| // |
| // Copyright © 2019 Arm Ltd and Contributors. All rights reserved. |
| // SPDX-License-Identifier: MIT |
| // |
| |
| #include "ProfilingTests.hpp" |
| #include "ProfilingTestUtils.hpp" |
| |
| #include <backends/BackendProfiling.hpp> |
| #include <common/include/EncodeVersion.hpp> |
| #include <common/include/PacketVersionResolver.hpp> |
| #include <common/include/SwTrace.hpp> |
| #include <CommandHandler.hpp> |
| #include <ConnectionAcknowledgedCommandHandler.hpp> |
| #include <CounterDirectory.hpp> |
| #include <CounterIdMap.hpp> |
| #include <Holder.hpp> |
| #include <ICounterValues.hpp> |
| #include <PeriodicCounterCapture.hpp> |
| #include <PeriodicCounterSelectionCommandHandler.hpp> |
| #include <ProfilingStateMachine.hpp> |
| #include <ProfilingUtils.hpp> |
| #include <RegisterBackendCounters.hpp> |
| #include <RequestCounterDirectoryCommandHandler.hpp> |
| #include <Runtime.hpp> |
| #include <SocketProfilingConnection.hpp> |
| #include <SendCounterPacket.hpp> |
| #include <SendThread.hpp> |
| #include <SendTimelinePacket.hpp> |
| |
| #include <armnn/Conversion.hpp> |
| #include <armnn/Types.hpp> |
| |
| #include <armnn/Utils.hpp> |
| #include <armnn/utility/IgnoreUnused.hpp> |
| #include <armnn/utility/NumericCast.hpp> |
| |
| #include <common/include/CommandHandlerKey.hpp> |
| #include <common/include/CommandHandlerRegistry.hpp> |
| #include <common/include/SocketConnectionException.hpp> |
| #include <common/include/Packet.hpp> |
| |
| #include <cstdint> |
| #include <cstring> |
| #include <iostream> |
| #include <limits> |
| #include <map> |
| #include <random> |
| |
| |
| using namespace armnn::profiling; |
| using PacketType = MockProfilingConnection::PacketType; |
| |
| BOOST_AUTO_TEST_SUITE(ExternalProfiling) |
| |
| BOOST_AUTO_TEST_CASE(CheckCommandHandlerKeyComparisons) |
| { |
| arm::pipe::CommandHandlerKey testKey1_0(1, 1, 1); |
| arm::pipe::CommandHandlerKey testKey1_1(1, 1, 1); |
| arm::pipe::CommandHandlerKey testKey1_2(1, 2, 1); |
| |
| arm::pipe::CommandHandlerKey testKey0(0, 1, 1); |
| arm::pipe::CommandHandlerKey testKey1(0, 1, 1); |
| arm::pipe::CommandHandlerKey testKey2(0, 1, 1); |
| arm::pipe::CommandHandlerKey testKey3(0, 0, 0); |
| arm::pipe::CommandHandlerKey testKey4(0, 2, 2); |
| arm::pipe::CommandHandlerKey testKey5(0, 0, 2); |
| |
| BOOST_CHECK(testKey1_0 > testKey0); |
| BOOST_CHECK(testKey1_0 == testKey1_1); |
| BOOST_CHECK(testKey1_0 < testKey1_2); |
| |
| BOOST_CHECK(testKey1 < testKey4); |
| BOOST_CHECK(testKey1 > testKey3); |
| BOOST_CHECK(testKey1 <= testKey4); |
| BOOST_CHECK(testKey1 >= testKey3); |
| BOOST_CHECK(testKey1 <= testKey2); |
| BOOST_CHECK(testKey1 >= testKey2); |
| BOOST_CHECK(testKey1 == testKey2); |
| BOOST_CHECK(testKey1 == testKey1); |
| |
| BOOST_CHECK(!(testKey1 == testKey5)); |
| BOOST_CHECK(!(testKey1 != testKey1)); |
| BOOST_CHECK(testKey1 != testKey5); |
| |
| BOOST_CHECK(testKey1 == testKey2 && testKey2 == testKey1); |
| BOOST_CHECK(testKey0 == testKey1 && testKey1 == testKey2 && testKey0 == testKey2); |
| |
| BOOST_CHECK(testKey1.GetPacketId() == 1); |
| BOOST_CHECK(testKey1.GetVersion() == 1); |
| |
| std::vector<arm::pipe::CommandHandlerKey> vect = { |
| arm::pipe::CommandHandlerKey(0, 0, 1), arm::pipe::CommandHandlerKey(0, 2, 0), |
| arm::pipe::CommandHandlerKey(0, 1, 0), arm::pipe::CommandHandlerKey(0, 2, 1), |
| arm::pipe::CommandHandlerKey(0, 1, 1), arm::pipe::CommandHandlerKey(0, 0, 1), |
| arm::pipe::CommandHandlerKey(0, 2, 0), arm::pipe::CommandHandlerKey(0, 0, 0) }; |
| |
| std::sort(vect.begin(), vect.end()); |
| |
| std::vector<arm::pipe::CommandHandlerKey> expectedVect = { |
| arm::pipe::CommandHandlerKey(0, 0, 0), arm::pipe::CommandHandlerKey(0, 0, 1), |
| arm::pipe::CommandHandlerKey(0, 0, 1), arm::pipe::CommandHandlerKey(0, 1, 0), |
| arm::pipe::CommandHandlerKey(0, 1, 1), arm::pipe::CommandHandlerKey(0, 2, 0), |
| arm::pipe::CommandHandlerKey(0, 2, 0), arm::pipe::CommandHandlerKey(0, 2, 1) }; |
| |
| BOOST_CHECK(vect == expectedVect); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckPacketKeyComparisons) |
| { |
| arm::pipe::PacketKey key0(0, 0); |
| arm::pipe::PacketKey key1(0, 0); |
| arm::pipe::PacketKey key2(0, 1); |
| arm::pipe::PacketKey key3(0, 2); |
| arm::pipe::PacketKey key4(1, 0); |
| arm::pipe::PacketKey key5(1, 0); |
| arm::pipe::PacketKey key6(1, 1); |
| |
| BOOST_CHECK(!(key0 < key1)); |
| BOOST_CHECK(!(key0 > key1)); |
| BOOST_CHECK(key0 <= key1); |
| BOOST_CHECK(key0 >= key1); |
| BOOST_CHECK(key0 == key1); |
| BOOST_CHECK(key0 < key2); |
| BOOST_CHECK(key2 < key3); |
| BOOST_CHECK(key3 > key0); |
| BOOST_CHECK(key4 == key5); |
| BOOST_CHECK(key4 > key0); |
| BOOST_CHECK(key5 < key6); |
| BOOST_CHECK(key5 <= key6); |
| BOOST_CHECK(key5 != key6); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckCommandHandler) |
| { |
| arm::pipe::PacketVersionResolver packetVersionResolver; |
| ProfilingStateMachine profilingStateMachine; |
| |
| TestProfilingConnectionBase testProfilingConnectionBase; |
| TestProfilingConnectionTimeoutError testProfilingConnectionTimeOutError; |
| TestProfilingConnectionArmnnError testProfilingConnectionArmnnError; |
| CounterDirectory counterDirectory; |
| MockBufferManager mockBuffer(1024); |
| SendCounterPacket sendCounterPacket(mockBuffer); |
| SendThread sendThread(profilingStateMachine, mockBuffer, sendCounterPacket); |
| SendTimelinePacket sendTimelinePacket(mockBuffer); |
| MockProfilingServiceStatus mockProfilingServiceStatus; |
| |
| ConnectionAcknowledgedCommandHandler connectionAcknowledgedCommandHandler(0, 1, 4194304, counterDirectory, |
| sendCounterPacket, sendTimelinePacket, |
| profilingStateMachine, |
| mockProfilingServiceStatus); |
| arm::pipe::CommandHandlerRegistry commandHandlerRegistry; |
| |
| commandHandlerRegistry.RegisterFunctor(&connectionAcknowledgedCommandHandler); |
| |
| profilingStateMachine.TransitionToState(ProfilingState::NotConnected); |
| profilingStateMachine.TransitionToState(ProfilingState::WaitingForAck); |
| |
| CommandHandler commandHandler0(1, true, commandHandlerRegistry, packetVersionResolver); |
| |
| // This should start the command handler thread return the connection ack and put the profiling |
| // service into active state. |
| commandHandler0.Start(testProfilingConnectionBase); |
| // Try to start the send thread many times, it must only start once |
| commandHandler0.Start(testProfilingConnectionBase); |
| |
| // This could take up to 20mSec but we'll check often. |
| for (int i = 0; i < 10; i++) |
| { |
| if (profilingStateMachine.GetCurrentState() == ProfilingState::Active) |
| { |
| break; |
| } |
| std::this_thread::sleep_for(std::chrono::milliseconds(2)); |
| } |
| |
| BOOST_CHECK(profilingStateMachine.GetCurrentState() == ProfilingState::Active); |
| |
| // Close the thread again. |
| commandHandler0.Stop(); |
| |
| profilingStateMachine.TransitionToState(ProfilingState::NotConnected); |
| profilingStateMachine.TransitionToState(ProfilingState::WaitingForAck); |
| |
| // In this test we'll simulate a timeout without a connection ack packet being received. |
| // Stop after timeout is set so we expect the command handler to stop almost immediately. |
| CommandHandler commandHandler1(1, true, commandHandlerRegistry, packetVersionResolver); |
| |
| commandHandler1.Start(testProfilingConnectionTimeOutError); |
| // Wait until we know a timeout exception has been sent at least once. |
| for (int i = 0; i < 10; i++) |
| { |
| if (testProfilingConnectionTimeOutError.ReadCalledCount()) |
| { |
| break; |
| } |
| std::this_thread::sleep_for(std::chrono::milliseconds(2)); |
| } |
| |
| // The command handler loop should have stopped after the timeout. |
| // wait for the timeout exception to be processed and the loop to break. |
| uint32_t timeout = 50; |
| uint32_t timeSlept = 0; |
| while (commandHandler1.IsRunning()) |
| { |
| if (timeSlept >= timeout) |
| { |
| BOOST_FAIL("Timeout: The command handler loop did not stop after the timeout"); |
| } |
| std::this_thread::sleep_for(std::chrono::milliseconds(1)); |
| timeSlept ++; |
| } |
| |
| commandHandler1.Stop(); |
| // The state machine should never have received the ack so will still be in WaitingForAck. |
| BOOST_CHECK(profilingStateMachine.GetCurrentState() == ProfilingState::WaitingForAck); |
| |
| // Now try sending a bad connection acknowledged packet |
| TestProfilingConnectionBadAckPacket testProfilingConnectionBadAckPacket; |
| commandHandler1.Start(testProfilingConnectionBadAckPacket); |
| commandHandler1.Stop(); |
| // This should also not change the state machine |
| BOOST_CHECK(profilingStateMachine.GetCurrentState() == ProfilingState::WaitingForAck); |
| |
| // Disable stop after timeout and now commandHandler1 should persist after a timeout |
| commandHandler1.SetStopAfterTimeout(false); |
| // Restart the thread. |
| commandHandler1.Start(testProfilingConnectionTimeOutError); |
| |
| // Wait for at the three timeouts and the ack to be sent. |
| for (int i = 0; i < 10; i++) |
| { |
| if (testProfilingConnectionTimeOutError.ReadCalledCount() > 3) |
| { |
| break; |
| } |
| std::this_thread::sleep_for(std::chrono::milliseconds(2)); |
| } |
| commandHandler1.Stop(); |
| |
| // Even after the 3 exceptions the ack packet should have transitioned the command handler to active. |
| BOOST_CHECK(profilingStateMachine.GetCurrentState() == ProfilingState::Active); |
| |
| // A command handler that gets exceptions other than timeouts should keep going. |
| CommandHandler commandHandler2(1, false, commandHandlerRegistry, packetVersionResolver); |
| |
| commandHandler2.Start(testProfilingConnectionArmnnError); |
| |
| // Wait for two exceptions to be thrown. |
| for (int i = 0; i < 10; i++) |
| { |
| if (testProfilingConnectionTimeOutError.ReadCalledCount() >= 2) |
| { |
| break; |
| } |
| std::this_thread::sleep_for(std::chrono::milliseconds(2)); |
| } |
| |
| BOOST_CHECK(commandHandler2.IsRunning()); |
| commandHandler2.Stop(); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckEncodeVersion) |
| { |
| arm::pipe::Version version1(12); |
| |
| BOOST_CHECK(version1.GetMajor() == 0); |
| BOOST_CHECK(version1.GetMinor() == 0); |
| BOOST_CHECK(version1.GetPatch() == 12); |
| |
| arm::pipe::Version version2(4108); |
| |
| BOOST_CHECK(version2.GetMajor() == 0); |
| BOOST_CHECK(version2.GetMinor() == 1); |
| BOOST_CHECK(version2.GetPatch() == 12); |
| |
| arm::pipe::Version version3(4198412); |
| |
| BOOST_CHECK(version3.GetMajor() == 1); |
| BOOST_CHECK(version3.GetMinor() == 1); |
| BOOST_CHECK(version3.GetPatch() == 12); |
| |
| arm::pipe::Version version4(0); |
| |
| BOOST_CHECK(version4.GetMajor() == 0); |
| BOOST_CHECK(version4.GetMinor() == 0); |
| BOOST_CHECK(version4.GetPatch() == 0); |
| |
| arm::pipe::Version version5(1, 0, 0); |
| BOOST_CHECK(version5.GetEncodedValue() == 4194304); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckPacketClass) |
| { |
| uint32_t length = 4; |
| std::unique_ptr<unsigned char[]> packetData0 = std::make_unique<unsigned char[]>(length); |
| std::unique_ptr<unsigned char[]> packetData1 = std::make_unique<unsigned char[]>(0); |
| std::unique_ptr<unsigned char[]> nullPacketData; |
| |
| arm::pipe::Packet packetTest0(472580096, length, packetData0); |
| |
| BOOST_CHECK(packetTest0.GetHeader() == 472580096); |
| BOOST_CHECK(packetTest0.GetPacketFamily() == 7); |
| BOOST_CHECK(packetTest0.GetPacketId() == 43); |
| BOOST_CHECK(packetTest0.GetLength() == length); |
| BOOST_CHECK(packetTest0.GetPacketType() == 3); |
| BOOST_CHECK(packetTest0.GetPacketClass() == 5); |
| |
| BOOST_CHECK_THROW(arm::pipe::Packet packetTest1(472580096, 0, packetData1), arm::pipe::InvalidArgumentException); |
| BOOST_CHECK_NO_THROW(arm::pipe::Packet packetTest2(472580096, 0, nullPacketData)); |
| |
| arm::pipe::Packet packetTest3(472580096, 0, nullPacketData); |
| BOOST_CHECK(packetTest3.GetLength() == 0); |
| BOOST_CHECK(packetTest3.GetData() == nullptr); |
| |
| const unsigned char* packetTest0Data = packetTest0.GetData(); |
| arm::pipe::Packet packetTest4(std::move(packetTest0)); |
| |
| BOOST_CHECK(packetTest0.GetData() == nullptr); |
| BOOST_CHECK(packetTest4.GetData() == packetTest0Data); |
| |
| BOOST_CHECK(packetTest4.GetHeader() == 472580096); |
| BOOST_CHECK(packetTest4.GetPacketFamily() == 7); |
| BOOST_CHECK(packetTest4.GetPacketId() == 43); |
| BOOST_CHECK(packetTest4.GetLength() == length); |
| BOOST_CHECK(packetTest4.GetPacketType() == 3); |
| BOOST_CHECK(packetTest4.GetPacketClass() == 5); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckCommandHandlerFunctor) |
| { |
| // Hard code the version as it will be the same during a single profiling session |
| uint32_t version = 1; |
| |
| TestFunctorA testFunctorA(7, 461, version); |
| TestFunctorB testFunctorB(8, 963, version); |
| TestFunctorC testFunctorC(5, 983, version); |
| |
| arm::pipe::CommandHandlerKey keyA( |
| testFunctorA.GetFamilyId(), testFunctorA.GetPacketId(), testFunctorA.GetVersion()); |
| arm::pipe::CommandHandlerKey keyB( |
| testFunctorB.GetFamilyId(), testFunctorB.GetPacketId(), testFunctorB.GetVersion()); |
| arm::pipe::CommandHandlerKey keyC( |
| testFunctorC.GetFamilyId(), testFunctorC.GetPacketId(), testFunctorC.GetVersion()); |
| |
| // Create the unwrapped map to simulate the Command Handler Registry |
| std::map<arm::pipe::CommandHandlerKey, arm::pipe::CommandHandlerFunctor*> registry; |
| |
| registry.insert(std::make_pair(keyB, &testFunctorB)); |
| registry.insert(std::make_pair(keyA, &testFunctorA)); |
| registry.insert(std::make_pair(keyC, &testFunctorC)); |
| |
| // Check the order of the map is correct |
| auto it = registry.begin(); |
| BOOST_CHECK(it->first == keyC); // familyId == 5 |
| it++; |
| BOOST_CHECK(it->first == keyA); // familyId == 7 |
| it++; |
| BOOST_CHECK(it->first == keyB); // familyId == 8 |
| |
| std::unique_ptr<unsigned char[]> packetDataA; |
| std::unique_ptr<unsigned char[]> packetDataB; |
| std::unique_ptr<unsigned char[]> packetDataC; |
| |
| arm::pipe::Packet packetA(500000000, 0, packetDataA); |
| arm::pipe::Packet packetB(600000000, 0, packetDataB); |
| arm::pipe::Packet packetC(400000000, 0, packetDataC); |
| |
| // Check the correct operator of derived class is called |
| registry.at(arm::pipe::CommandHandlerKey( |
| packetA.GetPacketFamily(), packetA.GetPacketId(), version))->operator()(packetA); |
| BOOST_CHECK(testFunctorA.GetCount() == 1); |
| BOOST_CHECK(testFunctorB.GetCount() == 0); |
| BOOST_CHECK(testFunctorC.GetCount() == 0); |
| |
| registry.at(arm::pipe::CommandHandlerKey( |
| packetB.GetPacketFamily(), packetB.GetPacketId(), version))->operator()(packetB); |
| BOOST_CHECK(testFunctorA.GetCount() == 1); |
| BOOST_CHECK(testFunctorB.GetCount() == 1); |
| BOOST_CHECK(testFunctorC.GetCount() == 0); |
| |
| registry.at(arm::pipe::CommandHandlerKey( |
| packetC.GetPacketFamily(), packetC.GetPacketId(), version))->operator()(packetC); |
| BOOST_CHECK(testFunctorA.GetCount() == 1); |
| BOOST_CHECK(testFunctorB.GetCount() == 1); |
| BOOST_CHECK(testFunctorC.GetCount() == 1); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckCommandHandlerRegistry) |
| { |
| // Hard code the version as it will be the same during a single profiling session |
| uint32_t version = 1; |
| |
| TestFunctorA testFunctorA(7, 461, version); |
| TestFunctorB testFunctorB(8, 963, version); |
| TestFunctorC testFunctorC(5, 983, version); |
| |
| // Create the Command Handler Registry |
| arm::pipe::CommandHandlerRegistry registry; |
| |
| // Register multiple different derived classes |
| registry.RegisterFunctor(&testFunctorA); |
| registry.RegisterFunctor(&testFunctorB); |
| registry.RegisterFunctor(&testFunctorC); |
| |
| std::unique_ptr<unsigned char[]> packetDataA; |
| std::unique_ptr<unsigned char[]> packetDataB; |
| std::unique_ptr<unsigned char[]> packetDataC; |
| |
| arm::pipe::Packet packetA(500000000, 0, packetDataA); |
| arm::pipe::Packet packetB(600000000, 0, packetDataB); |
| arm::pipe::Packet packetC(400000000, 0, packetDataC); |
| |
| // Check the correct operator of derived class is called |
| registry.GetFunctor(packetA.GetPacketFamily(), packetA.GetPacketId(), version)->operator()(packetA); |
| BOOST_CHECK(testFunctorA.GetCount() == 1); |
| BOOST_CHECK(testFunctorB.GetCount() == 0); |
| BOOST_CHECK(testFunctorC.GetCount() == 0); |
| |
| registry.GetFunctor(packetB.GetPacketFamily(), packetB.GetPacketId(), version)->operator()(packetB); |
| BOOST_CHECK(testFunctorA.GetCount() == 1); |
| BOOST_CHECK(testFunctorB.GetCount() == 1); |
| BOOST_CHECK(testFunctorC.GetCount() == 0); |
| |
| registry.GetFunctor(packetC.GetPacketFamily(), packetC.GetPacketId(), version)->operator()(packetC); |
| BOOST_CHECK(testFunctorA.GetCount() == 1); |
| BOOST_CHECK(testFunctorB.GetCount() == 1); |
| BOOST_CHECK(testFunctorC.GetCount() == 1); |
| |
| // Re-register an existing key with a new function |
| registry.RegisterFunctor(&testFunctorC, testFunctorA.GetFamilyId(), testFunctorA.GetPacketId(), version); |
| registry.GetFunctor(packetA.GetPacketFamily(), packetA.GetPacketId(), version)->operator()(packetC); |
| BOOST_CHECK(testFunctorA.GetCount() == 1); |
| BOOST_CHECK(testFunctorB.GetCount() == 1); |
| BOOST_CHECK(testFunctorC.GetCount() == 2); |
| |
| // Check that non-existent key returns nullptr for its functor |
| BOOST_CHECK_THROW(registry.GetFunctor(0, 0, 0), arm::pipe::ProfilingException); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckPacketVersionResolver) |
| { |
| // Set up random number generator for generating packetId values |
| std::random_device device; |
| std::mt19937 generator(device()); |
| std::uniform_int_distribution<uint32_t> distribution(std::numeric_limits<uint32_t>::min(), |
| std::numeric_limits<uint32_t>::max()); |
| |
| // NOTE: Expected version is always 1.0.0, regardless of packetId |
| const arm::pipe::Version expectedVersion(1, 0, 0); |
| |
| arm::pipe::PacketVersionResolver packetVersionResolver; |
| |
| constexpr unsigned int numTests = 10u; |
| |
| for (unsigned int i = 0u; i < numTests; ++i) |
| { |
| const uint32_t familyId = distribution(generator); |
| const uint32_t packetId = distribution(generator); |
| arm::pipe::Version resolvedVersion = packetVersionResolver.ResolvePacketVersion(familyId, packetId); |
| |
| BOOST_TEST(resolvedVersion == expectedVersion); |
| } |
| } |
| |
| void ProfilingCurrentStateThreadImpl(ProfilingStateMachine& states) |
| { |
| ProfilingState newState = ProfilingState::NotConnected; |
| states.GetCurrentState(); |
| states.TransitionToState(newState); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingStateMachine) |
| { |
| ProfilingStateMachine profilingState1(ProfilingState::Uninitialised); |
| profilingState1.TransitionToState(ProfilingState::Uninitialised); |
| BOOST_CHECK(profilingState1.GetCurrentState() == ProfilingState::Uninitialised); |
| |
| ProfilingStateMachine profilingState2(ProfilingState::Uninitialised); |
| profilingState2.TransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK(profilingState2.GetCurrentState() == ProfilingState::NotConnected); |
| |
| ProfilingStateMachine profilingState3(ProfilingState::NotConnected); |
| profilingState3.TransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK(profilingState3.GetCurrentState() == ProfilingState::NotConnected); |
| |
| ProfilingStateMachine profilingState4(ProfilingState::NotConnected); |
| profilingState4.TransitionToState(ProfilingState::WaitingForAck); |
| BOOST_CHECK(profilingState4.GetCurrentState() == ProfilingState::WaitingForAck); |
| |
| ProfilingStateMachine profilingState5(ProfilingState::WaitingForAck); |
| profilingState5.TransitionToState(ProfilingState::WaitingForAck); |
| BOOST_CHECK(profilingState5.GetCurrentState() == ProfilingState::WaitingForAck); |
| |
| ProfilingStateMachine profilingState6(ProfilingState::WaitingForAck); |
| profilingState6.TransitionToState(ProfilingState::Active); |
| BOOST_CHECK(profilingState6.GetCurrentState() == ProfilingState::Active); |
| |
| ProfilingStateMachine profilingState7(ProfilingState::Active); |
| profilingState7.TransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK(profilingState7.GetCurrentState() == ProfilingState::NotConnected); |
| |
| ProfilingStateMachine profilingState8(ProfilingState::Active); |
| profilingState8.TransitionToState(ProfilingState::Active); |
| BOOST_CHECK(profilingState8.GetCurrentState() == ProfilingState::Active); |
| |
| ProfilingStateMachine profilingState9(ProfilingState::Uninitialised); |
| BOOST_CHECK_THROW(profilingState9.TransitionToState(ProfilingState::WaitingForAck), armnn::Exception); |
| |
| ProfilingStateMachine profilingState10(ProfilingState::Uninitialised); |
| BOOST_CHECK_THROW(profilingState10.TransitionToState(ProfilingState::Active), armnn::Exception); |
| |
| ProfilingStateMachine profilingState11(ProfilingState::NotConnected); |
| BOOST_CHECK_THROW(profilingState11.TransitionToState(ProfilingState::Uninitialised), armnn::Exception); |
| |
| ProfilingStateMachine profilingState12(ProfilingState::NotConnected); |
| BOOST_CHECK_THROW(profilingState12.TransitionToState(ProfilingState::Active), armnn::Exception); |
| |
| ProfilingStateMachine profilingState13(ProfilingState::WaitingForAck); |
| BOOST_CHECK_THROW(profilingState13.TransitionToState(ProfilingState::Uninitialised), armnn::Exception); |
| |
| ProfilingStateMachine profilingState14(ProfilingState::WaitingForAck); |
| profilingState14.TransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK(profilingState14.GetCurrentState() == ProfilingState::NotConnected); |
| |
| ProfilingStateMachine profilingState15(ProfilingState::Active); |
| BOOST_CHECK_THROW(profilingState15.TransitionToState(ProfilingState::Uninitialised), armnn::Exception); |
| |
| ProfilingStateMachine profilingState16(armnn::profiling::ProfilingState::Active); |
| BOOST_CHECK_THROW(profilingState16.TransitionToState(ProfilingState::WaitingForAck), armnn::Exception); |
| |
| ProfilingStateMachine profilingState17(ProfilingState::Uninitialised); |
| |
| std::thread thread1(ProfilingCurrentStateThreadImpl, std::ref(profilingState17)); |
| std::thread thread2(ProfilingCurrentStateThreadImpl, std::ref(profilingState17)); |
| std::thread thread3(ProfilingCurrentStateThreadImpl, std::ref(profilingState17)); |
| std::thread thread4(ProfilingCurrentStateThreadImpl, std::ref(profilingState17)); |
| std::thread thread5(ProfilingCurrentStateThreadImpl, std::ref(profilingState17)); |
| |
| thread1.join(); |
| thread2.join(); |
| thread3.join(); |
| thread4.join(); |
| thread5.join(); |
| |
| BOOST_TEST((profilingState17.GetCurrentState() == ProfilingState::NotConnected)); |
| } |
| |
| void CaptureDataWriteThreadImpl(Holder& holder, uint32_t capturePeriod, const std::vector<uint16_t>& counterIds) |
| { |
| holder.SetCaptureData(capturePeriod, counterIds, {}); |
| } |
| |
| void CaptureDataReadThreadImpl(const Holder& holder, CaptureData& captureData) |
| { |
| captureData = holder.GetCaptureData(); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckCaptureDataHolder) |
| { |
| std::map<uint32_t, std::vector<uint16_t>> periodIdMap; |
| std::vector<uint16_t> counterIds; |
| uint32_t numThreads = 10; |
| for (uint32_t i = 0; i < numThreads; ++i) |
| { |
| counterIds.emplace_back(i); |
| periodIdMap.insert(std::make_pair(i, counterIds)); |
| } |
| |
| // Verify the read and write threads set the holder correctly |
| // and retrieve the expected values |
| Holder holder; |
| BOOST_CHECK((holder.GetCaptureData()).GetCapturePeriod() == 0); |
| BOOST_CHECK(((holder.GetCaptureData()).GetCounterIds()).empty()); |
| |
| // Check Holder functions |
| std::thread thread1(CaptureDataWriteThreadImpl, std::ref(holder), 2, std::ref(periodIdMap[2])); |
| thread1.join(); |
| BOOST_CHECK((holder.GetCaptureData()).GetCapturePeriod() == 2); |
| BOOST_CHECK((holder.GetCaptureData()).GetCounterIds() == periodIdMap[2]); |
| // NOTE: now that we have some initial values in the holder we don't have to worry |
| // in the multi-threaded section below about a read thread accessing the holder |
| // before any write thread has gotten to it so we read period = 0, counterIds empty |
| // instead of period = 0, counterIds = {0} as will the case when write thread 0 |
| // has executed. |
| |
| CaptureData captureData; |
| std::thread thread2(CaptureDataReadThreadImpl, std::ref(holder), std::ref(captureData)); |
| thread2.join(); |
| BOOST_CHECK(captureData.GetCapturePeriod() == 2); |
| BOOST_CHECK(captureData.GetCounterIds() == periodIdMap[2]); |
| |
| std::map<uint32_t, CaptureData> captureDataIdMap; |
| for (uint32_t i = 0; i < numThreads; ++i) |
| { |
| CaptureData perThreadCaptureData; |
| captureDataIdMap.insert(std::make_pair(i, perThreadCaptureData)); |
| } |
| |
| std::vector<std::thread> threadsVect; |
| std::vector<std::thread> readThreadsVect; |
| for (uint32_t i = 0; i < numThreads; ++i) |
| { |
| threadsVect.emplace_back( |
| std::thread(CaptureDataWriteThreadImpl, std::ref(holder), i, std::ref(periodIdMap[i]))); |
| |
| // Verify that the CaptureData goes into the thread in a virgin state |
| BOOST_CHECK(captureDataIdMap.at(i).GetCapturePeriod() == 0); |
| BOOST_CHECK(captureDataIdMap.at(i).GetCounterIds().empty()); |
| readThreadsVect.emplace_back( |
| std::thread(CaptureDataReadThreadImpl, std::ref(holder), std::ref(captureDataIdMap.at(i)))); |
| } |
| |
| for (uint32_t i = 0; i < numThreads; ++i) |
| { |
| threadsVect[i].join(); |
| readThreadsVect[i].join(); |
| } |
| |
| // Look at the CaptureData that each read thread has filled |
| // the capture period it read should match the counter ids entry |
| for (uint32_t i = 0; i < numThreads; ++i) |
| { |
| CaptureData perThreadCaptureData = captureDataIdMap.at(i); |
| BOOST_CHECK(perThreadCaptureData.GetCounterIds() == periodIdMap.at(perThreadCaptureData.GetCapturePeriod())); |
| } |
| } |
| |
| BOOST_AUTO_TEST_CASE(CaptureDataMethods) |
| { |
| // Check CaptureData setter and getter functions |
| std::vector<uint16_t> counterIds = { 42, 29, 13 }; |
| CaptureData captureData; |
| BOOST_CHECK(captureData.GetCapturePeriod() == 0); |
| BOOST_CHECK((captureData.GetCounterIds()).empty()); |
| captureData.SetCapturePeriod(150); |
| captureData.SetCounterIds(counterIds); |
| BOOST_CHECK(captureData.GetCapturePeriod() == 150); |
| BOOST_CHECK(captureData.GetCounterIds() == counterIds); |
| |
| // Check assignment operator |
| CaptureData secondCaptureData; |
| |
| secondCaptureData = captureData; |
| BOOST_CHECK(secondCaptureData.GetCapturePeriod() == 150); |
| BOOST_CHECK(secondCaptureData.GetCounterIds() == counterIds); |
| |
| // Check copy constructor |
| CaptureData copyConstructedCaptureData(captureData); |
| |
| BOOST_CHECK(copyConstructedCaptureData.GetCapturePeriod() == 150); |
| BOOST_CHECK(copyConstructedCaptureData.GetCounterIds() == counterIds); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceDisabled) |
| { |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceCounterDirectory) |
| { |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| const ICounterDirectory& counterDirectory0 = profilingService.GetCounterDirectory(); |
| BOOST_CHECK(counterDirectory0.GetCounterCount() == 0); |
| profilingService.Update(); |
| BOOST_CHECK(counterDirectory0.GetCounterCount() == 0); |
| |
| options.m_EnableProfiling = true; |
| profilingService.ResetExternalProfilingOptions(options); |
| |
| const ICounterDirectory& counterDirectory1 = profilingService.GetCounterDirectory(); |
| BOOST_CHECK(counterDirectory1.GetCounterCount() == 0); |
| profilingService.Update(); |
| BOOST_CHECK(counterDirectory1.GetCounterCount() != 0); |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceCounterValues) |
| { |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| profilingService.Update(); |
| const ICounterDirectory& counterDirectory = profilingService.GetCounterDirectory(); |
| const Counters& counters = counterDirectory.GetCounters(); |
| BOOST_CHECK(!counters.empty()); |
| |
| std::vector<std::thread> writers; |
| |
| BOOST_CHECK(!counters.empty()); |
| |
| // Test GetAbsoluteCounterValue |
| for (int i = 0; i < 4; ++i) |
| { |
| // Increment and decrement the INFERENCES_RUN counter 250 times |
| writers.push_back(std::thread([&profilingService]() |
| { |
| for (int i = 0; i < 250; ++i) |
| { |
| profilingService.IncrementCounterValue(INFERENCES_RUN); |
| } |
| })); |
| // Add 10 to the INFERENCES_RUN counter 200 times |
| writers.push_back(std::thread([&profilingService]() |
| { |
| for (int i = 0; i < 200; ++i) |
| { |
| profilingService.AddCounterValue(INFERENCES_RUN, 10); |
| } |
| })); |
| // Subtract 5 from the INFERENCES_RUN counter 200 times |
| writers.push_back(std::thread([&profilingService]() |
| { |
| for (int i = 0; i < 200; ++i) |
| { |
| profilingService.SubtractCounterValue(INFERENCES_RUN, 5); |
| } |
| })); |
| } |
| |
| std::for_each(writers.begin(), writers.end(), mem_fn(&std::thread::join)); |
| |
| uint32_t absoluteCounterValue = 0; |
| |
| BOOST_CHECK_NO_THROW(absoluteCounterValue = profilingService.GetAbsoluteCounterValue(INFERENCES_RUN)); |
| BOOST_CHECK(absoluteCounterValue = 5000); |
| |
| // Test SetCounterValue |
| BOOST_CHECK_NO_THROW(profilingService.SetCounterValue(INFERENCES_RUN, 0)); |
| BOOST_CHECK_NO_THROW(absoluteCounterValue = profilingService.GetAbsoluteCounterValue(INFERENCES_RUN)); |
| BOOST_CHECK(absoluteCounterValue == 0); |
| |
| // Test GetDeltaCounterValue |
| writers.clear(); |
| uint32_t deltaCounterValue = 0; |
| //Start a reading thread to randomly read the INFERENCES_RUN counter value |
| std::thread reader([&profilingService](uint32_t& deltaCounterValue) |
| { |
| for (int i = 0; i < 300; ++i) |
| { |
| deltaCounterValue += profilingService.GetDeltaCounterValue(INFERENCES_RUN); |
| } |
| }, std::ref(deltaCounterValue)); |
| |
| for (int i = 0; i < 4; ++i) |
| { |
| // Increment and decrement the INFERENCES_RUN counter 250 times |
| writers.push_back(std::thread([&profilingService]() |
| { |
| for (int i = 0; i < 250; ++i) |
| { |
| profilingService.IncrementCounterValue(INFERENCES_RUN); |
| } |
| })); |
| // Add 10 to the INFERENCES_RUN counter 200 times |
| writers.push_back(std::thread([&profilingService]() |
| { |
| for (int i = 0; i < 200; ++i) |
| { |
| profilingService.AddCounterValue(INFERENCES_RUN, 10); |
| } |
| })); |
| // Subtract 5 from the INFERENCES_RUN counter 200 times |
| writers.push_back(std::thread([&profilingService]() |
| { |
| for (int i = 0; i < 200; ++i) |
| { |
| profilingService.SubtractCounterValue(INFERENCES_RUN, 5); |
| } |
| })); |
| } |
| |
| std::for_each(writers.begin(), writers.end(), mem_fn(&std::thread::join)); |
| reader.join(); |
| |
| // Do one last read in case the reader stopped early |
| deltaCounterValue += profilingService.GetDeltaCounterValue(INFERENCES_RUN); |
| BOOST_CHECK(deltaCounterValue == 5000); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingObjectUids) |
| { |
| uint16_t uid = 0; |
| BOOST_CHECK_NO_THROW(uid = GetNextUid()); |
| BOOST_CHECK(uid >= 1); |
| |
| uint16_t nextUid = 0; |
| BOOST_CHECK_NO_THROW(nextUid = GetNextUid()); |
| BOOST_CHECK(nextUid > uid); |
| |
| std::vector<uint16_t> counterUids; |
| BOOST_CHECK_NO_THROW(counterUids = GetNextCounterUids(uid,0)); |
| BOOST_CHECK(counterUids.size() == 1); |
| |
| std::vector<uint16_t> nextCounterUids; |
| BOOST_CHECK_NO_THROW(nextCounterUids = GetNextCounterUids(nextUid, 2)); |
| BOOST_CHECK(nextCounterUids.size() == 2); |
| BOOST_CHECK(nextCounterUids[0] > counterUids[0]); |
| |
| std::vector<uint16_t> counterUidsMultiCore; |
| uint16_t thirdUid = 4; |
| uint16_t numberOfCores = 13; |
| BOOST_CHECK_NO_THROW(counterUidsMultiCore = GetNextCounterUids(thirdUid, numberOfCores)); |
| BOOST_CHECK(counterUidsMultiCore.size() == numberOfCores); |
| BOOST_CHECK(counterUidsMultiCore.front() >= nextCounterUids[0]); |
| for (size_t i = 1; i < numberOfCores; i++) |
| { |
| BOOST_CHECK(counterUidsMultiCore[i] == counterUidsMultiCore[i - 1] + 1); |
| } |
| BOOST_CHECK(counterUidsMultiCore.back() == counterUidsMultiCore.front() + numberOfCores - 1); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckCounterDirectoryRegisterCategory) |
| { |
| CounterDirectory counterDirectory; |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 0); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 0); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 0); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| |
| // Register a category with an invalid name |
| const Category* noCategory = nullptr; |
| BOOST_CHECK_THROW(noCategory = counterDirectory.RegisterCategory(""), armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 0); |
| BOOST_CHECK(!noCategory); |
| |
| // Register a category with an invalid name |
| BOOST_CHECK_THROW(noCategory = counterDirectory.RegisterCategory("invalid category"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 0); |
| BOOST_CHECK(!noCategory); |
| |
| // Register a new category |
| const std::string categoryName = "some_category"; |
| const Category* category = nullptr; |
| BOOST_CHECK_NO_THROW(category = counterDirectory.RegisterCategory(categoryName)); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 1); |
| BOOST_CHECK(category); |
| BOOST_CHECK(category->m_Name == categoryName); |
| BOOST_CHECK(category->m_Counters.empty()); |
| |
| // Get the registered category |
| const Category* registeredCategory = counterDirectory.GetCategory(categoryName); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 1); |
| BOOST_CHECK(registeredCategory); |
| BOOST_CHECK(registeredCategory == category); |
| |
| // Try to get a category not registered |
| const Category* notRegisteredCategory = counterDirectory.GetCategory("not_registered_category"); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 1); |
| BOOST_CHECK(!notRegisteredCategory); |
| |
| // Register a category already registered |
| const Category* anotherCategory = nullptr; |
| BOOST_CHECK_THROW(anotherCategory = counterDirectory.RegisterCategory(categoryName), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 1); |
| BOOST_CHECK(!anotherCategory); |
| |
| // Register a device for testing |
| const std::string deviceName = "some_device"; |
| const Device* device = nullptr; |
| BOOST_CHECK_NO_THROW(device = counterDirectory.RegisterDevice(deviceName)); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 1); |
| BOOST_CHECK(device); |
| BOOST_CHECK(device->m_Uid >= 1); |
| BOOST_CHECK(device->m_Name == deviceName); |
| BOOST_CHECK(device->m_Cores == 0); |
| |
| // Register a new category not associated to any device |
| const std::string categoryWoDeviceName = "some_category_without_device"; |
| const Category* categoryWoDevice = nullptr; |
| BOOST_CHECK_NO_THROW(categoryWoDevice = counterDirectory.RegisterCategory(categoryWoDeviceName)); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 2); |
| BOOST_CHECK(categoryWoDevice); |
| BOOST_CHECK(categoryWoDevice->m_Name == categoryWoDeviceName); |
| BOOST_CHECK(categoryWoDevice->m_Counters.empty()); |
| |
| // Register a new category associated to an invalid device name (already exist) |
| const Category* categoryInvalidDeviceName = nullptr; |
| BOOST_CHECK_THROW(categoryInvalidDeviceName = |
| counterDirectory.RegisterCategory(categoryWoDeviceName), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 2); |
| BOOST_CHECK(!categoryInvalidDeviceName); |
| |
| // Register a new category associated to a valid device |
| const std::string categoryWValidDeviceName = "some_category_with_valid_device"; |
| const Category* categoryWValidDevice = nullptr; |
| BOOST_CHECK_NO_THROW(categoryWValidDevice = |
| counterDirectory.RegisterCategory(categoryWValidDeviceName)); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 3); |
| BOOST_CHECK(categoryWValidDevice); |
| BOOST_CHECK(categoryWValidDevice != category); |
| BOOST_CHECK(categoryWValidDevice->m_Name == categoryWValidDeviceName); |
| |
| // Register a counter set for testing |
| const std::string counterSetName = "some_counter_set"; |
| const CounterSet* counterSet = nullptr; |
| BOOST_CHECK_NO_THROW(counterSet = counterDirectory.RegisterCounterSet(counterSetName)); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 1); |
| BOOST_CHECK(counterSet); |
| BOOST_CHECK(counterSet->m_Uid >= 1); |
| BOOST_CHECK(counterSet->m_Name == counterSetName); |
| BOOST_CHECK(counterSet->m_Count == 0); |
| |
| // Register a new category not associated to any counter set |
| const std::string categoryWoCounterSetName = "some_category_without_counter_set"; |
| const Category* categoryWoCounterSet = nullptr; |
| BOOST_CHECK_NO_THROW(categoryWoCounterSet = |
| counterDirectory.RegisterCategory(categoryWoCounterSetName)); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 4); |
| BOOST_CHECK(categoryWoCounterSet); |
| BOOST_CHECK(categoryWoCounterSet->m_Name == categoryWoCounterSetName); |
| |
| // Register a new category associated to a valid counter set |
| const std::string categoryWValidCounterSetName = "some_category_with_valid_counter_set"; |
| const Category* categoryWValidCounterSet = nullptr; |
| BOOST_CHECK_NO_THROW(categoryWValidCounterSet = counterDirectory.RegisterCategory(categoryWValidCounterSetName)); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 5); |
| BOOST_CHECK(categoryWValidCounterSet); |
| BOOST_CHECK(categoryWValidCounterSet != category); |
| BOOST_CHECK(categoryWValidCounterSet->m_Name == categoryWValidCounterSetName); |
| |
| // Register a new category associated to a valid device and counter set |
| const std::string categoryWValidDeviceAndValidCounterSetName = "some_category_with_valid_device_and_counter_set"; |
| const Category* categoryWValidDeviceAndValidCounterSet = nullptr; |
| BOOST_CHECK_NO_THROW(categoryWValidDeviceAndValidCounterSet = counterDirectory.RegisterCategory( |
| categoryWValidDeviceAndValidCounterSetName)); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 6); |
| BOOST_CHECK(categoryWValidDeviceAndValidCounterSet); |
| BOOST_CHECK(categoryWValidDeviceAndValidCounterSet != category); |
| BOOST_CHECK(categoryWValidDeviceAndValidCounterSet->m_Name == categoryWValidDeviceAndValidCounterSetName); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckCounterDirectoryRegisterDevice) |
| { |
| CounterDirectory counterDirectory; |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 0); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 0); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 0); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| |
| // Register a device with an invalid name |
| const Device* noDevice = nullptr; |
| BOOST_CHECK_THROW(noDevice = counterDirectory.RegisterDevice(""), armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 0); |
| BOOST_CHECK(!noDevice); |
| |
| // Register a device with an invalid name |
| BOOST_CHECK_THROW(noDevice = counterDirectory.RegisterDevice("inv@lid nam€"), armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 0); |
| BOOST_CHECK(!noDevice); |
| |
| // Register a new device with no cores or parent category |
| const std::string deviceName = "some_device"; |
| const Device* device = nullptr; |
| BOOST_CHECK_NO_THROW(device = counterDirectory.RegisterDevice(deviceName)); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 1); |
| BOOST_CHECK(device); |
| BOOST_CHECK(device->m_Name == deviceName); |
| BOOST_CHECK(device->m_Uid >= 1); |
| BOOST_CHECK(device->m_Cores == 0); |
| |
| // Try getting an unregistered device |
| const Device* unregisteredDevice = counterDirectory.GetDevice(9999); |
| BOOST_CHECK(!unregisteredDevice); |
| |
| // Get the registered device |
| const Device* registeredDevice = counterDirectory.GetDevice(device->m_Uid); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 1); |
| BOOST_CHECK(registeredDevice); |
| BOOST_CHECK(registeredDevice == device); |
| |
| // Register a device with the name of a device already registered |
| const Device* deviceSameName = nullptr; |
| BOOST_CHECK_THROW(deviceSameName = counterDirectory.RegisterDevice(deviceName), armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 1); |
| BOOST_CHECK(!deviceSameName); |
| |
| // Register a new device with cores and no parent category |
| const std::string deviceWCoresName = "some_device_with_cores"; |
| const Device* deviceWCores = nullptr; |
| BOOST_CHECK_NO_THROW(deviceWCores = counterDirectory.RegisterDevice(deviceWCoresName, 2)); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 2); |
| BOOST_CHECK(deviceWCores); |
| BOOST_CHECK(deviceWCores->m_Name == deviceWCoresName); |
| BOOST_CHECK(deviceWCores->m_Uid >= 1); |
| BOOST_CHECK(deviceWCores->m_Uid > device->m_Uid); |
| BOOST_CHECK(deviceWCores->m_Cores == 2); |
| |
| // Get the registered device |
| const Device* registeredDeviceWCores = counterDirectory.GetDevice(deviceWCores->m_Uid); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 2); |
| BOOST_CHECK(registeredDeviceWCores); |
| BOOST_CHECK(registeredDeviceWCores == deviceWCores); |
| BOOST_CHECK(registeredDeviceWCores != device); |
| |
| // Register a new device with cores and invalid parent category |
| const std::string deviceWCoresWInvalidParentCategoryName = "some_device_with_cores_with_invalid_parent_category"; |
| const Device* deviceWCoresWInvalidParentCategory = nullptr; |
| BOOST_CHECK_THROW(deviceWCoresWInvalidParentCategory = |
| counterDirectory.RegisterDevice(deviceWCoresWInvalidParentCategoryName, 3, std::string("")), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 2); |
| BOOST_CHECK(!deviceWCoresWInvalidParentCategory); |
| |
| // Register a new device with cores and invalid parent category |
| const std::string deviceWCoresWInvalidParentCategoryName2 = "some_device_with_cores_with_invalid_parent_category2"; |
| const Device* deviceWCoresWInvalidParentCategory2 = nullptr; |
| BOOST_CHECK_THROW(deviceWCoresWInvalidParentCategory2 = counterDirectory.RegisterDevice( |
| deviceWCoresWInvalidParentCategoryName2, 3, std::string("invalid_parent_category")), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 2); |
| BOOST_CHECK(!deviceWCoresWInvalidParentCategory2); |
| |
| // Register a category for testing |
| const std::string categoryName = "some_category"; |
| const Category* category = nullptr; |
| BOOST_CHECK_NO_THROW(category = counterDirectory.RegisterCategory(categoryName)); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 1); |
| BOOST_CHECK(category); |
| BOOST_CHECK(category->m_Name == categoryName); |
| BOOST_CHECK(category->m_Counters.empty()); |
| |
| // Register a new device with cores and valid parent category |
| const std::string deviceWCoresWValidParentCategoryName = "some_device_with_cores_with_valid_parent_category"; |
| const Device* deviceWCoresWValidParentCategory = nullptr; |
| BOOST_CHECK_NO_THROW(deviceWCoresWValidParentCategory = |
| counterDirectory.RegisterDevice(deviceWCoresWValidParentCategoryName, 4, categoryName)); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 3); |
| BOOST_CHECK(deviceWCoresWValidParentCategory); |
| BOOST_CHECK(deviceWCoresWValidParentCategory->m_Name == deviceWCoresWValidParentCategoryName); |
| BOOST_CHECK(deviceWCoresWValidParentCategory->m_Uid >= 1); |
| BOOST_CHECK(deviceWCoresWValidParentCategory->m_Uid > device->m_Uid); |
| BOOST_CHECK(deviceWCoresWValidParentCategory->m_Uid > deviceWCores->m_Uid); |
| BOOST_CHECK(deviceWCoresWValidParentCategory->m_Cores == 4); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckCounterDirectoryRegisterCounterSet) |
| { |
| CounterDirectory counterDirectory; |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 0); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 0); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 0); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| |
| // Register a counter set with an invalid name |
| const CounterSet* noCounterSet = nullptr; |
| BOOST_CHECK_THROW(noCounterSet = counterDirectory.RegisterCounterSet(""), armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 0); |
| BOOST_CHECK(!noCounterSet); |
| |
| // Register a counter set with an invalid name |
| BOOST_CHECK_THROW(noCounterSet = counterDirectory.RegisterCounterSet("invalid name"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 0); |
| BOOST_CHECK(!noCounterSet); |
| |
| // Register a new counter set with no count or parent category |
| const std::string counterSetName = "some_counter_set"; |
| const CounterSet* counterSet = nullptr; |
| BOOST_CHECK_NO_THROW(counterSet = counterDirectory.RegisterCounterSet(counterSetName)); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 1); |
| BOOST_CHECK(counterSet); |
| BOOST_CHECK(counterSet->m_Name == counterSetName); |
| BOOST_CHECK(counterSet->m_Uid >= 1); |
| BOOST_CHECK(counterSet->m_Count == 0); |
| |
| // Try getting an unregistered counter set |
| const CounterSet* unregisteredCounterSet = counterDirectory.GetCounterSet(9999); |
| BOOST_CHECK(!unregisteredCounterSet); |
| |
| // Get the registered counter set |
| const CounterSet* registeredCounterSet = counterDirectory.GetCounterSet(counterSet->m_Uid); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 1); |
| BOOST_CHECK(registeredCounterSet); |
| BOOST_CHECK(registeredCounterSet == counterSet); |
| |
| // Register a counter set with the name of a counter set already registered |
| const CounterSet* counterSetSameName = nullptr; |
| BOOST_CHECK_THROW(counterSetSameName = counterDirectory.RegisterCounterSet(counterSetName), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 1); |
| BOOST_CHECK(!counterSetSameName); |
| |
| // Register a new counter set with count and no parent category |
| const std::string counterSetWCountName = "some_counter_set_with_count"; |
| const CounterSet* counterSetWCount = nullptr; |
| BOOST_CHECK_NO_THROW(counterSetWCount = counterDirectory.RegisterCounterSet(counterSetWCountName, 37)); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 2); |
| BOOST_CHECK(counterSetWCount); |
| BOOST_CHECK(counterSetWCount->m_Name == counterSetWCountName); |
| BOOST_CHECK(counterSetWCount->m_Uid >= 1); |
| BOOST_CHECK(counterSetWCount->m_Uid > counterSet->m_Uid); |
| BOOST_CHECK(counterSetWCount->m_Count == 37); |
| |
| // Get the registered counter set |
| const CounterSet* registeredCounterSetWCount = counterDirectory.GetCounterSet(counterSetWCount->m_Uid); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 2); |
| BOOST_CHECK(registeredCounterSetWCount); |
| BOOST_CHECK(registeredCounterSetWCount == counterSetWCount); |
| BOOST_CHECK(registeredCounterSetWCount != counterSet); |
| |
| // Register a new counter set with count and invalid parent category |
| const std::string counterSetWCountWInvalidParentCategoryName = "some_counter_set_with_count_" |
| "with_invalid_parent_category"; |
| const CounterSet* counterSetWCountWInvalidParentCategory = nullptr; |
| BOOST_CHECK_THROW(counterSetWCountWInvalidParentCategory = counterDirectory.RegisterCounterSet( |
| counterSetWCountWInvalidParentCategoryName, 42, std::string("")), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 2); |
| BOOST_CHECK(!counterSetWCountWInvalidParentCategory); |
| |
| // Register a new counter set with count and invalid parent category |
| const std::string counterSetWCountWInvalidParentCategoryName2 = "some_counter_set_with_count_" |
| "with_invalid_parent_category2"; |
| const CounterSet* counterSetWCountWInvalidParentCategory2 = nullptr; |
| BOOST_CHECK_THROW(counterSetWCountWInvalidParentCategory2 = counterDirectory.RegisterCounterSet( |
| counterSetWCountWInvalidParentCategoryName2, 42, std::string("invalid_parent_category")), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 2); |
| BOOST_CHECK(!counterSetWCountWInvalidParentCategory2); |
| |
| // Register a category for testing |
| const std::string categoryName = "some_category"; |
| const Category* category = nullptr; |
| BOOST_CHECK_NO_THROW(category = counterDirectory.RegisterCategory(categoryName)); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 1); |
| BOOST_CHECK(category); |
| BOOST_CHECK(category->m_Name == categoryName); |
| BOOST_CHECK(category->m_Counters.empty()); |
| |
| // Register a new counter set with count and valid parent category |
| const std::string counterSetWCountWValidParentCategoryName = "some_counter_set_with_count_" |
| "with_valid_parent_category"; |
| const CounterSet* counterSetWCountWValidParentCategory = nullptr; |
| BOOST_CHECK_NO_THROW(counterSetWCountWValidParentCategory = counterDirectory.RegisterCounterSet( |
| counterSetWCountWValidParentCategoryName, 42, categoryName)); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 3); |
| BOOST_CHECK(counterSetWCountWValidParentCategory); |
| BOOST_CHECK(counterSetWCountWValidParentCategory->m_Name == counterSetWCountWValidParentCategoryName); |
| BOOST_CHECK(counterSetWCountWValidParentCategory->m_Uid >= 1); |
| BOOST_CHECK(counterSetWCountWValidParentCategory->m_Uid > counterSet->m_Uid); |
| BOOST_CHECK(counterSetWCountWValidParentCategory->m_Uid > counterSetWCount->m_Uid); |
| BOOST_CHECK(counterSetWCountWValidParentCategory->m_Count == 42); |
| |
| // Register a counter set associated to a category with invalid name |
| const std::string counterSetSameCategoryName = "some_counter_set_with_invalid_parent_category"; |
| const std::string invalidCategoryName = ""; |
| const CounterSet* counterSetSameCategory = nullptr; |
| BOOST_CHECK_THROW(counterSetSameCategory = |
| counterDirectory.RegisterCounterSet(counterSetSameCategoryName, 0, invalidCategoryName), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 3); |
| BOOST_CHECK(!counterSetSameCategory); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckCounterDirectoryRegisterCounter) |
| { |
| CounterDirectory counterDirectory; |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 0); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 0); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 0); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| |
| // Register a counter with an invalid parent category name |
| const Counter* noCounter = nullptr; |
| BOOST_CHECK_THROW(noCounter = |
| counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 0, |
| "", |
| 0, |
| 1, |
| 123.45f, |
| "valid ", |
| "name"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with an invalid parent category name |
| BOOST_CHECK_THROW(noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 1, |
| "invalid parent category", |
| 0, |
| 1, |
| 123.45f, |
| "valid name", |
| "valid description"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with an invalid class |
| BOOST_CHECK_THROW(noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 2, |
| "valid_parent_category", |
| 2, |
| 1, |
| 123.45f, |
| "valid " |
| "name", |
| "valid description"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with an invalid interpolation |
| BOOST_CHECK_THROW(noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 4, |
| "valid_parent_category", |
| 0, |
| 3, |
| 123.45f, |
| "valid " |
| "name", |
| "valid description"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with an invalid multiplier |
| BOOST_CHECK_THROW(noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 5, |
| "valid_parent_category", |
| 0, |
| 1, |
| .0f, |
| "valid " |
| "name", |
| "valid description"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with an invalid name |
| BOOST_CHECK_THROW( |
| noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 6, |
| "valid_parent_category", |
| 0, |
| 1, |
| 123.45f, |
| "", |
| "valid description"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with an invalid name |
| BOOST_CHECK_THROW(noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 7, |
| "valid_parent_category", |
| 0, |
| 1, |
| 123.45f, |
| "invalid nam€", |
| "valid description"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with an invalid description |
| BOOST_CHECK_THROW(noCounter = |
| counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 8, |
| "valid_parent_category", |
| 0, |
| 1, |
| 123.45f, |
| "valid name", |
| ""), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with an invalid description |
| BOOST_CHECK_THROW(noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 9, |
| "valid_parent_category", |
| 0, |
| 1, |
| 123.45f, |
| "valid " |
| "name", |
| "inv@lid description"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with an invalid unit2 |
| BOOST_CHECK_THROW(noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 10, |
| "valid_parent_category", |
| 0, |
| 1, |
| 123.45f, |
| "valid name", |
| "valid description", |
| std::string("Mb/s2")), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with a non-existing parent category name |
| BOOST_CHECK_THROW(noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 11, |
| "invalid_parent_category", |
| 0, |
| 1, |
| 123.45f, |
| "valid name", |
| "valid description"), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 0); |
| BOOST_CHECK(!noCounter); |
| |
| // Try getting an unregistered counter |
| const Counter* unregisteredCounter = counterDirectory.GetCounter(9999); |
| BOOST_CHECK(!unregisteredCounter); |
| |
| // Register a category for testing |
| const std::string categoryName = "some_category"; |
| const Category* category = nullptr; |
| BOOST_CHECK_NO_THROW(category = counterDirectory.RegisterCategory(categoryName)); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 1); |
| BOOST_CHECK(category); |
| BOOST_CHECK(category->m_Name == categoryName); |
| BOOST_CHECK(category->m_Counters.empty()); |
| |
| // Register a counter with a valid parent category name |
| const Counter* counter = nullptr; |
| BOOST_CHECK_NO_THROW( |
| counter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 12, |
| categoryName, |
| 0, |
| 1, |
| 123.45f, |
| "valid name", |
| "valid description")); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 1); |
| BOOST_CHECK(counter); |
| BOOST_CHECK(counter->m_MaxCounterUid == counter->m_Uid); |
| BOOST_CHECK(counter->m_Class == 0); |
| BOOST_CHECK(counter->m_Interpolation == 1); |
| BOOST_CHECK(counter->m_Multiplier == 123.45f); |
| BOOST_CHECK(counter->m_Name == "valid name"); |
| BOOST_CHECK(counter->m_Description == "valid description"); |
| BOOST_CHECK(counter->m_Units == ""); |
| BOOST_CHECK(counter->m_DeviceUid == 0); |
| BOOST_CHECK(counter->m_CounterSetUid == 0); |
| BOOST_CHECK(category->m_Counters.size() == 1); |
| BOOST_CHECK(category->m_Counters.back() == counter->m_Uid); |
| |
| // Register a counter with a name of a counter already registered for the given parent category name |
| const Counter* counterSameName = nullptr; |
| BOOST_CHECK_THROW(counterSameName = |
| counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 13, |
| categoryName, |
| 0, |
| 0, |
| 1.0f, |
| "valid name", |
| "valid description", |
| std::string("description")), |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 1); |
| BOOST_CHECK(!counterSameName); |
| |
| // Register a counter with a valid parent category name and units |
| const Counter* counterWUnits = nullptr; |
| BOOST_CHECK_NO_THROW(counterWUnits = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 14, |
| categoryName, |
| 0, |
| 1, |
| 123.45f, |
| "valid name 2", |
| "valid description", |
| std::string("Mnnsq2"))); // Units |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 2); |
| BOOST_CHECK(counterWUnits); |
| BOOST_CHECK(counterWUnits->m_Uid > counter->m_Uid); |
| BOOST_CHECK(counterWUnits->m_MaxCounterUid == counterWUnits->m_Uid); |
| BOOST_CHECK(counterWUnits->m_Class == 0); |
| BOOST_CHECK(counterWUnits->m_Interpolation == 1); |
| BOOST_CHECK(counterWUnits->m_Multiplier == 123.45f); |
| BOOST_CHECK(counterWUnits->m_Name == "valid name 2"); |
| BOOST_CHECK(counterWUnits->m_Description == "valid description"); |
| BOOST_CHECK(counterWUnits->m_Units == "Mnnsq2"); |
| BOOST_CHECK(counterWUnits->m_DeviceUid == 0); |
| BOOST_CHECK(counterWUnits->m_CounterSetUid == 0); |
| BOOST_CHECK(category->m_Counters.size() == 2); |
| BOOST_CHECK(category->m_Counters.back() == counterWUnits->m_Uid); |
| |
| // Register a counter with a valid parent category name and not associated with a device |
| const Counter* counterWoDevice = nullptr; |
| BOOST_CHECK_NO_THROW(counterWoDevice = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 26, |
| categoryName, |
| 0, |
| 1, |
| 123.45f, |
| "valid name 3", |
| "valid description", |
| armnn::EmptyOptional(),// Units |
| armnn::EmptyOptional(),// Number of cores |
| 0)); // Device UID |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 3); |
| BOOST_CHECK(counterWoDevice); |
| BOOST_CHECK(counterWoDevice->m_Uid > counter->m_Uid); |
| BOOST_CHECK(counterWoDevice->m_MaxCounterUid == counterWoDevice->m_Uid); |
| BOOST_CHECK(counterWoDevice->m_Class == 0); |
| BOOST_CHECK(counterWoDevice->m_Interpolation == 1); |
| BOOST_CHECK(counterWoDevice->m_Multiplier == 123.45f); |
| BOOST_CHECK(counterWoDevice->m_Name == "valid name 3"); |
| BOOST_CHECK(counterWoDevice->m_Description == "valid description"); |
| BOOST_CHECK(counterWoDevice->m_Units == ""); |
| BOOST_CHECK(counterWoDevice->m_DeviceUid == 0); |
| BOOST_CHECK(counterWoDevice->m_CounterSetUid == 0); |
| BOOST_CHECK(category->m_Counters.size() == 3); |
| BOOST_CHECK(category->m_Counters.back() == counterWoDevice->m_Uid); |
| |
| // Register a counter with a valid parent category name and associated to an invalid device |
| BOOST_CHECK_THROW(noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 15, |
| categoryName, |
| 0, |
| 1, |
| 123.45f, |
| "valid name 4", |
| "valid description", |
| armnn::EmptyOptional(), // Units |
| armnn::EmptyOptional(), // Number of cores |
| 100), // Device UID |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 3); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a device for testing |
| const std::string deviceName = "some_device"; |
| const Device* device = nullptr; |
| BOOST_CHECK_NO_THROW(device = counterDirectory.RegisterDevice(deviceName)); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 1); |
| BOOST_CHECK(device); |
| BOOST_CHECK(device->m_Name == deviceName); |
| BOOST_CHECK(device->m_Uid >= 1); |
| BOOST_CHECK(device->m_Cores == 0); |
| |
| // Register a counter with a valid parent category name and associated to a device |
| const Counter* counterWDevice = nullptr; |
| BOOST_CHECK_NO_THROW(counterWDevice = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 16, |
| categoryName, |
| 0, |
| 1, |
| 123.45f, |
| "valid name 5", |
| std::string("valid description"), |
| armnn::EmptyOptional(), // Units |
| armnn::EmptyOptional(), // Number of cores |
| device->m_Uid)); // Device UID |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 4); |
| BOOST_CHECK(counterWDevice); |
| BOOST_CHECK(counterWDevice->m_Uid > counter->m_Uid); |
| BOOST_CHECK(counterWDevice->m_MaxCounterUid == counterWDevice->m_Uid); |
| BOOST_CHECK(counterWDevice->m_Class == 0); |
| BOOST_CHECK(counterWDevice->m_Interpolation == 1); |
| BOOST_CHECK(counterWDevice->m_Multiplier == 123.45f); |
| BOOST_CHECK(counterWDevice->m_Name == "valid name 5"); |
| BOOST_CHECK(counterWDevice->m_Description == "valid description"); |
| BOOST_CHECK(counterWDevice->m_Units == ""); |
| BOOST_CHECK(counterWDevice->m_DeviceUid == device->m_Uid); |
| BOOST_CHECK(counterWDevice->m_CounterSetUid == 0); |
| BOOST_CHECK(category->m_Counters.size() == 4); |
| BOOST_CHECK(category->m_Counters.back() == counterWDevice->m_Uid); |
| |
| // Register a counter with a valid parent category name and not associated with a counter set |
| const Counter* counterWoCounterSet = nullptr; |
| BOOST_CHECK_NO_THROW(counterWoCounterSet = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 17, |
| categoryName, |
| 0, |
| 1, |
| 123.45f, |
| "valid name 6", |
| "valid description", |
| armnn::EmptyOptional(),// Units |
| armnn::EmptyOptional(),// No of cores |
| armnn::EmptyOptional(),// Device UID |
| 0)); // CounterSet UID |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 5); |
| BOOST_CHECK(counterWoCounterSet); |
| BOOST_CHECK(counterWoCounterSet->m_Uid > counter->m_Uid); |
| BOOST_CHECK(counterWoCounterSet->m_MaxCounterUid == counterWoCounterSet->m_Uid); |
| BOOST_CHECK(counterWoCounterSet->m_Class == 0); |
| BOOST_CHECK(counterWoCounterSet->m_Interpolation == 1); |
| BOOST_CHECK(counterWoCounterSet->m_Multiplier == 123.45f); |
| BOOST_CHECK(counterWoCounterSet->m_Name == "valid name 6"); |
| BOOST_CHECK(counterWoCounterSet->m_Description == "valid description"); |
| BOOST_CHECK(counterWoCounterSet->m_Units == ""); |
| BOOST_CHECK(counterWoCounterSet->m_DeviceUid == 0); |
| BOOST_CHECK(counterWoCounterSet->m_CounterSetUid == 0); |
| BOOST_CHECK(category->m_Counters.size() == 5); |
| BOOST_CHECK(category->m_Counters.back() == counterWoCounterSet->m_Uid); |
| |
| // Register a counter with a valid parent category name and associated to an invalid counter set |
| BOOST_CHECK_THROW(noCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, |
| 18, |
| categoryName, |
| 0, |
| 1, |
| 123.45f, |
| "valid ", |
| "name 7", |
| std::string("valid description"), |
| armnn::EmptyOptional(), // Units |
| armnn::EmptyOptional(), // Number of cores |
| 100), // Counter set UID |
| armnn::InvalidArgumentException); |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 5); |
| BOOST_CHECK(!noCounter); |
| |
| // Register a counter with a valid parent category name and with a given number of cores |
| const Counter* counterWNumberOfCores = nullptr; |
| uint16_t numberOfCores = 15; |
| BOOST_CHECK_NO_THROW(counterWNumberOfCores = counterDirectory.RegisterCounter( |
| armnn::profiling::BACKEND_ID, 50, |
| categoryName, 0, 1, 123.45f, "valid name 8", "valid description", |
| armnn::EmptyOptional(), // Units |
| numberOfCores, // Number of cores |
| armnn::EmptyOptional(), // Device UID |
| armnn::EmptyOptional())); // Counter set UID |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 20); |
| BOOST_CHECK(counterWNumberOfCores); |
| BOOST_CHECK(counterWNumberOfCores->m_Uid > counter->m_Uid); |
| BOOST_CHECK(counterWNumberOfCores->m_MaxCounterUid == counterWNumberOfCores->m_Uid + numberOfCores - 1); |
| BOOST_CHECK(counterWNumberOfCores->m_Class == 0); |
| BOOST_CHECK(counterWNumberOfCores->m_Interpolation == 1); |
| BOOST_CHECK(counterWNumberOfCores->m_Multiplier == 123.45f); |
| BOOST_CHECK(counterWNumberOfCores->m_Name == "valid name 8"); |
| BOOST_CHECK(counterWNumberOfCores->m_Description == "valid description"); |
| BOOST_CHECK(counterWNumberOfCores->m_Units == ""); |
| BOOST_CHECK(counterWNumberOfCores->m_DeviceUid == 0); |
| BOOST_CHECK(counterWNumberOfCores->m_CounterSetUid == 0); |
| BOOST_CHECK(category->m_Counters.size() == 20); |
| for (size_t i = 0; i < numberOfCores; i++) |
| { |
| BOOST_CHECK(category->m_Counters[category->m_Counters.size() - numberOfCores + i] == |
| counterWNumberOfCores->m_Uid + i); |
| } |
| |
| // Register a multi-core device for testing |
| const std::string multiCoreDeviceName = "some_multi_core_device"; |
| const Device* multiCoreDevice = nullptr; |
| BOOST_CHECK_NO_THROW(multiCoreDevice = counterDirectory.RegisterDevice(multiCoreDeviceName, 4)); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 2); |
| BOOST_CHECK(multiCoreDevice); |
| BOOST_CHECK(multiCoreDevice->m_Name == multiCoreDeviceName); |
| BOOST_CHECK(multiCoreDevice->m_Uid >= 1); |
| BOOST_CHECK(multiCoreDevice->m_Cores == 4); |
| |
| // Register a counter with a valid parent category name and associated to the multi-core device |
| const Counter* counterWMultiCoreDevice = nullptr; |
| BOOST_CHECK_NO_THROW(counterWMultiCoreDevice = counterDirectory.RegisterCounter( |
| armnn::profiling::BACKEND_ID, 19, categoryName, 0, 1, |
| 123.45f, "valid name 9", "valid description", |
| armnn::EmptyOptional(), // Units |
| armnn::EmptyOptional(), // Number of cores |
| multiCoreDevice->m_Uid, // Device UID |
| armnn::EmptyOptional())); // Counter set UID |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 24); |
| BOOST_CHECK(counterWMultiCoreDevice); |
| BOOST_CHECK(counterWMultiCoreDevice->m_Uid > counter->m_Uid); |
| BOOST_CHECK(counterWMultiCoreDevice->m_MaxCounterUid == |
| counterWMultiCoreDevice->m_Uid + multiCoreDevice->m_Cores - 1); |
| BOOST_CHECK(counterWMultiCoreDevice->m_Class == 0); |
| BOOST_CHECK(counterWMultiCoreDevice->m_Interpolation == 1); |
| BOOST_CHECK(counterWMultiCoreDevice->m_Multiplier == 123.45f); |
| BOOST_CHECK(counterWMultiCoreDevice->m_Name == "valid name 9"); |
| BOOST_CHECK(counterWMultiCoreDevice->m_Description == "valid description"); |
| BOOST_CHECK(counterWMultiCoreDevice->m_Units == ""); |
| BOOST_CHECK(counterWMultiCoreDevice->m_DeviceUid == multiCoreDevice->m_Uid); |
| BOOST_CHECK(counterWMultiCoreDevice->m_CounterSetUid == 0); |
| BOOST_CHECK(category->m_Counters.size() == 24); |
| for (size_t i = 0; i < 4; i++) |
| { |
| BOOST_CHECK(category->m_Counters[category->m_Counters.size() - 4 + i] == counterWMultiCoreDevice->m_Uid + i); |
| } |
| |
| // Register a multi-core device associate to a parent category for testing |
| const std::string multiCoreDeviceNameWParentCategory = "some_multi_core_device_with_parent_category"; |
| const Device* multiCoreDeviceWParentCategory = nullptr; |
| BOOST_CHECK_NO_THROW(multiCoreDeviceWParentCategory = |
| counterDirectory.RegisterDevice(multiCoreDeviceNameWParentCategory, 2, categoryName)); |
| BOOST_CHECK(counterDirectory.GetDeviceCount() == 3); |
| BOOST_CHECK(multiCoreDeviceWParentCategory); |
| BOOST_CHECK(multiCoreDeviceWParentCategory->m_Name == multiCoreDeviceNameWParentCategory); |
| BOOST_CHECK(multiCoreDeviceWParentCategory->m_Uid >= 1); |
| BOOST_CHECK(multiCoreDeviceWParentCategory->m_Cores == 2); |
| |
| // Register a counter with a valid parent category name and getting the number of cores of the multi-core device |
| // associated to that category |
| const Counter* counterWMultiCoreDeviceWParentCategory = nullptr; |
| uint16_t numberOfCourse = multiCoreDeviceWParentCategory->m_Cores; |
| BOOST_CHECK_NO_THROW(counterWMultiCoreDeviceWParentCategory = |
| counterDirectory.RegisterCounter( |
| armnn::profiling::BACKEND_ID, |
| 100, |
| categoryName, |
| 0, |
| 1, |
| 123.45f, |
| "valid name 10", |
| "valid description", |
| armnn::EmptyOptional(), // Units |
| numberOfCourse, // Number of cores |
| armnn::EmptyOptional(), // Device UID |
| armnn::EmptyOptional()));// Counter set UID |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 26); |
| BOOST_CHECK(counterWMultiCoreDeviceWParentCategory); |
| BOOST_CHECK(counterWMultiCoreDeviceWParentCategory->m_Uid > counter->m_Uid); |
| BOOST_CHECK(counterWMultiCoreDeviceWParentCategory->m_MaxCounterUid == |
| counterWMultiCoreDeviceWParentCategory->m_Uid + multiCoreDeviceWParentCategory->m_Cores - 1); |
| BOOST_CHECK(counterWMultiCoreDeviceWParentCategory->m_Class == 0); |
| BOOST_CHECK(counterWMultiCoreDeviceWParentCategory->m_Interpolation == 1); |
| BOOST_CHECK(counterWMultiCoreDeviceWParentCategory->m_Multiplier == 123.45f); |
| BOOST_CHECK(counterWMultiCoreDeviceWParentCategory->m_Name == "valid name 10"); |
| BOOST_CHECK(counterWMultiCoreDeviceWParentCategory->m_Description == "valid description"); |
| BOOST_CHECK(counterWMultiCoreDeviceWParentCategory->m_Units == ""); |
| BOOST_CHECK(category->m_Counters.size() == 26); |
| for (size_t i = 0; i < 2; i++) |
| { |
| BOOST_CHECK(category->m_Counters[category->m_Counters.size() - 2 + i] == |
| counterWMultiCoreDeviceWParentCategory->m_Uid + i); |
| } |
| |
| // Register a counter set for testing |
| const std::string counterSetName = "some_counter_set"; |
| const CounterSet* counterSet = nullptr; |
| BOOST_CHECK_NO_THROW(counterSet = counterDirectory.RegisterCounterSet(counterSetName)); |
| BOOST_CHECK(counterDirectory.GetCounterSetCount() == 1); |
| BOOST_CHECK(counterSet); |
| BOOST_CHECK(counterSet->m_Name == counterSetName); |
| BOOST_CHECK(counterSet->m_Uid >= 1); |
| BOOST_CHECK(counterSet->m_Count == 0); |
| |
| // Register a counter with a valid parent category name and associated to a counter set |
| const Counter* counterWCounterSet = nullptr; |
| BOOST_CHECK_NO_THROW(counterWCounterSet = counterDirectory.RegisterCounter( |
| armnn::profiling::BACKEND_ID, 300, |
| categoryName, 0, 1, 123.45f, "valid name 11", "valid description", |
| armnn::EmptyOptional(), // Units |
| 0, // Number of cores |
| armnn::EmptyOptional(), // Device UID |
| counterSet->m_Uid)); // Counter set UID |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 27); |
| BOOST_CHECK(counterWCounterSet); |
| BOOST_CHECK(counterWCounterSet->m_Uid > counter->m_Uid); |
| BOOST_CHECK(counterWCounterSet->m_MaxCounterUid == counterWCounterSet->m_Uid); |
| BOOST_CHECK(counterWCounterSet->m_Class == 0); |
| BOOST_CHECK(counterWCounterSet->m_Interpolation == 1); |
| BOOST_CHECK(counterWCounterSet->m_Multiplier == 123.45f); |
| BOOST_CHECK(counterWCounterSet->m_Name == "valid name 11"); |
| BOOST_CHECK(counterWCounterSet->m_Description == "valid description"); |
| BOOST_CHECK(counterWCounterSet->m_Units == ""); |
| BOOST_CHECK(counterWCounterSet->m_DeviceUid == 0); |
| BOOST_CHECK(counterWCounterSet->m_CounterSetUid == counterSet->m_Uid); |
| BOOST_CHECK(category->m_Counters.size() == 27); |
| BOOST_CHECK(category->m_Counters.back() == counterWCounterSet->m_Uid); |
| |
| // Register a counter with a valid parent category name and associated to a device and a counter set |
| const Counter* counterWDeviceWCounterSet = nullptr; |
| BOOST_CHECK_NO_THROW(counterWDeviceWCounterSet = counterDirectory.RegisterCounter( |
| armnn::profiling::BACKEND_ID, 23, |
| categoryName, 0, 1, 123.45f, "valid name 12", "valid description", |
| armnn::EmptyOptional(), // Units |
| 1, // Number of cores |
| device->m_Uid, // Device UID |
| counterSet->m_Uid)); // Counter set UID |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 28); |
| BOOST_CHECK(counterWDeviceWCounterSet); |
| BOOST_CHECK(counterWDeviceWCounterSet->m_Uid > counter->m_Uid); |
| BOOST_CHECK(counterWDeviceWCounterSet->m_MaxCounterUid == counterWDeviceWCounterSet->m_Uid); |
| BOOST_CHECK(counterWDeviceWCounterSet->m_Class == 0); |
| BOOST_CHECK(counterWDeviceWCounterSet->m_Interpolation == 1); |
| BOOST_CHECK(counterWDeviceWCounterSet->m_Multiplier == 123.45f); |
| BOOST_CHECK(counterWDeviceWCounterSet->m_Name == "valid name 12"); |
| BOOST_CHECK(counterWDeviceWCounterSet->m_Description == "valid description"); |
| BOOST_CHECK(counterWDeviceWCounterSet->m_Units == ""); |
| BOOST_CHECK(counterWDeviceWCounterSet->m_DeviceUid == device->m_Uid); |
| BOOST_CHECK(counterWDeviceWCounterSet->m_CounterSetUid == counterSet->m_Uid); |
| BOOST_CHECK(category->m_Counters.size() == 28); |
| BOOST_CHECK(category->m_Counters.back() == counterWDeviceWCounterSet->m_Uid); |
| |
| // Register another category for testing |
| const std::string anotherCategoryName = "some_other_category"; |
| const Category* anotherCategory = nullptr; |
| BOOST_CHECK_NO_THROW(anotherCategory = counterDirectory.RegisterCategory(anotherCategoryName)); |
| BOOST_CHECK(counterDirectory.GetCategoryCount() == 2); |
| BOOST_CHECK(anotherCategory); |
| BOOST_CHECK(anotherCategory != category); |
| BOOST_CHECK(anotherCategory->m_Name == anotherCategoryName); |
| BOOST_CHECK(anotherCategory->m_Counters.empty()); |
| |
| // Register a counter to the other category |
| const Counter* anotherCounter = nullptr; |
| BOOST_CHECK_NO_THROW(anotherCounter = counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, 24, |
| anotherCategoryName, 1, 0, .00043f, |
| "valid name", "valid description", |
| armnn::EmptyOptional(), // Units |
| armnn::EmptyOptional(), // Number of cores |
| device->m_Uid, // Device UID |
| counterSet->m_Uid)); // Counter set UID |
| BOOST_CHECK(counterDirectory.GetCounterCount() == 29); |
| BOOST_CHECK(anotherCounter); |
| BOOST_CHECK(anotherCounter->m_MaxCounterUid == anotherCounter->m_Uid); |
| BOOST_CHECK(anotherCounter->m_Class == 1); |
| BOOST_CHECK(anotherCounter->m_Interpolation == 0); |
| BOOST_CHECK(anotherCounter->m_Multiplier == .00043f); |
| BOOST_CHECK(anotherCounter->m_Name == "valid name"); |
| BOOST_CHECK(anotherCounter->m_Description == "valid description"); |
| BOOST_CHECK(anotherCounter->m_Units == ""); |
| BOOST_CHECK(anotherCounter->m_DeviceUid == device->m_Uid); |
| BOOST_CHECK(anotherCounter->m_CounterSetUid == counterSet->m_Uid); |
| BOOST_CHECK(anotherCategory->m_Counters.size() == 1); |
| BOOST_CHECK(anotherCategory->m_Counters.back() == anotherCounter->m_Uid); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CounterSelectionCommandHandlerParseData) |
| { |
| ProfilingStateMachine profilingStateMachine; |
| |
| class TestCaptureThread : public IPeriodicCounterCapture |
| { |
| void Start() override |
| {} |
| void Stop() override |
| {} |
| }; |
| |
| class TestReadCounterValues : public IReadCounterValues |
| { |
| bool IsCounterRegistered(uint16_t counterUid) const override |
| { |
| armnn::IgnoreUnused(counterUid); |
| return true; |
| } |
| uint16_t GetCounterCount() const override |
| { |
| return 0; |
| } |
| uint32_t GetAbsoluteCounterValue(uint16_t counterUid) const override |
| { |
| armnn::IgnoreUnused(counterUid); |
| return 0; |
| } |
| uint32_t GetDeltaCounterValue(uint16_t counterUid) override |
| { |
| armnn::IgnoreUnused(counterUid); |
| return 0; |
| } |
| }; |
| const uint32_t familyId = 0; |
| const uint32_t packetId = 0x40000; |
| |
| uint32_t version = 1; |
| const std::unordered_map<armnn::BackendId, |
| std::shared_ptr<armnn::profiling::IBackendProfilingContext>> backendProfilingContext; |
| CounterIdMap counterIdMap; |
| Holder holder; |
| TestCaptureThread captureThread; |
| TestReadCounterValues readCounterValues; |
| MockBufferManager mockBuffer(512); |
| SendCounterPacket sendCounterPacket(mockBuffer); |
| SendThread sendThread(profilingStateMachine, mockBuffer, sendCounterPacket); |
| |
| uint32_t sizeOfUint32 = armnn::numeric_cast<uint32_t>(sizeof(uint32_t)); |
| uint32_t sizeOfUint16 = armnn::numeric_cast<uint32_t>(sizeof(uint16_t)); |
| |
| // Data with period and counters |
| uint32_t period1 = armnn::LOWEST_CAPTURE_PERIOD; |
| uint32_t dataLength1 = 8; |
| uint32_t offset = 0; |
| |
| std::unique_ptr<unsigned char[]> uniqueData1 = std::make_unique<unsigned char[]>(dataLength1); |
| unsigned char* data1 = reinterpret_cast<unsigned char*>(uniqueData1.get()); |
| |
| WriteUint32(data1, offset, period1); |
| offset += sizeOfUint32; |
| WriteUint16(data1, offset, 4000); |
| offset += sizeOfUint16; |
| WriteUint16(data1, offset, 5000); |
| |
| arm::pipe::Packet packetA(packetId, dataLength1, uniqueData1); |
| |
| PeriodicCounterSelectionCommandHandler commandHandler(familyId, packetId, version, backendProfilingContext, |
| counterIdMap, holder, 10000u, captureThread, |
| readCounterValues, sendCounterPacket, profilingStateMachine); |
| |
| profilingStateMachine.TransitionToState(ProfilingState::Uninitialised); |
| BOOST_CHECK_THROW(commandHandler(packetA), armnn::RuntimeException); |
| profilingStateMachine.TransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK_THROW(commandHandler(packetA), armnn::RuntimeException); |
| profilingStateMachine.TransitionToState(ProfilingState::WaitingForAck); |
| BOOST_CHECK_THROW(commandHandler(packetA), armnn::RuntimeException); |
| profilingStateMachine.TransitionToState(ProfilingState::Active); |
| BOOST_CHECK_NO_THROW(commandHandler(packetA)); |
| |
| const std::vector<uint16_t> counterIdsA = holder.GetCaptureData().GetCounterIds(); |
| |
| BOOST_TEST(holder.GetCaptureData().GetCapturePeriod() == period1); |
| BOOST_TEST(counterIdsA.size() == 2); |
| BOOST_TEST(counterIdsA[0] == 4000); |
| BOOST_TEST(counterIdsA[1] == 5000); |
| |
| auto readBuffer = mockBuffer.GetReadableBuffer(); |
| |
| offset = 0; |
| |
| uint32_t headerWord0 = ReadUint32(readBuffer, offset); |
| offset += sizeOfUint32; |
| uint32_t headerWord1 = ReadUint32(readBuffer, offset); |
| offset += sizeOfUint32; |
| uint32_t period = ReadUint32(readBuffer, offset); |
| |
| BOOST_TEST(((headerWord0 >> 26) & 0x3F) == 0); // packet family |
| BOOST_TEST(((headerWord0 >> 16) & 0x3FF) == 4); // packet id |
| BOOST_TEST(headerWord1 == 8); // data length |
| BOOST_TEST(period == armnn::LOWEST_CAPTURE_PERIOD); // capture period |
| |
| uint16_t counterId = 0; |
| offset += sizeOfUint32; |
| counterId = ReadUint16(readBuffer, offset); |
| BOOST_TEST(counterId == 4000); |
| offset += sizeOfUint16; |
| counterId = ReadUint16(readBuffer, offset); |
| BOOST_TEST(counterId == 5000); |
| |
| mockBuffer.MarkRead(readBuffer); |
| |
| // Data with period only |
| uint32_t period2 = 9000; // We'll specify a value below LOWEST_CAPTURE_PERIOD. It should be pulled upwards. |
| uint32_t dataLength2 = 4; |
| |
| std::unique_ptr<unsigned char[]> uniqueData2 = std::make_unique<unsigned char[]>(dataLength2); |
| |
| WriteUint32(reinterpret_cast<unsigned char*>(uniqueData2.get()), 0, period2); |
| |
| arm::pipe::Packet packetB(packetId, dataLength2, uniqueData2); |
| |
| commandHandler(packetB); |
| |
| const std::vector<uint16_t> counterIdsB = holder.GetCaptureData().GetCounterIds(); |
| |
| // Value should have been pulled up from 9000 to LOWEST_CAPTURE_PERIOD. |
| BOOST_TEST(holder.GetCaptureData().GetCapturePeriod() == armnn::LOWEST_CAPTURE_PERIOD); |
| BOOST_TEST(counterIdsB.size() == 0); |
| |
| readBuffer = mockBuffer.GetReadableBuffer(); |
| |
| offset = 0; |
| |
| headerWord0 = ReadUint32(readBuffer, offset); |
| offset += sizeOfUint32; |
| headerWord1 = ReadUint32(readBuffer, offset); |
| offset += sizeOfUint32; |
| period = ReadUint32(readBuffer, offset); |
| |
| BOOST_TEST(((headerWord0 >> 26) & 0x3F) == 0); // packet family |
| BOOST_TEST(((headerWord0 >> 16) & 0x3FF) == 4); // packet id |
| BOOST_TEST(headerWord1 == 4); // data length |
| BOOST_TEST(period == armnn::LOWEST_CAPTURE_PERIOD); // capture period |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckTimelineActivationAndDeactivation) |
| { |
| class TestReportStructure : public IReportStructure |
| { |
| public: |
| virtual void ReportStructure() override |
| { |
| m_ReportStructureCalled = true; |
| } |
| |
| bool m_ReportStructureCalled = false; |
| }; |
| |
| class TestNotifyBackends : public INotifyBackends |
| { |
| public: |
| TestNotifyBackends() : m_timelineReporting(false) {} |
| virtual void NotifyBackendsForTimelineReporting() override |
| { |
| m_TestNotifyBackendsCalled = m_timelineReporting.load(); |
| } |
| |
| bool m_TestNotifyBackendsCalled = false; |
| std::atomic<bool> m_timelineReporting; |
| }; |
| |
| arm::pipe::PacketVersionResolver packetVersionResolver; |
| |
| BufferManager bufferManager(512); |
| SendTimelinePacket sendTimelinePacket(bufferManager); |
| ProfilingStateMachine stateMachine; |
| TestReportStructure testReportStructure; |
| TestNotifyBackends testNotifyBackends; |
| |
| profiling::ActivateTimelineReportingCommandHandler activateTimelineReportingCommandHandler(0, |
| 6, |
| packetVersionResolver.ResolvePacketVersion(0, 6) |
| .GetEncodedValue(), |
| sendTimelinePacket, |
| stateMachine, |
| testReportStructure, |
| testNotifyBackends.m_timelineReporting, |
| testNotifyBackends); |
| |
| // Write an "ActivateTimelineReporting" packet into the mock profiling connection, to simulate an input from an |
| // external profiling service |
| const uint32_t packetFamily1 = 0; |
| const uint32_t packetId1 = 6; |
| uint32_t packetHeader1 = ConstructHeader(packetFamily1, packetId1); |
| |
| // Create the ActivateTimelineReportingPacket |
| arm::pipe::Packet ActivateTimelineReportingPacket(packetHeader1); // Length == 0 |
| |
| BOOST_CHECK_THROW( |
| activateTimelineReportingCommandHandler.operator()(ActivateTimelineReportingPacket), armnn::Exception); |
| |
| stateMachine.TransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK_THROW( |
| activateTimelineReportingCommandHandler.operator()(ActivateTimelineReportingPacket), armnn::Exception); |
| |
| stateMachine.TransitionToState(ProfilingState::WaitingForAck); |
| BOOST_CHECK_THROW( |
| activateTimelineReportingCommandHandler.operator()(ActivateTimelineReportingPacket), armnn::Exception); |
| |
| stateMachine.TransitionToState(ProfilingState::Active); |
| activateTimelineReportingCommandHandler.operator()(ActivateTimelineReportingPacket); |
| |
| BOOST_CHECK(testReportStructure.m_ReportStructureCalled); |
| BOOST_CHECK(testNotifyBackends.m_TestNotifyBackendsCalled); |
| BOOST_CHECK(testNotifyBackends.m_timelineReporting.load()); |
| |
| DeactivateTimelineReportingCommandHandler deactivateTimelineReportingCommandHandler(0, |
| 7, |
| packetVersionResolver.ResolvePacketVersion(0, 7).GetEncodedValue(), |
| testNotifyBackends.m_timelineReporting, |
| stateMachine, |
| testNotifyBackends); |
| |
| const uint32_t packetFamily2 = 0; |
| const uint32_t packetId2 = 7; |
| uint32_t packetHeader2 = ConstructHeader(packetFamily2, packetId2); |
| |
| // Create the DeactivateTimelineReportingPacket |
| arm::pipe::Packet deactivateTimelineReportingPacket(packetHeader2); // Length == 0 |
| |
| stateMachine.Reset(); |
| BOOST_CHECK_THROW( |
| deactivateTimelineReportingCommandHandler.operator()(deactivateTimelineReportingPacket), armnn::Exception); |
| |
| stateMachine.TransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK_THROW( |
| deactivateTimelineReportingCommandHandler.operator()(deactivateTimelineReportingPacket), armnn::Exception); |
| |
| stateMachine.TransitionToState(ProfilingState::WaitingForAck); |
| BOOST_CHECK_THROW( |
| deactivateTimelineReportingCommandHandler.operator()(deactivateTimelineReportingPacket), armnn::Exception); |
| |
| stateMachine.TransitionToState(ProfilingState::Active); |
| deactivateTimelineReportingCommandHandler.operator()(deactivateTimelineReportingPacket); |
| |
| BOOST_CHECK(!testNotifyBackends.m_TestNotifyBackendsCalled); |
| BOOST_CHECK(!testNotifyBackends.m_timelineReporting.load()); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceNotActive) |
| { |
| using namespace armnn; |
| using namespace armnn::profiling; |
| |
| // Create runtime in which the test will run |
| armnn::IRuntime::CreationOptions options; |
| options.m_ProfilingOptions.m_EnableProfiling = true; |
| |
| armnn::Runtime runtime(options); |
| profiling::ProfilingServiceRuntimeHelper profilingServiceHelper(GetProfilingService(&runtime)); |
| profilingServiceHelper.ForceTransitionToState(ProfilingState::NotConnected); |
| profilingServiceHelper.ForceTransitionToState(ProfilingState::WaitingForAck); |
| profilingServiceHelper.ForceTransitionToState(ProfilingState::Active); |
| |
| profiling::BufferManager& bufferManager = profilingServiceHelper.GetProfilingBufferManager(); |
| auto readableBuffer = bufferManager.GetReadableBuffer(); |
| |
| // Profiling is enabled, the post-optimisation structure should be created |
| BOOST_CHECK(readableBuffer == nullptr); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckConnectionAcknowledged) |
| { |
| const uint32_t packetFamilyId = 0; |
| const uint32_t connectionPacketId = 0x10000; |
| const uint32_t version = 1; |
| |
| uint32_t sizeOfUint32 = armnn::numeric_cast<uint32_t>(sizeof(uint32_t)); |
| uint32_t sizeOfUint16 = armnn::numeric_cast<uint32_t>(sizeof(uint16_t)); |
| |
| // Data with period and counters |
| uint32_t period1 = 10; |
| uint32_t dataLength1 = 8; |
| uint32_t offset = 0; |
| |
| std::unique_ptr<unsigned char[]> uniqueData1 = std::make_unique<unsigned char[]>(dataLength1); |
| unsigned char* data1 = reinterpret_cast<unsigned char*>(uniqueData1.get()); |
| |
| WriteUint32(data1, offset, period1); |
| offset += sizeOfUint32; |
| WriteUint16(data1, offset, 4000); |
| offset += sizeOfUint16; |
| WriteUint16(data1, offset, 5000); |
| |
| arm::pipe::Packet packetA(connectionPacketId, dataLength1, uniqueData1); |
| |
| ProfilingStateMachine profilingState(ProfilingState::Uninitialised); |
| BOOST_CHECK(profilingState.GetCurrentState() == ProfilingState::Uninitialised); |
| CounterDirectory counterDirectory; |
| MockBufferManager mockBuffer(1024); |
| SendCounterPacket sendCounterPacket(mockBuffer); |
| SendThread sendThread(profilingState, mockBuffer, sendCounterPacket); |
| SendTimelinePacket sendTimelinePacket(mockBuffer); |
| MockProfilingServiceStatus mockProfilingServiceStatus; |
| |
| ConnectionAcknowledgedCommandHandler commandHandler(packetFamilyId, |
| connectionPacketId, |
| version, |
| counterDirectory, |
| sendCounterPacket, |
| sendTimelinePacket, |
| profilingState, |
| mockProfilingServiceStatus); |
| |
| // command handler received packet on ProfilingState::Uninitialised |
| BOOST_CHECK_THROW(commandHandler(packetA), armnn::Exception); |
| |
| profilingState.TransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK(profilingState.GetCurrentState() == ProfilingState::NotConnected); |
| // command handler received packet on ProfilingState::NotConnected |
| BOOST_CHECK_THROW(commandHandler(packetA), armnn::Exception); |
| |
| profilingState.TransitionToState(ProfilingState::WaitingForAck); |
| BOOST_CHECK(profilingState.GetCurrentState() == ProfilingState::WaitingForAck); |
| // command handler received packet on ProfilingState::WaitingForAck |
| BOOST_CHECK_NO_THROW(commandHandler(packetA)); |
| BOOST_CHECK(profilingState.GetCurrentState() == ProfilingState::Active); |
| |
| // command handler received packet on ProfilingState::Active |
| BOOST_CHECK_NO_THROW(commandHandler(packetA)); |
| BOOST_CHECK(profilingState.GetCurrentState() == ProfilingState::Active); |
| |
| // command handler received different packet |
| const uint32_t differentPacketId = 0x40000; |
| arm::pipe::Packet packetB(differentPacketId, dataLength1, uniqueData1); |
| profilingState.TransitionToState(ProfilingState::NotConnected); |
| profilingState.TransitionToState(ProfilingState::WaitingForAck); |
| ConnectionAcknowledgedCommandHandler differentCommandHandler(packetFamilyId, |
| differentPacketId, |
| version, |
| counterDirectory, |
| sendCounterPacket, |
| sendTimelinePacket, |
| profilingState, |
| mockProfilingServiceStatus); |
| BOOST_CHECK_THROW(differentCommandHandler(packetB), armnn::Exception); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckSocketConnectionException) |
| { |
| // Check that creating a SocketProfilingConnection armnnProfiling in an exception as the Gator UDS doesn't exist. |
| BOOST_CHECK_THROW(new SocketProfilingConnection(), arm::pipe::SocketConnectionException); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckSocketConnectionException2) |
| { |
| try |
| { |
| new SocketProfilingConnection(); |
| } |
| catch (const arm::pipe::SocketConnectionException& ex) |
| { |
| BOOST_CHECK(ex.GetSocketFd() == 0); |
| BOOST_CHECK(ex.GetErrorNo() == 111); |
| BOOST_CHECK(ex.what() |
| == std::string("SocketProfilingConnection: Cannot connect to stream socket: Connection refused")); |
| } |
| } |
| |
| BOOST_AUTO_TEST_CASE(SwTraceIsValidCharTest) |
| { |
| // Only ASCII 7-bit encoding supported |
| for (unsigned char c = 0; c < 128; c++) |
| { |
| BOOST_CHECK(arm::pipe::SwTraceCharPolicy::IsValidChar(c)); |
| } |
| |
| // Not ASCII |
| for (unsigned char c = 255; c >= 128; c++) |
| { |
| BOOST_CHECK(!arm::pipe::SwTraceCharPolicy::IsValidChar(c)); |
| } |
| } |
| |
| BOOST_AUTO_TEST_CASE(SwTraceIsValidNameCharTest) |
| { |
| // Only alpha-numeric and underscore ASCII 7-bit encoding supported |
| const unsigned char validChars[] = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789_"; |
| for (unsigned char i = 0; i < sizeof(validChars) / sizeof(validChars[0]) - 1; i++) |
| { |
| BOOST_CHECK(arm::pipe::SwTraceNameCharPolicy::IsValidChar(validChars[i])); |
| } |
| |
| // Non alpha-numeric chars |
| for (unsigned char c = 0; c < 48; c++) |
| { |
| BOOST_CHECK(!arm::pipe::SwTraceNameCharPolicy::IsValidChar(c)); |
| } |
| for (unsigned char c = 58; c < 65; c++) |
| { |
| BOOST_CHECK(!arm::pipe::SwTraceNameCharPolicy::IsValidChar(c)); |
| } |
| for (unsigned char c = 91; c < 95; c++) |
| { |
| BOOST_CHECK(!arm::pipe::SwTraceNameCharPolicy::IsValidChar(c)); |
| } |
| for (unsigned char c = 96; c < 97; c++) |
| { |
| BOOST_CHECK(!arm::pipe::SwTraceNameCharPolicy::IsValidChar(c)); |
| } |
| for (unsigned char c = 123; c < 128; c++) |
| { |
| BOOST_CHECK(!arm::pipe::SwTraceNameCharPolicy::IsValidChar(c)); |
| } |
| |
| // Not ASCII |
| for (unsigned char c = 255; c >= 128; c++) |
| { |
| BOOST_CHECK(!arm::pipe::SwTraceNameCharPolicy::IsValidChar(c)); |
| } |
| } |
| |
| BOOST_AUTO_TEST_CASE(IsValidSwTraceStringTest) |
| { |
| // Valid SWTrace strings |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("_")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("0123")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("valid_string")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("VALID_string_456")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>(" ")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("valid string")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("!$%")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("valid|\\~string#123")); |
| |
| // Invalid SWTrace strings |
| BOOST_CHECK(!arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("€£")); |
| BOOST_CHECK(!arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("invalid‡string")); |
| BOOST_CHECK(!arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>("12Ž34")); |
| } |
| |
| BOOST_AUTO_TEST_CASE(IsValidSwTraceNameStringTest) |
| { |
| // Valid SWTrace name strings |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("_")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("0123")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("valid_string")); |
| BOOST_CHECK(arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("VALID_string_456")); |
| |
| // Invalid SWTrace name strings |
| BOOST_CHECK(!arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>(" ")); |
| BOOST_CHECK(!arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("invalid string")); |
| BOOST_CHECK(!arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("!$%")); |
| BOOST_CHECK(!arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("invalid|\\~string#123")); |
| BOOST_CHECK(!arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("€£")); |
| BOOST_CHECK(!arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("invalid‡string")); |
| BOOST_CHECK(!arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>("12Ž34")); |
| } |
| |
| template <typename SwTracePolicy> |
| void StringToSwTraceStringTestHelper(const std::string& testString, std::vector<uint32_t> buffer, size_t expectedSize) |
| { |
| // Convert the test string to a SWTrace string |
| BOOST_CHECK(arm::pipe::StringToSwTraceString<SwTracePolicy>(testString, buffer)); |
| |
| // The buffer must contain at least the length of the string |
| BOOST_CHECK(!buffer.empty()); |
| |
| // The buffer must be of the expected size (in words) |
| BOOST_CHECK(buffer.size() == expectedSize); |
| |
| // The first word of the byte must be the length of the string including the null-terminator |
| BOOST_CHECK(buffer[0] == testString.size() + 1); |
| |
| // The contents of the buffer must match the test string |
| BOOST_CHECK(std::memcmp(testString.data(), buffer.data() + 1, testString.size()) == 0); |
| |
| // The buffer must include the null-terminator at the end of the string |
| size_t nullTerminatorIndex = sizeof(uint32_t) + testString.size(); |
| BOOST_CHECK(reinterpret_cast<unsigned char*>(buffer.data())[nullTerminatorIndex] == '\0'); |
| } |
| |
| BOOST_AUTO_TEST_CASE(StringToSwTraceStringTest) |
| { |
| std::vector<uint32_t> buffer; |
| |
| // Valid SWTrace strings (expected size in words) |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceCharPolicy>("", buffer, 2); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceCharPolicy>("_", buffer, 2); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceCharPolicy>("0123", buffer, 3); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceCharPolicy>("valid_string", buffer, 5); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceCharPolicy>("VALID_string_456", buffer, 6); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceCharPolicy>(" ", buffer, 2); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceCharPolicy>("valid string", buffer, 5); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceCharPolicy>("!$%", buffer, 2); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceCharPolicy>("valid|\\~string#123", buffer, 6); |
| |
| // Invalid SWTrace strings |
| BOOST_CHECK(!arm::pipe::StringToSwTraceString<arm::pipe::SwTraceCharPolicy>("€£", buffer)); |
| BOOST_CHECK(buffer.empty()); |
| BOOST_CHECK(!arm::pipe::StringToSwTraceString<arm::pipe::SwTraceCharPolicy>("invalid‡string", buffer)); |
| BOOST_CHECK(buffer.empty()); |
| BOOST_CHECK(!arm::pipe::StringToSwTraceString<arm::pipe::SwTraceCharPolicy>("12Ž34", buffer)); |
| BOOST_CHECK(buffer.empty()); |
| } |
| |
| BOOST_AUTO_TEST_CASE(StringToSwTraceNameStringTest) |
| { |
| std::vector<uint32_t> buffer; |
| |
| // Valid SWTrace namestrings (expected size in words) |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceNameCharPolicy>("", buffer, 2); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceNameCharPolicy>("_", buffer, 2); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceNameCharPolicy>("0123", buffer, 3); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceNameCharPolicy>("valid_string", buffer, 5); |
| StringToSwTraceStringTestHelper<arm::pipe::SwTraceNameCharPolicy>("VALID_string_456", buffer, 6); |
| |
| // Invalid SWTrace namestrings |
| BOOST_CHECK(!arm::pipe::StringToSwTraceString<arm::pipe::SwTraceNameCharPolicy>(" ", buffer)); |
| BOOST_CHECK(buffer.empty()); |
| BOOST_CHECK(!arm::pipe::StringToSwTraceString<arm::pipe::SwTraceNameCharPolicy>("invalid string", buffer)); |
| BOOST_CHECK(buffer.empty()); |
| BOOST_CHECK(!arm::pipe::StringToSwTraceString<arm::pipe::SwTraceNameCharPolicy>("!$%", buffer)); |
| BOOST_CHECK(buffer.empty()); |
| BOOST_CHECK(!arm::pipe::StringToSwTraceString<arm::pipe::SwTraceNameCharPolicy>("invalid|\\~string#123", buffer)); |
| BOOST_CHECK(buffer.empty()); |
| BOOST_CHECK(!arm::pipe::StringToSwTraceString<arm::pipe::SwTraceNameCharPolicy>("€£", buffer)); |
| BOOST_CHECK(buffer.empty()); |
| BOOST_CHECK(!arm::pipe::StringToSwTraceString<arm::pipe::SwTraceNameCharPolicy>("invalid‡string", buffer)); |
| BOOST_CHECK(buffer.empty()); |
| BOOST_CHECK(!arm::pipe::StringToSwTraceString<arm::pipe::SwTraceNameCharPolicy>("12Ž34", buffer)); |
| BOOST_CHECK(buffer.empty()); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckPeriodicCounterCaptureThread) |
| { |
| class CaptureReader : public IReadCounterValues |
| { |
| public: |
| CaptureReader(uint16_t counterSize) |
| { |
| for (uint16_t i = 0; i < counterSize; ++i) |
| { |
| m_Data[i] = 0; |
| } |
| m_CounterSize = counterSize; |
| } |
| //not used |
| bool IsCounterRegistered(uint16_t counterUid) const override |
| { |
| armnn::IgnoreUnused(counterUid); |
| return false; |
| } |
| |
| uint16_t GetCounterCount() const override |
| { |
| return m_CounterSize; |
| } |
| |
| uint32_t GetAbsoluteCounterValue(uint16_t counterUid) const override |
| { |
| if (counterUid > m_CounterSize) |
| { |
| BOOST_FAIL("Invalid counter Uid"); |
| } |
| return m_Data.at(counterUid).load(); |
| } |
| |
| uint32_t GetDeltaCounterValue(uint16_t counterUid) override |
| { |
| if (counterUid > m_CounterSize) |
| { |
| BOOST_FAIL("Invalid counter Uid"); |
| } |
| return m_Data.at(counterUid).load(); |
| } |
| |
| void SetCounterValue(uint16_t counterUid, uint32_t value) |
| { |
| if (counterUid > m_CounterSize) |
| { |
| BOOST_FAIL("Invalid counter Uid"); |
| } |
| m_Data.at(counterUid).store(value); |
| } |
| |
| private: |
| std::unordered_map<uint16_t, std::atomic<uint32_t>> m_Data; |
| uint16_t m_CounterSize; |
| }; |
| |
| ProfilingStateMachine profilingStateMachine; |
| |
| const std::unordered_map<armnn::BackendId, |
| std::shared_ptr<armnn::profiling::IBackendProfilingContext>> backendProfilingContext; |
| CounterIdMap counterIdMap; |
| Holder data; |
| std::vector<uint16_t> captureIds1 = { 0, 1 }; |
| std::vector<uint16_t> captureIds2; |
| |
| MockBufferManager mockBuffer(512); |
| SendCounterPacket sendCounterPacket(mockBuffer); |
| SendThread sendThread(profilingStateMachine, mockBuffer, sendCounterPacket); |
| |
| std::vector<uint16_t> counterIds; |
| CaptureReader captureReader(2); |
| |
| unsigned int valueA = 10; |
| unsigned int valueB = 15; |
| unsigned int numSteps = 5; |
| |
| PeriodicCounterCapture periodicCounterCapture(std::ref(data), std::ref(sendCounterPacket), captureReader, |
| counterIdMap, backendProfilingContext); |
| |
| for (unsigned int i = 0; i < numSteps; ++i) |
| { |
| data.SetCaptureData(1, captureIds1, {}); |
| captureReader.SetCounterValue(0, valueA * (i + 1)); |
| captureReader.SetCounterValue(1, valueB * (i + 1)); |
| |
| periodicCounterCapture.Start(); |
| periodicCounterCapture.Stop(); |
| } |
| |
| auto buffer = mockBuffer.GetReadableBuffer(); |
| |
| uint32_t headerWord0 = ReadUint32(buffer, 0); |
| uint32_t headerWord1 = ReadUint32(buffer, 4); |
| |
| BOOST_TEST(((headerWord0 >> 26) & 0x0000003F) == 3); // packet family |
| BOOST_TEST(((headerWord0 >> 19) & 0x0000007F) == 0); // packet class |
| BOOST_TEST(((headerWord0 >> 16) & 0x00000007) == 0); // packet type |
| BOOST_TEST(headerWord1 == 20); |
| |
| uint32_t offset = 16; |
| uint16_t readIndex = ReadUint16(buffer, offset); |
| BOOST_TEST(0 == readIndex); |
| |
| offset += 2; |
| uint32_t readValue = ReadUint32(buffer, offset); |
| BOOST_TEST((valueA * numSteps) == readValue); |
| |
| offset += 4; |
| readIndex = ReadUint16(buffer, offset); |
| BOOST_TEST(1 == readIndex); |
| |
| offset += 2; |
| readValue = ReadUint32(buffer, offset); |
| BOOST_TEST((valueB * numSteps) == readValue); |
| } |
| |
| BOOST_AUTO_TEST_CASE(RequestCounterDirectoryCommandHandlerTest1) |
| { |
| const uint32_t familyId = 0; |
| const uint32_t packetId = 3; |
| const uint32_t version = 1; |
| ProfilingStateMachine profilingStateMachine; |
| CounterDirectory counterDirectory; |
| MockBufferManager mockBuffer1(1024); |
| SendCounterPacket sendCounterPacket(mockBuffer1); |
| SendThread sendThread(profilingStateMachine, mockBuffer1, sendCounterPacket); |
| MockBufferManager mockBuffer2(1024); |
| SendTimelinePacket sendTimelinePacket(mockBuffer2); |
| RequestCounterDirectoryCommandHandler commandHandler(familyId, packetId, version, counterDirectory, |
| sendCounterPacket, sendTimelinePacket, profilingStateMachine); |
| |
| const uint32_t wrongPacketId = 47; |
| const uint32_t wrongHeader = (wrongPacketId & 0x000003FF) << 16; |
| |
| arm::pipe::Packet wrongPacket(wrongHeader); |
| |
| profilingStateMachine.TransitionToState(ProfilingState::Uninitialised); |
| BOOST_CHECK_THROW(commandHandler(wrongPacket), armnn::RuntimeException); // Wrong profiling state |
| profilingStateMachine.TransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK_THROW(commandHandler(wrongPacket), armnn::RuntimeException); // Wrong profiling state |
| profilingStateMachine.TransitionToState(ProfilingState::WaitingForAck); |
| BOOST_CHECK_THROW(commandHandler(wrongPacket), armnn::RuntimeException); // Wrong profiling state |
| profilingStateMachine.TransitionToState(ProfilingState::Active); |
| BOOST_CHECK_THROW(commandHandler(wrongPacket), armnn::InvalidArgumentException); // Wrong packet |
| |
| const uint32_t rightHeader = (packetId & 0x000003FF) << 16; |
| |
| arm::pipe::Packet rightPacket(rightHeader); |
| |
| BOOST_CHECK_NO_THROW(commandHandler(rightPacket)); // Right packet |
| |
| auto readBuffer1 = mockBuffer1.GetReadableBuffer(); |
| |
| uint32_t header1Word0 = ReadUint32(readBuffer1, 0); |
| uint32_t header1Word1 = ReadUint32(readBuffer1, 4); |
| |
| // Counter directory packet |
| BOOST_TEST(((header1Word0 >> 26) & 0x0000003F) == 0); // packet family |
| BOOST_TEST(((header1Word0 >> 16) & 0x000003FF) == 2); // packet id |
| BOOST_TEST(header1Word1 == 24); // data length |
| |
| uint32_t bodyHeader1Word0 = ReadUint32(readBuffer1, 8); |
| uint16_t deviceRecordCount = armnn::numeric_cast<uint16_t>(bodyHeader1Word0 >> 16); |
| BOOST_TEST(deviceRecordCount == 0); // device_records_count |
| |
| auto readBuffer2 = mockBuffer2.GetReadableBuffer(); |
| |
| uint32_t header2Word0 = ReadUint32(readBuffer2, 0); |
| uint32_t header2Word1 = ReadUint32(readBuffer2, 4); |
| |
| // Timeline message directory packet |
| BOOST_TEST(((header2Word0 >> 26) & 0x0000003F) == 1); // packet family |
| BOOST_TEST(((header2Word0 >> 16) & 0x000003FF) == 0); // packet id |
| BOOST_TEST(header2Word1 == 443); // data length |
| } |
| |
| BOOST_AUTO_TEST_CASE(RequestCounterDirectoryCommandHandlerTest2) |
| { |
| const uint32_t familyId = 0; |
| const uint32_t packetId = 3; |
| const uint32_t version = 1; |
| ProfilingStateMachine profilingStateMachine; |
| CounterDirectory counterDirectory; |
| MockBufferManager mockBuffer1(1024); |
| SendCounterPacket sendCounterPacket(mockBuffer1); |
| SendThread sendThread(profilingStateMachine, mockBuffer1, sendCounterPacket); |
| MockBufferManager mockBuffer2(1024); |
| SendTimelinePacket sendTimelinePacket(mockBuffer2); |
| RequestCounterDirectoryCommandHandler commandHandler(familyId, packetId, version, counterDirectory, |
| sendCounterPacket, sendTimelinePacket, profilingStateMachine); |
| const uint32_t header = (packetId & 0x000003FF) << 16; |
| const arm::pipe::Packet packet(header); |
| |
| const Device* device = counterDirectory.RegisterDevice("deviceA", 1); |
| BOOST_CHECK(device != nullptr); |
| const CounterSet* counterSet = counterDirectory.RegisterCounterSet("countersetA"); |
| BOOST_CHECK(counterSet != nullptr); |
| counterDirectory.RegisterCategory("categoryA"); |
| counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, 24, |
| "categoryA", 0, 1, 2.0f, "counterA", "descA"); |
| counterDirectory.RegisterCounter(armnn::profiling::BACKEND_ID, 25, |
| "categoryA", 1, 1, 3.0f, "counterB", "descB"); |
| |
| profilingStateMachine.TransitionToState(ProfilingState::Uninitialised); |
| BOOST_CHECK_THROW(commandHandler(packet), armnn::RuntimeException); // Wrong profiling state |
| profilingStateMachine.TransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK_THROW(commandHandler(packet), armnn::RuntimeException); // Wrong profiling state |
| profilingStateMachine.TransitionToState(ProfilingState::WaitingForAck); |
| BOOST_CHECK_THROW(commandHandler(packet), armnn::RuntimeException); // Wrong profiling state |
| profilingStateMachine.TransitionToState(ProfilingState::Active); |
| BOOST_CHECK_NO_THROW(commandHandler(packet)); |
| |
| auto readBuffer1 = mockBuffer1.GetReadableBuffer(); |
| |
| const uint32_t header1Word0 = ReadUint32(readBuffer1, 0); |
| const uint32_t header1Word1 = ReadUint32(readBuffer1, 4); |
| |
| BOOST_TEST(((header1Word0 >> 26) & 0x0000003F) == 0); // packet family |
| BOOST_TEST(((header1Word0 >> 16) & 0x000003FF) == 2); // packet id |
| BOOST_TEST(header1Word1 == 236); // data length |
| |
| const uint32_t bodyHeaderSizeBytes = bodyHeaderSize * sizeof(uint32_t); |
| |
| const uint32_t bodyHeader1Word0 = ReadUint32(readBuffer1, 8); |
| const uint32_t bodyHeader1Word1 = ReadUint32(readBuffer1, 12); |
| const uint32_t bodyHeader1Word2 = ReadUint32(readBuffer1, 16); |
| const uint32_t bodyHeader1Word3 = ReadUint32(readBuffer1, 20); |
| const uint32_t bodyHeader1Word4 = ReadUint32(readBuffer1, 24); |
| const uint32_t bodyHeader1Word5 = ReadUint32(readBuffer1, 28); |
| const uint16_t deviceRecordCount = armnn::numeric_cast<uint16_t>(bodyHeader1Word0 >> 16); |
| const uint16_t counterSetRecordCount = armnn::numeric_cast<uint16_t>(bodyHeader1Word2 >> 16); |
| const uint16_t categoryRecordCount = armnn::numeric_cast<uint16_t>(bodyHeader1Word4 >> 16); |
| BOOST_TEST(deviceRecordCount == 1); // device_records_count |
| BOOST_TEST(bodyHeader1Word1 == 0 + bodyHeaderSizeBytes); // device_records_pointer_table_offset |
| BOOST_TEST(counterSetRecordCount == 1); // counter_set_count |
| BOOST_TEST(bodyHeader1Word3 == 4 + bodyHeaderSizeBytes); // counter_set_pointer_table_offset |
| BOOST_TEST(categoryRecordCount == 1); // categories_count |
| BOOST_TEST(bodyHeader1Word5 == 8 + bodyHeaderSizeBytes); // categories_pointer_table_offset |
| |
| const uint32_t deviceRecordOffset = ReadUint32(readBuffer1, 32); |
| BOOST_TEST(deviceRecordOffset == 12); |
| |
| const uint32_t counterSetRecordOffset = ReadUint32(readBuffer1, 36); |
| BOOST_TEST(counterSetRecordOffset == 28); |
| |
| const uint32_t categoryRecordOffset = ReadUint32(readBuffer1, 40); |
| BOOST_TEST(categoryRecordOffset == 48); |
| |
| auto readBuffer2 = mockBuffer2.GetReadableBuffer(); |
| |
| const uint32_t header2Word0 = ReadUint32(readBuffer2, 0); |
| const uint32_t header2Word1 = ReadUint32(readBuffer2, 4); |
| |
| // Timeline message directory packet |
| BOOST_TEST(((header2Word0 >> 26) & 0x0000003F) == 1); // packet family |
| BOOST_TEST(((header2Word0 >> 16) & 0x000003FF) == 0); // packet id |
| BOOST_TEST(header2Word1 == 443); // data length |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceGoodConnectionAcknowledgedPacket) |
| { |
| unsigned int streamMetadataPacketsize = GetStreamMetaDataPacketSize(); |
| |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Bring the profiling service to the "WaitingForAck" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); // Initialize the counter directory |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Update(); // Create the profiling connection |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| // Remove the packets received so far |
| mockProfilingConnection->Clear(); |
| |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| profilingService.Update(); // Start the command handler and the send thread |
| |
| // Wait for the Stream Metadata packet to be sent |
| BOOST_CHECK(helper.WaitForPacketsSent( |
| mockProfilingConnection, PacketType::StreamMetaData, streamMetadataPacketsize) >= 1); |
| |
| // Write a valid "Connection Acknowledged" packet into the mock profiling connection, to simulate a valid |
| // reply from an external profiling service |
| |
| // Connection Acknowledged Packet header (word 0, word 1 is always zero): |
| // 26:31 [6] packet_family: Control Packet Family, value 0b000000 |
| // 16:25 [10] packet_id: Packet identifier, value 0b0000000001 |
| // 8:15 [8] reserved: Reserved, value 0b00000000 |
| // 0:7 [8] reserved: Reserved, value 0b00000000 |
| uint32_t packetFamily = 0; |
| uint32_t packetId = 1; |
| uint32_t header = ((packetFamily & 0x0000003F) << 26) | ((packetId & 0x000003FF) << 16); |
| |
| // Create the Connection Acknowledged Packet |
| arm::pipe::Packet connectionAcknowledgedPacket(header); |
| |
| // Write the packet to the mock profiling connection |
| mockProfilingConnection->WritePacket(std::move(connectionAcknowledgedPacket)); |
| |
| // Wait for the counter directory packet to ensure the ConnectionAcknowledgedCommandHandler has run. |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::CounterDirectory) == 1); |
| |
| // The Connection Acknowledged Command Handler should have updated the profiling state accordingly |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceGoodRequestCounterDirectoryPacket) |
| { |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Bring the profiling service to the "Active" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); // Initialize the counter directory |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Update(); // Create the profiling connection |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| profilingService.Update(); // Start the command handler and the send thread |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| // Force the profiling service to the "Active" state |
| helper.ForceTransitionToState(ProfilingState::Active); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Write a valid "Request Counter Directory" packet into the mock profiling connection, to simulate a valid |
| // reply from an external profiling service |
| |
| // Request Counter Directory packet header (word 0, word 1 is always zero): |
| // 26:31 [6] packet_family: Control Packet Family, value 0b000000 |
| // 16:25 [10] packet_id: Packet identifier, value 0b0000000011 |
| // 8:15 [8] reserved: Reserved, value 0b00000000 |
| // 0:7 [8] reserved: Reserved, value 0b00000000 |
| uint32_t packetFamily = 0; |
| uint32_t packetId = 3; |
| uint32_t header = ((packetFamily & 0x0000003F) << 26) | ((packetId & 0x000003FF) << 16); |
| |
| // Create the Request Counter Directory packet |
| arm::pipe::Packet requestCounterDirectoryPacket(header); |
| |
| // Write the packet to the mock profiling connection |
| mockProfilingConnection->WritePacket(std::move(requestCounterDirectoryPacket)); |
| |
| // Expecting one CounterDirectory Packet of length 652 |
| // and one TimelineMessageDirectory packet of length 451 |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::CounterDirectory, 652) == 1); |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::TimelineMessageDirectory, 451) == 1); |
| |
| // The Request Counter Directory Command Handler should not have updated the profiling state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceBadPeriodicCounterSelectionPacketInvalidCounterUid) |
| { |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Bring the profiling service to the "Active" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); // Initialize the counter directory |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Update(); // Create the profiling connection |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| profilingService.Update(); // Start the command handler and the send thread |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| // Force the profiling service to the "Active" state |
| helper.ForceTransitionToState(ProfilingState::Active); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Remove the packets received so far |
| mockProfilingConnection->Clear(); |
| |
| // Write a "Periodic Counter Selection" packet into the mock profiling connection, to simulate an input from an |
| // external profiling service |
| |
| // Periodic Counter Selection packet header: |
| // 26:31 [6] packet_family: Control Packet Family, value 0b000000 |
| // 16:25 [10] packet_id: Packet identifier, value 0b0000000100 |
| // 8:15 [8] reserved: Reserved, value 0b00000000 |
| // 0:7 [8] reserved: Reserved, value 0b00000000 |
| uint32_t packetFamily = 0; |
| uint32_t packetId = 4; |
| uint32_t header = ((packetFamily & 0x0000003F) << 26) | ((packetId & 0x000003FF) << 16); |
| |
| uint32_t capturePeriod = 123456; // Some capture period (microseconds) |
| |
| // Get the first valid counter UID |
| const ICounterDirectory& counterDirectory = profilingService.GetCounterDirectory(); |
| const Counters& counters = counterDirectory.GetCounters(); |
| BOOST_CHECK(counters.size() > 1); |
| uint16_t counterUidA = counters.begin()->first; // First valid counter UID |
| uint16_t counterUidB = 9999; // Second invalid counter UID |
| |
| uint32_t length = 8; |
| |
| auto data = std::make_unique<unsigned char[]>(length); |
| WriteUint32(data.get(), 0, capturePeriod); |
| WriteUint16(data.get(), 4, counterUidA); |
| WriteUint16(data.get(), 6, counterUidB); |
| |
| // Create the Periodic Counter Selection packet |
| // Length > 0, this will start the Period Counter Capture thread |
| arm::pipe::Packet periodicCounterSelectionPacket(header, length, data); |
| |
| |
| // Write the packet to the mock profiling connection |
| mockProfilingConnection->WritePacket(std::move(periodicCounterSelectionPacket)); |
| |
| // Expecting one Periodic Counter Selection packet of length 14 |
| // and at least one Periodic Counter Capture packet of length 22 |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::PeriodicCounterSelection, 14) == 1); |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::PeriodicCounterCapture, 22) >= 1); |
| |
| // The Periodic Counter Selection Handler should not have updated the profiling state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceGoodPeriodicCounterSelectionPacketNoCounters) |
| { |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Bring the profiling service to the "Active" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); // Initialize the counter directory |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Update(); // Create the profiling connection |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| profilingService.Update(); // Start the command handler and the send thread |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| // Wait for the Stream Metadata packet the be sent |
| // (we are not testing the connection acknowledgement here so it will be ignored by this test) |
| helper.WaitForPacketsSent(mockProfilingConnection, PacketType::StreamMetaData); |
| |
| // Force the profiling service to the "Active" state |
| helper.ForceTransitionToState(ProfilingState::Active); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Write a "Periodic Counter Selection" packet into the mock profiling connection, to simulate an input from an |
| // external profiling service |
| |
| // Periodic Counter Selection packet header: |
| // 26:31 [6] packet_family: Control Packet Family, value 0b000000 |
| // 16:25 [10] packet_id: Packet identifier, value 0b0000000100 |
| // 8:15 [8] reserved: Reserved, value 0b00000000 |
| // 0:7 [8] reserved: Reserved, value 0b00000000 |
| uint32_t packetFamily = 0; |
| uint32_t packetId = 4; |
| uint32_t header = ((packetFamily & 0x0000003F) << 26) | ((packetId & 0x000003FF) << 16); |
| |
| // Create the Periodic Counter Selection packet |
| // Length == 0, this will disable the collection of counters |
| arm::pipe::Packet periodicCounterSelectionPacket(header); |
| |
| // Write the packet to the mock profiling connection |
| mockProfilingConnection->WritePacket(std::move(periodicCounterSelectionPacket)); |
| |
| // Wait for the Periodic Counter Selection packet of length 12 to be sent |
| // The size of the expected Periodic Counter Selection (echos the sent one) |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::PeriodicCounterSelection, 12) == 1); |
| |
| // The Periodic Counter Selection Handler should not have updated the profiling state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // No Periodic Counter packets are expected |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::PeriodicCounterCapture, 0, 0) == 0); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceGoodPeriodicCounterSelectionPacketSingleCounter) |
| { |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Bring the profiling service to the "Active" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); // Initialize the counter directory |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Update(); // Create the profiling connection |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| profilingService.Update(); // Start the command handler and the send thread |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| // Wait for the Stream Metadata packet to be sent |
| // (we are not testing the connection acknowledgement here so it will be ignored by this test) |
| helper.WaitForPacketsSent(mockProfilingConnection, PacketType::StreamMetaData); |
| |
| // Force the profiling service to the "Active" state |
| helper.ForceTransitionToState(ProfilingState::Active); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Write a "Periodic Counter Selection" packet into the mock profiling connection, to simulate an input from an |
| // external profiling service |
| |
| // Periodic Counter Selection packet header: |
| // 26:31 [6] packet_family: Control Packet Family, value 0b000000 |
| // 16:25 [10] packet_id: Packet identifier, value 0b0000000100 |
| // 8:15 [8] reserved: Reserved, value 0b00000000 |
| // 0:7 [8] reserved: Reserved, value 0b00000000 |
| uint32_t packetFamily = 0; |
| uint32_t packetId = 4; |
| uint32_t header = ((packetFamily & 0x0000003F) << 26) | ((packetId & 0x000003FF) << 16); |
| |
| uint32_t capturePeriod = 123456; // Some capture period (microseconds) |
| |
| // Get the first valid counter UID |
| const ICounterDirectory& counterDirectory = profilingService.GetCounterDirectory(); |
| const Counters& counters = counterDirectory.GetCounters(); |
| BOOST_CHECK(!counters.empty()); |
| uint16_t counterUid = counters.begin()->first; // Valid counter UID |
| |
| uint32_t length = 6; |
| |
| auto data = std::make_unique<unsigned char[]>(length); |
| WriteUint32(data.get(), 0, capturePeriod); |
| WriteUint16(data.get(), 4, counterUid); |
| |
| // Create the Periodic Counter Selection packet |
| // Length > 0, this will start the Period Counter Capture thread |
| arm::pipe::Packet periodicCounterSelectionPacket(header, length, data); |
| |
| // Write the packet to the mock profiling connection |
| mockProfilingConnection->WritePacket(std::move(periodicCounterSelectionPacket)); |
| |
| // Expecting one Periodic Counter Selection packet of length 14 |
| // and at least one Periodic Counter Capture packet of length 22 |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::PeriodicCounterSelection, 14) == 1); |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::PeriodicCounterCapture, 22) >= 1); |
| |
| // The Periodic Counter Selection Handler should not have updated the profiling state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceGoodPeriodicCounterSelectionPacketMultipleCounters) |
| { |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Bring the profiling service to the "Active" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); // Initialize the counter directory |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Update(); // Create the profiling connection |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| profilingService.Update(); // Start the command handler and the send thread |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| // Wait for the Stream Metadata packet the be sent |
| // (we are not testing the connection acknowledgement here so it will be ignored by this test) |
| helper.WaitForPacketsSent(mockProfilingConnection, PacketType::StreamMetaData); |
| |
| // Force the profiling service to the "Active" state |
| helper.ForceTransitionToState(ProfilingState::Active); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Write a "Periodic Counter Selection" packet into the mock profiling connection, to simulate an input from an |
| // external profiling service |
| |
| // Periodic Counter Selection packet header: |
| // 26:31 [6] packet_family: Control Packet Family, value 0b000000 |
| // 16:25 [10] packet_id: Packet identifier, value 0b0000000100 |
| // 8:15 [8] reserved: Reserved, value 0b00000000 |
| // 0:7 [8] reserved: Reserved, value 0b00000000 |
| uint32_t packetFamily = 0; |
| uint32_t packetId = 4; |
| uint32_t header = ((packetFamily & 0x0000003F) << 26) | ((packetId & 0x000003FF) << 16); |
| |
| uint32_t capturePeriod = 123456; // Some capture period (microseconds) |
| |
| // Get the first valid counter UID |
| const ICounterDirectory& counterDirectory = profilingService.GetCounterDirectory(); |
| const Counters& counters = counterDirectory.GetCounters(); |
| BOOST_CHECK(counters.size() > 1); |
| uint16_t counterUidA = counters.begin()->first; // First valid counter UID |
| uint16_t counterUidB = (counters.begin()++)->first; // Second valid counter UID |
| |
| uint32_t length = 8; |
| |
| auto data = std::make_unique<unsigned char[]>(length); |
| WriteUint32(data.get(), 0, capturePeriod); |
| WriteUint16(data.get(), 4, counterUidA); |
| WriteUint16(data.get(), 6, counterUidB); |
| |
| // Create the Periodic Counter Selection packet |
| // Length > 0, this will start the Period Counter Capture thread |
| arm::pipe::Packet periodicCounterSelectionPacket(header, length, data); |
| |
| // Write the packet to the mock profiling connection |
| mockProfilingConnection->WritePacket(std::move(periodicCounterSelectionPacket)); |
| |
| // Expecting one PeriodicCounterSelection Packet with a length of 16 |
| // And at least one PeriodicCounterCapture Packet with a length of 28 |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::PeriodicCounterSelection, 16) == 1); |
| BOOST_CHECK(helper.WaitForPacketsSent(mockProfilingConnection, PacketType::PeriodicCounterCapture, 28) >= 1); |
| |
| // The Periodic Counter Selection Handler should not have updated the profiling state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceDisconnect) |
| { |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Try to disconnect the profiling service while in the "Uninitialised" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Disconnect(); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); // The state should not change |
| |
| // Try to disconnect the profiling service while in the "NotConnected" state |
| profilingService.Update(); // Initialize the counter directory |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Disconnect(); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); // The state should not change |
| |
| // Try to disconnect the profiling service while in the "WaitingForAck" state |
| profilingService.Update(); // Create the profiling connection |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| profilingService.Disconnect(); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); // The state should not change |
| |
| // Try to disconnect the profiling service while in the "Active" state |
| profilingService.Update(); // Start the command handler and the send thread |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| // Wait for the Stream Metadata packet the be sent |
| // (we are not testing the connection acknowledgement here so it will be ignored by this test) |
| helper.WaitForPacketsSent(mockProfilingConnection, PacketType::StreamMetaData); |
| |
| // Force the profiling service to the "Active" state |
| helper.ForceTransitionToState(ProfilingState::Active); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Check that the profiling connection is open |
| BOOST_CHECK(mockProfilingConnection->IsOpen()); |
| |
| profilingService.Disconnect(); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); // The state should have changed |
| |
| // Check that the profiling connection has been reset |
| mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection == nullptr); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceGoodPerJobCounterSelectionPacket) |
| { |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Bring the profiling service to the "Active" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); // Initialize the counter directory |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Update(); // Create the profiling connection |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| profilingService.Update(); // Start the command handler and the send thread |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| // Wait for the Stream Metadata packet the be sent |
| // (we are not testing the connection acknowledgement here so it will be ignored by this test) |
| helper.WaitForPacketsSent(mockProfilingConnection, PacketType::StreamMetaData); |
| |
| // Force the profiling service to the "Active" state |
| helper.ForceTransitionToState(ProfilingState::Active); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // Write a "Per-Job Counter Selection" packet into the mock profiling connection, to simulate an input from an |
| // external profiling service |
| |
| // Per-Job Counter Selection packet header: |
| // 26:31 [6] packet_family: Control Packet Family, value 0b000000 |
| // 16:25 [10] packet_id: Packet identifier, value 0b0000000100 |
| // 8:15 [8] reserved: Reserved, value 0b00000000 |
| // 0:7 [8] reserved: Reserved, value 0b00000000 |
| uint32_t packetFamily = 0; |
| uint32_t packetId = 5; |
| uint32_t header = ((packetFamily & 0x0000003F) << 26) | ((packetId & 0x000003FF) << 16); |
| |
| // Create the Per-Job Counter Selection packet |
| // Length == 0, this will disable the collection of counters |
| arm::pipe::Packet periodicCounterSelectionPacket(header); |
| |
| // Write the packet to the mock profiling connection |
| mockProfilingConnection->WritePacket(std::move(periodicCounterSelectionPacket)); |
| |
| // Wait for a bit (must at least be the delay value of the mock profiling connection) to make sure that |
| // the Per-Job Counter Selection packet gets processed by the profiling service |
| std::this_thread::sleep_for(std::chrono::milliseconds(5)); |
| |
| // The Per-Job Counter Selection Command Handler should not have updated the profiling state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Active); |
| |
| // The Per-Job Counter Selection packets are dropped silently, so there should be no reply coming |
| // from the profiling service |
| const auto StreamMetaDataSize = static_cast<unsigned long>( |
| helper.WaitForPacketsSent(mockProfilingConnection, PacketType::StreamMetaData, 0, 0)); |
| BOOST_CHECK(StreamMetaDataSize == mockProfilingConnection->GetWrittenDataSize()); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckConfigureProfilingServiceOn) |
| { |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.ConfigureProfilingService(options); |
| // should get as far as NOT_CONNECTED |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckConfigureProfilingServiceOff) |
| { |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| armnn::profiling::ProfilingService profilingService; |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.ConfigureProfilingService(options); |
| // should not move from Uninitialised |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceEnabled) |
| { |
| // Locally reduce log level to "Warning", as this test needs to parse a warning message from the standard output |
| LogLevelSwapper logLevelSwapper(armnn::LogSeverity::Warning); |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| |
| // Redirect the output to a local stream so that we can parse the warning message |
| std::stringstream ss; |
| StreamRedirector streamRedirector(std::cout, ss.rdbuf()); |
| profilingService.Update(); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| streamRedirector.CancelRedirect(); |
| |
| // Check that the expected error has occurred and logged to the standard output |
| if (ss.str().find("Cannot connect to stream socket: Connection refused") == std::string::npos) |
| { |
| std::cout << ss.str(); |
| BOOST_FAIL("Expected string not found."); |
| } |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceEnabledRuntime) |
| { |
| // Locally reduce log level to "Warning", as this test needs to parse a warning message from the standard output |
| LogLevelSwapper logLevelSwapper(armnn::LogSeverity::Warning); |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| options.m_EnableProfiling = true; |
| profilingService.ResetExternalProfilingOptions(options); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| |
| // Redirect the output to a local stream so that we can parse the warning message |
| std::stringstream ss; |
| StreamRedirector streamRedirector(std::cout, ss.rdbuf()); |
| profilingService.Update(); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| streamRedirector.CancelRedirect(); |
| |
| // Check that the expected error has occurred and logged to the standard output |
| if (ss.str().find("Cannot connect to stream socket: Connection refused") == std::string::npos) |
| { |
| std::cout << ss.str(); |
| BOOST_FAIL("Expected string not found."); |
| } |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceBadConnectionAcknowledgedPacket) |
| { |
| // Locally reduce log level to "Warning", as this test needs to parse a warning message from the standard output |
| LogLevelSwapper logLevelSwapper(armnn::LogSeverity::Warning); |
| |
| |
| // Redirect the standard output to a local stream so that we can parse the warning message |
| std::stringstream ss; |
| StreamRedirector streamRedirector(std::cout, ss.rdbuf()); |
| |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Bring the profiling service to the "WaitingForAck" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); // Initialize the counter directory |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Update(); // Create the profiling connection |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| |
| // Connection Acknowledged Packet header (word 0, word 1 is always zero): |
| // 26:31 [6] packet_family: Control Packet Family, value 0b000000 |
| // 16:25 [10] packet_id: Packet identifier, value 0b0000000001 |
| // 8:15 [8] reserved: Reserved, value 0b00000000 |
| // 0:7 [8] reserved: Reserved, value 0b00000000 |
| uint32_t packetFamily = 0; |
| uint32_t packetId = 37; // Wrong packet id!!! |
| uint32_t header = ((packetFamily & 0x0000003F) << 26) | ((packetId & 0x000003FF) << 16); |
| |
| // Create the Connection Acknowledged Packet |
| arm::pipe::Packet connectionAcknowledgedPacket(header); |
| // Write an invalid "Connection Acknowledged" packet into the mock profiling connection, to simulate an invalid |
| // reply from an external profiling service |
| mockProfilingConnection->WritePacket(std::move(connectionAcknowledgedPacket)); |
| |
| // Start the command thread |
| profilingService.Update(); |
| |
| // Wait for the command thread to join |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| streamRedirector.CancelRedirect(); |
| |
| // Check that the expected error has occurred and logged to the standard output |
| if (ss.str().find("Functor with requested PacketId=37 and Version=4194304 does not exist") == std::string::npos) |
| { |
| std::cout << ss.str(); |
| BOOST_FAIL("Expected string not found."); |
| } |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceBadRequestCounterDirectoryPacket) |
| { |
| // Locally reduce log level to "Warning", as this test needs to parse a warning message from the standard output |
| LogLevelSwapper logLevelSwapper(armnn::LogSeverity::Warning); |
| |
| // Redirect the standard output to a local stream so that we can parse the warning message |
| std::stringstream ss; |
| StreamRedirector streamRedirector(std::cout, ss.rdbuf()); |
| |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Bring the profiling service to the "Active" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| helper.ForceTransitionToState(ProfilingState::NotConnected); |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Update(); // Create the profiling connection |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| // Write a valid "Request Counter Directory" packet into the mock profiling connection, to simulate a valid |
| // reply from an external profiling service |
| |
| // Request Counter Directory packet header (word 0, word 1 is always zero): |
| // 26:31 [6] packet_family: Control Packet Family, value 0b000000 |
| // 16:25 [10] packet_id: Packet identifier, value 0b0000000011 |
| // 8:15 [8] reserved: Reserved, value 0b00000000 |
| // 0:7 [8] reserved: Reserved, value 0b00000000 |
| uint32_t packetFamily = 0; |
| uint32_t packetId = 123; // Wrong packet id!!! |
| uint32_t header = ((packetFamily & 0x0000003F) << 26) | ((packetId & 0x000003FF) << 16); |
| |
| // Create the Request Counter Directory packet |
| arm::pipe::Packet requestCounterDirectoryPacket(header); |
| |
| // Write the packet to the mock profiling connection |
| mockProfilingConnection->WritePacket(std::move(requestCounterDirectoryPacket)); |
| |
| // Start the command handler and the send thread |
| profilingService.Update(); |
| |
| // Reset the profiling service to stop and join any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| streamRedirector.CancelRedirect(); |
| |
| // Check that the expected error has occurred and logged to the standard output |
| if (ss.str().find("Functor with requested PacketId=123 and Version=4194304 does not exist") == std::string::npos) |
| { |
| std::cout << ss.str(); |
| BOOST_FAIL("Expected string not found."); |
| } |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckProfilingServiceBadPeriodicCounterSelectionPacket) |
| { |
| // Locally reduce log level to "Warning", as this test needs to parse a warning message from the standard output |
| LogLevelSwapper logLevelSwapper(armnn::LogSeverity::Warning); |
| |
| // Redirect the standard output to a local stream so that we can parse the warning message |
| std::stringstream ss; |
| StreamRedirector streamRedirector(std::cout, ss.rdbuf()); |
| |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Swap the profiling connection factory in the profiling service instance with our mock one |
| SwapProfilingConnectionFactoryHelper helper(profilingService); |
| |
| // Bring the profiling service to the "Active" state |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::Uninitialised); |
| profilingService.Update(); // Initialize the counter directory |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::NotConnected); |
| profilingService.Update(); // Create the profiling connection |
| BOOST_CHECK(profilingService.GetCurrentState() == ProfilingState::WaitingForAck); |
| profilingService.Update(); // Start the command handler and the send thread |
| |
| // Get the mock profiling connection |
| MockProfilingConnection* mockProfilingConnection = helper.GetMockProfilingConnection(); |
| BOOST_CHECK(mockProfilingConnection); |
| |
| // Write a "Periodic Counter Selection" packet into the mock profiling connection, to simulate an input from an |
| // external profiling service |
| |
| // Periodic Counter Selection packet header: |
| // 26:31 [6] packet_family: Control Packet Family, value 0b000000 |
| // 16:25 [10] packet_id: Packet identifier, value 0b0000000100 |
| // 8:15 [8] reserved: Reserved, value 0b00000000 |
| // 0:7 [8] reserved: Reserved, value 0b00000000 |
| uint32_t packetFamily = 0; |
| uint32_t packetId = 999; // Wrong packet id!!! |
| uint32_t header = ((packetFamily & 0x0000003F) << 26) | ((packetId & 0x000003FF) << 16); |
| |
| // Create the Periodic Counter Selection packet |
| // Length == 0, this will disable the collection of counters |
| arm::pipe::Packet periodicCounterSelectionPacket(header); |
| |
| // Write the packet to the mock profiling connection |
| mockProfilingConnection->WritePacket(std::move(periodicCounterSelectionPacket)); |
| profilingService.Update(); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| // Check that the expected error has occurred and logged to the standard output |
| streamRedirector.CancelRedirect(); |
| |
| // Check that the expected error has occurred and logged to the standard output |
| if (ss.str().find("Functor with requested PacketId=999 and Version=4194304 does not exist") == std::string::npos) |
| { |
| std::cout << ss.str(); |
| BOOST_FAIL("Expected string not found."); |
| } |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckCounterIdMap) |
| { |
| CounterIdMap counterIdMap; |
| BOOST_CHECK_THROW(counterIdMap.GetBackendId(0), armnn::Exception); |
| BOOST_CHECK_THROW(counterIdMap.GetGlobalId(0, armnn::profiling::BACKEND_ID), armnn::Exception); |
| |
| uint16_t globalCounterIds = 0; |
| |
| armnn::BackendId cpuRefId(armnn::Compute::CpuRef); |
| armnn::BackendId cpuAccId(armnn::Compute::CpuAcc); |
| |
| std::vector<uint16_t> cpuRefCounters = {0, 1, 2, 3}; |
| std::vector<uint16_t> cpuAccCounters = {0, 1}; |
| |
| for (uint16_t backendCounterId : cpuRefCounters) |
| { |
| counterIdMap.RegisterMapping(globalCounterIds, backendCounterId, cpuRefId); |
| ++globalCounterIds; |
| } |
| for (uint16_t backendCounterId : cpuAccCounters) |
| { |
| counterIdMap.RegisterMapping(globalCounterIds, backendCounterId, cpuAccId); |
| ++globalCounterIds; |
| } |
| |
| BOOST_CHECK(counterIdMap.GetBackendId(0) == (std::pair<uint16_t, armnn::BackendId>(0, cpuRefId))); |
| BOOST_CHECK(counterIdMap.GetBackendId(1) == (std::pair<uint16_t, armnn::BackendId>(1, cpuRefId))); |
| BOOST_CHECK(counterIdMap.GetBackendId(2) == (std::pair<uint16_t, armnn::BackendId>(2, cpuRefId))); |
| BOOST_CHECK(counterIdMap.GetBackendId(3) == (std::pair<uint16_t, armnn::BackendId>(3, cpuRefId))); |
| BOOST_CHECK(counterIdMap.GetBackendId(4) == (std::pair<uint16_t, armnn::BackendId>(0, cpuAccId))); |
| BOOST_CHECK(counterIdMap.GetBackendId(5) == (std::pair<uint16_t, armnn::BackendId>(1, cpuAccId))); |
| |
| BOOST_CHECK(counterIdMap.GetGlobalId(0, cpuRefId) == 0); |
| BOOST_CHECK(counterIdMap.GetGlobalId(1, cpuRefId) == 1); |
| BOOST_CHECK(counterIdMap.GetGlobalId(2, cpuRefId) == 2); |
| BOOST_CHECK(counterIdMap.GetGlobalId(3, cpuRefId) == 3); |
| BOOST_CHECK(counterIdMap.GetGlobalId(0, cpuAccId) == 4); |
| BOOST_CHECK(counterIdMap.GetGlobalId(1, cpuAccId) == 5); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckRegisterBackendCounters) |
| { |
| uint16_t globalCounterIds = armnn::profiling::INFERENCES_RUN; |
| armnn::BackendId cpuRefId(armnn::Compute::CpuRef); |
| |
| // Reset the profiling service to the uninitialized state |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| |
| RegisterBackendCounters registerBackendCounters(globalCounterIds, cpuRefId, profilingService); |
| |
| |
| |
| BOOST_CHECK(profilingService.GetCounterDirectory().GetCategories().empty()); |
| registerBackendCounters.RegisterCategory("categoryOne"); |
| auto categoryOnePtr = profilingService.GetCounterDirectory().GetCategory("categoryOne"); |
| BOOST_CHECK(categoryOnePtr); |
| |
| BOOST_CHECK(profilingService.GetCounterDirectory().GetDevices().empty()); |
| globalCounterIds = registerBackendCounters.RegisterDevice("deviceOne"); |
| auto deviceOnePtr = profilingService.GetCounterDirectory().GetDevice(globalCounterIds); |
| BOOST_CHECK(deviceOnePtr); |
| BOOST_CHECK(deviceOnePtr->m_Name == "deviceOne"); |
| |
| BOOST_CHECK(profilingService.GetCounterDirectory().GetCounterSets().empty()); |
| globalCounterIds = registerBackendCounters.RegisterCounterSet("counterSetOne"); |
| auto counterSetOnePtr = profilingService.GetCounterDirectory().GetCounterSet(globalCounterIds); |
| BOOST_CHECK(counterSetOnePtr); |
| BOOST_CHECK(counterSetOnePtr->m_Name == "counterSetOne"); |
| |
| uint16_t newGlobalCounterId = registerBackendCounters.RegisterCounter(0, |
| "categoryOne", |
| 0, |
| 0, |
| 1.f, |
| "CounterOne", |
| "first test counter"); |
| BOOST_CHECK(newGlobalCounterId = armnn::profiling::INFERENCES_RUN + 1); |
| uint16_t mappedGlobalId = profilingService.GetCounterMappings().GetGlobalId(0, cpuRefId); |
| BOOST_CHECK(mappedGlobalId == newGlobalCounterId); |
| auto backendMapping = profilingService.GetCounterMappings().GetBackendId(newGlobalCounterId); |
| BOOST_CHECK(backendMapping.first == 0); |
| BOOST_CHECK(backendMapping.second == cpuRefId); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckCounterStatusQuery) |
| { |
| armnn::IRuntime::CreationOptions options; |
| options.m_ProfilingOptions.m_EnableProfiling = true; |
| |
| // Reset the profiling service to the uninitialized state |
| ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options.m_ProfilingOptions, true); |
| |
| const armnn::BackendId cpuRefId(armnn::Compute::CpuRef); |
| const armnn::BackendId cpuAccId(armnn::Compute::CpuAcc); |
| |
| // Create BackendProfiling for each backend |
| BackendProfiling backendProfilingCpuRef(options, profilingService, cpuRefId); |
| BackendProfiling backendProfilingCpuAcc(options, profilingService, cpuAccId); |
| |
| uint16_t initialNumGlobalCounterIds = armnn::profiling::INFERENCES_RUN; |
| |
| // Create RegisterBackendCounters for CpuRef |
| RegisterBackendCounters registerBackendCountersCpuRef(initialNumGlobalCounterIds, cpuRefId, profilingService); |
| |
| // Create 'testCategory' in CounterDirectory (backend agnostic) |
| BOOST_CHECK(profilingService.GetCounterDirectory().GetCategories().empty()); |
| registerBackendCountersCpuRef.RegisterCategory("testCategory"); |
| auto categoryOnePtr = profilingService.GetCounterDirectory().GetCategory("testCategory"); |
| BOOST_CHECK(categoryOnePtr); |
| |
| // Counters: |
| // Global | Local | Backend |
| // 5 | 0 | CpuRef |
| // 6 | 1 | CpuRef |
| // 7 | 1 | CpuAcc |
| |
| std::vector<uint16_t> cpuRefCounters = {0, 1}; |
| std::vector<uint16_t> cpuAccCounters = {0}; |
| |
| // Register the backend counters for CpuRef and validate GetGlobalId and GetBackendId |
| uint16_t currentNumGlobalCounterIds = registerBackendCountersCpuRef.RegisterCounter( |
| 0, "testCategory", 0, 0, 1.f, "CpuRefCounter0", "Zeroth CpuRef Counter"); |
| BOOST_CHECK(currentNumGlobalCounterIds == initialNumGlobalCounterIds + 1); |
| uint16_t mappedGlobalId = profilingService.GetCounterMappings().GetGlobalId(0, cpuRefId); |
| BOOST_CHECK(mappedGlobalId == currentNumGlobalCounterIds); |
| auto backendMapping = profilingService.GetCounterMappings().GetBackendId(currentNumGlobalCounterIds); |
| BOOST_CHECK(backendMapping.first == 0); |
| BOOST_CHECK(backendMapping.second == cpuRefId); |
| |
| currentNumGlobalCounterIds = registerBackendCountersCpuRef.RegisterCounter( |
| 1, "testCategory", 0, 0, 1.f, "CpuRefCounter1", "First CpuRef Counter"); |
| BOOST_CHECK(currentNumGlobalCounterIds == initialNumGlobalCounterIds + 2); |
| mappedGlobalId = profilingService.GetCounterMappings().GetGlobalId(1, cpuRefId); |
| BOOST_CHECK(mappedGlobalId == currentNumGlobalCounterIds); |
| backendMapping = profilingService.GetCounterMappings().GetBackendId(currentNumGlobalCounterIds); |
| BOOST_CHECK(backendMapping.first == 1); |
| BOOST_CHECK(backendMapping.second == cpuRefId); |
| |
| // Create RegisterBackendCounters for CpuAcc |
| RegisterBackendCounters registerBackendCountersCpuAcc(currentNumGlobalCounterIds, cpuAccId, profilingService); |
| |
| // Register the backend counter for CpuAcc and validate GetGlobalId and GetBackendId |
| currentNumGlobalCounterIds = registerBackendCountersCpuAcc.RegisterCounter( |
| 0, "testCategory", 0, 0, 1.f, "CpuAccCounter0", "Zeroth CpuAcc Counter"); |
| BOOST_CHECK(currentNumGlobalCounterIds == initialNumGlobalCounterIds + 3); |
| mappedGlobalId = profilingService.GetCounterMappings().GetGlobalId(0, cpuAccId); |
| BOOST_CHECK(mappedGlobalId == currentNumGlobalCounterIds); |
| backendMapping = profilingService.GetCounterMappings().GetBackendId(currentNumGlobalCounterIds); |
| BOOST_CHECK(backendMapping.first == 0); |
| BOOST_CHECK(backendMapping.second == cpuAccId); |
| |
| // Create vectors for active counters |
| const std::vector<uint16_t> activeGlobalCounterIds = {5}; // CpuRef(0) activated |
| const std::vector<uint16_t> newActiveGlobalCounterIds = {6, 7}; // CpuRef(0) and CpuAcc(1) activated |
| |
| const uint32_t capturePeriod = 200; |
| const uint32_t newCapturePeriod = 100; |
| |
| // Set capture period and active counters in CaptureData |
| profilingService.SetCaptureData(capturePeriod, activeGlobalCounterIds, {}); |
| |
| // Get vector of active counters for CpuRef and CpuAcc backends |
| std::vector<CounterStatus> cpuRefCounterStatus = backendProfilingCpuRef.GetActiveCounters(); |
| std::vector<CounterStatus> cpuAccCounterStatus = backendProfilingCpuAcc.GetActiveCounters(); |
| BOOST_CHECK_EQUAL(cpuRefCounterStatus.size(), 1); |
| BOOST_CHECK_EQUAL(cpuAccCounterStatus.size(), 0); |
| |
| // Check active CpuRef counter |
| BOOST_CHECK_EQUAL(cpuRefCounterStatus[0].m_GlobalCounterId, activeGlobalCounterIds[0]); |
| BOOST_CHECK_EQUAL(cpuRefCounterStatus[0].m_BackendCounterId, cpuRefCounters[0]); |
| BOOST_CHECK_EQUAL(cpuRefCounterStatus[0].m_SamplingRateInMicroseconds, capturePeriod); |
| BOOST_CHECK_EQUAL(cpuRefCounterStatus[0].m_Enabled, true); |
| |
| // Check inactive CpuRef counter |
| CounterStatus inactiveCpuRefCounter = backendProfilingCpuRef.GetCounterStatus(cpuRefCounters[1]); |
| BOOST_CHECK_EQUAL(inactiveCpuRefCounter.m_GlobalCounterId, 6); |
| BOOST_CHECK_EQUAL(inactiveCpuRefCounter.m_BackendCounterId, cpuRefCounters[1]); |
| BOOST_CHECK_EQUAL(inactiveCpuRefCounter.m_SamplingRateInMicroseconds, 0); |
| BOOST_CHECK_EQUAL(inactiveCpuRefCounter.m_Enabled, false); |
| |
| // Check inactive CpuAcc counter |
| CounterStatus inactiveCpuAccCounter = backendProfilingCpuAcc.GetCounterStatus(cpuAccCounters[0]); |
| BOOST_CHECK_EQUAL(inactiveCpuAccCounter.m_GlobalCounterId, 7); |
| BOOST_CHECK_EQUAL(inactiveCpuAccCounter.m_BackendCounterId, cpuAccCounters[0]); |
| BOOST_CHECK_EQUAL(inactiveCpuAccCounter.m_SamplingRateInMicroseconds, 0); |
| BOOST_CHECK_EQUAL(inactiveCpuAccCounter.m_Enabled, false); |
| |
| // Set new capture period and new active counters in CaptureData |
| profilingService.SetCaptureData(newCapturePeriod, newActiveGlobalCounterIds, {}); |
| |
| // Get vector of active counters for CpuRef and CpuAcc backends |
| cpuRefCounterStatus = backendProfilingCpuRef.GetActiveCounters(); |
| cpuAccCounterStatus = backendProfilingCpuAcc.GetActiveCounters(); |
| BOOST_CHECK_EQUAL(cpuRefCounterStatus.size(), 1); |
| BOOST_CHECK_EQUAL(cpuAccCounterStatus.size(), 1); |
| |
| // Check active CpuRef counter |
| BOOST_CHECK_EQUAL(cpuRefCounterStatus[0].m_GlobalCounterId, newActiveGlobalCounterIds[0]); |
| BOOST_CHECK_EQUAL(cpuRefCounterStatus[0].m_BackendCounterId, cpuRefCounters[1]); |
| BOOST_CHECK_EQUAL(cpuRefCounterStatus[0].m_SamplingRateInMicroseconds, newCapturePeriod); |
| BOOST_CHECK_EQUAL(cpuRefCounterStatus[0].m_Enabled, true); |
| |
| // Check active CpuAcc counter |
| BOOST_CHECK_EQUAL(cpuAccCounterStatus[0].m_GlobalCounterId, newActiveGlobalCounterIds[1]); |
| BOOST_CHECK_EQUAL(cpuAccCounterStatus[0].m_BackendCounterId, cpuAccCounters[0]); |
| BOOST_CHECK_EQUAL(cpuAccCounterStatus[0].m_SamplingRateInMicroseconds, newCapturePeriod); |
| BOOST_CHECK_EQUAL(cpuAccCounterStatus[0].m_Enabled, true); |
| |
| // Check inactive CpuRef counter |
| inactiveCpuRefCounter = backendProfilingCpuRef.GetCounterStatus(cpuRefCounters[0]); |
| BOOST_CHECK_EQUAL(inactiveCpuRefCounter.m_GlobalCounterId, 5); |
| BOOST_CHECK_EQUAL(inactiveCpuRefCounter.m_BackendCounterId, cpuRefCounters[0]); |
| BOOST_CHECK_EQUAL(inactiveCpuRefCounter.m_SamplingRateInMicroseconds, 0); |
| BOOST_CHECK_EQUAL(inactiveCpuRefCounter.m_Enabled, false); |
| |
| // Reset the profiling service to stop any running thread |
| options.m_ProfilingOptions.m_EnableProfiling = false; |
| profilingService.ResetExternalProfilingOptions(options.m_ProfilingOptions, true); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckRegisterCounters) |
| { |
| armnn::Runtime::CreationOptions options; |
| options.m_ProfilingOptions.m_EnableProfiling = true; |
| MockBufferManager mockBuffer(1024); |
| |
| CaptureData captureData; |
| MockProfilingService mockProfilingService(mockBuffer, options.m_ProfilingOptions.m_EnableProfiling, captureData); |
| armnn::BackendId cpuRefId(armnn::Compute::CpuRef); |
| |
| mockProfilingService.RegisterMapping(6, 0, cpuRefId); |
| mockProfilingService.RegisterMapping(7, 1, cpuRefId); |
| mockProfilingService.RegisterMapping(8, 2, cpuRefId); |
| |
| armnn::profiling::BackendProfiling backendProfiling(options, |
| mockProfilingService, |
| cpuRefId); |
| |
| armnn::profiling::Timestamp timestamp; |
| timestamp.timestamp = 1000998; |
| timestamp.counterValues.emplace_back(0, 700); |
| timestamp.counterValues.emplace_back(2, 93); |
| std::vector<armnn::profiling::Timestamp> timestamps; |
| timestamps.push_back(timestamp); |
| backendProfiling.ReportCounters(timestamps); |
| |
| auto readBuffer = mockBuffer.GetReadableBuffer(); |
| |
| uint32_t headerWord0 = ReadUint32(readBuffer, 0); |
| uint32_t headerWord1 = ReadUint32(readBuffer, 4); |
| uint64_t readTimestamp = ReadUint64(readBuffer, 8); |
| |
| BOOST_TEST(((headerWord0 >> 26) & 0x0000003F) == 3); // packet family |
| BOOST_TEST(((headerWord0 >> 19) & 0x0000007F) == 0); // packet class |
| BOOST_TEST(((headerWord0 >> 16) & 0x00000007) == 0); // packet type |
| BOOST_TEST(headerWord1 == 20); // data length |
| BOOST_TEST(1000998 == readTimestamp); // capture period |
| |
| uint32_t offset = 16; |
| // Check Counter Index |
| uint16_t readIndex = ReadUint16(readBuffer, offset); |
| BOOST_TEST(6 == readIndex); |
| |
| // Check Counter Value |
| offset += 2; |
| uint32_t readValue = ReadUint32(readBuffer, offset); |
| BOOST_TEST(700 == readValue); |
| |
| // Check Counter Index |
| offset += 4; |
| readIndex = ReadUint16(readBuffer, offset); |
| BOOST_TEST(8 == readIndex); |
| |
| // Check Counter Value |
| offset += 2; |
| readValue = ReadUint32(readBuffer, offset); |
| BOOST_TEST(93 == readValue); |
| } |
| |
| BOOST_AUTO_TEST_CASE(CheckFileFormat) { |
| // Locally reduce log level to "Warning", as this test needs to parse a warning message from the standard output |
| LogLevelSwapper logLevelSwapper(armnn::LogSeverity::Warning); |
| |
| // Create profiling options. |
| armnn::Runtime::CreationOptions::ExternalProfilingOptions options; |
| options.m_EnableProfiling = true; |
| // Check the default value set to binary |
| BOOST_CHECK(options.m_FileFormat == "binary"); |
| |
| // Change file format to an unsupported value |
| options.m_FileFormat = "json"; |
| // Enable the profiling service |
| armnn::profiling::ProfilingService profilingService; |
| profilingService.ResetExternalProfilingOptions(options, true); |
| // Start the command handler and the send thread |
| profilingService.Update(); |
| BOOST_CHECK(profilingService.GetCurrentState()==ProfilingState::NotConnected); |
| |
| // Redirect the output to a local stream so that we can parse the warning message |
| std::stringstream ss; |
| StreamRedirector streamRedirector(std::cout, ss.rdbuf()); |
| |
| // When Update is called and the current state is ProfilingState::NotConnected |
| // an exception will be raised from GetProfilingConnection and displayed as warning in the output local stream |
| profilingService.Update(); |
| |
| streamRedirector.CancelRedirect(); |
| |
| // Check that the expected error has occurred and logged to the standard output |
| if (ss.str().find("Unsupported profiling file format, only binary is supported") == std::string::npos) |
| { |
| std::cout << ss.str(); |
| BOOST_FAIL("Expected string not found."); |
| } |
| } |
| |
| BOOST_AUTO_TEST_SUITE_END() |