/* * * Copyright (c) 2020 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 #include #include #include #include #include namespace { using namespace chip; using namespace chip::Encoding; using namespace chip::Inet; using namespace mdns::Minimal; constexpr uint16_t kMdnsPort = 5353; const QNamePart kNames[] = { "some", "test", "local" }; const QNamePart kTargetNames[] = { "point", "to", "this" }; class PtrResponseAccumulator : public ResponderDelegate { public: PtrResponseAccumulator(const uint32_t expectedTtl) : mExpectedTtl(expectedTtl) {} void AddResponse(const ResourceRecord & record) override { EXPECT_EQ(record.GetType(), QType::PTR); EXPECT_EQ(record.GetClass(), QClass::IN); EXPECT_EQ(record.GetName(), kNames); if (record.GetType() == QType::PTR) { uint8_t headerBuffer[HeaderRef::kSizeBytes]; uint8_t buffer[128]; BigEndian::BufferWriter out(buffer, sizeof(buffer)); RecordWriter writer(&out); HeaderRef hdr(headerBuffer); hdr.Clear(); EXPECT_TRUE(record.Append(hdr, ResourceType::kAnswer, writer)); ResourceData data; SerializedQNameIterator target; const uint8_t * start = buffer; EXPECT_TRUE(out.Fit()); BytesRange validDataRange(buffer, buffer + out.Needed()); EXPECT_TRUE(data.Parse(validDataRange, &start)); EXPECT_EQ(start, (buffer + out.Needed())); EXPECT_EQ(data.GetName(), FullQName(kNames)); EXPECT_EQ(data.GetType(), QType::PTR); EXPECT_EQ(data.GetTtlSeconds(), mExpectedTtl); EXPECT_TRUE(ParsePtrRecord(data.GetData(), validDataRange, &target)); EXPECT_EQ(target, FullQName(kTargetNames)); } } private: const uint32_t mExpectedTtl; }; TEST(TestPtrResponder, TestPtrResponse) { IPAddress ipAddress; EXPECT_TRUE(IPAddress::FromString("2607:f8b0:4005:804::200e", ipAddress)); PtrResponder responder(kNames, kTargetNames); EXPECT_EQ(responder.GetQClass(), QClass::IN); EXPECT_EQ(responder.GetQType(), QType::PTR); EXPECT_EQ(responder.GetQName(), kNames); PtrResponseAccumulator acc(ResourceRecord::kDefaultTtl); chip::Inet::IPPacketInfo packetInfo; packetInfo.SrcAddress = ipAddress; packetInfo.DestAddress = ipAddress; packetInfo.SrcPort = kMdnsPort; packetInfo.DestPort = kMdnsPort; packetInfo.Interface = InterfaceId::Null(); responder.AddAllResponses(&packetInfo, &acc, ResponseConfiguration()); } TEST(TestPtrResponder, TestPtrResponseOverrideTtl) { IPAddress ipAddress; EXPECT_TRUE(IPAddress::FromString("2607:f8b0:4005:804::200e", ipAddress)); PtrResponder responder(kNames, kTargetNames); EXPECT_EQ(responder.GetQClass(), QClass::IN); EXPECT_EQ(responder.GetQType(), QType::PTR); EXPECT_EQ(responder.GetQName(), kNames); PtrResponseAccumulator acc(123); chip::Inet::IPPacketInfo packetInfo; packetInfo.SrcAddress = ipAddress; packetInfo.DestAddress = ipAddress; packetInfo.SrcPort = kMdnsPort; packetInfo.DestPort = kMdnsPort; packetInfo.Interface = InterfaceId::Null(); responder.AddAllResponses(&packetInfo, &acc, ResponseConfiguration().SetTtlSecondsOverride(123)); } } // namespace