08X\n", val, pos, last, NDS::GetPC(0)); /*if (pos == 0) { @@ -1210,9 +1205,9 @@ void CartHomebrew::Reset() SD = nullptr; } -void CartHomebrew::SetupDirectBoot(const std::string& romname) +void CartHomebrew::SetupDirectBoot(const std::string& romname, NDS& nds) { - CartCommon::SetupDirectBoot(romname); + CartCommon::SetupDirectBoot(romname, nds); if (SD) { @@ -1231,17 +1226,17 @@ void CartHomebrew::SetupDirectBoot(const std::string& romname) argvlen = strlen(argv); const NDSHeader& header = GetHeader(); - void (*writefn)(u32,u32) = (NDS::ConsoleType==1) ? DSi::ARM9Write32 : NDS::ARM9Write32; u32 argvbase = header.ARM9RAMAddress + header.ARM9Size; argvbase = (argvbase + 0xF) & ~0xF; for (u32 i = 0; i <= argvlen; i+=4) - writefn(argvbase+i, *(u32*)&argv[i]); + nds.ARM9Write32(argvbase+i, *(u32*)&argv[i]); - writefn(0x02FFFE70, 0x5F617267); - writefn(0x02FFFE74, argvbase); - writefn(0x02FFFE78, argvlen+1); + nds.ARM9Write32(0x02FFFE70, 0x5F617267); + nds.ARM9Write32(0x02FFFE74, argvbase); + nds.ARM9Write32(0x02FFFE78, argvlen+1); + // The DSi version of ARM9Write32 will be called if nds is really a DSi } } @@ -1250,9 +1245,9 @@ void CartHomebrew::DoSavestate(Savestate* file) CartCommon::DoSavestate(file); } -int CartHomebrew::ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) +int CartHomebrew::ROMCommandStart(NDS& nds, NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) { - if (CmdEncMode != 2) return CartCommon::ROMCommandStart(cartslot, cmd, data, len); + if (CmdEncMode != 2) return CartCommon::ROMCommandStart(nds, cartslot, cmd, data, len); switch (cmd[0]) { @@ -1283,7 +1278,7 @@ int CartHomebrew::ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* d return 1; default: - return CartCommon::ROMCommandStart(cartslot, cmd, data, len); + return CartCommon::ROMCommandStart(nds, cartslot, cmd, data, len); } } @@ -1449,19 +1444,19 @@ void CartHomebrew::ReadROM_B7(u32 addr, u32 len, u8* data, u32 offset) -NDSCartSlot::NDSCartSlot() noexcept +NDSCartSlot::NDSCartSlot(melonDS::NDS& nds) noexcept : NDS(nds) { - NDS::RegisterEventFunc(NDS::Event_ROMTransfer, ROMTransfer_PrepareData, MemberEventFunc(NDSCartSlot, ROMPrepareData)); - NDS::RegisterEventFunc(NDS::Event_ROMTransfer, ROMTransfer_End, MemberEventFunc(NDSCartSlot, ROMEndTransfer)); - NDS::RegisterEventFunc(NDS::Event_ROMSPITransfer, 0, MemberEventFunc(NDSCartSlot, SPITransferDone)); + NDS.RegisterEventFunc(Event_ROMTransfer, ROMTransfer_PrepareData, MemberEventFunc(NDSCartSlot, ROMPrepareData)); + NDS.RegisterEventFunc(Event_ROMTransfer, ROMTransfer_End, MemberEventFunc(NDSCartSlot, ROMEndTransfer)); + NDS.RegisterEventFunc(Event_ROMSPITransfer, 0, MemberEventFunc(NDSCartSlot, SPITransferDone)); // All fields are default-constructed because they're listed as such in the class declaration } NDSCartSlot::~NDSCartSlot() noexcept { - NDS::UnregisterEventFunc(NDS::Event_ROMTransfer, ROMTransfer_PrepareData); - NDS::UnregisterEventFunc(NDS::Event_ROMTransfer, ROMTransfer_End); - NDS::UnregisterEventFunc(NDS::Event_ROMSPITransfer, 0); + NDS.UnregisterEventFunc(Event_ROMTransfer, ROMTransfer_PrepareData); + NDS.UnregisterEventFunc(Event_ROMTransfer, ROMTransfer_End); + NDS.UnregisterEventFunc(Event_ROMSPITransfer, 0); // Cart is cleaned up automatically because it's a unique_ptr } @@ -1574,10 +1569,10 @@ void NDSCartSlot::DecryptSecureArea(u8* out) noexcept memcpy(out, &cartrom[arm9base], 0x800); - Key1_InitKeycode(false, gamecode, 2, 2, NDS::ARM7BIOS, sizeof(NDS::ARM7BIOS)); + Key1_InitKeycode(false, gamecode, 2, 2, NDS.ARM7BIOS, sizeof(NDS::ARM7BIOS)); Key1_Decrypt((u32*)&out[0]); - Key1_InitKeycode(false, gamecode, 3, 2, NDS::ARM7BIOS, sizeof(NDS::ARM7BIOS)); + Key1_InitKeycode(false, gamecode, 3, 2, NDS.ARM7BIOS, sizeof(NDS::ARM7BIOS)); for (u32 i = 0; i < 0x800; i += 8) Key1_Decrypt((u32*)&out[i]); @@ -1744,11 +1739,11 @@ bool NDSCartSlot::InsertROM(std::unique_ptr&& cart) noexcept strncpy((char*)&cartrom[header.ARM9ROMOffset], "encryObj", 8); - Key1_InitKeycode(false, romparams.GameCode, 3, 2, NDS::ARM7BIOS, sizeof(NDS::ARM7BIOS)); + Key1_InitKeycode(false, romparams.GameCode, 3, 2, NDS.ARM7BIOS, sizeof(NDS::ARM7BIOS)); for (u32 i = 0; i < 0x800; i += 8) Key1_Encrypt((u32*)&cartrom[header.ARM9ROMOffset + i]); - Key1_InitKeycode(false, romparams.GameCode, 2, 2, NDS::ARM7BIOS, sizeof(NDS::ARM7BIOS)); + Key1_InitKeycode(false, romparams.GameCode, 2, 2, NDS.ARM7BIOS, sizeof(NDS::ARM7BIOS)); Key1_Encrypt((u32*)&cartrom[header.ARM9ROMOffset]); Log(LogLevel::Debug, "Re-encrypted cart secure area\n"); @@ -1763,8 +1758,6 @@ bool NDSCartSlot::InsertROM(std::unique_ptr&& cart) noexcept Log(LogLevel::Info, "Inserted cart with ID: %08X\n", Cart->ID()); Log(LogLevel::Info, "ROM entry: %08X %08X\n", romparams.ROMSize, romparams.SaveMemType); - DSi::SetCartInserted(true); - return true; } @@ -1784,7 +1777,7 @@ void NDSCartSlot::LoadSave(const u8* savedata, u32 savelen) noexcept void NDSCartSlot::SetupDirectBoot(const std::string& romname) noexcept { if (Cart) - Cart->SetupDirectBoot(romname); + Cart->SetupDirectBoot(romname, NDS); } void NDSCartSlot::EjectCart() noexcept @@ -1792,13 +1785,11 @@ void NDSCartSlot::EjectCart() noexcept if (!Cart) return; // ejecting the cart triggers the gamecard IRQ - NDS::SetIRQ(0, NDS::IRQ_CartIREQMC); - NDS::SetIRQ(1, NDS::IRQ_CartIREQMC); + NDS.SetIRQ(0, IRQ_CartIREQMC); + NDS.SetIRQ(1, IRQ_CartIREQMC); Cart = nullptr; - DSi::SetCartInserted(false); - // CHECKME: does an eject imply anything for the ROM/SPI transfer registers? } @@ -1835,7 +1826,7 @@ void NDSCartSlot::ROMEndTransfer(u32 param) noexcept ROMCnt &= ~(1<<31); if (SPICnt & (1<<14)) - NDS::SetIRQ((NDS::ExMemCnt[0]>>11)&0x1, NDS::IRQ_CartXferDone); + NDS.SetIRQ((NDS.ExMemCnt[0]>>11)&0x1, IRQ_CartXferDone); if (Cart) Cart->ROMCommandFinish(TransferCmd.data(), TransferData.data(), TransferLen); @@ -1855,10 +1846,10 @@ void NDSCartSlot::ROMPrepareData(u32 param) noexcept ROMCnt |= (1<<23); - if (NDS::ExMemCnt[0] & (1<<11)) - NDS::CheckDMAs(1, 0x12); + if (NDS.ExMemCnt[0] & (1<<11)) + NDS.CheckDMAs(1, 0x12); else - NDS::CheckDMAs(0, 0x05); + NDS.CheckDMAs(0, 0x05); } void NDSCartSlot::WriteROMCnt(u32 val) noexcept @@ -1870,9 +1861,9 @@ void NDSCartSlot::WriteROMCnt(u32 val) noexcept // a DS cart reader if (val & (1<<15)) { - u32 snum = (NDS::ExMemCnt[0]>>8)&0x8; - u64 seed0 = *(u32*)&NDS::ROMSeed0[snum] | ((u64)NDS::ROMSeed0[snum+4] << 32); - u64 seed1 = *(u32*)&NDS::ROMSeed1[snum] | ((u64)NDS::ROMSeed1[snum+4] << 32); + u32 snum = (NDS.ExMemCnt[0]>>8)&0x8; + u64 seed0 = *(u32*)&NDS.ROMSeed0[snum] | ((u64)NDS.ROMSeed0[snum+4] << 32); + u64 seed1 = *(u32*)&NDS.ROMSeed1[snum] | ((u64)NDS.ROMSeed1[snum+4] << 32); Key2_X = 0; Key2_Y = 0; @@ -1919,7 +1910,7 @@ void NDSCartSlot::WriteROMCnt(u32 val) noexcept TransferDir = 0; if (Cart) - TransferDir = Cart->ROMCommandStart(*this, TransferCmd.data(), TransferData.data(), TransferLen); + TransferDir = Cart->ROMCommandStart(NDS, *this, TransferCmd.data(), TransferData.data(), TransferLen); if ((datasize > 0) && (((ROMCnt >> 30) & 0x1) != TransferDir)) Log(LogLevel::Debug, "NDSCART: !! BAD TRANSFER DIRECTION FOR CMD %02X, DIR=%d, ROMCNT=%08X\n", ROMCommand[0], TransferDir, ROMCnt); @@ -1945,9 +1936,9 @@ void NDSCartSlot::WriteROMCnt(u32 val) noexcept } if (datasize == 0) - NDS::ScheduleEvent(NDS::Event_ROMTransfer, false, xfercycle*cmddelay, ROMTransfer_End, 0); + NDS.ScheduleEvent(Event_ROMTransfer, false, xfercycle*cmddelay, ROMTransfer_End, 0); else - NDS::ScheduleEvent(NDS::Event_ROMTransfer, false, xfercycle*(cmddelay+4), ROMTransfer_PrepareData, 0); + NDS.ScheduleEvent(Event_ROMTransfer, false, xfercycle*(cmddelay+4), ROMTransfer_PrepareData, 0); } void NDSCartSlot::AdvanceROMTransfer() noexcept @@ -1964,7 +1955,7 @@ void NDSCartSlot::AdvanceROMTransfer() noexcept delay += ((ROMCnt >> 16) & 0x3F); } - NDS::ScheduleEvent(NDS::Event_ROMTransfer, false, xfercycle*delay, ROMTransfer_PrepareData, 0); + NDS.ScheduleEvent(Event_ROMTransfer, false, xfercycle*delay, ROMTransfer_PrepareData, 0); } else ROMEndTransfer(0); @@ -2066,7 +2057,7 @@ void NDSCartSlot::WriteSPIData(u8 val) noexcept // SPI transfers one bit per cycle -> 8 cycles per byte u32 delay = 8 * (8 << (SPICnt & 0x3)); - NDS::ScheduleEvent(NDS::Event_ROMSPITransfer, false, delay, 0, 0); + NDS.ScheduleEvent(Event_ROMSPITransfer, false, delay, 0, 0); } } diff --git a/src/NDSCart.h b/src/NDSCart.h index 18d1fb6d..24f9f9ee 100644 --- a/src/NDSCart.h +++ b/src/NDSCart.h @@ -30,6 +30,10 @@ #include "FATStorage.h" #include "ROMList.h" +namespace melonDS +{ +class NDS; +} namespace melonDS::NDSCart { @@ -56,14 +60,14 @@ public: [[nodiscard]] u32 Checksum() const; virtual void Reset(); - virtual void SetupDirectBoot(const std::string& romname); + virtual void SetupDirectBoot(const std::string& romname, NDS& nds); virtual void DoSavestate(Savestate* file); virtual void SetupSave(u32 type); virtual void LoadSave(const u8* savedata, u32 savelen); - virtual int ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len); + virtual int ROMCommandStart(NDS& nds, NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len); virtual void ROMCommandFinish(u8* cmd, u8* data, u32 len); virtual u8 SPIWrite(u8 val, u32 pos, bool last); @@ -83,8 +87,6 @@ public: protected: void ReadROM(u32 addr, u32 len, u8* data, u32 offset); - void SetIRQ(); - u8* ROM; u32 ROMLength; u32 ChipID; @@ -116,7 +118,7 @@ public: virtual void SetupSave(u32 type) override; virtual void LoadSave(const u8* savedata, u32 savelen) override; - virtual int ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) override; + virtual int ROMCommandStart(NDS& nds, NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) override; virtual u8 SPIWrite(u8 val, u32 pos, bool last) override; @@ -155,7 +157,7 @@ public: void LoadSave(const u8* savedata, u32 savelen) override; - int ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) override; + int ROMCommandStart(NDS& nds, NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) override; void ROMCommandFinish(u8* cmd, u8* data, u32 len) override; u8 SPIWrite(u8 val, u32 pos, bool last) override; @@ -216,11 +218,11 @@ public: virtual u32 Type() const override { return CartType::Homebrew; } void Reset() override; - void SetupDirectBoot(const std::string& romname) override; + void SetupDirectBoot(const std::string& romname, NDS& nds) override; void DoSavestate(Savestate* file) override; - int ROMCommandStart(NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) override; + int ROMCommandStart(NDS& nds, NDSCart::NDSCartSlot& cartslot, u8* cmd, u8* data, u32 len) override; void ROMCommandFinish(u8* cmd, u8* data, u32 len) override; private: @@ -235,7 +237,7 @@ private: class NDSCartSlot { public: - NDSCartSlot() noexcept; + NDSCartSlot(melonDS::NDS& nds) noexcept; ~NDSCartSlot() noexcept; void Reset() noexcept; void ResetCart() noexcept; @@ -303,6 +305,7 @@ public: void SetSPICnt(u16 val) noexcept { SPICnt = val; } private: friend class CartCommon; + melonDS::NDS& NDS; u16 SPICnt {}; u32 ROMCnt {}; std::array ROMCommand {}; diff --git a/src/RTC.cpp b/src/RTC.cpp index 747348ce..b5e497a2 100644 --- a/src/RTC.cpp +++ b/src/RTC.cpp @@ -32,9 +32,9 @@ using Platform::LogLevel; void WriteDateTime(int num, u8 val); -RTC::RTC() +RTC::RTC(melonDS::NDS& nds) : NDS(nds) { - NDS::RegisterEventFunc(NDS::Event_RTC, 0, MemberEventFunc(RTC, ClockTimer)); + NDS.RegisterEventFunc(Event_RTC, 0, MemberEventFunc(RTC, ClockTimer)); ResetState(); @@ -45,7 +45,7 @@ RTC::RTC() RTC::~RTC() { - NDS::UnregisterEventFunc(NDS::Event_RTC, 0); + NDS.UnregisterEventFunc(Event_RTC, 0); } void RTC::Reset() @@ -221,10 +221,10 @@ void RTC::SetIRQ(u8 irq) if ((!(oldstat & 0x30)) && (State.IRQFlag & 0x30)) { - if ((NDS::RCnt & 0xC100) == 0x8100) + if ((NDS.RCnt & 0xC100) == 0x8100) { // CHECKME: is the IRQ status readable in RCNT? - NDS::SetIRQ(1, NDS::IRQ_RTC); + NDS.SetIRQ(1, IRQ_RTC); } } } @@ -306,7 +306,7 @@ void RTC::ProcessIRQ(int type) // 0=minute carry 1=periodic 2=status reg write if (State.Alarm1[2] & (1<<7)) cond = cond && ((State.Alarm1[2] & 0x7F) == State.DateTime[5]); - if (NDS::ConsoleType == 1) + if (NDS.ConsoleType == 1) { if (State.AlarmDate1[1] & (1<<6)) cond = cond && (State.AlarmDate1[0] == State.DateTime[0]); @@ -348,7 +348,7 @@ void RTC::ProcessIRQ(int type) // 0=minute carry 1=periodic 2=status reg write if (State.Alarm2[2] & (1<<7)) cond = cond && ((State.Alarm2[2] & 0x7F) == State.DateTime[5]); - if (NDS::ConsoleType == 1) + if (NDS.ConsoleType == 1) { if (State.AlarmDate2[1] & (1<<6)) cond = cond && (State.AlarmDate2[0] == State.DateTime[0]); @@ -520,7 +520,7 @@ void RTC::ScheduleTimer(bool first) s32 delay = sysclock >> 15; TimerError = sysclock & 0x7FFF; - NDS::ScheduleEvent(NDS::Event_RTC, !first, delay, 0, 0); + NDS.ScheduleEvent(Event_RTC, !first, delay, 0, 0); } void RTC::ClockTimer(u32 param) @@ -647,7 +647,7 @@ void RTC::CmdRead() } else if ((CurCmd & 0x0F) == 0x0E) { - if (NDS::ConsoleType != 1) + if (NDS.ConsoleType != 1) { Log(LogLevel::Debug, "RTC: unknown read command %02X\n", CurCmd); return; @@ -797,7 +797,7 @@ void RTC::CmdWrite(u8 val) } else if ((CurCmd & 0x0F) == 0x0E) { - if (NDS::ConsoleType != 1) + if (NDS.ConsoleType != 1) { Log(LogLevel::Debug, "RTC: unknown write command %02X\n", CurCmd); return; @@ -852,7 +852,7 @@ void RTC::ByteIn(u8 val) else CurCmd = val; - if (NDS::ConsoleType == 1) + if (NDS.ConsoleType == 1) { // for DSi: handle extra commands diff --git a/src/RTC.h b/src/RTC.h index 45d0f26b..0caf5ee5 100644 --- a/src/RTC.h +++ b/src/RTC.h @@ -48,7 +48,7 @@ public: u8 AlarmDate2[3]; }; - RTC(); + RTC(melonDS::NDS& nds); ~RTC(); void Reset(); @@ -66,9 +66,7 @@ public: void Write(u16 val, bool byte); private: - /// This value represents the Nintendo DS IO register, - /// \em not the value of the system's clock. - /// The actual system time is taken directly from the host. + melonDS::NDS& NDS; u16 IO; u8 Input; diff --git a/src/SPI.cpp b/src/SPI.cpp index 3ded7bcc..b3e5b4e1 100644 --- a/src/SPI.cpp +++ b/src/SPI.cpp @@ -65,7 +65,7 @@ bool FirmwareMem::VerifyCRC16(u32 start, u32 offset, u32 len, u32 crcoffset) } -FirmwareMem::FirmwareMem(SPIHost* host) : SPIDevice(host) +FirmwareMem::FirmwareMem(melonDS::NDS& nds) : SPIDevice(nds) { } @@ -79,7 +79,7 @@ void FirmwareMem::Reset() if (!Firmware) { Log(LogLevel::Warn, "SPI firmware: no firmware loaded! Using default\n"); - Firmware = std::make_unique(NDS::ConsoleType); + Firmware = std::make_unique(NDS.ConsoleType); } // fix touchscreen coords @@ -134,31 +134,32 @@ void FirmwareMem::DoSavestate(Savestate* file) file->Var32(&Addr); } -void FirmwareMem::SetupDirectBoot(bool dsi) +void FirmwareMem::SetupDirectBoot() { const auto& header = Firmware->GetHeader(); const auto& userdata = Firmware->GetEffectiveUserData(); - if (dsi) + if (NDS.ConsoleType == 1) { + // The ARMWrite methods are virtual, they'll delegate to DSi if necessary for (u32 i = 0; i < 6; i += 2) - DSi::ARM9Write16(0x02FFFCF4, *(u16*)&header.MacAddr[i]); // MAC address + NDS.ARM9Write16(0x02FFFCF4, *(u16*)&header.MacAddr[i]); // MAC address // checkme - DSi::ARM9Write16(0x02FFFCFA, header.EnabledChannels); // enabled channels + NDS.ARM9Write16(0x02FFFCFA, header.EnabledChannels); // enabled channels for (u32 i = 0; i < 0x70; i += 4) - DSi::ARM9Write32(0x02FFFC80+i, *(u32*)&userdata.Bytes[i]); + NDS.ARM9Write32(0x02FFFC80+i, *(u32*)&userdata.Bytes[i]); } else { - NDS::ARM9Write32(0x027FF864, 0); - NDS::ARM9Write32(0x027FF868, header.UserSettingsOffset << 3); // user settings offset + NDS.ARM9Write32(0x027FF864, 0); + NDS.ARM9Write32(0x027FF868, header.UserSettingsOffset << 3); // user settings offset - NDS::ARM9Write16(0x027FF874, header.DataGfxChecksum); // CRC16 for data/gfx - NDS::ARM9Write16(0x027FF876, header.GUIWifiCodeChecksum); // CRC16 for GUI/wifi code + NDS.ARM9Write16(0x027FF874, header.DataGfxChecksum); // CRC16 for data/gfx + NDS.ARM9Write16(0x027FF876, header.GUIWifiCodeChecksum); // CRC16 for GUI/wifi code for (u32 i = 0; i < 0x70; i += 4) - NDS::ARM9Write32(0x027FFC80+i, *(u32*)&userdata.Bytes[i]); + NDS.ARM9Write32(0x027FFC80+i, *(u32*)&userdata.Bytes[i]); } } @@ -326,7 +327,7 @@ void FirmwareMem::Release() -PowerMan::PowerMan(SPIHost* host) : SPIDevice(host) +PowerMan::PowerMan(melonDS::NDS& nds) : SPIDevice(nds) { } @@ -395,7 +396,7 @@ void PowerMan::Write(u8 val) switch (regid) { case 0: - if (val & 0x40) NDS::Stop(StopReason::PowerOff); // shutdown + if (val & 0x40) NDS.Stop(StopReason::PowerOff); // shutdown //printf("power %02X\n", val); break; case 4: @@ -410,7 +411,7 @@ void PowerMan::Write(u8 val) -TSC::TSC(SPIHost* host) : SPIDevice(host) +TSC::TSC(melonDS::NDS& nds) : SPIDevice(nds) { } @@ -452,13 +453,13 @@ void TSC::SetTouchCoords(u16 x, u16 y) if (y == 0xFFF) { // released - NDS::KeyInput |= (1 << (16+6)); + NDS.KeyInput |= (1 << (16+6)); return; } TouchX <<= 4; TouchY <<= 4; - NDS::KeyInput &= ~(1 << (16+6)); + NDS.KeyInput &= ~(1 << (16+6)); } void TSC::MicInputFrame(s16* data, int samples) @@ -500,7 +501,7 @@ void TSC::Write(u8 val) else { // 560190 cycles per frame - u32 cyclepos = (u32)NDS::GetSysClockCycles(2); + u32 cyclepos = (u32)NDS.GetSysClockCycles(2); u32 samplepos = (cyclepos * MicBufferLen) / 560190; if (samplepos >= MicBufferLen) samplepos = MicBufferLen-1; s16 sample = MicBuffer[samplepos]; @@ -529,17 +530,17 @@ void TSC::Write(u8 val) -SPIHost::SPIHost() +SPIHost::SPIHost(melonDS::NDS& nds) : NDS(nds) { - NDS::RegisterEventFunc(NDS::Event_SPITransfer, 0, MemberEventFunc(SPIHost, TransferDone)); + NDS.RegisterEventFunc(Event_SPITransfer, 0, MemberEventFunc(SPIHost, TransferDone)); - Devices[SPIDevice_FirmwareMem] = new FirmwareMem(this); - Devices[SPIDevice_PowerMan] = new PowerMan(this); + Devices[SPIDevice_FirmwareMem] = new FirmwareMem(NDS); + Devices[SPIDevice_PowerMan] = new PowerMan(NDS); - if (NDS::ConsoleType == 1) - Devices[SPIDevice_TSC] = new DSi_TSC(this); + if (NDS.ConsoleType == 1) + Devices[SPIDevice_TSC] = new DSi_TSC(static_cast(NDS)); else - Devices[SPIDevice_TSC] = new TSC(this); + Devices[SPIDevice_TSC] = new TSC(NDS); } SPIHost::~SPIHost() @@ -552,7 +553,7 @@ SPIHost::~SPIHost() Devices[i] = nullptr; } - NDS::UnregisterEventFunc(NDS::Event_SPITransfer, 0); + NDS.UnregisterEventFunc(Event_SPITransfer, 0); } void SPIHost::Reset() @@ -603,7 +604,7 @@ void SPIHost::TransferDone(u32 param) Cnt &= ~(1<<7); if (Cnt & (1<<14)) - NDS::SetIRQ(1, NDS::IRQ_SPI); + NDS.SetIRQ(1, IRQ_SPI); } u8 SPIHost::ReadData() @@ -641,7 +642,7 @@ void SPIHost::WriteData(u8 val) // SPI transfers one bit per cycle -> 8 cycles per byte u32 delay = 8 * (8 << (Cnt & 0x3)); - NDS::ScheduleEvent(NDS::Event_SPITransfer, false, delay, 0, 0); + NDS.ScheduleEvent(Event_SPITransfer, false, delay, 0, 0); } } \ No newline at end of file diff --git a/src/SPI.h b/src/SPI.h index c889fb5e..f27f0c3e 100644 --- a/src/SPI.h +++ b/src/SPI.h @@ -42,11 +42,11 @@ enum u16 CRC16(const u8* data, u32 len, u32 start); class SPIHost; - +class NDS; class SPIDevice { public: - SPIDevice(SPIHost* host) : Host(host), Hold(false), DataPos(0) {} + SPIDevice(melonDS::NDS& nds) : NDS(nds), Hold(false), DataPos(0) {} virtual ~SPIDevice() {} virtual void Reset() = 0; virtual void DoSavestate(Savestate* file) = 0; @@ -56,7 +56,7 @@ public: virtual void Release() { Hold = false; DataPos = 0; } protected: - SPIHost* Host; + melonDS::NDS& NDS; bool Hold; u32 DataPos; @@ -66,12 +66,12 @@ protected: class FirmwareMem : public SPIDevice { public: - FirmwareMem(SPIHost* host); + FirmwareMem(melonDS::NDS& nds); ~FirmwareMem() override; void Reset() override; void DoSavestate(Savestate* file) override; - void SetupDirectBoot(bool dsi); + void SetupDirectBoot(); const class Firmware* GetFirmware(); bool IsLoadedFirmwareBuiltIn(); @@ -96,7 +96,7 @@ private: class PowerMan : public SPIDevice { public: - PowerMan(SPIHost* host); + PowerMan(melonDS::NDS& nds); ~PowerMan() override; void Reset() override; void DoSavestate(Savestate* file) override; @@ -116,7 +116,7 @@ private: class TSC : public SPIDevice { public: - TSC(SPIHost* host); + TSC(melonDS::NDS& nds); virtual ~TSC() override; virtual void Reset() override; virtual void DoSavestate(Savestate* file) override; @@ -141,7 +141,7 @@ protected: class SPIHost { public: - SPIHost(); + SPIHost(melonDS::NDS& nds); ~SPIHost(); void Reset(); void DoSavestate(Savestate* file); @@ -161,6 +161,7 @@ public: void TransferDone(u32 param); private: + melonDS::NDS& NDS; u16 Cnt; SPIDevice* Devices[3]; diff --git a/src/SPU.cpp b/src/SPU.cpp index a5570d66..00db3691 100644 --- a/src/SPU.cpp +++ b/src/SPU.cpp @@ -70,15 +70,15 @@ s16 SPUChannel::InterpCubic[0x100][4]; bool SPUChannel::InterpInited = false; -SPU::SPU() +SPU::SPU(melonDS::NDS& nds) : NDS(nds) { - NDS::RegisterEventFunc(NDS::Event_SPU, 0, MemberEventFunc(SPU, Mix)); + NDS.RegisterEventFunc(Event_SPU, 0, MemberEventFunc(SPU, Mix)); for (int i = 0; i < 16; i++) - Channels[i] = new SPUChannel(i); + Channels[i] = new SPUChannel(i, NDS); - Capture[0] = new SPUCaptureUnit(0); - Capture[1] = new SPUCaptureUnit(1); + Capture[0] = new SPUCaptureUnit(0, NDS); + Capture[1] = new SPUCaptureUnit(1, NDS); AudioLock = Platform::Mutex_Create(); @@ -137,7 +137,7 @@ SPU::~SPU() Platform::Mutex_Free(AudioLock); AudioLock = nullptr; - NDS::UnregisterEventFunc(NDS::Event_SPU, 0); + NDS.UnregisterEventFunc(Event_SPU, 0); } void SPU::Reset() @@ -154,7 +154,7 @@ void SPU::Reset() Capture[0]->Reset(); Capture[1]->Reset(); - NDS::ScheduleEvent(NDS::Event_SPU, false, 1024, 0, 0); + NDS.ScheduleEvent(Event_SPU, false, 1024, 0, 0); } void SPU::Stop() @@ -212,7 +212,7 @@ void SPU::SetDegrade10Bit(bool enable) } -SPUChannel::SPUChannel(u32 num) +SPUChannel::SPUChannel(u32 num, melonDS::NDS& nds) : NDS(nds) { Num = num; @@ -225,11 +225,6 @@ SPUChannel::~SPUChannel() void SPUChannel::Reset() { - if (NDS::ConsoleType == 1) - BusRead32 = DSi::ARM7Read32; - else - BusRead32 = NDS::ARM7Read32; - KeyOn = false; SetCnt(0); @@ -299,7 +294,7 @@ void SPUChannel::FIFO_BufferData() { for (u32 i = 0; i < burstlen; i += 4) { - FIFO[FIFOWritePos] = BusRead32(SrcAddr + FIFOReadOffset); + FIFO[FIFOWritePos] = NDS.ARM7Read32(SrcAddr + FIFOReadOffset); FIFOReadOffset += 4; FIFOWritePos++; FIFOWritePos &= 0x7; @@ -583,7 +578,7 @@ void SPUChannel::PanOutput(s32 in, s32& left, s32& right) } -SPUCaptureUnit::SPUCaptureUnit(u32 num) +SPUCaptureUnit::SPUCaptureUnit(u32 num, melonDS::NDS& nds) : NDS(nds), Num(num) { Num = num; } @@ -594,11 +589,6 @@ SPUCaptureUnit::~SPUCaptureUnit() void SPUCaptureUnit::Reset() { - if (NDS::ConsoleType == 1) - BusWrite32 = DSi::ARM7Write32; - else - BusWrite32 = NDS::ARM7Write32; - SetCnt(0); DstAddr = 0; TimerReload = 0; @@ -634,7 +624,8 @@ void SPUCaptureUnit::FIFO_FlushData() { for (u32 i = 0; i < 4; i++) { - BusWrite32(DstAddr + FIFOWriteOffset, FIFO[FIFOReadPos]); + NDS.ARM7Write32(DstAddr + FIFOWriteOffset, FIFO[FIFOReadPos]); + // Calls the NDS or DSi version, depending on the class FIFOReadPos++; FIFOReadPos &= 0x3; @@ -858,7 +849,7 @@ void SPU::Mix(u32 dummy) OutputBackbufferWritePosition += 2; } - NDS::ScheduleEvent(NDS::Event_SPU, true, 1024, 0, 0); + NDS.ScheduleEvent(Event_SPU, true, 1024, 0, 0); } void SPU::TransferOutput() diff --git a/src/SPU.h b/src/SPU.h index 144c19ba..bf0c658b 100644 --- a/src/SPU.h +++ b/src/SPU.h @@ -24,12 +24,13 @@ namespace melonDS { +class NDS; class SPU; class SPUChannel { public: - SPUChannel(u32 num); + SPUChannel(u32 num, melonDS::NDS& nds); ~SPUChannel(); void Reset(); void DoSavestate(Savestate* file); @@ -142,13 +143,13 @@ public: void PanOutput(s32 in, s32& left, s32& right); private: - u32 (*BusRead32)(u32 addr); + melonDS::NDS& NDS; }; class SPUCaptureUnit { public: - SPUCaptureUnit(u32 num); + SPUCaptureUnit(u32 num, melonDS::NDS&); ~SPUCaptureUnit(); void Reset(); void DoSavestate(Savestate* file); @@ -199,13 +200,13 @@ public: void Run(s32 sample); private: - void (*BusWrite32)(u32 addr, u32 val); + melonDS::NDS& NDS; }; class SPU { public: - SPU(); + SPU(melonDS::NDS& nds); ~SPU(); void Reset(); void DoSavestate(Savestate* file); @@ -240,6 +241,7 @@ public: private: static const u32 OutputBufferSize = 2*2048; + melonDS::NDS& NDS; s16 OutputBackbuffer[2 * OutputBufferSize]; u32 OutputBackbufferWritePosition; diff --git a/src/Wifi.cpp b/src/Wifi.cpp index 1441d1dd..50275236 100644 --- a/src/Wifi.cpp +++ b/src/Wifi.cpp @@ -89,9 +89,9 @@ bool MACIsBroadcast(u8* a) } -Wifi::Wifi() +Wifi::Wifi(melonDS::NDS& nds) : NDS(nds) { - NDS::RegisterEventFunc(NDS::Event_Wifi, 0, MemberEventFunc(Wifi, USTimer)); + NDS.RegisterEventFunc(Event_Wifi, 0, MemberEventFunc(Wifi, USTimer)); //MPInited = false; //LANInited = false; @@ -114,7 +114,7 @@ Wifi::~Wifi() delete WifiAP; WifiAP = nullptr; - NDS::UnregisterEventFunc(NDS::Event_Wifi, 0); + NDS.UnregisterEventFunc(Event_Wifi, 0); } void Wifi::Reset() @@ -158,7 +158,7 @@ void Wifi::Reset() } #undef BBREG_FIXED - const Firmware* fw = NDS::SPI->GetFirmware(); + const Firmware* fw = NDS.SPI.GetFirmware(); RFVersion = fw->GetHeader().RFChipType; memset(RFRegs, 0, 4*0x40); @@ -168,7 +168,7 @@ void Wifi::Reset() IOPORT(0x000) = 0x1440; else if (console == Firmware::FirmwareConsoleType::DSLite) IOPORT(0x000) = 0xC340; - else if (NDS::ConsoleType == 1 && console == Firmware::FirmwareConsoleType::DSi) + else if (NDS.ConsoleType == 1 && console == Firmware::FirmwareConsoleType::DSi) IOPORT(0x000) = 0xC340; // DSi has the modern DS-wifi variant else { @@ -303,14 +303,14 @@ void Wifi::ScheduleTimer(bool first) s32 delay = (cycles + 999999) / 1000000; TimerError = (delay * 1000000) - cycles; - NDS::ScheduleEvent(NDS::Event_Wifi, !first, delay, 0, 0); + NDS.ScheduleEvent(Event_Wifi, !first, delay, 0, 0); } void Wifi::UpdatePowerOn() { bool on = Enabled; - if (NDS::ConsoleType == 1) + if (NDS.ConsoleType == 1) { // TODO for DSi: // * W_POWER_US doesn't work (atleast on DWM-W024) @@ -338,7 +338,7 @@ void Wifi::UpdatePowerOn() { Log(LogLevel::Debug, "WIFI: OFF\n"); - NDS::CancelEvent(NDS::Event_Wifi); + NDS.CancelEvent(Event_Wifi); Platform::MP_End(); } @@ -359,7 +359,7 @@ void Wifi::SetIRQ(u32 irq) u32 newflags = IOPORT(W_IF) & IOPORT(W_IE); if ((oldflags == 0) && (newflags != 0)) - NDS::SetIRQ(1, NDS::IRQ_Wifi); + NDS.SetIRQ(1, IRQ_Wifi); } void Wifi::SetIRQ13() diff --git a/src/Wifi.h b/src/Wifi.h index c47a8833..76fa1463 100644 --- a/src/Wifi.h +++ b/src/Wifi.h @@ -24,7 +24,7 @@ namespace melonDS { class WifiAP; - +class NDS; class Wifi { public: @@ -157,7 +157,7 @@ public: W_RXTXAddr = 0x268, }; - Wifi(); + Wifi(melonDS::NDS& nds); ~Wifi(); void Reset(); void DoSavestate(Savestate* file); @@ -173,6 +173,7 @@ public: u8* GetBSSID(); private: + melonDS::NDS& NDS; u8 RAM[0x2000]; u16 IO[0x1000>>1]; diff --git a/src/frontend/FrontendUtil.h b/src/frontend/FrontendUtil.h index 8d94b37d..6f09d4b7 100644 --- a/src/frontend/FrontendUtil.h +++ b/src/frontend/FrontendUtil.h @@ -24,6 +24,10 @@ #include #include +namespace melonDS +{ +class NDS; +} namespace Frontend { using namespace melonDS; @@ -105,14 +109,14 @@ int AudioOut_GetNumSamples(int outlen); void AudioOut_Resample(s16* inbuf, int inlen, s16* outbuf, int outlen, int volume); // feed silence to the microphone input -void Mic_FeedSilence(); +void Mic_FeedSilence(NDS& nds); // feed random noise to the microphone input -void Mic_FeedNoise(); +void Mic_FeedNoise(NDS& nds); // feed an external buffer to the microphone input // buffer should be mono -void Mic_FeedExternalBuffer(); +void Mic_FeedExternalBuffer(NDS& nds); void Mic_SetExternalBuffer(s16* buffer, u32 len); } diff --git a/src/frontend/Util_Audio.cpp b/src/frontend/Util_Audio.cpp index 4a1d089e..02b3026e 100644 --- a/src/frontend/Util_Audio.cpp +++ b/src/frontend/Util_Audio.cpp @@ -82,13 +82,13 @@ void AudioOut_Resample(s16* inbuf, int inlen, s16* outbuf, int outlen, int volum } -void Mic_FeedSilence() +void Mic_FeedSilence(NDS& nds) { MicBufferReadPos = 0; - NDS::MicInputFrame(NULL, 0); + nds.MicInputFrame(NULL, 0); } -void Mic_FeedNoise() +void Mic_FeedNoise(NDS& nds) { int sample_len = sizeof(mic_blow) / sizeof(u16); static int sample_pos = 0; @@ -102,12 +102,12 @@ void Mic_FeedNoise() if (sample_pos >= sample_len) sample_pos = 0; } - NDS::MicInputFrame(tmp, 735); + nds.MicInputFrame(tmp, 735); } -void Mic_FeedExternalBuffer() +void Mic_FeedExternalBuffer(NDS& nds) { - if (!MicBuffer) return Mic_FeedSilence(); + if (!MicBuffer) return Mic_FeedSilence(nds); if ((MicBufferReadPos + 735) > MicBufferLength) { @@ -116,12 +116,12 @@ void Mic_FeedExternalBuffer() memcpy(&tmp[0], &MicBuffer[MicBufferReadPos], len1*sizeof(s16)); memcpy(&tmp[len1], &MicBuffer[0], (735 - len1)*sizeof(s16)); - NDS::MicInputFrame(tmp, 735); + nds.MicInputFrame(tmp, 735); MicBufferReadPos = 735 - len1; } else { - NDS::MicInputFrame(&MicBuffer[MicBufferReadPos], 735); + nds.MicInputFrame(&MicBuffer[MicBufferReadPos], 735); MicBufferReadPos += 735; } } diff --git a/src/frontend/qt_sdl/AudioInOut.cpp b/src/frontend/qt_sdl/AudioInOut.cpp index 90708b20..ae5529d9 100644 --- a/src/frontend/qt_sdl/AudioInOut.cpp +++ b/src/frontend/qt_sdl/AudioInOut.cpp @@ -55,8 +55,9 @@ void AudioCallback(void* data, Uint8* stream, int len) s16 buf_in[1024*2]; int num_in; + EmuThread* emuThread = (EmuThread*)data; SDL_LockMutex(audioSyncLock); - num_in = NDS::SPU->ReadOutput(buf_in, len_in); + num_in = emuThread->NDS->SPU.ReadOutput(buf_in, len_in); SDL_CondSignal(audioSync); SDL_UnlockMutex(audioSyncLock); @@ -244,7 +245,7 @@ void MicLoadWav(const std::string& name) SDL_FreeWAV(buf); } -void MicProcess() +void MicProcess(melonDS::NDS& nds) { int type = Config::MicInputType; bool cmd = Input::HotkeyDown(HK_Mic); @@ -257,16 +258,16 @@ void MicProcess() switch (type) { case micInputType_Silence: // no mic - Frontend::Mic_FeedSilence(); + Frontend::Mic_FeedSilence(nds); break; case micInputType_External: // host mic case micInputType_Wav: // WAV - Frontend::Mic_FeedExternalBuffer(); + Frontend::Mic_FeedExternalBuffer(nds); break; case micInputType_Noise: // blowing noise - Frontend::Mic_FeedNoise(); + Frontend::Mic_FeedNoise(nds); break; } } @@ -296,7 +297,7 @@ void SetupMicInputData() } } -void Init() +void Init(EmuThread* thread) { audioMuted = false; audioSync = SDL_CreateCond(); @@ -310,6 +311,7 @@ void Init() whatIwant.channels = 2; whatIwant.samples = 1024; whatIwant.callback = AudioCallback; + whatIwant.userdata = thread; audioDevice = SDL_OpenAudioDevice(NULL, 0, &whatIwant, &whatIget, SDL_AUDIO_ALLOW_FREQUENCY_CHANGE); if (!audioDevice) { @@ -349,12 +351,12 @@ void DeInit() micWavBuffer = nullptr; } -void AudioSync() +void AudioSync(NDS& nds) { if (audioDevice) { SDL_LockMutex(audioSyncLock); - while (NDS::SPU->GetOutputSize() > 1024) + while (nds.SPU.GetOutputSize() > 1024) { int ret = SDL_CondWaitTimeout(audioSync, audioSyncLock, 500); if (ret == SDL_MUTEX_TIMEDOUT) break; @@ -363,11 +365,11 @@ void AudioSync() } } -void UpdateSettings() +void UpdateSettings(NDS& nds) { MicClose(); - NDS::SPU->SetInterpolation(Config::AudioInterp); + nds.SPU.SetInterpolation(Config::AudioInterp); SetupMicInputData(); MicOpen(); diff --git a/src/frontend/qt_sdl/AudioInOut.h b/src/frontend/qt_sdl/AudioInOut.h index cc386251..0bf36540 100644 --- a/src/frontend/qt_sdl/AudioInOut.h +++ b/src/frontend/qt_sdl/AudioInOut.h @@ -23,18 +23,23 @@ #include +class EmuThread; +namespace melonDS +{ +class NDS; +} namespace AudioInOut { -void Init(); +void Init(EmuThread* thread); void DeInit(); -void MicProcess(); +void MicProcess(melonDS::NDS& nds); void AudioMute(QMainWindow* mainWindow); -void AudioSync(); +void AudioSync(melonDS::NDS& nds); -void UpdateSettings(); +void UpdateSettings(melonDS::NDS& nds); void Enable(); void Disable(); diff --git a/src/frontend/qt_sdl/AudioSettingsDialog.cpp b/src/frontend/qt_sdl/AudioSettingsDialog.cpp index cb42e641..5e8812e9 100644 --- a/src/frontend/qt_sdl/AudioSettingsDialog.cpp +++ b/src/frontend/qt_sdl/AudioSettingsDialog.cpp @@ -29,7 +29,7 @@ #include "AudioSettingsDialog.h" #include "ui_AudioSettingsDialog.h" - +#include "main.h" using namespace melonDS; AudioSettingsDialog* AudioSettingsDialog::currentDlg = nullptr; @@ -37,7 +37,7 @@ AudioSettingsDialog* AudioSettingsDialog::currentDlg = nullptr; extern std::string EmuDirectory; -AudioSettingsDialog::AudioSettingsDialog(QWidget* parent, bool emuActive) : QDialog(parent), ui(new Ui::AudioSettingsDialog) +AudioSettingsDialog::AudioSettingsDialog(QWidget* parent, bool emuActive, EmuThread* emuThread) : QDialog(parent), ui(new Ui::AudioSettingsDialog), emuThread(emuThread) { ui->setupUi(this); setAttribute(Qt::WA_DeleteOnClose); @@ -65,7 +65,7 @@ AudioSettingsDialog::AudioSettingsDialog(QWidget* parent, bool emuActive) : QDia ui->chkSyncDSiVolume->setChecked(Config::DSiVolumeSync); // Setup volume slider accordingly - if (emuActive && NDS::ConsoleType == 1) + if (emuActive && emuThread->NDS->ConsoleType == 1) { on_chkSyncDSiVolume_clicked(Config::DSiVolumeSync); } @@ -125,10 +125,11 @@ AudioSettingsDialog::~AudioSettingsDialog() void AudioSettingsDialog::onSyncVolumeLevel() { - if (Config::DSiVolumeSync && NDS::ConsoleType == 1) + if (Config::DSiVolumeSync && emuThread->NDS->ConsoleType == 1) { + auto& dsi = static_cast(*emuThread->NDS); bool state = ui->slVolume->blockSignals(true); - ui->slVolume->setValue(DSi::I2C->GetBPTWL()->GetVolumeLevel()); + ui->slVolume->setValue(dsi.I2C.GetBPTWL()->GetVolumeLevel()); ui->slVolume->blockSignals(state); } } @@ -136,7 +137,7 @@ void AudioSettingsDialog::onSyncVolumeLevel() void AudioSettingsDialog::onConsoleReset() { on_chkSyncDSiVolume_clicked(Config::DSiVolumeSync); - ui->chkSyncDSiVolume->setEnabled(NDS::ConsoleType == 1); + ui->chkSyncDSiVolume->setEnabled(emuThread->NDS->ConsoleType == 1); } void AudioSettingsDialog::on_AudioSettingsDialog_accepted() @@ -181,9 +182,10 @@ void AudioSettingsDialog::on_cbInterpolation_currentIndexChanged(int idx) void AudioSettingsDialog::on_slVolume_valueChanged(int val) { - if (Config::DSiVolumeSync && NDS::ConsoleType == 1) + if (Config::DSiVolumeSync && emuThread->NDS->ConsoleType == 1) { - DSi::I2C->GetBPTWL()->SetVolumeLevel(val); + auto& dsi = static_cast(*emuThread->NDS); + dsi.I2C.GetBPTWL()->SetVolumeLevel(val); return; } @@ -195,10 +197,11 @@ void AudioSettingsDialog::on_chkSyncDSiVolume_clicked(bool checked) Config::DSiVolumeSync = checked; bool state = ui->slVolume->blockSignals(true); - if (Config::DSiVolumeSync && NDS::ConsoleType == 1) + if (Config::DSiVolumeSync && emuThread->NDS->ConsoleType == 1) { + auto& dsi = static_cast(*emuThread->NDS); ui->slVolume->setMaximum(31); - ui->slVolume->setValue(DSi::I2C->GetBPTWL()->GetVolumeLevel()); + ui->slVolume->setValue(dsi.I2C.GetBPTWL()->GetVolumeLevel()); ui->slVolume->setPageStep(4); ui->slVolume->setTickPosition(QSlider::TicksBelow); } diff --git a/src/frontend/qt_sdl/AudioSettingsDialog.h b/src/frontend/qt_sdl/AudioSettingsDialog.h index 98060b2a..ced9bae9 100644 --- a/src/frontend/qt_sdl/AudioSettingsDialog.h +++ b/src/frontend/qt_sdl/AudioSettingsDialog.h @@ -24,17 +24,18 @@ namespace Ui { class AudioSettingsDialog; } class AudioSettingsDialog; +class EmuThread; class AudioSettingsDialog : public QDialog { Q_OBJECT public: - explicit AudioSettingsDialog(QWidget* parent, bool emuActive); + explicit AudioSettingsDialog(QWidget* parent, bool emuActive, EmuThread* emuThread); ~AudioSettingsDialog(); static AudioSettingsDialog* currentDlg; - static AudioSettingsDialog* openDlg(QWidget* parent, bool emuActive) + static AudioSettingsDialog* openDlg(QWidget* parent, bool emuActive, EmuThread* emuThread) { if (currentDlg) { @@ -42,7 +43,7 @@ public: return currentDlg; } - currentDlg = new AudioSettingsDialog(parent, emuActive); + currentDlg = new AudioSettingsDialog(parent, emuActive, emuThread); currentDlg->show(); return currentDlg; } @@ -69,6 +70,7 @@ private slots: void on_btnMicWavBrowse_clicked(); private: + EmuThread* emuThread; Ui::AudioSettingsDialog* ui; int oldInterp; diff --git a/src/frontend/qt_sdl/PowerManagement/PowerManagementDialog.cpp b/src/frontend/qt_sdl/PowerManagement/PowerManagementDialog.cpp index 14ccd51c..3d47c45a 100644 --- a/src/frontend/qt_sdl/PowerManagement/PowerManagementDialog.cpp +++ b/src/frontend/qt_sdl/PowerManagement/PowerManagementDialog.cpp @@ -29,45 +29,59 @@ #include "types.h" #include +#include "main.h" using namespace melonDS; PowerManagementDialog* PowerManagementDialog::currentDlg = nullptr; -PowerManagementDialog::PowerManagementDialog(QWidget* parent) : QDialog(parent), ui(new Ui::PowerManagementDialog) +PowerManagementDialog::PowerManagementDialog(QWidget* parent, EmuThread* emuThread) : QDialog(parent), emuThread(emuThread), ui(new Ui::PowerManagementDialog) { inited = false; ui->setupUi(this); setAttribute(Qt::WA_DeleteOnClose); - if (NDS::ConsoleType == 1) + if (emuThread->NDS->ConsoleType == 1) { ui->grpDSBattery->setEnabled(false); - oldDSiBatteryLevel = DSi::I2C->GetBPTWL()->GetBatteryLevel(); - oldDSiBatteryCharging = DSi::I2C->GetBPTWL()->GetBatteryCharging(); + auto& dsi = static_cast(*emuThread->NDS); + oldDSiBatteryLevel = dsi.I2C.GetBPTWL()->GetBatteryLevel(); + oldDSiBatteryCharging = dsi.I2C.GetBPTWL()->GetBatteryCharging(); } else { ui->grpDSiBattery->setEnabled(false); - oldDSBatteryLevel = NDS::SPI->GetPowerMan()->GetBatteryLevelOkay(); + oldDSBatteryLevel = emuThread->NDS->SPI.GetPowerMan()->GetBatteryLevelOkay(); } updateDSBatteryLevelControls(); - ui->cbDSiBatteryCharging->setChecked(DSi::I2C->GetBPTWL()->GetBatteryCharging()); - int dsiBatterySliderPos; - switch (DSi::I2C->GetBPTWL()->GetBatteryLevel()) + bool defaultDSiBatteryCharging = (emuThread->NDS->ConsoleType == 1) ? Config::DSiBatteryCharging : false; + + if (emuThread->NDS->ConsoleType == 1) { + auto& dsi = static_cast(*emuThread->NDS); + ui->cbDSiBatteryCharging->setChecked(dsi.I2C.GetBPTWL()->GetBatteryCharging()); + int dsiBatterySliderPos = 4; + switch (dsi.I2C.GetBPTWL()->GetBatteryLevel()) + { case DSi_BPTWL::batteryLevel_AlmostEmpty: dsiBatterySliderPos = 0; break; case DSi_BPTWL::batteryLevel_Low: dsiBatterySliderPos = 1; break; case DSi_BPTWL::batteryLevel_Half: dsiBatterySliderPos = 2; break; case DSi_BPTWL::batteryLevel_ThreeQuarters: dsiBatterySliderPos = 3; break; case DSi_BPTWL::batteryLevel_Full: dsiBatterySliderPos = 4; break; + } + ui->sliderDSiBatteryLevel->setValue(dsiBatterySliderPos); } - ui->sliderDSiBatteryLevel->setValue(dsiBatterySliderPos); + else + { + ui->cbDSiBatteryCharging->setChecked(Config::DSiBatteryCharging); + ui->sliderDSiBatteryLevel->setValue(Config::DSiBatteryLevel); + } + int inst = Platform::InstanceID(); if (inst > 0) @@ -87,26 +101,28 @@ void PowerManagementDialog::done(int r) { if (r == QDialog::Accepted) { - if (NDS::ConsoleType == 1) + if (emuThread->NDS->ConsoleType == 1) { - Config::DSiBatteryLevel = DSi::I2C->GetBPTWL()->GetBatteryLevel(); - Config::DSiBatteryCharging = DSi::I2C->GetBPTWL()->GetBatteryCharging(); + auto& dsi = static_cast(*emuThread->NDS); + Config::DSiBatteryLevel = dsi.I2C.GetBPTWL()->GetBatteryLevel(); + Config::DSiBatteryCharging = dsi.I2C.GetBPTWL()->GetBatteryCharging(); } else { - Config::DSBatteryLevelOkay = NDS::SPI->GetPowerMan()->GetBatteryLevelOkay(); + Config::DSBatteryLevelOkay = emuThread->NDS->SPI.GetPowerMan()->GetBatteryLevelOkay(); } } else { - if (NDS::ConsoleType == 1) + if (emuThread->NDS->ConsoleType == 1) { - DSi::I2C->GetBPTWL()->SetBatteryLevel(oldDSiBatteryLevel); - DSi::I2C->GetBPTWL()->SetBatteryCharging(oldDSiBatteryCharging); + auto& dsi = static_cast(*emuThread->NDS); + dsi.I2C.GetBPTWL()->SetBatteryLevel(oldDSiBatteryLevel); + dsi.I2C.GetBPTWL()->SetBatteryCharging(oldDSiBatteryCharging); } else { - NDS::SPI->GetPowerMan()->SetBatteryLevelOkay(oldDSBatteryLevel); + emuThread->NDS->SPI.GetPowerMan()->SetBatteryLevelOkay(oldDSBatteryLevel); } } @@ -117,17 +133,17 @@ void PowerManagementDialog::done(int r) void PowerManagementDialog::on_rbDSBatteryLow_clicked() { - NDS::SPI->GetPowerMan()->SetBatteryLevelOkay(false); + emuThread->NDS->SPI.GetPowerMan()->SetBatteryLevelOkay(false); } void PowerManagementDialog::on_rbDSBatteryOkay_clicked() { - NDS::SPI->GetPowerMan()->SetBatteryLevelOkay(true); + emuThread->NDS->SPI.GetPowerMan()->SetBatteryLevelOkay(true); } void PowerManagementDialog::updateDSBatteryLevelControls() { - if (NDS::SPI->GetPowerMan()->GetBatteryLevelOkay()) + if (emuThread->NDS->SPI.GetPowerMan()->GetBatteryLevelOkay()) ui->rbDSBatteryOkay->setChecked(true); else ui->rbDSBatteryLow->setChecked(true); @@ -135,23 +151,32 @@ void PowerManagementDialog::updateDSBatteryLevelControls() void PowerManagementDialog::on_cbDSiBatteryCharging_toggled() { - DSi::I2C->GetBPTWL()->SetBatteryCharging(ui->cbDSiBatteryCharging->isChecked()); + if (emuThread->NDS->ConsoleType == 1) + { + auto& dsi = static_cast(*emuThread->NDS); + dsi.I2C.GetBPTWL()->SetBatteryCharging(ui->cbDSiBatteryCharging->isChecked()); + } } void PowerManagementDialog::on_sliderDSiBatteryLevel_valueChanged(int value) { if (!inited) return; - u8 newBatteryLevel; - switch (value) + if (emuThread->NDS->ConsoleType == 1) { - case 0: newBatteryLevel = DSi::I2C->GetBPTWL()->batteryLevel_AlmostEmpty; break; - case 1: newBatteryLevel = DSi::I2C->GetBPTWL()->batteryLevel_Low; break; - case 2: newBatteryLevel = DSi::I2C->GetBPTWL()->batteryLevel_Half; break; - case 3: newBatteryLevel = DSi::I2C->GetBPTWL()->batteryLevel_ThreeQuarters; break; - case 4: newBatteryLevel = DSi::I2C->GetBPTWL()->batteryLevel_Full; break; + auto& dsi = static_cast(*emuThread->NDS); + u8 newBatteryLevel = DSi_BPTWL::batteryLevel_Full; + switch (value) + { + case 0: newBatteryLevel = DSi_BPTWL::batteryLevel_AlmostEmpty; break; + case 1: newBatteryLevel = DSi_BPTWL::batteryLevel_Low; break; + case 2: newBatteryLevel = DSi_BPTWL::batteryLevel_Half; break; + case 3: newBatteryLevel = DSi_BPTWL::batteryLevel_ThreeQuarters; break; + case 4: newBatteryLevel = DSi_BPTWL::batteryLevel_Full; break; + } + dsi.I2C.GetBPTWL()->SetBatteryLevel(newBatteryLevel); } - DSi::I2C->GetBPTWL()->SetBatteryLevel(newBatteryLevel); + updateDSBatteryLevelControls(); } diff --git a/src/frontend/qt_sdl/PowerManagement/PowerManagementDialog.h b/src/frontend/qt_sdl/PowerManagement/PowerManagementDialog.h index cd2954a1..bc2abc3d 100644 --- a/src/frontend/qt_sdl/PowerManagement/PowerManagementDialog.h +++ b/src/frontend/qt_sdl/PowerManagement/PowerManagementDialog.h @@ -25,6 +25,7 @@ #include "types.h" namespace Ui { class PowerManagementDialog; } +class EmuThread; class PowerManagementDialog; class PowerManagementDialog : public QDialog @@ -32,11 +33,11 @@ class PowerManagementDialog : public QDialog Q_OBJECT public: - explicit PowerManagementDialog(QWidget* parent); + explicit PowerManagementDialog(QWidget* parent, EmuThread* emu_thread); ~PowerManagementDialog(); static PowerManagementDialog* currentDlg; - static PowerManagementDialog* openDlg(QWidget* parent) + static PowerManagementDialog* openDlg(QWidget* parent, EmuThread* emu_thread) { if (currentDlg) { @@ -44,7 +45,7 @@ public: return currentDlg; } - currentDlg = new PowerManagementDialog(parent); + currentDlg = new PowerManagementDialog(parent, emu_thread); currentDlg->open(); return currentDlg; } @@ -64,6 +65,7 @@ private slots: private: Ui::PowerManagementDialog* ui; + EmuThread* emuThread; bool inited; bool oldDSBatteryLevel; diff --git a/src/frontend/qt_sdl/RAMInfoDialog.cpp b/src/frontend/qt_sdl/RAMInfoDialog.cpp index b58662c8..5bff99ad 100644 --- a/src/frontend/qt_sdl/RAMInfoDialog.cpp +++ b/src/frontend/qt_sdl/RAMInfoDialog.cpp @@ -24,16 +24,16 @@ using namespace melonDS; extern EmuThread* emuThread; -s32 GetMainRAMValue(const u32& addr, const ramInfo_ByteType& byteType) +s32 GetMainRAMValue(NDS& nds, const u32& addr, const ramInfo_ByteType& byteType) { switch (byteType) { case ramInfo_OneByte: - return *(s8*)(NDS::MainRAM + (addr&NDS::MainRAMMask)); + return *(s8*)(nds.MainRAM + (addr&nds.MainRAMMask)); case ramInfo_TwoBytes: - return *(s16*)(NDS::MainRAM + (addr&NDS::MainRAMMask)); + return *(s16*)(nds.MainRAM + (addr&nds.MainRAMMask)); case ramInfo_FourBytes: - return *(s32*)(NDS::MainRAM + (addr&NDS::MainRAMMask)); + return *(s32*)(nds.MainRAM + (addr&nds.MainRAMMask)); default: return 0; } @@ -41,7 +41,7 @@ s32 GetMainRAMValue(const u32& addr, const ramInfo_ByteType& byteType) RAMInfoDialog* RAMInfoDialog::currentDlg = nullptr; -RAMInfoDialog::RAMInfoDialog(QWidget* parent) : QDialog(parent), ui(new Ui::RAMInfoDialog) +RAMInfoDialog::RAMInfoDialog(QWidget* parent, EmuThread* emuThread) : QDialog(parent), emuThread(emuThread), ui(new Ui::RAMInfoDialog) { ui->setupUi(this); setAttribute(Qt::WA_DeleteOnClose); @@ -91,7 +91,7 @@ void RAMInfoDialog::ShowRowsInTable() for (u32 row = scrollValue; row < std::min(scrollValue+25, RowDataVector->size()); row++) { ramInfo_RowData& rowData = RowDataVector->at(row); - rowData.Update(SearchThread->GetSearchByteType()); + rowData.Update(*emuThread->NDS, SearchThread->GetSearchByteType()); if (ui->ramTable->item(row, ramInfo_Address) == nullptr) { @@ -186,7 +186,7 @@ void RAMInfoDialog::on_ramTable_itemChanged(QTableWidgetItem *item) s32 itemValue = item->text().toInt(); if (rowData.Value != itemValue) - rowData.SetValue(itemValue); + rowData.SetValue(*emuThread->NDS, itemValue); } /** @@ -241,14 +241,14 @@ void RAMSearchThread::run() if (SearchMode == ramInfoSTh_SearchAll || RowDataVector->size() == 0) { // First search mode - for (u32 addr = 0x02000000; SearchRunning && addr < 0x02000000+NDS::MainRAMMaxSize; addr += SearchByteType) + for (u32 addr = 0x02000000; SearchRunning && addr < 0x02000000+MainRAMMaxSize; addr += SearchByteType) { - const s32& value = GetMainRAMValue(addr, SearchByteType); + const s32& value = GetMainRAMValue(*emuThread->NDS, addr, SearchByteType); RowDataVector->push_back({ addr, value, value }); // A solution to prevent to call too many slot. - u32 newProgress = (int)((addr-0x02000000) / (NDS::MainRAMMaxSize-1.0f) * 100); + u32 newProgress = (int)((addr-0x02000000) / (MainRAMMaxSize-1.0f) * 100); if (progress < newProgress) { progress = newProgress; @@ -264,7 +264,7 @@ void RAMSearchThread::run() for (u32 row = 0; SearchRunning && row < RowDataVector->size(); row++) { const u32& addr = RowDataVector->at(row).Address; - const s32& value = GetMainRAMValue(addr, SearchByteType); + const s32& value = GetMainRAMValue(*emuThread->NDS, addr, SearchByteType); if (SearchValue == value) newRowDataVector->push_back({ addr, value, value }); diff --git a/src/frontend/qt_sdl/RAMInfoDialog.h b/src/frontend/qt_sdl/RAMInfoDialog.h index adc9b284..2a5b1620 100644 --- a/src/frontend/qt_sdl/RAMInfoDialog.h +++ b/src/frontend/qt_sdl/RAMInfoDialog.h @@ -32,6 +32,7 @@ namespace Ui { class RAMInfoDialog; } class RAMInfoDialog; class RAMSearchThread; class RAMUpdateThread; +class EmuThread; enum ramInfo_ByteType { @@ -53,7 +54,7 @@ enum ramInfo_Previous }; -melonDS::s32 GetMainRAMValue(const melonDS::u32& addr, const ramInfo_ByteType& byteType); +melonDS::s32 GetMainRAMValue(melonDS::NDS& nds, const melonDS::u32& addr, const ramInfo_ByteType& byteType); struct ramInfo_RowData { @@ -61,14 +62,14 @@ struct ramInfo_RowData melonDS::s32 Value; melonDS::s32 Previous; - void Update(const ramInfo_ByteType& byteType) + void Update(melonDS::NDS& nds, const ramInfo_ByteType& byteType) { - Value = GetMainRAMValue(Address, byteType); + Value = GetMainRAMValue(nds, Address, byteType); } - void SetValue(const melonDS::s32& value) + void SetValue(melonDS::NDS& nds, const melonDS::s32& value) { - melonDS::NDS::MainRAM[Address&melonDS::NDS::MainRAMMask] = (melonDS::u32)value; + nds.MainRAM[Address&nds.MainRAMMask] = (melonDS::u32)value; Value = value; } }; @@ -78,11 +79,11 @@ class RAMInfoDialog : public QDialog Q_OBJECT public: - explicit RAMInfoDialog(QWidget* parent); + explicit RAMInfoDialog(QWidget* parent, EmuThread* emuThread); ~RAMInfoDialog(); static RAMInfoDialog* currentDlg; - static RAMInfoDialog* openDlg(QWidget* parent) + static RAMInfoDialog* openDlg(QWidget* parent, EmuThread* emuThread) { if (currentDlg) { @@ -90,7 +91,7 @@ public: return currentDlg; } - currentDlg = new RAMInfoDialog(parent); + currentDlg = new RAMInfoDialog(parent, emuThread); currentDlg->show(); return currentDlg; } @@ -118,6 +119,7 @@ private slots: void SetProgressbarValue(const melonDS::u32& value); private: + EmuThread* emuThread; Ui::RAMInfoDialog* ui; RAMSearchThread* SearchThread; diff --git a/src/frontend/qt_sdl/ROMInfoDialog.cpp b/src/frontend/qt_sdl/ROMInfoDialog.cpp index 6a46b18e..0f10b2f5 100644 --- a/src/frontend/qt_sdl/ROMInfoDialog.cpp +++ b/src/frontend/qt_sdl/ROMInfoDialog.cpp @@ -42,14 +42,13 @@ QString QStringBytes(u64 num) ROMInfoDialog* ROMInfoDialog::currentDlg = nullptr; -ROMInfoDialog::ROMInfoDialog(QWidget* parent) : QDialog(parent), ui(new Ui::ROMInfoDialog) +ROMInfoDialog::ROMInfoDialog(QWidget* parent, const melonDS::NDSCart::CartCommon& rom) : QDialog(parent), ui(new Ui::ROMInfoDialog) { ui->setupUi(this); setAttribute(Qt::WA_DeleteOnClose); - const NDSBanner* banner = NDS::NDSCartSlot->GetCart()->Banner(); - const NDSHeader& header = NDS::NDSCartSlot->GetCart()->GetHeader(); - + const NDSBanner* banner = rom.Banner(); + const NDSHeader& header = rom.GetHeader(); u32 iconData[32 * 32]; ROMManager::ROMIcon(banner->Icon, banner->Palette, iconData); iconImage = QImage(reinterpret_cast(iconData), 32, 32, QImage::Format_RGBA8888).copy(); diff --git a/src/frontend/qt_sdl/ROMInfoDialog.h b/src/frontend/qt_sdl/ROMInfoDialog.h index 7316e98a..f7e3b5f5 100644 --- a/src/frontend/qt_sdl/ROMInfoDialog.h +++ b/src/frontend/qt_sdl/ROMInfoDialog.h @@ -29,17 +29,17 @@ namespace Ui { class ROMInfoDialog; } class ROMInfoDialog; - +namespace melonDS::NDSCart { class CartCommon; } class ROMInfoDialog : public QDialog { Q_OBJECT public: - explicit ROMInfoDialog(QWidget* parent); + explicit ROMInfoDialog(QWidget* parent, const melonDS::NDSCart::CartCommon& rom); ~ROMInfoDialog(); static ROMInfoDialog* currentDlg; - static ROMInfoDialog* openDlg(QWidget* parent) + static ROMInfoDialog* openDlg(QWidget* parent, const melonDS::NDSCart::CartCommon& rom) { if (currentDlg) { @@ -47,7 +47,7 @@ public: return currentDlg; } - currentDlg = new ROMInfoDialog(parent); + currentDlg = new ROMInfoDialog(parent, rom); currentDlg->open(); return currentDlg; } diff --git a/src/frontend/qt_sdl/ROMManager.cpp b/src/frontend/qt_sdl/ROMManager.cpp index 9584c381..2c0cee2c 100644 --- a/src/frontend/qt_sdl/ROMManager.cpp +++ b/src/frontend/qt_sdl/ROMManager.cpp @@ -44,6 +44,7 @@ #include "RTC.h" #include "DSi_I2C.h" #include "FreeBIOS.h" +#include "main.h" using std::make_unique; using std::pair; @@ -316,7 +317,7 @@ bool SavestateExists(int slot) return Platform::FileExists(ssfile); } -bool LoadState(const std::string& filename) +bool LoadState(NDS& nds, const std::string& filename) { FILE* file = fopen(filename.c_str(), "rb"); if (file == nullptr) @@ -333,7 +334,7 @@ bool LoadState(const std::string& filename) return false; } - if (!NDS::DoSavestate(backup.get()) || backup->Error) + if (!nds.DoSavestate(backup.get()) || backup->Error) { // Back up the emulator's state. If that failed... Platform::Log(Platform::LogLevel::Error, "Failed to back up state, aborting load (from \"%s\")\n", filename.c_str()); fclose(file); @@ -365,7 +366,7 @@ bool LoadState(const std::string& filename) // Get ready to load the state from the buffer into the emulator std::unique_ptr state = std::make_unique(buffer.data(), size, false); - if (!NDS::DoSavestate(state.get()) || state->Error) + if (!nds.DoSavestate(state.get()) || state->Error) { // If we couldn't load the savestate from the buffer... Platform::Log(Platform::LogLevel::Error, "Failed to load state file \"%s\" into emulator\n", filename.c_str()); return false; @@ -390,7 +391,7 @@ bool LoadState(const std::string& filename) return true; } -bool SaveState(const std::string& filename) +bool SaveState(NDS& nds, const std::string& filename) { FILE* file = fopen(filename.c_str(), "wb"); @@ -407,7 +408,7 @@ bool SaveState(const std::string& filename) } // Write the savestate to the in-memory buffer - NDS::DoSavestate(&state); + nds.DoSavestate(&state); if (state.Error) { @@ -439,7 +440,7 @@ bool SaveState(const std::string& filename) return true; } -void UndoStateLoad() +void UndoStateLoad(NDS& nds) { if (!SavestateLoaded || !BackupState) return; @@ -448,7 +449,7 @@ void UndoStateLoad() // pray that this works // what do we do if it doesn't??? // but it should work. - NDS::DoSavestate(BackupState.get()); + nds.DoSavestate(BackupState.get()); if (NDSSave && (!PreviousSaveFile.empty())) { @@ -457,36 +458,264 @@ void UndoStateLoad() } -void UnloadCheats() +void UnloadCheats(NDS& nds) { if (CheatFile) { delete CheatFile; CheatFile = nullptr; - NDS::AREngine->SetCodeFile(nullptr); + nds.AREngine.SetCodeFile(nullptr); } } -void LoadCheats() +void LoadCheats(NDS& nds) { - UnloadCheats(); + UnloadCheats(nds); std::string filename = GetAssetPath(false, Config::CheatFilePath, ".mch"); // TODO: check for error (malformed cheat file, ...) CheatFile = new ARCodeFile(filename); - NDS::AREngine->SetCodeFile(CheatsOn ? CheatFile : nullptr); + nds.AREngine.SetCodeFile(CheatsOn ? CheatFile : nullptr); } -void LoadBIOSFiles() +std::optional> LoadARM9BIOS() noexcept +{ + if (FileHandle* f = OpenLocalFile(Config::BIOS9Path, Read)) + { + std::array bios {}; + FileRewind(f); + FileRead(bios.data(), sizeof(bios), 1, f); + CloseFile(f); + Log(Info, "ARM9 BIOS loaded from %s\n", Config::BIOS9Path.c_str()); + return bios; + } + + Log(Warn, "ARM9 BIOS not found\n"); + return std::nullopt; +} + +std::optional> LoadARM7BIOS() noexcept +{ + if (FileHandle* f = OpenLocalFile(Config::BIOS7Path, Read)) + { + std::array bios {}; + FileRead(bios.data(), sizeof(bios), 1, f); + CloseFile(f); + Log(Info, "ARM7 BIOS loaded from %s\n", Config::BIOS7Path.c_str()); + return bios; + } + + Log(Warn, "ARM7 BIOS not found\n"); + return std::nullopt; +} + +std::optional> LoadDSiARM9BIOS() noexcept +{ + if (FileHandle* f = OpenLocalFile(Config::DSiBIOS9Path, Read)) + { + std::array bios {}; + FileRead(bios.data(), sizeof(bios), 1, f); + CloseFile(f); + Log(Info, "ARM9i BIOS loaded from %s\n", Config::DSiBIOS9Path.c_str()); + return bios; + } + + Log(Warn, "ARM9i BIOS not found\n"); + return std::nullopt; +} + +std::optional> LoadDSiARM7BIOS() noexcept +{ + if (FileHandle* f = OpenLocalFile(Config::DSiBIOS7Path, Read)) + { + std::array bios {}; + FileRead(bios.data(), sizeof(bios), 1, f); + CloseFile(f); + Log(Info, "ARM7i BIOS loaded from %s\n", Config::DSiBIOS7Path.c_str()); + return bios; + } + + Log(Warn, "ARM7i BIOS not found\n"); + return std::nullopt; +} + +Firmware GenerateFirmware(int type) noexcept +{ + // Construct the default firmware... + string settingspath; + Firmware firmware = Firmware(type); + assert(firmware.Buffer() != nullptr); + + // If using generated firmware, we keep the wi-fi settings on the host disk separately. + // Wi-fi access point data includes Nintendo WFC settings, + // and if we didn't keep them then the player would have to reset them in each session. + // We don't need to save the whole firmware, just the part that may actually change. + if (FileHandle* f = OpenLocalFile(Config::WifiSettingsPath, Read)) + {// If we have Wi-fi settings to load... + constexpr unsigned TOTAL_WFC_SETTINGS_SIZE = 3 * (sizeof(Firmware::WifiAccessPoint) + sizeof(Firmware::ExtendedWifiAccessPoint)); + + if (!FileRead(firmware.GetExtendedAccessPointPosition(), TOTAL_WFC_SETTINGS_SIZE, 1, f)) + { // If we couldn't read the Wi-fi settings from this file... + Log(Warn, "Failed to read Wi-fi settings from \"%s\"; using defaults instead\n", Config::WifiSettingsPath.c_str()); + + // The access point and extended access point segments might + // be in different locations depending on the firmware revision, + // but our generated firmware always keeps them next to each other. + // (Extended access points first, then regular ones.) + firmware.GetAccessPoints() = { + Firmware::WifiAccessPoint(type), + Firmware::WifiAccessPoint(), + Firmware::WifiAccessPoint(), + }; + + firmware.GetExtendedAccessPoints() = { + Firmware::ExtendedWifiAccessPoint(), + Firmware::ExtendedWifiAccessPoint(), + Firmware::ExtendedWifiAccessPoint(), + }; + firmware.UpdateChecksums(); + CloseFile(f); + } + } + + CustomizeFirmware(firmware); + + // If we don't have Wi-fi settings to load, + // then the defaults will have already been populated by the constructor. + return firmware; +} + +std::optional LoadFirmware(int type) noexcept +{ + const string& firmwarepath = type == 1 ? Config::DSiFirmwarePath : Config::FirmwarePath; + + Log(Debug, "SPI firmware: loading from file %s\n", firmwarepath.c_str()); + + FileHandle* file = OpenLocalFile(firmwarepath, Read); + + if (!file) + { + Log(Error, "SPI firmware: couldn't open firmware file!\n"); + return std::nullopt; + } + Firmware firmware(file); + CloseFile(file); + + if (!firmware.Buffer()) + { + Log(Error, "SPI firmware: couldn't read firmware file!\n"); + return std::nullopt; + } + + CustomizeFirmware(firmware); + + return firmware; +} + + +std::optional LoadNAND(const std::array& arm7ibios) noexcept +{ + FileHandle* nandfile = OpenLocalFile(Config::DSiNANDPath, ReadWriteExisting); + if (!nandfile) + return std::nullopt; + + DSi_NAND::NANDImage nandImage(nandfile, &arm7ibios[0x8308]); + if (!nandImage) + { + Log(Error, "Failed to parse DSi NAND\n"); + return std::nullopt; + // the NANDImage takes ownership of the FileHandle, no need to clean it up here + } + + // scoped so that mount isn't alive when we move the NAND image to DSi::NANDImage + { + auto mount = DSi_NAND::NANDMount(nandImage); + if (!mount) + { + Log(Error, "Failed to mount DSi NAND\n"); + return std::nullopt; + } + + DSi_NAND::DSiFirmwareSystemSettings settings {}; + if (!mount.ReadUserData(settings)) + { + Log(Error, "Failed to read DSi NAND user data\n"); + return std::nullopt; + } + + // override user settings, if needed + if (Config::FirmwareOverrideSettings) + { + // we store relevant strings as UTF-8, so we need to convert them to UTF-16 + auto converter = wstring_convert, char16_t>{}; + + // setting up username + std::u16string username = converter.from_bytes(Config::FirmwareUsername); + size_t usernameLength = std::min(username.length(), (size_t) 10); + memset(&settings.Nickname, 0, sizeof(settings.Nickname)); + memcpy(&settings.Nickname, username.data(), usernameLength * sizeof(char16_t)); + + // setting language + settings.Language = static_cast(Config::FirmwareLanguage); + + // setting up color + settings.FavoriteColor = Config::FirmwareFavouriteColour; + + // setting up birthday + settings.BirthdayMonth = Config::FirmwareBirthdayMonth; + settings.BirthdayDay = Config::FirmwareBirthdayDay; + + // setup message + std::u16string message = converter.from_bytes(Config::FirmwareMessage); + size_t messageLength = std::min(message.length(), (size_t) 26); + memset(&settings.Message, 0, sizeof(settings.Message)); + memcpy(&settings.Message, message.data(), messageLength * sizeof(char16_t)); + + // TODO: make other items configurable? + } + + // fix touchscreen coords + settings.TouchCalibrationADC1 = {0, 0}; + settings.TouchCalibrationPixel1 = {0, 0}; + settings.TouchCalibrationADC2 = {255 << 4, 191 << 4}; + settings.TouchCalibrationPixel2 = {255, 191}; + + settings.UpdateHash(); + + if (!mount.ApplyUserData(settings)) + { + Log(LogLevel::Error, "Failed to write patched DSi NAND user data\n"); + return std::nullopt; + } + } + + return nandImage; +} + +constexpr int imgsizes[] = {0, 256, 512, 1024, 2048, 4096}; +std::optional LoadDSiSDCard() noexcept +{ + if (!Config::DSiSDEnable) + return std::nullopt; + + return FATStorage( + Config::DSiSDPath, + imgsizes[Config::DSiSDSize], + Config::DSiSDReadOnly, + Config::DSiSDFolderSync ? Config::DSiSDFolderPath : "" + ); +} + +void LoadBIOSFiles(NDS& nds) { if (Config::ExternalBIOSEnable) { if (FileHandle* f = Platform::OpenLocalFile(Config::BIOS9Path, FileMode::Read)) { FileRewind(f); - FileRead(NDS::ARM9BIOS, sizeof(NDS::ARM9BIOS), 1, f); + FileRead(nds.ARM9BIOS, sizeof(NDS::ARM9BIOS), 1, f); Log(LogLevel::Info, "ARM9 BIOS loaded from %s\n", Config::BIOS9Path.c_str()); Platform::CloseFile(f); @@ -496,12 +725,12 @@ void LoadBIOSFiles() Log(LogLevel::Warn, "ARM9 BIOS not found\n"); for (int i = 0; i < 16; i++) - ((u32*)NDS::ARM9BIOS)[i] = 0xE7FFDEFF; + ((u32*)nds.ARM9BIOS)[i] = 0xE7FFDEFF; } if (FileHandle* f = Platform::OpenLocalFile(Config::BIOS7Path, FileMode::Read)) { - FileRead(NDS::ARM7BIOS, sizeof(NDS::ARM7BIOS), 1, f); + FileRead(nds.ARM7BIOS, sizeof(NDS::ARM7BIOS), 1, f); Log(LogLevel::Info, "ARM7 BIOS loaded from\n", Config::BIOS7Path.c_str()); Platform::CloseFile(f); @@ -511,21 +740,22 @@ void LoadBIOSFiles() Log(LogLevel::Warn, "ARM7 BIOS not found\n"); for (int i = 0; i < 16; i++) - ((u32*)NDS::ARM7BIOS)[i] = 0xE7FFDEFF; + ((u32*)nds.ARM7BIOS)[i] = 0xE7FFDEFF; } } else { Log(LogLevel::Info, "Using built-in ARM7 and ARM9 BIOSes\n"); - memcpy(NDS::ARM9BIOS, bios_arm9_bin, sizeof(bios_arm9_bin)); - memcpy(NDS::ARM7BIOS, bios_arm7_bin, sizeof(bios_arm7_bin)); + memcpy(nds.ARM9BIOS, bios_arm9_bin, sizeof(bios_arm9_bin)); + memcpy(nds.ARM7BIOS, bios_arm7_bin, sizeof(bios_arm7_bin)); } if (Config::ConsoleType == 1) { + DSi& dsi = static_cast(nds); if (FileHandle* f = Platform::OpenLocalFile(Config::DSiBIOS9Path, FileMode::Read)) { - FileRead(DSi::ARM9iBIOS, sizeof(DSi::ARM9iBIOS), 1, f); + FileRead(dsi.ARM9iBIOS, sizeof(DSi::ARM9iBIOS), 1, f); Log(LogLevel::Info, "ARM9i BIOS loaded from %s\n", Config::DSiBIOS9Path.c_str()); Platform::CloseFile(f); @@ -535,13 +765,13 @@ void LoadBIOSFiles() Log(LogLevel::Warn, "ARM9i BIOS not found\n"); for (int i = 0; i < 16; i++) - ((u32*)DSi::ARM9iBIOS)[i] = 0xE7FFDEFF; + ((u32*)dsi.ARM9iBIOS)[i] = 0xE7FFDEFF; } if (FileHandle* f = Platform::OpenLocalFile(Config::DSiBIOS7Path, FileMode::Read)) { // TODO: check if the first 32 bytes are crapoed - FileRead(DSi::ARM7iBIOS, sizeof(DSi::ARM7iBIOS), 1, f); + FileRead(dsi.ARM7iBIOS, sizeof(DSi::ARM7iBIOS), 1, f); Log(LogLevel::Info, "ARM7i BIOS loaded from %s\n", Config::DSiBIOS7Path.c_str()); CloseFile(f); @@ -551,14 +781,14 @@ void LoadBIOSFiles() Log(LogLevel::Warn, "ARM7i BIOS not found\n"); for (int i = 0; i < 16; i++) - ((u32*)DSi::ARM7iBIOS)[i] = 0xE7FFDEFF; + ((u32*)dsi.ARM7iBIOS)[i] = 0xE7FFDEFF; } if (!Config::DSiFullBIOSBoot) { // herp - *(u32*)&DSi::ARM9iBIOS[0] = 0xEAFFFFFE; - *(u32*)&DSi::ARM7iBIOS[0] = 0xEAFFFFFE; + *(u32*)&dsi.ARM9iBIOS[0] = 0xEAFFFFFE; + *(u32*)&dsi.ARM7iBIOS[0] = 0xEAFFFFFE; // TODO!!!! // hax the upper 32K out of the goddamn DSi @@ -567,11 +797,11 @@ void LoadBIOSFiles() } } -void EnableCheats(bool enable) +void EnableCheats(NDS& nds, bool enable) { CheatsOn = enable; if (CheatFile) - NDS::AREngine->SetCodeFile(CheatsOn ? CheatFile : nullptr); + nds.AREngine.SetCodeFile(CheatsOn ? CheatFile : nullptr); } ARCodeFile* GetCheatFile() @@ -580,42 +810,44 @@ ARCodeFile* GetCheatFile() } -void SetBatteryLevels() +void SetBatteryLevels(NDS& nds) { - if (NDS::ConsoleType == 1) + if (nds.ConsoleType == 1) { - DSi::I2C->GetBPTWL()->SetBatteryLevel(Config::DSiBatteryLevel); - DSi::I2C->GetBPTWL()->SetBatteryCharging(Config::DSiBatteryCharging); + auto& dsi = static_cast(nds); + dsi.I2C.GetBPTWL()->SetBatteryLevel(Config::DSiBatteryLevel); + dsi.I2C.GetBPTWL()->SetBatteryCharging(Config::DSiBatteryCharging); } else { - NDS::SPI->GetPowerMan()->SetBatteryLevelOkay(Config::DSBatteryLevelOkay); + nds.SPI.GetPowerMan()->SetBatteryLevelOkay(Config::DSBatteryLevelOkay); } } -void SetDateTime() +void SetDateTime(NDS& nds) { QDateTime hosttime = QDateTime::currentDateTime(); QDateTime time = hosttime.addSecs(Config::RTCOffset); - NDS::RTC->SetDateTime(time.date().year(), time.date().month(), time.date().day(), + nds.RTC.SetDateTime(time.date().year(), time.date().month(), time.date().day(), time.time().hour(), time.time().minute(), time.time().second()); } -void Reset() +void Reset(EmuThread* thread) { - NDS::SetConsoleType(Config::ConsoleType); - if (Config::ConsoleType == 1) EjectGBACart(); - LoadBIOSFiles(); + thread->RecreateConsole(); - InstallFirmware(); + if (Config::ConsoleType == 1) EjectGBACart(*thread->NDS); + LoadBIOSFiles(*thread->NDS); + + InstallFirmware(*thread->NDS); if (Config::ConsoleType == 1) { - InstallNAND(&DSi::ARM7iBIOS[0x8308]); + InstallNAND(static_cast(*thread->NDS)); } - NDS::Reset(); - SetBatteryLevels(); - SetDateTime(); + thread->NDS->Reset(); + SetBatteryLevels(*thread->NDS); + SetDateTime(*thread->NDS); if ((CartType != -1) && NDSSave) { @@ -659,27 +891,27 @@ void Reset() if (!BaseROMName.empty()) { - if (Config::DirectBoot || NDS::NeedsDirectBoot()) + if (Config::DirectBoot || thread->NDS->NeedsDirectBoot()) { - NDS::SetupDirectBoot(BaseROMName); + thread->NDS->SetupDirectBoot(BaseROMName); } } } -bool LoadBIOS() +bool LoadBIOS(EmuThread* thread) { - NDS::SetConsoleType(Config::ConsoleType); + thread->RecreateConsole(); - LoadBIOSFiles(); + LoadBIOSFiles(*thread->NDS); - if (!InstallFirmware()) + if (!InstallFirmware(*thread->NDS)) return false; - if (Config::ConsoleType == 1 && !InstallNAND(&DSi::ARM7iBIOS[0x8308])) + if (Config::ConsoleType == 1 && !InstallNAND(static_cast(*thread->NDS))) return false; - if (NDS::NeedsDirectBoot()) + if (thread->NDS->NeedsDirectBoot()) return false; /*if (NDSSave) delete NDSSave; @@ -690,9 +922,9 @@ bool LoadBIOS() BaseROMName = ""; BaseAssetName = "";*/ - NDS::Reset(); - SetBatteryLevels(); - SetDateTime(); + thread->NDS->Reset(); + SetBatteryLevels(*thread->NDS); + SetDateTime(*thread->NDS); return true; } @@ -884,7 +1116,7 @@ pair, string> GenerateDefaultFirmware() return std::make_pair(std::move(firmware), std::move(wfcsettingspath)); } -void LoadUserSettingsFromConfig(Firmware& firmware) +void CustomizeFirmware(Firmware& firmware) noexcept { auto& currentData = firmware.GetEffectiveUserData(); @@ -992,13 +1224,13 @@ static Platform::FileHandle* OpenNANDFile() noexcept return nandfile; } -bool InstallNAND(const u8* es_keyY) +bool InstallNAND(DSi& dsi) { Platform::FileHandle* nandfile = OpenNANDFile(); if (!nandfile) return false; - DSi_NAND::NANDImage nandImage(nandfile, es_keyY); + DSi_NAND::NANDImage nandImage(nandfile, &dsi.ARM7iBIOS[0x8308]); if (!nandImage) { Log(LogLevel::Error, "Failed to parse DSi NAND\n"); @@ -1067,11 +1299,11 @@ bool InstallNAND(const u8* es_keyY) } } - DSi::NANDImage = std::make_unique(std::move(nandImage)); + dsi.NANDImage = std::make_unique(std::move(nandImage)); return true; } -bool InstallFirmware() +bool InstallFirmware(NDS& nds) { FirmwareSave.reset(); unique_ptr firmware; @@ -1098,15 +1330,15 @@ bool InstallFirmware() if (Config::FirmwareOverrideSettings) { - LoadUserSettingsFromConfig(*firmware); + CustomizeFirmware(*firmware); } FirmwareSave = std::make_unique(firmwarepath); - return NDS::SPI->GetFirmwareMem()->InstallFirmware(std::move(firmware)); + return nds.SPI.GetFirmwareMem()->InstallFirmware(std::move(firmware)); } -bool LoadROM(QStringList filepath, bool reset) +bool LoadROM(EmuThread* emuthread, QStringList filepath, bool reset) { if (filepath.empty()) return false; @@ -1201,22 +1433,22 @@ bool LoadROM(QStringList filepath, bool reset) BaseROMName = romname; BaseAssetName = romname.substr(0, romname.rfind('.')); - if (!InstallFirmware()) + emuthread->RecreateConsole(); + if (!InstallFirmware(*emuthread->NDS)) { return false; } if (reset) { - NDS::SetConsoleType(Config::ConsoleType); - NDS::EjectCart(); - LoadBIOSFiles(); + emuthread->NDS->EjectCart(); + LoadBIOSFiles(*emuthread->NDS); if (Config::ConsoleType == 1) - InstallNAND(&DSi::ARM7iBIOS[0x8308]); + InstallNAND(static_cast(*emuthread->NDS)); - NDS::Reset(); - SetBatteryLevels(); - SetDateTime(); + emuthread->NDS->Reset(); + SetBatteryLevels(*emuthread->NDS); + SetDateTime(*emuthread->NDS); } u32 savelen = 0; @@ -1238,12 +1470,12 @@ bool LoadROM(QStringList filepath, bool reset) CloseFile(sav); } - bool res = NDS::LoadCart(filedata, filelen, savedata, savelen); + bool res = emuthread->NDS->LoadCart(filedata, filelen, savedata, savelen); if (res && reset) { - if (Config::DirectBoot || NDS::NeedsDirectBoot()) + if (Config::DirectBoot || emuthread->NDS->NeedsDirectBoot()) { - NDS::SetupDirectBoot(romname); + emuthread->NDS->SetupDirectBoot(romname); } } @@ -1252,7 +1484,7 @@ bool LoadROM(QStringList filepath, bool reset) CartType = 0; NDSSave = new SaveManager(savname); - LoadCheats(); + LoadCheats(*emuthread->NDS); } if (savedata) delete[] savedata; @@ -1260,14 +1492,14 @@ bool LoadROM(QStringList filepath, bool reset) return res; } -void EjectCart() +void EjectCart(NDS& nds) { if (NDSSave) delete NDSSave; NDSSave = nullptr; - UnloadCheats(); + UnloadCheats(nds); - NDS::EjectCart(); + nds.EjectCart(); CartType = -1; BaseROMDir = ""; @@ -1295,7 +1527,7 @@ QString CartLabel() } -bool LoadGBAROM(QStringList filepath) +bool LoadGBAROM(NDS& nds, QStringList filepath) { if (Config::ConsoleType == 1) return false; if (filepath.empty()) return false; @@ -1408,7 +1640,7 @@ bool LoadGBAROM(QStringList filepath) CloseFile(sav); } - bool res = NDS::LoadGBACart(filedata, filelen, savedata, savelen); + bool res = nds.LoadGBACart(filedata, filelen, savedata, savelen); if (res) { @@ -1421,14 +1653,14 @@ bool LoadGBAROM(QStringList filepath) return res; } -void LoadGBAAddon(int type) +void LoadGBAAddon(NDS& nds, int type) { if (Config::ConsoleType == 1) return; if (GBASave) delete GBASave; GBASave = nullptr; - NDS::LoadGBAAddon(type); + nds.LoadGBAAddon(type); GBACartType = type; BaseGBAROMDir = ""; @@ -1436,12 +1668,12 @@ void LoadGBAAddon(int type) BaseGBAAssetName = ""; } -void EjectGBACart() +void EjectGBACart(NDS& nds) { if (GBASave) delete GBASave; GBASave = nullptr; - NDS::EjectGBACart(); + nds.EjectGBACart(); GBACartType = -1; BaseGBAROMDir = ""; @@ -1471,7 +1703,7 @@ QString GBACartLabel() return ret; } - case NDS::GBAAddon_RAMExpansion: + case GBAAddon_RAMExpansion: return "Memory expansion"; } diff --git a/src/frontend/qt_sdl/ROMManager.h b/src/frontend/qt_sdl/ROMManager.h index 92285608..2163a680 100644 --- a/src/frontend/qt_sdl/ROMManager.h +++ b/src/frontend/qt_sdl/ROMManager.h @@ -24,10 +24,19 @@ #include "AREngine.h" #include "DSi_NAND.h" +#include "MemConstants.h" +#include #include #include #include +namespace melonDS +{ +class NDS; +class DSi; +class FATStorage; +} +class EmuThread; namespace ROMManager { @@ -37,30 +46,41 @@ extern SaveManager* GBASave; extern std::unique_ptr FirmwareSave; QString VerifySetup(); -void Reset(); -bool LoadBIOS(); +void Reset(EmuThread* thread); +bool LoadBIOS(EmuThread* thread); void ClearBackupState(); -bool InstallFirmware(); -bool InstallNAND(const u8* es_keyY); -bool LoadROM(QStringList filepath, bool reset); -void EjectCart(); +std::optional> LoadARM9BIOS() noexcept; +std::optional> LoadARM7BIOS() noexcept; +std::optional> LoadDSiARM9BIOS() noexcept; +std::optional> LoadDSiARM7BIOS() noexcept; +std::optional LoadDSiSDCard() noexcept; +void CustomizeFirmware(Firmware& firmware) noexcept; +Firmware GenerateFirmware(int type) noexcept; +/// Loads and customizes a firmware image based on the values in Config +std::optional LoadFirmware(int type) noexcept; +/// Loads and customizes a NAND image based on the values in Config +std::optional LoadNAND(const std::array& arm7ibios) noexcept; +bool InstallFirmware(NDS& nds); +bool InstallNAND(DSi& dsi); +bool LoadROM(EmuThread*, QStringList filepath, bool reset); +void EjectCart(NDS& nds); bool CartInserted(); QString CartLabel(); -bool LoadGBAROM(QStringList filepath); -void LoadGBAAddon(int type); -void EjectGBACart(); +bool LoadGBAROM(NDS& nds, QStringList filepath); +void LoadGBAAddon(NDS& nds, int type); +void EjectGBACart(NDS& nds); bool GBACartInserted(); QString GBACartLabel(); std::string GetSavestateName(int slot); bool SavestateExists(int slot); -bool LoadState(const std::string& filename); -bool SaveState(const std::string& filename); -void UndoStateLoad(); +bool LoadState(NDS& nds, const std::string& filename); +bool SaveState(NDS& nds, const std::string& filename); +void UndoStateLoad(NDS& nds); -void EnableCheats(bool enable); +void EnableCheats(NDS& nds, bool enable); ARCodeFile* GetCheatFile(); void ROMIcon(const u8 (&data)[512], const u16 (&palette)[16], u32 (&iconRef)[32*32]); diff --git a/src/frontend/qt_sdl/main.cpp b/src/frontend/qt_sdl/main.cpp index 42864986..54a6f14f 100644 --- a/src/frontend/qt_sdl/main.cpp +++ b/src/frontend/qt_sdl/main.cpp @@ -203,6 +203,30 @@ EmuThread::EmuThread(QObject* parent) : QThread(parent) static_cast(mainWindow->panel)->transferLayout(this); } +std::unique_ptr EmuThread::CreateConsole() +{ + if (Config::ConsoleType == 1) + { + return std::make_unique(); + } + + return std::make_unique(); +} + +void EmuThread::RecreateConsole() +{ + if (!NDS || NDS->ConsoleType != Config::ConsoleType) + { + NDS = nullptr; // To ensure the destructor is called before a new one is created + NDS::Current = nullptr; + + NDS = CreateConsole(); + // TODO: Insert ROMs + NDS::Current = NDS.get(); + } +} + + void EmuThread::updateScreenSettings(bool filter, const WindowInfo& windowInfo, int numScreens, int* screenKind, float* screenMatrix) { screenSettingsLock.lock(); @@ -318,7 +342,7 @@ void EmuThread::run() u32 mainScreenPos[3]; Platform::FileHandle* file; - NDS::Init(); + RecreateConsole(); mainScreenPos[0] = 0; mainScreenPos[1] = 0; @@ -340,10 +364,10 @@ void EmuThread::run() videoRenderer = 0; } - NDS::GPU->InitRenderer(videoRenderer); - NDS::GPU->SetRenderSettings(videoRenderer, videoSettings); + NDS->GPU.InitRenderer(videoRenderer); + NDS->GPU.SetRenderSettings(videoRenderer, videoSettings); - NDS::SPU->SetInterpolation(Config::AudioInterp); + NDS->SPU.SetInterpolation(Config::AudioInterp); Input::Init(); @@ -362,7 +386,7 @@ void EmuThread::run() RTC::StateData state; Platform::FileRead(&state, sizeof(state), 1, file); Platform::CloseFile(file); - NDS::RTC->SetState(state); + NDS->RTC.SetState(state); } char melontitle[100]; @@ -384,8 +408,7 @@ void EmuThread::run() if (Input::HotkeyPressed(HK_SolarSensorDecrease)) { - assert(NDS::GBACartSlot != nullptr); - int level = NDS::GBACartSlot->SetInput(GBACart::Input_SolarSensorDown, true); + int level = NDS->GBACartSlot.SetInput(GBACart::Input_SolarSensorDown, true); if (level != -1) { char msg[64]; @@ -395,8 +418,7 @@ void EmuThread::run() } if (Input::HotkeyPressed(HK_SolarSensorIncrease)) { - assert(NDS::GBACartSlot != nullptr); - int level = NDS::GBACartSlot->SetInput(GBACart::Input_SolarSensorUp, true); + int level = NDS->GBACartSlot.SetInput(GBACart::Input_SolarSensorUp, true); if (level != -1) { char msg[64]; @@ -405,40 +427,41 @@ void EmuThread::run() } } - if (NDS::ConsoleType == 1) + if (NDS->ConsoleType == 1) { + DSi& dsi = static_cast(*NDS); double currentTime = SDL_GetPerformanceCounter() * perfCountsSec; // Handle power button if (Input::HotkeyDown(HK_PowerButton)) { - DSi::I2C->GetBPTWL()->SetPowerButtonHeld(currentTime); + dsi.I2C.GetBPTWL()->SetPowerButtonHeld(currentTime); } else if (Input::HotkeyReleased(HK_PowerButton)) { - DSi::I2C->GetBPTWL()->SetPowerButtonReleased(currentTime); + dsi.I2C.GetBPTWL()->SetPowerButtonReleased(currentTime); } // Handle volume buttons if (Input::HotkeyDown(HK_VolumeUp)) { - DSi::I2C->GetBPTWL()->SetVolumeSwitchHeld(DSi::I2C->GetBPTWL()->volumeKey_Up); + dsi.I2C.GetBPTWL()->SetVolumeSwitchHeld(DSi_BPTWL::volumeKey_Up); } else if (Input::HotkeyReleased(HK_VolumeUp)) { - DSi::I2C->GetBPTWL()->SetVolumeSwitchReleased(DSi::I2C->GetBPTWL()->volumeKey_Up); + dsi.I2C.GetBPTWL()->SetVolumeSwitchReleased(DSi_BPTWL::volumeKey_Up); } if (Input::HotkeyDown(HK_VolumeDown)) { - DSi::I2C->GetBPTWL()->SetVolumeSwitchHeld(DSi::I2C->GetBPTWL()->volumeKey_Down); + dsi.I2C.GetBPTWL()->SetVolumeSwitchHeld(DSi_BPTWL::volumeKey_Down); } else if (Input::HotkeyReleased(HK_VolumeDown)) { - DSi::I2C->GetBPTWL()->SetVolumeSwitchReleased(DSi::I2C->GetBPTWL()->volumeKey_Down); + dsi.I2C.GetBPTWL()->SetVolumeSwitchReleased(DSi_BPTWL::volumeKey_Down); } - DSi::I2C->GetBPTWL()->ProcessVolumeSwitchInput(currentTime); + dsi.I2C.GetBPTWL()->ProcessVolumeSwitchInput(currentTime); } if (EmuRunning == emuStatus_Running || EmuRunning == emuStatus_FrameStep) @@ -472,28 +495,28 @@ void EmuThread::run() videoSettings.GL_ScaleFactor = Config::GL_ScaleFactor; videoSettings.GL_BetterPolygons = Config::GL_BetterPolygons; - NDS::GPU->SetRenderSettings(videoRenderer, videoSettings); + NDS->GPU.SetRenderSettings(videoRenderer, videoSettings); } // process input and hotkeys - NDS::SetKeyMask(Input::InputMask); + NDS->SetKeyMask(Input::InputMask); if (Input::HotkeyPressed(HK_Lid)) { - bool lid = !NDS::IsLidClosed(); - NDS::SetLidClosed(lid); + bool lid = !NDS->IsLidClosed(); + NDS->SetLidClosed(lid); OSD::AddMessage(0, lid ? "Lid closed" : "Lid opened"); } // microphone input - AudioInOut::MicProcess(); + AudioInOut::MicProcess(*NDS); // auto screen layout if (Config::ScreenSizing == Frontend::screenSizing_Auto) { mainScreenPos[2] = mainScreenPos[1]; mainScreenPos[1] = mainScreenPos[0]; - mainScreenPos[0] = NDS::PowerControl9 >> 15; + mainScreenPos[0] = NDS->PowerControl9 >> 15; int guess; if (mainScreenPos[0] == mainScreenPos[2] && @@ -520,7 +543,7 @@ void EmuThread::run() // emulate - u32 nlines = NDS::RunFrame(); + u32 nlines = NDS->RunFrame(); if (ROMManager::NDSSave) ROMManager::NDSSave->CheckFlush(); @@ -534,12 +557,12 @@ void EmuThread::run() if (!oglContext) { FrontBufferLock.lock(); - FrontBuffer = NDS::GPU->FrontBuffer; + FrontBuffer = NDS->GPU.FrontBuffer; FrontBufferLock.unlock(); } else { - FrontBuffer = NDS::GPU->FrontBuffer; + FrontBuffer = NDS->GPU.FrontBuffer; drawScreenGL(); } @@ -563,9 +586,10 @@ void EmuThread::run() oglContext->SetSwapInterval(0); } - if (Config::DSiVolumeSync && NDS::ConsoleType == 1) + if (Config::DSiVolumeSync && NDS->ConsoleType == 1) { - u8 volumeLevel = DSi::I2C->GetBPTWL()->GetVolumeLevel(); + DSi& dsi = static_cast(*NDS); + u8 volumeLevel = dsi.I2C.GetBPTWL()->GetVolumeLevel(); if (volumeLevel != dsiVolumeLevel) { dsiVolumeLevel = volumeLevel; @@ -576,7 +600,7 @@ void EmuThread::run() } if (Config::AudioSync && !fastforward) - AudioInOut::AudioSync(); + AudioInOut::AudioSync(*emuThread->NDS); double frametimeStep = nlines / (60.0 * 263.0); @@ -669,16 +693,15 @@ void EmuThread::run() if (file) { RTC::StateData state; - NDS::RTC->GetState(state); + NDS->RTC.GetState(state); Platform::FileWrite(&state, sizeof(state), 1, file); Platform::CloseFile(file); } EmuStatus = emuStatus_Exit; - NDS::GPU->DeInitRenderer(); - NDS::DeInit(); - //Platform::LAN_DeInit(); + NDS::Current = nullptr; + // nds is out of scope, so unique_ptr cleans it up for us } void EmuThread::changeWindowTitle(char* title) @@ -759,6 +782,7 @@ bool EmuThread::emuIsActive() void EmuThread::drawScreenGL() { + if (!NDS) return; int w = windowInfo.surface_width; int h = windowInfo.surface_height; float factor = windowInfo.surface_scale; @@ -780,10 +804,10 @@ void EmuThread::drawScreenGL() glActiveTexture(GL_TEXTURE0); #ifdef OGLRENDERER_ENABLED - if (NDS::GPU->Renderer != 0) + if (NDS->GPU.Renderer != 0) { // hardware-accelerated render - NDS::GPU->CurGLCompositor->BindOutputTexture(frontbuf); + NDS->GPU.CurGLCompositor->BindOutputTexture(frontbuf); } else #endif @@ -791,12 +815,12 @@ void EmuThread::drawScreenGL() // regular render glBindTexture(GL_TEXTURE_2D, screenTexture); - if (NDS::GPU->Framebuffer[frontbuf][0] && NDS::GPU->Framebuffer[frontbuf][1]) + if (NDS->GPU.Framebuffer[frontbuf][0] && NDS->GPU.Framebuffer[frontbuf][1]) { glTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, 256, 192, GL_RGBA, - GL_UNSIGNED_BYTE, NDS::GPU->Framebuffer[frontbuf][0]); + GL_UNSIGNED_BYTE, NDS->GPU.Framebuffer[frontbuf][0]); glTexSubImage2D(GL_TEXTURE_2D, 0, 0, 192+2, 256, 192, GL_RGBA, - GL_UNSIGNED_BYTE, NDS::GPU->Framebuffer[frontbuf][1]); + GL_UNSIGNED_BYTE, NDS->GPU.Framebuffer[frontbuf][1]); } } @@ -927,7 +951,8 @@ void ScreenHandler::screenOnMousePress(QMouseEvent* event) if (Frontend::GetTouchCoords(x, y, false)) { touching = true; - NDS::TouchScreen(x, y); + assert(emuThread->NDS != nullptr); + emuThread->NDS->TouchScreen(x, y); } } @@ -939,7 +964,8 @@ void ScreenHandler::screenOnMouseRelease(QMouseEvent* event) if (touching) { touching = false; - NDS::ReleaseScreen(); + assert(emuThread->NDS != nullptr); + emuThread->NDS->ReleaseScreen(); } } @@ -956,7 +982,10 @@ void ScreenHandler::screenOnMouseMove(QMouseEvent* event) int y = event->pos().y(); if (Frontend::GetTouchCoords(x, y, true)) - NDS::TouchScreen(x, y); + { + assert(emuThread->NDS != nullptr); + emuThread->NDS->TouchScreen(x, y); + } } void ScreenHandler::screenHandleTablet(QTabletEvent* event) @@ -974,14 +1003,16 @@ void ScreenHandler::screenHandleTablet(QTabletEvent* event) if (Frontend::GetTouchCoords(x, y, event->type()==QEvent::TabletMove)) { touching = true; - NDS::TouchScreen(x, y); + assert(emuThread->NDS != nullptr); + emuThread->NDS->TouchScreen(x, y); } } break; case QEvent::TabletRelease: if (touching) { - NDS::ReleaseScreen(); + assert(emuThread->NDS != nullptr); + emuThread->NDS->ReleaseScreen(); touching = false; } break; @@ -1007,14 +1038,16 @@ void ScreenHandler::screenHandleTouch(QTouchEvent* event) if (Frontend::GetTouchCoords(x, y, event->type()==QEvent::TouchUpdate)) { touching = true; - NDS::TouchScreen(x, y); + assert(emuThread->NDS != nullptr); + emuThread->NDS->TouchScreen(x, y); } } break; case QEvent::TouchEnd: if (touching) { - NDS::ReleaseScreen(); + assert(emuThread->NDS != nullptr); + emuThread->NDS->ReleaseScreen(); touching = false; } break; @@ -1080,16 +1113,17 @@ void ScreenPanelNative::paintEvent(QPaintEvent* event) if (emuThread->emuIsActive()) { + assert(emuThread->NDS != nullptr); emuThread->FrontBufferLock.lock(); int frontbuf = emuThread->FrontBuffer; - if (!NDS::GPU->Framebuffer[frontbuf][0] || !NDS::GPU->Framebuffer[frontbuf][1]) + if (!emuThread->NDS->GPU.Framebuffer[frontbuf][0] || !emuThread->NDS->GPU.Framebuffer[frontbuf][1]) { emuThread->FrontBufferLock.unlock(); return; } - memcpy(screen[0].scanLine(0), NDS::GPU->Framebuffer[frontbuf][0], 256 * 192 * 4); - memcpy(screen[1].scanLine(0), NDS::GPU->Framebuffer[frontbuf][1], 256 * 192 * 4); + memcpy(screen[0].scanLine(0), emuThread->NDS->GPU.Framebuffer[frontbuf][0], 256 * 192 * 4); + memcpy(screen[1].scanLine(0), emuThread->NDS->GPU.Framebuffer[frontbuf][1], 256 * 192 * 4); emuThread->FrontBufferLock.unlock(); QRect screenrc(0, 0, 256, 192); @@ -1472,7 +1506,7 @@ MainWindow::MainWindow(QWidget* parent) : QMainWindow(parent) QMenu* submenu = menu->addMenu("Insert add-on cart"); actInsertGBAAddon[0] = submenu->addAction("Memory expansion"); - actInsertGBAAddon[0]->setData(QVariant(NDS::GBAAddon_RAMExpansion)); + actInsertGBAAddon[0]->setData(QVariant(GBAAddon_RAMExpansion)); connect(actInsertGBAAddon[0], &QAction::triggered, this, &MainWindow::onInsertGBAAddon); } @@ -2025,7 +2059,7 @@ void MainWindow::dropEvent(QDropEvent* event) if (isNdsRom) { - if (!ROMManager::LoadROM(file, true)) + if (!ROMManager::LoadROM(emuThread, file, true)) { // TODO: better error reporting? QMessageBox::critical(this, "melonDS", "Failed to load the DS ROM."); @@ -2038,14 +2072,15 @@ void MainWindow::dropEvent(QDropEvent* event) recentFileList.prepend(barredFilename); updateRecentFilesMenu(); - NDS::Start(); + assert(emuThread->NDS != nullptr); + emuThread->NDS->Start(); emuThread->emuRun(); updateCartInserted(false); } else if (isGbaRom) { - if (!ROMManager::LoadGBAROM(file)) + if (!ROMManager::LoadGBAROM(*emuThread->NDS, file)) { // TODO: better error reporting? QMessageBox::critical(this, "melonDS", "Failed to load the GBA ROM."); @@ -2111,7 +2146,7 @@ bool MainWindow::preloadROMs(QStringList file, QStringList gbafile, bool boot) bool gbaloaded = false; if (!gbafile.isEmpty()) { - if (!ROMManager::LoadGBAROM(gbafile)) + if (!ROMManager::LoadGBAROM(*emuThread->NDS, gbafile)) { // TODO: better error reporting? QMessageBox::critical(this, "melonDS", "Failed to load the GBA ROM."); @@ -2124,7 +2159,7 @@ bool MainWindow::preloadROMs(QStringList file, QStringList gbafile, bool boot) bool ndsloaded = false; if (!file.isEmpty()) { - if (!ROMManager::LoadROM(file, true)) + if (!ROMManager::LoadROM(emuThread, file, true)) { // TODO: better error reporting? QMessageBox::critical(this, "melonDS", "Failed to load the ROM."); @@ -2140,7 +2175,7 @@ bool MainWindow::preloadROMs(QStringList file, QStringList gbafile, bool boot) { if (ndsloaded) { - NDS::Start(); + emuThread->NDS->Start(); emuThread->emuRun(); } else @@ -2333,7 +2368,7 @@ void MainWindow::onOpenFile() return; } - if (!ROMManager::LoadROM(file, true)) + if (!ROMManager::LoadROM(emuThread, file, true)) { // TODO: better error reporting? QMessageBox::critical(this, "melonDS", "Failed to load the ROM."); @@ -2346,7 +2381,8 @@ void MainWindow::onOpenFile() recentFileList.prepend(filename); updateRecentFilesMenu(); - NDS::Start(); + assert(emuThread->NDS != nullptr); + emuThread->NDS->Start(); emuThread->emuRun(); updateCartInserted(false); @@ -2431,7 +2467,7 @@ void MainWindow::onClickRecentFile() return; } - if (!ROMManager::LoadROM(file, true)) + if (!ROMManager::LoadROM(emuThread, file, true)) { // TODO: better error reporting? QMessageBox::critical(this, "melonDS", "Failed to load the ROM."); @@ -2443,7 +2479,8 @@ void MainWindow::onClickRecentFile() recentFileList.prepend(filename); updateRecentFilesMenu(); - NDS::Start(); + assert(emuThread->NDS != nullptr); + emuThread->NDS->Start(); emuThread->emuRun(); updateCartInserted(false); @@ -2459,7 +2496,7 @@ void MainWindow::onBootFirmware() return; } - if (!ROMManager::LoadBIOS()) + if (!ROMManager::LoadBIOS(emuThread)) { // TODO: better error reporting? QMessageBox::critical(this, "melonDS", "This firmware is not bootable."); @@ -2467,7 +2504,8 @@ void MainWindow::onBootFirmware() return; } - NDS::Start(); + assert(emuThread->NDS != nullptr); + emuThread->NDS->Start(); emuThread->emuRun(); } @@ -2482,7 +2520,7 @@ void MainWindow::onInsertCart() return; } - if (!ROMManager::LoadROM(file, false)) + if (!ROMManager::LoadROM(emuThread, file, false)) { // TODO: better error reporting? QMessageBox::critical(this, "melonDS", "Failed to load the ROM."); @@ -2499,7 +2537,7 @@ void MainWindow::onEjectCart() { emuThread->emuPause(); - ROMManager::EjectCart(); + ROMManager::EjectCart(*emuThread->NDS); emuThread->emuUnpause(); @@ -2517,7 +2555,7 @@ void MainWindow::onInsertGBACart() return; } - if (!ROMManager::LoadGBAROM(file)) + if (!ROMManager::LoadGBAROM(*emuThread->NDS, file)) { // TODO: better error reporting? QMessageBox::critical(this, "melonDS", "Failed to load the ROM."); @@ -2537,7 +2575,7 @@ void MainWindow::onInsertGBAAddon() emuThread->emuPause(); - ROMManager::LoadGBAAddon(type); + ROMManager::LoadGBAAddon(*emuThread->NDS, type); emuThread->emuUnpause(); @@ -2548,7 +2586,7 @@ void MainWindow::onEjectGBACart() { emuThread->emuPause(); - ROMManager::EjectGBACart(); + ROMManager::EjectGBACart(*emuThread->NDS); emuThread->emuUnpause(); @@ -2582,7 +2620,7 @@ void MainWindow::onSaveState() filename = qfilename.toStdString(); } - if (ROMManager::SaveState(filename)) + if (ROMManager::SaveState(*emuThread->NDS, filename)) { char msg[64]; if (slot > 0) sprintf(msg, "State saved to slot %d", slot); @@ -2637,7 +2675,7 @@ void MainWindow::onLoadState() return; } - if (ROMManager::LoadState(filename)) + if (ROMManager::LoadState(*emuThread->NDS, filename)) { char msg[64]; if (slot > 0) sprintf(msg, "State loaded from slot %d", slot); @@ -2657,7 +2695,7 @@ void MainWindow::onLoadState() void MainWindow::onUndoStateLoad() { emuThread->emuPause(); - ROMManager::UndoStateLoad(); + ROMManager::UndoStateLoad(*emuThread->NDS); emuThread->emuUnpause(); OSD::AddMessage(0, "State load undone"); @@ -2696,7 +2734,7 @@ void MainWindow::onImportSavefile() return; } - ROMManager::Reset(); + ROMManager::Reset(emuThread); } u32 len = FileLength(f); @@ -2705,7 +2743,8 @@ void MainWindow::onImportSavefile() Platform::FileRewind(f); Platform::FileRead(data, len, 1, f); - NDS::LoadSave(data, len); + assert(emuThread->NDS != nullptr); + emuThread->NDS->LoadSave(data, len); delete[] data; CloseFile(f); @@ -2747,7 +2786,7 @@ void MainWindow::onReset() actUndoStateLoad->setEnabled(false); - ROMManager::Reset(); + ROMManager::Reset(emuThread); OSD::AddMessage(0, "Reset"); emuThread->emuRun(); @@ -2758,7 +2797,7 @@ void MainWindow::onStop() if (!RunningSomething) return; emuThread->emuPause(); - NDS::Stop(); + emuThread->NDS->Stop(); } void MainWindow::onFrameStep() @@ -2775,13 +2814,13 @@ void MainWindow::onOpenDateTime() void MainWindow::onOpenPowerManagement() { - PowerManagementDialog* dlg = PowerManagementDialog::openDlg(this); + PowerManagementDialog* dlg = PowerManagementDialog::openDlg(this, emuThread); } void MainWindow::onEnableCheats(bool checked) { Config::EnableCheats = checked?1:0; - ROMManager::EnableCheats(Config::EnableCheats != 0); + ROMManager::EnableCheats(*emuThread->NDS, Config::EnableCheats != 0); } void MainWindow::onSetupCheats() @@ -2799,12 +2838,14 @@ void MainWindow::onCheatsDialogFinished(int res) void MainWindow::onROMInfo() { - ROMInfoDialog* dlg = ROMInfoDialog::openDlg(this); + auto cart = emuThread->NDS->NDSCartSlot.GetCart(); + if (cart) + ROMInfoDialog* dlg = ROMInfoDialog::openDlg(this, *cart); } void MainWindow::onRAMInfo() { - RAMInfoDialog* dlg = RAMInfoDialog::openDlg(this); + RAMInfoDialog* dlg = RAMInfoDialog::openDlg(this, emuThread); } void MainWindow::onOpenTitleManager() @@ -2907,7 +2948,7 @@ void MainWindow::onCameraSettingsFinished(int res) void MainWindow::onOpenAudioSettings() { - AudioSettingsDialog* dlg = AudioSettingsDialog::openDlg(this, emuThread->emuIsActive()); + AudioSettingsDialog* dlg = AudioSettingsDialog::openDlg(this, emuThread->emuIsActive(), emuThread); connect(emuThread, &EmuThread::syncVolumeLevel, dlg, &AudioSettingsDialog::onSyncVolumeLevel); connect(emuThread, &EmuThread::windowEmuStart, dlg, &AudioSettingsDialog::onConsoleReset); connect(dlg, &AudioSettingsDialog::updateAudioSettings, this, &MainWindow::onUpdateAudioSettings); @@ -2948,17 +2989,18 @@ void MainWindow::onPathSettingsFinished(int res) void MainWindow::onUpdateAudioSettings() { - NDS::SPU->SetInterpolation(Config::AudioInterp); + assert(emuThread->NDS != nullptr); + emuThread->NDS->SPU.SetInterpolation(Config::AudioInterp); if (Config::AudioBitDepth == 0) - NDS::SPU->SetDegrade10Bit(NDS::ConsoleType == 0); + emuThread->NDS->SPU.SetDegrade10Bit(emuThread->NDS->ConsoleType == 0); else - NDS::SPU->SetDegrade10Bit(Config::AudioBitDepth == 1); + emuThread->NDS->SPU.SetDegrade10Bit(Config::AudioBitDepth == 1); } void MainWindow::onAudioSettingsFinished(int res) { - AudioInOut::UpdateSettings(); + AudioInOut::UpdateSettings(*emuThread->NDS); } void MainWindow::onOpenMPSettings() @@ -3313,13 +3355,11 @@ int main(int argc, char** argv) #define SANITIZE(var, min, max) { var = std::clamp(var, min, max); } SANITIZE(Config::ConsoleType, 0, 1); - SANITIZE(Config::_3DRenderer, - 0, - 0 // Minimum, Software renderer - #ifdef OGLRENDERER_ENABLED - + 1 // OpenGL Renderer - #endif - ); +#ifdef OGLRENDERER_ENABLED + SANITIZE(Config::_3DRenderer, 0, 1); // 0 is the software renderer, 1 is the OpenGL renderer +#else + SANITIZE(Config::_3DRenderer, 0, 0); +#endif SANITIZE(Config::ScreenVSyncInterval, 1, 20); SANITIZE(Config::GL_ScaleFactor, 1, 16); SANITIZE(Config::AudioInterp, 0, 3); @@ -3333,7 +3373,6 @@ int main(int argc, char** argv) SANITIZE(Config::ScreenAspectBot, 0, AspectRatiosNum); #undef SANITIZE - AudioInOut::Init(); camStarted[0] = false; camStarted[1] = false; camManager[0] = new CameraManager(0, 640, 480, true); @@ -3341,7 +3380,6 @@ int main(int argc, char** argv) camManager[0]->setXFlip(Config::Camera[0].XFlip); camManager[1]->setXFlip(Config::Camera[1].XFlip); - ROMManager::EnableCheats(Config::EnableCheats != 0); Input::JoystickID = Config::JoystickID; Input::OpenJoystick(); @@ -3354,6 +3392,8 @@ int main(int argc, char** argv) emuThread->start(); emuThread->emuPause(); + AudioInOut::Init(emuThread); + ROMManager::EnableCheats(*emuThread->NDS, Config::EnableCheats != 0); AudioInOut::AudioMute(mainWindow); QObject::connect(&melon, &QApplication::applicationStateChanged, mainWindow, &MainWindow::onAppStateChanged); diff --git a/src/frontend/qt_sdl/main.h b/src/frontend/qt_sdl/main.h index 500aec1c..72ebfb19 100644 --- a/src/frontend/qt_sdl/main.h +++ b/src/frontend/qt_sdl/main.h @@ -40,6 +40,11 @@ #include "FrontendUtil.h" #include "duckstation/gl/context.h" +namespace melonDS +{ +class NDS; +} + class EmuThread : public QThread { Q_OBJECT @@ -67,7 +72,8 @@ public: QMutex FrontBufferLock; void updateScreenSettings(bool filter, const WindowInfo& windowInfo, int numScreens, int* screenKind, float* screenMatrix); - + void RecreateConsole(); + std::unique_ptr NDS; // TODO: Proper encapsulation and synchronization signals: void windowUpdate(); void windowTitleChange(QString title); @@ -90,6 +96,7 @@ signals: void syncVolumeLevel(); private: + std::unique_ptr CreateConsole(); void drawScreenGL(); void initOpenGL(); void deinitOpenGL();