Clean up memory access handlers, reduce template specializations

src/pse/bus.cpp

@@ -47,53 +47,65 @@ bool Bus::Initialize(CPU::Core* cpu, DMA* dma, InterruptController* interrupt_co
 void Bus::Reset()
 {
   m_ram.fill(static_cast<u8>(0));
+  m_MEMCTRL.exp1_base = 0x1F000000;
+  m_MEMCTRL.exp2_base = 0x1F802000;
+  m_MEMCTRL.exp1_delay_size = 0x0013243F;
+  m_MEMCTRL.exp3_delay_size = 0x00003022;
+  m_MEMCTRL.bios_delay_size = 0x0013243F;
+  m_MEMCTRL.spu_delay_size = 0x200931E1;
+  m_MEMCTRL.cdrom_delay_size = 0x00020843;
+  m_MEMCTRL.exp2_delay_size = 0x00070777;
+  m_MEMCTRL.common_delay_size = 0x00031125;
+  m_ram_size_reg = UINT32_C(0x00000B88);
 }
 
 bool Bus::DoState(StateWrapper& sw)
 {
   sw.DoBytes(m_ram.data(), m_ram.size());
   sw.DoBytes(m_bios.data(), m_bios.size());
+  sw.DoArray(m_MEMCTRL.regs, countof(m_MEMCTRL.regs));
+  sw.Do(&m_ram_size_reg);
   sw.Do(&m_tty_line_buffer);
   return !sw.HasError();
 }
 
-bool Bus::ReadByte(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u8* value)
+bool Bus::ReadByte(PhysicalMemoryAddress address, u8* value)
 {
   u32 temp = 0;
-  const bool result = DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Byte>(cpu_address, bus_address, temp);
+  const bool result = DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Byte>(address, temp);
   *value = Truncate8(temp);
   return result;
 }
 
-bool Bus::ReadHalfWord(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u16* value)
+bool Bus::ReadHalfWord(PhysicalMemoryAddress address, u16* value)
 {
   u32 temp = 0;
   const bool result =
-    DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::HalfWord>(cpu_address, bus_address, temp);
+    DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::HalfWord>(address, temp);
   *value = Truncate16(temp);
   return result;
 }
 
-bool Bus::ReadWord(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u32* value)
+bool Bus::ReadWord(PhysicalMemoryAddress address, u32* value)
 {
-  return DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(cpu_address, bus_address, *value);
+  return DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(address, *value);
 }
 
-bool Bus::WriteByte(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u8 value)
+bool Bus::WriteByte(PhysicalMemoryAddress address, u8 value)
 {
   u32 temp = ZeroExtend32(value);
-  return DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Byte>(cpu_address, bus_address, temp);
+  return DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Byte>(address, temp);
 }
 
-bool Bus::WriteHalfWord(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u16 value)
+bool Bus::WriteHalfWord(PhysicalMemoryAddress address, u16 value)
 {
   u32 temp = ZeroExtend32(value);
-  return DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::HalfWord>(cpu_address, bus_address, temp);
+  return DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::HalfWord>(address, temp);
 }
 
-bool Bus::WriteWord(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u32 value)
+bool Bus::WriteWord(PhysicalMemoryAddress address, u32 value)
 {
-  return DispatchAccess<MemoryAccessType::Write, MemoryAccessSize::Word>(cpu_address, bus_address, value);
+  return DispatchAccess<MemoryAccessType::Write, MemoryAccessSize::Word>(address, value);
 }
 
 void Bus::PatchBIOS(u32 address, u32 value, u32 mask /*= UINT32_C(0xFFFFFFFF)*/)
@@ -154,8 +166,7 @@ bool Bus::LoadBIOS()
   return true;
 }
 
-bool Bus::DoInvalidAccess(MemoryAccessType type, MemoryAccessSize size, PhysicalMemoryAddress cpu_address,
-                          PhysicalMemoryAddress bus_address, u32& value)
+bool Bus::DoInvalidAccess(MemoryAccessType type, MemoryAccessSize size, PhysicalMemoryAddress address, u32& value)
 {
   SmallString str;
   str.AppendString("Invalid bus ");
@@ -171,7 +182,7 @@ bool Bus::DoInvalidAccess(MemoryAccessType type, MemoryAccessSize size, Physical
   else
     str.AppendString("write");
 
-  str.AppendFormattedString(" at address 0x%08X (virtual address 0x%08X)", bus_address, cpu_address);
+  str.AppendFormattedString(" at address 0x%08X", address);
   if (type == MemoryAccessType::Write)
     str.AppendFormattedString(" (value 0x%08X)", value);
 
@@ -185,7 +196,7 @@ bool Bus::DoInvalidAccess(MemoryAccessType type, MemoryAccessSize size, Physical
 bool Bus::DoReadEXP1(MemoryAccessSize size, u32 offset, u32& value)
 {
   if (m_exp1_rom.empty())
-    return DoInvalidAccess(MemoryAccessType::Read, size, EXP1_BASE | offset, EXP1_BASE | offset, value);
+    return DoInvalidAccess(MemoryAccessType::Read, size, EXP1_BASE | offset, value);
 
   if (offset == 0x20018)
   {
@@ -221,7 +232,7 @@ bool Bus::DoReadEXP1(MemoryAccessSize size, u32 offset, u32& value)
 
 bool Bus::DoWriteEXP1(MemoryAccessSize size, u32 offset, u32 value)
 {
-  return DoInvalidAccess(MemoryAccessType::Write, size, EXP1_BASE | offset, EXP1_BASE | offset, value);
+  return DoInvalidAccess(MemoryAccessType::Write, size, EXP1_BASE | offset, value);
 }
 
 bool Bus::DoReadEXP2(MemoryAccessSize size, u32 offset, u32& value)
@@ -235,7 +246,7 @@ bool Bus::DoReadEXP2(MemoryAccessSize size, u32 offset, u32& value)
     return true;
   }
 
-  return DoInvalidAccess(MemoryAccessType::Read, size, EXP2_BASE | offset, EXP2_BASE | offset, value);
+  return DoInvalidAccess(MemoryAccessType::Read, size, EXP2_BASE | offset, value);
 }
 
 bool Bus::DoWriteEXP2(MemoryAccessSize size, u32 offset, u32 value)
@@ -267,7 +278,43 @@ bool Bus::DoWriteEXP2(MemoryAccessSize size, u32 offset, u32 value)
     return true;
   }
 
-  return DoInvalidAccess(MemoryAccessType::Write, size, EXP2_BASE | offset, EXP2_BASE | offset, value);
+  return DoInvalidAccess(MemoryAccessType::Write, size, EXP2_BASE | offset, value);
+}
+
+bool Bus::DoReadMemoryControl(MemoryAccessSize size, u32 offset, u32& value)
+{
+  FixupUnalignedWordAccessW32(offset, value);
+  value = m_MEMCTRL.regs[offset / 4];
+  return true;
+}
+
+bool Bus::DoWriteMemoryControl(MemoryAccessSize size, u32 offset, u32 value)
+{
+  FixupUnalignedWordAccessW32(offset, value);
+  m_MEMCTRL.regs[offset / 4] = value;
+  return true;
+}
+
+bool Bus::DoReadMemoryControl2(MemoryAccessSize size, u32 offset, u32& value)
+{
+  if (offset == 0x00)
+  {
+    value = m_ram_size_reg;
+    return true;
+  }
+
+  return DoInvalidAccess(MemoryAccessType::Read, size, MEMCTRL2_BASE | offset, value);
+}
+
+bool Bus::DoWriteMemoryControl2(MemoryAccessSize size, u32 offset, u32 value)
+{
+  if (offset == 0x00)
+  {
+    m_ram_size_reg = value;
+    return true;
+  }
+
+  return DoInvalidAccess(MemoryAccessType::Write, size, MEMCTRL2_BASE | offset, value);
 }
 
 bool Bus::DoReadPad(MemoryAccessSize size, u32 offset, u32& value)

src/pse/bus.h

@@ -30,52 +30,84 @@ public:
   void Reset();
   bool DoState(StateWrapper& sw);
 
-  bool ReadByte(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u8* value);
-  bool ReadHalfWord(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u16* value);
-  bool ReadWord(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u32* value);
-  bool WriteByte(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u8 value);
-  bool WriteHalfWord(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u16 value);
-  bool WriteWord(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u32 value);
+  bool ReadByte(PhysicalMemoryAddress address, u8* value);
+  bool ReadHalfWord(PhysicalMemoryAddress address, u16* value);
+  bool ReadWord(PhysicalMemoryAddress address, u32* value);
+  bool WriteByte(PhysicalMemoryAddress address, u8 value);
+  bool WriteHalfWord(PhysicalMemoryAddress address, u16 value);
+  bool WriteWord(PhysicalMemoryAddress address, u32 value);
 
   template<MemoryAccessType type, MemoryAccessSize size>
-  bool DispatchAccess(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u32& value);
+  bool DispatchAccess(PhysicalMemoryAddress address, u32& value);
 
   void PatchBIOS(u32 address, u32 value, u32 mask = UINT32_C(0xFFFFFFFF));
   void SetExpansionROM(std::vector<u8> data);
 
 private:
-  static constexpr u32 EXP1_BASE = 0x1F000000;
-  static constexpr u32 EXP1_SIZE = 0x800000;
-  static constexpr u32 EXP1_MASK = EXP1_SIZE - 1;
-  static constexpr u32 PAD_BASE = 0x1F801040;
-  static constexpr u32 PAD_SIZE = 0x10;
-  static constexpr u32 PAD_MASK = PAD_SIZE - 1;
-  static constexpr u32 SIO_BASE = 0x1F801050;
-  static constexpr u32 SIO_SIZE = 0x10;
-  static constexpr u32 SIO_MASK = SIO_SIZE - 1;
-  static constexpr u32 INTERRUPT_CONTROLLER_BASE = 0x1F801070;
-  static constexpr u32 INTERRUPT_CONTROLLER_SIZE = 0x08;
-  static constexpr u32 INTERRUPT_CONTROLLER_MASK = INTERRUPT_CONTROLLER_SIZE - 1;
-  static constexpr u32 DMA_BASE = 0x1F801080;
-  static constexpr u32 DMA_SIZE = 0x80;
-  static constexpr u32 DMA_MASK = DMA_SIZE - 1;
-  static constexpr u32 TIMERS_BASE = 0x1F801100;
-  static constexpr u32 TIMERS_SIZE = 0x40;
-  static constexpr u32 TIMERS_MASK = TIMERS_SIZE - 1;
-  static constexpr u32 CDROM_BASE = 0x1F801800;
-  static constexpr u32 CDROM_SIZE = 0x04;
-  static constexpr u32 CDROM_MASK = CDROM_SIZE - 1;
-  static constexpr u32 GPU_BASE = 0x1F801810;
-  static constexpr u32 GPU_SIZE = 0x10;
-  static constexpr u32 GPU_MASK = GPU_SIZE - 1;
-  static constexpr u32 SPU_BASE = 0x1F801C00;
-  static constexpr u32 SPU_SIZE = 0x300;
-  static constexpr u32 SPU_MASK = 0x3FF;
-  static constexpr u32 EXP2_BASE = 0x1F802000;
-  static constexpr u32 EXP2_SIZE = 0x2000;
-  static constexpr u32 EXP2_MASK = EXP2_SIZE - 1;
-  static constexpr u32 BIOS_BASE = 0x1FC00000;
-  static constexpr u32 BIOS_SIZE = 0x80000;
+  enum : u32
+  {
+    EXP1_BASE = 0x1F000000,
+    EXP1_SIZE = 0x800000,
+    EXP1_MASK = EXP1_SIZE - 1,
+    MEMCTRL_BASE = 0x1F801000,
+    MEMCTRL_SIZE = 0x40,
+    MEMCTRL_MASK = MEMCTRL_SIZE - 1,
+    PAD_BASE = 0x1F801040,
+    PAD_SIZE = 0x10,
+    PAD_MASK = PAD_SIZE - 1,
+    SIO_BASE = 0x1F801050,
+    SIO_SIZE = 0x10,
+    SIO_MASK = SIO_SIZE - 1,
+    MEMCTRL2_BASE = 0x1F801060,
+    MEMCTRL2_SIZE = 0x10,
+    MEMCTRL2_MASK = MEMCTRL_SIZE - 1,
+    INTERRUPT_CONTROLLER_BASE = 0x1F801070,
+    INTERRUPT_CONTROLLER_SIZE = 0x10,
+    INTERRUPT_CONTROLLER_MASK = INTERRUPT_CONTROLLER_SIZE - 1,
+    DMA_BASE = 0x1F801080,
+    DMA_SIZE = 0x80,
+    DMA_MASK = DMA_SIZE - 1,
+    TIMERS_BASE = 0x1F801100,
+    TIMERS_SIZE = 0x40,
+    TIMERS_MASK = TIMERS_SIZE - 1,
+    CDROM_BASE = 0x1F801800,
+    CDROM_SIZE = 0x04,
+    CDROM_MASK = CDROM_SIZE - 1,
+    GPU_BASE = 0x1F801810,
+    GPU_SIZE = 0x10,
+    GPU_MASK = GPU_SIZE - 1,
+    SPU_BASE = 0x1F801C00,
+    SPU_SIZE = 0x300,
+    SPU_MASK = 0x3FF,
+    EXP2_BASE = 0x1F802000,
+    EXP2_SIZE = 0x2000,
+    EXP2_MASK = EXP2_SIZE - 1,
+    BIOS_BASE = 0x1FC00000,
+    BIOS_SIZE = 0x80000
+  };
+
+  enum : u32
+  {
+    MEMCTRL_REG_COUNT = 9
+  };
+
+  union MEMCTRL
+  {
+    u32 regs[MEMCTRL_REG_COUNT];
+
+    struct
+    {
+      u32 exp1_base;
+      u32 exp2_base;
+      u32 exp1_delay_size;
+      u32 exp3_delay_size;
+      u32 bios_delay_size;
+      u32 spu_delay_size;
+      u32 cdrom_delay_size;
+      u32 exp2_delay_size;
+      u32 common_delay_size;
+    };
+  };
 
   bool LoadBIOS();
 
@@ -85,8 +117,7 @@ private:
   template<MemoryAccessType type, MemoryAccessSize size>
   bool DoBIOSAccess(u32 offset, u32& value);
 
-  bool DoInvalidAccess(MemoryAccessType type, MemoryAccessSize size, PhysicalMemoryAddress cpu_address,
-                       PhysicalMemoryAddress bus_address, u32& value);
+  bool DoInvalidAccess(MemoryAccessType type, MemoryAccessSize size, PhysicalMemoryAddress address, u32& value);
 
   bool DoReadEXP1(MemoryAccessSize size, u32 offset, u32& value);
   bool DoWriteEXP1(MemoryAccessSize size, u32 offset, u32 value);
@@ -94,6 +125,12 @@ private:
   bool DoReadEXP2(MemoryAccessSize size, u32 offset, u32& value);
   bool DoWriteEXP2(MemoryAccessSize size, u32 offset, u32 value);
 
+  bool DoReadMemoryControl(MemoryAccessSize size, u32 offset, u32& value);
+  bool DoWriteMemoryControl(MemoryAccessSize size, u32 offset, u32 value);
+
+  bool DoReadMemoryControl2(MemoryAccessSize size, u32 offset, u32& value);
+  bool DoWriteMemoryControl2(MemoryAccessSize size, u32 offset, u32 value);
+
   bool DoReadPad(MemoryAccessSize size, u32 offset, u32& value);
   bool DoWritePad(MemoryAccessSize size, u32 offset, u32 value);
 
@@ -131,6 +168,9 @@ private:
   std::array<u8, 524288> m_bios{}; // 512K BIOS ROM
   std::vector<u8> m_exp1_rom;
 
+  MEMCTRL m_MEMCTRL = {};
+  u32 m_ram_size_reg = 0;
+
   String m_tty_line_buffer;
 };
 

src/pse/bus.inl

@@ -74,117 +74,107 @@ bool Bus::DoBIOSAccess(u32 offset, u32& value)
 }
 
 template<MemoryAccessType type, MemoryAccessSize size>
-bool Bus::DispatchAccess(PhysicalMemoryAddress cpu_address, PhysicalMemoryAddress bus_address, u32& value)
+bool Bus::DispatchAccess(PhysicalMemoryAddress address, u32& value)
 {
-  if (bus_address < 0x800000)
+  if (address < 0x800000)
   {
-    return DoRAMAccess<type, size>(bus_address, value);
+    return DoRAMAccess<type, size>(address, value);
   }
-  else if (bus_address < EXP1_BASE)
+  else if (address < EXP1_BASE)
   {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return DoInvalidAccess(type, size, address, value);
   }
-  else if (bus_address < (EXP1_BASE + EXP1_SIZE))
+  else if (address < (EXP1_BASE + EXP1_SIZE))
   {
-    return (type == MemoryAccessType::Read) ? DoReadEXP1(size, bus_address & EXP1_MASK, value) :
-                                              DoWriteEXP1(size, bus_address & EXP1_MASK, value);
+    return (type == MemoryAccessType::Read) ? DoReadEXP1(size, address & EXP1_MASK, value) :
+                                              DoWriteEXP1(size, address & EXP1_MASK, value);
   }
-  else if (bus_address < PAD_BASE)
+  else if (address < MEMCTRL_BASE)
   {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return DoInvalidAccess(type, size, address, value);
   }
-  else if (bus_address < (PAD_BASE + PAD_SIZE))
+  else if (address < (MEMCTRL_BASE + MEMCTRL_SIZE))
   {
-    return (type == MemoryAccessType::Read) ? DoReadPad(size, bus_address & PAD_MASK, value) :
-                                              DoWritePad(size, bus_address & PAD_MASK, value);
+    return (type == MemoryAccessType::Read) ? DoReadMemoryControl(size, address & PAD_MASK, value) :
+                                              DoWriteMemoryControl(size, address & PAD_MASK, value);
   }
-  else if (bus_address < (SIO_BASE + SIO_SIZE))
+  else if (address < (PAD_BASE + PAD_SIZE))
   {
-    return (type == MemoryAccessType::Read) ? DoReadSIO(size, bus_address & SIO_MASK, value) :
-                                              DoWriteSIO(size, bus_address & SIO_MASK, value);
+    return (type == MemoryAccessType::Read) ? DoReadPad(size, address & PAD_MASK, value) :
+                                              DoWritePad(size, address & PAD_MASK, value);
   }
-  else if (bus_address < INTERRUPT_CONTROLLER_BASE)
+  else if (address < (SIO_BASE + SIO_SIZE))
   {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return (type == MemoryAccessType::Read) ? DoReadSIO(size, address & SIO_MASK, value) :
+                                              DoWriteSIO(size, address & SIO_MASK, value);
   }
-  else if (bus_address < (INTERRUPT_CONTROLLER_BASE + INTERRUPT_CONTROLLER_SIZE))
+  else if (address < (MEMCTRL2_BASE + MEMCTRL2_SIZE))
+  {
+    return (type == MemoryAccessType::Read) ? DoReadMemoryControl2(size, address & PAD_MASK, value) :
+                                              DoWriteMemoryControl2(size, address & PAD_MASK, value);
+  }
+  else if (address < (INTERRUPT_CONTROLLER_BASE + INTERRUPT_CONTROLLER_SIZE))
   {
     return (type == MemoryAccessType::Read) ?
-             DoReadInterruptController(size, bus_address & INTERRUPT_CONTROLLER_MASK, value) :
-             DoWriteInterruptController(size, bus_address & INTERRUPT_CONTROLLER_MASK, value);
+             DoReadInterruptController(size, address & INTERRUPT_CONTROLLER_MASK, value) :
+             DoWriteInterruptController(size, address & INTERRUPT_CONTROLLER_MASK, value);
   }
-  else if (bus_address < DMA_BASE)
+  else if (address < (DMA_BASE + DMA_SIZE))
   {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return (type == MemoryAccessType::Read) ? DoReadDMA(size, address & DMA_MASK, value) :
+                                              DoWriteDMA(size, address & DMA_MASK, value);
   }
-  else if (bus_address < (DMA_BASE + DMA_SIZE))
+  else if (address < (TIMERS_BASE + TIMERS_SIZE))
   {
-    return (type == MemoryAccessType::Read) ? DoReadDMA(size, bus_address & DMA_MASK, value) :
-                                              DoWriteDMA(size, bus_address & DMA_MASK, value);
+    return (type == MemoryAccessType::Read) ? DoReadTimers(size, address & TIMERS_MASK, value) :
+                                              DoWriteTimers(size, address & TIMERS_MASK, value);
   }
-  else if (bus_address < TIMERS_BASE)
+  else if (address < CDROM_BASE)
   {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return DoInvalidAccess(type, size, address, value);
   }
-  else if (bus_address < (TIMERS_BASE + TIMERS_SIZE))
+  else if (address < (CDROM_BASE + GPU_SIZE))
   {
-    return (type == MemoryAccessType::Read) ? DoReadTimers(size, bus_address & TIMERS_MASK, value) :
-                                              DoWriteTimers(size, bus_address & TIMERS_MASK, value);
+    return (type == MemoryAccessType::Read) ? DoReadCDROM(size, address & CDROM_MASK, value) :
+                                              DoWriteCDROM(size, address & CDROM_MASK, value);
   }
-  else if (bus_address < CDROM_BASE)
+  else if (address < GPU_BASE)
   {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return DoInvalidAccess(type, size, address, value);
   }
-  else if (bus_address < (CDROM_BASE + GPU_SIZE))
+  else if (address < (GPU_BASE + GPU_SIZE))
   {
-    return (type == MemoryAccessType::Read) ? DoReadCDROM(size, bus_address & CDROM_MASK, value) :
-                                              DoWriteCDROM(size, bus_address & CDROM_MASK, value);
+    return (type == MemoryAccessType::Read) ? DoReadGPU(size, address & GPU_MASK, value) :
+                                              DoWriteGPU(size, address & GPU_MASK, value);
   }
-  else if (bus_address < GPU_BASE)
+  else if (address < SPU_BASE)
   {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return DoInvalidAccess(type, size, address, value);
   }
-  else if (bus_address < (GPU_BASE + GPU_SIZE))
+  else if (address < (SPU_BASE + SPU_SIZE))
   {
-    return (type == MemoryAccessType::Read) ? DoReadGPU(size, bus_address & GPU_MASK, value) :
-                                              DoWriteGPU(size, bus_address & GPU_MASK, value);
+    return (type == MemoryAccessType::Read) ? DoReadSPU(size, address & SPU_MASK, value) :
+                                              DoWriteSPU(size, address & SPU_MASK, value);
   }
-  else if (bus_address < SPU_BASE)
+  else if (address < EXP2_BASE)
   {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return DoInvalidAccess(type, size, address, value);
   }
-  else if (bus_address < (SPU_BASE + SPU_SIZE))
+  else if (address < (EXP2_BASE + EXP2_SIZE))
   {
-    return (type == MemoryAccessType::Read) ? DoReadSPU(size, bus_address & SPU_MASK, value) :
-                                              DoWriteSPU(size, bus_address & SPU_MASK, value);
+    return (type == MemoryAccessType::Read) ? DoReadEXP2(size, address & EXP2_MASK, value) :
+                                              DoWriteEXP2(size, address & EXP2_MASK, value);
   }
-  else if (bus_address < EXP2_BASE)
+  else if (address < BIOS_BASE)
   {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return DoInvalidAccess(type, size, address, value);
   }
-  else if (bus_address < (EXP2_BASE + EXP2_SIZE))
+  else if (address < (BIOS_BASE + BIOS_SIZE))
   {
-    return (type == MemoryAccessType::Read) ? DoReadEXP2(size, bus_address & EXP2_MASK, value) :
-                                              DoWriteEXP2(size, bus_address & EXP2_MASK, value);
-  }
-  else if (bus_address < BIOS_BASE)
-  {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
-  }
-  else if (bus_address < (BIOS_BASE + BIOS_SIZE))
-  {
-    return DoBIOSAccess<type, size>(static_cast<u32>(bus_address - BIOS_BASE), value);
-  }
-  else if (bus_address < 0x1FFE0000)
-  {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
-  }
-  else if (bus_address < 0x1FFE0200) // I/O Ports (Cache Control)
-  {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return DoBIOSAccess<type, size>(static_cast<u32>(address - BIOS_BASE), value);
   }
   else
   {
-    return DoInvalidAccess(type, size, cpu_address, bus_address, value);
+    return DoInvalidAccess(type, size, address, value);
   }
 }

src/pse/cpu_core.cpp

@@ -92,8 +92,11 @@ void Core::SetPC(u32 new_pc)
 bool Core::ReadMemoryByte(VirtualMemoryAddress addr, u8* value)
 {
   u32 temp = 0;
-  const bool result = DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Byte, false, true>(addr, temp);
+  const bool result = DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Byte>(addr, temp);
   *value = Truncate8(temp);
+  if (!result)
+    RaiseException(Exception::DBE);
+
   return result;
 }
 
@@ -103,8 +106,11 @@ bool Core::ReadMemoryHalfWord(VirtualMemoryAddress addr, u16* value)
     return false;
 
   u32 temp = 0;
-  const bool result = DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::HalfWord, false, true>(addr, temp);
+  const bool result = DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::HalfWord>(addr, temp);
   *value = Truncate16(temp);
+  if (!result)
+    RaiseException(Exception::DBE);
+
   return result;
 }
 
@@ -113,13 +119,21 @@ bool Core::ReadMemoryWord(VirtualMemoryAddress addr, u32* value)
   if (!DoAlignmentCheck<MemoryAccessType::Read, MemoryAccessSize::Word>(addr))
     return false;
 
-  return DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Word, false, true>(addr, *value);
+  const bool result = DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(addr, *value);
+  if (!result)
+    RaiseException(Exception::DBE);
+
+  return result;
 }
 
 bool Core::WriteMemoryByte(VirtualMemoryAddress addr, u8 value)
 {
   u32 temp = ZeroExtend32(value);
-  return DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::Byte, false, true>(addr, temp);
+  const bool result = DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::Byte>(addr, temp);
+  if (!result)
+    RaiseException(Exception::DBE);
+
+  return result;
 }
 
 bool Core::WriteMemoryHalfWord(VirtualMemoryAddress addr, u16 value)
@@ -128,7 +142,11 @@ bool Core::WriteMemoryHalfWord(VirtualMemoryAddress addr, u16 value)
     return false;
 
   u32 temp = ZeroExtend32(value);
-  return DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::HalfWord, false, true>(addr, temp);
+  const bool result = DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::HalfWord>(addr, temp);
+  if (!result)
+    RaiseException(Exception::DBE);
+
+  return result;
 }
 
 bool Core::WriteMemoryWord(VirtualMemoryAddress addr, u32 value)
@@ -136,13 +154,17 @@ bool Core::WriteMemoryWord(VirtualMemoryAddress addr, u32 value)
   if (!DoAlignmentCheck<MemoryAccessType::Write, MemoryAccessSize::Word>(addr))
     return false;
 
-  return DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::Word, false, true>(addr, value);
+  const bool result = DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::Word>(addr, value);
+  if (!result)
+    RaiseException(Exception::DBE);
+
+  return result;
 }
 
 bool Core::SafeReadMemoryByte(VirtualMemoryAddress addr, u8* value)
 {
   u32 temp = 0;
-  const bool result = DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Byte, false, false>(addr, temp);
+  const bool result = DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Byte>(addr, temp);
   *value = Truncate8(temp);
   return result;
 }
@@ -150,31 +172,31 @@ bool Core::SafeReadMemoryByte(VirtualMemoryAddress addr, u8* value)
 bool Core::SafeReadMemoryHalfWord(VirtualMemoryAddress addr, u16* value)
 {
   u32 temp = 0;
-  const bool result = DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::HalfWord, false, false>(addr, temp);
+  const bool result = DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::HalfWord>(addr, temp);
   *value = Truncate16(temp);
   return result;
 }
 
 bool Core::SafeReadMemoryWord(VirtualMemoryAddress addr, u32* value)
 {
-  return DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Word, false, false>(addr, *value);
+  return DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(addr, *value);
 }
 
 bool Core::SafeWriteMemoryByte(VirtualMemoryAddress addr, u8 value)
 {
   u32 temp = ZeroExtend32(value);
-  return DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::Byte, false, false>(addr, temp);
+  return DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::Byte>(addr, temp);
 }
 
 bool Core::SafeWriteMemoryHalfWord(VirtualMemoryAddress addr, u16 value)
 {
   u32 temp = ZeroExtend32(value);
-  return DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::HalfWord, false, false>(addr, temp);
+  return DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::HalfWord>(addr, temp);
 }
 
 bool Core::SafeWriteMemoryWord(VirtualMemoryAddress addr, u32 value)
 {
-  return DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::Word, false, false>(addr, value);
+  return DoMemoryAccess<MemoryAccessType::Write, MemoryAccessSize::Word>(addr, value);
 }
 
 void Core::Branch(u32 target)
@@ -420,8 +442,8 @@ static constexpr bool SubOverflow(u32 old_value, u32 sub_value, u32 new_value)
 
 void Core::DisassembleAndPrint(u32 addr)
 {
-  u32 bits;
-  DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Word, true, false>(addr, bits);
+  u32 bits = 0;
+  DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(addr, bits);
   PrintInstruction(bits, addr);
 }
 
@@ -459,14 +481,17 @@ bool Core::FetchInstruction()
 {
   m_regs.pc = m_regs.npc;
 
-  if (!DoAlignmentCheck<MemoryAccessType::Read, MemoryAccessSize::Word>(
-        static_cast<VirtualMemoryAddress>(m_regs.npc)) ||
-      !DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Word, true, true>(
-        static_cast<VirtualMemoryAddress>(m_regs.npc), m_next_instruction.bits))
+  if (!DoAlignmentCheck<MemoryAccessType::Read, MemoryAccessSize::Word>(static_cast<VirtualMemoryAddress>(m_regs.npc)))
   {
     // this will call FetchInstruction() again when the pipeline is flushed.
     return false;
   }
+  if (!DoMemoryAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(static_cast<VirtualMemoryAddress>(m_regs.npc),
+                                                                      m_next_instruction.bits))
+  {
+    RaiseException(Exception::IBE);
+    return false;
+  }
 
   m_regs.npc += sizeof(m_next_instruction.bits);
   return true;

src/pse/cpu_core.h

@@ -41,6 +41,7 @@ public:
   // Sets the PC and flushes the pipeline.
   void SetPC(u32 new_pc);
 
+  // Memory reads variants which do not raise exceptions.
   bool SafeReadMemoryByte(VirtualMemoryAddress addr, u8* value);
   bool SafeReadMemoryHalfWord(VirtualMemoryAddress addr, u16* value);
   bool SafeReadMemoryWord(VirtualMemoryAddress addr, u32* value);
@@ -53,7 +54,7 @@ public:
   void ClearExternalInterrupt(u8 bit);
 
 private:
-  template<MemoryAccessType type, MemoryAccessSize size, bool is_instruction_fetch, bool raise_exceptions>
+  template<MemoryAccessType type, MemoryAccessSize size>
   bool DoMemoryAccess(VirtualMemoryAddress address, u32& value);
 
   template<MemoryAccessType type, MemoryAccessSize size>

src/pse/cpu_core.inl

@@ -5,7 +5,7 @@
 
 namespace CPU {
 
-template<MemoryAccessType type, MemoryAccessSize size, bool is_instruction_fetch, bool raise_exceptions>
+template<MemoryAccessType type, MemoryAccessSize size>
 bool Core::DoMemoryAccess(VirtualMemoryAddress address, u32& value)
 {
   switch (address >> 29)
@@ -25,7 +25,7 @@ bool Core::DoMemoryAccess(VirtualMemoryAddress address, u32& value)
         return true;
       }
 
-      if (!m_bus->DispatchAccess<type, size>(address, phys_addr, value))
+      if (!m_bus->DispatchAccess<type, size>(phys_addr, value))
       {
         Panic("Bus error");
         return false;
@@ -39,7 +39,6 @@ bool Core::DoMemoryAccess(VirtualMemoryAddress address, u32& value)
     case 0x03: // KUSEG 1536M-2048M
     {
       // Above 512mb raises an exception.
-      RaiseException(is_instruction_fetch ? Exception::IBE : Exception::DBE);
       return false;
     }
 
@@ -58,7 +57,7 @@ bool Core::DoMemoryAccess(VirtualMemoryAddress address, u32& value)
         return true;
       }
 
-      if (!m_bus->DispatchAccess<type, size>(address, address & UINT32_C(0x1FFFFFFF), value))
+      if (!m_bus->DispatchAccess<type, size>(phys_addr, value))
       {
         Panic("Bus error");
         return false;
@@ -71,7 +70,7 @@ bool Core::DoMemoryAccess(VirtualMemoryAddress address, u32& value)
     case 0x05: // KSEG1 - physical memory uncached
     {
       const PhysicalMemoryAddress phys_addr = address & UINT32_C(0x1FFFFFFF);
-      if (!m_bus->DispatchAccess<type, size>(address, phys_addr, value))
+      if (!m_bus->DispatchAccess<type, size>(phys_addr, value))
       {
         Panic("Bus error");
         return false;
@@ -95,7 +94,6 @@ bool Core::DoMemoryAccess(VirtualMemoryAddress address, u32& value)
       }
       else
       {
-        RaiseException(is_instruction_fetch ? Exception::IBE : Exception::DBE);
         return false;
       }
     }

src/pse/dma.cpp

@@ -234,8 +234,7 @@ void DMA::RunDMA(Channel channel)
           words_remaining--;
 
           u32 value = 0;
-          m_bus->DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(current_address, current_address,
-                                                                                value);
+          m_bus->DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(current_address, value);
           DMAWrite(channel, value, current_address, words_remaining);
 
           current_address = (current_address + increment) & ADDRESS_MASK;
@@ -249,8 +248,7 @@ void DMA::RunDMA(Channel channel)
           words_remaining--;
 
           u32 value = DMARead(channel, current_address, words_remaining);
-          m_bus->DispatchAccess<MemoryAccessType::Write, MemoryAccessSize::Word>(current_address, current_address,
-                                                                                 value);
+          m_bus->DispatchAccess<MemoryAccessType::Write, MemoryAccessSize::Word>(current_address, value);
 
           current_address = (current_address + increment) & ADDRESS_MASK;
         } while (words_remaining > 0);
@@ -269,8 +267,7 @@ void DMA::RunDMA(Channel channel)
         for (;;)
         {
           u32 header;
-          m_bus->DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(current_address, current_address,
-                                                                                header);
+          m_bus->DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(current_address, header);
 
           const u32 word_count = header >> 24;
           const u32 next_address = header & UINT32_C(0xFFFFFF);
@@ -286,8 +283,7 @@ void DMA::RunDMA(Channel channel)
               words_remaining--;
 
               u32 memory_value = 0;
-              m_bus->DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(current_address, current_address,
-                                                                                    memory_value);
+              m_bus->DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(current_address, memory_value);
               DMAWrite(channel, memory_value, current_address, words_remaining);
               current_address = (current_address + UINT32_C(4)) & ADDRESS_MASK;
             } while (words_remaining > 0);
@@ -316,8 +312,7 @@ void DMA::RunDMA(Channel channel)
           words_remaining--;
 
           u32 value = 0;
-          m_bus->DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(current_address, current_address,
-                                                                                value);
+          m_bus->DispatchAccess<MemoryAccessType::Read, MemoryAccessSize::Word>(current_address, value);
           DMAWrite(channel, value, current_address, words_remaining);
 
           current_address = (current_address + increment) & ADDRESS_MASK;
@@ -331,8 +326,7 @@ void DMA::RunDMA(Channel channel)
           words_remaining--;
 
           u32 value = DMARead(channel, current_address, words_remaining);
-          m_bus->DispatchAccess<MemoryAccessType::Write, MemoryAccessSize::Word>(current_address, current_address,
-                                                                                 value);
+          m_bus->DispatchAccess<MemoryAccessType::Write, MemoryAccessSize::Word>(current_address, value);
 
           current_address = (current_address + increment) & ADDRESS_MASK;
         } while (words_remaining > 0);