297 lines
12 KiB
C++
297 lines
12 KiB
C++
/*
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* Copyright (C) 2017-2019 Intel Corporation
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*
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* SPDX-License-Identifier: MIT
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*
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*/
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#include "runtime/command_queue/command_queue.h"
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#include "runtime/device/device.h"
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#include "runtime/event/user_event.h"
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#include "runtime/memory_manager/graphics_allocation.h"
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#include "runtime/memory_manager/svm_memory_manager.h"
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#include "unit_tests/mocks/mock_context.h"
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#include "cl_api_tests.h"
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using namespace OCLRT;
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typedef api_tests clEnqueueSVMMigrateMemTests;
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namespace ULT {
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TEST_F(clEnqueueSVMMigrateMemTests, GivenInvalidCommandQueueWhenMigratingSVMThenInvalidCommandQueueErrorIsReturned) {
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auto retVal = clEnqueueSVMMigrateMem(
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nullptr, // cl_command_queue command_queue
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0, // cl_uint num_svm_pointers
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nullptr, // const void **svm_pointers
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nullptr, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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0, // cl_uint num_events_in_wait_list
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nullptr, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_INVALID_COMMAND_QUEUE, retVal);
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenNullSvmPointersWhenMigratingSvmThenInvalidValueErrorIsReturned) {
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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1, // cl_uint num_svm_pointers
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nullptr, // const void **svm_pointers
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nullptr, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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0, // cl_uint num_events_in_wait_list
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nullptr, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_INVALID_VALUE, retVal);
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenNumSvmPointersIsZeroWhenMigratingSvmThenInvalidValueErrorIsReturned) {
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const DeviceInfo &devInfo = pPlatform->getDevice(0)->getDeviceInfo();
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if (devInfo.svmCapabilities != 0) {
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void *ptrSvm = clSVMAlloc(pContext, CL_MEM_READ_WRITE, 256, 4);
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ASSERT_NE(nullptr, ptrSvm);
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const void *svmPtrs[] = {ptrSvm};
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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0, // cl_uint num_svm_pointers
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svmPtrs, // const void **svm_pointers
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nullptr, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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0, // cl_uint num_events_in_wait_list
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nullptr, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_INVALID_VALUE, retVal);
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clSVMFree(pContext, ptrSvm);
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}
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenSvmPointerIsHostPtrWhenMigratingSvmThenInvalidValueErrorIsReturned) {
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char *ptrHost = new char[10];
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ASSERT_NE(nullptr, ptrHost);
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const void *svmPtrs[] = {ptrHost};
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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1, // cl_uint num_svm_pointers
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svmPtrs, // const void **svm_pointers
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nullptr, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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0, // cl_uint num_events_in_wait_list
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nullptr, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_INVALID_VALUE, retVal);
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delete[] ptrHost;
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenNonZeroSizeIsNotContainedWithinAllocationWhenMigratingSvmThenInvalidValueErrorIsReturned) {
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const DeviceInfo &devInfo = pPlatform->getDevice(0)->getDeviceInfo();
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if (devInfo.svmCapabilities != 0) {
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void *ptrSvm = clSVMAlloc(pContext, CL_MEM_READ_WRITE, 256, 4);
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ASSERT_NE(nullptr, ptrSvm);
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auto svmAlloc = pContext->getSVMAllocsManager()->getSVMAlloc(ptrSvm);
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EXPECT_NE(nullptr, svmAlloc);
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size_t allocSize = svmAlloc->getUnderlyingBufferSize();
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const void *svmPtrs[] = {ptrSvm};
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const size_t sizes[] = {allocSize + 1};
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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1, // cl_uint num_svm_pointers
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svmPtrs, // const void **svm_pointers
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sizes, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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0, // cl_uint num_events_in_wait_list
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nullptr, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_INVALID_VALUE, retVal);
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clSVMFree(pContext, ptrSvm);
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}
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenUnsupportedFlagsWhenMigratingSvmThenInvalidValueErrorIsReturned) {
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const DeviceInfo &devInfo = pPlatform->getDevice(0)->getDeviceInfo();
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if (devInfo.svmCapabilities != 0) {
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void *ptrSvm = clSVMAlloc(pContext, CL_MEM_READ_WRITE, 256, 4);
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ASSERT_NE(nullptr, ptrSvm);
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const void *svmPtrs[] = {ptrSvm};
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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1, // cl_uint num_svm_pointers
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svmPtrs, // const void **svm_pointers
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nullptr, // const size_t *sizes
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0xAA55AA55AA55AA55, // const cl_mem_migration_flags flags
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0, // cl_uint num_events_in_wait_list
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nullptr, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_INVALID_VALUE, retVal);
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clSVMFree(pContext, ptrSvm);
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}
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenNullEventWaitListAndNonZeroNumEventsWhenMigratingSvmThenInvalidEventWaitListErrorIsReturned) {
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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0, // cl_uint num_svm_pointers
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nullptr, // const void **svm_pointers
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nullptr, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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1, // cl_uint num_events_in_wait_list
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nullptr, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_INVALID_EVENT_WAIT_LIST, retVal);
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenNonNullEventWaitListAndZeroNumEventsWhenMigratingSvmThenInvalidEventWaitListErrorIsReturned) {
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UserEvent uEvent(pContext);
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cl_event eventWaitList[] = {&uEvent};
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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0, // cl_uint num_svm_pointers
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nullptr, // const void **svm_pointers
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nullptr, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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0, // cl_uint num_events_in_wait_list
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eventWaitList, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_INVALID_EVENT_WAIT_LIST, retVal);
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenDifferentContextCommandQueueAndEventsWhenMigratingSvmThenInvalidContextErrorIsReturned) {
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const DeviceInfo &devInfo = pPlatform->getDevice(0)->getDeviceInfo();
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if (devInfo.svmCapabilities != 0) {
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void *ptrSvm = clSVMAlloc(pContext, CL_MEM_READ_WRITE, 256, 4);
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ASSERT_NE(nullptr, ptrSvm);
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MockContext mockContext;
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UserEvent uEvent(&mockContext);
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cl_event eventWaitList[] = {&uEvent};
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const void *svmPtrs[] = {ptrSvm};
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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1, // cl_uint num_svm_pointers
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svmPtrs, // const void **svm_pointers
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nullptr, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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1, // cl_uint num_events_in_wait_list
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eventWaitList, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_INVALID_CONTEXT, retVal);
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clSVMFree(pContext, ptrSvm);
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}
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenNullSizesWhenMigratingSvmThenSuccessIsReturned) {
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const DeviceInfo &devInfo = pPlatform->getDevice(0)->getDeviceInfo();
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if (devInfo.svmCapabilities != 0) {
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void *ptrSvm = clSVMAlloc(pContext, CL_MEM_READ_WRITE, 256, 4);
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ASSERT_NE(nullptr, ptrSvm);
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const void *svmPtrs[] = {ptrSvm};
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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1, // cl_uint num_svm_pointers
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svmPtrs, // const void **svm_pointers
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nullptr, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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0, // cl_uint num_events_in_wait_list
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nullptr, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_SUCCESS, retVal);
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clSVMFree(pContext, ptrSvm);
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}
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenSizeZeroWhenMigratingSvmThenSuccessIsReturned) {
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const DeviceInfo &devInfo = pPlatform->getDevice(0)->getDeviceInfo();
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if (devInfo.svmCapabilities != 0) {
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void *ptrSvm = clSVMAlloc(pContext, CL_MEM_READ_WRITE, 256, 4);
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ASSERT_NE(nullptr, ptrSvm);
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const void *svmPtrs[] = {ptrSvm};
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const size_t sizes[] = {0};
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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1, // cl_uint num_svm_pointers
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svmPtrs, // const void **svm_pointers
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sizes, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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0, // cl_uint num_events_in_wait_list
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nullptr, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_SUCCESS, retVal);
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clSVMFree(pContext, ptrSvm);
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}
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenNonZeroSizeWhenMigratingSvmThenSuccessIsReturned) {
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const DeviceInfo &devInfo = pPlatform->getDevice(0)->getDeviceInfo();
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if (devInfo.svmCapabilities != 0) {
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void *ptrSvm = clSVMAlloc(pContext, CL_MEM_READ_WRITE, 256, 4);
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ASSERT_NE(nullptr, ptrSvm);
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const void *svmPtrs[] = {ptrSvm};
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const size_t sizes[] = {256};
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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1, // cl_uint num_svm_pointers
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svmPtrs, // const void **svm_pointers
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sizes, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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0, // cl_uint num_events_in_wait_list
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nullptr, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_SUCCESS, retVal);
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clSVMFree(pContext, ptrSvm);
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}
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}
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TEST_F(clEnqueueSVMMigrateMemTests, GivenSameContextCommandQueueAndEventsWhenMigratingSvmThenSuccessIsReturned) {
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const DeviceInfo &devInfo = pPlatform->getDevice(0)->getDeviceInfo();
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if (devInfo.svmCapabilities != 0) {
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void *ptrSvm = clSVMAlloc(pContext, CL_MEM_READ_WRITE, 256, 4);
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ASSERT_NE(nullptr, ptrSvm);
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UserEvent uEvent(pContext);
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cl_event eventWaitList[] = {&uEvent};
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const void *svmPtrs[] = {ptrSvm};
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auto retVal = clEnqueueSVMMigrateMem(
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pCommandQueue, // cl_command_queue command_queue
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1, // cl_uint num_svm_pointers
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svmPtrs, // const void **svm_pointers
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nullptr, // const size_t *sizes
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0, // const cl_mem_migration_flags flags
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1, // cl_uint num_events_in_wait_list
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eventWaitList, // const cl_event *event_wait_list
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nullptr // cl_event *event
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);
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EXPECT_EQ(CL_SUCCESS, retVal);
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clSVMFree(pContext, ptrSvm);
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}
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}
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} // namespace ULT
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