/* * Copyright (c) 2018, Intel Corporation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. */ #include "event_fixture.h" #include "unit_tests/command_queue/enqueue_fixture.h" #include "unit_tests/fixtures/hello_world_fixture.h" #include "unit_tests/helpers/debug_manager_state_restore.h" #include "unit_tests/mocks/mock_event.h" #include "runtime/memory_manager/memory_manager.h" TEST(UserEvent, testInitialStatusOfUserEventCmdQueue) { UserEvent uEvent; size_t retSize; cl_int RetValue; RetValue = clGetEventInfo(&uEvent, CL_EVENT_COMMAND_QUEUE, 0, nullptr, &retSize); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(sizeof(cl_command_queue), retSize); auto cmdQueue = reinterpret_cast(static_cast(0xdeadbeaf)); RetValue = clGetEventInfo(&uEvent, CL_EVENT_COMMAND_QUEUE, retSize, &cmdQueue, 0); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(nullptr, cmdQueue); RetValue = clGetEventInfo(&uEvent, CL_EVENT_COMMAND_TYPE, 0, nullptr, &retSize); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(sizeof(cl_event_info), retSize); auto cmd_type = CL_COMMAND_SVM_UNMAP; clGetEventInfo(&uEvent, CL_EVENT_COMMAND_TYPE, retSize, &cmd_type, 0); EXPECT_EQ(CL_COMMAND_USER, cmd_type); } TEST(UserEvent, testInitialStatusOfUserEventCmdType) { UserEvent uEvent; size_t retSize; cl_int RetValue; RetValue = clGetEventInfo(&uEvent, CL_EVENT_COMMAND_TYPE, 0, nullptr, &retSize); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(sizeof(cl_event_info), retSize); auto cmd_type = CL_COMMAND_SVM_UNMAP; RetValue = clGetEventInfo(&uEvent, CL_EVENT_COMMAND_TYPE, retSize, &cmd_type, 0); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(CL_COMMAND_USER, cmd_type); } TEST(UserEvent, testInitialStatusOfUserEventContext) { MockContext mc; cl_context dummyContext = &mc; UserEvent uEvent(&mc); size_t retSize; cl_int RetValue; RetValue = clGetEventInfo(&uEvent, CL_EVENT_CONTEXT, 0, nullptr, &retSize); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(sizeof(cl_context), retSize); cl_context context; RetValue = clGetEventInfo(&uEvent, CL_EVENT_CONTEXT, retSize, &context, 0); ASSERT_EQ(CL_SUCCESS, RetValue); ASSERT_EQ(context, dummyContext); } TEST(UserEvent, testInitialStatusOfUserEventContextIsNull) { UserEvent uEvent; cl_context context; auto RetValue = clGetEventInfo(&uEvent, CL_EVENT_CONTEXT, sizeof(cl_context), &context, 0); ASSERT_EQ(CL_SUCCESS, RetValue); ASSERT_EQ(context, nullptr); } TEST(UserEvent, testInitialStatusOfUserEventExecStatus) { UserEvent uEvent; size_t retSize; cl_int RetValue; RetValue = clGetEventInfo(&uEvent, CL_EVENT_COMMAND_EXECUTION_STATUS, 0, nullptr, &retSize); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(sizeof(cl_int), retSize); auto cmd_status = CL_COMPLETE; RetValue = clGetEventInfo(&uEvent, CL_EVENT_COMMAND_EXECUTION_STATUS, retSize, &cmd_status, 0); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(CL_SUBMITTED, cmd_status); } TEST(UserEvent, givenUserEventWhenItIsQueriedForExecutionStatusThenClQueueIsReturned) { UserEvent uEvent; EXPECT_EQ(CL_QUEUED, uEvent.peekExecutionStatus()); } TEST(UserEvent, givenUserEventWhenItIsCreatedThenItIsInInitialState) { UserEvent uEvent; EXPECT_TRUE(uEvent.isInitialEventStatus()); } TEST(UserEvent, givenUserEventWhenItIsCreatedAndSetThenItIsNotInInitialState) { UserEvent uEvent; uEvent.setStatus(CL_COMPLETE); EXPECT_FALSE(uEvent.isInitialEventStatus()); } TEST(UserEvent, testInitialStatusOfUserEventRefCount) { UserEvent uEvent; size_t retSize; cl_int RetValue; RetValue = clGetEventInfo(&uEvent, CL_EVENT_REFERENCE_COUNT, 0, nullptr, &retSize); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(sizeof(cl_uint), retSize); auto RefCount = 100; RetValue = clGetEventInfo(&uEvent, CL_EVENT_REFERENCE_COUNT, retSize, &RefCount, 0); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(1, RefCount); } TEST(UserEvent, testUserEventSetUserEventStatus) { UserEvent uEvent; uEvent.setStatus(CL_COMPLETE); size_t retSize; cl_int RetValue; RetValue = clGetEventInfo(&uEvent, CL_EVENT_COMMAND_EXECUTION_STATUS, 0, nullptr, &retSize); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(sizeof(cl_int), retSize); auto cmd_status = CL_COMPLETE; RetValue = clGetEventInfo(&uEvent, CL_EVENT_COMMAND_EXECUTION_STATUS, retSize, &cmd_status, 0); ASSERT_EQ(CL_SUCCESS, RetValue); EXPECT_EQ(CL_COMPLETE, cmd_status); } TEST(UserEvent, initialUserEventDependantCountIsZero) { UserEvent uEvent; EXPECT_EQ(nullptr, uEvent.peekCommand()); } TEST(UserEvent, initialUserEventStateIsNotReadyForSubmission) { UserEvent uEvent; EXPECT_FALSE(uEvent.isReadyForSubmission()); } TEST(UserEvent, GIVENUserEventWHENgetTaskLevelTHENSuccess) { MyUserEvent uEvent; EXPECT_EQ(0U, uEvent.getTaskLevel()); EXPECT_FALSE(uEvent.wait(false, false)); } TEST(UserEvent, userEventAfterSetingStatusIsReadyForSubmission) { UserEvent uEvent; uEvent.setStatus(0); EXPECT_TRUE(uEvent.isReadyForSubmission()); } typedef HelloWorldTest EventTests; TEST_F(EventTests, blockedUserEventPassedToEnqueueNdRangeWithoutReturnEventIsNotSubmittedToCSR) { UserEvent uEvent; cl_event userEvent = (cl_event)&uEvent; cl_event *eventWaitList = &userEvent; auto &csr = pCmdQ->getDevice().getCommandStreamReceiver(); auto taskCount = csr.peekTaskCount(); //call NDR auto retVal = callOneWorkItemNDRKernel(eventWaitList, 1); auto taskCountAfter = csr.peekTaskCount(); //queue should be in blocked state at this moment, task level should be inherited from user event EXPECT_EQ(OCLRT::Event::eventNotReady, pCmdQ->taskLevel); //queue should be in blocked state at this moment, task count should be inherited from user event EXPECT_EQ(OCLRT::Event::eventNotReady, pCmdQ->taskCount); //queue should be in blocked state EXPECT_EQ(pCmdQ->isQueueBlocked(), true); //and virtual event should be created ASSERT_NE(nullptr, pCmdQ->virtualEvent); //check if kernel was in fact not submitted EXPECT_EQ(taskCountAfter, taskCount); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, blockedUserEventPassedToEnqueueNdRangeWithReturnEventIsNotSubmittedToCSR) { UserEvent uEvent; cl_event userEvent = (cl_event)&uEvent; cl_event retEvent = nullptr; cl_event *eventWaitList = &userEvent; auto &csr = pCmdQ->getDevice().getCommandStreamReceiver(); auto taskCount = csr.peekTaskCount(); //call NDR auto retVal = callOneWorkItemNDRKernel(eventWaitList, 1, &retEvent); auto taskCountAfter = csr.peekTaskCount(); //queue should be in blocked state at this moment, task level should be inherited from user event EXPECT_EQ(OCLRT::Event::eventNotReady, pCmdQ->taskLevel); //queue should be in blocked state at this moment, task count should be inherited from user event EXPECT_EQ(OCLRT::Event::eventNotReady, pCmdQ->taskCount); //queue should be in blocked state EXPECT_EQ(pCmdQ->isQueueBlocked(), true); //and virtual event should be created ASSERT_NE(nullptr, pCmdQ->virtualEvent); //that matches the retEvent EXPECT_EQ(retEvent, pCmdQ->virtualEvent); //check if kernel was in fact not submitted EXPECT_EQ(taskCountAfter, taskCount); //and if normal event inherited status from user event Event *returnEvent = castToObject(retEvent); EXPECT_EQ(returnEvent->taskLevel, OCLRT::Event::eventNotReady); EXPECT_EQ(CL_SUCCESS, retVal); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, userEventInjectsCountOnReturnEventAndCreatesConnection) { UserEvent uEvent; cl_event userEvent = (cl_event)&uEvent; cl_event retEvent = nullptr; cl_event *eventWaitList = &userEvent; //call NDR callOneWorkItemNDRKernel(eventWaitList, 1, &retEvent); //check if dependency count is increased Event *returnEvent = castToObject(retEvent); EXPECT_EQ(1U, returnEvent->peekNumEventsBlockingThis()); //check if user event knows his childs EXPECT_TRUE(uEvent.peekHasChildEvents()); //make sure that proper event is set as child Event *childEvent = pCmdQ->virtualEvent; EXPECT_EQ(childEvent, uEvent.peekChildEvents()->ref); auto retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, givenNormalEventThatHasParentUserEventWhenUserEventIsUnblockedThenChildEventIsCompleteIfGpuCompletedProcessing) { UserEvent uEvent; Event event(pCmdQ, CL_COMMAND_NDRANGE_KERNEL, 0, 0); uEvent.addChild(event); EXPECT_FALSE(event.updateStatusAndCheckCompletion()); EXPECT_EQ(CL_QUEUED, event.peekExecutionStatus()); uEvent.setStatus(CL_COMPLETE); EXPECT_EQ(CL_COMPLETE, event.peekExecutionStatus()); } TEST_F(EventTests, twoUserEventInjectsCountOnReturnEventAndCreatesConnection) { UserEvent uEvent; UserEvent uEvent2; cl_event retEvent = nullptr; cl_event eventWaitList[] = {&uEvent, &uEvent2}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //call NDR callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); //check if dependency count is increased Event *returnEvent = castToObject(retEvent); ASSERT_EQ(2U, returnEvent->peekNumEventsBlockingThis()); //check if user event knows his childs EXPECT_TRUE(uEvent.peekHasChildEvents()); //check if user event knows his childs EXPECT_TRUE(uEvent2.peekHasChildEvents()); //make sure that proper event is set as child Event *childEvent = pCmdQ->virtualEvent; EXPECT_EQ(childEvent, uEvent.peekChildEvents()->ref); EXPECT_FALSE(childEvent->isReadyForSubmission()); //make sure that proper event is set as child EXPECT_EQ(childEvent, uEvent2.peekChildEvents()->ref); //signal one user event, child event after this operation isn't be ready for submission uEvent.setStatus(0); //check if user event knows his childs EXPECT_FALSE(uEvent.peekHasChildEvents()); EXPECT_EQ(1U, returnEvent->peekNumEventsBlockingThis()); EXPECT_FALSE(returnEvent->isReadyForSubmission()); auto retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, twoUserEventInjectsCountOnNDR1whichIsPropagatedToNDR2viaVirtualEvent) { UserEvent uEvent(context); UserEvent uEvent2(context); cl_event eventWaitList[] = {&uEvent, &uEvent2}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //call NDR, no return Event auto retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); //check if dependency count is increased Event *returnEvent1 = castToObject(pCmdQ->virtualEvent); ASSERT_EQ(2U, returnEvent1->peekNumEventsBlockingThis()); //check if user event knows his childs EXPECT_TRUE(uEvent.peekHasChildEvents()); //check if user event knows his childs EXPECT_TRUE(uEvent2.peekHasChildEvents()); //make sure that proper event is set as child Event *childEvent = pCmdQ->virtualEvent; EXPECT_EQ(childEvent, uEvent.peekChildEvents()->ref); //make sure that proper event is set as child EXPECT_EQ(childEvent, uEvent2.peekChildEvents()->ref); //call NDR, no events, Virtual Event mustn't leak and will be bind to previous Virtual Event retVal = callOneWorkItemNDRKernel(); EXPECT_EQ(CL_SUCCESS, retVal); //queue must be in blocked state EXPECT_EQ(pCmdQ->isQueueBlocked(), true); //check if virtual event2 is a child of virtual event 1 VirtualEvent *returnEvent2 = castToObject(pCmdQ->virtualEvent); ASSERT_TRUE(returnEvent1->peekHasChildEvents()); EXPECT_EQ(returnEvent2, returnEvent1->peekChildEvents()->ref); //now signal both parents and see if all childs are notified uEvent.setStatus(CL_COMPLETE); uEvent2.setStatus(CL_COMPLETE); //queue shoud be in unblocked state EXPECT_EQ(pCmdQ->isQueueBlocked(), false); //finish returns immidieatly retVal = clFinish(pCmdQ); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, givenQueueThatIsBlockedByUserEventWhenIsQueueBlockedIsCalledThenVirtualEventOnlyQueriesForExecutionStatus) { struct mockEvent : public Event { using Event::Event; void updateExecutionStatus() override { updateExecutionStatusCalled = true; } bool updateExecutionStatusCalled = false; }; mockEvent mockedVirtualEvent(pCmdQ, CL_COMMAND_NDRANGE_KERNEL, Event::eventNotReady, 0); pCmdQ->virtualEvent = &mockedVirtualEvent; EXPECT_TRUE(pCmdQ->isQueueBlocked()); EXPECT_FALSE(mockedVirtualEvent.updateExecutionStatusCalled); pCmdQ->virtualEvent = nullptr; } TEST_F(EventTests, finishDoesntBlockAfterUserEventSignaling) { UserEvent uEvent(context); UserEvent uEvent2(context); cl_event eventWaitList[] = {&uEvent, &uEvent2}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //call NDR, no return Event auto retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); uEvent.setStatus(0); uEvent2.setStatus(0); retVal = clFinish(pCmdQ); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, userEventStatusPropagatedToNormalEvent) { UserEvent uEvent; cl_event retEvent = nullptr; cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //call NDR callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); //set user event status uEvent.setStatus(CL_COMPLETE); //wait for returend event, this should return with success. auto retVal = clWaitForEvents(1, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } HWTEST_F(EventTests, userEventObtainsProperTaskLevelAfterSignaling) { UserEvent uEvent(context); auto &csr = pDevice->getUltCommandStreamReceiver(); auto taskLevel = csr.peekTaskLevel(); csr.taskCount = 3; uEvent.setStatus(CL_COMPLETE); EXPECT_EQ(taskLevel, uEvent.taskLevel); csr.taskLevel = 2; csr.taskCount = 5; uEvent.setStatus(CL_COMPLETE); //even though csr taskLevel has changed, user event taskLevel should remain constant EXPECT_EQ(0u, uEvent.taskLevel); } TEST_F(EventTests, normalEventsBasingOnUserEventHasProperTaskLevel) { UserEvent uEvent(context); auto &device = this->pCmdQ->getDevice(); auto &csr = device.getCommandStreamReceiver(); auto taskLevel = csr.peekTaskLevel(); cl_event retEvent = nullptr; cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); //check if dependency count is increased Event *returnEvent = castToObject(retEvent); EXPECT_EQ(Event::eventNotReady, returnEvent->taskLevel); EXPECT_EQ(Event::eventNotReady, returnEvent->peekTaskCount()); //now set user event for complete status, this triggers update of childs. uEvent.setStatus(CL_COMPLETE); //child event should have the same taskLevel as parentEvent, as parent event is top of the tree and doesn't have any commands. EXPECT_EQ(returnEvent->taskLevel, taskLevel); EXPECT_EQ(csr.peekTaskCount(), returnEvent->peekTaskCount()); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, waitForEventThatWaitsOnSignaledUserEvent) { UserEvent uEvent(context); cl_event retEvent = nullptr; cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); //check if dependency count is increased Event *returnEvent = castToObject(retEvent); EXPECT_EQ(Event::eventNotReady, returnEvent->taskLevel); //now set user event for complete status, this triggers update of childs. uEvent.setStatus(CL_COMPLETE); retVal = clWaitForEvents(1, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, waitForAbortedUserEventReturnsFailure) { UserEvent uEvent(context); cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //negative values indicate abortion uEvent.setStatus(-1); retVal = clWaitForEvents(sizeOfWaitList, eventWaitList); EXPECT_EQ(CL_EXEC_STATUS_ERROR_FOR_EVENTS_IN_WAIT_LIST, retVal); } TEST_F(EventTests, enqueueWithAbortedUserEventDoesntFlushToCSR) { UserEvent uEvent(context); cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); cl_event retEvent = nullptr; auto &csr = pCmdQ->getDevice().getCommandStreamReceiver(); auto taskCount = csr.peekTaskCount(); //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); //negative values indicate abortion uEvent.setStatus(-1); auto taskCountAfter = csr.peekTaskCount(); EXPECT_EQ(taskCount, taskCountAfter); Event *pChildEvent = (Event *)retEvent; EXPECT_EQ(Event::eventNotReady, pChildEvent->taskLevel); cl_int eventStatus = 0; retVal = clGetEventInfo(retEvent, CL_EVENT_COMMAND_EXECUTION_STATUS, sizeof(cl_int), &eventStatus, NULL); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(-1, eventStatus); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, childEventDestructorDoesntProcessBlockedCommandsWhenParentEventWasAborted) { UserEvent uEvent(context); cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); cl_event retEvent = nullptr; auto &csr = pCmdQ->getDevice().getCommandStreamReceiver(); auto taskCount = csr.peekTaskCount(); //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); //call second NDR to create Virtual Event retVal = callOneWorkItemNDRKernel(&retEvent, 1, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); //negative values indicate abortion uEvent.setStatus(-1); auto taskCountAfter = csr.peekTaskCount(); EXPECT_EQ(taskCount, taskCountAfter); Event *pChildEvent = (Event *)retEvent; EXPECT_EQ(Event::eventNotReady, pChildEvent->taskLevel); cl_int eventStatus = 0; retVal = clGetEventInfo(retEvent, CL_EVENT_COMMAND_EXECUTION_STATUS, sizeof(cl_int), &eventStatus, NULL); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(-1, eventStatus); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); taskCountAfter = csr.peekTaskCount(); EXPECT_EQ(taskCount, taskCountAfter); } TEST_F(EventTests, waitForEventDependingOnAbortedUserEventReturnsFailure) { UserEvent uEvent(context); cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); cl_event retEvent = nullptr; //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); //negative values indicate abortion uEvent.setStatus(-1); eventWaitList[0] = retEvent; retVal = clWaitForEvents(sizeOfWaitList, eventWaitList); EXPECT_EQ(CL_EXEC_STATUS_ERROR_FOR_EVENTS_IN_WAIT_LIST, retVal); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, waitForEventDependingOnAbortedUserEventReturnsFailureTwoInputEvents) { UserEvent uEvent(context); UserEvent uEvent2(context); cl_event eventWaitList[] = {&uEvent, &uEvent2}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); cl_event retEvent = nullptr; //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); //negative values indicate abortion uEvent.setStatus(-1); eventWaitList[0] = retEvent; retVal = clWaitForEvents(sizeOfWaitList, eventWaitList); EXPECT_EQ(CL_EXEC_STATUS_ERROR_FOR_EVENTS_IN_WAIT_LIST, retVal); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, finishReturnsSuccessAfterQueueIsAborted) { UserEvent uEvent(context); auto &csr = pDevice->getCommandStreamReceiver(); auto taskLevel = csr.peekTaskLevel(); cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList); EXPECT_EQ(CL_SUCCESS, retVal); //negative values indicate abortion uEvent.setStatus(-1); //make sure we didn't asked CSR for task level for this event, as it is aborted EXPECT_NE(taskLevel, uEvent.taskLevel); retVal = clFinish(pCmdQ); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, userEventRecordsDependantPacket) { UserEvent uEvent(context); cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList); //virtual event should register for this command packet ASSERT_NE(nullptr, pCmdQ->virtualEvent); EXPECT_NE(nullptr, pCmdQ->virtualEvent->peekCommand()); } TEST_F(EventTests, userEventDependantCommandPacketContainsValidCommandStream) { UserEvent uEvent(context); cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList); //virtual event should register for this command packet ASSERT_NE(nullptr, pCmdQ->virtualEvent); auto cmd = static_cast(pCmdQ->virtualEvent->peekCommand()); EXPECT_NE(0u, cmd->getCommandStream()->getUsed()); } TEST_F(EventTests, unblockingEventSendsBlockedPackets) { UserEvent uEvent(context); auto &csr = pCmdQ->getDevice().getCommandStreamReceiver(); cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList); EXPECT_EQ(CL_SUCCESS, retVal); //task level untouched as queue blocked by user event EXPECT_EQ(csr.peekTaskLevel(), 0u); //virtual event have stored command packet Event *childEvent = pCmdQ->virtualEvent; EXPECT_NE(nullptr, childEvent); EXPECT_NE(nullptr, childEvent->peekCommand()); EXPECT_FALSE(childEvent->isReadyForSubmission()); EXPECT_NE(nullptr, childEvent->peekCommand()); //signal the input user event uEvent.setStatus(0); EXPECT_EQ(csr.peekTaskLevel(), 1u); } TEST_F(EventTests, virtualEventObtainedFromReturnedEventCannotBeReleasedByIsQueueBlocked) { UserEvent uEvent(context); cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); cl_event retEvent; //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); uEvent.setStatus(0); //call finish multiple times retVal |= clFinish(pCmdQ); retVal |= clFinish(pCmdQ); retVal |= clFinish(pCmdQ); EXPECT_EQ(CL_SUCCESS, retVal); //Virtual Event is gone, but retEvent still lives. EXPECT_EQ(nullptr, pCmdQ->virtualEvent); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, userEventsDoesntChangeCommandStreamWhileEnqueueButDoesAfterSignaling) { UserEvent uEvent(context); cl_event eventWaitList[] = {&uEvent}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); cl_event retEvent; auto &cs = pCmdQ->getCS(); auto used = cs.getSpace(0); //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); auto used2 = cs.getSpace(0); EXPECT_EQ(used2, used); uEvent.setStatus(CL_COMPLETE); auto used3 = cs.getSpace(0); //call finish multiple times retVal |= clFinish(pCmdQ); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_NE(used3, used); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, givenUserEventThatHasCallbackAndBlockQueueWhenQueueIsQueriedForBlockedThenCallBackIsCalled) { DebugManagerStateRestore dbgRestore; DebugManager.flags.EnableAsyncEventsHandler.set(false); struct EV : UserEvent { EV(Context *ctx) : UserEvent(ctx) { } void updateExecutionStatus() override { updated++; } int updated = 0; }; auto event1 = MockEventBuilder::createAndFinalize(&pCmdQ->getContext()); struct E2Clb { static void CL_CALLBACK SignalEv2(cl_event e, cl_int status, void *data) { bool *called = (bool *)data; *called = true; } }; cl_event eventWaitList[] = {event1}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); cl_event retEvent; //call NDR retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retEvent); ASSERT_EQ(retVal, CL_SUCCESS); bool callbackCalled = false; retVal = clSetEventCallback(event1, CL_COMPLETE, E2Clb::SignalEv2, &callbackCalled); ASSERT_EQ(retVal, CL_SUCCESS); EXPECT_EQ(1, event1->updated); EXPECT_TRUE(pCmdQ->isQueueBlocked()); event1->setStatus(CL_COMPLETE); // Must wait for event that depend on callback event to ensure callback is called. Event::waitForEvents(1, &retEvent); EXPECT_TRUE(callbackCalled); clReleaseEvent(retEvent); event1->release(); } TEST_F(EventTests, CallBackAfterEnqueue) { DebugManagerStateRestore dbgRestore; DebugManager.flags.EnableAsyncEventsHandler.set(false); UserEvent event1; struct E2Clb { static void CL_CALLBACK SignalEv2(cl_event e, cl_int status, void *data) { UserEvent *event2 = static_cast(data); event2->setStatus(CL_COMPLETE); } }; cl_event retEvent; //call NDR retVal = callOneWorkItemNDRKernel(nullptr, 0, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); retVal = clWaitForEvents(1, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); clSetEventCallback(retEvent, CL_COMPLETE, E2Clb::SignalEv2, &event1); cl_event events[] = {&event1}; auto result = UserEvent::waitForEvents(sizeof(events) / sizeof(events[0]), events); EXPECT_EQ(result, CL_SUCCESS); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, CallBackAfterEnqueueWithoutWait) { DebugManagerStateRestore dbgRestore; DebugManager.flags.EnableAsyncEventsHandler.set(false); UserEvent event1(context); struct E2Clb { static void CL_CALLBACK SignalEv2(cl_event e, cl_int status, void *data) { UserEvent *event2 = static_cast(data); event2->setStatus(CL_COMPLETE); } }; cl_event retEvent; //call NDR retVal = callOneWorkItemNDRKernel(nullptr, 0, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); clSetEventCallback(retEvent, CL_COMPLETE, E2Clb::SignalEv2, &event1); cl_event events[] = {&event1}; auto result = UserEvent::waitForEvents(sizeof(events) / sizeof(events[0]), events); EXPECT_EQ(result, CL_SUCCESS); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, enqueueReadImageBlockedOnUserEvent) { cl_event retEvent; UserEvent userEvent(this->context); cl_event events[] = {&userEvent}; auto image = std::unique_ptr(Image2dHelper<>::create(pContext)); ASSERT_NE(nullptr, image); auto retVal = EnqueueReadImageHelper<>::enqueueReadImage(pCmdQ, image.get(), false, EnqueueReadImageTraits::origin, EnqueueReadImageTraits::region, EnqueueReadImageTraits::rowPitch, EnqueueReadImageTraits::slicePitch, EnqueueReadImageTraits::hostPtr, 1, events, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); retVal = clSetUserEventStatus(&userEvent, CL_COMPLETE); ASSERT_EQ(CL_SUCCESS, retVal); retVal = clWaitForEvents(1, &retEvent); EXPECT_EQ(CL_SUCCESS, retVal); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, waitForEventsDestroysTemporaryAllocations) { auto &csr = pCmdQ->getDevice().getCommandStreamReceiver(); MemoryManager *memoryManager = csr.getMemoryManager(); //kill some temporary objects that fixture creates. csr.waitForTaskCountAndCleanAllocationList(-1, TEMPORARY_ALLOCATION); EXPECT_TRUE(memoryManager->graphicsAllocations.peekIsEmpty()); GraphicsAllocation *temporaryAllocation = csr.createAllocationAndHandleResidency((void *)0x1234, 200); EXPECT_EQ(temporaryAllocation, memoryManager->graphicsAllocations.peekHead()); temporaryAllocation->taskCount = 10; Event event(pCmdQ, CL_COMMAND_NDRANGE_KERNEL, 3, 11); cl_event eventWaitList[] = {&event}; event.waitForEvents(1, eventWaitList); EXPECT_TRUE(memoryManager->graphicsAllocations.peekIsEmpty()); } TEST_F(EventTest, UserEvent_Wait_NonBlocking) { UserEvent event; auto result = event.wait(false, false); EXPECT_FALSE(result); } TEST_F(EventTest, UserEvent_Wait_Single) { UserEvent event1; event1.setStatus(CL_COMPLETE); cl_event events[] = {&event1}; auto result = UserEvent::waitForEvents(sizeof(events) / sizeof(events[0]), events); EXPECT_EQ(result, CL_SUCCESS); } TEST_F(EventTest, UserEvent_Wait_Multiple_OutOfOrder_Callbacks) { DebugManagerStateRestore dbgRestore; DebugManager.flags.EnableAsyncEventsHandler.set(false); UserEvent event1; struct E2Clb { static void CL_CALLBACK SignalEv2(cl_event e, cl_int status, void *data) { UserEvent *event2 = static_cast(data); event2->setStatus(CL_COMPLETE); } }; UserEvent event2; event2.addCallback(E2Clb::SignalEv2, CL_COMPLETE, &event1); event2.setStatus(CL_COMPLETE); cl_event events[] = {&event1, &event2}; auto result = UserEvent::waitForEvents(sizeof(events) / sizeof(events[0]), events); EXPECT_EQ(result, CL_SUCCESS); } TEST_F(EventTests, WhenCalbackWasRegisteredOnCallbackExecutionPassesCorrectExecutionStatus) { DebugManagerStateRestore dbgRestore; DebugManager.flags.EnableAsyncEventsHandler.set(false); struct HelperClb { static void CL_CALLBACK SetClbStatus(cl_event e, cl_int status, void *data) { cl_int *ret = static_cast(data); *ret = status; } }; cl_event retEvent; retVal = callOneWorkItemNDRKernel(nullptr, 0, &retEvent); ASSERT_EQ(CL_SUCCESS, retVal); cl_int submittedClbExecStatus = -1; cl_int runningClbExecStatus = -1; cl_int completeClbExecStatus = -1; retVal = clSetEventCallback(retEvent, CL_SUBMITTED, HelperClb::SetClbStatus, &submittedClbExecStatus); ASSERT_EQ(CL_SUCCESS, retVal); retVal = clSetEventCallback(retEvent, CL_RUNNING, HelperClb::SetClbStatus, &runningClbExecStatus); ASSERT_EQ(CL_SUCCESS, retVal); retVal = clSetEventCallback(retEvent, CL_COMPLETE, HelperClb::SetClbStatus, &completeClbExecStatus); ASSERT_EQ(CL_SUCCESS, retVal); auto result = UserEvent::waitForEvents(1, &retEvent); ASSERT_EQ(result, CL_SUCCESS); EXPECT_EQ(CL_SUBMITTED, submittedClbExecStatus); EXPECT_EQ(CL_RUNNING, runningClbExecStatus); EXPECT_EQ(CL_COMPLETE, completeClbExecStatus); clReleaseEvent(retEvent); } TEST_F(EventTests, eventOnQueryReturnsCorrentNumberOfBlockerEvents) { UserEvent uEvent1(context); UserEvent uEvent2(context); UserEvent uEvent3(context); EXPECT_EQ(0U, uEvent1.peekNumEventsBlockingThis()); EXPECT_EQ(0U, uEvent2.peekNumEventsBlockingThis()); EXPECT_EQ(0U, uEvent3.peekNumEventsBlockingThis()); cl_event eventWaitList[] = {&uEvent1, &uEvent2, &uEvent3}; int sizeOfWaitList = sizeof(eventWaitList) / sizeof(cl_event); cl_event retClEvent; retVal = callOneWorkItemNDRKernel(eventWaitList, sizeOfWaitList, &retClEvent); Event *retEvent = (Event *)retClEvent; ASSERT_EQ(CL_SUCCESS, retVal); ASSERT_NE(nullptr, retEvent); EXPECT_EQ(3U, retEvent->peekNumEventsBlockingThis()); retVal = clSetUserEventStatus(&uEvent1, CL_COMPLETE); ASSERT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(2U, retEvent->peekNumEventsBlockingThis()); retVal = clSetUserEventStatus(&uEvent2, CL_COMPLETE); ASSERT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(1U, retEvent->peekNumEventsBlockingThis()); retVal = clSetUserEventStatus(&uEvent3, CL_COMPLETE); ASSERT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(0U, retEvent->peekNumEventsBlockingThis()); retVal |= clFinish(pCmdQ); EXPECT_EQ(CL_SUCCESS, retVal); retVal = clReleaseEvent(retEvent); EXPECT_EQ(CL_SUCCESS, retVal); } TEST_F(EventTests, blockedUserEventPassedToEnqueueNdRangeDoesntRetainCommandQueue) { auto userEvent = clCreateUserEvent(pContext, &retVal); ASSERT_EQ(CL_SUCCESS, retVal); auto uEvent = (UserEvent *)userEvent; ASSERT_NE(nullptr, uEvent); auto cmdQueue = uEvent->getCommandQueue(); ASSERT_EQ(nullptr, cmdQueue); auto intitialRefCount = pCmdQ->getRefInternalCount(); auto retVal = callOneWorkItemNDRKernel(&userEvent, 1); ASSERT_EQ(CL_SUCCESS, retVal); cmdQueue = uEvent->getCommandQueue(); ASSERT_EQ(nullptr, cmdQueue); // Virtual event add refference to cmq queue. EXPECT_EQ(intitialRefCount + 1, pCmdQ->getRefInternalCount()); retVal = clSetUserEventStatus(userEvent, CL_COMPLETE); ASSERT_EQ(CL_SUCCESS, retVal); retVal = clReleaseEvent(userEvent); ASSERT_EQ(CL_SUCCESS, retVal); // VirtualEvent should be freed, so refCount should equal initial value EXPECT_EQ(intitialRefCount, pCmdQ->getRefInternalCount()); } TEST_F(EventTests, givenUserEventWhenSetStatusIsDoneThenDeviceMutextisAcquired) { struct mockedEvent : public UserEvent { using UserEvent::UserEvent; bool setStatus(cl_int status) override { mutexProperlyAcquired = this->getContext()->getDevice(0)->hasOwnership(); return true; } bool mutexProperlyAcquired = false; }; mockedEvent mockEvent(this->context); clSetUserEventStatus(&mockEvent, CL_COMPLETE); EXPECT_TRUE(mockEvent.mutexProperlyAcquired); }