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jinx/Ryujinx.HLE/HOS/Horizon.cs
Mary f556c80d02
Haydn: Part 1 (#2007)
* Haydn: Part 1

Based on my reverse of audio 11.0.0.

As always, core implementation under LGPLv3 for the same reasons as for Amadeus.

This place the bases of a more flexible audio system while making audout & audin accurate.

This have the following improvements:
- Complete reimplementation of audout and audin.
- Audin currently only have a dummy backend.
- Dramatically reduce CPU usage by up to 50% in common cases (SoundIO and OpenAL).
- Audio Renderer now can output to 5.1 devices when supported.
- Audio Renderer init its backend on demand instead of keeping two up all the time.
- All backends implementation are now in their own project.
- Ryujinx.Audio.Renderer was renamed Ryujinx.Audio and was refactored because of this.

As a note, games having issues with OpenAL haven't improved and will not
because of OpenAL design (stopping when buffers finish playing causing
possible audio "pops" when buffers are very small).

* Update for latest hexkyz's edits on Switchbrew

* audren: Rollback channel configuration changes

* Address gdkchan's comments

* Fix typo in OpenAL backend driver

* Address last comments

* Fix a nit

* Address gdkchan's comments
2021-02-26 01:11:56 +01:00

400 lines
16 KiB
C#

using LibHac;
using LibHac.Bcat;
using LibHac.Fs;
using LibHac.FsSystem;
using Ryujinx.Audio;
using Ryujinx.Audio.Input;
using Ryujinx.Audio.Integration;
using Ryujinx.Audio.Output;
using Ryujinx.Audio.Renderer.Device;
using Ryujinx.Audio.Renderer.Server;
using Ryujinx.Common;
using Ryujinx.Configuration;
using Ryujinx.HLE.FileSystem.Content;
using Ryujinx.HLE.HOS.Font;
using Ryujinx.HLE.HOS.Kernel;
using Ryujinx.HLE.HOS.Kernel.Memory;
using Ryujinx.HLE.HOS.Kernel.Process;
using Ryujinx.HLE.HOS.Kernel.Threading;
using Ryujinx.HLE.HOS.Services;
using Ryujinx.HLE.HOS.Services.Am.AppletAE.AllSystemAppletProxiesService.SystemAppletProxy;
using Ryujinx.HLE.HOS.Services.Apm;
using Ryujinx.HLE.HOS.Services.Arp;
using Ryujinx.HLE.HOS.Services.Audio.AudioRenderer;
using Ryujinx.HLE.HOS.Services.Mii;
using Ryujinx.HLE.HOS.Services.Nv;
using Ryujinx.HLE.HOS.Services.Nv.NvDrvServices.NvHostCtrl;
using Ryujinx.HLE.HOS.Services.Pcv.Bpc;
using Ryujinx.HLE.HOS.Services.Settings;
using Ryujinx.HLE.HOS.Services.Sm;
using Ryujinx.HLE.HOS.Services.SurfaceFlinger;
using Ryujinx.HLE.HOS.Services.Time.Clock;
using Ryujinx.HLE.HOS.SystemState;
using Ryujinx.HLE.Loaders.Executables;
using Ryujinx.HLE.Utilities;
using System;
using System.IO;
using System.Linq;
using System.Threading;
namespace Ryujinx.HLE.HOS
{
using TimeServiceManager = Services.Time.TimeManager;
public class Horizon : IDisposable
{
internal const int HidSize = 0x40000;
internal const int FontSize = 0x1100000;
internal const int IirsSize = 0x8000;
internal const int TimeSize = 0x1000;
internal KernelContext KernelContext { get; }
internal Switch Device { get; private set; }
internal SurfaceFlinger SurfaceFlinger { get; private set; }
internal AudioManager AudioManager { get; private set; }
internal AudioOutputManager AudioOutputManager { get; private set; }
internal AudioInputManager AudioInputManager { get; private set; }
internal AudioRendererManager AudioRendererManager { get; private set; }
internal VirtualDeviceSessionRegistry AudioDeviceSessionRegistry { get; private set; }
public SystemStateMgr State { get; private set; }
internal PerformanceState PerformanceState { get; private set; }
internal AppletStateMgr AppletState { get; private set; }
internal ServerBase BsdServer { get; private set; }
internal ServerBase AudRenServer { get; private set; }
internal ServerBase AudOutServer { get; private set; }
internal ServerBase HidServer { get; private set; }
internal ServerBase NvDrvServer { get; private set; }
internal ServerBase TimeServer { get; private set; }
internal ServerBase ViServer { get; private set; }
internal ServerBase ViServerM { get; private set; }
internal ServerBase ViServerS { get; private set; }
internal KSharedMemory HidSharedMem { get; private set; }
internal KSharedMemory FontSharedMem { get; private set; }
internal KSharedMemory IirsSharedMem { get; private set; }
internal SharedFontManager Font { get; private set; }
internal ContentManager ContentManager { get; private set; }
internal KEvent VsyncEvent { get; private set; }
internal KEvent DisplayResolutionChangeEvent { get; private set; }
public Keyset KeySet => Device.FileSystem.KeySet;
private bool _isDisposed;
public bool EnablePtc { get; set; }
public IntegrityCheckLevel FsIntegrityCheckLevel { get; set; }
public int GlobalAccessLogMode { get; set; }
internal ulong HidBaseAddress { get; private set; }
internal NvHostSyncpt HostSyncpoint { get; private set; }
internal LibHac.Horizon LibHacHorizonServer { get; private set; }
internal HorizonClient LibHacHorizonClient { get; private set; }
public Horizon(Switch device, ContentManager contentManager)
{
KernelContext = new KernelContext(device, device.Memory);
Device = device;
State = new SystemStateMgr();
PerformanceState = new PerformanceState();
// Note: This is not really correct, but with HLE of services, the only memory
// region used that is used is Application, so we can use the other ones for anything.
KMemoryRegionManager region = KernelContext.MemoryRegions[(int)MemoryRegion.NvServices];
ulong hidPa = region.Address;
ulong fontPa = region.Address + HidSize;
ulong iirsPa = region.Address + HidSize + FontSize;
ulong timePa = region.Address + HidSize + FontSize + IirsSize;
HidBaseAddress = hidPa - DramMemoryMap.DramBase;
KPageList hidPageList = new KPageList();
KPageList fontPageList = new KPageList();
KPageList iirsPageList = new KPageList();
KPageList timePageList = new KPageList();
hidPageList .AddRange(hidPa, HidSize / KMemoryManager.PageSize);
fontPageList.AddRange(fontPa, FontSize / KMemoryManager.PageSize);
iirsPageList.AddRange(iirsPa, IirsSize / KMemoryManager.PageSize);
timePageList.AddRange(timePa, TimeSize / KMemoryManager.PageSize);
HidSharedMem = new KSharedMemory(KernelContext, hidPageList, 0, 0, KMemoryPermission.Read);
FontSharedMem = new KSharedMemory(KernelContext, fontPageList, 0, 0, KMemoryPermission.Read);
IirsSharedMem = new KSharedMemory(KernelContext, iirsPageList, 0, 0, KMemoryPermission.Read);
KSharedMemory timeSharedMemory = new KSharedMemory(KernelContext, timePageList, 0, 0, KMemoryPermission.Read);
TimeServiceManager.Instance.Initialize(device, this, timeSharedMemory, timePa - DramMemoryMap.DramBase, TimeSize);
AppletState = new AppletStateMgr(this);
AppletState.SetFocus(true);
Font = new SharedFontManager(device, fontPa - DramMemoryMap.DramBase);
VsyncEvent = new KEvent(KernelContext);
DisplayResolutionChangeEvent = new KEvent(KernelContext);
ContentManager = contentManager;
// TODO: use set:sys (and get external clock source id from settings)
// TODO: use "time!standard_steady_clock_rtc_update_interval_minutes" and implement a worker thread to be accurate.
UInt128 clockSourceId = new UInt128(Guid.NewGuid().ToByteArray());
IRtcManager.GetExternalRtcValue(out ulong rtcValue);
// We assume the rtc is system time.
TimeSpanType systemTime = TimeSpanType.FromSeconds((long)rtcValue);
// Configure and setup internal offset
TimeSpanType internalOffset = TimeSpanType.FromSeconds(ConfigurationState.Instance.System.SystemTimeOffset);
TimeSpanType systemTimeOffset = new TimeSpanType(systemTime.NanoSeconds + internalOffset.NanoSeconds);
if (systemTime.IsDaylightSavingTime() && !systemTimeOffset.IsDaylightSavingTime())
{
internalOffset = internalOffset.AddSeconds(3600L);
}
else if (!systemTime.IsDaylightSavingTime() && systemTimeOffset.IsDaylightSavingTime())
{
internalOffset = internalOffset.AddSeconds(-3600L);
}
internalOffset = new TimeSpanType(-internalOffset.NanoSeconds);
// First init the standard steady clock
TimeServiceManager.Instance.SetupStandardSteadyClock(null, clockSourceId, systemTime, internalOffset, TimeSpanType.Zero, false);
TimeServiceManager.Instance.SetupStandardLocalSystemClock(null, new SystemClockContext(), systemTime.ToSeconds());
if (NxSettings.Settings.TryGetValue("time!standard_network_clock_sufficient_accuracy_minutes", out object standardNetworkClockSufficientAccuracyMinutes))
{
TimeSpanType standardNetworkClockSufficientAccuracy = new TimeSpanType((int)standardNetworkClockSufficientAccuracyMinutes * 60000000000);
// The network system clock needs a valid system clock, as such we setup this system clock using the local system clock.
TimeServiceManager.Instance.StandardLocalSystemClock.GetClockContext(null, out SystemClockContext localSytemClockContext);
TimeServiceManager.Instance.SetupStandardNetworkSystemClock(localSytemClockContext, standardNetworkClockSufficientAccuracy);
}
TimeServiceManager.Instance.SetupStandardUserSystemClock(null, false, SteadyClockTimePoint.GetRandom());
// FIXME: TimeZone shoud be init here but it's actually done in ContentManager
TimeServiceManager.Instance.SetupEphemeralNetworkSystemClock();
DatabaseImpl.Instance.InitializeDatabase(device);
HostSyncpoint = new NvHostSyncpt(device);
SurfaceFlinger = new SurfaceFlinger(device);
ConfigurationState.Instance.System.EnableDockedMode.Event += OnDockedModeChange;
InitLibHacHorizon();
InitializeAudioRenderer();
}
private void InitializeAudioRenderer()
{
AudioManager = new AudioManager();
AudioOutputManager = new AudioOutputManager();
AudioInputManager = new AudioInputManager();
AudioRendererManager = new AudioRendererManager();
AudioDeviceSessionRegistry = new VirtualDeviceSessionRegistry();
IWritableEvent[] audioOutputRegisterBufferEvents = new IWritableEvent[Constants.AudioOutSessionCountMax];
for (int i = 0; i < audioOutputRegisterBufferEvents.Length; i++)
{
KEvent registerBufferEvent = new KEvent(KernelContext);
audioOutputRegisterBufferEvents[i] = new AudioKernelEvent(registerBufferEvent);
}
AudioOutputManager.Initialize(Device.AudioDeviceDriver, audioOutputRegisterBufferEvents);
IWritableEvent[] audioInputRegisterBufferEvents = new IWritableEvent[Constants.AudioInSessionCountMax];
for (int i = 0; i < audioInputRegisterBufferEvents.Length; i++)
{
KEvent registerBufferEvent = new KEvent(KernelContext);
audioInputRegisterBufferEvents[i] = new AudioKernelEvent(registerBufferEvent);
}
AudioInputManager.Initialize(Device.AudioDeviceDriver, audioInputRegisterBufferEvents);
IWritableEvent[] systemEvents = new IWritableEvent[Constants.AudioRendererSessionCountMax];
for (int i = 0; i < systemEvents.Length; i++)
{
KEvent systemEvent = new KEvent(KernelContext);
systemEvents[i] = new AudioKernelEvent(systemEvent);
}
AudioManager.Initialize(Device.AudioDeviceDriver.GetUpdateRequiredEvent(), AudioOutputManager.Update, AudioInputManager.Update);
AudioRendererManager.Initialize(systemEvents, Device.AudioDeviceDriver);
AudioManager.Start();
}
public void InitializeServices()
{
IUserInterface sm = new IUserInterface(KernelContext);
// Wait until SM server thread is done with initialization,
// only then doing connections to SM is safe.
sm.Server.InitDone.WaitOne();
sm.Server.InitDone.Dispose();
BsdServer = new ServerBase(KernelContext, "BsdServer");
AudRenServer = new ServerBase(KernelContext, "AudioRendererServer");
AudOutServer = new ServerBase(KernelContext, "AudioOutServer");
HidServer = new ServerBase(KernelContext, "HidServer");
NvDrvServer = new ServerBase(KernelContext, "NvservicesServer");
TimeServer = new ServerBase(KernelContext, "TimeServer");
ViServer = new ServerBase(KernelContext, "ViServerU");
ViServerM = new ServerBase(KernelContext, "ViServerM");
ViServerS = new ServerBase(KernelContext, "ViServerS");
}
public void LoadKip(string kipPath)
{
using IStorage kipFile = new LocalStorage(kipPath, FileAccess.Read);
ProgramLoader.LoadKip(KernelContext, new KipExecutable(kipFile));
}
private void InitLibHacHorizon()
{
LibHac.Horizon horizon = new LibHac.Horizon(null, Device.FileSystem.FsServer);
horizon.CreateHorizonClient(out HorizonClient ryujinxClient).ThrowIfFailure();
horizon.CreateHorizonClient(out HorizonClient bcatClient).ThrowIfFailure();
ryujinxClient.Sm.RegisterService(new LibHacIReader(this), "arp:r").ThrowIfFailure();
new BcatServer(bcatClient);
LibHacHorizonServer = horizon;
LibHacHorizonClient = ryujinxClient;
}
private void OnDockedModeChange(object sender, ReactiveEventArgs<bool> e)
{
if (e.NewValue != State.DockedMode)
{
State.DockedMode = e.NewValue;
PerformanceState.PerformanceMode = State.DockedMode ? PerformanceMode.Boost : PerformanceMode.Default;
AppletState.Messages.Enqueue(MessageInfo.OperationModeChanged);
AppletState.Messages.Enqueue(MessageInfo.PerformanceModeChanged);
AppletState.MessageEvent.ReadableEvent.Signal();
SignalDisplayResolutionChange();
// Reconfigure controllers
Device.Hid.RefreshInputConfig(ConfigurationState.Instance.Hid.InputConfig.Value);
}
}
public void SimulateWakeUpMessage()
{
AppletState.Messages.Enqueue(MessageInfo.Resume);
AppletState.MessageEvent.ReadableEvent.Signal();
}
public void SignalDisplayResolutionChange()
{
DisplayResolutionChangeEvent.ReadableEvent.Signal();
}
public void SignalVsync()
{
VsyncEvent.ReadableEvent.Signal();
}
public void Dispose()
{
Dispose(true);
}
protected virtual void Dispose(bool disposing)
{
if (!_isDisposed && disposing)
{
ConfigurationState.Instance.System.EnableDockedMode.Event -= OnDockedModeChange;
_isDisposed = true;
KProcess terminationProcess = new KProcess(KernelContext);
KThread terminationThread = new KThread(KernelContext);
terminationThread.Initialize(0, 0, 0, 3, 0, terminationProcess, ThreadType.Kernel, () =>
{
// Force all threads to exit.
lock (KernelContext.Processes)
{
// Terminate application.
foreach (KProcess process in KernelContext.Processes.Values.Where(x => x.Flags.HasFlag(ProcessCreationFlags.IsApplication)))
{
process.Terminate();
}
// The application existed, now surface flinger can exit too.
SurfaceFlinger.Dispose();
// Terminate HLE services (must be done after the application is already terminated,
// otherwise the application will receive errors due to service termination.
foreach (KProcess process in KernelContext.Processes.Values.Where(x => !x.Flags.HasFlag(ProcessCreationFlags.IsApplication)))
{
process.Terminate();
}
}
// Exit ourself now!
KernelStatic.GetCurrentThread().Exit();
});
terminationThread.Start();
// Wait until the thread is actually started.
while (terminationThread.HostThread.ThreadState == ThreadState.Unstarted)
{
Thread.Sleep(10);
}
// Wait until the termination thread is done terminating all the other threads.
terminationThread.HostThread.Join();
// Destroy nvservices channels as KThread could be waiting on some user events.
// This is safe as KThread that are likely to call ioctls are going to be terminated by the post handler hook on the SVC facade.
INvDrvServices.Destroy();
AudioManager.Dispose();
AudioOutputManager.Dispose();
AudioInputManager.Dispose();
AudioRendererManager.Dispose();
KernelContext.Dispose();
}
}
}
}