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/*
* Copyright (C) 2017-2020 Intel Corporation
*
* SPDX-License-Identifier: MIT
*
*/
#include "opencl/test/unit_test/command_queue/enqueue_fixture.h"
#include "opencl/test/unit_test/fixtures/hello_world_fixture.h"
using namespace NEO;
typedef HelloWorldTest<HelloWorldFixtureFactory> IOQ;
TEST_F(IOQ, WhenEnqueueingKernelThenTaskLevelIsIncremented) {
auto previousTaskLevel = pCmdQ->taskLevel;
EnqueueKernelHelper<>::enqueueKernel(
pCmdQ,
pKernel);
EXPECT_LT(previousTaskLevel, pCmdQ->taskLevel);
}
TEST_F(IOQ, WhenFillingBufferThenTaskLevelIsIncremented) {
auto previousTaskLevel = pCmdQ->taskLevel;
EnqueueFillBufferHelper<>::enqueue(pCmdQ);
EXPECT_LT(previousTaskLevel, pCmdQ->taskLevel);
}
TEST_F(IOQ, WhenReadingBufferThenTaskLevelIsIncremented) {
auto previousTaskLevel = pCmdQ->taskLevel;
auto buffer = std::unique_ptr<Buffer>(BufferHelper<>::create());
buffer->forceDisallowCPUCopy = true; // task level is not increased if doing cpu copy
EnqueueReadBufferHelper<>::enqueueReadBuffer(pCmdQ, buffer.get());
EXPECT_LT(previousTaskLevel, pCmdQ->taskLevel);
}
TEST_F(IOQ, WhenEnqueueingKernelThenTaskCountIsIncremented) {
auto &commandStreamReceiver = pCmdQ->getGpgpuCommandStreamReceiver();
auto previousTaskCount = commandStreamReceiver.peekTaskCount();
EnqueueKernelHelper<>::enqueueKernel(pCmdQ,
pKernel);
EXPECT_LT(previousTaskCount, commandStreamReceiver.peekTaskCount());
EXPECT_EQ(pCmdQ->taskCount, commandStreamReceiver.peekTaskCount());
}
TEST_F(IOQ, WhenFillingBufferThenTaskCountIsIncremented) {
auto &commandStreamReceiver = pCmdQ->getGpgpuCommandStreamReceiver();
auto previousTaskCount = commandStreamReceiver.peekTaskCount();
EnqueueFillBufferHelper<>::enqueue(pCmdQ);
EXPECT_LT(previousTaskCount, commandStreamReceiver.peekTaskCount());
EXPECT_LE(pCmdQ->taskCount, commandStreamReceiver.peekTaskCount());
}
TEST_F(IOQ, WhenReadingBufferThenTaskCountIsIncremented) {
auto &commandStreamReceiver = pCmdQ->getGpgpuCommandStreamReceiver();
auto previousTaskCount = commandStreamReceiver.peekTaskCount();
auto buffer = std::unique_ptr<Buffer>(BufferHelper<>::create());
buffer->forceDisallowCPUCopy = true; // task level is not increased if doing cpu copy
EnqueueReadBufferHelper<>::enqueueReadBuffer(pCmdQ, buffer.get());
EXPECT_LT(previousTaskCount, commandStreamReceiver.peekTaskCount());
EXPECT_LE(pCmdQ->taskCount, commandStreamReceiver.peekTaskCount());
}
TEST_F(IOQ, GivenUserEventWhenReadingBufferThenTaskCountAndTaskLevelAreIncremented) {
auto buffer = std::unique_ptr<Buffer>(BufferHelper<>::create());
auto alignedReadPtr = alignedMalloc(BufferDefaults::sizeInBytes, MemoryConstants::cacheLineSize);
ASSERT_NE(nullptr, alignedReadPtr);
auto previousTaskCount = pCmdQ->taskCount;
auto previousTaskLevel = pCmdQ->taskLevel;
auto userEvent = clCreateUserEvent(pContext, &retVal);
EXPECT_EQ(CL_SUCCESS, retVal);
retVal = clSetUserEventStatus(userEvent, CL_COMPLETE);
ASSERT_EQ(CL_SUCCESS, retVal);
buffer->forceDisallowCPUCopy = true; // task level is not increased if doing cpu copy
retVal = EnqueueReadBufferHelper<>::enqueueReadBuffer(pCmdQ,
buffer.get(),
CL_TRUE,
0,
BufferDefaults::sizeInBytes,
alignedReadPtr,
nullptr,
1,
&userEvent,
nullptr);
EXPECT_EQ(CL_SUCCESS, retVal);
EXPECT_LT(previousTaskCount, pCmdQ->taskCount);
EXPECT_LT(previousTaskLevel, pCmdQ->taskLevel);
retVal = clReleaseEvent(userEvent);
EXPECT_EQ(CL_SUCCESS, retVal);
alignedFree(alignedReadPtr);
}
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