internal static void AbortRtcRequest(this HttpRequestMessage request) { RtcRequestMessage rtcRequest = request as RtcRequestMessage; if (rtcRequest != null) { rtcRequest.state.Abort(); } }
internal static void MarkRtcFlushComplete(this HttpRequestMessage request) { RtcRequestMessage rtcRequest = request as RtcRequestMessage; if (rtcRequest != null) { // We've sent all of the request headers and body (if any). rtcRequest.state.flushComplete.Set(); } }
internal static void SetRtcOptions(this HttpRequestMessage request, HttpWebRequest webRequest) { #if !NET_4 RtcRequestMessage rtcRequest = request as RtcRequestMessage; if (rtcRequest != null) { // Data to pass into the socket IOControl webRequest.RtcState = rtcRequest.state; // Enforce Rtc stability requirements. We can't have the server responding at all // until the final response. This may require a primer request be sent. webRequest.ServicePoint.Expect100Continue = false; webRequest.PreAuthenticate = true; webRequest.KeepAlive = false; webRequest.AllowAutoRedirect = false; webRequest.Pipelined = false; } #endif }