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/*
*
* Copyright (c) 2022 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 "app-common/zap-generated/ids/Attributes.h"
#include "app-common/zap-generated/ids/Clusters.h"
#include "app/ClusterStateCache.h"
#include "app/ConcreteAttributePath.h"
#include "protocols/interaction_model/Constants.h"
#include <app-common/zap-generated/cluster-objects.h>
#include <app/AppBuildConfig.h>
#include <app/AttributeAccessInterface.h>
#include <app/BufferedReadCallback.h>
#include <app/CommandHandlerInterface.h>
#include <app/EventLogging.h>
#include <app/InteractionModelEngine.h>
#include <app/data-model/Decode.h>
#include <app/tests/AppTestContext.h>
#include <app/util/DataModelHandler.h>
#include <app/util/attribute-storage.h>
#include <controller/InvokeInteraction.h>
#include <lib/support/ErrorStr.h>
#include <lib/support/TimeUtils.h>
#include <lib/support/UnitTestContext.h>
#include <lib/support/UnitTestRegistration.h>
#include <lib/support/UnitTestUtils.h>
#include <lib/support/logging/CHIPLogging.h>
#include <messaging/tests/MessagingContext.h>
#include <nlunit-test.h>
using namespace chip;
using namespace chip::app::Clusters;
namespace {
static uint8_t gDebugEventBuffer[4096];
static uint8_t gInfoEventBuffer[4096];
static uint8_t gCritEventBuffer[4096];
static chip::app::CircularEventBuffer gCircularEventBuffer[3];
class TestContext : public chip::Test::AppContext
{
public:
static int Initialize(void * context)
{
if (AppContext::Initialize(context) != SUCCESS)
return FAILURE;
auto * ctx = static_cast<TestContext *>(context);
if (ctx->mEventCounter.Init(0) != CHIP_NO_ERROR)
{
return FAILURE;
}
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 },
};
chip::app::EventManagement::CreateEventManagement(&ctx->GetExchangeManager(),
sizeof(logStorageResources) / sizeof(logStorageResources[0]),
gCircularEventBuffer, logStorageResources, &ctx->mEventCounter);
return SUCCESS;
}
static int Finalize(void * context)
{
chip::app::EventManagement::DestroyEventManagement();
if (AppContext::Finalize(context) != SUCCESS)
return FAILURE;
return SUCCESS;
}
private:
MonotonicallyIncreasingCounter<EventNumber> mEventCounter;
};
nlTestSuite * gSuite = nullptr;
//
// The generated endpoint_config for the controller app has Endpoint 1
// already used in the fixed endpoint set of size 1. Consequently, let's use the next
// number higher than that for our dynamic test endpoint.
//
constexpr EndpointId kTestEndpointId = 2;
class TestReadEvents
{
public:
TestReadEvents() {}
static void TestBasicCaching(nlTestSuite * apSuite, void * apContext);
private:
};
//clang-format off
DECLARE_DYNAMIC_ATTRIBUTE_LIST_BEGIN(testClusterAttrs)
DECLARE_DYNAMIC_ATTRIBUTE_LIST_END();
DECLARE_DYNAMIC_CLUSTER_LIST_BEGIN(testEndpointClusters)
DECLARE_DYNAMIC_CLUSTER(TestCluster::Id, testClusterAttrs, nullptr, nullptr), DECLARE_DYNAMIC_CLUSTER_LIST_END;
DECLARE_DYNAMIC_ENDPOINT(testEndpoint, testEndpointClusters);
//clang-format on
class TestReadCallback : public app::ClusterStateCache::Callback
{
public:
TestReadCallback() : mClusterCacheAdapter(*this) {}
void OnDone(app::ReadClient *) {}
app::ClusterStateCache mClusterCacheAdapter;
};
namespace {
void GenerateEvents(nlTestSuite * apSuite, chip::EventNumber & firstEventNumber, chip::EventNumber & lastEventNumber)
{
CHIP_ERROR err = CHIP_NO_ERROR;
static uint8_t generationCount = 0;
TestCluster::Events::TestEvent::Type content;
for (int i = 0; i < 5; i++)
{
content.arg1 = static_cast<uint8_t>(generationCount++);
NL_TEST_ASSERT(apSuite, (err = app::LogEvent(content, kTestEndpointId, lastEventNumber)) == CHIP_NO_ERROR);
if (i == 0)
{
firstEventNumber = lastEventNumber;
}
}
}
} // namespace
/*
* This validates event caching by forcing a bunch of events to get generated, then reading them back
* and upon completion of that operation, iterating over any events that have accumulated in the cache
* and validating their contents.
*
* It then proceeds to do another round of generation and re-do the read, validating that the old and new
* events are present in the cache.
*
*/
void TestReadEvents::TestBasicCaching(nlTestSuite * apSuite, void * apContext)
{
TestContext & ctx = *static_cast<TestContext *>(apContext);
auto sessionHandle = ctx.GetSessionBobToAlice();
app::InteractionModelEngine * engine = app::InteractionModelEngine::GetInstance();
// Initialize the ember side server logic
InitDataModelHandler(&ctx.GetExchangeManager());
// Register our fake dynamic endpoint.
DataVersion dataVersionStorage[ArraySize(testEndpointClusters)];
emberAfSetDynamicEndpoint(0, kTestEndpointId, &testEndpoint, Span<DataVersion>(dataVersionStorage));
chip::EventNumber firstEventNumber;
chip::EventNumber lastEventNumber;
GenerateEvents(apSuite, firstEventNumber, lastEventNumber);
app::EventPathParams eventPath;
eventPath.mEndpointId = kTestEndpointId;
eventPath.mClusterId = app::Clusters::TestCluster::Id;
app::ReadPrepareParams readParams(sessionHandle);
readParams.mpEventPathParamsList = &eventPath;
readParams.mEventPathParamsListSize = 1;
readParams.mEventNumber.SetValue(firstEventNumber);
TestReadCallback readCallback;
{
app::ReadClient readClient(engine, &ctx.GetExchangeManager(), readCallback.mClusterCacheAdapter.GetBufferedCallback(),
app::ReadClient::InteractionType::Read);
NL_TEST_ASSERT(apSuite, readClient.SendRequest(readParams) == CHIP_NO_ERROR);
ctx.DrainAndServiceIO();
uint8_t generationCount = 0;
readCallback.mClusterCacheAdapter.ForEachEventData(
[&apSuite, &readCallback, &generationCount](const app::EventHeader & header) {
NL_TEST_ASSERT(apSuite, header.mPath.mClusterId == TestCluster::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEventId == TestCluster::Events::TestEvent::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEndpointId == kTestEndpointId);
TestCluster::Events::TestEvent::DecodableType eventData;
NL_TEST_ASSERT(apSuite, readCallback.mClusterCacheAdapter.Get(header.mEventNumber, eventData) == CHIP_NO_ERROR);
NL_TEST_ASSERT(apSuite, eventData.arg1 == generationCount);
generationCount++;
return CHIP_NO_ERROR;
});
NL_TEST_ASSERT(apSuite, generationCount == 5);
Optional<EventNumber> highestEventNumber;
readCallback.mClusterCacheAdapter.GetHighestReceivedEventNumber(highestEventNumber);
NL_TEST_ASSERT(apSuite, highestEventNumber.HasValue() && highestEventNumber.Value() == 4);
//
// Re-run the iterator but pass in a path filter: EP*/TestCluster/EID*
//
generationCount = 0;
readCallback.mClusterCacheAdapter.ForEachEventData(
[&apSuite, &readCallback, &generationCount](const app::EventHeader & header) {
NL_TEST_ASSERT(apSuite, header.mPath.mClusterId == TestCluster::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEventId == TestCluster::Events::TestEvent::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEndpointId == kTestEndpointId);
TestCluster::Events::TestEvent::DecodableType eventData;
NL_TEST_ASSERT(apSuite, readCallback.mClusterCacheAdapter.Get(header.mEventNumber, eventData) == CHIP_NO_ERROR);
NL_TEST_ASSERT(apSuite, eventData.arg1 == generationCount);
generationCount++;
return CHIP_NO_ERROR;
},
app::EventPathParams(kInvalidEndpointId, TestCluster::Id, kInvalidEventId));
NL_TEST_ASSERT(apSuite, generationCount == 5);
//
// Re-run the iterator but pass in a path filter: EP*/TestCluster/TestEvent
//
generationCount = 0;
readCallback.mClusterCacheAdapter.ForEachEventData(
[&apSuite, &readCallback, &generationCount](const app::EventHeader & header) {
NL_TEST_ASSERT(apSuite, header.mPath.mClusterId == TestCluster::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEventId == TestCluster::Events::TestEvent::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEndpointId == kTestEndpointId);
TestCluster::Events::TestEvent::DecodableType eventData;
NL_TEST_ASSERT(apSuite, readCallback.mClusterCacheAdapter.Get(header.mEventNumber, eventData) == CHIP_NO_ERROR);
NL_TEST_ASSERT(apSuite, eventData.arg1 == generationCount);
generationCount++;
return CHIP_NO_ERROR;
},
app::EventPathParams(kInvalidEndpointId, TestCluster::Id, TestCluster::Events::TestEvent::Id));
NL_TEST_ASSERT(apSuite, generationCount == 5);
//
// Re-run the iterator but pass in a min event number filter (EventNumber = 1). We should only receive 4 events.
//
generationCount = 1;
readCallback.mClusterCacheAdapter.ForEachEventData(
[&apSuite, &readCallback, &generationCount](const app::EventHeader & header) {
NL_TEST_ASSERT(apSuite, header.mPath.mClusterId == TestCluster::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEventId == TestCluster::Events::TestEvent::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEndpointId == kTestEndpointId);
TestCluster::Events::TestEvent::DecodableType eventData;
NL_TEST_ASSERT(apSuite, readCallback.mClusterCacheAdapter.Get(header.mEventNumber, eventData) == CHIP_NO_ERROR);
NL_TEST_ASSERT(apSuite, eventData.arg1 == generationCount);
generationCount++;
return CHIP_NO_ERROR;
},
app::EventPathParams(), 1);
NL_TEST_ASSERT(apSuite, generationCount == 5);
//
// Re-run the iterator but pass in a min event number filter (EventNumber = 1) AND a path filter. We should only receive 4
// events.
//
generationCount = 1;
readCallback.mClusterCacheAdapter.ForEachEventData(
[&apSuite, &readCallback, &generationCount](const app::EventHeader & header) {
NL_TEST_ASSERT(apSuite, header.mPath.mClusterId == TestCluster::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEventId == TestCluster::Events::TestEvent::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEndpointId == kTestEndpointId);
TestCluster::Events::TestEvent::DecodableType eventData;
NL_TEST_ASSERT(apSuite, readCallback.mClusterCacheAdapter.Get(header.mEventNumber, eventData) == CHIP_NO_ERROR);
NL_TEST_ASSERT(apSuite, eventData.arg1 == generationCount);
generationCount++;
return CHIP_NO_ERROR;
},
app::EventPathParams(kInvalidEndpointId, TestCluster::Id, kInvalidEventId), 1);
NL_TEST_ASSERT(apSuite, generationCount == 5);
}
//
// Generate more events.
//
GenerateEvents(apSuite, firstEventNumber, lastEventNumber);
{
app::ReadClient readClient(engine, &ctx.GetExchangeManager(), readCallback.mClusterCacheAdapter.GetBufferedCallback(),
app::ReadClient::InteractionType::Read);
NL_TEST_ASSERT(apSuite, readClient.SendRequest(readParams) == CHIP_NO_ERROR);
ctx.DrainAndServiceIO();
//
// Validate that we still have all 5 of the old events we received, as well as the new ones that just got generated.
// This also ensures that we don't receive duplicate events in the `ForEachEventData` call below.
//
uint8_t generationCount = 0;
readCallback.mClusterCacheAdapter.ForEachEventData(
[&apSuite, &readCallback, &generationCount](const app::EventHeader & header) {
NL_TEST_ASSERT(apSuite, header.mPath.mClusterId == TestCluster::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEventId == TestCluster::Events::TestEvent::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEndpointId == kTestEndpointId);
TestCluster::Events::TestEvent::DecodableType eventData;
NL_TEST_ASSERT(apSuite, readCallback.mClusterCacheAdapter.Get(header.mEventNumber, eventData) == CHIP_NO_ERROR);
NL_TEST_ASSERT(apSuite, eventData.arg1 == generationCount);
generationCount++;
return CHIP_NO_ERROR;
});
NL_TEST_ASSERT(apSuite, generationCount == 10);
Optional<EventNumber> highestEventNumber;
readCallback.mClusterCacheAdapter.GetHighestReceivedEventNumber(highestEventNumber);
NL_TEST_ASSERT(apSuite, highestEventNumber.HasValue() && highestEventNumber.Value() == 9);
readCallback.mClusterCacheAdapter.ClearEventCache();
generationCount = 0;
readCallback.mClusterCacheAdapter.ForEachEventData([&generationCount](const app::EventHeader & header) {
generationCount++;
return CHIP_NO_ERROR;
});
NL_TEST_ASSERT(apSuite, generationCount == 0);
readCallback.mClusterCacheAdapter.GetHighestReceivedEventNumber(highestEventNumber);
NL_TEST_ASSERT(apSuite, highestEventNumber.HasValue() && highestEventNumber.Value() == 9);
}
//
// Clear out the event cache and set its highest received event number to a non zero value. Validate that
// we don't receive events lower than that value.
//
{
app::ReadClient readClient(engine, &ctx.GetExchangeManager(), readCallback.mClusterCacheAdapter.GetBufferedCallback(),
app::ReadClient::InteractionType::Read);
readCallback.mClusterCacheAdapter.ClearEventCache();
readCallback.mClusterCacheAdapter.SetHighestReceivedEventNumber(3);
NL_TEST_ASSERT(apSuite, readClient.SendRequest(readParams) == CHIP_NO_ERROR);
ctx.DrainAndServiceIO();
uint8_t generationCount = 4;
readCallback.mClusterCacheAdapter.ForEachEventData(
[&apSuite, &readCallback, &generationCount](const app::EventHeader & header) {
NL_TEST_ASSERT(apSuite, header.mPath.mClusterId == TestCluster::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEventId == TestCluster::Events::TestEvent::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEndpointId == kTestEndpointId);
TestCluster::Events::TestEvent::DecodableType eventData;
NL_TEST_ASSERT(apSuite, readCallback.mClusterCacheAdapter.Get(header.mEventNumber, eventData) == CHIP_NO_ERROR);
NL_TEST_ASSERT(apSuite, eventData.arg1 == generationCount);
generationCount++;
return CHIP_NO_ERROR;
});
NL_TEST_ASSERT(apSuite, generationCount == 10);
Optional<EventNumber> highestEventNumber;
readCallback.mClusterCacheAdapter.GetHighestReceivedEventNumber(highestEventNumber);
NL_TEST_ASSERT(apSuite, highestEventNumber.HasValue() && highestEventNumber.Value() == 9);
}
//
// Set user-provided event number, then read client would use user-provided event number and not use the cached one in read
// client
//
{
readParams.mEventNumber.SetValue(5);
app::ReadClient readClient(engine, &ctx.GetExchangeManager(), readCallback.mClusterCacheAdapter.GetBufferedCallback(),
app::ReadClient::InteractionType::Read);
readCallback.mClusterCacheAdapter.ClearEventCache(true);
NL_TEST_ASSERT(apSuite, readClient.SendRequest(readParams) == CHIP_NO_ERROR);
ctx.DrainAndServiceIO();
//
// Validate that we would receive 5 events
//
uint8_t generationCount = 5;
readCallback.mClusterCacheAdapter.ForEachEventData(
[&apSuite, &readCallback, &generationCount](const app::EventHeader & header) {
NL_TEST_ASSERT(apSuite, header.mPath.mClusterId == TestCluster::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEventId == TestCluster::Events::TestEvent::Id);
NL_TEST_ASSERT(apSuite, header.mPath.mEndpointId == kTestEndpointId);
TestCluster::Events::TestEvent::DecodableType eventData;
NL_TEST_ASSERT(apSuite, readCallback.mClusterCacheAdapter.Get(header.mEventNumber, eventData) == CHIP_NO_ERROR);
NL_TEST_ASSERT(apSuite, eventData.arg1 == generationCount);
generationCount++;
return CHIP_NO_ERROR;
});
NL_TEST_ASSERT(apSuite, generationCount == 10);
Optional<EventNumber> highestEventNumber;
readCallback.mClusterCacheAdapter.GetHighestReceivedEventNumber(highestEventNumber);
NL_TEST_ASSERT(apSuite, highestEventNumber.HasValue() && highestEventNumber.Value() == 9);
}
NL_TEST_ASSERT(apSuite, ctx.GetExchangeManager().GetNumActiveExchanges() == 0);
emberAfClearDynamicEndpoint(0);
}
// clang-format off
const nlTest sTests[] =
{
NL_TEST_DEF("TestBasicCaching", TestReadEvents::TestBasicCaching),
NL_TEST_SENTINEL()
};
// clang-format on
// clang-format off
nlTestSuite sSuite =
{
"TestEventCaching",
&sTests[0],
TestContext::Initialize,
TestContext::Finalize
};
// clang-format on
} // namespace
int TestEventCaching()
{
gSuite = &sSuite;
return chip::ExecuteTestsWithContext<TestContext>(&sSuite);
}
CHIP_REGISTER_TEST_SUITE(TestEventCaching)