HRESULT CBehaviorTest::GetMessage(CRefCountedBuffer& spMsg, CSocketAddress* pAddrDest)
{
HRESULT hr = S_OK;
ASSERT(spMsg->GetAllocatedSize() > 0);
ASSERT(pAddrDest);
StunChangeRequestAttribute attribChangeRequest = {};
CStunMessageBuilder builder;
builder.GetStream().Attach(spMsg, true);
StartBindingRequest(builder);
builder.AddChangeRequest(attribChangeRequest); // adding a blank CHANGE-REQUEST, because a JSTUN server will not respond if the request doesn't have one
builder.FixLengthField();
if (_fIsTest3 == false)
{
*pAddrDest = _pResults->addrAP;
}
else
{
*pAddrDest = _pResults->addrAA;
}
return hr;
}
HRESULT CFilteringTest::GetMessage(CRefCountedBuffer& spMsg, CSocketAddress* pAddrDest)
{
CStunMessageBuilder builder;
StunChangeRequestAttribute change;
builder.GetStream().Attach(spMsg, true);
StartBindingRequest(builder);
*pAddrDest = _pConfig->addrServer;
if (_fIsTest3 == false)
{
change.fChangeIP = true;
change.fChangePort = true;
builder.AddChangeRequest(change);
}
else
{
change.fChangeIP = false;
change.fChangePort = true;
builder.AddChangeRequest(change);
}
builder.FixLengthField();
return S_OK;
}
HRESULT CTestMessageHandler::InitBindingRequest(CStunMessageBuilder& builder)
{
StunTransactionId transid;
builder.AddHeader(StunMsgTypeBinding, StunMsgClassRequest);
builder.AddRandomTransactionId(&transid);
builder.FixLengthField();
return S_OK;
}
// Test1 - just do a basic binding request
HRESULT CTestMessageHandler::Test1()
{
HRESULT hr = S_OK;
CStunMessageBuilder builder;
CRefCountedBuffer spBuffer, spBufferOut(new CBuffer(MAX_STUN_MESSAGE_SIZE));
CStunMessageReader reader;
StunMessageIn msgIn;
StunMessageOut msgOut;
TransportAddressSet tas = {};
InitTransportAddressSet(tas, true, true, true, true);
ChkA(InitBindingRequest(builder));
Chk(builder.GetResult(&spBuffer));
ChkIfA(CStunMessageReader::BodyValidated != reader.AddBytes(spBuffer->GetData(), spBuffer->GetSize()), E_FAIL);
// a message send to the PP socket on the server from the
msgIn.socketrole = RolePP;
msgIn.addrRemote = _addrMapped;
msgIn.pReader = &reader;
msgIn.addrLocal = _addrServerPP;
msgIn.fConnectionOriented = false;
spBuffer.reset();
msgOut.spBufferOut = spBufferOut;
msgOut.socketrole = RoleAA; // deliberately wrong - so we can validate if it got changed to RolePP
ChkA(CStunRequestHandler::ProcessRequest(msgIn, msgOut, &tas, NULL));
reader.Reset();
ChkIfA(CStunMessageReader::BodyValidated != reader.AddBytes(spBufferOut->GetData(), spBufferOut->GetSize()), E_FAIL);
// validate that the message returned is a success response for a binding request
ChkIfA(reader.GetMessageClass() != StunMsgClassSuccessResponse, E_FAIL);
ChkIfA(reader.GetMessageType() != (uint16_t)StunMsgTypeBinding, E_FAIL);
// Validate that the message came from the server port we expected
// and that it's the same address the server set for the origin address
ChkIfA(msgOut.socketrole != RolePP, E_FAIL);
ChkA(ValidateResponseOriginAddress(reader, _addrServerPP));
ChkIfA(msgOut.addrDest.IsSameIP_and_Port(_addrMapped)==false, E_FAIL);
// validate that the mapping was done correctly
ChkA(ValidateMappedAddress(reader, _addrMapped, false));
ChkA(ValidateOtherAddress(reader, _addrServerAA));
Cleanup:
return hr;
}
// This test validates that the construction and parsing of the message integrity attribute in a stun message works as expected
// The test also validates both short term and long term credential modes with or without the presence of a fingerprint attribute
HRESULT CTestIntegrity::TestMessageIntegrity(bool fWithFingerprint, bool fLongCredentials)
{
HRESULT hr = S_OK;
const char* pszUserName = "******";
const char* pszRealm = "stunrealm";
const char* pszPassword = "******";
CStunMessageBuilder builder;
CStunMessageReader reader;
uint8_t *pMsg = NULL;
size_t sizeMsg = 0;
CStunMessageReader::ReaderParseState state;
CRefCountedBuffer spBuffer;
builder.AddBindingRequestHeader();
builder.AddRandomTransactionId(NULL);
builder.AddUserName(pszUserName);
builder.AddRealm(pszRealm);
if (fLongCredentials == false)
{
Chk(builder.AddMessageIntegrityShortTerm(pszPassword));
}
else
{
Chk(builder.AddMessageIntegrityLongTerm(pszUserName, pszRealm, pszPassword));
}
if (fWithFingerprint)
{
builder.AddFingerprintAttribute();
}
Chk(builder.GetResult(&spBuffer));
pMsg = spBuffer->GetData();
sizeMsg = spBuffer->GetSize();
state = reader.AddBytes(pMsg, sizeMsg);
ChkIfA(state != CStunMessageReader::BodyValidated, E_FAIL);
ChkIfA(reader.HasMessageIntegrityAttribute()==false, E_FAIL);
if (fLongCredentials == false)
{
ChkA(reader.ValidateMessageIntegrityShort(pszPassword));
}
else
{
ChkA(reader.ValidateMessageIntegrityLong(pszUserName, pszRealm, pszPassword));
}
Cleanup:
return hr;
}
HRESULT CStunClientTestBase::StartBindingRequest(CStunMessageBuilder& builder)
{
builder.AddBindingRequestHeader();
if (IsTransactionIdValid(_transid))
{
builder.AddTransactionId(_transid);
}
else
{
builder.AddRandomTransactionId(&_transid);
}
return S_OK;
}
// Test1 - just do a basic binding request
HRESULT CTestMessageHandler::Test1()
{
HRESULT hr=S_OK;
CStunMessageBuilder builder;
CSocketAddress clientaddr(0x12345678, 9876);
CRefCountedBuffer spBuffer;
CStunThreadMessageHandler handler;
CStunMessageReader reader;
CStunMessageReader::ReaderParseState state;
StunMessageEnvelope message;
_spTransport->Reset();
_spTransport->AddPP(CSocketAddress(0xaaaaaaaa, 1234));
InitBindingRequest(builder);
builder.GetStream().GetBuffer(&spBuffer);
handler.SetResponder(_spTransport);
message.localSocket = RolePP;
message.remoteAddr = clientaddr;
message.spBuffer = spBuffer;
_spTransport->GetSocketAddressForRole(message.localSocket, &(message.localAddr));
handler.ProcessRequest(message);
spBuffer.reset();
_spTransport->GetOutputStream().GetBuffer(&spBuffer);
state = reader.AddBytes(spBuffer->GetData(), spBuffer->GetSize());
ChkIfA(state != CStunMessageReader::BodyValidated, E_FAIL);
// validate that the binding response matches our expectations
ChkA(ValidateMappedAddress(reader, clientaddr));
// validate that it came from the server port we expected
ChkA(ValidateOriginAddress(reader, RolePP));
// did we get back the binding request we expected
ChkA(ValidateResponseAddress(clientaddr));
Cleanup:
return hr;
}
HRESULT CTestMessageHandler::SendHelper(CStunMessageBuilder& builderRequest, CStunMessageReader* pReaderResponse, IStunAuth* pAuth)
{
CRefCountedBuffer spBufferRequest;
CRefCountedBuffer spBufferResponse(new CBuffer(MAX_STUN_MESSAGE_SIZE));
StunMessageIn msgIn;
StunMessageOut msgOut;
CStunMessageReader reader;
CSocketAddress addrDest;
TransportAddressSet tas;
HRESULT hr = S_OK;
InitTransportAddressSet(tas, true, true, true, true);
builderRequest.GetResult(&spBufferRequest);
ChkIf(CStunMessageReader::BodyValidated != reader.AddBytes(spBufferRequest->GetData(), spBufferRequest->GetSize()), E_FAIL);
msgIn.fConnectionOriented = false;
msgIn.addrLocal = _addrServerPP;
msgIn.pReader = &reader;
msgIn.socketrole = RolePP;
msgIn.addrRemote = _addrMapped;
msgOut.spBufferOut = spBufferResponse;
ChkA(CStunRequestHandler::ProcessRequest(msgIn, msgOut, &tas, pAuth));
ChkIf(CStunMessageReader::BodyValidated != pReaderResponse->AddBytes(spBufferResponse->GetData(), spBufferResponse->GetSize()), E_FAIL);
Cleanup:
return hr;
}
HRESULT CBasicBindingTest::GetMessage(CRefCountedBuffer& spMsg, CSocketAddress* pAddrDest)
{
HRESULT hr = S_OK;
ASSERT(spMsg->GetAllocatedSize() > 0);
ASSERT(pAddrDest);
ASSERT(_fInit);
CStunMessageBuilder builder;
builder.GetStream().Attach(spMsg, true);
Chk(StartBindingRequest(builder));
builder.FixLengthField();
*pAddrDest = _pConfig->addrServer;
Cleanup:
return hr;
}
// this test validates that IPV6 addresses work fine with CStunMessageBuilder and CStunMessageReader
HRESULT CTestBuilder::Test2()
{
HRESULT hr = S_OK;
CSocketAddress addr(0,0);
CSocketAddress addrValidate(0,0);
const char* ip6addr = "ABCDEFGHIJKLMNOP";
sockaddr_in6 addr6 = {};
CStunMessageReader reader;
StunTransactionId transid;
CStunMessageBuilder builder;
CRefCountedBuffer spBuffer;
addr6.sin6_family = AF_INET6;
addr6.sin6_port = htons(9999);
memcpy(addr6.sin6_addr.s6_addr, ip6addr, 16);
addr = CSocketAddress(addr6);
ChkA(builder.AddHeader(StunMsgTypeBinding, StunMsgClassRequest));
ChkA(builder.AddRandomTransactionId(&transid));
ChkA(builder.AddMappedAddress(addr));
ChkA(builder.AddXorMappedAddress(addr));
ChkA(builder.GetResult(&spBuffer));
ChkIfA(CStunMessageReader::BodyValidated != reader.AddBytes(spBuffer->GetData(), spBuffer->GetSize()), E_FAIL);
ChkA(reader.GetXorMappedAddress(&addrValidate));
ChkIf(addrValidate.IsSameIP_and_Port(addr) == false, E_FAIL);
Cleanup:
return hr;
}
HRESULT CBehaviorTest::GetMessage(CRefCountedBuffer& spMsg, CSocketAddress* pAddrDest)
{
HRESULT hr = S_OK;
ASSERT(spMsg->GetAllocatedSize() > 0);
ASSERT(pAddrDest);
CStunMessageBuilder builder;
builder.GetStream().Attach(spMsg, true);
StartBindingRequest(builder);
builder.FixLengthField();
if (_fIsTest3 == false)
{
*pAddrDest = _pResults->addrAP;
}
else
{
*pAddrDest = _pResults->addrAA;
}
return hr;
}
void CStunThreadMessageHandler::SendErrorResponse()
{
HRESULT hr = S_OK;
CStunMessageBuilder builder;
CRefCountedBuffer spBuffer;
_spResponseBuffer->SetSize(0);
builder.GetStream().Attach(_spResponseBuffer, true);
builder.AddHeader((StunMessageType)_error.msgtype, _error.msgclass);
builder.AddTransactionId(_transid);
builder.AddErrorCode(_error.errorcode, "FAILED");
if ((_error.errorcode == ::STUN_ERROR_UNKNOWNATTRIB) && (_error.attribUnknown != 0))
{
builder.AddUnknownAttributes(&_error.attribUnknown, 1);
}
else if ((_error.errorcode == ::STUN_ERROR_STALENONCE) || (_error.errorcode == ::STUN_ERROR_UNAUTHORIZED))
{
if (_error.szNonce[0])
{
builder.AddStringAttribute(STUN_ATTRIBUTE_NONCE, _error.szNonce);
}
if (_error.szRealm[0])
{
builder.AddStringAttribute(STUN_ATTRIBUTE_REALM, _error.szRealm);
}
}
ChkIfA(_spStunResponder == NULL, E_FAIL);
builder.GetResult(&spBuffer);
ASSERT(spBuffer->GetSize() != 0);
ASSERT(spBuffer == _spResponseBuffer);
_spStunResponder->SendResponse(_socketOutput, _addrResponse, spBuffer);
Cleanup:
return;
}
HRESULT CBasicBindingTest::GetMessage(CRefCountedBuffer& spMsg, CSocketAddress* pAddrDest)
{
StunChangeRequestAttribute attribChangeRequest = {};
HRESULT hr = S_OK;
ASSERT(spMsg->GetAllocatedSize() > 0);
ASSERT(pAddrDest);
ASSERT(_fInit);
CStunMessageBuilder builder;
builder.GetStream().Attach(spMsg, true);
Chk(StartBindingRequest(builder));
builder.AddChangeRequest(attribChangeRequest); // adding a blank CHANGE-REQUEST, because a JSTUN server will not respond if the request doesn't have one
builder.FixLengthField();
*pAddrDest = _pConfig->addrServer;
Cleanup:
return hr;
}
HRESULT CTestClientLogic::GenerateBindingResponseMessage(const CSocketAddress& addrMapped, const StunTransactionId& transid, CRefCountedBuffer& spMsg)
{
HRESULT hr = S_OK;
CStunMessageBuilder builder;
builder.GetStream().Attach(spMsg, true);
ChkA(builder.AddBindingResponseHeader(true));
ChkA(builder.AddTransactionId(transid));
ChkA(builder.AddXorMappedAddress(addrMapped));
ChkA(builder.FixLengthField());
Cleanup:
return hr;
}
HRESULT CStunThreadMessageHandler::ProcessBindingRequest(CStunMessageReader& reader)
{
HRESULT hrTmp;
bool fRequestHasPaddingAttribute = false;
SocketRole socketOutput = _message.localSocket;
StunChangeRequestAttribute changerequest = {};
bool fSendOtherAddress = false;
bool fSendOriginAddress = false;
SocketRole socketOther;
CSocketAddress addrOrigin;
CSocketAddress addrOther;
CStunMessageBuilder builder;
uint16_t paddingSize = 0;
bool fLegacyFormat = false; // set to true if the client appears to be rfc3489 based instead of based on rfc 5789
_spResponseBuffer->SetSize(0);
builder.GetStream().Attach(_spResponseBuffer, true);
fLegacyFormat = reader.IsMessageLegacyFormat();
// check for an alternate response port
// check for padding attribute (todo - figure out how to inject padding into the response)
// check for a change request and validate we can do it. If so, set _socketOutput. If not, fill out _error and return.
// determine if we have an "other" address to notify the caller about
// did the request come with a padding request
if (SUCCEEDED(reader.GetPaddingAttributeSize(&paddingSize)))
{
// todo - figure out how we're going to get the MTU size of the outgoing interface
fRequestHasPaddingAttribute = true;
}
// as per 5780, section 6.1, If the Request contained a PADDING attribute...
// "If the Request also contains the RESPONSE-PORT attribute the server MUST return an error response of type 400."
if (_fRequestHasResponsePort && fRequestHasPaddingAttribute)
{
_error.errorcode = STUN_ERROR_BADREQUEST;
return E_FAIL;
}
// handle change request logic and figure out what "other-address" attribute is going to be
if (SUCCEEDED(reader.GetChangeRequest(&changerequest)))
{
if (changerequest.fChangeIP)
{
socketOutput = SocketRoleSwapIP(socketOutput);
}
if(changerequest.fChangePort)
{
socketOutput = SocketRoleSwapPort(socketOutput);
}
// IsValidSocketRole just validates the enum, not whether or not we can send on it
ASSERT(IsValidSocketRole(socketOutput));
// now, make sure we have the ability to send from another socket
if (_spStunResponder->HasAddress(socketOutput) == false)
{
// send back an error. We're being asked to respond using another address that we don't have a socket for
_error.errorcode = STUN_ERROR_BADREQUEST;
return E_FAIL;
}
}
// If we're only working one socket, then that's ok, we just don't send back an "other address" unless we have all four sockets confgiured
// now here's a problem. If we binded to "INADDR_ANY", all of the sockets will have "0.0.0.0" for an address (same for IPV6)
// So we effectively can't send back "other address" if don't really know our own IP address
// Fortunately, recvfromex and the ioctls on the socket allow address discovery a bit better
fSendOtherAddress = (_spStunResponder->HasAddress(RolePP) && _spStunResponder->HasAddress(RolePA) && _spStunResponder->HasAddress(RoleAP) && _spStunResponder->HasAddress(RoleAA));
if (fSendOtherAddress)
{
socketOther = SocketRoleSwapIP(SocketRoleSwapPort(_message.localSocket));
hrTmp = _spStunResponder->GetSocketAddressForRole(socketOther, &addrOther);
ASSERT(SUCCEEDED(hrTmp));
// so if our ip address is "0.0.0.0", disable this attribute
fSendOtherAddress = (SUCCEEDED(hrTmp) && (addrOther.IsIPAddressZero()==false));
}
// What's our address origin?
VERIFY(SUCCEEDED(_spStunResponder->GetSocketAddressForRole(socketOutput, &addrOrigin)));
if (addrOrigin.IsIPAddressZero())
{
// Since we're sending back from the IP address we received on, we can just use the address the message came in on
// Otherwise, we don't actually know it
if (socketOutput == _message.localSocket)
{
addrOrigin = _message.localAddr;
}
}
fSendOriginAddress = (false == addrOrigin.IsIPAddressZero());
// Success - we're all clear to build the response
_socketOutput = socketOutput;
_spResponseBuffer->SetSize(0);
builder.GetStream().Attach(_spResponseBuffer, true);
builder.AddHeader(StunMsgTypeBinding, StunMsgClassSuccessResponse);
builder.AddTransactionId(_transid);
builder.AddMappedAddress(_message.remoteAddr);
if (fLegacyFormat == false)
{
builder.AddXorMappedAddress(_message.remoteAddr);
}
if (fSendOriginAddress)
{
builder.AddResponseOriginAddress(addrOrigin);
}
if (fSendOtherAddress)
{
builder.AddOtherAddress(addrOther, fLegacyFormat); // pass true to send back CHANGED-ADDRESS, otherwise, pass false to send back OTHER-ADDRESS
}
// finally - if we're supposed to have a message integrity attribute as a result of authorization, add it at the very end
if (_integrity.fSendWithIntegrity)
{
if (_integrity.fUseLongTerm == false)
{
builder.AddMessageIntegrityShortTerm(_integrity.szPassword);
}
else
{
builder.AddMessageIntegrityLongTerm(_integrity.szUser, _integrity.szRealm, _integrity.szPassword);
}
}
builder.FixLengthField();
return S_OK;
}
// Test2 - send a binding request to a duplex server instructing it to send back on it's alternate port and alternate IP to an alternate client port
HRESULT CTestMessageHandler::Test2()
{
HRESULT hr = S_OK;
CStunMessageBuilder builder;
CRefCountedBuffer spBuffer, spBufferOut(new CBuffer(MAX_STUN_MESSAGE_SIZE));
CStunMessageReader reader;
StunMessageIn msgIn;
StunMessageOut msgOut;
TransportAddressSet tas = {};
uint16_t responsePort = 2222;
StunChangeRequestAttribute changereq;
CStunMessageReader::ReaderParseState state;
CSocketAddress addrDestExpected;
InitTransportAddressSet(tas, true, true, true, true);
InitBindingRequest(builder);
builder.AddResponsePort(responsePort);
changereq.fChangeIP = true;
changereq.fChangePort = true;
builder.AddChangeRequest(changereq);
builder.AddResponsePort(responsePort);
builder.GetResult(&spBuffer);
ChkIfA(CStunMessageReader::BodyValidated != reader.AddBytes(spBuffer->GetData(), spBuffer->GetSize()), E_FAIL);
msgIn.fConnectionOriented = false;
msgIn.addrLocal = _addrServerPP;
msgIn.pReader = &reader;
msgIn.socketrole = RolePP;
msgIn.addrRemote = _addrMapped;
msgOut.socketrole = RolePP; // deliberate initialized wrong
msgOut.spBufferOut = spBufferOut;
ChkA(CStunRequestHandler::ProcessRequest(msgIn, msgOut, &tas, NULL));
// parse the response
reader.Reset();
state = reader.AddBytes(spBufferOut->GetData(), spBufferOut->GetSize());
ChkIfA(state != CStunMessageReader::BodyValidated, E_FAIL);
// validate that the message was sent back from the AA
ChkIfA(msgOut.socketrole != RoleAA, E_FAIL);
// validate that the server though it was sending back from the AA
ChkA(ValidateResponseOriginAddress(reader, _addrServerAA));
// validate that the message was sent to the response port requested
addrDestExpected = _addrMapped;
addrDestExpected.SetPort(responsePort);
ChkIfA(addrDestExpected.IsSameIP_and_Port(msgOut.addrDest)==false, E_FAIL);
// validate that the binding response came back
ChkA(ValidateMappedAddress(reader, _addrMapped, false));
// the "other" address is still AA (See RFC 3489 - section 8.1)
ChkA(ValidateOtherAddress(reader, _addrServerAA));
Cleanup:
return hr;
}
// The goal of this test is to just validate that we can create a message from CStunMessageBuilder and have it's output parsed correctly by CStunMessageReader
// Also helps validate CSocketAddress
HRESULT CTestBuilder::Test1()
{
HRESULT hr = S_OK;
CStunMessageBuilder builder;
CStunMessageReader reader;
StunAttribute attrib;
CRefCountedBuffer spBuffer;
CRefCountedBuffer spBufferReader;
CSocketAddress addrValidate(0,0);
StunTransactionId transid = {};
uint32_t ipvalidate = 0;
CSocketAddress addr(0x7f000001, 9999);
CSocketAddress addrOrigin(0xAABBCCDD, 8888);
CSocketAddress addrOther(0x11223344, 7777);
ChkA(builder.AddBindingRequestHeader());
ChkA(builder.AddRandomTransactionId(&transid));
ChkA(builder.AddStringAttribute(STUN_ATTRIBUTE_SOFTWARE, "FOOBAR"));
ChkA(builder.AddMappedAddress(addr));
ChkA(builder.AddXorMappedAddress(addr));
ChkA(builder.AddOtherAddress(addrOther));
ChkA(builder.AddResponseOriginAddress(addrOrigin));
ChkA(builder.AddFingerprintAttribute());
ChkA(builder.GetResult(&spBuffer));
ChkIfA(CStunMessageReader::BodyValidated != reader.AddBytes(spBuffer->GetData(), spBuffer->GetSize()), E_FAIL);
ChkIfA(reader.HasFingerprintAttribute() == false, E_FAIL);
ChkIfA(reader.IsFingerprintAttributeValid() == false, E_FAIL);
ChkIfA(reader.GetMessageClass() != StunMsgClassRequest, E_FAIL);
ChkIfA(reader.GetMessageType() != StunMsgTypeBinding, E_FAIL);
ChkA(reader.GetBuffer(&spBufferReader));
ChkA(reader.GetAttributeByType(STUN_ATTRIBUTE_SOFTWARE, &attrib));
ChkIfA(attrib.attributeType != STUN_ATTRIBUTE_SOFTWARE, E_FAIL);
ChkIfA(0 != ::strncmp("FOOBAR", (const char*)(spBufferReader->GetData() + attrib.offset), attrib.size), E_FAIL);
ChkA(reader.GetXorMappedAddress(&addrValidate));
ChkIf(addrValidate.IsSameIP_and_Port(addr) == false, E_FAIL);
ChkIfA(addrValidate.GetIPLength() != 4, E_FAIL);
addrValidate = CSocketAddress(0,0);
ChkA(reader.GetMappedAddress(&addrValidate));
ChkIfA(addrValidate.GetPort() != 9999, E_FAIL);
ChkIfA(addrValidate.GetIPLength() != 4, E_FAIL);
ChkIfA(4 != addrValidate.GetIP(&ipvalidate, 4), E_FAIL);
ChkIfA(ipvalidate != 0x7f000001, E_FAIL);
addrValidate = CSocketAddress(0,0);
ipvalidate = 0;
reader.GetOtherAddress(&addrValidate);
ChkIfA(addrValidate.GetPort() != 7777, E_FAIL);
ChkIfA(addrValidate.GetIPLength() != 4, E_FAIL);
ChkIfA(4 != addrValidate.GetIP(&ipvalidate, 4), E_FAIL);
ChkIf(ipvalidate != 0x11223344, E_FAIL);
Cleanup:
return hr;
}
// send a binding request to a duplex server instructing it to send back on it's alternate port and alternate IP to an alternate client port
HRESULT CTestMessageHandler::Test2()
{
HRESULT hr=S_OK;
CStunMessageBuilder builder;
CSocketAddress clientaddr(0x12345678, 9876);
CSocketAddress recvaddr;
uint16_t responsePort = 2222;
CRefCountedBuffer spBuffer;
CStunThreadMessageHandler handler;
CStunMessageReader reader;
CStunMessageReader::ReaderParseState state;
::StunChangeRequestAttribute changereq;
StunMessageEnvelope message;
_spTransport->Reset();
_spTransport->AddPP(CSocketAddress(0xaaaaaaaa, 1234));
_spTransport->AddPA(CSocketAddress(0xaaaaaaaa, 1235));
_spTransport->AddAP(CSocketAddress(0xbbbbbbbb, 1234));
_spTransport->AddAA(CSocketAddress(0xbbbbbbbb, 1235));
InitBindingRequest(builder);
builder.AddResponsePort(responsePort);
changereq.fChangeIP = true;
changereq.fChangePort = true;
builder.AddChangeRequest(changereq);
builder.AddResponsePort(responsePort);
builder.GetResult(&spBuffer);
message.localSocket = RolePP;
message.remoteAddr = clientaddr;
message.spBuffer = spBuffer;
_spTransport->GetSocketAddressForRole(RolePP, &(message.localAddr));
handler.SetResponder(_spTransport);
handler.ProcessRequest(message);
spBuffer->Reset();
_spTransport->GetOutputStream().GetBuffer(&spBuffer);
// parse the response
state = reader.AddBytes(spBuffer->GetData(), spBuffer->GetSize());
ChkIfA(state != CStunMessageReader::BodyValidated, E_FAIL);
// validate that the binding response matches our expectations
ChkA(ValidateMappedAddress(reader, clientaddr));
ChkA(ValidateOriginAddress(reader, RoleAA));
// did it get sent back to where we thought it was
recvaddr = clientaddr;
recvaddr.SetPort(responsePort);
ChkA(ValidateResponseAddress(recvaddr));
Cleanup:
return hr;
}
