// 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; }
// 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; }