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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.
*/
/**
* @file
* This file implements unit tests for CHIP Interaction Model Reporting Engine
*
*/
#include <cinttypes>
#include <pw_unit_test/framework.h>
#include <app/ConcreteAttributePath.h>
#include <app/InteractionModelEngine.h>
#include <app/codegen-data-model-provider/Instance.h>
#include <app/reporting/Engine.h>
#include <app/reporting/tests/MockReportScheduler.h>
#include <app/tests/AppTestContext.h>
#include <app/tests/test-interaction-model-api.h>
#include <lib/core/CHIPCore.h>
#include <lib/core/ErrorStr.h>
#include <lib/core/StringBuilderAdapters.h>
#include <lib/core/TLV.h>
#include <lib/core/TLVDebug.h>
#include <lib/core/TLVUtilities.h>
#include <lib/support/tests/ExtraPwTestMacros.h>
#include <messaging/ExchangeContext.h>
#include <messaging/Flags.h>
namespace chip {
constexpr ClusterId kTestClusterId = 6;
constexpr EndpointId kTestEndpointId = 1;
constexpr chip::AttributeId kTestFieldId1 = 1;
constexpr chip::AttributeId kTestFieldId2 = 2;
namespace app {
namespace reporting {
class TestReportingEngine : public chip::Test::AppContext
{
public:
void SetUp() override
{
chip::Test::AppContext::SetUp();
mOldProvider = InteractionModelEngine::GetInstance()->SetDataModelProvider(&TestImCustomDataModel::Instance());
}
void TearDown() override
{
InteractionModelEngine::GetInstance()->SetDataModelProvider(mOldProvider);
chip::Test::AppContext::TearDown();
}
template <typename... Args>
static bool VerifyDirtySetContent(const Args &... args);
static bool InsertToDirtySet(const AttributePathParams & aPath);
void TestBuildAndSendSingleReportData();
void TestMergeOverlappedAttributePath();
void TestMergeAttributePathWhenDirtySetPoolExhausted();
private:
chip::app::DataModel::Provider * mOldProvider = nullptr;
struct ExpectedDirtySetContent : public AttributePathParams
{
ExpectedDirtySetContent(const AttributePathParams & path) : AttributePathParams(path) {}
bool verified = false;
};
};
class TestExchangeDelegate : public Messaging::ExchangeDelegate
{
CHIP_ERROR OnMessageReceived(Messaging::ExchangeContext * ec, const PayloadHeader & payloadHeader,
System::PacketBufferHandle && payload) override
{
return CHIP_NO_ERROR;
}
void OnResponseTimeout(Messaging::ExchangeContext * ec) override {}
};
class DummyDelegate : public ReadHandler::ManagementCallback
{
public:
void OnDone(ReadHandler & apHandler) override {}
chip::app::ReadHandler::ApplicationCallback * GetAppCallback() override { return nullptr; }
chip::app::InteractionModelEngine * GetInteractionModelEngine() override
{
return chip::app::InteractionModelEngine::GetInstance();
}
};
template <typename... Args>
bool TestReportingEngine::VerifyDirtySetContent(const Args &... args)
{
const int size = sizeof...(args);
ExpectedDirtySetContent content[size] = { ExpectedDirtySetContent(args)... };
if (InteractionModelEngine::GetInstance()->GetReportingEngine().mGlobalDirtySet.ForEachActiveObject([&](auto * path) {
for (int i = 0; i < size; i++)
{
if (static_cast<AttributePathParams>(content[i]) == static_cast<AttributePathParams>(*path))
{
content[i].verified = true;
return Loop::Continue;
}
}
ChipLogDetail(DataManagement, "Dirty path Endpoint %x Cluster %" PRIx32 ", Attribute %" PRIx32 " is not expected",
path->mEndpointId, path->mClusterId, path->mAttributeId);
return Loop::Break;
}) == Loop::Break)
{
return false;
}
for (int i = 0; i < size; i++)
{
if (!content[i].verified)
{
ChipLogDetail(DataManagement,
"Dirty path Endpoint %x Cluster %" PRIx32 ", Attribute %" PRIx32 " is not found in the dirty set",
content[i].mEndpointId, content[i].mClusterId, content[i].mAttributeId);
return false;
}
}
return true;
}
bool TestReportingEngine::InsertToDirtySet(const AttributePathParams & aPath)
{
auto path = InteractionModelEngine::GetInstance()->GetReportingEngine().mGlobalDirtySet.CreateObject();
VerifyOrReturnError(path != nullptr, false);
*path = aPath;
path->mGeneration = InteractionModelEngine::GetInstance()->GetReportingEngine().GetDirtySetGeneration();
return true;
}
TEST_F_FROM_FIXTURE(TestReportingEngine, TestBuildAndSendSingleReportData)
{
System::PacketBufferTLVWriter writer;
System::PacketBufferHandle readRequestbuf = System::PacketBufferHandle::New(System::PacketBuffer::kMaxSize);
ReadRequestMessage::Builder readRequestBuilder;
DummyDelegate dummy;
EXPECT_EQ(InteractionModelEngine::GetInstance()->Init(&GetExchangeManager(), &GetFabricTable(),
app::reporting::GetDefaultReportScheduler()),
CHIP_NO_ERROR);
TestExchangeDelegate delegate;
Messaging::ExchangeContext * exchangeCtx = NewExchangeToAlice(&delegate);
writer.Init(std::move(readRequestbuf));
EXPECT_EQ(readRequestBuilder.Init(&writer), CHIP_NO_ERROR);
AttributePathIBs::Builder & attributePathListBuilder = readRequestBuilder.CreateAttributeRequests();
EXPECT_EQ(readRequestBuilder.GetError(), CHIP_NO_ERROR);
AttributePathIB::Builder & attributePathBuilder1 = attributePathListBuilder.CreatePath();
EXPECT_EQ(attributePathListBuilder.GetError(), CHIP_NO_ERROR);
attributePathBuilder1.Node(1).Endpoint(kTestEndpointId).Cluster(kTestClusterId).Attribute(kTestFieldId1).EndOfAttributePathIB();
EXPECT_EQ(attributePathBuilder1.GetError(), CHIP_NO_ERROR);
AttributePathIB::Builder & attributePathBuilder2 = attributePathListBuilder.CreatePath();
EXPECT_EQ(attributePathListBuilder.GetError(), CHIP_NO_ERROR);
attributePathBuilder2.Node(1).Endpoint(kTestEndpointId).Cluster(kTestClusterId).Attribute(kTestFieldId2).EndOfAttributePathIB();
EXPECT_EQ(attributePathBuilder2.GetError(), CHIP_NO_ERROR);
attributePathListBuilder.EndOfAttributePathIBs();
EXPECT_EQ(readRequestBuilder.GetError(), CHIP_NO_ERROR);
readRequestBuilder.IsFabricFiltered(false).EndOfReadRequestMessage();
EXPECT_EQ(readRequestBuilder.GetError(), CHIP_NO_ERROR);
EXPECT_EQ(writer.Finalize(&readRequestbuf), CHIP_NO_ERROR);
app::ReadHandler readHandler(dummy, exchangeCtx, chip::app::ReadHandler::InteractionType::Read,
app::reporting::GetDefaultReportScheduler(), CodegenDataModelProviderInstance());
readHandler.OnInitialRequest(std::move(readRequestbuf));
EXPECT_EQ(InteractionModelEngine::GetInstance()->GetReportingEngine().BuildAndSendSingleReportData(&readHandler),
CHIP_NO_ERROR);
DrainAndServiceIO();
}
TEST_F_FROM_FIXTURE(TestReportingEngine, TestMergeOverlappedAttributePath)
{
EXPECT_EQ(InteractionModelEngine::GetInstance()->Init(&GetExchangeManager(), &GetFabricTable(),
app::reporting::GetDefaultReportScheduler()),
CHIP_NO_ERROR);
AttributePathParams * clusterInfo = InteractionModelEngine::GetInstance()->GetReportingEngine().mGlobalDirtySet.CreateObject();
clusterInfo->mEndpointId = 1;
clusterInfo->mClusterId = 1;
clusterInfo->mAttributeId = 1;
{
AttributePathParams testClusterInfo;
testClusterInfo.mEndpointId = 1;
testClusterInfo.mClusterId = 1;
testClusterInfo.mAttributeId = 3;
EXPECT_FALSE(InteractionModelEngine::GetInstance()->GetReportingEngine().MergeOverlappedAttributePath(testClusterInfo));
}
{
AttributePathParams testClusterInfo;
testClusterInfo.mEndpointId = 1;
testClusterInfo.mClusterId = 1;
testClusterInfo.mAttributeId = 1;
testClusterInfo.mListIndex = 2;
EXPECT_TRUE(InteractionModelEngine::GetInstance()->GetReportingEngine().MergeOverlappedAttributePath(testClusterInfo));
}
{
AttributePathParams testClusterInfo;
testClusterInfo.mEndpointId = 1;
testClusterInfo.mClusterId = 1;
testClusterInfo.mAttributeId = kInvalidAttributeId;
EXPECT_TRUE(InteractionModelEngine::GetInstance()->GetReportingEngine().MergeOverlappedAttributePath(testClusterInfo));
}
{
AttributePathParams testClusterInfo;
testClusterInfo.mClusterId = kInvalidClusterId;
testClusterInfo.mAttributeId = kInvalidAttributeId;
EXPECT_TRUE(InteractionModelEngine::GetInstance()->GetReportingEngine().MergeOverlappedAttributePath(testClusterInfo));
EXPECT_TRUE(clusterInfo->mClusterId == kInvalidClusterId && clusterInfo->mAttributeId == kInvalidAttributeId);
}
{
AttributePathParams testClusterInfo;
testClusterInfo.mEndpointId = kInvalidEndpointId;
testClusterInfo.mClusterId = kInvalidClusterId;
testClusterInfo.mAttributeId = kInvalidAttributeId;
EXPECT_TRUE(InteractionModelEngine::GetInstance()->GetReportingEngine().MergeOverlappedAttributePath(testClusterInfo));
EXPECT_TRUE(clusterInfo->mEndpointId == kInvalidEndpointId && clusterInfo->mClusterId == kInvalidClusterId &&
clusterInfo->mAttributeId == kInvalidAttributeId);
}
InteractionModelEngine::GetInstance()->GetReportingEngine().Shutdown();
}
TEST_F_FROM_FIXTURE(TestReportingEngine, TestMergeAttributePathWhenDirtySetPoolExhausted)
{
EXPECT_EQ(InteractionModelEngine::GetInstance()->Init(&GetExchangeManager(), &GetFabricTable(),
app::reporting::GetDefaultReportScheduler()),
CHIP_NO_ERROR);
InteractionModelEngine::GetInstance()->GetReportingEngine().mGlobalDirtySet.ReleaseAll();
InteractionModelEngine::GetInstance()->GetReportingEngine().BumpDirtySetGeneration();
// Case 1: All dirty paths including the new one are under the same cluster.
// -> Expected behavior: The dirty set is replaced by a wildcard attribute path under the same cluster.
for (AttributeId i = 1; i <= CHIP_IM_SERVER_MAX_NUM_DIRTY_SET; i++)
{
EXPECT_TRUE(InsertToDirtySet(AttributePathParams(kTestEndpointId, kTestClusterId, i)));
}
EXPECT_EQ(CHIP_NO_ERROR,
InteractionModelEngine::GetInstance()->GetReportingEngine().InsertPathIntoDirtySet(
AttributePathParams(kTestEndpointId, kTestClusterId, CHIP_IM_SERVER_MAX_NUM_DIRTY_SET + 1)));
EXPECT_TRUE(VerifyDirtySetContent(AttributePathParams(kTestEndpointId, kTestClusterId)));
InteractionModelEngine::GetInstance()->GetReportingEngine().mGlobalDirtySet.ReleaseAll();
// Case 2: All dirty paths including the new one are under the same endpoint.
// -> Expected behavior: The dirty set is replaced by a wildcard cluster path under the same endpoint.
for (ClusterId i = 1; i <= CHIP_IM_SERVER_MAX_NUM_DIRTY_SET; i++)
{
EXPECT_TRUE(InsertToDirtySet(AttributePathParams(kTestEndpointId, i, 1)));
}
EXPECT_EQ(CHIP_NO_ERROR,
InteractionModelEngine::GetInstance()->GetReportingEngine().InsertPathIntoDirtySet(
AttributePathParams(kTestEndpointId, ClusterId(CHIP_IM_SERVER_MAX_NUM_DIRTY_SET + 1), 1)));
EXPECT_TRUE(VerifyDirtySetContent(AttributePathParams(kTestEndpointId, kInvalidClusterId)));
InteractionModelEngine::GetInstance()->GetReportingEngine().mGlobalDirtySet.ReleaseAll();
// Case 3: All dirty paths including the new one are under the different endpoints.
// -> Expected behavior: The dirty set is replaced by a wildcard endpoint.
for (EndpointId i = 1; i <= CHIP_IM_SERVER_MAX_NUM_DIRTY_SET; i++)
{
EXPECT_TRUE(InsertToDirtySet(AttributePathParams(EndpointId(i), i, i)));
}
EXPECT_EQ(CHIP_NO_ERROR,
InteractionModelEngine::GetInstance()->GetReportingEngine().InsertPathIntoDirtySet(
AttributePathParams(EndpointId(CHIP_IM_SERVER_MAX_NUM_DIRTY_SET + 1), 1, 1)));
EXPECT_TRUE(VerifyDirtySetContent(AttributePathParams()));
InteractionModelEngine::GetInstance()->GetReportingEngine().mGlobalDirtySet.ReleaseAll();
// Case 4: All existing dirty paths are under the same cluster, the new path comes from another cluster.
// -> Expected behavior: The existing paths are merged into one single wildcard attribute path. New path is inserted
// as-is.
for (EndpointId i = 1; i <= CHIP_IM_SERVER_MAX_NUM_DIRTY_SET; i++)
{
EXPECT_TRUE(InsertToDirtySet(AttributePathParams(kTestEndpointId, kTestClusterId, i)));
}
EXPECT_EQ(CHIP_NO_ERROR,
InteractionModelEngine::GetInstance()->GetReportingEngine().InsertPathIntoDirtySet(
AttributePathParams(kTestEndpointId + 1, kTestClusterId + 1, 1)));
EXPECT_TRUE(VerifyDirtySetContent(AttributePathParams(kTestEndpointId, kTestClusterId),
AttributePathParams(kTestEndpointId + 1, kTestClusterId + 1, 1)));
InteractionModelEngine::GetInstance()->GetReportingEngine().mGlobalDirtySet.ReleaseAll();
// Case 5: All existing dirty paths are under the same endpoint, the new path comes from another endpoint.
// -> Expected behavior: The existing paths are merged into one single wildcard cluster path. New path is inserted as-is.
for (EndpointId i = 1; i <= CHIP_IM_SERVER_MAX_NUM_DIRTY_SET; i++)
{
EXPECT_TRUE(InsertToDirtySet(AttributePathParams(kTestEndpointId, i, 1)));
}
EXPECT_EQ(CHIP_NO_ERROR,
InteractionModelEngine::GetInstance()->GetReportingEngine().InsertPathIntoDirtySet(
AttributePathParams(kTestEndpointId + 1, kTestClusterId + 1, 1)));
EXPECT_TRUE(VerifyDirtySetContent(AttributePathParams(kTestEndpointId, kInvalidClusterId),
AttributePathParams(kTestEndpointId + 1, kTestClusterId + 1, 1)));
InteractionModelEngine::GetInstance()->GetReportingEngine().Shutdown();
}
} // namespace reporting
} // namespace app
} // namespace chip