示例#1
0
REQUEST_NOTIFICATION_STATUS CNodeHttpModule::OnExecuteRequestHandler(
    IN IHttpContext* pHttpContext, 
    IN IHttpEventProvider* pProvider)
{
        UNREFERENCED_PARAMETER( pProvider );

        // Create an HRESULT to receive return values from methods.
        HRESULT hr;

        // Retrieve a pointer to the response.
        IHttpResponse * pHttpResponse = pHttpContext->GetResponse();

        // Test for an error.
        if (pHttpResponse != NULL)
        {
            // Clear the existing response.
            pHttpResponse->Clear();
            // Set the MIME type to plain text.
            pHttpResponse->SetHeader(
                HttpHeaderContentType,"text/plain",
                (USHORT)strlen("text/plain"),TRUE);

            // Create a string with the response.
            PCSTR pszBuffer = "Hello World!";
            // Create a data chunk.
            HTTP_DATA_CHUNK dataChunk;
            // Set the chunk to a chunk in memory.
            dataChunk.DataChunkType = HttpDataChunkFromMemory;
            // Buffer for bytes written of data chunk.
            DWORD cbSent;

            // Set the chunk to the buffer.
            dataChunk.FromMemory.pBuffer =
                (PVOID) pszBuffer;
            // Set the chunk size to the buffer size.
            dataChunk.FromMemory.BufferLength =
                (USHORT) strlen(pszBuffer);
            // Insert the data chunk into the response.
            hr = pHttpResponse->WriteEntityChunks(
                &dataChunk,1,FALSE,TRUE,&cbSent);

            // Test for an error.
            if (FAILED(hr))
            {
                // Set the HTTP status.
                pHttpResponse->SetStatus(500,"Server Error",0,hr);
            }

            // End additional processing.
            return RQ_NOTIFICATION_FINISH_REQUEST;
        }

        // Return processing to the pipeline.
        return RQ_NOTIFICATION_CONTINUE;
}
示例#2
0
apr_status_t WriteResponseCallback(request_rec *r, char *buf, unsigned int length)
{
	REQUEST_STORED_CONTEXT *rsc = RetrieveIISContext(r);

	if(rsc == NULL || rsc->m_pRequestRec == NULL || rsc->m_pResponseBuffer == NULL)
		return APR_SUCCESS;

	IHttpContext *pHttpContext = rsc->m_pHttpContext;
	IHttpResponse *pHttpResponse = pHttpContext->GetResponse();
	HTTP_RESPONSE *pRawHttpResponse = pHttpResponse->GetRawHttpResponse();
	HTTP_DATA_CHUNK *pDataChunk = (HTTP_DATA_CHUNK *)apr_palloc(rsc->m_pRequestRec->pool, sizeof(HTTP_DATA_CHUNK));

	pRawHttpResponse->EntityChunkCount = 0;

	// since we clean the APR pool at the end of OnSendRequest, we must get IIS-managed memory chunk
	//
	void *reqbuf = pHttpContext->AllocateRequestMemory(length);

	memcpy(reqbuf, buf, length);

	pDataChunk->DataChunkType = HttpDataChunkFromMemory;
	pDataChunk->FromMemory.pBuffer = reqbuf;
	pDataChunk->FromMemory.BufferLength = length;

    CHAR szLength[21]; //Max length for a 64 bit int is 20

    ZeroMemory(szLength, sizeof(szLength));

    HRESULT hr = StringCchPrintfA(
            szLength, 
            sizeof(szLength) / sizeof(CHAR) - 1, "%d", 
            length);

    if(FAILED(hr))
    {
		// not possible
    }

    hr = pHttpResponse->SetHeader(
            HttpHeaderContentLength, 
            szLength, 
            (USHORT)strlen(szLength),
            TRUE);

    if(FAILED(hr))
    {
		// possible, but there's nothing we can do
    }

	pHttpResponse->WriteEntityChunkByReference(pDataChunk);

	return APR_SUCCESS;
}
示例#3
0
HRESULT CHttpProtocol::ParseResponseHeaders(CNodeHttpStoredContext* context)
{
	HRESULT hr;
	char* data = (char*)context->GetBuffer() + context->GetParsingOffset();
	DWORD dataSize = context->GetDataSize() - context->GetParsingOffset();
	DWORD offset = 0;	
	DWORD nameEndOffset, valueEndOffset;
	IHttpResponse* response = context->GetHttpContext()->GetResponse();

	while (offset < (dataSize - 1) && data[offset] != 0x0D)
	{
		// header name

		nameEndOffset = offset;
		while (nameEndOffset < dataSize && data[nameEndOffset] != ':')
		{
			nameEndOffset++;
		}
		ErrorIf(nameEndOffset == dataSize, ERROR_MORE_DATA);

		// header value

		valueEndOffset = nameEndOffset + 1;
		while (valueEndOffset < (dataSize - 1) && data[valueEndOffset] != 0x0D)
		{
			valueEndOffset++;
		}
		ErrorIf(valueEndOffset >= dataSize - 1, ERROR_MORE_DATA);
		ErrorIf(0x0A != data[valueEndOffset + 1], ERROR_BAD_FORMAT);

		// set header on response
		
		data[nameEndOffset] = 0; // zero-terminate name to reuse without copying
		data[valueEndOffset] = 0; // zero-terminate header value because this is what IHttpResponse::SetHeader expects
		CheckError(response->SetHeader(data + offset, data + nameEndOffset + 1, valueEndOffset - nameEndOffset - 1, TRUE));
		//CheckError(response->SetHeader(data + offset, data + nameEndOffset + 2, valueEndOffset - nameEndOffset - 2, TRUE));

		// adjust offsets
		
		context->SetParsingOffset(context->GetParsingOffset() + valueEndOffset - offset + 2);
		offset = valueEndOffset + 2;
	}
	ErrorIf(offset >= dataSize - 1, ERROR_MORE_DATA);
	ErrorIf(0x0A != data[offset + 1], ERROR_BAD_FORMAT);

	context->SetParsingOffset(context->GetParsingOffset() + 2);

	return S_OK;
Error:
	return hr;
}
示例#4
0
REQUEST_NOTIFICATION_STATUS CIISxpressHttpModule::OnSendResponse(IN IHttpContext* pHttpContext, IN ISendResponseProvider* pProvider)
{
	const TCHAR* const pszMethodName = __FUNCTIONT__;	

	// only proceed if filter is enabled
	if (m_Config.GetEnabled() == false)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("module is disabled\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::FilterDisabled);
		return RQ_NOTIFICATION_CONTINUE;
	}

	IHttpRequest* pHttpRequest = pHttpContext->GetRequest();
	if (pHttpRequest == NULL)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("GetRequest() returned NULL\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}	

	IHttpResponse* pHttpResponse = pHttpContext->GetResponse();
	if (pHttpResponse == NULL)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("GetResponse() returned NULL\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}	

	const HTTP_REQUEST* pRawRequest = pHttpRequest->GetRawHttpRequest();
	if (pRawRequest == NULL)
	{		
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("GetRawHttpRequest() returned NULL\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}		

	const HTTP_RESPONSE* pRawResponse = pHttpResponse->GetRawHttpResponse();
	if (pRawResponse == NULL)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("GetRawHttpResponse() returned NULL\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}		

	// we only handle GET or POST (if POST handling is enabled)
	if (pRawRequest->Verb != HttpVerbGET && !(pRawRequest->Verb == HttpVerbPOST && m_Config.HandlePOSTResponses()))
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("request was not GET or POST\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::RequestMethod);
		return RQ_NOTIFICATION_CONTINUE;
	}

	// only handle status code 200
	if (pRawResponse->StatusCode != 200)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("response code is not 200 (%u)\n"),  pRawResponse->StatusCode);
		PerfCountersAddRejectedResponse(IISxpressNativePerf::ResponseCode);
		return RQ_NOTIFICATION_CONTINUE;
	}

	// determine if the request came from localhost
	if (m_Config.GetCompressLocalhost() == false && IsUserLocalhost(pRawRequest) == true)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext,_T("localhost is disabled\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::LocalhostDisabled);
		return RQ_NOTIFICATION_CONTINUE;
	}

	// ***********************************************************************************************************************************

	const char* pszUserAgent = EnsureNotNull(pHttpRequest->GetHeader(HttpHeaderUserAgent));	

	bool excludedUserAgent = false;
	if (m_Config.GetUserAgentExclusionEnabled())
	{
		DWORD dwUserAgentCacheCookie = m_Config.GetLoadCookie();
		
		if (!m_UserAgentCache.GetUserAgentState(dwUserAgentCacheCookie, pszUserAgent, excludedUserAgent))
		{
			HttpUserAgent::UserAgentProducts<std::string> agent;
			if (agent.ParseUserAgentString(pszUserAgent) == S_OK)
			{
				const HttpUserAgent::RuleUserAgents<std::string>& ruleAgents = m_Config.GetExcludedUserAgents();
				if (ruleAgents.Compare(agent))
				{
					excludedUserAgent = true;
				}

				m_UserAgentCache.AddUserAgentState(dwUserAgentCacheCookie, pszUserAgent, excludedUserAgent);
			}
		}
	}

	if (excludedUserAgent)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("the user agent '%s' has been excluded\n"),  pszUserAgent);		
		PerfCountersAddRejectedResponse(IISxpressNativePerf::NeverRuleMatch);
		return RQ_NOTIFICATION_CONTINUE;
	}	

	// ***********************************************************************************************************************************

	// we must have only one chunk and data from memory or file
	if (pRawResponse->EntityChunkCount == 0)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext,_T("can't convert multi-entity buffer, incoming buffer is zero length\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::InvalidContentLength);
		return RQ_NOTIFICATION_CONTINUE;
	}
	else if (pRawResponse->EntityChunkCount != 1)
	{		
		// turn the multi-chunk response into a single chunk - NB. the response
		// must all be in memory
		if (MakeResponseSingleEntityBlock(pHttpContext, pHttpResponse, pRawResponse) == false)
		{
			AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext,_T("can't convert multi-entity buffer\n"));
			PerfCountersAddRejectedResponse(IISxpressNativePerf::MemoryAllocationFailed);
			return RQ_NOTIFICATION_CONTINUE;
		}				
	}	
	else if (pRawResponse->pEntityChunks->DataChunkType != HttpDataChunkFromMemory &&
			pRawResponse->pEntityChunks->DataChunkType != HttpDataChunkFromFileHandle)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext,_T("response isn't HttpDataChunkFromMemory or HttpDataChunkFromFileHandle\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}

	PHTTP_DATA_CHUNK pEntityChunk = pRawResponse->pEntityChunks;

	if (pEntityChunk == NULL)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("the response does not contain any data\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;	
	}

	// TODO: review max size here
	// we don't handle non-zero starting offsets or very large files (>250MB)
	if (pEntityChunk->DataChunkType == HttpDataChunkFromFileHandle &&
		(pEntityChunk->FromFileHandle.ByteRange.StartingOffset.QuadPart > 0 ||
		pEntityChunk->FromFileHandle.ByteRange.Length.QuadPart > (250 * 1024 * 1024)))
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("response has offset > 0 or is too big\n"));
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}

	PCSTR pszContentEncoding = pHttpResponse->GetHeader(HttpHeaderContentEncoding);
	if (pszContentEncoding != NULL && pszContentEncoding[0] != '\0')
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("response already has content encoding\n"));		
		PerfCountersAddRejectedResponse(IISxpressNativePerf::AlreadyEncoded);
		return RQ_NOTIFICATION_CONTINUE;
	}

	PCSTR pszTransferEncoding = pHttpResponse->GetHeader(HttpHeaderTransferEncoding);
	if (pszTransferEncoding != NULL && pszTransferEncoding[0] != '\0')
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("response already has transfer encoding\n"));		
		PerfCountersAddRejectedResponse(IISxpressNativePerf::AlreadyEncoded);
		return RQ_NOTIFICATION_CONTINUE;
	}

	USHORT nContentTypeLength = 0;
	PCSTR pszContentType = pHttpResponse->GetHeader(HttpHeaderContentType, &nContentTypeLength);			
	if (pszContentType == NULL || nContentTypeLength == 0)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("GetHeader(HttpHeaderContentType) returned NULL\n"));		
		PerfCountersAddRejectedResponse(IISxpressNativePerf::MissingContentType);
		return RQ_NOTIFICATION_CONTINUE;
	}

	USHORT nLastModifiedLength = 0;
	PCSTR pszLastModified = pHttpResponse->GetHeader(HttpHeaderLastModified, &nLastModifiedLength);			

	// ***********************************************************************
	
	USHORT nAcceptEncodingLength = 0;
	PCSTR pszAcceptEncoding = pHttpRequest->GetHeader(HttpHeaderAcceptEncoding, &nAcceptEncodingLength);	
	if (pszAcceptEncoding == NULL || nAcceptEncodingLength == 0 ||
		(strstr(pszAcceptEncoding, "deflate") == NULL && strstr(pszAcceptEncoding, "gzip") == NULL && strstr(pszAcceptEncoding, "bzip2") == NULL))
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("the client does not accept compressed responses\n"));		
		PerfCountersAddRejectedResponse(IISxpressNativePerf::IncompatibleClient);
		return RQ_NOTIFICATION_CONTINUE;
	}

	// ***********************************************************************

	const WCHAR* pszScriptTranslated = pHttpContext->GetScriptTranslated();
	if (pszScriptTranslated == NULL)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("GetScriptTranslated() returned NULL\n"));		
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}
		
	// get the url
	CAtlStringA sScriptTranslated(pszScriptTranslated);

	// get the site id
	CAtlStringA sInstanceId;
	sInstanceId.Format("%u", pHttpRequest->GetSiteId());
	
	// get the server name
	PCSTR pszServerName = NULL;		
	DWORD dwServerNameLength = 0;
	pHttpContext->GetServerVariable("SERVER_NAME", &pszServerName, &dwServerNameLength);
	if (pszServerName == NULL || dwServerNameLength == 0)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("GetServerVariable(\"SERVER_NAME\") returned NULL\n"));		
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}

	// get the server port 		
	PCSTR pszServerPort = NULL;		
	DWORD dwServerPortLength = 0;
	pHttpContext->GetServerVariable("SERVER_PORT", &pszServerPort, &dwServerPortLength);
	if (pszServerPort == NULL || dwServerPortLength == 0)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("GetServerVariable(\"SERVER_PORT\") returned NULL\n"));		
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}

	DWORD dwContentLength = 0;
	if (pEntityChunk->DataChunkType == HttpDataChunkFromMemory)
	{
		dwContentLength = pRawResponse->pEntityChunks->FromMemory.BufferLength;
	}
	else if (pEntityChunk->DataChunkType == HttpDataChunkFromFileHandle)
	{
		dwContentLength = pEntityChunk->FromFileHandle.ByteRange.Length.LowPart;
	}
	else
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("the DataChunkType (%u) is not supported\n"), pEntityChunk->DataChunkType);		
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}
	
	IISInfo iisinfo;
	iisinfo.pszInstanceId = sInstanceId;		
	iisinfo.pszServerName = pszServerName;
	iisinfo.pszServerPort = pszServerPort;
	iisinfo.pszURLMapPath = sScriptTranslated;		

	if (m_Config.GetDebugEnabled() || m_Config.GetLoggingLevel() >= IISXPRESS_LOGGINGLEVEL_ENH)	
	{				
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("IIS: server name='%hs'\n"), pszServerName);		
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("IIS: server port='%hs'\n"), pszServerPort);
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("IIS: instance id='%hs'\n"), sInstanceId);
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("IIS: URL map path='%hs'\n"), sScriptTranslated);
	}			

	// ***********************************************************************

	const WCHAR* pszURI = pHttpContext->GetScriptName();
	if (pszURI == NULL)
	{
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("GetScriptName() returned NULL\n"));		
		PerfCountersAddRejectedResponse(IISxpressNativePerf::Internal);
		return RQ_NOTIFICATION_CONTINUE;
	}

	// get the uri
	CAtlStringA sURI(pszURI);

	// get the query string
	CAtlStringA sQueryString;
	if (pRawRequest->CookedUrl.pQueryString != NULL)
	{
		sQueryString = pRawRequest->CookedUrl.pQueryString + 1;
	}

	// get the remote address
	// TODO: consider using a cache lookup here 
	CAtlStringA sRemoteAddress;
	if (pRawRequest != NULL && pRawRequest->Address.pRemoteAddress != NULL)			
	{
		if (pRawRequest->Address.pRemoteAddress->sa_family == AF_INET)
		{
			struct sockaddr_in* paddrin = (struct sockaddr_in*) pRawRequest->Address.pRemoteAddress;

			// TODO: make this a bit more efficient
			sRemoteAddress.Format("%u.%u.%u.%u", 
				(unsigned) paddrin->sin_addr.S_un.S_un_b.s_b1,
				(unsigned) paddrin->sin_addr.S_un.S_un_b.s_b2,
				(unsigned) paddrin->sin_addr.S_un.S_un_b.s_b3,
				(unsigned) paddrin->sin_addr.S_un.S_un_b.s_b4);
		}
		else if (pRawRequest->Address.pRemoteAddress->sa_family == AF_INET6)
		{
			SOCKADDR_IN6* paddrin = (SOCKADDR_IN6*) pRawRequest->Address.pRemoteAddress;

			// TODO: make this a bit more efficient
			sRemoteAddress.Format("%0x:%0x:%0x:%0x:%0x:%0x:%0x:%0x",				
				::htons(paddrin->sin6_addr.u.Word[0]), ::htons(paddrin->sin6_addr.u.Word[1]),
				::htons(paddrin->sin6_addr.u.Word[2]), ::htons(paddrin->sin6_addr.u.Word[3]),
				::htons(paddrin->sin6_addr.u.Word[4]), ::htons(paddrin->sin6_addr.u.Word[5]),
				::htons(paddrin->sin6_addr.u.Word[6]), ::htons(paddrin->sin6_addr.u.Word[7]));
		}
	}	
		
	RequestInfo requestinfo;				
	requestinfo.pszAcceptEncoding = pszAcceptEncoding;
	requestinfo.pszHostname = EnsureNotNull(pHttpRequest->GetHeader(HttpHeaderHost));
	requestinfo.pszQueryString = sQueryString;
	requestinfo.pszRemoteAddress = sRemoteAddress;
	requestinfo.pszURI = sURI;
	requestinfo.pszUserAgent = pszUserAgent;

	if (m_Config.GetDebugEnabled() || m_Config.GetLoggingLevel() >= IISXPRESS_LOGGINGLEVEL_BASIC)	
	{				
		char* pszMethod = "Unknown";		
		switch (pRawRequest->Verb)
		{
		case HttpVerbGET: pszMethod = "GET"; break;
		case HttpVerbPOST: pszMethod = "POST"; break;
		}

		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: method='%hs'\n"), pszMethod);		
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: hostname='%hs'\n"), requestinfo.pszHostname);		
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: user agent='%hs'\n"), requestinfo.pszUserAgent);		
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: URI='%hs'\n"), requestinfo.pszURI);	
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: accept-encoding='%hs'\n"), requestinfo.pszAcceptEncoding);	
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: client address='%hs'\n"), requestinfo.pszRemoteAddress);	
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: query string='%hs'\n"), requestinfo.pszQueryString);	
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: content-type='%hs'\n"), pszContentType);	
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: content-length=%u\n"), dwContentLength);	
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: response code=%u\n"), pRawResponse->StatusCode);	
		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("REQUEST: last-modified='%hs'\n"), pszLastModified != NULL ? pszLastModified : "null");	
	}			

	// ***********************************************************************	
	
	ResponseInfo responseinfo;		
	responseinfo.dwContentLength = dwContentLength;
	responseinfo.dwResponseCode = pRawResponse->StatusCode;	
	responseinfo.pszContentType = pszContentType;
	responseinfo.pszLastModified = pszLastModified;

	// get a connection to the server from the GIT (if it is connected)
	CComPtr<IIISxpressHTTPRequest> pIISxpressHTTPRequest;
	if (m_pGlobalIISxpressHTTPRequest.GetCookie() != 0)	
	{
		m_pGlobalIISxpressHTTPRequest.CopyTo(&pIISxpressHTTPRequest);
	}

	if (pIISxpressHTTPRequest == NULL)
	{
		// revoke the pointer in the GIT
		m_pGlobalIISxpressHTTPRequest.Revoke();

		// try to connect to the server
		if (GetHTTPRequestObject(pHttpContext, &pIISxpressHTTPRequest) == false || pIISxpressHTTPRequest == NULL)	
		{
			AppendLogMessage(IISXPRESS_LOGGINGLEVEL_ENH, pszMethodName, pHttpContext, _T("unable to connect to server\n"));					
			PerfCountersAddRejectedResponse(IISxpressNativePerf::NoCompressionServer);
			return RQ_NOTIFICATION_CONTINUE;
		}		

		// store the resulting pointer in the GIT
		m_pGlobalIISxpressHTTPRequest = pIISxpressHTTPRequest;
	}			

	const DWORD dwTimerLoggingLevel = IISXPRESS_LOGGINGLEVEL_FULL;
	bool useTimer = (m_Config.GetDebugEnabled() || m_Config.GetLoggingLevel() >= dwTimerLoggingLevel);

	// start timer
	__int64 nStartTimer = useTimer ? g_Timer.GetMicroSecTimerCount() : 0;

	CAtlStringA sCacheKey;
	if (m_nCacheEnabled != 0)
	{	
		// update the cache perf counters based on the cache cookie
		PerfCountersUpdateCacheStatus(false);	

		if (pszLastModified != NULL && sQueryString.GetLength() == 0)
		{
			ATLASSERT(pszAcceptEncoding != NULL);

			// create the unique key for the response
			ResponseCache::CreateResponseCacheKey(
				sInstanceId, sInstanceId.GetLength(),
				sURI, sURI.GetLength(),
				responseinfo.pszContentType, nContentTypeLength,
				dwContentLength, 
				pszLastModified, nLastModifiedLength,
				pszAcceptEncoding, nAcceptEncodingLength,
				sCacheKey);

			// try to get a compressed response from the cache
			HCACHEITEM hCacheItem = NULL;
			HRESULT hr = m_ResponseCache.LookupEntry(sCacheKey, &hCacheItem);
			if (hr == S_OK)
			{
				// get the item from the cache
				ResponseCacheItem* pCacheItem;
				DWORD dwCacheItemSize = 0;
				hr = m_ResponseCache.GetData(hCacheItem, (void**) &pCacheItem, &dwCacheItemSize);	

				void* pBuffer = pHttpContext->AllocateRequestMemory(pCacheItem->dwContentLength);
				if (pBuffer != NULL)
				{
					pHttpResponse->SetHeader(HttpHeaderContentLength, pCacheItem->sContentLength, 
						(USHORT) pCacheItem->sContentLength.GetLength(), TRUE);

					pHttpResponse->SetHeader(HttpHeaderContentEncoding, pCacheItem->sContentEncoding, 
						(USHORT) pCacheItem->sContentEncoding.GetLength(), TRUE);

					pEntityChunk->DataChunkType = HttpDataChunkFromMemory;
					pEntityChunk->FromMemory.pBuffer = pBuffer;
					pEntityChunk->FromMemory.BufferLength = pCacheItem->dwContentLength;
					memcpy(pEntityChunk->FromMemory.pBuffer, pCacheItem->pbyData, pCacheItem->dwContentLength);

					hr = m_ResponseCache.ReleaseEntry(hCacheItem);

					pIISxpressHTTPRequest->NotifyCacheHit(&iisinfo, &requestinfo, &responseinfo, pCacheItem->dwContentLength);

					PerfCountersAddCachedResponse(dwContentLength, pCacheItem->dwContentLength);

					// calculate timer duration
					__int64 nEndTimer = useTimer ? g_Timer.GetMicroSecTimerCount() : 0;
					__int64 nInterval = nEndTimer - nStartTimer;

					AppendLogMessage(dwTimerLoggingLevel, pszMethodName, pHttpContext, _T("response resolved from cache, call took %I64d us\n"), nInterval);

					return RQ_NOTIFICATION_CONTINUE;
				}
				
				// we failed to handle the cached response, so just proceed as normal (we need to free the
				// cache entry tho)
				hr = m_ResponseCache.ReleaseEntry(hCacheItem);
			}		
		}
	}

	DWORD dwFilterContext = 0;
	HRESULT hr = pIISxpressHTTPRequest->OnSendResponse(&iisinfo, &requestinfo, &responseinfo, &dwFilterContext);

	// calculate timer duration
	__int64 nEndTimer = useTimer ? g_Timer.GetMicroSecTimerCount() : 0;
	__int64 nInterval = nEndTimer - nStartTimer;

	if (FAILED(hr) == TRUE)
	{
		// get the facility code of the failure
		DWORD dwFacility = HRESULT_FACILITY(hr);

		// if it isn't NULL or ITF then assume the server is now invalid
		if (dwFacility != FACILITY_NULL && dwFacility != FACILITY_ITF)
		{
			// the GIT is invalid, dump it
			m_pGlobalIISxpressHTTPRequest.Revoke();

			// the server connection is invalid, dump it
			pIISxpressHTTPRequest = NULL;		
		}		
	}

	AppendLogMessage(dwTimerLoggingLevel, pszMethodName, pHttpContext, _T("OnSendResponse() returns 0x%08x, call took %I64d us\n"), hr, nInterval);	

	if (FAILED(hr) == TRUE)
	{			
		// TODO: need to handle generic HRs
		PerfCountersAddRejectedResponse(hr);

		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("won't handle response (0x%08x)\n"), hr);					

		return RQ_NOTIFICATION_CONTINUE;
	}

	AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("will handle response (0x%08x)\n"), hr);		

	if (pEntityChunk->DataChunkType == HttpDataChunkFromFileHandle)
	{
		DWORD dwAllocatedBlockSize = 0;
		BYTE* pbyData = AllocateMemoryBlockForOverlappedIO(pHttpContext, dwContentLength, dwAllocatedBlockSize);
		if (pbyData != NULL)
		{		
			// we are about to perform overlapped IO, so setup the OVERLAPPED struct into a default state
			OVERLAPPED overlapped;
			memset(&overlapped, 0, sizeof(overlapped));

			HandleObject FileEvent;
			bool bHandleFromPool = m_hEventHandlePool.GetHandleObject(FileEvent);									

			// if we failed to get a handle from the pool then we need to make one
			if (bHandleFromPool == false)
			{
				HANDLE hReadOK = ::CreateEvent(NULL, TRUE, FALSE, NULL);
				FileEvent = HandleObject(hReadOK);
			}

			// use the event handle so we can track the IO completion
			overlapped.hEvent = FileEvent;

			// ask for a file read (asynchronous)		
			DWORD dwStatus = ::ReadFile(pEntityChunk->FromFileHandle.FileHandle, pbyData, dwAllocatedBlockSize, NULL, &overlapped);

			// wait for the IO to complete (NB. don't really use this since INFINITE can block forever)			
			::WaitForSingleObject(FileEvent, INFINITE);

			// we must return the handle (if it came from the pool)
			if (bHandleFromPool == true)
			{
				m_hEventHandlePool.ReturnHandleObject(FileEvent);
			}

			pEntityChunk->DataChunkType = HttpDataChunkFromMemory;
			pEntityChunk->FromMemory.BufferLength = dwContentLength;
			pEntityChunk->FromMemory.pBuffer = pbyData;
		}
		else
		{
			hr = E_OUTOFMEMORY;
		}
	}
	else if (pEntityChunk->DataChunkType == HttpDataChunkFromMemory)
	{
		// allocate the memory block
		BYTE* pbyData = (BYTE*) pHttpContext->AllocateRequestMemory(dwContentLength);			
		if (pbyData != NULL)
		{
			// copy the response data
			memcpy(pbyData, pEntityChunk->FromMemory.pBuffer, pEntityChunk->FromMemory.BufferLength);

			// change the buffer pointer
			pEntityChunk->FromMemory.pBuffer = pbyData;
		}
		else
		{
			hr = E_OUTOFMEMORY;
		}
	}		

	// allocate the response stream
	CComPtr<IStream> pStream;
	CComObject<CResponseStream>* pResponseStream = NULL;	
	if (hr == S_OK)
	{
		hr = CComObject<CResponseStream>::CreateInstance(&pResponseStream);
		if (hr == S_OK)
		{		
			pStream = pResponseStream;
		}
	}

	// catch any memory issues
	if (FAILED(hr) == TRUE)
	{			
		// abort the compression
		pIISxpressHTTPRequest->AbortRequest(dwFilterContext);

		// TODO: need to handle generic HRs
		PerfCountersAddRejectedResponse(hr);

		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("won't handle response (0x%08x)\n"), hr);					

		return RQ_NOTIFICATION_CONTINUE;
	}

	pResponseStream->AttachBuffer(pEntityChunk->FromMemory.pBuffer, dwContentLength, 0);

	char szContentEncoding[32] = "";
	hr = pIISxpressHTTPRequest->OnSendRawData(dwFilterContext, pStream, dwContentLength, FALSE, (signed char*) szContentEncoding, _countof(szContentEncoding));
	if (hr == S_OK)
	{		
		DWORD dwOriginalSize = dwContentLength;
		DWORD dwCompressedSize = pResponseStream->GetOffset();				

		// set the new content length into the header
		CAtlStringA sContentLength;
		sContentLength.Format("%u", dwCompressedSize);
		pHttpResponse->SetHeader(HttpHeaderContentLength, sContentLength, (USHORT) sContentLength.GetLength(), TRUE);

		// set the new size into the buffer
		pRawResponse->pEntityChunks->FromMemory.BufferLength = dwCompressedSize;
		
		pHttpResponse->SetHeader(HttpHeaderContentEncoding, szContentEncoding, (USHORT) strlen(szContentEncoding), TRUE);

		// add the item to the cache if we have a key (it means the data is cachable)
		if (dwCompressedSize < dwOriginalSize &&
			m_nCacheEnabled != 0 && sCacheKey.GetLength() > 0)
		{
			ResponseCacheItem* pCacheItem = new ResponseCacheItem();
			if (pCacheItem != NULL)
			{
				pCacheItem->sContentEncoding = szContentEncoding;
				pCacheItem->sContentLength = sContentLength;
				pCacheItem->dwContentLength = dwCompressedSize;
				pCacheItem->pbyData = new BYTE[dwCompressedSize];
				if (pCacheItem->pbyData != NULL)
				{
					// copy the compressed data and add it to the cache
					memcpy(pCacheItem->pbyData, pEntityChunk->FromMemory.pBuffer, dwCompressedSize);
					m_ResponseCache.Add(sCacheKey, pCacheItem, pCacheItem->dwContentLength, NULL, NULL, NULL, m_ResponseCacheItemDeallocator);

					PerfCountersUpdateCacheStatus(true);
				}
			}
		}

		PerfCountersAddCompressedResponse(dwContentLength, dwCompressedSize);

		// make sure the context is released
		hr = pIISxpressHTTPRequest->OnEndOfRequest(dwFilterContext, NULL, 0, FALSE, NULL, 0);		
	}
	else
	{
		// abort the compression
		pIISxpressHTTPRequest->AbortRequest(dwFilterContext);

		// TODO: need to handle generic HRs
		PerfCountersAddRejectedResponse(hr);

		AppendLogMessage(IISXPRESS_LOGGINGLEVEL_BASIC, pszMethodName, pHttpContext, _T("won't handle response (0x%08x)\n"), hr);							
	}

	return RQ_NOTIFICATION_CONTINUE;
}
示例#5
0
HRESULT CHttpProtocol::ParseResponseHeaders(CNodeHttpStoredContext* context)
{
	HRESULT hr;
	char* data = (char*)context->GetBuffer() + context->GetParsingOffset();
	DWORD dataSize = context->GetDataSize() - context->GetParsingOffset();
	DWORD offset = 0;	
	DWORD nameEndOffset, valueEndOffset;
	IHttpResponse* response = context->GetHttpContext()->GetResponse();
	BOOL needConnectionHeaderFixup = FALSE;

	while (offset < (dataSize - 1) && data[offset] != 0x0D)
	{
		// header name

		nameEndOffset = offset;
		while (nameEndOffset < dataSize && data[nameEndOffset] != ':')
		{
			nameEndOffset++;
		}
		ErrorIf(nameEndOffset == dataSize, ERROR_MORE_DATA);

		// header value

		valueEndOffset = nameEndOffset + 1;
		while (valueEndOffset < (dataSize - 1) && data[valueEndOffset] != 0x0D)
		{
			valueEndOffset++;
		}
		ErrorIf(valueEndOffset >= dataSize - 1, ERROR_MORE_DATA);
		ErrorIf(0x0A != data[valueEndOffset + 1], ERROR_BAD_FORMAT);

		// set header on response
		
		data[nameEndOffset] = 0; // zero-terminate name to reuse without copying		

		// Skip the Connection header because it relates to the iisnode <-> node.exe communication over named pipes,
		// unless this is a 101 response to HTTP Upgrade request, in which case this is used to inform HTTP.SYS to keep the
		// connection open.
		if (context->GetIsUpgrade() || 0 != strcmpi("Connection", data + offset))
		{
			data[valueEndOffset] = 0; // zero-terminate header value because this is what IHttpResponse::SetHeader expects

			// skip over ':'
			nameEndOffset++; 

			// skip over leading whitespace in value		
			while (*(data + nameEndOffset) == ' ') // data is already zero-terminated, so this loop has sentinel value
				nameEndOffset++;

			if (context->GetIsUpgrade() && 0 == strcmpi("Connection", data + offset))
			{
				// Add the Connection header under a custom name to force it to be added to unknown headers collection.
				// Header name will subsequently be fixed up back to Connection. 
				// The end result is that the Connection header ends up in the unknown headers collection rather then
				// known headers collection where it would get ignored by http.sys.
				
				CheckError(response->SetHeader("x-iisnode-connection", data + nameEndOffset, valueEndOffset - nameEndOffset, FALSE));
				needConnectionHeaderFixup = TRUE;
			}
			else
			{
				CheckError(response->SetHeader(data + offset, data + nameEndOffset, valueEndOffset - nameEndOffset, FALSE));
			}
		}
		else if ((valueEndOffset - nameEndOffset) >= 5 && 0 == memcmp((void*)(data + valueEndOffset - 5), "close", 5))
		{
			context->SetCloseConnection(TRUE);
		}

		// adjust offsets
		
		context->SetParsingOffset(context->GetParsingOffset() + valueEndOffset - offset + 2);
		offset = valueEndOffset + 2;
	}

	ErrorIf(offset >= dataSize - 1, ERROR_MORE_DATA);
	ErrorIf(0x0A != data[offset + 1], ERROR_BAD_FORMAT);

	context->SetParsingOffset(context->GetParsingOffset() + 2);

	if (needConnectionHeaderFixup)
	{
		HTTP_RESPONSE* rawResponse = response->GetRawHttpResponse();
		for (int i = 0; i < response->GetRawHttpResponse()->Headers.UnknownHeaderCount; i++)
		{
			if (20 == rawResponse->Headers.pUnknownHeaders[i].NameLength 
				&& 0 == _strnicmp("x-iisnode-connection", rawResponse->Headers.pUnknownHeaders[i].pName, 20))
			{
				rawResponse->Headers.pUnknownHeaders[i].NameLength = 10;
				rawResponse->Headers.pUnknownHeaders[i].pName = "Connection";
				break;
			}
		}
	}

	return S_OK;
Error:
	return hr;
}
示例#6
0
HRESULT CHttpProtocol::ParseResponseHeaders(CNodeHttpStoredContext* context)
{
	HRESULT hr;
	char* data = (char*)context->GetBuffer() + context->GetParsingOffset();
	DWORD dataSize = context->GetDataSize() - context->GetParsingOffset();
	DWORD offset = 0;	
	DWORD nameEndOffset, valueEndOffset;
	IHttpResponse* response = context->GetHttpContext()->GetResponse();

	while (offset < (dataSize - 1) && data[offset] != 0x0D)
	{
		// header name

		nameEndOffset = offset;
		while (nameEndOffset < dataSize && data[nameEndOffset] != ':')
		{
			nameEndOffset++;
		}
		ErrorIf(nameEndOffset == dataSize, ERROR_MORE_DATA);

		// header value

		valueEndOffset = nameEndOffset + 1;
		while (valueEndOffset < (dataSize - 1) && data[valueEndOffset] != 0x0D)
		{
			valueEndOffset++;
		}
		ErrorIf(valueEndOffset >= dataSize - 1, ERROR_MORE_DATA);
		ErrorIf(0x0A != data[valueEndOffset + 1], ERROR_BAD_FORMAT);

		// set header on response
		
		data[nameEndOffset] = 0; // zero-terminate name to reuse without copying		

		// skip the connection header because it relates to the iisnode <-> node.exe communication over named pipes 
		if (0 != strcmpi("Connection", data + offset))
		{
			data[valueEndOffset] = 0; // zero-terminate header value because this is what IHttpResponse::SetHeader expects

			// skip over ':'
			nameEndOffset++; 

			// skip over leading whitespace in value		
			while (*(data + nameEndOffset) == ' ') // data is already zero-terminated, so this loop has sentinel value
				nameEndOffset++;

			CheckError(response->SetHeader(data + offset, data + nameEndOffset, valueEndOffset - nameEndOffset, TRUE));
		}
		else if ((valueEndOffset - nameEndOffset) >= 5 && 0 == memcmp((void*)(data + valueEndOffset - 5), "close", 5))
		{
			context->SetCloseConnection(TRUE);
		}

		// adjust offsets
		
		context->SetParsingOffset(context->GetParsingOffset() + valueEndOffset - offset + 2);
		offset = valueEndOffset + 2;
	}
	ErrorIf(offset >= dataSize - 1, ERROR_MORE_DATA);
	ErrorIf(0x0A != data[offset + 1], ERROR_BAD_FORMAT);

	context->SetParsingOffset(context->GetParsingOffset() + 2);

	return S_OK;
Error:
	return hr;
}