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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.
*/
#include <lib/dnssd/IncrementalResolve.h>
#include <string.h>
#include <lib/dnssd/minimal_mdns/core/tests/QNameStrings.h>
#include <lib/dnssd/minimal_mdns/records/IP.h>
#include <lib/dnssd/minimal_mdns/records/Ptr.h>
#include <lib/dnssd/minimal_mdns/records/ResourceRecord.h>
#include <lib/dnssd/minimal_mdns/records/Srv.h>
#include <lib/dnssd/minimal_mdns/records/Txt.h>
#include <lib/support/ScopedBuffer.h>
#include <lib/support/UnitTestRegistration.h>
#include <nlunit-test.h>
using namespace chip;
using namespace chip::Dnssd;
using namespace mdns::Minimal;
namespace {
// Operational names must be <compressed-fabric>-<node>._matter._tcp.local
const auto kTestOperationalName = testing::TestQName<4>({ "1234567898765432-ABCDEFEDCBAABCDE", "_matter", "_tcp", "local" });
// Commissionable names must be <instance>._matterc._udp.local
const auto kTestCommissionableNode = testing::TestQName<4>({ "C5038835313B8B98", "_matterc", "_udp", "local" });
// Commissioner names must be <instance>._matterd._udp.local
const auto kTestCommissionerNode = testing::TestQName<4>({ "C5038835313B8B98", "_matterd", "_udp", "local" });
// Server name that is preloaded by the `PreloadSrvRecord`
const auto kTestHostName = testing::TestQName<2>({ "abcd", "local" });
const auto kIrrelevantHostName = testing::TestQName<2>({ "different", "local" });
void PreloadSrvRecord(nlTestSuite * inSuite, SrvRecord & record)
{
uint8_t headerBuffer[HeaderRef::kSizeBytes] = {};
HeaderRef dummyHeader(headerBuffer);
// NOTE: record pointers persist beyond this function, so
// this data MUST be static
static uint8_t dataBuffer[256];
chip::Encoding::BigEndian::BufferWriter output(dataBuffer, sizeof(dataBuffer));
RecordWriter writer(&output);
NL_TEST_ASSERT(inSuite,
SrvResourceRecord(kTestOperationalName.Full(), kTestHostName.Full(), 0x1234 /* port */)
.Append(dummyHeader, ResourceType::kAnswer, writer));
ResourceData resource;
BytesRange packet(dataBuffer, dataBuffer + sizeof(dataBuffer));
const uint8_t * _ptr = dataBuffer;
NL_TEST_ASSERT(inSuite, resource.Parse(packet, &_ptr));
NL_TEST_ASSERT(inSuite, record.Parse(resource.GetData(), packet));
}
/// Convenience method to have a serialized QName.
/// Assumes valid QName data that is terminated by null.
template <size_t N>
static SerializedQNameIterator AsSerializedQName(const uint8_t (&v)[N])
{
// NOTE: the -1 is because we format these items as STRINGS and that
// appends an extra NULL terminator
return SerializedQNameIterator(BytesRange(v, v + N - 1), v);
}
void CallOnRecord(nlTestSuite * inSuite, IncrementalResolver & resolver, const ResourceRecord & record)
{
uint8_t headerBuffer[HeaderRef::kSizeBytes] = {};
HeaderRef dummyHeader(headerBuffer);
uint8_t dataBuffer[256];
chip::Encoding::BigEndian::BufferWriter output(dataBuffer, sizeof(dataBuffer));
RecordWriter writer(&output);
NL_TEST_ASSERT(inSuite, record.Append(dummyHeader, ResourceType::kAnswer, writer));
NL_TEST_ASSERT(inSuite, writer.Fit());
ResourceData resource;
BytesRange packet(dataBuffer, dataBuffer + sizeof(dataBuffer));
const uint8_t * _ptr = dataBuffer;
NL_TEST_ASSERT(inSuite, resource.Parse(packet, &_ptr));
NL_TEST_ASSERT(inSuite, resolver.OnRecord(chip::Inet::InterfaceId::Null(), resource, packet) == CHIP_NO_ERROR);
}
void TestStoredServerName(nlTestSuite * inSuite, void * inContext)
{
StoredServerName name;
// name should start of as cleared
NL_TEST_ASSERT(inSuite, !name.Get().Next());
// Data should be storable in server name
NL_TEST_ASSERT(inSuite, name.Set(kTestOperationalName.Serialized()) == CHIP_NO_ERROR);
NL_TEST_ASSERT(inSuite, name.Get() == kTestOperationalName.Serialized());
NL_TEST_ASSERT(inSuite, name.Get() != kTestCommissionerNode.Serialized());
NL_TEST_ASSERT(inSuite, name.Get() != kTestCommissionableNode.Serialized());
NL_TEST_ASSERT(inSuite, name.Set(kTestCommissionerNode.Serialized()) == CHIP_NO_ERROR);
NL_TEST_ASSERT(inSuite, name.Get() != kTestOperationalName.Serialized());
NL_TEST_ASSERT(inSuite, name.Get() == kTestCommissionerNode.Serialized());
NL_TEST_ASSERT(inSuite, name.Get() != kTestCommissionableNode.Serialized());
NL_TEST_ASSERT(inSuite, name.Set(kTestCommissionableNode.Serialized()) == CHIP_NO_ERROR);
NL_TEST_ASSERT(inSuite, name.Get() != kTestOperationalName.Serialized());
NL_TEST_ASSERT(inSuite, name.Get() != kTestCommissionerNode.Serialized());
NL_TEST_ASSERT(inSuite, name.Get() == kTestCommissionableNode.Serialized());
{
// setting to a too long value should reset it
uint8_t largeBuffer[256];
memset(largeBuffer, 0, sizeof(largeBuffer));
Encoding::BigEndian::BufferWriter writer(largeBuffer, sizeof(largeBuffer));
for (unsigned idx = 0; true; idx++)
{
writer.Put("\07abcd123"); // will not NULL-terminate, but buffer is 0-filled
if (!writer.Fit())
{
break; // filled all our tests
}
if (writer.WritePos() < 64)
{
// this is how much data can be fit by the copy
NL_TEST_ASSERT_LOOP(inSuite, idx, name.Set(AsSerializedQName(largeBuffer)) == CHIP_NO_ERROR);
NL_TEST_ASSERT_LOOP(inSuite, idx, name.Get() == AsSerializedQName(largeBuffer));
NL_TEST_ASSERT_LOOP(inSuite, idx, name.Get() != kTestOperationalName.Serialized());
}
else
{
NL_TEST_ASSERT_LOOP(inSuite, idx, name.Set(AsSerializedQName(largeBuffer)) == CHIP_ERROR_NO_MEMORY);
NL_TEST_ASSERT_LOOP(inSuite, idx, !name.Get().Next());
}
}
}
}
void TestCreation(nlTestSuite * inSuite, void * inContext)
{
IncrementalResolver resolver;
NL_TEST_ASSERT(inSuite, !resolver.IsActive());
NL_TEST_ASSERT(inSuite, !resolver.IsActiveCommissionParse());
NL_TEST_ASSERT(inSuite, !resolver.IsActiveOperationalParse());
NL_TEST_ASSERT(
inSuite,
resolver.GetMissingRequiredInformation().HasOnly(IncrementalResolver::RequiredInformationBitFlags::kSrvInitialization));
}
void TestInactiveResetOnInitError(nlTestSuite * inSuite, void * inContext)
{
IncrementalResolver resolver;
NL_TEST_ASSERT(inSuite, !resolver.IsActive());
SrvRecord srvRecord;
PreloadSrvRecord(inSuite, srvRecord);
// test host name is not a 'matter' name
NL_TEST_ASSERT(inSuite, resolver.InitializeParsing(kTestHostName.Serialized(), srvRecord) != CHIP_NO_ERROR);
NL_TEST_ASSERT(inSuite, !resolver.IsActive());
NL_TEST_ASSERT(inSuite, !resolver.IsActiveCommissionParse());
NL_TEST_ASSERT(inSuite, !resolver.IsActiveOperationalParse());
}
void TestStartOperational(nlTestSuite * inSuite, void * inContext)
{
IncrementalResolver resolver;
NL_TEST_ASSERT(inSuite, !resolver.IsActive());
SrvRecord srvRecord;
PreloadSrvRecord(inSuite, srvRecord);
NL_TEST_ASSERT(inSuite, resolver.InitializeParsing(kTestOperationalName.Serialized(), srvRecord) == CHIP_NO_ERROR);
NL_TEST_ASSERT(inSuite, resolver.IsActive());
NL_TEST_ASSERT(inSuite, !resolver.IsActiveCommissionParse());
NL_TEST_ASSERT(inSuite, resolver.IsActiveOperationalParse());
NL_TEST_ASSERT(inSuite,
resolver.GetMissingRequiredInformation().HasOnly(IncrementalResolver::RequiredInformationBitFlags::kIpAddress));
NL_TEST_ASSERT(inSuite, resolver.GetTargetHostName() == kTestHostName.Serialized());
}
void TestStartCommissionable(nlTestSuite * inSuite, void * inContext)
{
IncrementalResolver resolver;
NL_TEST_ASSERT(inSuite, !resolver.IsActive());
SrvRecord srvRecord;
PreloadSrvRecord(inSuite, srvRecord);
NL_TEST_ASSERT(inSuite, resolver.InitializeParsing(kTestCommissionableNode.Serialized(), srvRecord) == CHIP_NO_ERROR);
NL_TEST_ASSERT(inSuite, resolver.IsActive());
NL_TEST_ASSERT(inSuite, resolver.IsActiveCommissionParse());
NL_TEST_ASSERT(inSuite, !resolver.IsActiveOperationalParse());
NL_TEST_ASSERT(inSuite,
resolver.GetMissingRequiredInformation().HasOnly(IncrementalResolver::RequiredInformationBitFlags::kIpAddress));
NL_TEST_ASSERT(inSuite, resolver.GetTargetHostName() == kTestHostName.Serialized());
}
void TestStartCommissioner(nlTestSuite * inSuite, void * inContext)
{
IncrementalResolver resolver;
NL_TEST_ASSERT(inSuite, !resolver.IsActive());
SrvRecord srvRecord;
PreloadSrvRecord(inSuite, srvRecord);
NL_TEST_ASSERT(inSuite, resolver.InitializeParsing(kTestCommissionerNode.Serialized(), srvRecord) == CHIP_NO_ERROR);
NL_TEST_ASSERT(inSuite, resolver.IsActive());
NL_TEST_ASSERT(inSuite, resolver.IsActiveCommissionParse());
NL_TEST_ASSERT(inSuite, !resolver.IsActiveOperationalParse());
NL_TEST_ASSERT(inSuite,
resolver.GetMissingRequiredInformation().HasOnly(IncrementalResolver::RequiredInformationBitFlags::kIpAddress));
NL_TEST_ASSERT(inSuite, resolver.GetTargetHostName() == kTestHostName.Serialized());
}
void TestParseOperational(nlTestSuite * inSuite, void * inContext)
{
IncrementalResolver resolver;
NL_TEST_ASSERT(inSuite, !resolver.IsActive());
SrvRecord srvRecord;
PreloadSrvRecord(inSuite, srvRecord);
NL_TEST_ASSERT(inSuite, resolver.InitializeParsing(kTestOperationalName.Serialized(), srvRecord) == CHIP_NO_ERROR);
// once initialized, parsing should be ready however no IP address is available
NL_TEST_ASSERT(inSuite, resolver.IsActiveOperationalParse());
NL_TEST_ASSERT(inSuite,
resolver.GetMissingRequiredInformation().HasOnly(IncrementalResolver::RequiredInformationBitFlags::kIpAddress));
NL_TEST_ASSERT(inSuite, resolver.GetTargetHostName() == kTestHostName.Serialized());
// Send an IP for an irrelevant host name
{
Inet::IPAddress addr;
NL_TEST_ASSERT(inSuite, Inet::IPAddress::FromString("fe80::aabb:ccdd:2233:4455", addr));
CallOnRecord(inSuite, resolver, IPResourceRecord(kIrrelevantHostName.Full(), addr));
}
// Send a useful IP address here
{
Inet::IPAddress addr;
NL_TEST_ASSERT(inSuite, Inet::IPAddress::FromString("fe80::abcd:ef11:2233:4455", addr));
CallOnRecord(inSuite, resolver, IPResourceRecord(kTestHostName.Full(), addr));
}
// Send a TXT record for an irrelevant host name
// Note that TXT entries should be addressed to the Record address and
// NOT to the server name for A/AAAA records
{
const char * entries[] = {
"some", "foo=bar", "x=y=z", "a=", // unused data
"T=1" // TCP supported
};
CallOnRecord(inSuite, resolver, TxtResourceRecord(kTestHostName.Full(), entries));
}
// Adding actual text entries that are useful
// Note that TXT entries should be addressed to the Record address and
// NOT to the server name for A/AAAA records
{
const char * entries[] = {
"foo=bar", // unused data
"SII=23" // session idle interval
};
CallOnRecord(inSuite, resolver, TxtResourceRecord(kTestOperationalName.Full(), entries));
}
// Resolver should have all data
NL_TEST_ASSERT(inSuite, !resolver.GetMissingRequiredInformation().HasAny());
// At this point taking value should work. Once taken, the resolver is reset.
ResolvedNodeData nodeData;
NL_TEST_ASSERT(inSuite, resolver.Take(nodeData) == CHIP_NO_ERROR);
NL_TEST_ASSERT(inSuite, !resolver.IsActive());
// validate data as it was passed in
NL_TEST_ASSERT(inSuite,
nodeData.operationalData.peerId ==
PeerId().SetCompressedFabricId(0x1234567898765432LL).SetNodeId(0xABCDEFEDCBAABCDELL));
NL_TEST_ASSERT(inSuite, nodeData.resolutionData.numIPs == 1);
NL_TEST_ASSERT(inSuite, nodeData.resolutionData.port == 0x1234);
NL_TEST_ASSERT(inSuite, !nodeData.resolutionData.supportsTcp);
NL_TEST_ASSERT(inSuite, !nodeData.resolutionData.GetMrpRetryIntervalActive().HasValue());
NL_TEST_ASSERT(inSuite, nodeData.resolutionData.GetMrpRetryIntervalIdle().HasValue());
NL_TEST_ASSERT(inSuite, nodeData.resolutionData.GetMrpRetryIntervalIdle().Value() == chip::System::Clock::Milliseconds32(23));
Inet::IPAddress addr;
NL_TEST_ASSERT(inSuite, Inet::IPAddress::FromString("fe80::abcd:ef11:2233:4455", addr));
NL_TEST_ASSERT(inSuite, nodeData.resolutionData.ipAddress[0] == addr);
}
void TestParseCommissionable(nlTestSuite * inSuite, void * inContext)
{
IncrementalResolver resolver;
NL_TEST_ASSERT(inSuite, !resolver.IsActive());
SrvRecord srvRecord;
PreloadSrvRecord(inSuite, srvRecord);
NL_TEST_ASSERT(inSuite, resolver.InitializeParsing(kTestCommissionableNode.Serialized(), srvRecord) == CHIP_NO_ERROR);
// once initialized, parsing should be ready however no IP address is available
NL_TEST_ASSERT(inSuite, resolver.IsActiveCommissionParse());
NL_TEST_ASSERT(inSuite,
resolver.GetMissingRequiredInformation().HasOnly(IncrementalResolver::RequiredInformationBitFlags::kIpAddress));
NL_TEST_ASSERT(inSuite, resolver.GetTargetHostName() == kTestHostName.Serialized());
// Send an IP for an irrelevant host name
{
Inet::IPAddress addr;
NL_TEST_ASSERT(inSuite, Inet::IPAddress::FromString("fe80::aabb:ccdd:2233:4455", addr));
CallOnRecord(inSuite, resolver, IPResourceRecord(kIrrelevantHostName.Full(), addr));
}
// Send a useful IP address here
{
Inet::IPAddress addr;
NL_TEST_ASSERT(inSuite, Inet::IPAddress::FromString("fe80::abcd:ef11:2233:4455", addr));
CallOnRecord(inSuite, resolver, IPResourceRecord(kTestHostName.Full(), addr));
}
// Send another IP address
{
Inet::IPAddress addr;
NL_TEST_ASSERT(inSuite, Inet::IPAddress::FromString("fe80::f0f1:f2f3:f4f5:1234", addr));
CallOnRecord(inSuite, resolver, IPResourceRecord(kTestHostName.Full(), addr));
}
// Send a TXT record for an irrelevant host name
// Note that TXT entries should be addressed to the Record address and
// NOT to the server name for A/AAAA records
{
const char * entries[] = {
"some", "foo=bar", "x=y=z", "a=", // unused data
"SII=123" // session idle interval
};
CallOnRecord(inSuite, resolver, TxtResourceRecord(kTestHostName.Full(), entries));
}
// Adding actual text entries that are useful
// Note that TXT entries should be addressed to the Record address and
// NOT to the server name for A/AAAA records
{
const char * entries[] = {
"foo=bar", // unused data
"SAI=321", // session active interval
"D=22345", // Long discriminator
"VP=321+654", // VendorProduct
"DN=mytest" // Device name
};
CallOnRecord(inSuite, resolver, TxtResourceRecord(kTestCommissionableNode.Full(), entries));
}
// Resolver should have all data
NL_TEST_ASSERT(inSuite, !resolver.GetMissingRequiredInformation().HasAny());
// At this point taking value should work. Once taken, the resolver is reset.
DiscoveredNodeData nodeData;
NL_TEST_ASSERT(inSuite, resolver.Take(nodeData) == CHIP_NO_ERROR);
NL_TEST_ASSERT(inSuite, !resolver.IsActive());
// validate data as it was passed in
NL_TEST_ASSERT(inSuite, nodeData.resolutionData.numIPs == 2);
NL_TEST_ASSERT(inSuite, nodeData.resolutionData.port == 0x1234);
NL_TEST_ASSERT(inSuite, !nodeData.resolutionData.supportsTcp);
NL_TEST_ASSERT(inSuite, nodeData.resolutionData.GetMrpRetryIntervalActive().HasValue());
NL_TEST_ASSERT(inSuite,
nodeData.resolutionData.GetMrpRetryIntervalActive().Value() == chip::System::Clock::Milliseconds32(321));
NL_TEST_ASSERT(inSuite, !nodeData.resolutionData.GetMrpRetryIntervalIdle().HasValue());
Inet::IPAddress addr;
NL_TEST_ASSERT(inSuite, Inet::IPAddress::FromString("fe80::abcd:ef11:2233:4455", addr));
NL_TEST_ASSERT(inSuite, nodeData.resolutionData.ipAddress[0] == addr);
NL_TEST_ASSERT(inSuite, Inet::IPAddress::FromString("fe80::f0f1:f2f3:f4f5:1234", addr));
NL_TEST_ASSERT(inSuite, nodeData.resolutionData.ipAddress[1] == addr);
// parsed txt data for discovered nodes
NL_TEST_ASSERT(inSuite, nodeData.commissionData.longDiscriminator == 22345);
NL_TEST_ASSERT(inSuite, nodeData.commissionData.vendorId == 321);
NL_TEST_ASSERT(inSuite, nodeData.commissionData.productId == 654);
NL_TEST_ASSERT(inSuite, strcmp(nodeData.commissionData.deviceName, "mytest") == 0);
}
const nlTest sTests[] = {
// Tests for helper class
NL_TEST_DEF("StoredServerName", TestStoredServerName), //
// Actual resolver tests
NL_TEST_DEF("Creation", TestCreation), //
NL_TEST_DEF("InactiveResetOnInitError", TestInactiveResetOnInitError), //
NL_TEST_DEF("StartOperational", TestStartOperational), //
NL_TEST_DEF("StartCommissionable", TestStartCommissionable), //
NL_TEST_DEF("StartCommissioner", TestStartCommissioner), //
NL_TEST_DEF("ParseOperational", TestParseOperational), //
NL_TEST_DEF("ParseCommissionable", TestParseCommissionable), //
NL_TEST_SENTINEL() //
};
} // namespace
int TestChipDnsSdIncrementalResolve()
{
nlTestSuite theSuite = { "IncrementalResolve", &sTests[0], nullptr, nullptr };
nlTestRunner(&theSuite, nullptr);
return nlTestRunnerStats(&theSuite);
}
CHIP_REGISTER_TEST_SUITE(TestChipDnsSdIncrementalResolve)