/* Copyright 2016-2017 StapleButter 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 ARM_H #define ARM_H #include "types.h" #include "NDS.h" #include "CP15.h" // lame #define C_S(x) x #define C_N(x) x #define C_I(x) x #define ROR(x, n) (((x) >> (n)) | ((x) << (32-(n)))) class ARM { public: ARM(u32 num); ~ARM(); // destroy shit void Reset(); void JumpTo(u32 addr, bool restorecpsr = false); void RestoreCPSR(); void Halt(u32 halt) { if (halt==2 && Halted==1) return; Halted = halt; } void CheckIRQ() { if (!(NDS::IME[Num] & 0x1)) return; if (NDS::IF[Num] & NDS::IE[Num]) { TriggerIRQ(); } } s32 Execute(); bool CheckCondition(u32 code) { if (code == 0xE) return true; if (ConditionTable[code] & (1 << (CPSR>>28))) return true; return false; } void SetC(bool c) { if (c) CPSR |= 0x20000000; else CPSR &= ~0x20000000; } void SetNZ(bool n, bool z) { CPSR &= ~0xC0000000; if (n) CPSR |= 0x80000000; if (z) CPSR |= 0x40000000; } void SetNZCV(bool n, bool z, bool c, bool v) { CPSR &= ~0xF0000000; if (n) CPSR |= 0x80000000; if (z) CPSR |= 0x40000000; if (c) CPSR |= 0x20000000; if (v) CPSR |= 0x10000000; } void UpdateMode(u32 oldmode, u32 newmode); void TriggerIRQ(); u16 CodeRead16(u32 addr) { u16 val; // TODO eventually: on ARM9, THUMB opcodes are prefetched with 32bit reads if (!Num) { if (!CP15::HandleCodeRead16(addr, &val)) val = NDS::ARM9Read16(addr); } else val = NDS::ARM7Read16(addr); Cycles += Waitstates[0][(addr>>24)&0xF]; return val; } u32 CodeRead32(u32 addr) { u32 val; if (!Num) { if (!CP15::HandleCodeRead32(addr, &val)) val = NDS::ARM9Read32(addr); } else val = NDS::ARM7Read32(addr); Cycles += Waitstates[1][(addr>>24)&0xF]; return val; } u8 DataRead8(u32 addr, u32 forceuser=0) { u8 val; if (!Num) { if (!CP15::HandleDataRead8(addr, &val, forceuser)) val = NDS::ARM9Read8(addr); } else val = NDS::ARM7Read8(addr); Cycles += Waitstates[2][(addr>>24)&0xF]; return val; } u16 DataRead16(u32 addr, u32 forceuser=0) { u16 val; addr &= ~1; if (!Num) { if (!CP15::HandleDataRead16(addr, &val, forceuser)) val = NDS::ARM9Read16(addr); } else val = NDS::ARM7Read16(addr); Cycles += Waitstates[2][(addr>>24)&0xF]; return val; } u32 DataRead32(u32 addr, u32 forceuser=0) { u32 val; addr &= ~3; if (!Num) { if (!CP15::HandleDataRead32(addr, &val, forceuser)) val = NDS::ARM9Read32(addr); } else val = NDS::ARM7Read32(addr); Cycles += Waitstates[3][(addr>>24)&0xF]; return val; } void DataWrite8(u32 addr, u8 val, u32 forceuser=0) { if (!Num) { if (!CP15::HandleDataWrite8(addr, val, forceuser)) NDS::ARM9Write8(addr, val); } else NDS::ARM7Write8(addr, val); Cycles += Waitstates[2][(addr>>24)&0xF]; } void DataWrite16(u32 addr, u16 val, u32 forceuser=0) { addr &= ~1; if (!Num) { if (!CP15::HandleDataWrite16(addr, val, forceuser)) NDS::ARM9Write16(addr, val); } else NDS::ARM7Write16(addr, val); Cycles += Waitstates[2][(addr>>24)&0xF]; } void DataWrite32(u32 addr, u32 val, u32 forceuser=0) { addr &= ~3; if (!Num) { if (!CP15::HandleDataWrite32(addr, val, forceuser)) NDS::ARM9Write32(addr, val); } else NDS::ARM7Write32(addr, val); Cycles += Waitstates[3][(addr>>24)&0xF]; } u32 Num; // waitstates: // 0=code16 1=code32 2=data16 3=data32 // TODO eventually: nonsequential waitstates s32 Waitstates[4][16]; s32 Cycles; s32 CyclesToRun; u32 Halted; u32 R[16]; // heh u32 CPSR; u32 R_FIQ[8]; // holding SPSR too u32 R_SVC[3]; u32 R_ABT[3]; u32 R_IRQ[3]; u32 R_UND[3]; u32 CurInstr; u32 NextInstr[2]; u32 ExceptionBase; static u32 ConditionTable[16]; u32 debug; }; #endif // ARM_H