Duckstation/src/core/cdrom.h

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#pragma once
#include "cdrom_async_reader.h"
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#include "common/bitfield.h"
#include "common/cd_image.h"
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#include "common/cd_xa.h"
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#include "common/fifo_queue.h"
#include "common/heap_array.h"
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#include "types.h"
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#include <array>
#include <string>
#include <vector>
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class StateWrapper;
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class System;
class TimingEvent;
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class DMA;
class InterruptController;
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class SPU;
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class CDROM
{
public:
CDROM();
~CDROM();
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void Initialize(System* system, DMA* dma, InterruptController* interrupt_controller, SPU* spu);
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void Reset();
bool DoState(StateWrapper& sw);
bool HasMedia() const;
std::string GetMediaFileName() const;
void InsertMedia(std::unique_ptr<CDImage> media);
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void RemoveMedia();
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// I/O
u8 ReadRegister(u32 offset);
void WriteRegister(u32 offset, u8 value);
void DMARead(u32* words, u32 word_count);
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// Render statistics debug window.
void DrawDebugWindow();
void SetUseReadThread(bool enabled);
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private:
enum : u32
{
RAW_SECTOR_OUTPUT_SIZE = CDImage::RAW_SECTOR_SIZE - CDImage::SECTOR_SYNC_SIZE,
DATA_SECTOR_OUTPUT_SIZE = CDImage::DATA_SECTOR_SIZE,
SECTOR_SYNC_SIZE = CDImage::SECTOR_SYNC_SIZE,
SECTOR_HEADER_SIZE = CDImage::SECTOR_HEADER_SIZE,
XA_RESAMPLE_RING_BUFFER_SIZE = 32,
XA_RESAMPLE_ZIGZAG_TABLE_SIZE = 29,
XA_RESAMPLE_NUM_ZIGZAG_TABLES = 7,
PARAM_FIFO_SIZE = 16,
RESPONSE_FIFO_SIZE = 16,
DATA_FIFO_SIZE = RAW_SECTOR_OUTPUT_SIZE,
NUM_SECTOR_BUFFERS = 2,
};
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static constexpr u8 INTERRUPT_REGISTER_MASK = 0x1F;
enum class Interrupt : u8
{
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DataReady = 0x01,
Complete = 0x02,
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ACK = 0x03,
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DataEnd = 0x04,
Error = 0x05
};
enum class Command : u16
{
Sync = 0x00,
Getstat = 0x01,
Setloc = 0x02,
Play = 0x03,
Forward = 0x04,
Backward = 0x05,
ReadN = 0x06,
MotorOn = 0x07,
Stop = 0x08,
Pause = 0x09,
Init = 0x0A,
Mute = 0x0B,
Demute = 0x0C,
Setfilter = 0x0D,
Setmode = 0x0E,
Getparam = 0x0F,
GetlocL = 0x10,
GetlocP = 0x11,
SetSession = 0x12,
GetTN = 0x13,
GetTD = 0x14,
SeekL = 0x15,
SeekP = 0x16,
SetClock = 0x17,
GetClock = 0x18,
Test = 0x19,
GetID = 0x1A,
ReadS = 0x1B,
Reset = 0x1C,
GetQ = 0x1D,
ReadTOC = 0x1E,
VideoCD = 0x1F,
None = 0xFFFF
};
enum class DriveState : u8
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{
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Idle,
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SpinningUp,
SeekingPhysical,
SeekingLogical,
ReadingID,
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ReadingTOC,
Reading,
Playing,
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Pausing,
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Stopping,
ChangingSession
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};
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union StatusRegister
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{
u8 bits;
BitField<u8, u8, 0, 2> index;
BitField<u8, bool, 2, 1> ADPBUSY;
BitField<u8, bool, 3, 1> PRMEMPTY;
BitField<u8, bool, 4, 1> PRMWRDY;
BitField<u8, bool, 5, 1> RSLRRDY;
BitField<u8, bool, 6, 1> DRQSTS;
BitField<u8, bool, 7, 1> BUSYSTS;
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};
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enum StatBits : u8
{
STAT_ERROR = (1 << 0),
STAT_MOTOR_ON = (1 << 1),
STAT_SEEK_ERROR = (1 << 2),
STAT_ID_ERROR = (1 << 3),
STAT_SHELL_OPEN = (1 << 4),
STAT_HEADER_VALID = (1 << 5),
STAT_SEEKING = (1 << 6),
STAT_PLAYING_CDDA = (1 << 7)
};
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union SecondaryStatusRegister
{
u8 bits;
BitField<u8, bool, 0, 1> error;
BitField<u8, bool, 1, 1> motor_on;
BitField<u8, bool, 2, 1> seek_error;
BitField<u8, bool, 3, 1> id_error;
BitField<u8, bool, 4, 1> shell_open;
BitField<u8, bool, 5, 1> header_valid;
BitField<u8, bool, 6, 1> seeking;
BitField<u8, bool, 7, 1> playing_cdda;
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/// Clears the CDDA/seeking/header valid bits.
ALWAYS_INLINE void ClearActiveBits()
{
bits &= ~(STAT_HEADER_VALID | STAT_SEEKING | STAT_PLAYING_CDDA);
}
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};
union ModeRegister
{
u8 bits;
BitField<u8, bool, 0, 1> cdda;
BitField<u8, bool, 1, 1> auto_pause;
BitField<u8, bool, 2, 1> report_audio;
BitField<u8, bool, 3, 1> xa_filter;
BitField<u8, bool, 4, 1> ignore_bit;
BitField<u8, bool, 5, 1> read_raw_sector;
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BitField<u8, bool, 6, 1> xa_enable;
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BitField<u8, bool, 7, 1> double_speed;
};
union RequestRegister
{
u8 bits;
BitField<u8, bool, 5, 1> SMEN;
BitField<u8, bool, 6, 1> BFWR;
BitField<u8, bool, 7, 1> BFRD;
};
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void SoftReset();
bool IsDriveIdle() const { return m_drive_state == DriveState::Idle; }
bool HasPendingCommand() const { return m_command != Command::None; }
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bool HasPendingInterrupt() const { return m_interrupt_flag_register != 0; }
bool HasPendingAsyncInterrupt() const { return m_pending_async_interrupt != 0; }
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void SetInterrupt(Interrupt interrupt);
void SetAsyncInterrupt(Interrupt interrupt);
void ClearAsyncInterrupt();
void DeliverAsyncInterrupt();
void SendACKAndStat();
void SendErrorResponse(u8 stat_bits = STAT_ERROR, u8 reason = 0x80);
void SendAsyncErrorResponse(u8 stat_bits = STAT_ERROR, u8 reason = 0x80);
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void UpdateStatusRegister();
void UpdateInterruptRequest();
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TickCount GetAckDelayForCommand() const;
TickCount GetTicksForRead() const;
TickCount GetTicksForSeek() const;
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void BeginCommand(Command command); // also update status register
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void EndCommand(); // also updates status register
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void ExecuteCommand();
void ExecuteTestCommand(u8 subcommand);
void UpdateCommandEvent();
void ExecuteDrive(TickCount ticks_late);
void BeginReading(TickCount ticks_late = 0);
void BeginPlaying(u8 track_bcd, TickCount ticks_late = 0);
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void DoSpinUpComplete();
void DoSeekComplete(TickCount ticks_late);
void DoPauseComplete();
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void DoStopComplete();
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void DoChangeSessionComplete();
void DoIDRead();
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void DoTOCRead();
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void DoSectorRead();
void ProcessDataSectorHeader(const u8* raw_sector, bool set_valid);
void ProcessDataSector(const u8* raw_sector, const CDImage::SubChannelQ& subq);
void ProcessXAADPCMSector(const u8* raw_sector, const CDImage::SubChannelQ& subq);
void ProcessCDDASector(const u8* raw_sector, const CDImage::SubChannelQ& subq);
void BeginSeeking(bool logical, bool read_after_seek, bool play_after_seek);
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void LoadDataFIFO();
void ClearSectorBuffers();
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System* m_system = nullptr;
DMA* m_dma = nullptr;
InterruptController* m_interrupt_controller = nullptr;
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SPU* m_spu = nullptr;
std::unique_ptr<TimingEvent> m_command_event;
std::unique_ptr<TimingEvent> m_drive_event;
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Command m_command = Command::None;
DriveState m_drive_state = DriveState::Idle;
DiscRegion m_disc_region = DiscRegion::Other;
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StatusRegister m_status = {};
SecondaryStatusRegister m_secondary_status = {};
ModeRegister m_mode = {};
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u8 m_interrupt_enable_register = INTERRUPT_REGISTER_MASK;
u8 m_interrupt_flag_register = 0;
u8 m_pending_async_interrupt = 0;
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CDImage::Position m_setloc_position = {};
CDImage::LBA m_last_requested_sector{};
bool m_setloc_pending = false;
bool m_read_after_seek = false;
bool m_play_after_seek = false;
bool m_muted = false;
bool m_adpcm_muted = false;
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u8 m_filter_file_number = 0;
u8 m_filter_channel_number = 0;
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CDImage::SectorHeader m_last_sector_header{};
CDXA::XASubHeader m_last_sector_subheader{};
CDImage::SubChannelQ m_last_subq{};
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u8 m_last_cdda_report_frame_nibble = 0xFF;
u8 m_cdda_report_delay = 0x00;
u8 m_play_track_number_bcd = 0xFF;
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u8 m_async_command_parameter = 0x00;
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std::array<std::array<u8, 2>, 2> m_cd_audio_volume_matrix{};
std::array<std::array<u8, 2>, 2> m_next_cd_audio_volume_matrix{};
std::array<s32, 4> m_xa_last_samples{};
std::array<std::array<s16, XA_RESAMPLE_RING_BUFFER_SIZE>, 2> m_xa_resample_ring_buffer{};
u8 m_xa_resample_p = 0;
u8 m_xa_resample_sixstep = 6;
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InlineFIFOQueue<u8, PARAM_FIFO_SIZE> m_param_fifo;
InlineFIFOQueue<u8, RESPONSE_FIFO_SIZE> m_response_fifo;
InlineFIFOQueue<u8, RESPONSE_FIFO_SIZE> m_async_response_fifo;
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HeapFIFOQueue<u8, DATA_FIFO_SIZE> m_data_fifo;
struct SectorBuffer
{
HeapArray<u8, RAW_SECTOR_OUTPUT_SIZE> data;
u32 size;
};
std::array<SectorBuffer, NUM_SECTOR_BUFFERS> m_sector_buffers;
CDROMAsyncReader m_reader;
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};