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pigweed / third_party / github / project-chip / connectedhomeip / refs/heads/master / . / src / app / tests / TestBufferedReadCallback.cpp
blob: 93eca2ad5044f4e9f882c9522bd99b46ab2657ee [file] [log] [blame]
/*
*
* 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 "app-common/zap-generated/ids/Attributes.h"
#include "lib/core/TLVTags.h"
#include "protocols/interaction_model/Constants.h"
#include "system/SystemPacketBuffer.h"
#include "system/TLVPacketBufferBackingStore.h"
#include <app-common/zap-generated/cluster-objects.h>
#include <app/BufferedReadCallback.h>
#include <app/data-model/DecodableList.h>
#include <app/data-model/Decode.h>
#include <app/tests/AppTestContext.h>
#include <lib/support/UnitTestContext.h>
#include <lib/support/UnitTestRegistration.h>
#include <nlunit-test.h>
#include <vector>
using TestContext = chip::Test::AppContext;
using namespace chip::app;
using namespace chip;
namespace {
nlTestSuite * gSuite = nullptr;
struct ValidationInstruction
{
enum ProcessingType
{
kValidChunk,
kDiscardedChunk
};
enum ValidationType
{
kSimpleAttributeA,
kSimpleAttributeB,
kListAttributeC_Empty,
kListAttributeC_NotEmpty,
kListAttributeC_NotEmpty_Chunked,
kListAttributeC_Error,
kListAttributeD_Empty,
kListAttributeD_NotEmpty,
kListAttributeD_NotEmpty_Chunked,
kListAttributeD_Error
};
ValidationType mValidationType;
ProcessingType mProcessingType = kValidChunk;
};
using InstructionListType = std::vector<ValidationInstruction>;
class DataSeriesValidator : public BufferedReadCallback::Callback
{
public:
DataSeriesValidator(std::vector<ValidationInstruction> validationInstructionList)
{
mInstructionList = validationInstructionList;
}
//
// BufferedReadCallback::Callback
//
void OnReportBegin() override;
void OnReportEnd() override;
void OnAttributeData(const ConcreteDataAttributePath & aPath, TLV::TLVReader * apData, const StatusIB & aStatus) override;
void OnDone(ReadClient *) override {}
std::vector<ValidationInstruction> mInstructionList;
uint32_t mCurrentInstruction = 0;
};
void DataSeriesValidator::OnReportBegin()
{
mCurrentInstruction = 0;
}
void DataSeriesValidator::OnReportEnd() {}
void DataSeriesValidator::OnAttributeData(const ConcreteDataAttributePath & aPath, TLV::TLVReader * apData,
const StatusIB & aStatus)
{
uint32_t expectedListLength;
while ((mCurrentInstruction < mInstructionList.size()) &&
(mInstructionList[mCurrentInstruction].mProcessingType == ValidationInstruction::kDiscardedChunk))
{
mCurrentInstruction++;
}
if (mCurrentInstruction >= mInstructionList.size())
{
return;
}
switch (mInstructionList[mCurrentInstruction].mValidationType)
{
case ValidationInstruction::kSimpleAttributeA: {
ChipLogProgress(DataManagement, "\t\t -- Validating A");
Clusters::UnitTesting::Attributes::Int8u::TypeInfo::Type value;
NL_TEST_ASSERT(gSuite,
aPath.mEndpointId == 0 && aPath.mClusterId == Clusters::UnitTesting::Id &&
aPath.mAttributeId == Clusters::UnitTesting::Attributes::Int8u::Id &&
aPath.mListOp == ConcreteDataAttributePath::ListOperation::NotList);
NL_TEST_ASSERT(gSuite, DataModel::Decode(*apData, value) == CHIP_NO_ERROR);
NL_TEST_ASSERT(gSuite, value == mCurrentInstruction);
break;
}
case ValidationInstruction::kSimpleAttributeB: {
ChipLogProgress(DataManagement, "\t\t -- Validating B");
Clusters::UnitTesting::Attributes::Int32u::TypeInfo::Type value;
NL_TEST_ASSERT(gSuite,
aPath.mEndpointId == 0 && aPath.mClusterId == Clusters::UnitTesting::Id &&
aPath.mAttributeId == Clusters::UnitTesting::Attributes::Int32u::Id &&
aPath.mListOp == ConcreteDataAttributePath::ListOperation::NotList);
NL_TEST_ASSERT(gSuite, DataModel::Decode(*apData, value) == CHIP_NO_ERROR);
NL_TEST_ASSERT(gSuite, value == mCurrentInstruction);
break;
}
case ValidationInstruction::kListAttributeC_Empty: {
ChipLogProgress(DataManagement, "\t\t -- Validating C[]");
Clusters::UnitTesting::Attributes::ListStructOctetString::TypeInfo::DecodableType value;
size_t len;
NL_TEST_ASSERT(gSuite,
aPath.mEndpointId == 0 && aPath.mClusterId == Clusters::UnitTesting::Id &&
aPath.mAttributeId == Clusters::UnitTesting::Attributes::ListStructOctetString::Id &&
aPath.mListOp == ConcreteDataAttributePath::ListOperation::ReplaceAll);
NL_TEST_ASSERT(gSuite, DataModel::Decode(*apData, value) == CHIP_NO_ERROR);
NL_TEST_ASSERT(gSuite, value.ComputeSize(&len) == CHIP_NO_ERROR);
NL_TEST_ASSERT(gSuite, len == 0);
break;
}
case ValidationInstruction::kListAttributeC_NotEmpty_Chunked:
case ValidationInstruction::kListAttributeC_NotEmpty: {
if (mInstructionList[mCurrentInstruction].mValidationType == ValidationInstruction::kListAttributeC_NotEmpty_Chunked)
{
expectedListLength = 512;
}
else
{
expectedListLength = 2;
}
ChipLogProgress(DataManagement, "\t\t -- Validating C[%" PRIu32 "]", expectedListLength);
Clusters::UnitTesting::Attributes::ListStructOctetString::TypeInfo::DecodableType value;
size_t len;
NL_TEST_ASSERT(gSuite,
aPath.mEndpointId == 0 && aPath.mClusterId == Clusters::UnitTesting::Id &&
aPath.mAttributeId == Clusters::UnitTesting::Attributes::ListStructOctetString::Id &&
aPath.mListOp == ConcreteDataAttributePath::ListOperation::ReplaceAll);
NL_TEST_ASSERT(gSuite, DataModel::Decode(*apData, value) == CHIP_NO_ERROR);
NL_TEST_ASSERT(gSuite, value.ComputeSize(&len) == CHIP_NO_ERROR);
NL_TEST_ASSERT(gSuite, len == expectedListLength);
auto iter = value.begin();
uint32_t index = 0;
while (iter.Next() && index < expectedListLength)
{
auto & iterValue = iter.GetValue();
NL_TEST_ASSERT(gSuite, iterValue.member1 == (index));
index++;
}
NL_TEST_ASSERT(gSuite, iter.GetStatus() == CHIP_NO_ERROR);
break;
}
case ValidationInstruction::kListAttributeD_Empty: {
ChipLogProgress(DataManagement, "\t\t -- Validating D[]");
Clusters::UnitTesting::Attributes::ListInt8u::TypeInfo::DecodableType value;
size_t len;
NL_TEST_ASSERT(gSuite,
aPath.mEndpointId == 0 && aPath.mClusterId == Clusters::UnitTesting::Id &&
aPath.mAttributeId == Clusters::UnitTesting::Attributes::ListInt8u::Id &&
aPath.mListOp == ConcreteDataAttributePath::ListOperation::ReplaceAll);
NL_TEST_ASSERT(gSuite, DataModel::Decode(*apData, value) == CHIP_NO_ERROR);
NL_TEST_ASSERT(gSuite, value.ComputeSize(&len) == CHIP_NO_ERROR);
NL_TEST_ASSERT(gSuite, len == 0);
break;
}
case ValidationInstruction::kListAttributeD_NotEmpty:
case ValidationInstruction::kListAttributeD_NotEmpty_Chunked: {
if (mInstructionList[mCurrentInstruction].mValidationType == ValidationInstruction::kListAttributeD_NotEmpty_Chunked)
{
expectedListLength = 512;
}
else
{
expectedListLength = 2;
}
ChipLogProgress(DataManagement, "\t\t -- Validating D[%" PRIu32 "]", expectedListLength);
Clusters::UnitTesting::Attributes::ListInt8u::TypeInfo::DecodableType value;
size_t len;
NL_TEST_ASSERT(gSuite,
aPath.mEndpointId == 0 && aPath.mClusterId == Clusters::UnitTesting::Id &&
aPath.mAttributeId == Clusters::UnitTesting::Attributes::ListInt8u::Id &&
aPath.mListOp == ConcreteDataAttributePath::ListOperation::ReplaceAll);
NL_TEST_ASSERT(gSuite, DataModel::Decode(*apData, value) == CHIP_NO_ERROR);
NL_TEST_ASSERT(gSuite, value.ComputeSize(&len) == CHIP_NO_ERROR);
NL_TEST_ASSERT(gSuite, len == expectedListLength);
auto iter = value.begin();
uint8_t index = 0;
while (iter.Next() && index < expectedListLength)
{
auto & iterValue = iter.GetValue();
NL_TEST_ASSERT(gSuite, iterValue == (index));
index++;
}
NL_TEST_ASSERT(gSuite, iter.GetStatus() == CHIP_NO_ERROR);
break;
}
case ValidationInstruction::kListAttributeC_Error: {
ChipLogProgress(DataManagement, "\t\t -- Validating C|e");
NL_TEST_ASSERT(gSuite,
aPath.mEndpointId == 0 && aPath.mClusterId == Clusters::UnitTesting::Id &&
aPath.mAttributeId == Clusters::UnitTesting::Attributes::ListStructOctetString::Id &&
aPath.mListOp == ConcreteDataAttributePath::ListOperation::ReplaceAll);
NL_TEST_ASSERT(gSuite, aStatus.mStatus == Protocols::InteractionModel::Status::Failure);
break;
}
case ValidationInstruction::kListAttributeD_Error: {
ChipLogProgress(DataManagement, "\t\t -- Validating D|e");
NL_TEST_ASSERT(gSuite,
aPath.mEndpointId == 0 && aPath.mClusterId == Clusters::UnitTesting::Id &&
aPath.mAttributeId == Clusters::UnitTesting::Attributes::ListInt8u::Id &&
aPath.mListOp == ConcreteDataAttributePath::ListOperation::ReplaceAll);
NL_TEST_ASSERT(gSuite, aStatus.mStatus == Protocols::InteractionModel::Status::Failure);
break;
}
default:
break;
}
mCurrentInstruction++;
}
class DataSeriesGenerator
{
public:
DataSeriesGenerator(BufferedReadCallback & readCallback, std::vector<ValidationInstruction> instructionList) :
mReadCallback(readCallback), mInstructionList(instructionList)
{}
void Generate();
private:
BufferedReadCallback & mReadCallback;
std::vector<ValidationInstruction> mInstructionList;
};
void DataSeriesGenerator::Generate()
{
System::PacketBufferHandle handle;
System::PacketBufferTLVWriter writer;
ConcreteDataAttributePath path(0, Clusters::UnitTesting::Id, 0);
System::PacketBufferTLVReader reader;
ReadClient::Callback * callback = &mReadCallback;
StatusIB status;
bool hasData;
callback->OnReportBegin();
uint8_t index = 0;
for (auto & instruction : mInstructionList)
{
handle = System::PacketBufferHandle::New(1000);
writer.Init(std::move(handle), true);
status = StatusIB();
hasData = true;
switch (instruction.mValidationType)
{
case ValidationInstruction::kSimpleAttributeA: {
ChipLogProgress(DataManagement, "\t -- Generating A");
Clusters::UnitTesting::Attributes::Int8u::TypeInfo::Type value = index;
path.mAttributeId = Clusters::UnitTesting::Attributes::Int8u::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::NotList;
NL_TEST_ASSERT(gSuite, DataModel::Encode(writer, TLV::AnonymousTag(), value) == CHIP_NO_ERROR);
break;
}
case ValidationInstruction::kSimpleAttributeB: {
ChipLogProgress(DataManagement, "\t -- Generating B");
Clusters::UnitTesting::Attributes::Int32u::TypeInfo::Type value = index;
path.mAttributeId = Clusters::UnitTesting::Attributes::Int32u::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::NotList;
NL_TEST_ASSERT(gSuite, DataModel::Encode(writer, TLV::AnonymousTag(), value) == CHIP_NO_ERROR);
break;
}
case ValidationInstruction::kListAttributeC_Empty: {
ChipLogProgress(DataManagement, "\t -- Generating C[]");
Clusters::UnitTesting::Attributes::ListStructOctetString::TypeInfo::Type value;
path.mAttributeId = Clusters::UnitTesting::Attributes::ListStructOctetString::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::ReplaceAll;
NL_TEST_ASSERT(gSuite, DataModel::Encode(writer, TLV::AnonymousTag(), value) == CHIP_NO_ERROR);
break;
}
case ValidationInstruction::kListAttributeC_NotEmpty: {
ChipLogProgress(DataManagement, "\t -- Generating C[2]");
Clusters::UnitTesting::Structs::TestListStructOctet::Type listData[2];
Clusters::UnitTesting::Attributes::ListStructOctetString::TypeInfo::Type value(listData);
uint8_t index2 = 0;
for (auto & item : listData)
{
item.member1 = index2;
index2++;
}
path.mAttributeId = Clusters::UnitTesting::Attributes::ListStructOctetString::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::ReplaceAll;
NL_TEST_ASSERT(gSuite, DataModel::Encode(writer, TLV::AnonymousTag(), value) == CHIP_NO_ERROR);
break;
}
case ValidationInstruction::kListAttributeD_Empty: {
ChipLogProgress(DataManagement, "\t -- Generating D[]");
Clusters::UnitTesting::Attributes::ListInt8u::TypeInfo::Type value;
path.mAttributeId = Clusters::UnitTesting::Attributes::ListInt8u::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::ReplaceAll;
NL_TEST_ASSERT(gSuite, DataModel::Encode(writer, TLV::AnonymousTag(), value) == CHIP_NO_ERROR);
break;
}
case ValidationInstruction::kListAttributeD_NotEmpty: {
ChipLogProgress(DataManagement, "\t -- Generating D[2]");
uint8_t listData[2];
Clusters::UnitTesting::Attributes::ListInt8u::TypeInfo::Type value(listData);
uint8_t index2 = 0;
for (auto & item : listData)
{
item = index2;
index2++;
}
path.mAttributeId = Clusters::UnitTesting::Attributes::ListInt8u::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::ReplaceAll;
NL_TEST_ASSERT(gSuite, DataModel::Encode(writer, TLV::AnonymousTag(), value) == CHIP_NO_ERROR);
break;
}
case ValidationInstruction::kListAttributeC_Error: {
ChipLogProgress(DataManagement, "\t -- Generating C|e");
path.mAttributeId = Clusters::UnitTesting::Attributes::ListStructOctetString::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::ReplaceAll;
status.mStatus = Protocols::InteractionModel::Status::Failure;
hasData = false;
callback->OnAttributeData(path, &reader, status);
break;
}
case ValidationInstruction::kListAttributeD_Error: {
ChipLogProgress(DataManagement, "\t -- Generating D|e");
path.mAttributeId = Clusters::UnitTesting::Attributes::ListInt8u::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::ReplaceAll;
status.mStatus = Protocols::InteractionModel::Status::Failure;
hasData = false;
callback->OnAttributeData(path, &reader, status);
break;
}
case ValidationInstruction::kListAttributeC_NotEmpty_Chunked: {
hasData = false;
Clusters::UnitTesting::Attributes::ListStructOctetString::TypeInfo::Type value;
{
ChipLogProgress(DataManagement, "\t -- Generating C[]");
path.mAttributeId = Clusters::UnitTesting::Attributes::ListStructOctetString::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::ReplaceAll;
NL_TEST_ASSERT(gSuite, DataModel::Encode(writer, TLV::AnonymousTag(), value) == CHIP_NO_ERROR);
writer.Finalize(&handle);
reader.Init(std::move(handle));
NL_TEST_ASSERT(gSuite, reader.Next() == CHIP_NO_ERROR);
callback->OnAttributeData(path, &reader, status);
}
ChipLogProgress(DataManagement, "\t -- Generating C0..C512");
for (int i = 0; i < 512; i++)
{
Clusters::UnitTesting::Structs::TestListStructOctet::Type listItem;
handle = System::PacketBufferHandle::New(1000);
writer.Init(std::move(handle), true);
status = StatusIB();
path.mAttributeId = Clusters::UnitTesting::Attributes::ListStructOctetString::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::AppendItem;
listItem.member1 = (uint64_t) i;
NL_TEST_ASSERT(gSuite, DataModel::Encode(writer, TLV::AnonymousTag(), listItem) == CHIP_NO_ERROR);
writer.Finalize(&handle);
reader.Init(std::move(handle));
NL_TEST_ASSERT(gSuite, reader.Next() == CHIP_NO_ERROR);
callback->OnAttributeData(path, &reader, status);
}
break;
}
case ValidationInstruction::kListAttributeD_NotEmpty_Chunked: {
hasData = false;
Clusters::UnitTesting::Attributes::ListInt8u::TypeInfo::Type value;
{
ChipLogProgress(DataManagement, "\t -- Generating D[]");
path.mAttributeId = Clusters::UnitTesting::Attributes::ListInt8u::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::ReplaceAll;
NL_TEST_ASSERT(gSuite, DataModel::Encode(writer, TLV::AnonymousTag(), value) == CHIP_NO_ERROR);
writer.Finalize(&handle);
reader.Init(std::move(handle));
NL_TEST_ASSERT(gSuite, reader.Next() == CHIP_NO_ERROR);
callback->OnAttributeData(path, &reader, status);
}
ChipLogProgress(DataManagement, "\t -- Generating D0..D512");
for (int i = 0; i < 512; i++)
{
handle = System::PacketBufferHandle::New(1000);
writer.Init(std::move(handle), true);
status = StatusIB();
path.mAttributeId = Clusters::UnitTesting::Attributes::ListInt8u::Id;
path.mListOp = ConcreteDataAttributePath::ListOperation::AppendItem;
NL_TEST_ASSERT(gSuite, DataModel::Encode(writer, TLV::AnonymousTag(), (uint8_t) (i)) == CHIP_NO_ERROR);
writer.Finalize(&handle);
reader.Init(std::move(handle));
NL_TEST_ASSERT(gSuite, reader.Next() == CHIP_NO_ERROR);
callback->OnAttributeData(path, &reader, status);
}
break;
}
default:
break;
}
if (hasData)
{
writer.Finalize(&handle);
reader.Init(std::move(handle));
NL_TEST_ASSERT(gSuite, reader.Next() == CHIP_NO_ERROR);
callback->OnAttributeData(path, &reader, status);
}
index++;
}
callback->OnReportEnd();
}
void RunAndValidateSequence(std::vector<ValidationInstruction> instructionList)
{
DataSeriesValidator validator(instructionList);
BufferedReadCallback bufferedCallback(validator);
DataSeriesGenerator generator(bufferedCallback, instructionList);
generator.Generate();
NL_TEST_ASSERT(gSuite, validator.mCurrentInstruction == instructionList.size());
}
void TestBufferedSequences(nlTestSuite * apSuite, void * apContext)
{
ChipLogProgress(DataManagement, "Validating various sequences of attribute data IBs...");
ChipLogProgress(DataManagement, "A --> A");
RunAndValidateSequence({ { ValidationInstruction::kSimpleAttributeA } });
ChipLogProgress(DataManagement, "A A --> A A");
RunAndValidateSequence({ { ValidationInstruction::kSimpleAttributeA }, { ValidationInstruction::kSimpleAttributeA } });
ChipLogProgress(DataManagement, "A B --> A B");
RunAndValidateSequence({ { ValidationInstruction::kSimpleAttributeA }, { ValidationInstruction::kSimpleAttributeB } });
ChipLogProgress(DataManagement, "A C[] --> A C[]");
RunAndValidateSequence({ { ValidationInstruction::kSimpleAttributeA }, { ValidationInstruction::kListAttributeC_Empty } });
ChipLogProgress(DataManagement, "C[] C[] --> C[]");
RunAndValidateSequence({ { ValidationInstruction::kListAttributeC_Empty, ValidationInstruction::kDiscardedChunk },
{ ValidationInstruction::kListAttributeC_Empty } });
ChipLogProgress(DataManagement, "C[2] C[] --> C[]");
RunAndValidateSequence({ { ValidationInstruction::kListAttributeC_NotEmpty, ValidationInstruction::kDiscardedChunk },
{ ValidationInstruction::kListAttributeC_Empty } });
ChipLogProgress(DataManagement, "C[] C[2] --> C[2]");
RunAndValidateSequence({ { ValidationInstruction::kListAttributeC_Empty, ValidationInstruction::kDiscardedChunk },
{ ValidationInstruction::kListAttributeC_NotEmpty } });
ChipLogProgress(DataManagement, "C[] A C[2] --> C[] A C[2]");
RunAndValidateSequence({ { ValidationInstruction::kListAttributeC_Empty },
{ ValidationInstruction::kSimpleAttributeA },
{ ValidationInstruction::kListAttributeC_NotEmpty } });
ChipLogProgress(DataManagement, "C[] C[2] A --> C[] C[2] A");
RunAndValidateSequence({ { ValidationInstruction::kListAttributeC_Empty },
{ ValidationInstruction::kSimpleAttributeA },
{ ValidationInstruction::kListAttributeC_NotEmpty } });
ChipLogProgress(DataManagement, "C[] D[] --> C[] D[]");
RunAndValidateSequence({ { ValidationInstruction::kListAttributeC_Empty }, { ValidationInstruction::kListAttributeD_Empty } });
ChipLogProgress(DataManagement, "C[2] D[] --> C[2] D[]");
RunAndValidateSequence(
{ { ValidationInstruction::kListAttributeC_NotEmpty }, { ValidationInstruction::kListAttributeD_Empty } });
ChipLogProgress(DataManagement, "C[2] C|e --> C|e");
RunAndValidateSequence({ { ValidationInstruction::kListAttributeC_NotEmpty, ValidationInstruction::kDiscardedChunk },
{ ValidationInstruction::kListAttributeC_Error } });
ChipLogProgress(DataManagement, "A C|e --> A C|e");
RunAndValidateSequence({ { ValidationInstruction::kSimpleAttributeA }, { ValidationInstruction::kListAttributeC_Error } });
ChipLogProgress(DataManagement, "C|e C[2] --> C|e C[2]");
RunAndValidateSequence(
{ { ValidationInstruction::kListAttributeC_Error }, { ValidationInstruction::kListAttributeC_NotEmpty } });
ChipLogProgress(DataManagement, "C[] C0 C1 --> C[2]");
RunAndValidateSequence({ { ValidationInstruction::kListAttributeC_NotEmpty_Chunked } });
ChipLogProgress(DataManagement, "C[] C0 C1 C[] --> C[]");
RunAndValidateSequence({
{ ValidationInstruction::kListAttributeC_NotEmpty_Chunked, ValidationInstruction::kDiscardedChunk },
{ ValidationInstruction::kListAttributeC_Empty },
});
ChipLogProgress(DataManagement, "C[] C0 C1 D[] D0 D1 --> C[2] D[2]");
RunAndValidateSequence({
{ ValidationInstruction::kListAttributeC_NotEmpty_Chunked },
{ ValidationInstruction::kListAttributeD_NotEmpty_Chunked },
});
}
// clang-format off
const nlTest sTests[] =
{
NL_TEST_DEF("TestBufferedSequences", TestBufferedSequences),
NL_TEST_SENTINEL()
};
nlTestSuite theSuite =
{
"TestBufferedReadCallback",
&sTests[0],
TestContext::nlTestSetUpTestSuite,
TestContext::nlTestTearDownTestSuite,
TestContext::nlTestSetUp,
TestContext::nlTestTearDown,
};
}
// clang-format on
int TestBufferedReadCallback()
{
gSuite = &theSuite;
return chip::ExecuteTestsWithContext<TestContext>(&theSuite);
}
CHIP_REGISTER_TEST_SUITE(TestBufferedReadCallback)