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android / platform / external / armnn / 42f9d9e8 / . / src / profiling / test / ProfilingTests.cpp
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//
// Copyright © 2017 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include "SendCounterPacketTests.hpp"
#include <CommandHandlerKey.hpp>
#include <CommandHandlerFunctor.hpp>
#include <CommandHandlerRegistry.hpp>
#include <CounterDirectory.hpp>
#include <EncodeVersion.hpp>
#include <Holder.hpp>
#include <Packet.hpp>
#include <PacketVersionResolver.hpp>
#include <PeriodicCounterSelectionCommandHandler.hpp>
#include <ProfilingStateMachine.hpp>
#include <ProfilingService.hpp>
#include <ProfilingUtils.hpp>
#include <Runtime.hpp>
#include <SocketProfilingConnection.hpp>
#include <armnn/Conversion.hpp>
#include <boost/test/unit_test.hpp>
#include <boost/numeric/conversion/cast.hpp>
#include <cstdint>
#include <cstring>
#include <limits>
#include <map>
#include <random>
#include <thread>
BOOST_AUTO_TEST_SUITE(ExternalProfiling)
using namespace armnn::profiling;
BOOST_AUTO_TEST_CASE(CheckCommandHandlerKeyComparisons)
{
CommandHandlerKey testKey0(1, 1);
CommandHandlerKey testKey1(1, 1);
CommandHandlerKey testKey2(1, 1);
CommandHandlerKey testKey3(0, 0);
CommandHandlerKey testKey4(2, 2);
CommandHandlerKey testKey5(0, 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<CommandHandlerKey> vect =
{
CommandHandlerKey(0,1), CommandHandlerKey(2,0), CommandHandlerKey(1,0),
CommandHandlerKey(2,1), CommandHandlerKey(1,1), CommandHandlerKey(0,1),
CommandHandlerKey(2,0), CommandHandlerKey(0,0)
};
std::sort(vect.begin(), vect.end());
std::vector<CommandHandlerKey> expectedVect =
{
CommandHandlerKey(0,0), CommandHandlerKey(0,1), CommandHandlerKey(0,1),
CommandHandlerKey(1,0), CommandHandlerKey(1,1), CommandHandlerKey(2,0),
CommandHandlerKey(2,0), CommandHandlerKey(2,1)
};
BOOST_CHECK(vect == expectedVect);
}
BOOST_AUTO_TEST_CASE(CheckEncodeVersion)
{
Version version1(12);
BOOST_CHECK(version1.GetMajor() == 0);
BOOST_CHECK(version1.GetMinor() == 0);
BOOST_CHECK(version1.GetPatch() == 12);
Version version2(4108);
BOOST_CHECK(version2.GetMajor() == 0);
BOOST_CHECK(version2.GetMinor() == 1);
BOOST_CHECK(version2.GetPatch() == 12);
Version version3(4198412);
BOOST_CHECK(version3.GetMajor() == 1);
BOOST_CHECK(version3.GetMinor() == 1);
BOOST_CHECK(version3.GetPatch() == 12);
Version version4(0);
BOOST_CHECK(version4.GetMajor() == 0);
BOOST_CHECK(version4.GetMinor() == 0);
BOOST_CHECK(version4.GetPatch() == 0);
Version version5(1, 0, 0);
BOOST_CHECK(version5.GetEncodedValue() == 4194304);
}
BOOST_AUTO_TEST_CASE(CheckPacketClass)
{
uint32_t length = 4;
std::unique_ptr<char[]> packetData0 = std::make_unique<char[]>(length);
std::unique_ptr<char[]> packetData1 = std::make_unique<char[]>(0);
std::unique_ptr<char[]> nullPacketData;
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(Packet packetTest1(472580096, 0, packetData1), armnn::Exception);
BOOST_CHECK_NO_THROW(Packet packetTest2(472580096, 0, nullPacketData));
Packet packetTest3(472580096, 0, nullPacketData);
BOOST_CHECK(packetTest3.GetLength() == 0);
BOOST_CHECK(packetTest3.GetData() == nullptr);
const char* packetTest0Data = packetTest0.GetData();
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);
}
// Create Derived Classes
class TestFunctorA : public CommandHandlerFunctor
{
public:
using CommandHandlerFunctor::CommandHandlerFunctor;
int GetCount() { return m_Count; }
void operator()(const Packet& packet) override
{
m_Count++;
}
private:
int m_Count = 0;
};
class TestFunctorB : public TestFunctorA
{
using TestFunctorA::TestFunctorA;
};
class TestFunctorC : public TestFunctorA
{
using TestFunctorA::TestFunctorA;
};
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(461, version);
TestFunctorB testFunctorB(963, version);
TestFunctorC testFunctorC(983, version);
CommandHandlerKey keyA(testFunctorA.GetPacketId(), testFunctorA.GetVersion());
CommandHandlerKey keyB(testFunctorB.GetPacketId(), testFunctorB.GetVersion());
CommandHandlerKey keyC(testFunctorC.GetPacketId(), testFunctorC.GetVersion());
// Create the unwrapped map to simulate the Command Handler Registry
std::map<CommandHandlerKey, 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==keyA);
it++;
BOOST_CHECK(it->first==keyB);
it++;
BOOST_CHECK(it->first==keyC);
std::unique_ptr<char[]> packetDataA;
std::unique_ptr<char[]> packetDataB;
std::unique_ptr<char[]> packetDataC;
Packet packetA(500000000, 0, packetDataA);
Packet packetB(600000000, 0, packetDataB);
Packet packetC(400000000, 0, packetDataC);
// Check the correct operator of derived class is called
registry.at(CommandHandlerKey(packetA.GetPacketId(), version))->operator()(packetA);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 0);
BOOST_CHECK(testFunctorC.GetCount() == 0);
registry.at(CommandHandlerKey(packetB.GetPacketId(), version))->operator()(packetB);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 1);
BOOST_CHECK(testFunctorC.GetCount() == 0);
registry.at(CommandHandlerKey(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(461, version);
TestFunctorB testFunctorB(963, version);
TestFunctorC testFunctorC(983, version);
// Create the Command Handler Registry
CommandHandlerRegistry registry;
// Register multiple different derived classes
registry.RegisterFunctor(&testFunctorA, testFunctorA.GetPacketId(), testFunctorA.GetVersion());
registry.RegisterFunctor(&testFunctorB, testFunctorB.GetPacketId(), testFunctorB.GetVersion());
registry.RegisterFunctor(&testFunctorC, testFunctorC.GetPacketId(), testFunctorC.GetVersion());
std::unique_ptr<char[]> packetDataA;
std::unique_ptr<char[]> packetDataB;
std::unique_ptr<char[]> packetDataC;
Packet packetA(500000000, 0, packetDataA);
Packet packetB(600000000, 0, packetDataB);
Packet packetC(400000000, 0, packetDataC);
// Check the correct operator of derived class is called
registry.GetFunctor(packetA.GetPacketId(), version)->operator()(packetA);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 0);
BOOST_CHECK(testFunctorC.GetCount() == 0);
registry.GetFunctor(packetB.GetPacketId(), version)->operator()(packetB);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 1);
BOOST_CHECK(testFunctorC.GetCount() == 0);
registry.GetFunctor(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.GetPacketId(), version);
registry.GetFunctor(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), armnn::Exception);
}
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 Version expectedVersion(1, 0, 0);
PacketVersionResolver packetVersionResolver;
constexpr unsigned int numTests = 10u;
for (unsigned int i = 0u; i < numTests; ++i)
{
const uint32_t packetId = distribution(generator);
Version resolvedVersion = packetVersionResolver.ResolvePacketVersion(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);
BOOST_CHECK_THROW(profilingState14.TransitionToState(ProfilingState::NotConnected),
armnn::Exception);
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;
ProfilingService service(options);
BOOST_CHECK(service.GetCurrentState() == ProfilingState::Uninitialised);
service.Run();
BOOST_CHECK(service.GetCurrentState() == ProfilingState::Uninitialised);
}
BOOST_AUTO_TEST_CASE(CheckProfilingServiceEnabled)
{
armnn::Runtime::CreationOptions::ExternalProfilingOptions options;
options.m_EnableProfiling = true;
ProfilingService service(options);
BOOST_CHECK(service.GetCurrentState() == ProfilingState::NotConnected);
service.Run();
BOOST_CHECK(service.GetCurrentState() == ProfilingState::WaitingForAck);
}
BOOST_AUTO_TEST_CASE(CheckProfilingServiceEnabledRuntime)
{
armnn::Runtime::CreationOptions::ExternalProfilingOptions options;
ProfilingService service(options);
BOOST_CHECK(service.GetCurrentState() == ProfilingState::Uninitialised);
service.Run();
BOOST_CHECK(service.GetCurrentState() == ProfilingState::Uninitialised);
service.m_Options.m_EnableProfiling = true;
service.Run();
BOOST_CHECK(service.GetCurrentState() == ProfilingState::NotConnected);
service.Run();
BOOST_CHECK(service.GetCurrentState() == ProfilingState::WaitingForAck);
}
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(0));
BOOST_CHECK(counterUids.size() == 1);
BOOST_CHECK(counterUids[0] >= 0);
std::vector<uint16_t> nextCounterUids;
BOOST_CHECK_NO_THROW(nextCounterUids = GetNextCounterUids(1));
BOOST_CHECK(nextCounterUids.size() == 1);
BOOST_CHECK(nextCounterUids[0] > counterUids[0]);
std::vector<uint16_t> counterUidsMultiCore;
uint16_t numberOfCores = 13;
BOOST_CHECK_NO_THROW(counterUidsMultiCore = GetNextCounterUids(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());
BOOST_CHECK(category->m_DeviceUid == 0);
BOOST_CHECK(category->m_CounterSetUid == 0);
// 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, 0));
BOOST_CHECK(counterDirectory.GetCategoryCount() == 2);
BOOST_CHECK(categoryWoDevice);
BOOST_CHECK(categoryWoDevice->m_Name == categoryWoDeviceName);
BOOST_CHECK(categoryWoDevice->m_Counters.empty());
BOOST_CHECK(categoryWoDevice->m_DeviceUid == 0);
BOOST_CHECK(categoryWoDevice->m_CounterSetUid == 0);
// Register a new category associated to an invalid device
const std::string categoryWInvalidDeviceName = "some_category_with_invalid_device";
ARMNN_NO_CONVERSION_WARN_BEGIN
uint16_t invalidDeviceUid = device->m_Uid + 10;
ARMNN_NO_CONVERSION_WARN_END
const Category* categoryWInvalidDevice = nullptr;
BOOST_CHECK_THROW(categoryWInvalidDevice
= counterDirectory.RegisterCategory(categoryWInvalidDeviceName,
invalidDeviceUid),
armnn::InvalidArgumentException);
BOOST_CHECK(counterDirectory.GetCategoryCount() == 2);
BOOST_CHECK(!categoryWInvalidDevice);
// 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,
device->m_Uid));
BOOST_CHECK(counterDirectory.GetCategoryCount() == 3);
BOOST_CHECK(categoryWValidDevice);
BOOST_CHECK(categoryWValidDevice != category);
BOOST_CHECK(categoryWValidDevice->m_Name == categoryWValidDeviceName);
BOOST_CHECK(categoryWValidDevice->m_DeviceUid == device->m_Uid);
BOOST_CHECK(categoryWValidDevice->m_CounterSetUid == 0);
// 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,
armnn::EmptyOptional(),
0));
BOOST_CHECK(counterDirectory.GetCategoryCount() == 4);
BOOST_CHECK(categoryWoCounterSet);
BOOST_CHECK(categoryWoCounterSet->m_Name == categoryWoCounterSetName);
BOOST_CHECK(categoryWoCounterSet->m_DeviceUid == 0);
BOOST_CHECK(categoryWoCounterSet->m_CounterSetUid == 0);
// Register a new category associated to an invalid counter set
const std::string categoryWInvalidCounterSetName = "some_category_with_invalid_counter_set";
ARMNN_NO_CONVERSION_WARN_BEGIN
uint16_t invalidCunterSetUid = counterSet->m_Uid + 10;
ARMNN_NO_CONVERSION_WARN_END
const Category* categoryWInvalidCounterSet = nullptr;
BOOST_CHECK_THROW(categoryWInvalidCounterSet
= counterDirectory.RegisterCategory(categoryWInvalidCounterSetName,
armnn::EmptyOptional(),
invalidCunterSetUid),
armnn::InvalidArgumentException);
BOOST_CHECK(counterDirectory.GetCategoryCount() == 4);
BOOST_CHECK(!categoryWInvalidCounterSet);
// 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,
armnn::EmptyOptional(),
counterSet->m_Uid));
BOOST_CHECK(counterDirectory.GetCategoryCount() == 5);
BOOST_CHECK(categoryWValidCounterSet);
BOOST_CHECK(categoryWValidCounterSet != category);
BOOST_CHECK(categoryWValidCounterSet->m_Name == categoryWValidCounterSetName);
BOOST_CHECK(categoryWValidCounterSet->m_DeviceUid == 0);
BOOST_CHECK(categoryWValidCounterSet->m_CounterSetUid == counterSet->m_Uid);
// 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,
device->m_Uid,
counterSet->m_Uid));
BOOST_CHECK(counterDirectory.GetCategoryCount() == 6);
BOOST_CHECK(categoryWValidDeviceAndValidCounterSet);
BOOST_CHECK(categoryWValidDeviceAndValidCounterSet != category);
BOOST_CHECK(categoryWValidDeviceAndValidCounterSet->m_Name == categoryWValidDeviceAndValidCounterSetName);
BOOST_CHECK(categoryWValidDeviceAndValidCounterSet->m_DeviceUid == device->m_Uid);
BOOST_CHECK(categoryWValidDeviceAndValidCounterSet->m_CounterSetUid == counterSet->m_Uid);
}
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());
BOOST_CHECK(category->m_DeviceUid == 0);
BOOST_CHECK(category->m_CounterSetUid == 0);
// 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_CHECK(category->m_DeviceUid == deviceWCoresWValidParentCategory->m_Uid);
// Register a device associated to a category already associated to a different device
const std::string deviceSameCategoryName = "some_device_with_invalid_parent_category";
const Device* deviceSameCategory = nullptr;
BOOST_CHECK_THROW(deviceSameCategory = counterDirectory.RegisterDevice(deviceSameCategoryName, 0, categoryName),
armnn::InvalidArgumentException);
BOOST_CHECK(counterDirectory.GetDeviceCount() == 3);
BOOST_CHECK(!deviceSameCategory);
}
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());
BOOST_CHECK(category->m_DeviceUid == 0);
BOOST_CHECK(category->m_CounterSetUid == 0);
// 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);
BOOST_CHECK(category->m_CounterSetUid == counterSetWCountWValidParentCategory->m_Uid);
// Register a counter set associated to a category already associated to a different counter set
const std::string counterSetSameCategoryName = "some_counter_set_with_invalid_parent_category";
const CounterSet* counterSetSameCategory = nullptr;
BOOST_CHECK_THROW(counterSetSameCategory = counterDirectory.RegisterCounterSet(counterSetSameCategoryName,
0,
categoryName),
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("",
0,
1,
123.45f,
"valid name",
"valid description"),
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("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("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("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("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("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("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("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("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("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("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());
BOOST_CHECK(category->m_DeviceUid == 0);
BOOST_CHECK(category->m_CounterSetUid == 0);
// Register a counter with a valid parent category name
const Counter* counter = nullptr;
BOOST_CHECK_NO_THROW(counter = counterDirectory.RegisterCounter(categoryName,
0,
1,
123.45f,
"valid name",
"valid description"));
BOOST_CHECK(counterDirectory.GetCounterCount() == 1);
BOOST_CHECK(counter);
BOOST_CHECK(counter->m_Uid >= 0);
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(categoryName,
0,
0,
1.0f,
"valid name",
"valid 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(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 >= 0);
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(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 >= 0);
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(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(categoryName,
0,
1,
123.45f,
"valid name 5",
"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 >= 0);
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(categoryName,
0,
1,
123.45f,
"valid name 6",
"valid description",
armnn::EmptyOptional(), // Units
armnn::EmptyOptional(), // Number of cores
armnn::EmptyOptional(), // Device UID
0)); // Counter set UID
BOOST_CHECK(counterDirectory.GetCounterCount() == 5);
BOOST_CHECK(counterWoCounterSet);
BOOST_CHECK(counterWoCounterSet->m_Uid >= 0);
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(categoryName,
0,
1,
123.45f,
"valid name 7",
"valid description",
armnn::EmptyOptional(), // Units
armnn::EmptyOptional(), // Number of cores
armnn::EmptyOptional(), // Device UID
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(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 >= 0);
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(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 >= 0);
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;
BOOST_CHECK_NO_THROW(counterWMultiCoreDeviceWParentCategory
= counterDirectory.RegisterCounter(categoryName,
0,
1,
123.45f,
"valid name 10",
"valid description",
armnn::EmptyOptional(), // Units
armnn::EmptyOptional(), // 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 >= 0);
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(counterWMultiCoreDeviceWParentCategory->m_DeviceUid == 0);
BOOST_CHECK(counterWMultiCoreDeviceWParentCategory->m_CounterSetUid == 0);
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(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 >= 0);
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(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 >= 0);
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());
BOOST_CHECK(anotherCategory->m_DeviceUid == 0);
BOOST_CHECK(anotherCategory->m_CounterSetUid == 0);
// Register a counter to the other category
const Counter* anotherCounter = nullptr;
BOOST_CHECK_NO_THROW(anotherCounter = counterDirectory.RegisterCounter(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_Uid >= 0);
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)
{
using boost::numeric_cast;
class TestCaptureThread : public IPeriodicCounterCapture
{
void Start() override {};
};
const uint32_t packetId = 0x40000;
uint32_t version = 1;
Holder holder;
TestCaptureThread captureThread;
MockBuffer mockBuffer(512);
SendCounterPacket sendCounterPacket(mockBuffer);
uint32_t sizeOfUint32 = numeric_cast<uint32_t>(sizeof(uint32_t));
uint32_t sizeOfUint16 = 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<char[]> uniqueData1 = std::make_unique<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);
Packet packetA(packetId, dataLength1, uniqueData1);
PeriodicCounterSelectionCommandHandler commandHandler(packetId, version, holder, captureThread,
sendCounterPacket);
commandHandler(packetA);
std::vector<uint16_t> counterIds = holder.GetCaptureData().GetCounterIds();
BOOST_TEST(holder.GetCaptureData().GetCapturePeriod() == period1);
BOOST_TEST(counterIds.size() == 2);
BOOST_TEST(counterIds[0] == 4000);
BOOST_TEST(counterIds[1] == 5000);
unsigned int size = 0;
const unsigned char* readBuffer = mockBuffer.GetReadBuffer(size);
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 lenght
BOOST_TEST(period == 10); // 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);
// Data with period only
uint32_t period2 = 11;
uint32_t dataLength2 = 4;
std::unique_ptr<char[]> uniqueData2 = std::make_unique<char[]>(dataLength2);
WriteUint32(reinterpret_cast<unsigned char*>(uniqueData2.get()), 0, period2);
Packet packetB(packetId, dataLength2, uniqueData2);
commandHandler(packetB);
counterIds = holder.GetCaptureData().GetCounterIds();
BOOST_TEST(holder.GetCaptureData().GetCapturePeriod() == period2);
BOOST_TEST(counterIds.size() == 0);
readBuffer = mockBuffer.GetReadBuffer(size);
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 lenght
BOOST_TEST(period == 11); // capture period
}
BOOST_AUTO_TEST_CASE(CheckSocketProfilingConnection)
{
// Check that creating a SocketProfilingConnection results in an exception as the Gator UDS doesn't exist.
BOOST_CHECK_THROW(new SocketProfilingConnection(), armnn::Exception);
}
BOOST_AUTO_TEST_CASE(SwTraceIsValidCharTest)
{
// Only ASCII 7-bit encoding supported
for (unsigned char c = 0; c < 128; c++)
{
BOOST_CHECK(SwTraceCharPolicy::IsValidChar(c));
}
// Not ASCII
for (unsigned char c = 255; c >= 128; c++)
{
BOOST_CHECK(!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(SwTraceNameCharPolicy::IsValidChar(validChars[i]));
}
// Non alpha-numeric chars
for (unsigned char c = 0; c < 48; c++)
{
BOOST_CHECK(!SwTraceNameCharPolicy::IsValidChar(c));
}
for (unsigned char c = 58; c < 65; c++)
{
BOOST_CHECK(!SwTraceNameCharPolicy::IsValidChar(c));
}
for (unsigned char c = 91; c < 95; c++)
{
BOOST_CHECK(!SwTraceNameCharPolicy::IsValidChar(c));
}
for (unsigned char c = 96; c < 97; c++)
{
BOOST_CHECK(!SwTraceNameCharPolicy::IsValidChar(c));
}
for (unsigned char c = 123; c < 128; c++)
{
BOOST_CHECK(!SwTraceNameCharPolicy::IsValidChar(c));
}
// Not ASCII
for (unsigned char c = 255; c >= 128; c++)
{
BOOST_CHECK(!SwTraceNameCharPolicy::IsValidChar(c));
}
}
BOOST_AUTO_TEST_CASE(IsValidSwTraceStringTest)
{
// Valid SWTrace strings
BOOST_CHECK(IsValidSwTraceString<SwTraceCharPolicy>(""));
BOOST_CHECK(IsValidSwTraceString<SwTraceCharPolicy>("_"));
BOOST_CHECK(IsValidSwTraceString<SwTraceCharPolicy>("0123"));
BOOST_CHECK(IsValidSwTraceString<SwTraceCharPolicy>("valid_string"));
BOOST_CHECK(IsValidSwTraceString<SwTraceCharPolicy>("VALID_string_456"));
BOOST_CHECK(IsValidSwTraceString<SwTraceCharPolicy>(" "));
BOOST_CHECK(IsValidSwTraceString<SwTraceCharPolicy>("valid string"));
BOOST_CHECK(IsValidSwTraceString<SwTraceCharPolicy>("!$%"));
BOOST_CHECK(IsValidSwTraceString<SwTraceCharPolicy>("valid|\\~string#123"));
// Invalid SWTrace strings
BOOST_CHECK(!IsValidSwTraceString<SwTraceCharPolicy>("€£"));
BOOST_CHECK(!IsValidSwTraceString<SwTraceCharPolicy>("invalid‡string"));
BOOST_CHECK(!IsValidSwTraceString<SwTraceCharPolicy>("12Ž34"));
}
BOOST_AUTO_TEST_CASE(IsValidSwTraceNameStringTest)
{
// Valid SWTrace name strings
BOOST_CHECK(IsValidSwTraceString<SwTraceNameCharPolicy>(""));
BOOST_CHECK(IsValidSwTraceString<SwTraceNameCharPolicy>("_"));
BOOST_CHECK(IsValidSwTraceString<SwTraceNameCharPolicy>("0123"));
BOOST_CHECK(IsValidSwTraceString<SwTraceNameCharPolicy>("valid_string"));
BOOST_CHECK(IsValidSwTraceString<SwTraceNameCharPolicy>("VALID_string_456"));
// Invalid SWTrace name strings
BOOST_CHECK(!IsValidSwTraceString<SwTraceNameCharPolicy>(" "));
BOOST_CHECK(!IsValidSwTraceString<SwTraceNameCharPolicy>("invalid string"));
BOOST_CHECK(!IsValidSwTraceString<SwTraceNameCharPolicy>("!$%"));
BOOST_CHECK(!IsValidSwTraceString<SwTraceNameCharPolicy>("invalid|\\~string#123"));
BOOST_CHECK(!IsValidSwTraceString<SwTraceNameCharPolicy>("€£"));
BOOST_CHECK(!IsValidSwTraceString<SwTraceNameCharPolicy>("invalid‡string"));
BOOST_CHECK(!IsValidSwTraceString<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(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<SwTraceCharPolicy>("", buffer, 2);
StringToSwTraceStringTestHelper<SwTraceCharPolicy>("_", buffer, 2);
StringToSwTraceStringTestHelper<SwTraceCharPolicy>("0123", buffer, 3);
StringToSwTraceStringTestHelper<SwTraceCharPolicy>("valid_string", buffer, 5);
StringToSwTraceStringTestHelper<SwTraceCharPolicy>("VALID_string_456", buffer, 6);
StringToSwTraceStringTestHelper<SwTraceCharPolicy>(" ", buffer, 2);
StringToSwTraceStringTestHelper<SwTraceCharPolicy>("valid string", buffer, 5);
StringToSwTraceStringTestHelper<SwTraceCharPolicy>("!$%", buffer, 2);
StringToSwTraceStringTestHelper<SwTraceCharPolicy>("valid|\\~string#123", buffer, 6);
// Invalid SWTrace strings
BOOST_CHECK(!StringToSwTraceString<SwTraceCharPolicy>("€£", buffer));
BOOST_CHECK(buffer.empty());
BOOST_CHECK(!StringToSwTraceString<SwTraceCharPolicy>("invalid‡string", buffer));
BOOST_CHECK(buffer.empty());
BOOST_CHECK(!StringToSwTraceString<SwTraceCharPolicy>("12Ž34", buffer));
BOOST_CHECK(buffer.empty());
}
BOOST_AUTO_TEST_CASE(StringToSwTraceNameStringTest)
{
std::vector<uint32_t> buffer;
// Valid SWTrace namestrings (expected size in words)
StringToSwTraceStringTestHelper<SwTraceNameCharPolicy>("", buffer, 2);
StringToSwTraceStringTestHelper<SwTraceNameCharPolicy>("_", buffer, 2);
StringToSwTraceStringTestHelper<SwTraceNameCharPolicy>("0123", buffer, 3);
StringToSwTraceStringTestHelper<SwTraceNameCharPolicy>("valid_string", buffer, 5);
StringToSwTraceStringTestHelper<SwTraceNameCharPolicy>("VALID_string_456", buffer, 6);
// Invalid SWTrace namestrings
BOOST_CHECK(!StringToSwTraceString<SwTraceNameCharPolicy>(" ", buffer));
BOOST_CHECK(buffer.empty());
BOOST_CHECK(!StringToSwTraceString<SwTraceNameCharPolicy>("invalid string", buffer));
BOOST_CHECK(buffer.empty());
BOOST_CHECK(!StringToSwTraceString<SwTraceNameCharPolicy>("!$%", buffer));
BOOST_CHECK(buffer.empty());
BOOST_CHECK(!StringToSwTraceString<SwTraceNameCharPolicy>("invalid|\\~string#123", buffer));
BOOST_CHECK(buffer.empty());
BOOST_CHECK(!StringToSwTraceString<SwTraceNameCharPolicy>("€£", buffer));
BOOST_CHECK(buffer.empty());
BOOST_CHECK(!StringToSwTraceString<SwTraceNameCharPolicy>("invalid‡string", buffer));
BOOST_CHECK(buffer.empty());
BOOST_CHECK(!StringToSwTraceString<SwTraceNameCharPolicy>("12Ž34", buffer));
BOOST_CHECK(buffer.empty());
}
BOOST_AUTO_TEST_SUITE_END()