Dateien
rocm-systems/rocclr/runtime/platform/commandqueue.hpp
T
foreman 19caea543c P4 to Git Change 1620765 by skudchad@skudchad_test2_win_opencl on 2018/10/17 16:58:04
SWDEV-145570 - [HIP] Track last used event and use last enqueued command in a stream rather than creating a new event

	ReviewBoardURL = http://ocltc.amd.com/reviews/r/15996/diff/

Affected files ...

... //depot/stg/opencl/drivers/opencl/api/hip/hip_context.cpp#15 edit
... //depot/stg/opencl/drivers/opencl/api/hip/hip_event.cpp#7 edit
... //depot/stg/opencl/drivers/opencl/api/hip/hip_stream.cpp#14 edit
... //depot/stg/opencl/drivers/opencl/runtime/platform/command.cpp#90 edit
... //depot/stg/opencl/drivers/opencl/runtime/platform/commandqueue.cpp#28 edit
... //depot/stg/opencl/drivers/opencl/runtime/platform/commandqueue.hpp#20 edit
2018-10-18 13:41:32 -04:00

253 Zeilen
7.6 KiB
C++

//
// Copyright 2012 Advanced Micro Devices, Inc. All rights reserved.
//
/*! \file commandqueue.hpp
* \brief Declarations CommandQueue object.
*
* \author Laurent Morichetti (laurent.morichetti@amd.com)
* \date October 2008
*/
#ifndef COMMAND_QUEUE_HPP_
#define COMMAND_QUEUE_HPP_
#include "thread/thread.hpp"
#include "platform/object.hpp"
#include "platform/command.hpp"
/*! \brief Holds commands that will be executed on a specific device.
*
* \details A command queue is created on a specific device in
* a Context. A new virtual device will be instantiated from the given
* device and an execution environment (a thread) will be created to run
* the CommandQueue::loop() function.
*/
namespace amd {
class HostQueue;
class DeviceQueue;
class CommandQueue : public RuntimeObject {
public:
static const uint RealTimeDisabled = 0xffffffff;
enum class Priority : uint { Normal = 0, Medium };
struct Properties {
typedef cl_command_queue_properties value_type;
const value_type mask_;
value_type value_;
Properties(value_type mask, value_type value) : mask_(mask), value_(value & mask) {}
bool set(value_type bits) {
if ((mask_ & bits) != bits) {
return false;
}
value_ |= bits;
return true;
}
bool clear(value_type bits) {
if ((mask_ & bits) != bits) {
return false;
}
value_ &= ~bits;
return true;
}
bool test(value_type bits) const { return (value_ & bits) != 0; }
};
//! Return the context this command queue is part of.
Context& context() const { return context_(); }
//! Return the device for this command queue.
Device& device() const { return device_; }
//! Return the command queue properties.
Properties properties() const { return properties_; }
Properties& properties() { return properties_; }
//! Returns the base class object
CommandQueue* asCommandQueue() { return this; }
virtual ~CommandQueue() {}
//! Returns TRUE if the object was successfully created
virtual bool create() = 0;
//! RTTI internal implementation
virtual ObjectType objectType() const { return ObjectTypeQueue; }
//! Rturns HostQueue object
virtual HostQueue* asHostQueue() { return NULL; }
//! Returns DeviceQueue object
virtual DeviceQueue* asDeviceQueue() { return NULL; }
//! Returns the number or requested real time CUs
uint rtCUs() const { return rtCUs_; }
//! Returns the queue priority
Priority priority() const { return priority_; }
protected:
//! CommandQueue constructor is protected
//! to keep the CommandQueue class as a virtual interface
CommandQueue(Context& context, //!< Context object
Device& device, //!< Device object
cl_command_queue_properties properties, //!< Queue properties
cl_command_queue_properties propMask, //!< Queue properties mask
uint rtCUs = RealTimeDisabled, //!< Avaialble real time compute units
Priority priority = Priority::Normal //!< Queue priority
)
: properties_(propMask, properties),
rtCUs_(rtCUs),
priority_(priority),
queueLock_("CommandQueue::queueLock"),
device_(device),
context_(context) {}
Properties properties_; //!< Queue properties
uint rtCUs_; //!< The number of used RT compute units
Priority priority_; //!< Queue priority
Monitor queueLock_; //!< Lock protecting the queue
Device& device_; //!< The device
SharedReference<Context> context_; //!< The context of this command queue
private:
//! Disable copy constructor
CommandQueue(const CommandQueue&);
//! Disable assignment
CommandQueue& operator=(const CommandQueue&);
};
class HostQueue : public CommandQueue {
class Thread : public amd::Thread {
public:
//! True if this command queue thread is accepting commands.
volatile bool acceptingCommands_;
//! Create a new thread
Thread()
: amd::Thread("Command Queue Thread", CQ_THREAD_STACK_SIZE),
acceptingCommands_(false),
virtualDevice_(NULL) {}
//! The command queue thread entry point.
void run(void* data) {
HostQueue* queue = static_cast<HostQueue*>(data);
virtualDevice_ = queue->device().createVirtualDevice(queue);
if (virtualDevice_ != NULL) {
queue->loop(virtualDevice_);
if (virtualDevice_->terminate()) {
delete virtualDevice_;
}
} else {
acceptingCommands_ = false;
queue->flush();
}
}
//! Get virtual device for the current thread
device::VirtualDevice* vdev() const { return virtualDevice_; }
private:
device::VirtualDevice* virtualDevice_; //!< Virtual device for this thread
} thread_; //!< The command queue thread instance.
private:
ConcurrentLinkedQueue<Command*> queue_; //!< The queue.
Command* lastEnqueueCommand_; //!< The last submitted command
//! Await commands and execute them as they become ready.
void loop(device::VirtualDevice* virtualDevice);
protected:
virtual bool terminate();
public:
/*! \brief Construct a new host queue.
*
* \note A new virtual device instance will be created from the
* given device.
*/
HostQueue(Context& context, Device& device, cl_command_queue_properties properties,
uint queueRTCUs = 0, Priority priority = Priority::Normal);
//! Returns TRUE if this command queue can accept commands.
virtual bool create() { return thread_.acceptingCommands_; }
//! Append the given command to the queue.
void append(Command& command);
//! Return the thread object running the command loop.
const Thread& thread() const { return thread_; }
//! Signal to start processing the commands in the queue.
void flush() {
ScopedLock sl(queueLock_);
queueLock_.notify();
}
//! Finish all queued commands
void finish();
//! Check if hostQueue empty snapshot
bool isEmpty();
//! Get virtual device for the current command queue
device::VirtualDevice* vdev() const { return thread_.vdev(); }
//! Return the current queue as the HostQueue
virtual HostQueue* asHostQueue() { return this; }
//! Get last enqueued command
Command* getLastQueuedCommand(bool retain);
//! Set last enqueued command
void setLastQueuedCommand(Command* lastCommand);
};
class DeviceQueue : public CommandQueue {
public:
DeviceQueue(Context& context, //!< Context object
Device& device, //!< Device object
cl_command_queue_properties properties, //!< Queue properties
uint size //!< Device queue size
)
: CommandQueue(context, device, properties, device.info().queueOnDeviceProperties_ |
CL_QUEUE_ON_DEVICE | CL_QUEUE_ON_DEVICE_DEFAULT),
size_(size),
virtualDevice_(NULL) {}
virtual ~DeviceQueue();
//! Returns TRUE if device queue was successfully created
virtual bool create();
//! Return the current queue as the DeviceQueue
virtual DeviceQueue* asDeviceQueue() { return this; }
//! Returns the size of device queue
uint size() const { return size_; }
//! Returns virtual device for this device queue
device::VirtualDevice* vDev() const { return virtualDevice_; }
//! Returns the queue lock
Monitor& lock() { return queueLock_; }
private:
uint size_; //!< Device queue size
device::VirtualDevice* virtualDevice_; //!< Virtual device for this queue
};
} // namespace amd
#endif // COMMAND_QUEUE_HPP_