/* Copyright 2016-2019 Arisotura 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/. */ #include #include "NDS.h" #include "ARM.h" #include "ARMInterpreter.h" // instruction timing notes // // * simple instruction: 1S (code) // * LDR: 1N+1N+1I (code/data/internal) // * STR: 1N+1N (code/data) // * LDM: 1N+1N+(n-1)S+1I // * STM: 1N+1N+(n-1)S // * MUL/etc: 1N+xI (code/internal) // * branch: 1N+1S (code/code) (pipeline refill) // // MUL/MLA seems to take 1I on ARM9 u32 ARM::ConditionTable[16] = { 0xF0F0, // EQ 0x0F0F, // NE 0xCCCC, // CS 0x3333, // CC 0xFF00, // MI 0x00FF, // PL 0xAAAA, // VS 0x5555, // VC 0x0C0C, // HI 0xF3F3, // LS 0xAA55, // GE 0x55AA, // LT 0x0A05, // GT 0xF5FA, // LE 0xFFFF, // AL 0x0000 // NE }; ARM::ARM(u32 num) { // well uh Num = num; } ARM::~ARM() { // dorp } ARMv5::ARMv5() : ARM(0) { // } ARMv4::ARMv4() : ARM(1) { // } void ARM::Reset() { Cycles = 0; Halted = 0; IRQ = 0; for (int i = 0; i < 16; i++) R[i] = 0; CPSR = 0x000000D3; ExceptionBase = Num ? 0x00000000 : 0xFFFF0000; CodeMem.Mem = NULL; // zorp JumpTo(ExceptionBase); } void ARMv5::Reset() { CP15Reset(); ARM::Reset(); } void ARM::DoSavestate(Savestate* file) { file->Section((char*)(Num ? "ARM7" : "ARM9")); file->Var32((u32*)&Cycles); //file->Var32((u32*)&CyclesToRun); file->Var32(&Halted); file->VarArray(R, 16*sizeof(u32)); file->Var32(&CPSR); file->VarArray(R_FIQ, 8*sizeof(u32)); file->VarArray(R_SVC, 3*sizeof(u32)); file->VarArray(R_ABT, 3*sizeof(u32)); file->VarArray(R_IRQ, 3*sizeof(u32)); file->VarArray(R_UND, 3*sizeof(u32)); file->Var32(&CurInstr); file->VarArray(NextInstr, 2*sizeof(u32)); file->Var32(&ExceptionBase); if (!file->Saving) { if (!Num) { SetupCodeMem(R[15]); // should fix it ((ARMv5*)this)->RegionCodeCycles = ((ARMv5*)this)->MemTimings[R[15] >> 12][0]; } else { CodeRegion = R[15] >> 24; CodeCycles = R[15] >> 15; // cheato } } } void ARMv5::DoSavestate(Savestate* file) { ARM::DoSavestate(file); CP15DoSavestate(file); } void ARM::SetupCodeMem(u32 addr) { if (!Num) { ((ARMv5*)this)->GetCodeMemRegion(addr, &CodeMem); } else { // not sure it's worth it for the ARM7 // esp. as everything there generally runs on WRAM // and due to how it's mapped, we can't use this optimization //NDS::ARM7GetMemRegion(addr, false, &CodeMem); } } void ARMv5::JumpTo(u32 addr, bool restorecpsr) { if (restorecpsr) { RestoreCPSR(); if (CPSR & 0x20) addr |= 0x1; else addr &= ~0x1; } // aging cart debug crap //if (addr == 0x0201764C) printf("capture test %d: R1=%08X\n", R[6], R[1]); //if (addr == 0x020175D8) printf("capture test %d: res=%08X\n", R[6], R[0]); u32 oldregion = R[15] >> 24; u32 newregion = addr >> 24; RegionCodeCycles = MemTimings[addr >> 12][0]; if (addr & 0x1) { addr &= ~0x1; R[15] = addr+2; if (newregion != oldregion) SetupCodeMem(addr); // two-opcodes-at-once fetch // doesn't matter if we put garbage in the MSbs there if (addr & 0x2) { NextInstr[0] = CodeRead32(addr-2, true) >> 16; Cycles += CodeCycles; NextInstr[1] = CodeRead32(addr+2, false); Cycles += CodeCycles; } else { NextInstr[0] = CodeRead32(addr, true); NextInstr[1] = NextInstr[0] >> 16; Cycles += CodeCycles; } CPSR |= 0x20; } else { addr &= ~0x3; R[15] = addr+4; if (newregion != oldregion) SetupCodeMem(addr); NextInstr[0] = CodeRead32(addr, true); Cycles += CodeCycles; NextInstr[1] = CodeRead32(addr+4, false); Cycles += CodeCycles; CPSR &= ~0x20; } /*if (!(PU_Map[addr>>12] & 0x04)) { printf("jumped to %08X. very bad\n", addr); PrefetchAbort(); return; }*/ } void ARMv4::JumpTo(u32 addr, bool restorecpsr) { if (restorecpsr) { RestoreCPSR(); if (CPSR & 0x20) addr |= 0x1; else addr &= ~0x1; } u32 oldregion = R[15] >> 23; u32 newregion = addr >> 23; CodeRegion = addr >> 24; CodeCycles = addr >> 15; // cheato if (addr & 0x1) { addr &= ~0x1; R[15] = addr+2; //if (newregion != oldregion) SetupCodeMem(addr); NextInstr[0] = CodeRead16(addr); NextInstr[1] = CodeRead16(addr+2); Cycles += NDS::ARM7MemTimings[CodeCycles][0] + NDS::ARM7MemTimings[CodeCycles][1]; CPSR |= 0x20; } else { addr &= ~0x3; R[15] = addr+4; //if (newregion != oldregion) SetupCodeMem(addr); NextInstr[0] = CodeRead32(addr); NextInstr[1] = CodeRead32(addr+4); Cycles += NDS::ARM7MemTimings[CodeCycles][2] + NDS::ARM7MemTimings[CodeCycles][3]; CPSR &= ~0x20; } } void ARM::RestoreCPSR() { u32 oldcpsr = CPSR; switch (CPSR & 0x1F) { case 0x11: CPSR = R_FIQ[7]; break; case 0x12: CPSR = R_IRQ[2]; break; case 0x13: CPSR = R_SVC[2]; break; case 0x17: CPSR = R_ABT[2]; break; case 0x1B: CPSR = R_UND[2]; break; default: printf("!! attempt to restore CPSR under bad mode %02X, %08X\n", CPSR&0x1F, R[15]); break; } UpdateMode(oldcpsr, CPSR); } void ARM::UpdateMode(u32 oldmode, u32 newmode) { u32 temp; #define SWAP(a, b) temp = a; a = b; b = temp; if ((oldmode & 0x1F) == (newmode & 0x1F)) return; switch (oldmode & 0x1F) { case 0x11: SWAP(R[8], R_FIQ[0]); SWAP(R[9], R_FIQ[1]); SWAP(R[10], R_FIQ[2]); SWAP(R[11], R_FIQ[3]); SWAP(R[12], R_FIQ[4]); SWAP(R[13], R_FIQ[5]); SWAP(R[14], R_FIQ[6]); break; case 0x12: SWAP(R[13], R_IRQ[0]); SWAP(R[14], R_IRQ[1]); break; case 0x13: SWAP(R[13], R_SVC[0]); SWAP(R[14], R_SVC[1]); break; case 0x17: SWAP(R[13], R_ABT[0]); SWAP(R[14], R_ABT[1]); break; case 0x1B: SWAP(R[13], R_UND[0]); SWAP(R[14], R_UND[1]); break; } switch (newmode & 0x1F) { case 0x11: SWAP(R[8], R_FIQ[0]); SWAP(R[9], R_FIQ[1]); SWAP(R[10], R_FIQ[2]); SWAP(R[11], R_FIQ[3]); SWAP(R[12], R_FIQ[4]); SWAP(R[13], R_FIQ[5]); SWAP(R[14], R_FIQ[6]); break; case 0x12: SWAP(R[13], R_IRQ[0]); SWAP(R[14], R_IRQ[1]); break; case 0x13: SWAP(R[13], R_SVC[0]); SWAP(R[14], R_SVC[1]); break; case 0x17: SWAP(R[13], R_ABT[0]); SWAP(R[14], R_ABT[1]); break; case 0x1B: SWAP(R[13], R_UND[0]); SWAP(R[14], R_UND[1]); break; } #undef SWAP if (Num == 0) { /*if ((newmode & 0x1F) == 0x10) ((ARMv5*)this)->PU_Map = ((ARMv5*)this)->PU_UserMap; else ((ARMv5*)this)->PU_Map = ((ARMv5*)this)->PU_PrivMap;*/ //if ((newmode & 0x1F) == 0x10) printf("!! USER MODE\n"); } } void ARM::TriggerIRQ() { if (CPSR & 0x80) return; u32 oldcpsr = CPSR; CPSR &= ~0xFF; CPSR |= 0xD2; UpdateMode(oldcpsr, CPSR); R_IRQ[2] = oldcpsr; R[14] = R[15] + (oldcpsr & 0x20 ? 2 : 0); JumpTo(ExceptionBase + 0x18); } void ARMv5::PrefetchAbort() { printf("prefetch abort\n"); u32 oldcpsr = CPSR; CPSR &= ~0xBF; CPSR |= 0x97; UpdateMode(oldcpsr, CPSR); // this shouldn't happen, but if it does, we're stuck in some nasty endless loop // so better take care of it if (!(PU_Map[ExceptionBase>>12] & 0x04)) { printf("!!!!! EXCEPTION REGION NOT READABLE. THIS IS VERY BAD!!\n"); NDS::Stop(); return; } R_ABT[2] = oldcpsr; R[14] = R[15] + (oldcpsr & 0x20 ? 2 : 0); JumpTo(ExceptionBase + 0x0C); } void ARMv5::DataAbort() { printf("data abort\n"); u32 oldcpsr = CPSR; CPSR &= ~0xBF; CPSR |= 0x97; UpdateMode(oldcpsr, CPSR); R_ABT[2] = oldcpsr; R[14] = R[15] + (oldcpsr & 0x20 ? 6 : 4); JumpTo(ExceptionBase + 0x10); } void ARMv5::Execute() { if (Halted) { if (Halted == 2) { Halted = 0; } else if (NDS::HaltInterrupted(0)) { Halted = 0; if (NDS::IME[0] & 0x1) TriggerIRQ(); } else { NDS::ARM9Timestamp = NDS::ARM9Target; return; } } while (NDS::ARM9Timestamp < NDS::ARM9Target) { if (CPSR & 0x20) // THUMB { // prefetch R[15] += 2; CurInstr = NextInstr[0]; NextInstr[0] = NextInstr[1]; if (R[15] & 0x2) { NextInstr[1] >>= 16; CodeCycles = 0; } else NextInstr[1] = CodeRead32(R[15], false); // actually execute u32 icode = (CurInstr >> 6) & 0x3FF; ARMInterpreter::THUMBInstrTable[icode](this); } else { // prefetch R[15] += 4; CurInstr = NextInstr[0]; NextInstr[0] = NextInstr[1]; NextInstr[1] = CodeRead32(R[15], false); // actually execute if (CheckCondition(CurInstr >> 28)) { u32 icode = ((CurInstr >> 4) & 0xF) | ((CurInstr >> 16) & 0xFF0); ARMInterpreter::ARMInstrTable[icode](this); } else if ((CurInstr & 0xFE000000) == 0xFA000000) { ARMInterpreter::A_BLX_IMM(this); } else AddCycles_C(); } // TODO optimize this shit!!! if (Halted) { if (Halted == 1 && NDS::ARM9Timestamp < NDS::ARM9Target) { NDS::ARM9Timestamp = NDS::ARM9Target; } break; } /*if (NDS::IF[0] & NDS::IE[0]) { if (NDS::IME[0] & 0x1) TriggerIRQ(); }*/ if (IRQ) TriggerIRQ(); NDS::ARM9Timestamp += Cycles; Cycles = 0; } if (Halted == 2) Halted = 0; } void ARMv4::Execute() { if (Halted) { if (Halted == 2) { Halted = 0; } else if (NDS::HaltInterrupted(1)) { Halted = 0; if (NDS::IME[1] & 0x1) TriggerIRQ(); } else { NDS::ARM7Timestamp = NDS::ARM7Target; return; } } while (NDS::ARM7Timestamp < NDS::ARM7Target) { if (CPSR & 0x20) // THUMB { // prefetch R[15] += 2; CurInstr = NextInstr[0]; NextInstr[0] = NextInstr[1]; NextInstr[1] = CodeRead16(R[15]); // actually execute u32 icode = (CurInstr >> 6); ARMInterpreter::THUMBInstrTable[icode](this); } else { // prefetch R[15] += 4; CurInstr = NextInstr[0]; NextInstr[0] = NextInstr[1]; NextInstr[1] = CodeRead32(R[15]); // actually execute if (CheckCondition(CurInstr >> 28)) { u32 icode = ((CurInstr >> 4) & 0xF) | ((CurInstr >> 16) & 0xFF0); ARMInterpreter::ARMInstrTable[icode](this); } else AddCycles_C(); } // TODO optimize this shit!!! if (Halted) { if (Halted == 1 && NDS::ARM7Timestamp < NDS::ARM7Target) { NDS::ARM7Timestamp = NDS::ARM7Target; } break; } /*if (NDS::IF[1] & NDS::IE[1]) { if (NDS::IME[1] & 0x1) TriggerIRQ(); }*/ if (IRQ) TriggerIRQ(); NDS::ARM7Timestamp += Cycles; Cycles = 0; } if (Halted == 2) Halted = 0; }