mirror of
https://github.com/RetroDECK/Duckstation.git
synced 2024-11-25 23:25:41 +00:00
CDROM: Rewrite BFRD handling
Fixes hang on startup in Unirom.
This commit is contained in:
parent
723af4de3a
commit
d013438810
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@ -287,8 +287,8 @@ static void UpdatePhysicalPosition(bool update_logical);
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static void SetHoldPosition(CDImage::LBA lba, bool update_subq);
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static void SetHoldPosition(CDImage::LBA lba, bool update_subq);
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static void ResetCurrentXAFile();
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static void ResetCurrentXAFile();
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static void ResetAudioDecoder();
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static void ResetAudioDecoder();
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static void LoadDataFIFO();
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static void ClearSectorBuffers();
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static void ClearSectorBuffers();
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static void CheckForSectorBufferReadComplete();
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template<bool STEREO, bool SAMPLE_RATE>
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template<bool STEREO, bool SAMPLE_RATE>
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static void ResampleXAADPCM(const s16* frames_in, u32 num_frames_in);
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static void ResampleXAADPCM(const s16* frames_in, u32 num_frames_in);
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@ -312,6 +312,7 @@ static DiscRegion s_disc_region = DiscRegion::Other;
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static StatusRegister s_status = {};
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static StatusRegister s_status = {};
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static SecondaryStatusRegister s_secondary_status = {};
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static SecondaryStatusRegister s_secondary_status = {};
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static ModeRegister s_mode = {};
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static ModeRegister s_mode = {};
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static RequestRegister s_request_register = {};
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static u8 s_interrupt_enable_register = INTERRUPT_REGISTER_MASK;
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static u8 s_interrupt_enable_register = INTERRUPT_REGISTER_MASK;
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static u8 s_interrupt_flag_register = 0;
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static u8 s_interrupt_flag_register = 0;
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@ -359,11 +360,11 @@ static u8 s_xa_resample_sixstep = 6;
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static InlineFIFOQueue<u8, PARAM_FIFO_SIZE> s_param_fifo;
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static InlineFIFOQueue<u8, PARAM_FIFO_SIZE> s_param_fifo;
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static InlineFIFOQueue<u8, RESPONSE_FIFO_SIZE> s_response_fifo;
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static InlineFIFOQueue<u8, RESPONSE_FIFO_SIZE> s_response_fifo;
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static InlineFIFOQueue<u8, RESPONSE_FIFO_SIZE> s_async_response_fifo;
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static InlineFIFOQueue<u8, RESPONSE_FIFO_SIZE> s_async_response_fifo;
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static HeapFIFOQueue<u8, DATA_FIFO_SIZE> s_data_fifo;
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struct SectorBuffer
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struct SectorBuffer
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{
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{
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FixedHeapArray<u8, RAW_SECTOR_OUTPUT_SIZE> data;
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FixedHeapArray<u8, RAW_SECTOR_OUTPUT_SIZE> data;
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u32 position;
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u32 size;
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u32 size;
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};
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};
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@ -510,20 +511,13 @@ void CDROM::Reset()
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s_next_cd_audio_volume_matrix[1][0] = 0x00;
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s_next_cd_audio_volume_matrix[1][0] = 0x00;
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s_next_cd_audio_volume_matrix[1][1] = 0x80;
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s_next_cd_audio_volume_matrix[1][1] = 0x80;
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s_cd_audio_volume_matrix = s_next_cd_audio_volume_matrix;
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s_cd_audio_volume_matrix = s_next_cd_audio_volume_matrix;
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ClearSectorBuffers();
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ResetAudioDecoder();
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ResetAudioDecoder();
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s_param_fifo.Clear();
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s_param_fifo.Clear();
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s_response_fifo.Clear();
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s_response_fifo.Clear();
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s_async_response_fifo.Clear();
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s_async_response_fifo.Clear();
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s_data_fifo.Clear();
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s_current_read_sector_buffer = 0;
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s_current_write_sector_buffer = 0;
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for (u32 i = 0; i < NUM_SECTOR_BUFFERS; i++)
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{
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s_sector_buffers[i].data.fill(0);
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s_sector_buffers[i].size = 0;
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}
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UpdateStatusRegister();
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UpdateStatusRegister();
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@ -541,6 +535,7 @@ void CDROM::SoftReset(TickCount ticks_late)
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s_secondary_status.shell_open = !CanReadMedia();
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s_secondary_status.shell_open = !CanReadMedia();
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s_mode.bits = 0;
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s_mode.bits = 0;
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s_mode.read_raw_sector = true;
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s_mode.read_raw_sector = true;
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s_request_register.bits = 0;
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ClearAsyncInterrupt();
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ClearAsyncInterrupt();
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s_setloc_position = {};
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s_setloc_position = {};
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s_setloc_pending = false;
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s_setloc_pending = false;
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@ -550,19 +545,11 @@ void CDROM::SoftReset(TickCount ticks_late)
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s_adpcm_muted = false;
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s_adpcm_muted = false;
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s_last_cdda_report_frame_nibble = 0xFF;
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s_last_cdda_report_frame_nibble = 0xFF;
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ClearSectorBuffers();
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ResetAudioDecoder();
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ResetAudioDecoder();
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s_param_fifo.Clear();
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s_param_fifo.Clear();
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s_async_response_fifo.Clear();
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s_async_response_fifo.Clear();
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s_data_fifo.Clear();
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s_current_read_sector_buffer = 0;
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s_current_write_sector_buffer = 0;
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for (u32 i = 0; i < NUM_SECTOR_BUFFERS; i++)
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{
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s_sector_buffers[i].data.fill(0);
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s_sector_buffers[i].size = 0;
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}
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UpdateStatusRegister();
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UpdateStatusRegister();
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@ -599,6 +586,7 @@ bool CDROM::DoState(StateWrapper& sw)
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sw.Do(&s_status.bits);
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sw.Do(&s_status.bits);
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sw.Do(&s_secondary_status.bits);
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sw.Do(&s_secondary_status.bits);
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sw.Do(&s_mode.bits);
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sw.Do(&s_mode.bits);
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sw.DoEx(&s_request_register.bits, 65, static_cast<u8>(0));
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bool current_double_speed = s_mode.double_speed;
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bool current_double_speed = s_mode.double_speed;
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sw.Do(¤t_double_speed);
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sw.Do(¤t_double_speed);
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@ -643,14 +631,57 @@ bool CDROM::DoState(StateWrapper& sw)
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sw.Do(&s_param_fifo);
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sw.Do(&s_param_fifo);
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sw.Do(&s_response_fifo);
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sw.Do(&s_response_fifo);
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sw.Do(&s_async_response_fifo);
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sw.Do(&s_async_response_fifo);
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sw.Do(&s_data_fifo);
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sw.Do(&s_current_read_sector_buffer);
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if (sw.GetVersion() < 65)
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sw.Do(&s_current_write_sector_buffer);
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for (u32 i = 0; i < NUM_SECTOR_BUFFERS; i++)
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{
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{
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sw.Do(&s_sector_buffers[i].data);
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// Skip over the "copied out data", we don't care about it.
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sw.Do(&s_sector_buffers[i].size);
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u32 old_fifo_size = 0;
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sw.Do(&old_fifo_size);
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sw.SkipBytes(old_fifo_size);
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sw.Do(&s_current_read_sector_buffer);
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sw.Do(&s_current_write_sector_buffer);
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for (SectorBuffer& sb : s_sector_buffers)
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{
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sw.Do(&sb.data);
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sw.Do(&sb.size);
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sb.position = 0;
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}
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// Try to transplant the old "data fifo" into the current sector buffer's read position.
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// I doubt this is going to work well.... don't save state in the middle of loading, ya goon.
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if (old_fifo_size > 0)
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{
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SectorBuffer& sb = s_sector_buffers[s_current_read_sector_buffer];
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sb.size = s_mode.read_raw_sector ? RAW_SECTOR_OUTPUT_SIZE : DATA_SECTOR_OUTPUT_SIZE;
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sb.position = (sb.size > old_fifo_size) ? (sb.size - old_fifo_size) : 0;
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s_request_register.BFRD = (sb.position > 0);
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}
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UpdateStatusRegister();
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}
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else
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{
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sw.Do(&s_current_read_sector_buffer);
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sw.Do(&s_current_write_sector_buffer);
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for (SectorBuffer& sb : s_sector_buffers)
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{
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sw.Do(&sb.size);
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sw.Do(&sb.position);
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// We're never going to access data that has already been read out, so skip saving it.
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if (sb.position < sb.size)
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{
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sw.DoBytes(&sb.data[sb.position], sb.size - sb.position);
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#ifdef _DEBUG
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// Sanity test in debug builds.
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if (sb.position > 0)
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std::memset(sb.data.data(), 0, sb.position);
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#endif
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}
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}
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}
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}
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sw.Do(&s_audio_fifo);
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sw.Do(&s_audio_fifo);
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@ -881,9 +912,20 @@ u8 CDROM::ReadRegister(u32 offset)
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case 2: // always data FIFO
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case 2: // always data FIFO
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{
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{
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const u8 value = s_data_fifo.Pop();
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SectorBuffer& sb = s_sector_buffers[s_current_read_sector_buffer];
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UpdateStatusRegister();
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u8 value = 0;
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DEBUG_LOG("CDROM read data FIFO -> 0x{:08X}", ZeroExtend32(value));
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if (s_request_register.BFRD && sb.position < sb.size)
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{
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value = (sb.position < sb.size) ? sb.data[sb.position++] : 0;
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CheckForSectorBufferReadComplete();
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}
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else
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{
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WARNING_LOG("Sector buffer overread (BDRD={}, buffer={}, pos={}, size={})", s_request_register.BFRD.GetValue(),
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s_current_read_sector_buffer, sb.position, sb.size);
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}
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DEBUG_LOG("CDROM read data FIFO -> 0x{:02X}", value);
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return value;
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return value;
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}
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}
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@ -957,14 +999,12 @@ void CDROM::WriteRegister(u32 offset, u8 value)
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if (rr.BFWR)
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if (rr.BFWR)
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ERROR_LOG("Buffer write enable set");
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ERROR_LOG("Buffer write enable set");
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if (rr.BFRD)
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s_request_register.bits = rr.bits;
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if (s_request_register.BFRD)
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{
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{
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LoadDataFIFO();
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const SectorBuffer& sb = s_sector_buffers[s_current_read_sector_buffer];
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}
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DEV_LOG("BFRD buffer={} pos={} size={}", s_current_read_sector_buffer, sb.position, sb.size);
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else
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{
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DEBUG_LOG("Clearing data FIFO");
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s_data_fifo.Clear();
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}
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}
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UpdateStatusRegister();
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UpdateStatusRegister();
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@ -1074,15 +1114,26 @@ void CDROM::WriteRegister(u32 offset, u8 value)
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void CDROM::DMARead(u32* words, u32 word_count)
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void CDROM::DMARead(u32* words, u32 word_count)
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{
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{
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const u32 words_in_fifo = s_data_fifo.GetSize() / 4;
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SectorBuffer& sb = s_sector_buffers[s_current_read_sector_buffer];
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if (words_in_fifo < word_count)
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const u32 bytes_available = (s_request_register.BFRD && sb.position < sb.size) ? (sb.size - sb.position) : 0;
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u8* dst_ptr = reinterpret_cast<u8*>(words);
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u32 bytes_remaining = word_count * sizeof(u32);
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if (bytes_available > 0)
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{
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{
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ERROR_LOG("DMA read on empty/near-empty data FIFO");
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const u32 transfer_size = std::min(bytes_available, bytes_remaining);
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std::memset(words + words_in_fifo, 0, sizeof(u32) * (word_count - words_in_fifo));
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std::memcpy(dst_ptr, &sb.data[sb.position], transfer_size);
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sb.position += transfer_size;
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dst_ptr += transfer_size;
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bytes_remaining -= transfer_size;
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}
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}
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const u32 bytes_to_read = std::min<u32>(word_count * sizeof(u32), s_data_fifo.GetSize());
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if (bytes_remaining > 0)
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s_data_fifo.PopRange(reinterpret_cast<u8*>(words), bytes_to_read);
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{
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ERROR_LOG("Sector buffer overread by {} bytes", bytes_remaining);
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std::memset(dst_ptr, 0, bytes_remaining);
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}
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CheckForSectorBufferReadComplete();
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}
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}
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bool CDROM::HasPendingCommand()
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bool CDROM::HasPendingCommand()
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@ -1181,6 +1232,7 @@ void CDROM::DeliverAsyncInterrupt(void*, TickCount ticks, TickCount ticks_late)
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Assert(s_pending_async_interrupt != 0 && !HasPendingInterrupt());
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Assert(s_pending_async_interrupt != 0 && !HasPendingInterrupt());
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DEBUG_LOG("Delivering async interrupt {}", s_pending_async_interrupt);
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DEBUG_LOG("Delivering async interrupt {}", s_pending_async_interrupt);
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// This is the HC05 setting the read position from the decoder.
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if (s_pending_async_interrupt == static_cast<u8>(Interrupt::DataReady))
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if (s_pending_async_interrupt == static_cast<u8>(Interrupt::DataReady))
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s_current_read_sector_buffer = s_current_write_sector_buffer;
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s_current_read_sector_buffer = s_current_write_sector_buffer;
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@ -1220,7 +1272,7 @@ void CDROM::UpdateStatusRegister()
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s_status.PRMEMPTY = s_param_fifo.IsEmpty();
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s_status.PRMEMPTY = s_param_fifo.IsEmpty();
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s_status.PRMWRDY = !s_param_fifo.IsFull();
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s_status.PRMWRDY = !s_param_fifo.IsFull();
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s_status.RSLRRDY = !s_response_fifo.IsEmpty();
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s_status.RSLRRDY = !s_response_fifo.IsEmpty();
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s_status.DRQSTS = !s_data_fifo.IsEmpty();
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s_status.DRQSTS = s_request_register.BFRD;
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s_status.BUSYSTS = HasPendingCommand();
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s_status.BUSYSTS = HasPendingCommand();
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DMA::SetRequest(DMA::Channel::CDROM, s_status.DRQSTS);
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DMA::SetRequest(DMA::Channel::CDROM, s_status.DRQSTS);
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@ -2352,8 +2404,6 @@ void CDROM::BeginReading(TickCount ticks_late /* = 0 */, bool after_seek /* = fa
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s_drive_state = DriveState::Reading;
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s_drive_state = DriveState::Reading;
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s_drive_event->SetInterval(ticks);
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s_drive_event->SetInterval(ticks);
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s_drive_event->Schedule(first_sector_ticks);
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s_drive_event->Schedule(first_sector_ticks);
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s_current_read_sector_buffer = 0;
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s_current_write_sector_buffer = 0;
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s_requested_lba = s_current_lba;
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s_requested_lba = s_current_lba;
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s_reader.QueueReadSector(s_requested_lba);
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s_reader.QueueReadSector(s_requested_lba);
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@ -2397,8 +2447,6 @@ void CDROM::BeginPlaying(u8 track, TickCount ticks_late /* = 0 */, bool after_se
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s_drive_state = DriveState::Playing;
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s_drive_state = DriveState::Playing;
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s_drive_event->SetInterval(ticks);
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s_drive_event->SetInterval(ticks);
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s_drive_event->Schedule(first_sector_ticks);
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s_drive_event->Schedule(first_sector_ticks);
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s_current_read_sector_buffer = 0;
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s_current_write_sector_buffer = 0;
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s_requested_lba = s_current_lba;
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s_requested_lba = s_current_lba;
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s_reader.QueueReadSector(s_requested_lba);
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s_reader.QueueReadSector(s_requested_lba);
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@ -2920,7 +2968,7 @@ ALWAYS_INLINE_RELEASE void CDROM::ProcessDataSector(const u8* raw_sector, const
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// TODO: How does XA relate to this buffering?
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// TODO: How does XA relate to this buffering?
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SectorBuffer* sb = &s_sector_buffers[sb_num];
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SectorBuffer* sb = &s_sector_buffers[sb_num];
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if (sb->size > 0)
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if (sb->position == 0)
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{
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{
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DEV_LOG("Sector buffer {} was not read, previous sector dropped",
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DEV_LOG("Sector buffer {} was not read, previous sector dropped",
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(s_current_write_sector_buffer - 1) % NUM_SECTOR_BUFFERS);
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(s_current_write_sector_buffer - 1) % NUM_SECTOR_BUFFERS);
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@ -2947,6 +2995,7 @@ ALWAYS_INLINE_RELEASE void CDROM::ProcessDataSector(const u8* raw_sector, const
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sb->size = DATA_SECTOR_OUTPUT_SIZE;
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sb->size = DATA_SECTOR_OUTPUT_SIZE;
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}
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}
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sb->position = 0;
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s_current_write_sector_buffer = sb_num;
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s_current_write_sector_buffer = sb_num;
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// Deliver to CPU
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// Deliver to CPU
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@ -3290,42 +3339,46 @@ ALWAYS_INLINE_RELEASE void CDROM::ProcessCDDASector(const u8* raw_sector, const
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}
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}
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}
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}
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void CDROM::LoadDataFIFO()
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void CDROM::ClearSectorBuffers()
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{
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{
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if (!s_data_fifo.IsEmpty())
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s_current_read_sector_buffer = 0;
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{
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s_current_write_sector_buffer = 0;
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DEV_LOG("Load data fifo when not empty");
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return;
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}
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// any data to load?
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for (SectorBuffer& sb : s_sector_buffers)
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SectorBuffer& sb = s_sector_buffers[s_current_read_sector_buffer];
|
|
||||||
if (sb.size == 0)
|
|
||||||
{
|
{
|
||||||
WARNING_LOG("Attempting to load empty sector buffer");
|
sb.position = 0;
|
||||||
s_data_fifo.PushRange(sb.data.data(), RAW_SECTOR_OUTPUT_SIZE);
|
|
||||||
}
|
|
||||||
else
|
|
||||||
{
|
|
||||||
s_data_fifo.PushRange(sb.data.data(), sb.size);
|
|
||||||
sb.size = 0;
|
sb.size = 0;
|
||||||
}
|
}
|
||||||
|
|
||||||
DEBUG_LOG("Loaded {} bytes to data FIFO from buffer {}", s_data_fifo.GetSize(), s_current_read_sector_buffer);
|
s_request_register.BFRD = false;
|
||||||
|
s_status.DRQSTS = false;
|
||||||
SectorBuffer& next_sb = s_sector_buffers[s_current_write_sector_buffer];
|
|
||||||
if (next_sb.size > 0)
|
|
||||||
{
|
|
||||||
DEV_LOG("Sending additional INT1 for missed sector in buffer {}", s_current_write_sector_buffer);
|
|
||||||
s_async_response_fifo.Push(s_secondary_status.bits);
|
|
||||||
SetAsyncInterrupt(Interrupt::DataReady);
|
|
||||||
}
|
|
||||||
}
|
}
|
||||||
|
|
||||||
void CDROM::ClearSectorBuffers()
|
void CDROM::CheckForSectorBufferReadComplete()
|
||||||
{
|
{
|
||||||
for (u32 i = 0; i < NUM_SECTOR_BUFFERS; i++)
|
SectorBuffer& sb = s_sector_buffers[s_current_read_sector_buffer];
|
||||||
s_sector_buffers[i].size = 0;
|
|
||||||
|
// BFRD gets cleared on DMA completion.
|
||||||
|
s_request_register.BFRD = (s_request_register.BFRD && sb.position < sb.size);
|
||||||
|
s_status.DRQSTS = s_request_register.BFRD;
|
||||||
|
|
||||||
|
// Buffer complete?
|
||||||
|
if (sb.position >= sb.size)
|
||||||
|
{
|
||||||
|
sb.position = 0;
|
||||||
|
sb.size = 0;
|
||||||
|
|
||||||
|
// Redeliver missed sector on DMA/read complete.
|
||||||
|
// I'm still not sure if this is correct behavior.
|
||||||
|
SectorBuffer& next_sb = s_sector_buffers[s_current_write_sector_buffer];
|
||||||
|
if (next_sb.position == 0 && next_sb.size > 0)
|
||||||
|
{
|
||||||
|
DEV_LOG("Sending additional INT1 for missed sector in buffer {}", s_current_write_sector_buffer);
|
||||||
|
s_current_read_sector_buffer = s_current_write_sector_buffer;
|
||||||
|
s_async_response_fifo.Push(s_secondary_status.bits);
|
||||||
|
SetAsyncInterrupt(Interrupt::DataReady);
|
||||||
|
}
|
||||||
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
void CDROM::CreateFileMap()
|
void CDROM::CreateFileMap()
|
||||||
|
|
|
@ -5,7 +5,7 @@
|
||||||
#include "types.h"
|
#include "types.h"
|
||||||
|
|
||||||
static constexpr u32 SAVE_STATE_MAGIC = 0x43435544;
|
static constexpr u32 SAVE_STATE_MAGIC = 0x43435544;
|
||||||
static constexpr u32 SAVE_STATE_VERSION = 64;
|
static constexpr u32 SAVE_STATE_VERSION = 65;
|
||||||
static constexpr u32 SAVE_STATE_MINIMUM_VERSION = 42;
|
static constexpr u32 SAVE_STATE_MINIMUM_VERSION = 42;
|
||||||
|
|
||||||
static_assert(SAVE_STATE_VERSION >= SAVE_STATE_MINIMUM_VERSION);
|
static_assert(SAVE_STATE_VERSION >= SAVE_STATE_MINIMUM_VERSION);
|
||||||
|
|
Loading…
Reference in a new issue