using Ryujinx.Graphics.Gpu.Memory;
using System;
using System.Collections.Concurrent;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Threading;
namespace Ryujinx.Graphics.Gpu.Engine.GPFifo
{
///
/// Represents a GPU General Purpose FIFO device.
///
public sealed class GPFifoDevice : IDisposable
{
///
/// Indicates if the command buffer has pre-fetch enabled.
///
private enum CommandBufferType
{
Prefetch,
NoPrefetch
}
///
/// Command buffer data.
///
private struct CommandBuffer
{
///
/// Processor used to process the command buffer. Contains channel state.
///
public GPFifoProcessor Processor;
///
/// The type of the command buffer.
///
public CommandBufferType Type;
///
/// Fetched data.
///
public int[] Words;
///
/// The GPFIFO entry address (used in mode).
///
public ulong EntryAddress;
///
/// The count of entries inside this GPFIFO entry.
///
public uint EntryCount;
///
/// Fetch the command buffer.
///
public void Fetch(MemoryManager memoryManager)
{
if (Words == null)
{
Words = MemoryMarshal.Cast(memoryManager.GetSpan(EntryAddress, (int)EntryCount * 4, true)).ToArray();
}
}
}
private readonly ConcurrentQueue _commandBufferQueue;
private CommandBuffer _currentCommandBuffer;
private GPFifoProcessor _prevChannelProcessor;
private readonly bool _ibEnable;
private readonly GpuContext _context;
private readonly AutoResetEvent _event;
private bool _interrupt;
///
/// Creates a new instance of the GPU General Purpose FIFO device.
///
/// GPU context that the GPFIFO belongs to
internal GPFifoDevice(GpuContext context)
{
_commandBufferQueue = new ConcurrentQueue();
_ibEnable = true;
_context = context;
_event = new AutoResetEvent(false);
}
///
/// Signal the FIFO that there are new entries to process.
///
public void SignalNewEntries()
{
_event.Set();
}
///
/// Push a GPFIFO entry in the form of a prefetched command buffer.
/// It is intended to be used by nvservices to handle special cases.
///
/// Processor used to process
/// The command buffer containing the prefetched commands
internal void PushHostCommandBuffer(GPFifoProcessor processor, int[] commandBuffer)
{
_commandBufferQueue.Enqueue(new CommandBuffer
{
Processor = processor,
Type = CommandBufferType.Prefetch,
Words = commandBuffer,
EntryAddress = ulong.MaxValue,
EntryCount = (uint)commandBuffer.Length
});
}
///
/// Create a CommandBuffer from a GPFIFO entry.
///
/// Processor used to process the command buffer pointed to by
/// The GPFIFO entry
/// A new CommandBuffer based on the GPFIFO entry
private static CommandBuffer CreateCommandBuffer(GPFifoProcessor processor, GPEntry entry)
{
CommandBufferType type = CommandBufferType.Prefetch;
if (entry.Entry1Sync == Entry1Sync.Wait)
{
type = CommandBufferType.NoPrefetch;
}
ulong startAddress = ((ulong)entry.Entry0Get << 2) | ((ulong)entry.Entry1GetHi << 32);
return new CommandBuffer
{
Processor = processor,
Type = type,
Words = null,
EntryAddress = startAddress,
EntryCount = (uint)entry.Entry1Length
};
}
///
/// Pushes GPFIFO entries.
///
/// Processor used to process the command buffers pointed to by
/// GPFIFO entries
internal void PushEntries(GPFifoProcessor processor, ReadOnlySpan entries)
{
bool beforeBarrier = true;
for (int index = 0; index < entries.Length; index++)
{
ulong entry = entries[index];
CommandBuffer commandBuffer = CreateCommandBuffer(processor, Unsafe.As(ref entry));
if (beforeBarrier && commandBuffer.Type == CommandBufferType.Prefetch)
{
commandBuffer.Fetch(processor.MemoryManager);
}
if (commandBuffer.Type == CommandBufferType.NoPrefetch)
{
beforeBarrier = false;
}
_commandBufferQueue.Enqueue(commandBuffer);
}
}
///
/// Waits until commands are pushed to the FIFO.
///
/// True if commands were received, false if wait timed out
public bool WaitForCommands()
{
return !_commandBufferQueue.IsEmpty || (_event.WaitOne(8) && !_commandBufferQueue.IsEmpty);
}
///
/// Processes commands pushed to the FIFO.
///
public void DispatchCalls()
{
// Use this opportunity to also dispose any pending channels that were closed.
_context.RunDeferredActions();
// Process command buffers.
while (_ibEnable && !_interrupt && _commandBufferQueue.TryDequeue(out CommandBuffer entry))
{
_currentCommandBuffer = entry;
_currentCommandBuffer.Fetch(entry.Processor.MemoryManager);
// If we are changing the current channel,
// we need to force all the host state to be updated.
if (_prevChannelProcessor != entry.Processor)
{
_prevChannelProcessor = entry.Processor;
entry.Processor.ForceAllDirty();
}
entry.Processor.Process(_currentCommandBuffer.Words);
}
_interrupt = false;
}
///
/// Interrupts command processing. This will break out of the DispatchCalls loop.
///
public void Interrupt()
{
_interrupt = true;
}
///
/// Disposes of resources used for GPFifo command processing.
///
public void Dispose() => _event.Dispose();
}
}