kc3-lang/angle/src/libANGLE/CLEvent.cpp

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• Hash : 44a5c913
  Author :
  Date : 2021-06-17T09:29:29
  

  CL: Make CL front end and back end thread-safe
  
  Add locking to all mutable variables of the CL objects in the
  front end and pass-through back end to make them thread-safe.
  This fixes a crash in a multi-threaded CTS test.
  
  Bug: angleproject:6015
  Change-Id: I1d6471c851217639411c434c82acd32d14035291
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/2967468
  Commit-Queue: John Plate <jplate@google.com>
  Reviewed-by: Cody Northrop <cnorthrop@google.com>
  Reviewed-by: Jamie Madill <jmadill@chromium.org>
  

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• src/libANGLE/CLEvent.cpp

• //
  // Copyright 2021 The ANGLE Project Authors. All rights reserved.
  // Use of this source code is governed by a BSD-style license that can be
  // found in the LICENSE file.
  //
  // CLEvent.cpp: Implements the cl::Event class.
  
  #include "libANGLE/CLEvent.h"
  
  #include "libANGLE/CLCommandQueue.h"
  #include "libANGLE/CLContext.h"
  
  #include <cstring>
  
  namespace cl
  {
  
  cl_int Event::setUserEventStatus(cl_int executionStatus)
  {
      const cl_int errorCode = mImpl->setUserEventStatus(executionStatus);
      if (errorCode == CL_SUCCESS)
      {
          mStatusWasChanged = true;
      }
      return errorCode;
  }
  
  cl_int Event::getInfo(EventInfo name, size_t valueSize, void *value, size_t *valueSizeRet) const
  {
      cl_int execStatus     = 0;
      cl_uint valUInt       = 0u;
      void *valPointer      = nullptr;
      const void *copyValue = nullptr;
      size_t copySize       = 0u;
  
      switch (name)
      {
          case EventInfo::CommandQueue:
              valPointer = CommandQueue::CastNative(mCommandQueue.get());
              copyValue  = &valPointer;
              copySize   = sizeof(valPointer);
              break;
          case EventInfo::CommandType:
              copyValue = &mCommandType;
              copySize  = sizeof(mCommandType);
              break;
          case EventInfo::ReferenceCount:
              valUInt   = getRefCount();
              copyValue = &valUInt;
              copySize  = sizeof(valUInt);
              break;
          case EventInfo::CommandExecutionStatus:
          {
              const cl_int errorCode = mImpl->getCommandExecutionStatus(execStatus);
              if (errorCode != CL_SUCCESS)
              {
                  return errorCode;
              }
              copyValue = &execStatus;
              copySize  = sizeof(execStatus);
              break;
          }
          case EventInfo::Context:
              valPointer = mContext->getNative();
              copyValue  = &valPointer;
              copySize   = sizeof(valPointer);
              break;
          default:
              return CL_INVALID_VALUE;
      }
  
      if (value != nullptr)
      {
          // CL_INVALID_VALUE if size in bytes specified by param_value_size is < size of return type
          // as described in the Event Queries table and param_value is not NULL.
          if (valueSize < copySize)
          {
              return CL_INVALID_VALUE;
          }
          if (copyValue != nullptr)
          {
              std::memcpy(value, copyValue, copySize);
          }
      }
      if (valueSizeRet != nullptr)
      {
          *valueSizeRet = copySize;
      }
      return CL_SUCCESS;
  }
  
  cl_int Event::setCallback(cl_int commandExecCallbackType, EventCB pfnNotify, void *userData)
  {
      auto callbacks = mCallbacks.synchronize();
      // Only when required register a single callback with the back end for each callback type.
      if ((*callbacks)[commandExecCallbackType].empty())
      {
          ANGLE_CL_TRY(mImpl->setCallback(*this, commandExecCallbackType));
          // This event has to be retained until the callback is called.
          retain();
      }
      (*callbacks)[commandExecCallbackType].emplace_back(pfnNotify, userData);
      return CL_SUCCESS;
  }
  
  cl_int Event::getProfilingInfo(ProfilingInfo name,
                                 size_t valueSize,
                                 void *value,
                                 size_t *valueSizeRet)
  {
      return mImpl->getProfilingInfo(name, valueSize, value, valueSizeRet);
  }
  
  Event::~Event() = default;
  
  void Event::callback(cl_int commandStatus)
  {
      ASSERT(commandStatus >= 0 && commandStatus < 3);
      const Callbacks callbacks = std::move(mCallbacks->at(commandStatus));
      for (const CallbackData &data : callbacks)
      {
          data.first(this, commandStatus, data.second);
      }
      // This event can be released after the callback was called.
      if (release())
      {
          delete this;
      }
  }
  
  EventPtrs Event::Cast(cl_uint numEvents, const cl_event *eventList)
  {
      EventPtrs events;
      events.reserve(numEvents);
      while (numEvents-- != 0u)
      {
          events.emplace_back(&(*eventList++)->cast<Event>());
      }
      return events;
  }
  
  Event::Event(Context &context, cl_int &errorCode)
      : mContext(&context),
        mCommandType(CL_COMMAND_USER),
        mImpl(context.getImpl().createUserEvent(*this, errorCode))
  {}
  
  Event::Event(CommandQueue &queue,
               cl_command_type commandType,
               const rx::CLEventImpl::CreateFunc &createFunc,
               cl_int &errorCode)
      : mContext(&queue.getContext()),
        mCommandQueue(&queue),
        mCommandType(commandType),
        mImpl(createFunc(*this))
  {}
  
  }  // namespace cl
  

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