project64/Source/Project64-core/N64System/Mips/Register.cpp

867 lines
21 KiB
C++

#include "stdafx.h"
#include <Project64-core/Logging.h>
#include <Project64-core/N64System/Mips/Register.h>
#include <Project64-core/N64System/N64System.h>
#include <Project64-core/N64System/SystemGlobals.h>
#include <fenv.h>
const char * CRegName::GPR[32] = {
"R0",
"AT",
"V0",
"V1",
"A0",
"A1",
"A2",
"A3",
"T0",
"T1",
"T2",
"T3",
"T4",
"T5",
"T6",
"T7",
"S0",
"S1",
"S2",
"S3",
"S4",
"S5",
"S6",
"S7",
"T8",
"T9",
"K0",
"K1",
"GP",
"SP",
"FP",
"RA",
};
const char * CRegName::GPR_Hi[32] = {
"r0.HI",
"at.HI",
"v0.HI",
"v1.HI",
"a0.HI",
"a1.HI",
"a2.HI",
"a3.HI",
"t0.HI",
"t1.HI",
"t2.HI",
"t3.HI",
"t4.HI",
"t5.HI",
"t6.HI",
"t7.HI",
"s0.HI",
"s1.HI",
"s2.HI",
"s3.HI",
"s4.HI",
"s5.HI",
"s6.HI",
"s7.HI",
"t8.HI",
"t9.HI",
"k0.HI",
"k1.HI",
"gp.HI",
"sp.HI",
"fp.HI",
"ra.HI",
};
const char * CRegName::GPR_Lo[32] = {
"r0.LO",
"at.LO",
"v0.LO",
"v1.LO",
"a0.LO",
"a1.LO",
"a2.LO",
"a3.LO",
"t0.LO",
"t1.LO",
"t2.LO",
"t3.LO",
"t4.LO",
"t5.LO",
"t6.LO",
"t7.LO",
"s0.LO",
"s1.LO",
"s2.LO",
"s3.LO",
"s4.LO",
"s5.LO",
"s6.LO",
"s7.LO",
"t8.LO",
"t9.LO",
"k0.LO",
"k1.LO",
"gp.LO",
"sp.LO",
"fp.LO",
"ra.LO",
};
const char * CRegName::Cop0[32] = {
"Index",
"Random",
"EntryLo0",
"EntryLo1",
"Context",
"PageMask",
"Wired",
"Reg7",
"BadVAddr",
"Count",
"EntryHi",
"Compare",
"Status",
"Cause",
"EPC",
"PRId",
"Config",
"LLAddr",
"WatchLo",
"WatchHi",
"XContext",
"Reg21",
"Reg22",
"Reg23",
"Reg24",
"Reg25",
"ECC",
"CacheErr",
"TagLo",
"TagHi",
"ErrEPC",
"Reg31",
};
const char * CRegName::FPR[32] = {
"F0",
"F1",
"F2",
"F3",
"F4",
"F5",
"F6",
"F7",
"F8",
"F9",
"F10",
"F11",
"F12",
"F13",
"F14",
"F15",
"F16",
"F17",
"F18",
"F19",
"F20",
"F21",
"F22",
"F23",
"F24",
"F25",
"F26",
"F27",
"F28",
"F29",
"F30",
"F31",
};
const char * CRegName::FPR_Ctrl[32] = {
"Revision",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"Unknown",
"FCSR",
};
uint32_t * CSystemRegisters::_PROGRAM_COUNTER = nullptr;
MIPS_DWORD * CSystemRegisters::_GPR = nullptr;
MIPS_DWORD * CSystemRegisters::_FPR = nullptr;
uint64_t * CSystemRegisters::_CP0 = nullptr;
MIPS_DWORD * CSystemRegisters::_RegHI = nullptr;
MIPS_DWORD * CSystemRegisters::_RegLO = nullptr;
float ** CSystemRegisters::_FPR_S;
double ** CSystemRegisters::_FPR_D;
uint32_t * CSystemRegisters::_FPCR = nullptr;
uint32_t * CSystemRegisters::_LLBit = nullptr;
int32_t * CSystemRegisters::_RoundingModel = nullptr;
CP0registers::CP0registers(uint64_t * _CP0) :
INDEX_REGISTER(_CP0[0]),
RANDOM_REGISTER(_CP0[1]),
ENTRYLO0_REGISTER(_CP0[2]),
ENTRYLO1_REGISTER(_CP0[3]),
CONTEXT_REGISTER((COP0Context &)_CP0[4]),
PAGE_MASK_REGISTER(_CP0[5]),
WIRED_REGISTER(_CP0[6]),
BAD_VADDR_REGISTER(_CP0[8]),
COUNT_REGISTER(_CP0[9]),
ENTRYHI_REGISTER(_CP0[10]),
COMPARE_REGISTER(_CP0[11]),
STATUS_REGISTER(_CP0[12]),
CAUSE_REGISTER(_CP0[13]),
EPC_REGISTER(_CP0[14]),
PREVID_REGISTER(_CP0[15]),
CONFIG_REGISTER(_CP0[16]),
XCONTEXT_REGISTER((COP0XContext &)_CP0[20]),
TAGLO_REGISTER(_CP0[28]),
TAGHI_REGISTER(_CP0[29]),
ERROREPC_REGISTER(_CP0[30]),
FAKE_CAUSE_REGISTER(_CP0[32])
{
}
DisplayControlReg::DisplayControlReg(uint32_t * _DisplayProcessor) :
DPC_START_REG(_DisplayProcessor[0]),
DPC_END_REG(_DisplayProcessor[1]),
DPC_CURRENT_REG(_DisplayProcessor[2]),
DPC_STATUS_REG(_DisplayProcessor[3]),
DPC_CLOCK_REG(_DisplayProcessor[4]),
DPC_BUFBUSY_REG(_DisplayProcessor[5]),
DPC_PIPEBUSY_REG(_DisplayProcessor[6]),
DPC_TMEM_REG(_DisplayProcessor[7])
{
}
CRegisters::CRegisters(CN64System * System, CSystemEvents * SystemEvents) :
CP0registers(m_CP0),
RDRAMRegistersReg(m_RDRAM_Registers),
MIPSInterfaceReg(m_Mips_Interface),
VideoInterfaceReg(m_Video_Interface),
AudioInterfaceReg(m_Audio_Interface),
PeripheralInterfaceReg(m_Peripheral_Interface),
RDRAMInterfaceReg(m_RDRAM_Interface),
SPRegistersReg(m_SigProcessor_Interface),
DisplayControlReg(m_Display_ControlReg),
SerialInterfaceReg(m_SerialInterface),
DiskInterfaceReg(m_DiskInterface),
m_System(System),
m_SystemEvents(SystemEvents)
{
Reset();
}
void CRegisters::Reset()
{
m_FirstInterupt = true;
memset(m_GPR, 0, sizeof(m_GPR));
memset(m_CP0, 0, sizeof(m_CP0));
memset(m_FPR, 0, sizeof(m_FPR));
memset(m_FPCR, 0, sizeof(m_FPCR));
m_FPCR[0] = 0xA00;
m_CP0Latch = 0;
m_HI.DW = 0;
m_LO.DW = 0;
m_RoundingModel = FE_TONEAREST;
m_LLBit = 0;
// Reset system registers
memset(m_RDRAM_Interface, 0, sizeof(m_RDRAM_Interface));
memset(m_RDRAM_Registers, 0, sizeof(m_RDRAM_Registers));
memset(m_Mips_Interface, 0, sizeof(m_Mips_Interface));
memset(m_Video_Interface, 0, sizeof(m_Video_Interface));
memset(m_Display_ControlReg, 0, sizeof(m_Display_ControlReg));
memset(m_Audio_Interface, 0, sizeof(m_Audio_Interface));
memset(m_SigProcessor_Interface, 0, sizeof(m_SigProcessor_Interface));
memset(m_Peripheral_Interface, 0, sizeof(m_Peripheral_Interface));
memset(m_SerialInterface, 0, sizeof(m_SerialInterface));
memset(m_DiskInterface, 0, sizeof(m_DiskInterface));
m_AudioIntrReg = 0;
m_GfxIntrReg = 0;
m_RspIntrReg = 0;
FixFpuLocations();
}
void CRegisters::SetAsCurrentSystem()
{
_PROGRAM_COUNTER = &m_PROGRAM_COUNTER;
_GPR = m_GPR;
_FPR = m_FPR;
_CP0 = m_CP0;
_RegHI = &m_HI;
_RegLO = &m_LO;
_FPR_S = m_FPR_S;
_FPR_D = m_FPR_D;
_FPCR = m_FPCR;
_LLBit = &m_LLBit;
_RoundingModel = &m_RoundingModel;
}
uint64_t CRegisters::Cop0_MF(COP0Reg Reg)
{
if (LogCP0reads() && Reg <= COP0Reg_31)
{
LogMessage("%08X: R4300i read from %s (0x%08X)", (*_PROGRAM_COUNTER), CRegName::Cop0[Reg], m_CP0[Reg]);
}
if (Reg == COP0Reg_Count || Reg == COP0Reg_Wired || Reg == COP0Reg_Random)
{
g_SystemTimer->UpdateTimers();
}
else if (Reg == COP0Reg_7 || Reg == COP0Reg_21 || Reg == COP0Reg_22 || Reg == COP0Reg_23 || Reg == COP0Reg_24 || Reg == COP0Reg_25 || Reg == COP0Reg_31)
{
// Unused registers
return m_CP0Latch;
}
return Reg <= COP0Reg_31 ? m_CP0[Reg] : 0;
}
void CRegisters::Cop0_MT(COP0Reg Reg, uint64_t Value)
{
if (LogCP0changes() && Reg <= COP0Reg_31)
{
LogMessage("%08X: Writing 0x%I64U to %s register (originally: 0x%I64U)", (*_PROGRAM_COUNTER), Value, CRegName::Cop0[Reg], m_CP0[Reg]);
if (Reg == 11) // Compare
{
LogMessage("%08X: Cause register changed from %08X to %08X", (*_PROGRAM_COUNTER), CAUSE_REGISTER, (g_Reg->CAUSE_REGISTER & ~CAUSE_IP7));
}
}
m_CP0Latch = Value;
switch (Reg)
{
case COP0Reg_EPC:
case COP0Reg_WatchLo:
case COP0Reg_WatchHi:
case COP0Reg_TagLo:
case COP0Reg_TagHi:
case COP0Reg_ErrEPC:
case COP0Reg_31:
m_CP0[Reg] = Value;
break;
case COP0Reg_Index:
m_CP0[Reg] = Value & 0x8000003F;
break;
case COP0Reg_Random:
// Ignore - Read only
break;
case COP0Reg_EntryLo0:
case COP0Reg_EntryLo1:
m_CP0[Reg] = Value & 0x3FFFFFFF;
break;
case COP0Reg_Context:
m_CP0[Reg] = (Value & 0xFFFFFFFFFF800000) | (m_CP0[Reg] & 0x7FFFF0);
break;
case COP0Reg_PageMask:
m_CP0[Reg] = Value & 0x1FFE000;
break;
case COP0Reg_Wired:
g_SystemTimer->UpdateTimers();
m_CP0[Reg] = Value & 0x3F;
break;
case COP0Reg_7:
case COP0Reg_BadVAddr:
// Ignore - Read only
break;
case COP0Reg_Count:
g_SystemTimer->UpdateTimers();
m_CP0[Reg] = Value;
g_SystemTimer->UpdateCompareTimer();
break;
case COP0Reg_EntryHi:
m_CP0[Reg] = Value & 0xC00000FFFFFFE0FF;
break;
case COP0Reg_Compare:
g_SystemTimer->UpdateTimers();
m_CP0[Reg] = Value;
FAKE_CAUSE_REGISTER &= ~CAUSE_IP7;
g_SystemTimer->UpdateCompareTimer();
break;
case COP0Reg_Status:
{
bool FRBitChanged = (m_CP0[Reg] & STATUS_FR) != (Value & STATUS_FR);
m_CP0[Reg] = Value & 0xFFF7FFFF;
if (FRBitChanged)
{
FixFpuLocations();
}
CheckInterrupts();
break;
}
case COP0Reg_Cause:
m_CP0[Reg] &= 0xFFFFCFF;
if ((Value & 0x300) != 0 && HaveDebugger())
{
g_Notify->DisplayError("Set IP0 or IP1");
}
break;
case COP0Reg_PRId:
// Read only
break;
case COP0Reg_Config:
m_CP0[Reg] = (Value & 0x0F00800F) | (m_CP0[Reg] & 0xF0FF7FF0);
break;
case COP0Reg_LLAddr:
m_CP0[Reg] = (Value & 0xFFFFFFFF) | (m_CP0[Reg] & 0xFFFFFFFF00000000);
break;
case COP0Reg_XContext:
m_CP0[Reg] = (Value & 0xFFFFFFFE00000000) | (m_CP0[Reg] & 0x00000001FFFFFFFF);
break;
case COP0Reg_21:
case COP0Reg_22:
case COP0Reg_23:
case COP0Reg_24:
case COP0Reg_25:
// Unused
break;
case COP0Reg_ParityError:
m_CP0[Reg] = Value & 0xFF;
break;
case COP0Reg_CacheErr:
break;
default:
if (HaveDebugger())
{
g_Notify->BreakPoint(__FILE__, __LINE__);
}
}
}
void CRegisters::Cop1_CT(uint32_t Reg, uint32_t Value)
{
if (Reg == 31)
{
FPStatusReg & StatusReg = (FPStatusReg &)_FPCR[31];
StatusReg.Value = (Value & 0x183FFFF);
switch (StatusReg.RoundingMode)
{
case 0: *_RoundingModel = FE_TONEAREST; break;
case 1: *_RoundingModel = FE_TOWARDZERO; break;
case 2: *_RoundingModel = FE_UPWARD; break;
case 3: *_RoundingModel = FE_DOWNWARD; break;
}
if (((StatusReg.Cause.Inexact & StatusReg.Enable.Inexact) != 0) ||
((StatusReg.Cause.Underflow & StatusReg.Enable.Underflow) != 0) ||
((StatusReg.Cause.Overflow & StatusReg.Enable.Overflow) != 0) ||
((StatusReg.Cause.DivisionByZero & StatusReg.Enable.DivisionByZero) != 0) ||
((StatusReg.Cause.InvalidOperation & StatusReg.Enable.InvalidOperation) != 0) ||
(StatusReg.Cause.UnimplementedOperation != 0))
{
DoFloatingPointException(m_System->m_PipelineStage == PIPELINE_STAGE_JUMP);
m_System->m_PipelineStage = PIPELINE_STAGE_JUMP;
m_System->m_JumpToLocation = (*_PROGRAM_COUNTER);
}
}
}
void CRegisters::CheckInterrupts()
{
uint32_t mi_intr_reg = MI_INTR_REG, status_register;
if (!m_System->bFixedAudio() && CpuType() != CPU_SyncCores)
{
mi_intr_reg &= ~MI_INTR_AI;
mi_intr_reg |= (m_AudioIntrReg & MI_INTR_AI);
}
mi_intr_reg |= (m_RspIntrReg & MI_INTR_SP);
mi_intr_reg |= (m_GfxIntrReg & MI_INTR_DP);
if ((MI_INTR_MASK_REG & mi_intr_reg) != 0)
{
FAKE_CAUSE_REGISTER |= CAUSE_IP2;
}
else
{
FAKE_CAUSE_REGISTER &= ~CAUSE_IP2;
}
MI_INTR_REG = mi_intr_reg;
status_register = (uint32_t)STATUS_REGISTER;
if ((status_register & STATUS_IE) == 0)
{
return;
}
if ((status_register & STATUS_EXL) != 0)
{
return;
}
if ((status_register & STATUS_ERL) != 0)
{
return;
}
if ((status_register & FAKE_CAUSE_REGISTER & 0xFF00) != 0)
{
if (m_FirstInterupt)
{
m_FirstInterupt = false;
if (g_Recompiler)
{
g_Recompiler->ClearRecompCode_Virt(0x80000000, 0x200, CRecompiler::Remove_InitialCode);
}
}
m_SystemEvents->QueueEvent(SysEvent_ExecuteInterrupt);
}
}
void CRegisters::DoAddressError(bool DelaySlot, uint64_t BadVaddr, bool FromRead)
{
if (BreakOnAddressError())
{
g_Notify->BreakPoint(__FILE__, __LINE__);
}
if (FromRead)
{
CAUSE_REGISTER = EXC_RADE;
}
else
{
CAUSE_REGISTER = EXC_WADE;
}
BAD_VADDR_REGISTER = BadVaddr;
CONTEXT_REGISTER.BadVPN2 = BadVaddr >> 13;
XCONTEXT_REGISTER.BadVPN2 = BadVaddr >> 13;
XCONTEXT_REGISTER.R = BadVaddr >> 61;
if (DelaySlot)
{
CAUSE_REGISTER |= CAUSE_BD;
EPC_REGISTER = (int32_t)(m_PROGRAM_COUNTER - 4);
}
else
{
EPC_REGISTER = (int32_t)m_PROGRAM_COUNTER;
}
STATUS_REGISTER |= STATUS_EXL;
m_PROGRAM_COUNTER = 0x80000180;
}
void CRegisters::FixFpuLocations()
{
if ((STATUS_REGISTER & STATUS_FR) == 0)
{
for (int count = 0; count < 32; count++)
{
m_FPR_S[count] = &m_FPR[count & ~1].F[count & 1];
m_FPR_D[count] = &m_FPR[count & ~1].D;
}
}
else
{
for (int count = 0; count < 32; count++)
{
m_FPR_S[count] = &m_FPR[count].F[0];
m_FPR_D[count] = &m_FPR[count].D;
}
}
}
void CRegisters::DoBreakException(bool DelaySlot)
{
if (HaveDebugger())
{
if ((STATUS_REGISTER & STATUS_EXL) != 0)
{
g_Notify->DisplayError("EXL set in break exception");
}
if ((STATUS_REGISTER & STATUS_ERL) != 0)
{
g_Notify->DisplayError("ERL set in break exception");
}
}
CAUSE_REGISTER = EXC_BREAK;
if (DelaySlot)
{
CAUSE_REGISTER |= CAUSE_BD;
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER - 4);
}
else
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER);
}
STATUS_REGISTER |= STATUS_EXL;
m_PROGRAM_COUNTER = 0x80000180;
}
void CRegisters::DoFloatingPointException(bool DelaySlot)
{
CAUSE_REGISTER = EXC_FPE;
if (DelaySlot)
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER - 4);
CAUSE_REGISTER |= CAUSE_BD;
}
else
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER);
}
STATUS_REGISTER |= STATUS_EXL;
m_PROGRAM_COUNTER = 0x80000180;
}
void CRegisters::DoTrapException(bool DelaySlot)
{
CAUSE_REGISTER = EXC_TRAP;
if (DelaySlot)
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER - 4);
CAUSE_REGISTER |= CAUSE_BD;
}
else
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER);
}
m_PROGRAM_COUNTER = 0x80000180;
}
void CRegisters::DoCopUnusableException(bool DelaySlot, int32_t Coprocessor)
{
if (HaveDebugger())
{
if ((STATUS_REGISTER & STATUS_EXL) != 0)
{
g_Notify->DisplayError("EXL set in break exception");
}
if ((STATUS_REGISTER & STATUS_ERL) != 0)
{
g_Notify->DisplayError("ERL set in break exception");
}
}
CAUSE_REGISTER = EXC_CPU;
if (Coprocessor == 1)
{
CAUSE_REGISTER |= 0x10000000;
}
else if (Coprocessor == 2)
{
CAUSE_REGISTER |= 0x20000000;
}
else if (Coprocessor == 3)
{
CAUSE_REGISTER |= 0x30000000;
}
if (DelaySlot)
{
CAUSE_REGISTER |= CAUSE_BD;
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER - 4);
}
else
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER);
}
STATUS_REGISTER |= STATUS_EXL;
m_PROGRAM_COUNTER = 0x80000180;
}
bool CRegisters::DoIntrException(bool DelaySlot)
{
if ((STATUS_REGISTER & STATUS_IE) == 0)
{
return false;
}
if ((STATUS_REGISTER & STATUS_EXL) != 0)
{
return false;
}
if ((STATUS_REGISTER & STATUS_ERL) != 0)
{
return false;
}
if (GenerateLog() && LogExceptions() && !LogNoInterrupts())
{
LogMessage("%08X: Interrupt generated", m_PROGRAM_COUNTER);
}
CAUSE_REGISTER = FAKE_CAUSE_REGISTER;
CAUSE_REGISTER |= EXC_INT;
if (DelaySlot)
{
CAUSE_REGISTER |= CAUSE_BD;
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER - 4);
}
else
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER);
}
STATUS_REGISTER |= STATUS_EXL;
m_PROGRAM_COUNTER = 0x80000180;
return true;
}
void CRegisters::DoIllegalInstructionException(bool DelaySlot)
{
CAUSE_REGISTER = EXC_II;
if (DelaySlot)
{
CAUSE_REGISTER |= CAUSE_BD;
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER - 4);
}
else
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER);
}
m_PROGRAM_COUNTER = 0x80000180;
STATUS_REGISTER |= STATUS_EXL;
}
void CRegisters::DoOverflowException(bool DelaySlot)
{
CAUSE_REGISTER = EXC_OV;
if (DelaySlot)
{
CAUSE_REGISTER |= CAUSE_BD;
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER - 4);
}
else
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER);
}
m_PROGRAM_COUNTER = 0x80000180;
STATUS_REGISTER |= STATUS_EXL;
}
void CRegisters::DoTLBReadMiss(bool DelaySlot, uint64_t BadVaddr)
{
CAUSE_REGISTER = EXC_RMISS;
BAD_VADDR_REGISTER = BadVaddr;
CONTEXT_REGISTER.BadVPN2 = BadVaddr >> 13;
ENTRYHI_REGISTER = (BadVaddr & 0xFFFFE000);
if ((STATUS_REGISTER & STATUS_EXL) == 0)
{
if (DelaySlot)
{
CAUSE_REGISTER |= CAUSE_BD;
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER - 4);
}
else
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER);
}
if (g_TLB->AddressDefined((uint32_t)BadVaddr))
{
m_PROGRAM_COUNTER = 0x80000180;
}
else
{
m_PROGRAM_COUNTER = 0x80000000;
}
STATUS_REGISTER |= STATUS_EXL;
}
else
{
if (HaveDebugger())
{
g_Notify->DisplayError(stdstr_f("TLBMiss - EXL set\nBadVaddr = %X\nAddress defined: %s", (uint32_t)BadVaddr, g_TLB->AddressDefined((uint32_t)BadVaddr) ? "true" : "false").c_str());
}
m_PROGRAM_COUNTER = 0x80000180;
}
}
void CRegisters::DoTLBWriteMiss(bool DelaySlot, uint64_t BadVaddr)
{
CAUSE_REGISTER = EXC_WMISS;
BAD_VADDR_REGISTER = BadVaddr;
CONTEXT_REGISTER.BadVPN2 = BadVaddr >> 13;
ENTRYHI_REGISTER = (BadVaddr & 0xFFFFE000);
if ((STATUS_REGISTER & STATUS_EXL) == 0)
{
if (DelaySlot)
{
CAUSE_REGISTER |= CAUSE_BD;
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER - 4);
}
else
{
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER);
}
if (g_TLB->AddressDefined((uint32_t)BadVaddr))
{
m_PROGRAM_COUNTER = 0x80000180;
}
else
{
m_PROGRAM_COUNTER = 0x80000000;
}
STATUS_REGISTER |= STATUS_EXL;
}
else
{
if (HaveDebugger())
{
g_Notify->DisplayError(stdstr_f("TLBMiss - EXL set\nBadVaddr = %X\nAddress defined: %s", (uint32_t)BadVaddr, g_TLB->AddressDefined((uint32_t)BadVaddr) ? "true" : "false").c_str());
}
m_PROGRAM_COUNTER = 0x80000180;
}
}
void CRegisters::DoSysCallException(bool DelaySlot)
{
if (HaveDebugger())
{
if ((STATUS_REGISTER & STATUS_EXL) != 0)
{
g_Notify->DisplayError("EXL set in syscall exception");
}
if ((STATUS_REGISTER & STATUS_ERL) != 0)
{
g_Notify->DisplayError("ERL set in syscall exception");
}
}
CAUSE_REGISTER = EXC_SYSCALL;
if (DelaySlot)
{
CAUSE_REGISTER |= CAUSE_BD;
EPC_REGISTER = (int64_t)((int32_t)m_PROGRAM_COUNTER - 4);
}
else
{
EPC_REGISTER = (int64_t)(int32_t)m_PROGRAM_COUNTER;
}
STATUS_REGISTER |= STATUS_EXL;
m_PROGRAM_COUNTER = 0x80000180;
}