mirror of
https://github.com/dolphin-emu/dolphin.git
synced 2024-11-14 21:37:52 -07:00
DVDInterface: Add a delay for commands other than regular reads
Behavior inspired by WII_IPC_HLE_Device_DI.
This commit is contained in:
parent
c6e695b245
commit
091db36162
@ -268,7 +268,8 @@ void UpdateInterrupts();
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void GenerateDIInterrupt(DI_InterruptType _DVDInterrupt);
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void ExecuteCommand();
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void FinishExecuteRead();
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s64 CalculateDiscReadTime(u64 offset, s64 length);
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u64 SimulateDiscReadTime();
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s64 CalculateRawDiscReadTime(u64 offset, s64 length);
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void DoState(PointerWrap &p)
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{
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@ -301,7 +302,12 @@ void DoState(PointerWrap &p)
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static void TransferComplete(u64 userdata, int cyclesLate)
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{
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if (m_DICR.TSTART)
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FinishExecuteRead();
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{
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m_DICR.TSTART = 0;
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m_DILENGTH.Length = 0;
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GenerateDIInterrupt(INT_TCINT);
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g_ErrorCode = 0;
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}
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}
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static u32 ProcessDTKSamples(short *tempPCM, u32 num_samples)
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@ -598,6 +604,11 @@ void GenerateDIInterrupt(DI_InterruptType _DVDInterrupt)
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void ExecuteCommand()
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{
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// This variable is used to simulate the time is takes to execute a command.
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// 1 / 15000 seconds is just some arbitrary default value.
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// Commands that implement more precise timing are supposed to overwrite this.
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u64 ticks_until_TC = SystemTimers::GetTicksPerSecond() / 15000;
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// _dbg_assert_(DVDINTERFACE, _DICR.RW == 0); // only DVD to Memory
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int GCAM = ((SConfig::GetInstance().m_SIDevice[0] == SIDEVICE_AM_BASEBOARD) &&
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(SConfig::GetInstance().m_EXIDevice[2] == EXIDEVICE_AM_BASEBOARD))
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@ -715,91 +726,13 @@ void ExecuteCommand()
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}
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}
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u64 ticksUntilTC = 0;
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ticks_until_TC = SimulateDiscReadTime();
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// The drive buffers 1 MiB (?) of data after every read request;
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// if a read request is covered by this buffer (or if it's
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// faster to wait for the data to be buffered), the drive
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// doesn't seek; it returns buffered data. Data can be
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// transferred from the buffer at up to 16 MiB/s.
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//
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// If the drive has to seek, the time this takes varies a lot.
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// A short seek is around 50 ms; a long seek is around 150 ms.
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// However, the time isn't purely dependent on the distance; the
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// pattern of previous seeks seems to matter in a way I'm
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// not sure how to explain.
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//
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// Metroid Prime is a good example of a game that's sensitive to
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// all of these details; if there isn't enough latency in the
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// right places, doors open too quickly, and if there's too
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// much latency in the wrong places, the video before the
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// save-file select screen lags.
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//
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// For now, just use a very rough approximation: 50 ms seek
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// for reads outside 1 MiB, accelerated reads within 1 MiB.
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// We can refine this if someone comes up with a more complete
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// model for seek times.
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u64 cur_time = CoreTiming::GetTicks();
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// Number of ticks it takes to seek and read directly from the disk.
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u64 disk_read_duration = CalculateDiscReadTime(iDVDOffset, m_DILENGTH.Length) +
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SystemTimers::GetTicksPerSecond() / 1000 * DISC_ACCESS_TIME_MS;
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if (iDVDOffset + m_DILENGTH.Length - g_last_read_offset > 1024 * 1024)
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// Here is the actual disc reading
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if (!DVDRead(iDVDOffset, m_DIMAR.Address, m_DILENGTH.Length))
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{
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// No buffer; just use the simple seek time + read time.
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DEBUG_LOG(DVDINTERFACE, "Seeking %" PRId64 " bytes", s64(g_last_read_offset) - s64(iDVDOffset));
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ticksUntilTC = disk_read_duration;
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g_last_read_time = cur_time + ticksUntilTC;
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PanicAlertT("Can't read from DVD_Plugin - DVD-Interface: Fatal Error");
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}
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else
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{
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// Possibly buffered; use the buffer if it saves time.
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// It's not proven that the buffer actually behaves like this, but
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// it appears to be a decent approximation.
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// Time at which the buffer will contain the data we need.
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u64 buffer_fill_time = g_last_read_time +
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CalculateDiscReadTime(g_last_read_offset, iDVDOffset + m_DILENGTH.Length - g_last_read_offset);
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// Number of ticks it takes to transfer the data from the buffer to memory.
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u64 buffer_read_duration = m_DILENGTH.Length *
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(SystemTimers::GetTicksPerSecond() / BUFFER_TRANSFER_RATE);
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if (cur_time > buffer_fill_time)
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{
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DEBUG_LOG(DVDINTERFACE, "Fast buffer read at %" PRId64, s64(iDVDOffset));
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ticksUntilTC = buffer_read_duration;
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g_last_read_time = buffer_fill_time;
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}
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else if (cur_time + disk_read_duration > buffer_fill_time)
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{
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DEBUG_LOG(DVDINTERFACE, "Slow buffer read at %" PRId64, s64(iDVDOffset));
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ticksUntilTC = std::max(buffer_fill_time - cur_time, buffer_read_duration);
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g_last_read_time = buffer_fill_time;
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}
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else
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{
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DEBUG_LOG(DVDINTERFACE, "Short seek %" PRId64 " bytes", s64(g_last_read_offset) - s64(iDVDOffset));
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ticksUntilTC = disk_read_duration;
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g_last_read_time = cur_time + ticksUntilTC;
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}
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}
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g_last_read_offset = (iDVDOffset + m_DILENGTH.Length - 2048) & ~2047;
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if (SConfig::GetInstance().m_LocalCoreStartupParameter.bFastDiscSpeed)
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{
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// Make sure fast disc speed performs "instant" reads; in addition
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// to being used to speed up games, fast disc speed is used as a
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// workaround for crashes in certain games, including Star Wars
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// Rogue Leader.
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FinishExecuteRead();
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return;
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}
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CoreTiming::ScheduleEvent((int)ticksUntilTC, tc);
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// Early return; we'll finish executing the command in FinishExecuteRead.
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return;
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}
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break;
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@ -1108,33 +1041,110 @@ void ExecuteCommand()
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break;
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}
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// transfer is done
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m_DICR.TSTART = 0;
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m_DILENGTH.Length = 0;
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GenerateDIInterrupt(INT_TCINT);
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g_ErrorCode = 0;
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// The transfer is finished after a delay
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CoreTiming::ScheduleEvent((int)ticks_until_TC, tc);
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}
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void FinishExecuteRead()
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// Simulates the timing aspects of reading data from a disc.
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// Sets g_last_read_offset and g_last_read_time, and returns ticks_until_TC.
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u64 SimulateDiscReadTime()
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{
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u32 iDVDOffset = m_DICMDBUF[1].Hex << 2;
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u64 DVD_offset = (u64)m_DICMDBUF[1].Hex << 2;
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u64 current_time = CoreTiming::GetTicks();
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u64 ticks_until_TC;
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if (!DVDRead(iDVDOffset, m_DIMAR.Address, m_DILENGTH.Length))
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if (SConfig::GetInstance().m_LocalCoreStartupParameter.bFastDiscSpeed)
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{
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PanicAlertT("Can't read from DVD_Plugin - DVD-Interface: Fatal Error");
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// Make sure fast disc speed performs "instant" reads; in addition
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// to being used to speed up games, fast disc speed is used as a
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// workaround for crashes in certain games, including Star Wars
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// Rogue Leader.
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ticks_until_TC = 0;
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g_last_read_time = current_time;
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}
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else
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{
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// The drive buffers 1 MiB (?) of data after every read request;
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// if a read request is covered by this buffer (or if it's
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// faster to wait for the data to be buffered), the drive
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// doesn't seek; it returns buffered data. Data can be
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// transferred from the buffer at up to 16 MiB/s.
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//
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// If the drive has to seek, the time this takes varies a lot.
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// A short seek is around 50 ms; a long seek is around 150 ms.
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// However, the time isn't purely dependent on the distance; the
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// pattern of previous seeks seems to matter in a way I'm
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// not sure how to explain.
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//
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// Metroid Prime is a good example of a game that's sensitive to
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// all of these details; if there isn't enough latency in the
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// right places, doors open too quickly, and if there's too
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// much latency in the wrong places, the video before the
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// save-file select screen lags.
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//
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// For now, just use a very rough approximation: 50 ms seek
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// for reads outside 1 MiB, accelerated reads within 1 MiB.
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// We can refine this if someone comes up with a more complete
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// model for seek times.
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// Number of ticks it takes to seek and read directly from the disk.
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u64 disk_read_duration = CalculateRawDiscReadTime(DVD_offset, m_DILENGTH.Length) +
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SystemTimers::GetTicksPerSecond() / 1000 * DISC_ACCESS_TIME_MS;
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if (DVD_offset + m_DILENGTH.Length - g_last_read_offset > 1024 * 1024)
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{
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// No buffer; just use the simple seek time + read time.
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DEBUG_LOG(DVDINTERFACE, "Seeking %" PRId64 " bytes",
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s64(g_last_read_offset) - s64(DVD_offset));
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ticks_until_TC = disk_read_duration;
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g_last_read_time = current_time + ticks_until_TC;
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}
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else
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{
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// Possibly buffered; use the buffer if it saves time.
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// It's not proven that the buffer actually behaves like this, but
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// it appears to be a decent approximation.
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// Time at which the buffer will contain the data we need.
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u64 buffer_fill_time = g_last_read_time +
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CalculateRawDiscReadTime(g_last_read_offset,
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DVD_offset + m_DILENGTH.Length - g_last_read_offset);
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// Number of ticks it takes to transfer the data from the buffer to memory.
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u64 buffer_read_duration = m_DILENGTH.Length *
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(SystemTimers::GetTicksPerSecond() / BUFFER_TRANSFER_RATE);
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if (current_time > buffer_fill_time)
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{
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DEBUG_LOG(DVDINTERFACE, "Fast buffer read at %" PRId64, s64(DVD_offset));
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ticks_until_TC = buffer_read_duration;
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g_last_read_time = buffer_fill_time;
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}
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else if (current_time + disk_read_duration > buffer_fill_time)
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{
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DEBUG_LOG(DVDINTERFACE, "Slow buffer read at %" PRId64, s64(DVD_offset));
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ticks_until_TC = std::max(buffer_fill_time - current_time,
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buffer_read_duration);
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g_last_read_time = buffer_fill_time;
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}
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else
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{
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DEBUG_LOG(DVDINTERFACE, "Short seek %" PRId64 " bytes",
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s64(g_last_read_offset) - s64(DVD_offset));
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ticks_until_TC = disk_read_duration;
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g_last_read_time = current_time + ticks_until_TC;
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}
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}
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}
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// transfer is done
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m_DICR.TSTART = 0;
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m_DILENGTH.Length = 0;
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GenerateDIInterrupt(INT_TCINT);
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g_ErrorCode = 0;
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g_last_read_offset = (DVD_offset + m_DILENGTH.Length - 2048) & ~2047;
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return ticks_until_TC;
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}
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// Returns the number of ticks it takes to read an amount of
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// data from a disc, ignoring factors such as seek times.
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// The result will be negative if the length is negative.
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s64 CalculateDiscReadTime(u64 offset, s64 length)
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s64 CalculateRawDiscReadTime(u64 offset, s64 length)
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{
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// The speed will be calculated using the average offset. This is a bit
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// inaccurate since the speed doesn't increase linearly with the offset,
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