melonDS/src/NDS.h
2024-06-15 17:01:19 +02:00

543 lines
15 KiB
C++

/*
Copyright 2016-2024 melonDS team
This file is part of melonDS.
melonDS is free software: you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation, either version 3 of the License, or (at your option)
any later version.
melonDS is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with melonDS. If not, see http://www.gnu.org/licenses/.
*/
#ifndef NDS_H
#define NDS_H
#include <memory>
#include <string>
#include <optional>
#include <functional>
#include "Platform.h"
#include "Savestate.h"
#include "types.h"
#include "NDSCart.h"
#include "GBACart.h"
#include "SPU.h"
#include "SPI.h"
#include "RTC.h"
#include "Wifi.h"
#include "AREngine.h"
#include "GPU.h"
#include "ARMJIT.h"
#include "MemRegion.h"
#include "ARMJIT_Memory.h"
#include "ARM.h"
#include "CRC32.h"
#include "DMA.h"
#include "FreeBIOS.h"
// when touching the main loop/timing code, pls test a lot of shit
// with this enabled, to make sure it doesn't desync
//#define DEBUG_CHECK_DESYNC
namespace melonDS
{
struct NDSArgs;
class Firmware;
enum
{
Event_LCD = 0,
Event_SPU,
Event_Wifi,
Event_RTC,
Event_DisplayFIFO,
Event_ROMTransfer,
Event_ROMSPITransfer,
Event_SPITransfer,
Event_Div,
Event_Sqrt,
// DSi
Event_DSi_SDMMCTransfer,
Event_DSi_SDIOTransfer,
Event_DSi_NWifi,
Event_DSi_CamIRQ,
Event_DSi_CamTransfer,
Event_DSi_DSP,
Event_MAX
};
typedef std::function<void(u32)> EventFunc;
#define MemberEventFunc(cls,func) std::bind(&cls::func,this,std::placeholders::_1)
struct SchedEvent
{
std::map<u32, EventFunc> Funcs;
u64 Timestamp;
u32 FuncID;
u32 Param;
};
enum
{
IRQ_VBlank = 0,
IRQ_HBlank,
IRQ_VCount,
IRQ_Timer0,
IRQ_Timer1,
IRQ_Timer2,
IRQ_Timer3,
IRQ_RTC,
IRQ_DMA0,
IRQ_DMA1,
IRQ_DMA2,
IRQ_DMA3,
IRQ_Keypad,
IRQ_GBASlot,
IRQ_Unused14,
IRQ_Unused15,
IRQ_IPCSync,
IRQ_IPCSendDone,
IRQ_IPCRecv,
IRQ_CartXferDone,
IRQ_CartIREQMC, // IRQ triggered by game cart (example: Pokémon Typing Adventure, BT controller)
IRQ_GXFIFO,
IRQ_LidOpen,
IRQ_SPI,
IRQ_Wifi,
// DSi IRQs
IRQ_DSi_DSP = 24,
IRQ_DSi_Camera,
IRQ_DSi_Unk26,
IRQ_DSi_Unk27,
IRQ_DSi_NDMA0,
IRQ_DSi_NDMA1,
IRQ_DSi_NDMA2,
IRQ_DSi_NDMA3,
};
enum
{
// DSi ARM7-side IE2/IF2
IRQ2_DSi_GPIO18_0 = 0,
IRQ2_DSi_GPIO18_1,
IRQ2_DSi_GPIO18_2,
IRQ2_DSi_Unused3,
IRQ2_DSi_GPIO33_0,
IRQ2_DSi_Headphone,
IRQ2_DSi_BPTWL,
IRQ2_DSi_GPIO33_3, // "sound enable input"
IRQ2_DSi_SDMMC,
IRQ2_DSi_SD_Data1,
IRQ2_DSi_SDIO,
IRQ2_DSi_SDIO_Data1,
IRQ2_DSi_AES,
IRQ2_DSi_I2C,
IRQ2_DSi_MicExt
};
enum
{
CPUStop_DMA9_0 = (1<<0),
CPUStop_DMA9_1 = (1<<1),
CPUStop_DMA9_2 = (1<<2),
CPUStop_DMA9_3 = (1<<3),
CPUStop_NDMA9_0 = (1<<4),
CPUStop_NDMA9_1 = (1<<5),
CPUStop_NDMA9_2 = (1<<6),
CPUStop_NDMA9_3 = (1<<7),
CPUStop_DMA9 = 0xFFF,
CPUStop_DMA7_0 = (1<<16),
CPUStop_DMA7_1 = (1<<17),
CPUStop_DMA7_2 = (1<<18),
CPUStop_DMA7_3 = (1<<19),
CPUStop_NDMA7_0 = (1<<20),
CPUStop_NDMA7_1 = (1<<21),
CPUStop_NDMA7_2 = (1<<22),
CPUStop_NDMA7_3 = (1<<23),
CPUStop_DMA7 = (0xFFF<<16),
CPUStop_Wakeup = (1<<29),
CPUStop_Sleep = (1<<30),
CPUStop_GXStall = (1<<31),
};
struct Timer
{
u16 Reload;
u16 Cnt;
u32 Counter;
u32 CycleShift;
};
enum
{
Mem9_ITCM = 0x00000001,
Mem9_DTCM = 0x00000002,
Mem9_BIOS = 0x00000004,
Mem9_MainRAM = 0x00000008,
Mem9_WRAM = 0x00000010,
Mem9_IO = 0x00000020,
Mem9_Pal = 0x00000040,
Mem9_OAM = 0x00000080,
Mem9_VRAM = 0x00000100,
Mem9_GBAROM = 0x00020000,
Mem9_GBARAM = 0x00040000,
Mem7_BIOS = 0x00000001,
Mem7_MainRAM = 0x00000002,
Mem7_WRAM = 0x00000004,
Mem7_IO = 0x00000008,
Mem7_Wifi0 = 0x00000010,
Mem7_Wifi1 = 0x00000020,
Mem7_VRAM = 0x00000040,
Mem7_GBAROM = 0x00000100,
Mem7_GBARAM = 0x00000200,
// TODO: add DSi regions!
};
// supported GBA slot addon types
enum
{
GBAAddon_RAMExpansion = 1,
};
class SPU;
class SPIHost;
class RTC;
class Wifi;
class AREngine;
class GPU;
class ARMJIT;
class NDS
{
private:
#ifdef JIT_ENABLED
bool EnableJIT;
#endif
public: // TODO: Encapsulate the rest of these members
void* UserData;
int ConsoleType;
int CurCPU;
SchedEvent SchedList[Event_MAX] {};
u8 ARM9MemTimings[0x40000][8];
u32 ARM9Regions[0x40000];
u8 ARM7MemTimings[0x20000][4];
u32 ARM7Regions[0x20000];
u32 NumFrames;
u32 NumLagFrames;
bool LagFrameFlag;
// no need to worry about those overflowing, they can keep going for atleast 4350 years
u64 ARM9Timestamp, ARM9Target;
u64 ARM7Timestamp, ARM7Target;
u32 ARM9ClockShift;
u32 IME[2];
u32 IE[2];
u32 IF[2];
u32 IE2;
u32 IF2;
Timer Timers[8];
u32 CPUStop;
u16 PowerControl9;
u16 ExMemCnt[2];
alignas(u32) u8 ROMSeed0[2*8];
alignas(u32) u8 ROMSeed1[2*8];
protected:
// These BIOS arrays should be declared *before* the component objects (JIT, SPI, etc.)
// so that they're initialized before the component objects' constructors run.
std::array<u8, ARM9BIOSSize> ARM9BIOS;
std::array<u8, ARM7BIOSSize> ARM7BIOS;
bool ARM9BIOSNative;
bool ARM7BIOSNative;
public: // TODO: Encapsulate the rest of these members
u16 ARM7BIOSProt;
u8* MainRAM;
u32 MainRAMMask;
const u32 MainRAMMaxSize = 0x1000000;
const u32 SharedWRAMSize = 0x8000;
u8* SharedWRAM;
MemRegion SWRAM_ARM9;
MemRegion SWRAM_ARM7;
u32 KeyInput;
u16 RCnt;
// JIT MUST be declared before all other component objects,
// as they'll need the memory that it allocates in its constructor!
// (Reminder: C++ fields are initialized in the order they're declared,
// regardless of what the constructor's initializer list says.)
melonDS::ARMJIT JIT;
ARMv5 ARM9;
ARMv4 ARM7;
melonDS::SPU SPU;
SPIHost SPI;
melonDS::RTC RTC;
melonDS::Wifi Wifi;
NDSCart::NDSCartSlot NDSCartSlot;
GBACart::GBACartSlot GBACartSlot;
melonDS::GPU GPU;
melonDS::AREngine AREngine;
const u32 ARM7WRAMSize = 0x10000;
u8* ARM7WRAM;
virtual void Reset();
void Start();
/// Stop the emulator.
virtual void Stop(Platform::StopReason reason = Platform::StopReason::External);
bool DoSavestate(Savestate* file);
void SetARM9RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, int nonseq, int seq);
void SetARM7RegionTimings(u32 addrstart, u32 addrend, u32 region, int buswidth, int nonseq, int seq);
void LoadBIOS();
/// @return \c true if the loaded ARM9 BIOS image is a known dump
/// of a native DS-compatible ARM9 BIOS.
[[nodiscard]] bool IsLoadedARM9BIOSKnownNative() const noexcept { return ARM9BIOSNative; }
[[nodiscard]] const std::array<u8, ARM9BIOSSize>& GetARM9BIOS() const noexcept { return ARM9BIOS; }
void SetARM9BIOS(const std::array<u8, ARM9BIOSSize>& bios) noexcept;
[[nodiscard]] const std::array<u8, ARM7BIOSSize>& GetARM7BIOS() const noexcept { return ARM7BIOS; }
void SetARM7BIOS(const std::array<u8, ARM7BIOSSize>& bios) noexcept;
/// @return \c true if the loaded ARM7 BIOS image is a known dump
/// of a native DS-compatible ARM9 BIOS.
[[nodiscard]] bool IsLoadedARM7BIOSKnownNative() const noexcept { return ARM7BIOSNative; }
[[nodiscard]] NDSCart::CartCommon* GetNDSCart() { return NDSCartSlot.GetCart(); }
[[nodiscard]] const NDSCart::CartCommon* GetNDSCart() const { return NDSCartSlot.GetCart(); }
virtual void SetNDSCart(std::unique_ptr<NDSCart::CartCommon>&& cart);
[[nodiscard]] bool CartInserted() const noexcept { return NDSCartSlot.GetCart() != nullptr; }
virtual std::unique_ptr<NDSCart::CartCommon> EjectCart() { return NDSCartSlot.EjectCart(); }
[[nodiscard]] u8* GetNDSSave() { return NDSCartSlot.GetSaveMemory(); }
[[nodiscard]] const u8* GetNDSSave() const { return NDSCartSlot.GetSaveMemory(); }
[[nodiscard]] u32 GetNDSSaveLength() const { return NDSCartSlot.GetSaveMemoryLength(); }
void SetNDSSave(const u8* savedata, u32 savelen);
const Firmware& GetFirmware() const { return SPI.GetFirmwareMem()->GetFirmware(); }
Firmware& GetFirmware() { return SPI.GetFirmwareMem()->GetFirmware(); }
void SetFirmware(Firmware&& firmware) { SPI.GetFirmwareMem()->SetFirmware(std::move(firmware)); }
const Renderer3D& GetRenderer3D() const noexcept { return GPU.GetRenderer3D(); }
Renderer3D& GetRenderer3D() noexcept { return GPU.GetRenderer3D(); }
void SetRenderer3D(std::unique_ptr<Renderer3D>&& renderer) noexcept
{
if (renderer != nullptr)
GPU.SetRenderer3D(std::move(renderer));
}
virtual bool NeedsDirectBoot() const;
void SetupDirectBoot(const std::string& romname);
virtual void SetupDirectBoot();
[[nodiscard]] GBACart::CartCommon* GetGBACart() { return (ConsoleType == 1) ? nullptr : GBACartSlot.GetCart(); }
[[nodiscard]] const GBACart::CartCommon* GetGBACart() const { return (ConsoleType == 1) ? nullptr : GBACartSlot.GetCart(); }
/// Inserts a GBA cart into the emulated console's Slot-2.
///
/// @param cart The GBA cart, most likely (but not necessarily) returned from GBACart::ParseROM.
/// To insert an accessory that doesn't use a ROM image
/// (e.g. the Expansion Pak), create it manually and pass it here.
/// If \c nullptr, the existing cart is ejected.
/// If this is a DSi, this method does nothing.
///
/// @post \c cart is \c nullptr and this NDS takes ownership
/// of the cart object it held, if any.
void SetGBACart(std::unique_ptr<GBACart::CartCommon>&& cart) { if (ConsoleType == 0) GBACartSlot.SetCart(std::move(cart)); }
u8* GetGBASave() { return GBACartSlot.GetSaveMemory(); }
const u8* GetGBASave() const { return GBACartSlot.GetSaveMemory(); }
u32 GetGBASaveLength() const { return GBACartSlot.GetSaveMemoryLength(); }
void SetGBASave(const u8* savedata, u32 savelen);
void LoadGBAAddon(int type);
std::unique_ptr<GBACart::CartCommon> EjectGBACart() { return GBACartSlot.EjectCart(); }
u32 RunFrame();
bool IsRunning() const noexcept { return Running; }
void TouchScreen(u16 x, u16 y);
void ReleaseScreen();
void SetKeyMask(u32 mask);
bool IsLidClosed() const;
void SetLidClosed(bool closed);
virtual void CamInputFrame(int cam, const u32* data, int width, int height, bool rgb) {}
void MicInputFrame(s16* data, int samples);
void RegisterEventFunc(u32 id, u32 funcid, EventFunc func);
void UnregisterEventFunc(u32 id, u32 funcid);
void ScheduleEvent(u32 id, bool periodic, s32 delay, u32 funcid, u32 param);
void CancelEvent(u32 id);
void debug(u32 p);
void Halt();
void MapSharedWRAM(u8 val);
void UpdateIRQ(u32 cpu);
void SetIRQ(u32 cpu, u32 irq);
void ClearIRQ(u32 cpu, u32 irq);
void SetIRQ2(u32 irq);
void ClearIRQ2(u32 irq);
bool HaltInterrupted(u32 cpu) const;
void StopCPU(u32 cpu, u32 mask);
void ResumeCPU(u32 cpu, u32 mask);
void GXFIFOStall();
void GXFIFOUnstall();
u32 GetPC(u32 cpu) const;
u64 GetSysClockCycles(int num);
void NocashPrint(u32 cpu, u32 addr);
void MonitorARM9Jump(u32 addr);
virtual bool DMAsInMode(u32 cpu, u32 mode) const;
virtual bool DMAsRunning(u32 cpu) const;
virtual void CheckDMAs(u32 cpu, u32 mode);
virtual void StopDMAs(u32 cpu, u32 mode);
void RunTimers(u32 cpu);
virtual u8 ARM9Read8(u32 addr);
virtual u16 ARM9Read16(u32 addr);
virtual u32 ARM9Read32(u32 addr);
virtual void ARM9Write8(u32 addr, u8 val);
virtual void ARM9Write16(u32 addr, u16 val);
virtual void ARM9Write32(u32 addr, u32 val);
virtual bool ARM9GetMemRegion(u32 addr, bool write, MemRegion* region);
virtual u8 ARM7Read8(u32 addr);
virtual u16 ARM7Read16(u32 addr);
virtual u32 ARM7Read32(u32 addr);
virtual void ARM7Write8(u32 addr, u8 val);
virtual void ARM7Write16(u32 addr, u16 val);
virtual void ARM7Write32(u32 addr, u32 val);
virtual bool ARM7GetMemRegion(u32 addr, bool write, MemRegion* region);
virtual u8 ARM9IORead8(u32 addr);
virtual u16 ARM9IORead16(u32 addr);
virtual u32 ARM9IORead32(u32 addr);
virtual void ARM9IOWrite8(u32 addr, u8 val);
virtual void ARM9IOWrite16(u32 addr, u16 val);
virtual void ARM9IOWrite32(u32 addr, u32 val);
virtual u8 ARM7IORead8(u32 addr);
virtual u16 ARM7IORead16(u32 addr);
virtual u32 ARM7IORead32(u32 addr);
virtual void ARM7IOWrite8(u32 addr, u8 val);
virtual void ARM7IOWrite16(u32 addr, u16 val);
virtual void ARM7IOWrite32(u32 addr, u32 val);
#ifdef JIT_ENABLED
[[nodiscard]] bool IsJITEnabled() const noexcept { return EnableJIT; }
void SetJITArgs(std::optional<JITArgs> args) noexcept;
#else
[[nodiscard]] bool IsJITEnabled() const noexcept { return false; }
void SetJITArgs(std::optional<JITArgs> args) noexcept {}
#endif
private:
void InitTimings();
u32 SchedListMask;
u64 SysTimestamp;
u8 WRAMCnt;
u8 PostFlag9;
u8 PostFlag7;
u16 PowerControl7;
u16 WifiWaitCnt;
u8 TimerCheckMask[2];
u64 TimerTimestamp[2];
DMA DMAs[8];
u32 DMA9Fill[4];
u16 IPCSync9, IPCSync7;
u16 IPCFIFOCnt9, IPCFIFOCnt7;
FIFO<u32, 16> IPCFIFO9; // FIFO in which the ARM9 writes
FIFO<u32, 16> IPCFIFO7;
u16 DivCnt;
alignas(u64) u32 DivNumerator[2];
alignas(u64) u32 DivDenominator[2];
alignas(u64) u32 DivQuotient[2];
alignas(u64) u32 DivRemainder[2];
u16 SqrtCnt;
alignas(u64) u32 SqrtVal[2];
u32 SqrtRes;
u16 KeyCnt[2];
bool Running;
bool RunningGame;
u64 LastSysClockCycles;
u64 FrameStartTimestamp;
u64 NextTarget();
u64 NextTargetSleep();
void CheckKeyIRQ(u32 cpu, u32 oldkey, u32 newkey);
void Reschedule(u64 target);
void RunSystemSleep(u64 timestamp);
void RunSystem(u64 timestamp);
void HandleTimerOverflow(u32 tid);
u16 TimerGetCounter(u32 timer);
void TimerStart(u32 id, u16 cnt);
void StartDiv();
void DivDone(u32 param);
void SqrtDone(u32 param);
void StartSqrt();
void RunTimer(u32 tid, s32 cycles);
void UpdateWifiTimings();
void SetWifiWaitCnt(u16 val);
void SetGBASlotTimings();
void EnterSleepMode();
template <bool EnableJIT>
u32 RunFrame();
public:
NDS(NDSArgs&& args, void* userdata = nullptr) noexcept : NDS(std::move(args), 0, userdata) {}
NDS() noexcept;
virtual ~NDS() noexcept;
NDS(const NDS&) = delete;
NDS& operator=(const NDS&) = delete;
NDS(NDS&&) = delete;
NDS& operator=(NDS&&) = delete;
// The frontend should set and unset this manually after creating and destroying the NDS object.
[[deprecated("Temporary workaround until JIT code generation is revised to accommodate multiple NDS objects.")]] static NDS* Current;
protected:
explicit NDS(NDSArgs&& args, int type, void* userdata) noexcept;
virtual void DoSavestateExtra(Savestate* file) {}
};
}
#endif // NDS_H