Merge pull request #6531 from lioncash/mmu-enum

MMU: Make TLBLookupResult and XCheckTLBFlag enum classes
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Léo Lam 2018-03-26 11:39:37 +02:00 committed by GitHub
commit ea5808759e
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@ -76,23 +76,23 @@ inline u64 bswap(u64 val)
}
// =================
enum XCheckTLBFlag
enum class XCheckTLBFlag
{
FLAG_NO_EXCEPTION,
FLAG_READ,
FLAG_WRITE,
FLAG_OPCODE,
FLAG_OPCODE_NO_EXCEPTION
NoException,
Read,
Write,
Opcode,
OpcodeNoException
};
static bool IsOpcodeFlag(XCheckTLBFlag flag)
{
return flag == FLAG_OPCODE || flag == FLAG_OPCODE_NO_EXCEPTION;
return flag == XCheckTLBFlag::Opcode || flag == XCheckTLBFlag::OpcodeNoException;
}
static bool IsNoExceptionFlag(XCheckTLBFlag flag)
{
return flag == FLAG_NO_EXCEPTION || flag == FLAG_OPCODE_NO_EXCEPTION;
return flag == XCheckTLBFlag::NoException || flag == XCheckTLBFlag::OpcodeNoException;
}
struct TranslateAddressResult
@ -173,7 +173,7 @@ static T ReadFromHardware(u32 em_address)
auto translated_addr = TranslateAddress<flag>(em_address);
if (!translated_addr.Success())
{
if (flag == FLAG_READ)
if (flag == XCheckTLBFlag::Read)
GenerateDSIException(em_address, false);
return 0;
}
@ -187,7 +187,7 @@ static T ReadFromHardware(u32 em_address)
auto addr_next_page = TranslateAddress<flag>(em_address_next_page);
if (!addr_next_page.Success())
{
if (flag == FLAG_READ)
if (flag == XCheckTLBFlag::Read)
GenerateDSIException(em_address_next_page, false);
return 0;
}
@ -241,7 +241,7 @@ static T ReadFromHardware(u32 em_address)
return bswap(value);
}
if (flag == FLAG_READ && (em_address & 0xF8000000) == 0x08000000)
if (flag == XCheckTLBFlag::Read && (em_address & 0xF8000000) == 0x08000000)
{
if (em_address < 0x0c000000)
return EFB_Read(em_address);
@ -261,7 +261,7 @@ static void WriteToHardware(u32 em_address, const T data)
auto translated_addr = TranslateAddress<flag>(em_address);
if (!translated_addr.Success())
{
if (flag == FLAG_WRITE)
if (flag == XCheckTLBFlag::Write)
GenerateDSIException(em_address, true);
return;
}
@ -276,7 +276,7 @@ static void WriteToHardware(u32 em_address, const T data)
auto addr_next_page = TranslateAddress<flag>(em_address_next_page);
if (!addr_next_page.Success())
{
if (flag == FLAG_WRITE)
if (flag == XCheckTLBFlag::Write)
GenerateDSIException(em_address_next_page, true);
return;
}
@ -334,7 +334,7 @@ static void WriteToHardware(u32 em_address, const T data)
// Check for a gather pipe write.
// Note that we must mask the address to correctly emulate certain games;
// Pac-Man World 3 in particular is affected by this.
if (flag == FLAG_WRITE && (em_address & 0xFFFFF000) == 0x0C008000)
if (flag == XCheckTLBFlag::Write && (em_address & 0xFFFFF000) == 0x0C008000)
{
switch (sizeof(T))
{
@ -353,7 +353,7 @@ static void WriteToHardware(u32 em_address, const T data)
}
}
if (flag == FLAG_WRITE && (em_address & 0xF8000000) == 0x08000000)
if (flag == XCheckTLBFlag::Write && (em_address & 0xF8000000) == 0x08000000)
{
if (em_address < 0x0c000000)
{
@ -395,7 +395,7 @@ TryReadInstResult TryReadInstruction(u32 address)
bool from_bat = true;
if (UReg_MSR(MSR).IR)
{
auto tlb_addr = TranslateAddress<FLAG_OPCODE>(address);
auto tlb_addr = TranslateAddress<XCheckTLBFlag::Opcode>(address);
if (!tlb_addr.Success())
{
return TryReadInstResult{false, false, 0, 0};
@ -458,28 +458,28 @@ static void Memcheck(u32 address, u32 var, bool write, size_t size)
u8 Read_U8(const u32 address)
{
u8 var = ReadFromHardware<FLAG_READ, u8>(address);
u8 var = ReadFromHardware<XCheckTLBFlag::Read, u8>(address);
Memcheck(address, var, false, 1);
return var;
}
u16 Read_U16(const u32 address)
{
u16 var = ReadFromHardware<FLAG_READ, u16>(address);
u16 var = ReadFromHardware<XCheckTLBFlag::Read, u16>(address);
Memcheck(address, var, false, 2);
return var;
}
u32 Read_U32(const u32 address)
{
u32 var = ReadFromHardware<FLAG_READ, u32>(address);
u32 var = ReadFromHardware<XCheckTLBFlag::Read, u32>(address);
Memcheck(address, var, false, 4);
return var;
}
u64 Read_U64(const u32 address)
{
u64 var = ReadFromHardware<FLAG_READ, u64>(address);
u64 var = ReadFromHardware<XCheckTLBFlag::Read, u64>(address);
Memcheck(address, (u32)var, false, 8);
return var;
}
@ -517,13 +517,13 @@ u32 Read_U16_ZX(const u32 address)
void Write_U8(const u8 var, const u32 address)
{
Memcheck(address, var, true, 1);
WriteToHardware<FLAG_WRITE, u8>(address, var);
WriteToHardware<XCheckTLBFlag::Write, u8>(address, var);
}
void Write_U16(const u16 var, const u32 address)
{
Memcheck(address, var, true, 2);
WriteToHardware<FLAG_WRITE, u16>(address, var);
WriteToHardware<XCheckTLBFlag::Write, u16>(address, var);
}
void Write_U16_Swap(const u16 var, const u32 address)
{
@ -534,7 +534,7 @@ void Write_U16_Swap(const u16 var, const u32 address)
void Write_U32(const u32 var, const u32 address)
{
Memcheck(address, var, true, 4);
WriteToHardware<FLAG_WRITE, u32>(address, var);
WriteToHardware<XCheckTLBFlag::Write, u32>(address, var);
}
void Write_U32_Swap(const u32 var, const u32 address)
{
@ -545,7 +545,7 @@ void Write_U32_Swap(const u32 var, const u32 address)
void Write_U64(const u64 var, const u32 address)
{
Memcheck(address, (u32)var, true, 8);
WriteToHardware<FLAG_WRITE, u64>(address, var);
WriteToHardware<XCheckTLBFlag::Write, u64>(address, var);
}
void Write_U64_Swap(const u64 var, const u32 address)
{
@ -563,42 +563,42 @@ void Write_F64(const double var, const u32 address)
u8 HostRead_U8(const u32 address)
{
return ReadFromHardware<FLAG_NO_EXCEPTION, u8>(address);
return ReadFromHardware<XCheckTLBFlag::NoException, u8>(address);
}
u16 HostRead_U16(const u32 address)
{
return ReadFromHardware<FLAG_NO_EXCEPTION, u16>(address);
return ReadFromHardware<XCheckTLBFlag::NoException, u16>(address);
}
u32 HostRead_U32(const u32 address)
{
return ReadFromHardware<FLAG_NO_EXCEPTION, u32>(address);
return ReadFromHardware<XCheckTLBFlag::NoException, u32>(address);
}
u64 HostRead_U64(const u32 address)
{
return ReadFromHardware<FLAG_NO_EXCEPTION, u64>(address);
return ReadFromHardware<XCheckTLBFlag::NoException, u64>(address);
}
void HostWrite_U8(const u8 var, const u32 address)
{
WriteToHardware<FLAG_NO_EXCEPTION, u8>(address, var);
WriteToHardware<XCheckTLBFlag::NoException, u8>(address, var);
}
void HostWrite_U16(const u16 var, const u32 address)
{
WriteToHardware<FLAG_NO_EXCEPTION, u16>(address, var);
WriteToHardware<XCheckTLBFlag::NoException, u16>(address, var);
}
void HostWrite_U32(const u32 var, const u32 address)
{
WriteToHardware<FLAG_NO_EXCEPTION, u32>(address, var);
WriteToHardware<XCheckTLBFlag::NoException, u32>(address, var);
}
void HostWrite_U64(const u64 var, const u32 address)
{
WriteToHardware<FLAG_NO_EXCEPTION, u64>(address, var);
WriteToHardware<XCheckTLBFlag::NoException, u64>(address, var);
}
std::string HostGetString(u32 address, size_t size)
@ -658,13 +658,14 @@ static bool IsRAMAddress(u32 address, bool translate)
bool HostIsRAMAddress(u32 address)
{
return IsRAMAddress<FLAG_NO_EXCEPTION>(address, UReg_MSR(MSR).DR);
return IsRAMAddress<XCheckTLBFlag::NoException>(address, UReg_MSR(MSR).DR);
}
bool HostIsInstructionRAMAddress(u32 address)
{
// Instructions are always 32bit aligned.
return !(address & 3) && IsRAMAddress<FLAG_OPCODE_NO_EXCEPTION>(address, UReg_MSR(MSR).IR);
return !(address & 3) &&
IsRAMAddress<XCheckTLBFlag::OpcodeNoException>(address, UReg_MSR(MSR).IR);
}
void DMA_LCToMemory(const u32 memAddr, const u32 cacheAddr, const u32 numBlocks)
@ -744,7 +745,7 @@ void ClearCacheLine(u32 address)
DEBUG_ASSERT((address & 0x1F) == 0);
if (UReg_MSR(MSR).DR)
{
auto translated_address = TranslateAddress<FLAG_WRITE>(address);
auto translated_address = TranslateAddress<XCheckTLBFlag::Write>(address);
if (translated_address.result == TranslateAddressResult::DIRECT_STORE_SEGMENT)
{
// dcbz to direct store segments is ignored. This is a little
@ -764,7 +765,7 @@ void ClearCacheLine(u32 address)
// TODO: This isn't precisely correct for non-RAM regions, but the difference
// is unlikely to matter.
for (u32 i = 0; i < 32; i += 8)
WriteToHardware<FLAG_WRITE, u64, true>(address + i, 0);
WriteToHardware<XCheckTLBFlag::Write, u64, true>(address + i, 0);
}
u32 IsOptimizableMMIOAccess(u32 address, u32 accessSize)
@ -813,7 +814,7 @@ TranslateResult JitCache_TranslateAddress(u32 address)
return TranslateResult{true, true, address};
// TODO: We shouldn't use FLAG_OPCODE if the caller is the debugger.
auto tlb_addr = TranslateAddress<FLAG_OPCODE>(address);
auto tlb_addr = TranslateAddress<XCheckTLBFlag::Opcode>(address);
if (!tlb_addr.Success())
{
return TranslateResult{false, false, 0};
@ -960,11 +961,11 @@ void SDRUpdated()
PowerPC::ppcState.pagetable_hashmask = ((htabmask << 10) | 0x3ff);
}
enum TLBLookupResult
enum class TLBLookupResult
{
TLB_FOUND,
TLB_NOTFOUND,
TLB_UPDATE_C
Found,
NotFound,
UpdateC
};
static TLBLookupResult LookupTLBPageAddress(const XCheckTLBFlag flag, const u32 vpa, u32* paddr)
@ -975,7 +976,7 @@ static TLBLookupResult LookupTLBPageAddress(const XCheckTLBFlag flag, const u32
if (tlbe.tag[0] == tag)
{
// Check if C bit requires updating
if (flag == FLAG_WRITE)
if (flag == XCheckTLBFlag::Write)
{
UPTE2 PTE2;
PTE2.Hex = tlbe.pte[0];
@ -983,7 +984,7 @@ static TLBLookupResult LookupTLBPageAddress(const XCheckTLBFlag flag, const u32
{
PTE2.C = 1;
tlbe.pte[0] = PTE2.Hex;
return TLB_UPDATE_C;
return TLBLookupResult::UpdateC;
}
}
@ -992,12 +993,12 @@ static TLBLookupResult LookupTLBPageAddress(const XCheckTLBFlag flag, const u32
*paddr = tlbe.paddr[0] | (vpa & 0xfff);
return TLB_FOUND;
return TLBLookupResult::Found;
}
if (tlbe.tag[1] == tag)
{
// Check if C bit requires updating
if (flag == FLAG_WRITE)
if (flag == XCheckTLBFlag::Write)
{
UPTE2 PTE2;
PTE2.Hex = tlbe.pte[1];
@ -1005,7 +1006,7 @@ static TLBLookupResult LookupTLBPageAddress(const XCheckTLBFlag flag, const u32
{
PTE2.C = 1;
tlbe.pte[1] = PTE2.Hex;
return TLB_UPDATE_C;
return TLBLookupResult::UpdateC;
}
}
@ -1014,9 +1015,9 @@ static TLBLookupResult LookupTLBPageAddress(const XCheckTLBFlag flag, const u32
*paddr = tlbe.paddr[1] | (vpa & 0xfff);
return TLB_FOUND;
return TLBLookupResult::Found;
}
return TLB_NOTFOUND;
return TLBLookupResult::NotFound;
}
static void UpdateTLBEntry(const XCheckTLBFlag flag, UPTE2 PTE2, const u32 address)
@ -1055,7 +1056,7 @@ static TranslateAddressResult TranslatePageAddress(const u32 address, const XChe
// much from optimization.
u32 translatedAddress = 0;
TLBLookupResult res = LookupTLBPageAddress(flag, address, &translatedAddress);
if (res == TLB_FOUND)
if (res == TLBLookupResult::Found)
return TranslateAddressResult{TranslateAddressResult::PAGE_TABLE_TRANSLATED, translatedAddress};
u32 sr = PowerPC::ppcState.sr[EA_SR(address)];
@ -1066,8 +1067,11 @@ static TranslateAddressResult TranslatePageAddress(const u32 address, const XChe
// TODO: Handle KS/KP segment register flags.
// No-execute segment register flag.
if ((flag == FLAG_OPCODE || flag == FLAG_OPCODE_NO_EXCEPTION) && (sr & 0x10000000))
if ((flag == XCheckTLBFlag::Opcode || flag == XCheckTLBFlag::OpcodeNoException) &&
(sr & 0x10000000))
{
return TranslateAddressResult{TranslateAddressResult::PAGE_FAULT, 0};
}
u32 offset = EA_Offset(address); // 12 bit
u32 page_index = EA_PageIndex(address); // 16 bit
@ -1103,17 +1107,17 @@ static TranslateAddressResult TranslatePageAddress(const u32 address, const XChe
// set the access bits
switch (flag)
{
case FLAG_NO_EXCEPTION:
case FLAG_OPCODE_NO_EXCEPTION:
case XCheckTLBFlag::NoException:
case XCheckTLBFlag::OpcodeNoException:
break;
case FLAG_READ:
case XCheckTLBFlag::Read:
PTE2.R = 1;
break;
case FLAG_WRITE:
case XCheckTLBFlag::Write:
PTE2.R = 1;
PTE2.C = 1;
break;
case FLAG_OPCODE:
case XCheckTLBFlag::Opcode:
PTE2.R = 1;
break;
}
@ -1125,7 +1129,7 @@ static TranslateAddressResult TranslatePageAddress(const u32 address, const XChe
}
// We already updated the TLB entry if this was caused by a C bit.
if (res != TLB_UPDATE_C)
if (res != TLBLookupResult::UpdateC)
UpdateTLBEntry(flag, PTE2, address);
return TranslateAddressResult{TranslateAddressResult::PAGE_TABLE_TRANSLATED,