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diff --git a/LibOVRKernel/Src/Kernel/OVR_ThreadCommandQueue.cpp b/LibOVRKernel/Src/Kernel/OVR_ThreadCommandQueue.cpp
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+++ b/LibOVRKernel/Src/Kernel/OVR_ThreadCommandQueue.cpp
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+/************************************************************************************
+
+PublicHeader:   None
+Filename    :   OVR_ThreadCommandQueue.cpp
+Content     :   Command queue for operations executed on a thread
+Created     :   October 29, 2012
+
+Copyright   :   Copyright 2014 Oculus VR, LLC All Rights reserved.
+
+Licensed under the Oculus VR Rift SDK License Version 3.2 (the "License"); 
+you may not use the Oculus VR Rift SDK except in compliance with the License, 
+which is provided at the time of installation or download, or which 
+otherwise accompanies this software in either electronic or hard copy form.
+
+You may obtain a copy of the License at
+
+http://www.oculusvr.com/licenses/LICENSE-3.2 
+
+Unless required by applicable law or agreed to in writing, the Oculus VR SDK 
+distributed under the License is distributed on an "AS IS" BASIS,
+WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+See the License for the specific language governing permissions and
+limitations under the License.
+
+************************************************************************************/
+
+#include "OVR_ThreadCommandQueue.h"
+
+namespace OVR {
+
+
+//------------------------------------------------------------------------
+// ***** CircularBuffer
+
+// CircularBuffer is a FIFO buffer implemented in a single block of memory,
+// which allows writing and reading variable-size data chucks. Write fails
+// if buffer is full.
+
+class CircularBuffer
+{
+    enum {
+        AlignSize = 16,
+        AlignMask = AlignSize - 1
+    };
+
+    uint8_t*  pBuffer;
+    size_t  Size;
+    size_t  Tail;   // Byte offset of next item to be popped.
+    size_t  Head;   // Byte offset of where next push will take place.
+    size_t  End;    // When Head < Tail, this is used instead of Size.    
+
+    inline size_t roundUpSize(size_t size)
+    { return (size + AlignMask) & ~(size_t)AlignMask; }
+
+public:
+
+    CircularBuffer(size_t size)
+        : Size(size), Tail(0), Head(0), End(0)
+    {
+        pBuffer = (uint8_t*)OVR_ALLOC_ALIGNED(roundUpSize(size), AlignSize);
+    }
+    ~CircularBuffer()
+    {
+        // For ThreadCommands, we must consume everything before shutdown.
+        OVR_ASSERT(IsEmpty());
+        OVR_FREE_ALIGNED(pBuffer);
+    }
+
+    bool    IsEmpty() const { return (Head == Tail); }
+
+    // Allocates a state block of specified size and advances pointers,
+    // returning 0 if buffer is full.
+    uint8_t*  Write(size_t size);
+
+    // Returns a pointer to next available data block; 0 if none available.
+    uint8_t*  ReadBegin()
+    { return (Head != Tail) ? (pBuffer + Tail) : 0; }
+    // Consumes data of specified size; this must match size passed to Write.
+    void    ReadEnd(size_t size);
+};
+
+
+// Allocates a state block of specified size and advances pointers,
+// returning 0 if buffer is full.
+uint8_t* CircularBuffer::Write(size_t size)
+{
+    uint8_t* p = 0;
+
+    size = roundUpSize(size);
+    // Since this is circular buffer, always allow at least one item.
+    OVR_ASSERT(size < Size/2);
+
+    if (Head >= Tail)
+    {
+        OVR_ASSERT(End == 0);
+        
+        if (size <= (Size - Head))
+        {
+            p    = pBuffer + Head;
+            Head += size;
+        }
+        else if (size < Tail)
+        {
+            p    = pBuffer;
+            End  = Head;
+            Head = size;
+            OVR_ASSERT(Head != Tail);
+        }
+    }
+    else
+    {
+        OVR_ASSERT(End != 0);
+
+        if ((Tail - Head) > size)
+        {
+            p    = pBuffer + Head;
+            Head += size;
+            OVR_ASSERT(Head != Tail);
+        }
+    }
+
+    return p;
+}
+
+void CircularBuffer::ReadEnd(size_t size)
+{
+    OVR_ASSERT(Head != Tail);
+    size = roundUpSize(size);
+    
+    Tail += size;        
+    if (Tail == End)
+    {
+        Tail = End = 0;
+    }
+    else if (Tail == Head)
+    {        
+        OVR_ASSERT(End == 0);
+        Tail = Head = 0;
+    }
+}
+
+
+//-------------------------------------------------------------------------------------
+// ***** ThreadCommand
+
+ThreadCommand::PopBuffer::~PopBuffer()
+{
+	if (Size) {
+		Destruct<ThreadCommand>(toCommand());
+	}
+}
+
+void ThreadCommand::PopBuffer::InitFromBuffer(void* data)
+{
+    ThreadCommand* cmd = (ThreadCommand*)data;
+
+	if (Size) {
+		Destruct<ThreadCommand>(toCommand());
+	}
+    Size = cmd->Size;
+    if (Size > MaxSize)
+        Size = MaxSize;
+    memcpy(Buffer, (void*)cmd, Size);
+}
+
+void ThreadCommand::PopBuffer::Execute()
+{
+    ThreadCommand* command = toCommand();
+    OVR_ASSERT(command);
+    if (command)
+    {
+        command->Execute();
+    }
+	if (NeedsWait()) {
+		GetEvent()->PulseEvent();
+	}
+}
+
+//-------------------------------------------------------------------------------------
+
+class ThreadCommandQueueImpl : public NewOverrideBase
+{
+    typedef ThreadCommand::NotifyEvent NotifyEvent;
+    friend class ThreadCommandQueue;
+    
+public:
+
+    ThreadCommandQueueImpl(ThreadCommandQueue* queue) :
+		pQueue(queue),
+		ExitEnqueued(false),
+		ExitProcessed(false),
+		CommandBuffer(2048),
+		PullThreadId(0)
+    {
+    }
+    ~ThreadCommandQueueImpl();
+
+
+    bool PushCommand(const ThreadCommand& command);
+    bool PopCommand(ThreadCommand::PopBuffer* popBuffer);
+
+
+    // ExitCommand is used by notify us that Thread is shutting down.
+    struct ExitCommand : public ThreadCommand
+    {
+        ThreadCommandQueueImpl* pImpl;
+        
+        ExitCommand(ThreadCommandQueueImpl* impl, bool wait)
+            : ThreadCommand(sizeof(ExitCommand), wait, true), pImpl(impl) { }
+
+        virtual void Execute() const
+        {
+            Lock::Locker lock(&pImpl->QueueLock);
+            pImpl->ExitProcessed = true;
+        }
+        virtual ThreadCommand* CopyConstruct(void* p) const 
+        { return Construct<ExitCommand>(p, *this); }
+    };
+
+
+    NotifyEvent* AllocNotifyEvent_NTS()
+    {
+        NotifyEvent* p = AvailableEvents.GetFirst();
+
+        if (!AvailableEvents.IsNull(p))
+            p->RemoveNode();        
+        else
+            p = new NotifyEvent;
+        return p;
+    }
+
+    void         FreeNotifyEvent_NTS(NotifyEvent* p)
+    {
+        AvailableEvents.PushBack(p);
+    }
+
+    void        FreeNotifyEvents_NTS()
+    {
+        while(!AvailableEvents.IsEmpty())
+        {
+            NotifyEvent* p = AvailableEvents.GetFirst();
+            p->RemoveNode();
+            delete p;
+        }
+    }
+
+    ThreadCommandQueue* pQueue;
+    Lock                QueueLock;
+    volatile bool       ExitEnqueued;
+    volatile bool       ExitProcessed;
+    List<NotifyEvent>   AvailableEvents;
+    List<NotifyEvent>   BlockedProducers;
+    CircularBuffer      CommandBuffer;
+
+	// The pull thread id is set to the last thread that pulled commands.
+	// Since this thread command queue is designed for a single thread,
+	// reentrant behavior that would cause a dead-lock for messages that
+	// wait for completion can be avoided by simply comparing the
+	// thread id of the last pull.
+	OVR::ThreadId		PullThreadId;
+};
+
+ThreadCommandQueueImpl::~ThreadCommandQueueImpl()
+{
+    Lock::Locker lock(&QueueLock);
+    OVR_ASSERT(BlockedProducers.IsEmpty());
+    FreeNotifyEvents_NTS();
+}
+
+bool ThreadCommandQueueImpl::PushCommand(const ThreadCommand& command)
+{
+	if (command.NeedsWait() && PullThreadId == OVR::GetCurrentThreadId())
+	{
+		command.Execute();
+		return true;
+	}
+
+    ThreadCommand::NotifyEvent* completeEvent = 0;
+    ThreadCommand::NotifyEvent* queueAvailableEvent = 0;
+
+    // Repeat  writing command into buffer until it is available.    
+	for (;;) {
+        { // Lock Scope
+            Lock::Locker lock(&QueueLock);
+
+            if (queueAvailableEvent) {
+                FreeNotifyEvent_NTS(queueAvailableEvent);
+                queueAvailableEvent = 0;
+            }
+
+            // Don't allow any commands after PushExitCommand() is called.
+			if (ExitEnqueued && !command.ExitFlag) {
+				return false;
+			}
+
+            bool bufferWasEmpty = CommandBuffer.IsEmpty();
+            uint8_t* buffer = CommandBuffer.Write(command.GetSize());
+
+			if (buffer) {
+                ThreadCommand* c = command.CopyConstruct(buffer);
+
+				if (c->NeedsWait()) {
+					completeEvent = c->pEvent = AllocNotifyEvent_NTS();
+				}
+
+				// Signal-waker consumer when we add data to buffer.
+				if (bufferWasEmpty) {
+					pQueue->OnPushNonEmpty_Locked();
+				}
+
+				break;
+            }
+
+            queueAvailableEvent = AllocNotifyEvent_NTS();
+            BlockedProducers.PushBack(queueAvailableEvent);
+        } // Lock Scope
+
+        queueAvailableEvent->Wait();
+    } // Intentional infinite loop
+
+    // Command was enqueued, wait if necessary.
+    if (completeEvent) {
+        completeEvent->Wait();
+        Lock::Locker lock(&QueueLock);
+        FreeNotifyEvent_NTS(completeEvent);
+    }
+
+    return true;
+}
+
+
+// Pops the next command from the thread queue, if any is available.
+bool ThreadCommandQueueImpl::PopCommand(ThreadCommand::PopBuffer* popBuffer)
+{    
+	PullThreadId = OVR::GetCurrentThreadId();
+
+	Lock::Locker lock(&QueueLock);
+
+    uint8_t* buffer = CommandBuffer.ReadBegin();
+    if (!buffer)
+    {
+        // Notify thread while in lock scope, enabling initialization of wait.
+        pQueue->OnPopEmpty_Locked();
+        return false;
+    }
+
+    popBuffer->InitFromBuffer(buffer);
+    CommandBuffer.ReadEnd(popBuffer->GetSize());
+
+    if (!BlockedProducers.IsEmpty())
+    {
+        ThreadCommand::NotifyEvent* queueAvailableEvent = BlockedProducers.GetFirst();
+        queueAvailableEvent->RemoveNode();
+        queueAvailableEvent->PulseEvent();
+        // Event is freed later by waiter.
+    }    
+    return true;
+}
+
+
+//-------------------------------------------------------------------------------------
+
+ThreadCommandQueue::ThreadCommandQueue()
+{
+    pImpl = new ThreadCommandQueueImpl(this);
+}
+ThreadCommandQueue::~ThreadCommandQueue()
+{
+    delete pImpl;
+}
+
+bool ThreadCommandQueue::PushCommand(const ThreadCommand& command)
+{
+    return pImpl->PushCommand(command);
+}
+
+bool ThreadCommandQueue::PopCommand(ThreadCommand::PopBuffer* popBuffer)
+{    
+    return pImpl->PopCommand(popBuffer);
+}
+
+void ThreadCommandQueue::PushExitCommand(bool wait)
+{
+    // Exit is processed in two stages:
+    //  - First, ExitEnqueued flag is set to block further commands from queuing up.
+    //  - Second, the actual exit call is processed on the consumer thread, flushing
+    //    any prior commands.
+    //    IsExiting() only returns true after exit has flushed.
+    {
+        Lock::Locker lock(&pImpl->QueueLock);
+        if (pImpl->ExitEnqueued)
+            return;
+        pImpl->ExitEnqueued = true;
+    }
+
+    PushCommand(ThreadCommandQueueImpl::ExitCommand(pImpl, wait));
+}
+
+bool ThreadCommandQueue::IsExiting() const
+{
+    return pImpl->ExitProcessed;
+}
+
+
+} // namespace OVR