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pigweed / third_party / github / project-chip / connectedhomeip / bbd710a5cb8b548e9cf1eff373dd4e1a7748e739 / . / src / lib / support / tests / TestJsonToTlv.cpp
blob: 9bc8696fd88621cdd1a7a1bb70c26b0d0ebb8737 [file] [log] [blame]
/*
*
* Copyright (c) 2023 Project CHIP Authors
*
* 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 <string>
#include <gtest/gtest.h>
#include <app-common/zap-generated/cluster-objects.h>
#include <app/data-model/Decode.h>
#include <app/data-model/Encode.h>
#include <lib/core/TLVDebug.h>
#include <lib/core/TLVReader.h>
#include <lib/support/jsontlv/JsonToTlv.h>
#include <lib/support/jsontlv/TextFormat.h>
#include <lib/support/jsontlv/TlvToJson.h>
namespace {
using namespace chip::Encoding;
using namespace chip;
using namespace chip::app;
constexpr uint32_t kImplicitProfileId = 0x1234;
uint8_t gBuf1[1024];
uint8_t gBuf2[1024];
TLV::TLVWriter gWriter1;
TLV::TLVWriter gWriter2;
class TestJsonToTlv : public ::testing::Test
{
public:
static void SetUpTestSuite() { ASSERT_EQ(chip::Platform::MemoryInit(), CHIP_NO_ERROR); }
static void TearDownTestSuite() { chip::Platform::MemoryShutdown(); }
};
void SetupWriters()
{
gWriter1.Init(gBuf1);
gWriter1.ImplicitProfileId = kImplicitProfileId;
gWriter2.Init(gBuf2);
gWriter2.ImplicitProfileId = kImplicitProfileId;
}
void PrintBytes(const uint8_t * buf, uint32_t len)
{
for (uint32_t i = 0; i < len; i++)
{
printf("%02X ", buf[i]);
}
printf("\n");
}
bool MatchWriter1and2()
{
auto matches =
(gWriter1.GetLengthWritten() == gWriter2.GetLengthWritten()) && (memcmp(gBuf1, gBuf2, gWriter1.GetLengthWritten()) == 0);
if (!matches)
{
printf("Didn't match!\n");
printf("Reference:\n");
PrintBytes(gBuf1, gWriter1.GetLengthWritten());
printf("Generated:\n");
PrintBytes(gBuf2, gWriter2.GetLengthWritten());
}
return matches;
}
template <typename T>
void ConvertJsonToTlvAndValidate(T val, const std::string & jsonString)
{
CHIP_ERROR err;
TLV::TLVType container;
SetupWriters();
err = gWriter1.StartContainer(TLV::AnonymousTag(), TLV::kTLVType_Structure, container);
EXPECT_EQ(err, CHIP_NO_ERROR);
err = DataModel::Encode(gWriter1, TLV::ContextTag(1), val);
EXPECT_EQ(err, CHIP_NO_ERROR);
err = gWriter1.EndContainer(container);
EXPECT_EQ(err, CHIP_NO_ERROR);
err = gWriter1.Finalize();
EXPECT_EQ(err, CHIP_NO_ERROR);
err = JsonToTlv(jsonString, gWriter2);
EXPECT_EQ(err, CHIP_NO_ERROR);
EXPECT_TRUE(MatchWriter1and2());
}
TEST_F(TestJsonToTlv, TestConverter)
{
std::string jsonString;
jsonString = "{\n"
" \"1:UINT\" : 30\n"
"}\n";
ConvertJsonToTlvAndValidate(static_cast<uint32_t>(30), jsonString);
jsonString = "{\n"
" \"1:INT\" : -30\n"
"}\n";
ConvertJsonToTlvAndValidate(static_cast<int32_t>(-30), jsonString);
jsonString = "{\n"
" \"1:BOOL\" : false\n"
"}\n";
ConvertJsonToTlvAndValidate(false, jsonString);
jsonString = "{\n"
" \"1:BOOL\" : true\n"
"}\n";
ConvertJsonToTlvAndValidate(true, jsonString);
jsonString = "{\n"
" \"1:FLOAT\" : 1.0\n"
"}\n";
ConvertJsonToTlvAndValidate(static_cast<float>(1.0), jsonString);
jsonString = "{\n"
" \"1:DOUBLE\" : 1.0\n"
"}\n";
ConvertJsonToTlvAndValidate(static_cast<double>(1.0), jsonString);
jsonString = "{\n"
" \"1:STRING\" : \"hello\"\n"
"}\n";
ConvertJsonToTlvAndValidate("hello"_span, jsonString);
// Validated using https://base64.guru/converter/encode/hex
const uint8_t byteBuf[] = { 0x01, 0x02, 0x03, 0x04, 0xff, 0xfe, 0x99, 0x88, 0xdd, 0xcd };
ByteSpan byteSpan(byteBuf);
jsonString = "{\n"
" \"1:BYTES\" : \"AQIDBP/+mYjdzQ==\"\n"
"}\n";
ConvertJsonToTlvAndValidate(byteSpan, jsonString);
// Empty bytes.
jsonString = "{\n"
" \"1:BYTES\" : \"\"\n"
"}\n";
ConvertJsonToTlvAndValidate(ByteSpan{}, jsonString);
DataModel::Nullable<uint8_t> nullValue;
jsonString = "{\n"
" \"1:NULL\" : null\n"
"}\n";
ConvertJsonToTlvAndValidate(nullValue, jsonString);
Clusters::UnitTesting::Structs::SimpleStruct::Type structVal;
structVal.a = 20;
structVal.b = true;
structVal.d = byteBuf;
structVal.e = "hello"_span;
structVal.g = static_cast<float>(1.0);
structVal.h = static_cast<double>(1.0);
jsonString = "{\n"
" \"1:STRUCT\" : {\n"
" \"0:UINT\" : 20,\n"
" \"1:BOOL\" : true,\n"
" \"2:UINT\" : 0,\n"
" \"3:BYTES\" : \"AQIDBP/+mYjdzQ==\",\n"
" \"4:STRING\" : \"hello\",\n"
" \"5:UINT\" : 0,\n"
" \"6:FLOAT\" : 1.0,\n"
" \"7:DOUBLE\" : 1.0\n"
" }\n"
"}\n";
ConvertJsonToTlvAndValidate(structVal, jsonString);
uint8_t int8uListData[] = { 1, 2, 3, 4 };
DataModel::List<uint8_t> int8uList;
int8uList = int8uListData;
jsonString = "{\n"
" \"1:ARRAY-UINT\" : [ 1, 2, 3, 4 ]\n"
"}\n";
ConvertJsonToTlvAndValidate(int8uList, jsonString);
int8uList = {};
jsonString = "{\n"
" \"1:ARRAY-?\" : [ ]\n"
"}\n";
ConvertJsonToTlvAndValidate(int8uList, jsonString);
DataModel::Nullable<DataModel::List<uint8_t>> nullValueList;
jsonString = "{\n"
" \"1:NULL\" : null\n"
"}\n";
ConvertJsonToTlvAndValidate(nullValueList, jsonString);
Clusters::UnitTesting::Structs::SimpleStruct::Type structListData[2] = { structVal, structVal };
DataModel::List<Clusters::UnitTesting::Structs::SimpleStruct::Type> structList;
structList = structListData;
jsonString = "{\n"
" \"1:ARRAY-STRUCT\" : [\n"
" {\n"
" \"0:UINT\" : 20,\n"
" \"1:BOOL\" : true,\n"
" \"2:UINT\" : 0,\n"
" \"3:BYTES\" : \"AQIDBP/+mYjdzQ==\",\n"
" \"4:STRING\" : \"hello\",\n"
" \"5:UINT\" : 0,\n"
" \"6:FLOAT\" : 1.0,\n"
" \"7:DOUBLE\" : 1.0\n"
" },\n"
" {\n"
" \"0:UINT\" : 20,\n"
" \"1:BOOL\" : true,\n"
" \"2:UINT\" : 0,\n"
" \"3:BYTES\" : \"AQIDBP/+mYjdzQ==\",\n"
" \"4:STRING\" : \"hello\",\n"
" \"5:UINT\" : 0,\n"
" \"6:FLOAT\" : 1.0,\n"
" \"7:DOUBLE\" : 1.0\n"
" }\n"
" ]\n"
"}\n";
ConvertJsonToTlvAndValidate(structList, jsonString);
}
TEST_F(TestJsonToTlv, Test32BitConvert)
{
// JSON TLV format explicitly wants to support 32-bit integer preservation.
//
// This is to support encode/decode of a format like:
// { "123456:BOOL" : true } to be a compact way of encoding
// "attribute id 123456 has value true"
//
// Such an encoding is NOT part of the matter spec, so best-effort is done here:
// - low ids are encoded as context tags (this is in the spec for any structure encoding)
// - large ids are encoded as implicit tags (NOT used in spec as spec never has such high ids)
TLV::TLVReader reader;
TLV::TLVType tlvType;
int32_t value = 0;
// convert a simple single value
{
SetupWriters();
JsonToTlv("{\"1:INT\": 321}", gWriter1);
EXPECT_EQ(gWriter1.Finalize(), CHIP_NO_ERROR);
reader.Init(gBuf1, gWriter1.GetLengthWritten());
reader.ImplicitProfileId = kImplicitProfileId;
EXPECT_EQ(reader.Next(TLV::AnonymousTag()), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_Structure);
EXPECT_EQ(reader.EnterContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(TLV::ContextTag(1)), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_SignedInteger);
EXPECT_EQ(reader.Get(value), CHIP_NO_ERROR);
EXPECT_EQ(value, 321);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
EXPECT_EQ(reader.ExitContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
}
// convert a single value that is larger than 8 bit
{
SetupWriters();
JsonToTlv("{\"1234:INT\": 321}", gWriter1);
EXPECT_EQ(gWriter1.Finalize(), CHIP_NO_ERROR);
reader.Init(gBuf1, gWriter1.GetLengthWritten());
reader.ImplicitProfileId = kImplicitProfileId;
EXPECT_EQ(reader.Next(TLV::AnonymousTag()), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_Structure);
EXPECT_EQ(reader.EnterContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(TLV::ProfileTag(kImplicitProfileId, 1234)), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_SignedInteger);
EXPECT_EQ(reader.Get(value), CHIP_NO_ERROR);
EXPECT_EQ(value, 321);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
EXPECT_EQ(reader.ExitContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
}
// Convert to a full 32-bit value, unsigned
{
SetupWriters();
JsonToTlv("{\"4275878552:INT\": 321}", gWriter1);
EXPECT_EQ(gWriter1.Finalize(), CHIP_NO_ERROR);
reader.Init(gBuf1, gWriter1.GetLengthWritten());
reader.ImplicitProfileId = kImplicitProfileId;
EXPECT_EQ(reader.Next(TLV::AnonymousTag()), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_Structure);
EXPECT_EQ(reader.EnterContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(TLV::ProfileTag((4275878552 >> 16) & 0xFFFF, 0, 4275878552 & 0xFFFF)), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_SignedInteger);
EXPECT_EQ(reader.Get(value), CHIP_NO_ERROR);
EXPECT_EQ(value, 321);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
EXPECT_EQ(reader.ExitContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
}
// FIXME: implement
}
TEST_F(TestJsonToTlv, TestMEIConvert)
{
TLV::TLVReader reader;
TLV::TLVType tlvType;
int32_t value = 0;
// Vendor ID = 1, Tag ID = 0
{
SetupWriters();
JsonToTlv("{\"65536:INT\": 321}", gWriter1);
EXPECT_EQ(gWriter1.Finalize(), CHIP_NO_ERROR);
reader.Init(gBuf1, gWriter1.GetLengthWritten());
reader.ImplicitProfileId = kImplicitProfileId;
EXPECT_EQ(reader.Next(TLV::AnonymousTag()), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_Structure);
EXPECT_EQ(reader.EnterContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(TLV::ProfileTag(1, 0, 0)), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_SignedInteger);
EXPECT_EQ(reader.Get(value), CHIP_NO_ERROR);
EXPECT_EQ(value, 321);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
EXPECT_EQ(reader.ExitContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
}
// Vendor ID = 0xFFFF, Tag ID = 0
{
SetupWriters();
JsonToTlv("{\"4294901760:INT\": 123}", gWriter1);
EXPECT_EQ(gWriter1.Finalize(), CHIP_NO_ERROR);
reader.Init(gBuf1, gWriter1.GetLengthWritten());
reader.ImplicitProfileId = kImplicitProfileId;
EXPECT_EQ(reader.Next(TLV::AnonymousTag()), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_Structure);
EXPECT_EQ(reader.EnterContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(TLV::ProfileTag(0xFFFF, 0, 0)), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_SignedInteger);
EXPECT_EQ(reader.Get(value), CHIP_NO_ERROR);
EXPECT_EQ(value, 123);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
EXPECT_EQ(reader.ExitContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
}
// Vendor ID = 0xFFFF, Tag ID = 0xFFFF
{
SetupWriters();
JsonToTlv("{\"4294967295:INT\": 123}", gWriter1);
EXPECT_EQ(gWriter1.Finalize(), CHIP_NO_ERROR);
reader.Init(gBuf1, gWriter1.GetLengthWritten());
reader.ImplicitProfileId = kImplicitProfileId;
EXPECT_EQ(reader.Next(TLV::AnonymousTag()), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_Structure);
EXPECT_EQ(reader.EnterContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(TLV::ProfileTag(0xFFFF, 0, 0xFFFF)), CHIP_NO_ERROR);
EXPECT_EQ(reader.GetType(), TLV::kTLVType_SignedInteger);
EXPECT_EQ(reader.Get(value), CHIP_NO_ERROR);
EXPECT_EQ(value, 123);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
EXPECT_EQ(reader.ExitContainer(tlvType), CHIP_NO_ERROR);
EXPECT_EQ(reader.Next(), CHIP_END_OF_TLV);
}
}
} // namespace