/**************************************************************************** * * * Project64 - A Nintendo 64 emulator. * * http://www.pj64-emu.com/ * * Copyright (C) 2012 Project64. All rights reserved. * * * * License: * * GNU/GPLv2 http://www.gnu.org/licenses/gpl-2.0.html * * * ****************************************************************************/ #include "stdafx.h" #if defined(__arm__) || defined(_M_ARM) #include #include #include #include CArmRegInfo::CArmRegInfo() : m_InCallDirect(false) { for (int32_t i = 0; i < 32; i++) { m_RegMapLo[i] = Arm_Unknown; m_RegMapHi[i] = Arm_Unknown; } for (int32_t i = 0, n = sizeof(m_ArmReg_MappedTo) / sizeof(m_ArmReg_MappedTo[0]); i < n; i++) { m_ArmReg_MapOrder[i] = 0; m_ArmReg_Protected[i] = false; m_ArmReg_MappedTo[i] = NotMapped; m_Variable_MappedTo[i] = VARIABLE_UNKNOWN; } } CArmRegInfo::CArmRegInfo(const CArmRegInfo& rhs) { *this = rhs; } CArmRegInfo::~CArmRegInfo() { } CArmRegInfo& CArmRegInfo::operator=(const CArmRegInfo& right) { CRegBase::operator=(right); m_InCallDirect = right.m_InCallDirect; memcpy(&m_RegMapLo, &right.m_RegMapLo, sizeof(m_RegMapLo)); memcpy(&m_RegMapHi, &right.m_RegMapHi, sizeof(m_RegMapHi)); memcpy(&m_ArmReg_MapOrder, &right.m_ArmReg_MapOrder, sizeof(m_ArmReg_MapOrder)); memcpy(&m_ArmReg_Protected, &right.m_ArmReg_Protected, sizeof(m_ArmReg_Protected)); memcpy(&m_ArmReg_MappedTo, &right.m_ArmReg_MappedTo, sizeof(m_ArmReg_MappedTo)); memcpy(&m_Variable_MappedTo, &right.m_Variable_MappedTo, sizeof(m_Variable_MappedTo)); #ifdef _DEBUG if (*this != right) { g_Notify->BreakPoint(__FILE__, __LINE__); } #endif return *this; } bool CArmRegInfo::operator==(const CArmRegInfo& right) const { if (!CRegBase::operator==(right)) { return false; } for (int32_t count = 0; count < 32; count++) { if (m_RegMapHi[count] != right.m_RegMapHi[count]) { return false; } if (m_RegMapLo[count] != right.m_RegMapLo[count]) { return false; } } for (int32_t count = 0; count < 16; count++) { if (m_ArmReg_MapOrder[count] != right.m_ArmReg_MapOrder[count]) { return false; } if (m_ArmReg_Protected[count] != right.m_ArmReg_Protected[count]) { return false; } if (m_ArmReg_MappedTo[count] != right.m_ArmReg_MappedTo[count]) { return false; } if (m_Variable_MappedTo[count] != right.m_Variable_MappedTo[count]) { return false; } } return true; } bool CArmRegInfo::ShouldPushPopReg (ArmReg Reg) { if (m_ArmReg_MappedTo[Reg] == NotMapped) { return false; } if (m_ArmReg_MappedTo[Reg] == Temp_Mapped && !GetArmRegProtected(Reg)) { return false; } return true; } void CArmRegInfo::BeforeCallDirect(void) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } UnMap_AllFPRs(); m_InCallDirect = true; int PushPopRegisters = 0; if (ShouldPushPopReg(Arm_R0)) { PushPopRegisters |= ArmPushPop_R0; } if (ShouldPushPopReg(Arm_R1)) { PushPopRegisters |= ArmPushPop_R1; } if (ShouldPushPopReg(Arm_R2)) { PushPopRegisters |= ArmPushPop_R2; } if (ShouldPushPopReg(Arm_R3)) { PushPopRegisters |= ArmPushPop_R3; } if (ShouldPushPopReg(Arm_R4)) { PushPopRegisters |= ArmPushPop_R4; } if (ShouldPushPopReg(Arm_R5)) { PushPopRegisters |= ArmPushPop_R5; } if (ShouldPushPopReg(Arm_R6)) { PushPopRegisters |= ArmPushPop_R6; } if (ShouldPushPopReg(Arm_R7)) { PushPopRegisters |= ArmPushPop_R7; } if (ShouldPushPopReg(Arm_R8)) { PushPopRegisters |= ArmPushPop_R8; } if (ShouldPushPopReg(Arm_R9)) { PushPopRegisters |= ArmPushPop_R9; } if (ShouldPushPopReg(Arm_R10)) { PushPopRegisters |= ArmPushPop_R10; } if (ShouldPushPopReg(Arm_R11)) { PushPopRegisters |= ArmPushPop_R11; } if (ShouldPushPopReg(Arm_R12)) { PushPopRegisters |= ArmPushPop_R12; } if (ShouldPushPopReg(Arm_R13)) { PushPopRegisters |= ArmPushPop_R13; } if (ShouldPushPopReg(Arm_R14)) { PushPopRegisters |= ArmPushPop_R14; } if (ShouldPushPopReg(Arm_R15)) { PushPopRegisters |= ArmPushPop_R15; } if (PushPopRegisters != 0) { PushArmReg(PushPopRegisters); } } void CArmRegInfo::AfterCallDirect(void) { if (!m_InCallDirect) { CPU_Message("%s: Not in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } int PushPopRegisters = 0; if (ShouldPushPopReg(Arm_R0)) { PushPopRegisters |= ArmPushPop_R0; } if (ShouldPushPopReg(Arm_R1)) { PushPopRegisters |= ArmPushPop_R1; } if (ShouldPushPopReg(Arm_R2)) { PushPopRegisters |= ArmPushPop_R2; } if (ShouldPushPopReg(Arm_R3)) { PushPopRegisters |= ArmPushPop_R3; } if (ShouldPushPopReg(Arm_R4)) { PushPopRegisters |= ArmPushPop_R4; } if (ShouldPushPopReg(Arm_R5)) { PushPopRegisters |= ArmPushPop_R5; } if (ShouldPushPopReg(Arm_R6)) { PushPopRegisters |= ArmPushPop_R6; } if (ShouldPushPopReg(Arm_R7)) { PushPopRegisters |= ArmPushPop_R7; } if (ShouldPushPopReg(Arm_R8)) { PushPopRegisters |= ArmPushPop_R8; } if (ShouldPushPopReg(Arm_R9)) { PushPopRegisters |= ArmPushPop_R9; } if (ShouldPushPopReg(Arm_R10)) { PushPopRegisters |= ArmPushPop_R10; } if (ShouldPushPopReg(Arm_R11)) { PushPopRegisters |= ArmPushPop_R11; } if (ShouldPushPopReg(Arm_R12)) { PushPopRegisters |= ArmPushPop_R12; } if (ShouldPushPopReg(Arm_R13)) { PushPopRegisters |= ArmPushPop_R13; } if (ShouldPushPopReg(Arm_R14)) { PushPopRegisters |= ArmPushPop_R14; } if (ShouldPushPopReg(Arm_R15)) { PushPopRegisters |= ArmPushPop_R15; } if (PushPopRegisters != 0) { PopArmReg(PushPopRegisters); } SetRoundingModel(CRegInfo::RoundUnknown); m_InCallDirect = false; } void CArmRegInfo::FixRoundModel(FPU_ROUND RoundMethod) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } if (GetRoundingModel() == RoundMethod) { return; } CPU_Message(" FixRoundModel: CurrentRoundingModel: %s targetRoundModel: %s", RoundingModelName(GetRoundingModel()), RoundingModelName(RoundMethod)); if (RoundMethod == RoundDefault) { m_RegWorkingSet.BeforeCallDirect(); MoveVariableToArmReg(_RoundingModel, "_RoundingModel", Arm_R0); CallFunction((void *)fesetround, "fesetround"); m_RegWorkingSet.AfterCallDirect(); } else { g_Notify->BreakPoint(__FILE__, __LINE__); } } void CArmRegInfo::Map_GPR_32bit(int32_t MipsReg, bool SignValue, int32_t MipsRegToLoad) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } ArmReg Reg; if (MipsReg == 0) { g_Notify->BreakPoint(__FILE__, __LINE__); return; } if (IsUnknown(MipsReg) || IsConst(MipsReg)) { Reg = FreeArmReg(false); if (Reg < 0) { if (bHaveDebugger()) { g_Notify->DisplayError("Map_GPR_32bit\n\nOut of registers"); } g_Notify->BreakPoint(__FILE__, __LINE__); return; } SetArmRegProtected(Reg, true); CPU_Message(" regcache: allocate %s to %s", ArmRegName(Reg), CRegName::GPR[MipsReg]); } else { if (Is64Bit(MipsReg)) { CPU_Message(" regcache: unallocate %s from high 32bit of %s", ArmRegName(GetMipsRegMapHi(MipsReg)), CRegName::GPR_Hi[MipsReg]); SetArmRegMapOrder(GetMipsRegMapHi(MipsReg), 0); SetArmRegMapped(GetMipsRegMapHi(MipsReg), NotMapped); SetArmRegProtected(GetMipsRegMapHi(MipsReg), false); SetMipsRegHi(MipsReg, 0); } Reg = GetMipsRegMapLo(MipsReg); } for (int32_t count = 0; count <= Arm_R15; count++) { uint32_t Count = GetArmRegMapOrder((ArmReg)count); if (Count > 0) { SetArmRegMapOrder((ArmReg)count, Count + 1); } } SetArmRegMapOrder(Reg, 1); if (MipsRegToLoad > 0) { if (IsUnknown(MipsRegToLoad)) { ArmReg GprReg = Map_Variable(VARIABLE_GPR); LoadArmRegPointerToArmReg(Reg, GprReg, (uint8_t)(MipsRegToLoad << 3), CRegName::GPR_Lo[MipsRegToLoad]); SetArmRegProtected(GprReg, false); } else if (IsMapped(MipsRegToLoad)) { if (MipsReg != MipsRegToLoad) { AddConstToArmReg(Reg, GetMipsRegMapLo(MipsRegToLoad), 0); } } else { MoveConstToArmReg(Reg, GetMipsRegLo(MipsRegToLoad)); } } else if (MipsRegToLoad == 0) { MoveConstToArmReg(Reg, (uint32_t)0); } SetArmRegMapped(Reg, GPR_Mapped); SetArmRegProtected(Reg, true); SetMipsRegMapLo(MipsReg, Reg); SetMipsRegState(MipsReg, SignValue ? STATE_MAPPED_32_SIGN : STATE_MAPPED_32_ZERO); } void CArmRegInfo::Map_GPR_64bit(int32_t MipsReg, int32_t MipsRegToLoad) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } ArmReg regHi, reglo; int32_t count; if (MipsReg == 0) { if (bHaveDebugger()) { g_Notify->DisplayError("Map_GPR_64bit\n\nWhy are you trying to map reg 0"); } g_Notify->BreakPoint(__FILE__, __LINE__); return; } ProtectGPR(MipsReg); if (IsUnknown(MipsReg) || IsConst(MipsReg)) { regHi = FreeArmReg(false); if (regHi < 0) { if (bHaveDebugger()) { g_Notify->DisplayError("Map_GPR_64bit\n\nOut of registers"); } g_Notify->BreakPoint(__FILE__, __LINE__); return; } SetArmRegProtected(regHi, true); reglo = FreeArmReg(false); if (reglo < 0) { if (bHaveDebugger()) { g_Notify->DisplayError("Map_GPR_64bit\n\nOut of registers"); } g_Notify->BreakPoint(__FILE__, __LINE__); return; } SetArmRegProtected(reglo, true); CPU_Message(" regcache: allocate %s to hi word of %s", ArmRegName(regHi), CRegName::GPR[MipsReg]); CPU_Message(" regcache: allocate %s to low word of %s", ArmRegName(reglo), CRegName::GPR[MipsReg]); } else { reglo = GetMipsRegMapLo(MipsReg); if (Is32Bit(MipsReg)) { SetArmRegProtected(reglo, true); regHi = FreeArmReg(false); if (regHi < 0) { if (bHaveDebugger()) { g_Notify->DisplayError("Map_GPR_64bit\n\nOut of registers"); } g_Notify->BreakPoint(__FILE__, __LINE__); return; } SetArmRegProtected(regHi, true); CPU_Message(" regcache: allocate %s to hi word of %s", ArmRegName(regHi), CRegName::GPR[MipsReg]); } else { regHi = GetMipsRegMapHi(MipsReg); } } for (int32_t count = 0; count <= Arm_R15; count++) { uint32_t Count = GetArmRegMapOrder((ArmReg)count); if (Count > 0) { SetArmRegMapOrder((ArmReg)count, Count + 1); } } SetArmRegMapOrder(regHi, 1); SetArmRegMapOrder(reglo, 1); if (MipsRegToLoad > 0) { if (IsUnknown(MipsRegToLoad)) { ArmReg GprReg = Map_Variable(VARIABLE_GPR); LoadArmRegPointerToArmReg(regHi, GprReg, (uint8_t)(MipsRegToLoad << 3) + 4, CRegName::GPR_Hi[MipsRegToLoad]); LoadArmRegPointerToArmReg(reglo, GprReg, (uint8_t)(MipsRegToLoad << 3), CRegName::GPR_Lo[MipsRegToLoad]); SetArmRegProtected(GprReg, false); } else if (IsMapped(MipsRegToLoad)) { if (Is32Bit(MipsRegToLoad)) { if (IsSigned(MipsRegToLoad)) { ShiftRightSignImmed(regHi, GetMipsRegMapLo(MipsRegToLoad), 31); } else { MoveConstToArmReg(regHi, (uint32_t)0); } if (MipsReg != MipsRegToLoad) { AddConstToArmReg(reglo, GetMipsRegMapLo(MipsRegToLoad), 0); } } else if (MipsReg != MipsRegToLoad) { AddConstToArmReg(regHi, GetMipsRegMapHi(MipsRegToLoad), 0); AddConstToArmReg(reglo, GetMipsRegMapLo(MipsRegToLoad), 0); } } else { if (Is32Bit(MipsRegToLoad)) { MoveConstToArmReg(regHi, (uint32_t)(IsSigned(MipsRegToLoad) ? GetMipsRegLo_S(MipsRegToLoad) >> 31 : 0)); } else { MoveConstToArmReg(regHi, GetMipsRegHi(MipsRegToLoad)); } MoveConstToArmReg(reglo, GetMipsRegLo(MipsRegToLoad)); } } else if (MipsRegToLoad == 0) { MoveConstToArmReg(regHi, (uint32_t)0); MoveConstToArmReg(reglo, (uint32_t)0); } SetArmRegMapped(regHi, GPR_Mapped); SetArmRegMapped(reglo, GPR_Mapped); SetArmRegProtected(regHi, true); SetArmRegProtected(reglo, true); SetMipsRegMapHi(MipsReg, regHi); SetMipsRegMapLo(MipsReg, reglo); SetMipsRegState(MipsReg, STATE_MAPPED_64); } void CArmRegInfo::UnMap_GPR(uint32_t MipsReg, bool WriteBackValue) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } if (WriteBackValue) { WriteBack_GPR(MipsReg,true); } if (MipsReg == 0) { if (bHaveDebugger()) { g_Notify->DisplayError(stdstr_f("%s\n\nWhy are you trying to unmap reg 0", __FUNCTION__).c_str()); } return; } if (IsUnknown(MipsReg)) { return; } //CPU_Message("UnMap_GPR: State: %X\tReg: %s\tWriteBack: %s",State,CRegName::GPR[Reg],WriteBackValue?"true":"false"); if (IsConst(MipsReg)) { SetMipsRegState(MipsReg, STATE_UNKNOWN); return; } if (Is64Bit(MipsReg)) { CPU_Message(" regcache: unallocate %s from %s", ArmRegName(GetMipsRegMapHi(MipsReg)), CRegName::GPR_Hi[MipsReg]); SetArmRegMapped(GetMipsRegMapHi(MipsReg), NotMapped); SetArmRegProtected(GetMipsRegMapHi(MipsReg), false); } CPU_Message(" regcache: unallocate %s from %s", ArmRegName(GetMipsRegMapLo(MipsReg)), CRegName::GPR_Lo[MipsReg]); SetArmRegMapped(GetMipsRegMapLo(MipsReg), NotMapped); SetArmRegProtected(GetMipsRegMapLo(MipsReg), false); SetMipsRegState(MipsReg, STATE_UNKNOWN); } void CArmRegInfo::WriteBack_GPR(uint32_t MipsReg, bool Unmapping) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } if (MipsReg == 0) { if (bHaveDebugger()) { g_Notify->DisplayError(stdstr_f("%s\n\nWhy are you trying to unmap reg 0", __FUNCTION__).c_str()); } return; } if (IsUnknown(MipsReg)) { return; } ArmReg GprReg = Map_Variable(VARIABLE_GPR); if (IsConst(MipsReg)) { ArmReg TempReg = m_RegWorkingSet.Map_TempReg(Arm_Any, -1, false); if (Is64Bit(MipsReg)) { MoveConstToArmReg(TempReg, GetMipsRegHi(MipsReg)); StoreArmRegToArmRegPointer(TempReg, GprReg, (uint8_t)(MipsReg << 3) + 4, CRegName::GPR_Hi[MipsReg]); } else if (!g_System->b32BitCore()) { MoveConstToArmReg(TempReg, (GetMipsRegLo(MipsReg) & 0x80000000) != 0 ? 0xFFFFFFFF : 0); StoreArmRegToArmRegPointer(TempReg, GprReg, (uint8_t)(MipsReg << 3) + 4, CRegName::GPR_Hi[MipsReg]); } MoveConstToArmReg(TempReg, GetMipsRegLo(MipsReg)); StoreArmRegToArmRegPointer(TempReg, GprReg, (uint8_t)(MipsReg << 3), CRegName::GPR_Lo[MipsReg]); m_RegWorkingSet.SetArmRegProtected(TempReg, false); } else { StoreArmRegToArmRegPointer(GetMipsRegMapLo(MipsReg), GprReg, (uint8_t)(MipsReg << 3), CRegName::GPR_Lo[MipsReg]); if (Is64Bit(MipsReg)) { StoreArmRegToArmRegPointer(GetMipsRegMapHi(MipsReg), GprReg, (uint8_t)(MipsReg << 3) + 4, CRegName::GPR_Hi[MipsReg]); } else if (!g_System->b32BitCore()) { bool loProtected = GetArmRegProtected(GetMipsRegMapLo(MipsReg)); if (!Unmapping) { SetArmRegProtected(GetMipsRegMapLo(MipsReg), true); ArmReg TempReg = m_RegWorkingSet.Map_TempReg(Arm_Any, -1, false); if (IsSigned(MipsReg)) { ShiftRightSignImmed(TempReg, GetMipsRegMapLo(MipsReg), 31); } else { MoveConstToArmReg(TempReg, (uint32_t)0); } StoreArmRegToArmRegPointer(TempReg, GprReg, (uint8_t)(MipsReg << 3) + 4, CRegName::GPR_Hi[MipsReg]); m_RegWorkingSet.SetArmRegProtected(TempReg, false); } else { ShiftRightSignImmed(GetMipsRegMapLo(MipsReg), GetMipsRegMapLo(MipsReg), 31); StoreArmRegToArmRegPointer(GetMipsRegMapLo(MipsReg), GprReg, (uint8_t)(MipsReg << 3) + 4, CRegName::GPR_Hi[MipsReg]); } m_RegWorkingSet.SetArmRegProtected(GetMipsRegMapLo(MipsReg), loProtected); } } SetArmRegProtected(GprReg, false); } void CArmRegInfo::WriteBackRegisters() { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } UnMap_AllFPRs(); int32_t ArmRegCount = sizeof(m_ArmReg_MappedTo) / sizeof(m_ArmReg_MappedTo[0]); for (int32_t i = 1; i < 32; i++) { UnMap_GPR(i,true); } for (int32_t i = 0; i < ArmRegCount; i++) { UnMap_ArmReg((ArmReg)i); } for (int32_t i = 0; i < ArmRegCount; i++) { SetArmRegProtected((ArmReg)i, false); } for (int32_t count = 1; count < 32; count++) { switch (GetMipsRegState(count)) { case STATE_UNKNOWN: break; case STATE_CONST_32_SIGN: g_Notify->BreakPoint(__FILE__, __LINE__); break; case STATE_CONST_32_ZERO: g_Notify->BreakPoint(__FILE__, __LINE__); break; case STATE_CONST_64: g_Notify->BreakPoint(__FILE__, __LINE__); break; default: CPU_Message("%s: Unknown State: %d reg %d (%s)", __FUNCTION__, GetMipsRegState(count), count, CRegName::GPR[count]); g_Notify->BreakPoint(__FILE__, __LINE__); } } } void CArmRegInfo::UnMap_AllFPRs() { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } CPU_Message("%s", __FUNCTION__); } CArmOps::ArmReg CArmRegInfo::UnMap_TempReg(bool TempMapping) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return Arm_Unknown; } ArmReg Reg = Arm_Unknown; if (GetArmRegMapped(Arm_R7) == Temp_Mapped && !GetArmRegProtected(Arm_R7)) { return Arm_R7; } if (GetArmRegMapped(Arm_R6) == Temp_Mapped && !GetArmRegProtected(Arm_R6)) { return Arm_R6; } if (GetArmRegMapped(Arm_R5) == Temp_Mapped && !GetArmRegProtected(Arm_R5)) { return Arm_R5; } if (GetArmRegMapped(Arm_R4) == Temp_Mapped && !GetArmRegProtected(Arm_R4)) { return Arm_R4; } if (GetArmRegMapped(Arm_R3) == Temp_Mapped && !GetArmRegProtected(Arm_R3)) { return Arm_R3; } if (GetArmRegMapped(Arm_R2) == Temp_Mapped && !GetArmRegProtected(Arm_R2)) { return Arm_R2; } if (GetArmRegMapped(Arm_R1) == Temp_Mapped && !GetArmRegProtected(Arm_R1)) { return Arm_R1; } if (GetArmRegMapped(Arm_R0) == Temp_Mapped && !GetArmRegProtected(Arm_R0)) { return Arm_R0; } if (TempMapping) { if (GetArmRegMapped(Arm_R11) == Temp_Mapped && !GetArmRegProtected(Arm_R11)) { return Arm_R11; } if (GetArmRegMapped(Arm_R10) == Temp_Mapped && !GetArmRegProtected(Arm_R10)) { return Arm_R10; } } if (GetArmRegMapped(Arm_R9) == Temp_Mapped && !GetArmRegProtected(Arm_R9)) { return Arm_R9; } if (GetArmRegMapped(Arm_R8) == Temp_Mapped && !GetArmRegProtected(Arm_R8)) { return Arm_R8; } if (Reg != Arm_Unknown) { if (GetArmRegMapped(Reg) == Temp_Mapped) { CPU_Message(" regcache: unallocate %s from temp storage", ArmRegName(Reg)); } SetArmRegMapped(Reg, NotMapped); } return Reg; } bool CArmRegInfo::UnMap_ArmReg(ArmReg Reg) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return false; } if (GetArmRegProtected(Reg)) { CPU_Message("%s: %s is protected",__FUNCTION__,ArmRegName(Reg)); g_Notify->BreakPoint(__FILE__, __LINE__); return false; } if (GetArmRegMapped(Reg) == NotMapped) { return true; } else if (GetArmRegMapped(Reg) == GPR_Mapped) { for (uint32_t count = 1; count < 32; count++) { if (!IsMapped(count)) { continue; } if (Is64Bit(count) && GetMipsRegMapHi(count) == Reg) { if (!GetArmRegProtected(Reg)) { UnMap_GPR(count, true); return true; } break; } if (GetMipsRegMapLo(count) == Reg) { if (!GetArmRegProtected(Reg)) { UnMap_GPR(count, true); return true; } break; } } g_Notify->BreakPoint(__FILE__, __LINE__); } else if (GetArmRegMapped(Reg) == Temp_Mapped) { CPU_Message(" regcache: unallocate %s from temp storage", ArmRegName(Reg)); SetArmRegMapped(Reg, NotMapped); return true; } else if (GetArmRegMapped(Reg) == Variable_Mapped) { CPU_Message(" regcache: unallocate %s from variable mapping (%s)", ArmRegName(Reg), VariableMapName(GetVariableMappedTo(Reg))); SetArmRegMapped(Reg, NotMapped); m_Variable_MappedTo[Reg] = VARIABLE_UNKNOWN; return true; } g_Notify->BreakPoint(__FILE__, __LINE__); return false; } void CArmRegInfo::ResetRegProtection() { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } for (uint32_t i = 0, n = sizeof(m_ArmReg_Protected) / sizeof(m_ArmReg_Protected[0]); i < n; i++) { SetArmRegProtected((ArmReg)i, false); } } CArmOps::ArmReg CArmRegInfo::FreeArmReg(bool TempMapping) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return Arm_Unknown; } if ((GetArmRegMapped(Arm_R7) == NotMapped || GetArmRegMapped(Arm_R7) == Temp_Mapped) && !GetArmRegProtected(Arm_R7)) { return Arm_R7; } if ((GetArmRegMapped(Arm_R6) == NotMapped || GetArmRegMapped(Arm_R6) == Temp_Mapped) && !GetArmRegProtected(Arm_R6)) { return Arm_R6; } if ((GetArmRegMapped(Arm_R5) == NotMapped || GetArmRegMapped(Arm_R5) == Temp_Mapped) && !GetArmRegProtected(Arm_R5)) { return Arm_R5; } if ((GetArmRegMapped(Arm_R4) == NotMapped || GetArmRegMapped(Arm_R4) == Temp_Mapped) && !GetArmRegProtected(Arm_R4)) { return Arm_R4; } if ((GetArmRegMapped(Arm_R3) == NotMapped || GetArmRegMapped(Arm_R3) == Temp_Mapped) && !GetArmRegProtected(Arm_R3)) { return Arm_R3; } if ((GetArmRegMapped(Arm_R2) == NotMapped || GetArmRegMapped(Arm_R2) == Temp_Mapped) && !GetArmRegProtected(Arm_R2)) { return Arm_R2; } if ((GetArmRegMapped(Arm_R1) == NotMapped || GetArmRegMapped(Arm_R1) == Temp_Mapped) && !GetArmRegProtected(Arm_R1)) { return Arm_R1; } if ((GetArmRegMapped(Arm_R0) == NotMapped || GetArmRegMapped(Arm_R0) == Temp_Mapped) && !GetArmRegProtected(Arm_R0)) { return Arm_R0; } if (TempMapping) { if ((GetArmRegMapped(Arm_R11) == NotMapped || GetArmRegMapped(Arm_R11) == Temp_Mapped) && !GetArmRegProtected(Arm_R11)) { return Arm_R11; } if ((GetArmRegMapped(Arm_R10) == NotMapped || GetArmRegMapped(Arm_R10) == Temp_Mapped) && !GetArmRegProtected(Arm_R10)) { return Arm_R10; } } if ((GetArmRegMapped(Arm_R9) == NotMapped || GetArmRegMapped(Arm_R9) == Temp_Mapped) && !GetArmRegProtected(Arm_R9)) { return Arm_R9; } if ((GetArmRegMapped(Arm_R8) == NotMapped || GetArmRegMapped(Arm_R8) == Temp_Mapped) && !GetArmRegProtected(Arm_R8)) { return Arm_R8; } ArmReg Reg = UnMap_TempReg(TempMapping); if (Reg != Arm_Unknown) { return Reg; } int32_t MapCount[Arm_R12]; ArmReg MapReg[Arm_R12]; for (int32_t i = 0, n = TempMapping ? Arm_R12 : Arm_R10; i < n; i++) { MapCount[i] = GetArmRegMapOrder((ArmReg)i); MapReg[i] = (ArmReg)i; } for (int32_t i = 0, n = TempMapping ? Arm_R12 : Arm_R10; i < n; i++) { bool changed = false; for (int32_t z = 0; z < n - 1; z++) { if (MapCount[z] >= MapCount[z + 1]) { continue; } uint32_t temp = MapCount[z]; MapCount[z] = MapCount[z + 1]; MapCount[z + 1] = temp; ArmReg tempReg = MapReg[z]; MapReg[z] = MapReg[z + 1]; MapReg[z + 1] = tempReg; changed = true; } if (!changed) { break; } } for (int32_t i = 0, n = TempMapping ? Arm_R12 : Arm_R10; i < n; i++) { if (((MapCount[i] > 0 && GetArmRegMapped(MapReg[i]) == GPR_Mapped) || GetArmRegMapped(MapReg[i]) == Variable_Mapped) && !GetArmRegProtected((ArmReg)MapReg[i])) { if (UnMap_ArmReg((ArmReg)MapReg[i])) { return (ArmReg)MapReg[i]; } } } LogRegisterState(); g_Notify->BreakPoint(__FILE__, __LINE__); return Arm_Unknown; } void CArmRegInfo::LogRegisterState(void) { if (!g_bRecompilerLogging) { return; } for (uint32_t i = 0; i < 16; i++) { stdstr regname; if (GetArmRegMapped((ArmReg)i) == CArmRegInfo::GPR_Mapped) { for (uint32_t count = 1; count < 32; count++) { if (!IsMapped(count)) { continue; } if (Is64Bit(count) && GetMipsRegMapHi(count) == (ArmReg)i) { regname = CRegName::GPR_Hi[count]; break; } if (GetMipsRegMapLo(count) == (ArmReg)i) { regname = CRegName::GPR_Lo[count]; break; } } } CPU_Message("GetArmRegMapped(%s) = %X%s%s Protected: %s MapOrder: %d", ArmRegName((ArmReg)i), GetArmRegMapped((ArmReg)i), GetArmRegMapped((ArmReg)i) == CArmRegInfo::Variable_Mapped ? stdstr_f(" (%s)", CArmRegInfo::VariableMapName(GetVariableMappedTo((ArmReg)i))).c_str() : "", regname.length() > 0 ? stdstr_f(" (%s)", regname.c_str()).c_str() : "", GetArmRegProtected((ArmReg)i) ? "true" : "false", GetArmRegMapOrder((ArmReg)i) ); } } CArmOps::ArmReg CArmRegInfo::Map_TempReg(ArmReg Reg, int32_t MipsReg, bool LoadHiWord) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return Arm_Unknown; } ArmReg GprReg = MipsReg >= 0 ? Map_Variable(VARIABLE_GPR) : Arm_Unknown; if (Reg == CArmOps::Arm_Any) { if (GetArmRegMapped(Arm_R7) == Temp_Mapped && !GetArmRegProtected(Arm_R7)) { Reg = Arm_R7; } else if (GetArmRegMapped(Arm_R6) == Temp_Mapped && !GetArmRegProtected(Arm_R6)) { Reg = Arm_R6; } else if (GetArmRegMapped(Arm_R5) == Temp_Mapped && !GetArmRegProtected(Arm_R5)) { Reg = Arm_R5; } else if (GetArmRegMapped(Arm_R4) == Temp_Mapped && !GetArmRegProtected(Arm_R4)) { Reg = Arm_R4; } else if (GetArmRegMapped(Arm_R3) == Temp_Mapped && !GetArmRegProtected(Arm_R3)) { Reg = Arm_R3; } else if (GetArmRegMapped(Arm_R2) == Temp_Mapped && !GetArmRegProtected(Arm_R2)) { Reg = Arm_R2; } else if (GetArmRegMapped(Arm_R1) == Temp_Mapped && !GetArmRegProtected(Arm_R1)) { Reg = Arm_R1; } else if (GetArmRegMapped(Arm_R0) == Temp_Mapped && !GetArmRegProtected(Arm_R0)) { Reg = Arm_R0; } else if (GetArmRegMapped(Arm_R11) == Temp_Mapped && !GetArmRegProtected(Arm_R11)) { Reg = Arm_R11; } else if (GetArmRegMapped(Arm_R10) == Temp_Mapped && !GetArmRegProtected(Arm_R10)) { Reg = Arm_R10; } else if (GetArmRegMapped(Arm_R9) == Temp_Mapped && !GetArmRegProtected(Arm_R9)) { Reg = Arm_R9; } else if (GetArmRegMapped(Arm_R8) == Temp_Mapped && !GetArmRegProtected(Arm_R8)) { Reg = Arm_R8; } if (Reg == Arm_Any) { Reg = FreeArmReg(true); if (Reg == Arm_Unknown) { WriteTrace(TraceRegisterCache, TraceError, "Failed to find a free register"); g_Notify->BreakPoint(__FILE__, __LINE__); return Arm_Unknown; } } } else if (GetArmRegMapped(Reg) == NotMapped || GetArmRegMapped(Reg) == Temp_Mapped) { if (GetArmRegProtected(Reg)) { g_Notify->BreakPoint(__FILE__, __LINE__); } } else if (GetArmRegMapped(Reg) == GPR_Mapped) { g_Notify->BreakPoint(__FILE__, __LINE__); } else { g_Notify->BreakPoint(__FILE__, __LINE__); } if (MipsReg < 0) { CPU_Message(" regcache: allocate %s as temp storage", ArmRegName(Reg)); } else { CPU_Message(" regcache: allocate %s as temp storage (%s)", ArmRegName(Reg), LoadHiWord ? CRegName::GPR_Hi[MipsReg] : CRegName::GPR_Lo[MipsReg]); if (GprReg == Arm_Unknown) { g_Notify->BreakPoint(__FILE__, __LINE__); } if (LoadHiWord) { if (IsUnknown(MipsReg)) { LoadArmRegPointerToArmReg(Reg, GprReg, (uint8_t)(MipsReg << 3) + 4, CRegName::GPR_Hi[MipsReg]); } else if (IsMapped(MipsReg)) { if (Is64Bit(MipsReg)) { g_Notify->BreakPoint(__FILE__, __LINE__); //MoveArmRegToArmReg(GetMipsRegMapHi(MipsReg), Reg); } else if (IsSigned(MipsReg)) { ShiftRightSignImmed(Reg,GetMipsRegMapLo(MipsReg),31); } else { MoveConstToArmReg(Reg, (uint32_t)0); } } else { if (Is64Bit(MipsReg)) { g_Notify->BreakPoint(__FILE__, __LINE__); //MoveConstToArmReg(Reg, GetMipsRegHi(MipsReg)); } else { g_Notify->BreakPoint(__FILE__, __LINE__); //MoveConstToArmReg(Reg, GetMipsRegLo_S(MipsReg) >> 31); } } } else { if (IsUnknown(MipsReg)) { LoadArmRegPointerToArmReg(Reg, GprReg, (uint8_t)(MipsReg << 3), CRegName::GPR_Lo[MipsReg]); } else if (IsMapped(MipsReg)) { AddConstToArmReg(Reg,GetMipsRegMapLo(MipsReg),0); } else { MoveConstToArmReg(Reg, GetMipsRegLo(MipsReg)); } } } SetArmRegMapped(Reg, Temp_Mapped); SetArmRegProtected(Reg, true); for (int32_t i = 0, n = sizeof(m_ArmReg_MappedTo) / sizeof(m_ArmReg_MappedTo[0]); i < n; i++) { int32_t MapOrder = GetArmRegMapOrder((ArmReg)i); if (MapOrder > 0) { SetArmRegMapOrder((ArmReg)i, MapOrder + 1); } } SetArmRegMapOrder(Reg, 1); SetArmRegProtected(GprReg, false); return Reg; } CArmOps::ArmReg CArmRegInfo::Map_Variable(VARIABLE_MAPPED variable, ArmReg Reg) { CPU_Message("%s: variable: %s Reg: %d", __FUNCTION__,VariableMapName(variable), Reg); if (m_InCallDirect) { CPU_Message("%s: in CallDirect",__FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return Arm_Unknown; } if (Reg == Arm_Unknown) { g_Notify->BreakPoint(__FILE__, __LINE__); return Arm_Unknown; } if (variable == VARIABLE_GPR && Reg != Arm_Any && Reg != Arm_R12) { g_Notify->BreakPoint(__FILE__, __LINE__); return Arm_Unknown; } if (Reg == Arm_Any) { Reg = GetVariableReg(variable); if (Reg != Arm_Unknown) { SetArmRegProtected(Reg, true); return Reg; } Reg = variable == VARIABLE_GPR ? Arm_R12 : FreeArmReg(false); if (Reg == Arm_Unknown) { WriteTrace(TraceRegisterCache, TraceError, "Failed to find a free register"); g_Notify->BreakPoint(__FILE__, __LINE__); return Arm_Unknown; } } else if (GetArmRegMapped(Reg) == Variable_Mapped && m_Variable_MappedTo[Reg] == variable) { return Reg; } else if (GetArmRegMapped(Reg) != NotMapped) { UnMap_ArmReg(Reg); } SetArmRegMapped(Reg, Variable_Mapped); SetArmRegProtected(Reg, true); CPU_Message(" regcache: allocate %s as pointer to %s", ArmRegName(Reg), VariableMapName(variable)); m_Variable_MappedTo[Reg] = variable; if (variable == VARIABLE_GPR) { MoveConstToArmReg(Reg, (uint32_t)_GPR, "_GPR"); } else if (variable == VARIABLE_FPR) { MoveConstToArmReg(Reg, (uint32_t)_FPR_S, "_FPR_S"); } else if (variable == VARIABLE_TLB_READMAP) { MoveConstToArmReg(Reg, (uint32_t)(g_MMU->m_TLB_ReadMap), "MMU->TLB_ReadMap"); } else if (variable == VARIABLE_TLB_WRITEMAP) { MoveConstToArmReg(Reg, (uint32_t)(g_MMU->m_TLB_WriteMap), "MMU->m_TLB_WriteMap"); } else if (variable == VARIABLE_TLB_LOAD_ADDRESS) { MoveConstToArmReg(Reg, (uint32_t)(g_TLBLoadAddress), "g_TLBLoadAddress"); } else if (variable == VARIABLE_TLB_STORE_ADDRESS) { MoveConstToArmReg(Reg, (uint32_t)(g_TLBStoreAddress), "g_TLBStoreAddress"); } else if (variable == VARIABLE_NEXT_TIMER) { MoveConstToArmReg(Reg, (uint32_t)(g_NextTimer), "g_NextTimer"); } else { g_Notify->BreakPoint(__FILE__, __LINE__); return Arm_Unknown; } return Reg; } CArmOps::ArmReg CArmRegInfo::GetVariableReg(VARIABLE_MAPPED variable) const { for (int32_t i = 0, n = sizeof(m_ArmReg_MappedTo) / sizeof(m_ArmReg_MappedTo[0]); i < n; i++) { if (m_ArmReg_MappedTo[i] == Variable_Mapped && m_Variable_MappedTo[i] == variable) { return (ArmReg)i; } } return Arm_Unknown; } void CArmRegInfo::ProtectGPR(uint32_t Reg) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect", __FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } if (IsUnknown(Reg) || IsConst(Reg)) { return; } if (Is64Bit(Reg)) { SetArmRegProtected(GetMipsRegMapHi(Reg), true); } SetArmRegProtected(GetMipsRegMapLo(Reg), true); } void CArmRegInfo::UnProtectGPR(uint32_t Reg) { if (m_InCallDirect) { CPU_Message("%s: in CallDirect", __FUNCTION__); g_Notify->BreakPoint(__FILE__, __LINE__); return; } if (IsUnknown(Reg) || IsConst(Reg)) { return; } if (Is64Bit(Reg)) { SetArmRegProtected(GetMipsRegMapHi(Reg), false); } SetArmRegProtected(GetMipsRegMapLo(Reg), false); } const char * CArmRegInfo::VariableMapName(VARIABLE_MAPPED variable) { switch (variable) { case VARIABLE_UNKNOWN: return "UNKNOWN"; case VARIABLE_GPR: return "_GPR"; case VARIABLE_FPR: return "_FPR_S"; case VARIABLE_TLB_READMAP: return "m_TLB_ReadMap"; case VARIABLE_TLB_WRITEMAP: return "m_TLB_WriteMap"; case VARIABLE_TLB_LOAD_ADDRESS: return "g_TLBLoadAddress"; case VARIABLE_TLB_STORE_ADDRESS: return "g_TLBStoreAddress"; case VARIABLE_NEXT_TIMER: return "g_NextTimer"; default: g_Notify->BreakPoint(__FILE__, __LINE__); return "unknown VariableMapName"; } } #endif