rocm-systems/projects/clr/rocclr/platform/commandqueue.cpp

/* Copyright (c) 2012 - 2021 Advanced Micro Devices, Inc.

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 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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#include "commandqueue.hpp"
#include "thread/monitor.hpp"
#include "device/device.hpp"
#include "platform/context.hpp"

/*!
 * \file commandQueue.cpp
 * \brief  Definitions for HostQueue object.
 *
 * \author Laurent Morichetti
 * \date   October 2008
 */

namespace amd {

HostQueue::HostQueue(Context& context, Device& device, cl_command_queue_properties props,
                     uint queueRTCUs, Priority priority, const std::vector<uint32_t>& cuMask)
    : CommandQueue(context, device, props, device.info().queueProperties_, queueRTCUs,
                   priority, cuMask),
      lastEnqueueCommand_(nullptr),
      head_(nullptr),
      tail_(nullptr),
      isActive_(false) {
  if (GPU_FORCE_QUEUE_PROFILING) {
    properties().set(CL_QUEUE_PROFILING_ENABLE);
  }
  if (AMD_DIRECT_DISPATCH) {
    // Initialize the queue
    thread_.Init(this);
  } else {
    if (thread_.state() >= Thread::INITIALIZED) {
      ScopedLock sl(queueLock_);
      thread_.start(this);
      queueLock_.wait();
    }
  }
}

bool HostQueue::terminate() {
  // incase of force destroy skip checking on the last command
  if (AMD_DIRECT_DISPATCH) {
    if (!forceDestroy_ && vdev() != nullptr) {
      // If the queue still has the last command, then wait and release it
      // We must be in protected way to get last command when calling
      // awaitCompletion() where lastCommand will be released and possibly
      // destroyed.
      Command* lastCommand = getLastQueuedCommand(true);
      if (lastCommand != nullptr) {
        // Check if CPU batch wasn't flushed for completion with the last command
        if (GetSubmissionBatch() != nullptr) {
            auto command = new Marker(*this, false);
            if (command != nullptr) {
              ClPrint(LOG_DEBUG, LOG_CMD, "Marker queued to ensure finish");
              command->enqueue();
              lastCommand = command;
            }
        }
        lastCommand->awaitCompletion();
        // Note that if lastCommand isn't a marker, it may not be lastEnqueueCommand_ now
        // after lastCommand->awaitCompletion() is called.
        if (lastEnqueueCommand_ != nullptr) {
          lastEnqueueCommand_ ->release(); // lastEnqueueCommand_ should be a marker
          lastEnqueueCommand_ = nullptr;
        }
        lastCommand->release();
      }
    }
    thread_.Release();
    thread_.acceptingCommands_ = false;
  } else {
    if (Os::isThreadAlive(thread_)) {
      Command* marker = nullptr;
      // Send a finish if the queue is still accepting commands.
      if (lastEnqueueCommand_ != nullptr || !amd::IS_HIP) {
        ScopedLock sl(queueLock_);
        if (thread_.acceptingCommands_) {
          marker = new Marker(*this, false);
          if (marker != nullptr) {
            append(*marker);
            queueLock_.notify();
          }
        }
      }
      if (marker != nullptr) {
        if (marker->notifyCmdQueue()) {
          while (marker->status() > CL_COMPLETE && Os::isThreadAlive(thread_)) {
            amd::Os::yield();
          }
        }
        marker->release();
      }

      // Wake-up the command loop, so it can exit
      {
        ScopedLock sl(queueLock_);
        thread_.acceptingCommands_ = false;
        queueLock_.notify();
      }

      // FIXME_lmoriche: fix termination handshake
      while (thread_.state() < Thread::FINISHED && Os::isThreadAlive(thread_)) {
        Os::yield();
      }
    }
  }

  if (Agent::shouldPostCommandQueueEvents()) {
    Agent::postCommandQueueFree(as_cl(this->asCommandQueue()));
  }

  device_.removeFromActiveQueues(this);

  return true;
}

void HostQueue::finishCommand(Command* command) {
  if (command == nullptr) {
    command = getLastQueuedCommand(true);
    if (command != nullptr) {
      ClPrint(LOG_DEBUG, LOG_CMD, "No command, awaiting complete status on host");
      command->awaitCompletion();
      command->release();
    }
    return;
  }
  // Check hardware event status for the specific command
  static constexpr bool kWaitCompletion = true;
  if (!device().IsHwEventReady(command->event(), kWaitCompletion)) {
    ClPrint(LOG_DEBUG, LOG_CMD, "No HW event, awaiting complete status on host");
    command->awaitCompletion();
  }
}

void HostQueue::finish(bool cpu_wait) {
  Command* command = nullptr;
  if (IS_HIP) {
    command = getLastQueuedCommand(true);
    if (command == nullptr) {
      assert(GetSubmissionBatch() == nullptr &&
        "Can't claim the queue is finished with the active batch!");
      return;
    }
    // Force blocking wait if requested. That allows to avoid a build up of unreleased CPU commands
    if ((DEBUG_HIP_BLOCK_SYNC > 0) &&
        (vdev()->QueuedAsyncHandlers().load() > DEBUG_HIP_BLOCK_SYNC)) {
      cpu_wait = true;
    }
  }
  // Force marker if the batch wasn't sent for CPU update or fence is dirty
  if (nullptr == command || (GetSubmissionBatch() != nullptr) || vdev()->isFenceDirty()) {
    if (nullptr != command) {
      command->release();
    }
    // Send a finish to make sure we finished all commands
    command = new Marker(*this, false);
    if (command == NULL) {
      return;
    }
    ClPrint(LOG_DEBUG, LOG_CMD, "Marker queued to %p for finish", this);
    command->enqueue();
  }
  // Check HW status of the ROCcrl event. Note: not all ROCclr modes support HW status
  static constexpr bool kWaitCompletion = true;
  if (cpu_wait || !device().IsHwEventReady(command->event(), kWaitCompletion)) {
    ClPrint(LOG_DEBUG, LOG_CMD, "No HW event || cpu wait=%d, await command completion", cpu_wait);
    command->awaitCompletion();

    if (IS_HIP) {
      ScopedLock sl(vdev()->execution());
      ScopedLock l(lastCmdLock_);
      // Runtime can clear the last command only if no other submissions occured
      // during finish()
      if (command == lastEnqueueCommand_) {
        device_.removeFromActiveQueues(this);
        lastEnqueueCommand_->release();
        lastEnqueueCommand_ = nullptr;
      }
    }
  }
  // Release HW queue to the pool for dynamic management if enabled
  vdev()->ReleaseHwQueue();

  command->release();
  ClPrint(LOG_DEBUG, LOG_CMD, "All commands finished for host queue : %p", this);
}

void HostQueue::loop(device::VirtualDevice* virtualDevice) {
  // Notify the caller that the queue is ready to accept commands.
  {
    ScopedLock sl(queueLock_);
    thread_.acceptingCommands_ = true;
    queueLock_.notify();
  }
  // Create a command batch with all the commands present in the queue.
  Command* head = NULL;
  Command* tail = NULL;
  while (true) {
    // Get one command from the queue
    Command* command = queue_.dequeue();
    if (command == NULL) {
      ScopedLock sl(queueLock_);
      while ((command = queue_.dequeue()) == NULL) {
        if (!thread_.acceptingCommands_) {
          return;
        }
        queueLock_.wait();
      }
    }

    command->retain();

    // Process the command's event wait list.
    const Command::EventWaitList& events = command->eventWaitList();
    bool dependencyFailed = false;
    ClPrint(LOG_DEBUG, LOG_CMD, "Command (%s) processing: %p ,events.size(): %d",
            amd::activity_prof::getOclCommandKindString(command->type()), command, events.size());
    for (const auto& it : events) {
      // Only wait if the command is enqueued into another queue.
      if (it->command().queue() != this) {
        // Runtime has to flush the current batch only if the dependent wait is blocking
        if (it->command().status() != CL_COMPLETE) {
          ClPrint(LOG_DEBUG, LOG_CMD, "Command (%s) %p awaiting event: %p",
                  amd::activity_prof::getOclCommandKindString(command->type()),
                  command, it);
          virtualDevice->flush(head, true);
          tail = head = NULL;
          dependencyFailed |= !it->awaitCompletion();
        }
      }
    }

    // Insert the command to the linked list.
    if (NULL == head) {  // if the list is empty
      head = tail = command;
    } else {
      tail->setNext(command);
      tail = command;
    }

    if (dependencyFailed) {
      command->setStatus(CL_EXEC_STATUS_ERROR_FOR_EVENTS_IN_WAIT_LIST);
      continue;
    }

    ClPrint(LOG_DEBUG, LOG_CMD, "Command (%s) submitted: %p",
            amd::activity_prof::getOclCommandKindString(command->type()),
            command);

    command->setStatus(CL_SUBMITTED);

    // Submit to the device queue.
    command->submit(*virtualDevice);

    // if this is a user invisible marker with a waiting event, then flush
    if (0 == command->type()) {
      virtualDevice->flush(head);
      tail = head = NULL;
    }
  }  // while (true) {
}

void HostQueue::append(Command& command) {
  // We retain the command here. It will be released when its status
  // changes to CL_COMPLETE
  if ((command.getWaitBits() & 0x1) != 0) {
    finish();
  }
  command.retain();
  command.setStatus(CL_QUEUED);
  queue_.enqueue(&command);
  if (!IS_HIP) {
    return;
  }

  // Set last submitted command
  Command* prevLastEnqueueCommand = nullptr;

  // Attach only real commands and skip internal notifications for CPU queue
  if (command.waitingEvent() == nullptr) {
    command.retain();

    // lastCmdLock_ ensures that lastEnqueueCommand() can retain the command before it is swapped
    // out. We want to keep this critical section as short as possible, so the command should be
    // released outside this section.
    ScopedLock l(lastCmdLock_);

    prevLastEnqueueCommand = lastEnqueueCommand_;
    lastEnqueueCommand_ = &command;
  }

  if (prevLastEnqueueCommand != nullptr) {
    prevLastEnqueueCommand->release();
  } else {
    // The queue becomes active. Add it to the set of activeQueues.
    device_.addToActiveQueues(this);
  }
}

bool HostQueue::isEmpty() {
  // Get a snapshot of queue size
  return queue_.empty();
}

Command* HostQueue::getLastQueuedCommand(bool retain) {
  if (AMD_DIRECT_DISPATCH) {
    // The batch update must be lock protected to avoid a race condition
    // when multiple threads submit/flush/update the batch at the same time
    ScopedLock sl(vdev()->execution());
    // Since the lastCmdLock_ is acquired, it is safe to read and retain the lastEnqueueCommand.
    // It is guaranteed that the pointer will not change.
    if (retain && lastEnqueueCommand_ != nullptr) {
      lastEnqueueCommand_->retain();
    }
    return lastEnqueueCommand_;
  } else {
    // Get last submitted command
    ScopedLock l(lastCmdLock_);

    // Since the lastCmdLock_ is acquired, it is safe to read and retain the lastEnqueueCommand.
    // It is guaranteed that the pointer will not change.
    if (retain && lastEnqueueCommand_ != nullptr) {
      lastEnqueueCommand_->retain();
    }
    return lastEnqueueCommand_;
  }
}

DeviceQueue::~DeviceQueue() {
  delete virtualDevice_;
  ScopedLock lock(context().lock());
  context().removeDeviceQueue(device(), this);
}

bool DeviceQueue::create() {
  const bool defaultDeviceQueue = properties().test(CL_QUEUE_ON_DEVICE_DEFAULT);
  bool result = false;

  virtualDevice_ = device().createVirtualDevice(this);
  if (virtualDevice_ != NULL) {
    result = true;
    context().addDeviceQueue(device(), this, defaultDeviceQueue);
  }

  return result;
}

}  // namespace amd