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/*
*
* Copyright (c) 2021 Project CHIP Authors
* All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <access/SubjectDescriptor.h>
#include <app/EventLoggingDelegate.h>
#include <app/EventLoggingTypes.h>
#include <app/EventManagement.h>
#include <app/InteractionModelEngine.h>
#include <app/tests/AppTestContext.h>
#include <lib/core/CHIPCore.h>
#include <lib/core/ErrorStr.h>
#include <lib/core/TLV.h>
#include <lib/core/TLVDebug.h>
#include <lib/core/TLVUtilities.h>
#include <lib/support/CHIPCounter.h>
#include <lib/support/CodeUtils.h>
#include <lib/support/EnforceFormat.h>
#include <lib/support/LinkedList.h>
#include <lib/support/logging/Constants.h>
#include <messaging/ExchangeContext.h>
#include <messaging/Flags.h>
#include <platform/CHIPDeviceLayer.h>
#include <system/TLVPacketBufferBackingStore.h>
#include <lib/core/StringBuilderAdapters.h>
#include <pw_unit_test/framework.h>
namespace {
static const chip::ClusterId kLivenessClusterId = 0x00000022;
static const uint32_t kLivenessChangeEvent = 1;
static const chip::EndpointId kTestEndpointId1 = 2;
static const chip::EndpointId kTestEndpointId2 = 3;
static const chip::TLV::Tag kLivenessDeviceStatus = chip::TLV::ContextTag(1);
static uint8_t gDebugEventBuffer[120];
static uint8_t gInfoEventBuffer[120];
static uint8_t gCritEventBuffer[120];
static chip::app::CircularEventBuffer gCircularEventBuffer[3];
class TestEventLogging : public chip::Test::AppContext
{
public:
// Performs setup for each individual test in the test suite
void SetUp() override
{
const chip::app::LogStorageResources logStorageResources[] = {
{ &gDebugEventBuffer[0], sizeof(gDebugEventBuffer), chip::app::PriorityLevel::Debug },
{ &gInfoEventBuffer[0], sizeof(gInfoEventBuffer), chip::app::PriorityLevel::Info },
{ &gCritEventBuffer[0], sizeof(gCritEventBuffer), chip::app::PriorityLevel::Critical },
};
AppContext::SetUp();
ASSERT_EQ(mEventCounter.Init(0), CHIP_NO_ERROR);
chip::app::EventManagement::CreateEventManagement(&GetExchangeManager(), ArraySize(logStorageResources),
gCircularEventBuffer, logStorageResources, &mEventCounter);
}
// Performs teardown for each individual test in the test suite
void TearDown() override
{
chip::app::EventManagement::DestroyEventManagement();
AppContext::TearDown();
}
private:
chip::MonotonicallyIncreasingCounter<chip::EventNumber> mEventCounter;
};
void ENFORCE_FORMAT(1, 2) SimpleDumpWriter(const char * aFormat, ...)
{
va_list args;
va_start(args, aFormat);
vprintf(aFormat, args);
va_end(args);
}
void PrintEventLog()
{
chip::TLV::TLVReader reader;
chip::app::CircularEventBufferWrapper bufWrapper;
chip::app::EventManagement::GetInstance().GetEventReader(reader, chip::app::PriorityLevel::Critical, &bufWrapper);
chip::TLV::Debug::Dump(reader, SimpleDumpWriter);
}
static void CheckLogState(chip::app::EventManagement & aLogMgmt, size_t expectedNumEvents, chip::app::PriorityLevel aPriority)
{
chip::TLV::TLVReader reader;
size_t elementCount;
chip::app::CircularEventBufferWrapper bufWrapper;
EXPECT_EQ(aLogMgmt.GetEventReader(reader, aPriority, &bufWrapper), CHIP_NO_ERROR);
EXPECT_EQ(chip::TLV::Utilities::Count(reader, elementCount, false), CHIP_NO_ERROR);
EXPECT_EQ(elementCount, expectedNumEvents);
printf("elementCount vs expectedNumEvents : %u vs %u \n", static_cast<unsigned int>(elementCount),
static_cast<unsigned int>(expectedNumEvents));
}
static void CheckLogReadOut(chip::app::EventManagement & alogMgmt, chip::EventNumber startingEventNumber, size_t expectedNumEvents,
chip::SingleLinkedListNode<chip::app::EventPathParams> * clusterInfo)
{
CHIP_ERROR err;
chip::TLV::TLVReader reader;
chip::TLV::TLVWriter writer;
size_t eventCount = 0;
chip::Platform::ScopedMemoryBuffer<uint8_t> backingStore;
VerifyOrDie(backingStore.Alloc(1024));
size_t totalNumElements;
writer.Init(backingStore.Get(), 1024);
err = alogMgmt.FetchEventsSince(writer, clusterInfo, startingEventNumber, eventCount, chip::Access::SubjectDescriptor{});
EXPECT_TRUE(err == CHIP_NO_ERROR || err == CHIP_END_OF_TLV);
auto eventTLVSize = writer.GetLengthWritten() / eventCount;
// XXX: Make sure that the sizes of our event storages are big enough to hold at least 3 events
// but small enough not to hold 4 events. It is very important to check this because of the
// hard-coded logic of this unit test.
// The size of TLV-encoded event can vary depending on the UTC vs system time controlled by
// the CHIP_DEVICE_CONFIG_EVENT_LOGGING_UTC_TIMESTAMPS, because the relative system time
// will be most likely encoded in 1 byte, while the UTC time will be encoded in 8 bytes.
EXPECT_GE(sizeof(gDebugEventBuffer), eventTLVSize * 3);
EXPECT_LT(sizeof(gDebugEventBuffer), eventTLVSize * 4);
reader.Init(backingStore.Get(), writer.GetLengthWritten());
EXPECT_EQ(chip::TLV::Utilities::Count(reader, totalNumElements, false), CHIP_NO_ERROR);
printf("totalNumElements vs expectedNumEvents vs eventCount : %u vs %u vs %u \n", static_cast<unsigned int>(totalNumElements),
static_cast<unsigned int>(expectedNumEvents), static_cast<unsigned int>(eventCount));
EXPECT_EQ(totalNumElements, expectedNumEvents);
EXPECT_EQ(totalNumElements, eventCount);
reader.Init(backingStore.Get(), writer.GetLengthWritten());
chip::TLV::Debug::Dump(reader, SimpleDumpWriter);
}
class TestEventGenerator : public chip::app::EventLoggingDelegate
{
public:
CHIP_ERROR WriteEvent(chip::TLV::TLVWriter & aWriter)
{
chip::TLV::TLVType dataContainerType;
ReturnErrorOnFailure(aWriter.StartContainer(chip::TLV::ContextTag(chip::to_underlying(chip::app::EventDataIB::Tag::kData)),
chip::TLV::kTLVType_Structure, dataContainerType));
ReturnErrorOnFailure(aWriter.Put(kLivenessDeviceStatus, mStatus));
return aWriter.EndContainer(dataContainerType);
}
void SetStatus(int32_t aStatus) { mStatus = aStatus; }
private:
int32_t mStatus;
};
TEST_F(TestEventLogging, TestCheckLogEventWithEvictToNextBuffer)
{
chip::EventNumber eid1, eid2, eid3, eid4, eid5, eid6;
chip::app::EventOptions options1;
chip::app::EventOptions options2;
TestEventGenerator testEventGenerator;
options1.mPath = { kTestEndpointId1, kLivenessClusterId, kLivenessChangeEvent };
options1.mPriority = chip::app::PriorityLevel::Info;
options2.mPath = { kTestEndpointId2, kLivenessClusterId, kLivenessChangeEvent };
options2.mPriority = chip::app::PriorityLevel::Info;
chip::app::EventManagement & logMgmt = chip::app::EventManagement::GetInstance();
testEventGenerator.SetStatus(0);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options1, eid1), CHIP_NO_ERROR);
CheckLogState(logMgmt, 1, chip::app::PriorityLevel::Debug);
testEventGenerator.SetStatus(1);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options1, eid2), CHIP_NO_ERROR);
CheckLogState(logMgmt, 2, chip::app::PriorityLevel::Debug);
testEventGenerator.SetStatus(0);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options1, eid3), CHIP_NO_ERROR);
CheckLogState(logMgmt, 3, chip::app::PriorityLevel::Debug);
// Start to copy info event to next buffer since current debug buffer is full and info event is higher priority
testEventGenerator.SetStatus(1);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options2, eid4), CHIP_NO_ERROR);
CheckLogState(logMgmt, 4, chip::app::PriorityLevel::Info);
testEventGenerator.SetStatus(0);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options2, eid5), CHIP_NO_ERROR);
CheckLogState(logMgmt, 5, chip::app::PriorityLevel::Info);
testEventGenerator.SetStatus(1);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options2, eid6), CHIP_NO_ERROR);
CheckLogState(logMgmt, 6, chip::app::PriorityLevel::Info);
PrintEventLog();
EXPECT_EQ((eid1 + 1), eid2);
EXPECT_EQ((eid2 + 1), eid3);
EXPECT_EQ((eid3 + 1), eid4);
EXPECT_EQ((eid4 + 1), eid5);
EXPECT_EQ((eid5 + 1), eid6);
chip::SingleLinkedListNode<chip::app::EventPathParams> paths[2];
paths[0].mValue.mEndpointId = kTestEndpointId1;
paths[0].mValue.mClusterId = kLivenessClusterId;
paths[1].mValue.mEndpointId = kTestEndpointId2;
paths[1].mValue.mClusterId = kLivenessClusterId;
paths[1].mValue.mEventId = kLivenessChangeEvent;
// interested paths are path list, expect to retrieve all events for each particular interested path
CheckLogReadOut(logMgmt, 0, 3, &paths[0]);
CheckLogReadOut(logMgmt, 1, 2, &paths[0]);
CheckLogReadOut(logMgmt, 2, 1, &paths[0]);
CheckLogReadOut(logMgmt, 3, 3, &paths[1]);
CheckLogReadOut(logMgmt, 4, 2, &paths[1]);
CheckLogReadOut(logMgmt, 5, 1, &paths[1]);
paths[0].mpNext = &paths[1];
// interested paths are path list, expect to retrieve all events for those interested paths
CheckLogReadOut(logMgmt, 0, 6, paths);
chip::SingleLinkedListNode<chip::app::EventPathParams> pathsWithWildcard[2];
paths[0].mValue.mEndpointId = kTestEndpointId1;
paths[0].mValue.mClusterId = kLivenessClusterId;
// second path is wildcard path at default, expect to retrieve all events
CheckLogReadOut(logMgmt, 0, 6, &pathsWithWildcard[1]);
paths[0].mpNext = &paths[1];
// first path is not wildcard, second path is wildcard path at default, expect to retrieve all events
CheckLogReadOut(logMgmt, 0, 6, pathsWithWildcard);
}
TEST_F(TestEventLogging, TestCheckLogEventWithDiscardLowEvent)
{
chip::EventNumber eid1, eid2, eid3, eid4, eid5, eid6;
chip::app::EventOptions options;
options.mPath = { kTestEndpointId1, kLivenessClusterId, kLivenessChangeEvent };
options.mPriority = chip::app::PriorityLevel::Debug;
TestEventGenerator testEventGenerator;
chip::app::EventManagement & logMgmt = chip::app::EventManagement::GetInstance();
testEventGenerator.SetStatus(0);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options, eid1), CHIP_NO_ERROR);
CheckLogState(logMgmt, 1, chip::app::PriorityLevel::Debug);
testEventGenerator.SetStatus(1);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options, eid2), CHIP_NO_ERROR);
CheckLogState(logMgmt, 2, chip::app::PriorityLevel::Debug);
testEventGenerator.SetStatus(0);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options, eid3), CHIP_NO_ERROR);
CheckLogState(logMgmt, 3, chip::app::PriorityLevel::Debug);
CheckLogState(logMgmt, 3, chip::app::PriorityLevel::Info);
// Start to drop off debug event since debug event can only be saved in debug buffer
testEventGenerator.SetStatus(1);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options, eid4), CHIP_NO_ERROR);
CheckLogState(logMgmt, 3, chip::app::PriorityLevel::Debug);
CheckLogState(logMgmt, 3, chip::app::PriorityLevel::Info);
testEventGenerator.SetStatus(0);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options, eid5), CHIP_NO_ERROR);
CheckLogState(logMgmt, 3, chip::app::PriorityLevel::Debug);
CheckLogState(logMgmt, 3, chip::app::PriorityLevel::Info);
testEventGenerator.SetStatus(1);
EXPECT_EQ(logMgmt.LogEvent(&testEventGenerator, options, eid6), CHIP_NO_ERROR);
CheckLogState(logMgmt, 3, chip::app::PriorityLevel::Debug);
}
} // namespace