private static void OnRequestError( WinHttpWebSocketState state, Interop.WinHttp.WINHTTP_ASYNC_RESULT asyncResult) { Debug.Assert(state != null, "OnRequestError: state is null"); var innerException = WinHttpException.CreateExceptionUsingError((int)asyncResult.dwError); switch ((uint)asyncResult.dwResult.ToInt32()) { case Interop.WinHttp.API_SEND_REQUEST: case Interop.WinHttp.API_RECEIVE_RESPONSE: { var exception = new WebSocketException(SR.net_webstatus_ConnectFailure, innerException); state.UpdateState(WebSocketState.Closed); state.TcsUpgrade.TrySetException(exception); } break; default: { Debug.Fail( "OnRequestError: Result (" + asyncResult.dwResult + ") is not expected.", "Error code: " + asyncResult.dwError + " (" + innerException.Message + ")"); } break; } }
public void InvokeCallback(uint internetStatus, Interop.WinHttp.WINHTTP_ASYNC_RESULT asyncResult) { GCHandle pinnedAsyncResult = GCHandle.Alloc(asyncResult, GCHandleType.Pinned); IntPtr statusInformation = pinnedAsyncResult.AddrOfPinnedObject(); uint statusInformationLength = (uint)Marshal.SizeOf <Interop.WinHttp.WINHTTP_ASYNC_RESULT>(); InvokeCallback(internetStatus, statusInformation, statusInformationLength); pinnedAsyncResult.Free(); }
public static void TraceAsyncError(object thisOrContextObject, Interop.WinHttp.WINHTTP_ASYNC_RESULT asyncResult, [CallerMemberName] string?memberName = null) { Debug.Assert(NetEventSource.Log.IsEnabled()); uint apiIndex = (uint)asyncResult.dwResult.ToInt32(); uint error = asyncResult.dwError; string apiName = GetNameFromApiIndex(apiIndex); NetEventSource.Error( thisOrContextObject, $"api={apiName}, error={GetNameFromError(error)}({error}) \"{WinHttpException.GetErrorMessage((int)error, apiName)}\"", memberName); }
public static void TraceAsyncError(string message, Interop.WinHttp.WINHTTP_ASYNC_RESULT asyncResult) { if (!IsTraceEnabled()) { return; } uint apiIndex = (uint)asyncResult.dwResult.ToInt32(); uint error = asyncResult.dwError; WriteLine( "{0}: api={1}, error={2}({3}) \"{4}\"", message, GetNameFromApiIndex(apiIndex), GetNameFromError(error), error, WinHttpException.GetErrorMessage((int)error)); }
private static void OnRequestError(WinHttpRequestState state, Interop.WinHttp.WINHTTP_ASYNC_RESULT asyncResult) { WinHttpTraceHelper.TraceAsyncError("OnRequestError", asyncResult); Debug.Assert(state != null, "OnRequestError: state is null"); Debug.Assert((unchecked ((int)asyncResult.dwError) != Interop.WinHttp.ERROR_INSUFFICIENT_BUFFER && unchecked ((int)asyncResult.dwError) != unchecked ((int)0x80090321)), // SEC_E_BUFFER_TOO_SMALL $"Unexpected async error in WinHttpRequestCallback: {unchecked((int)asyncResult.dwError)}, WinHttp API: {unchecked((uint)asyncResult.dwResult.ToInt32())}"); Exception innerException = WinHttpException.CreateExceptionUsingError(unchecked ((int)asyncResult.dwError)); switch (unchecked ((uint)asyncResult.dwResult.ToInt32())) { case Interop.WinHttp.API_SEND_REQUEST: state.LifecycleAwaitable.SetException(innerException); break; case Interop.WinHttp.API_RECEIVE_RESPONSE: if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_RESEND_REQUEST) { state.RetryRequest = true; state.LifecycleAwaitable.SetResult(0); } else if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_CLIENT_AUTH_CERT_NEEDED) { // WinHttp will automatically drop any client SSL certificates that we // have pre-set into the request handle including the NULL certificate // (which means we have no certs to send). For security reasons, we don't // allow the certificate to be re-applied. But we need to tell WinHttp // explicitly that we don't have any certificate to send. Debug.Assert(state.RequestHandle != null, "OnRequestError: state.RequestHandle is null"); WinHttpHandler.SetNoClientCertificate(state.RequestHandle); state.RetryRequest = true; state.LifecycleAwaitable.SetResult(0); } else if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { state.LifecycleAwaitable.SetCanceled(state.CancellationToken); } else { state.LifecycleAwaitable.SetException(innerException); } break; case Interop.WinHttp.API_QUERY_DATA_AVAILABLE: if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { // TODO: Issue #2165. We need to pass in the cancellation token from the // user's ReadAsync() call into the TrySetCanceled(). WinHttpTraceHelper.Trace("RequestCallback: QUERY_DATA_AVAILABLE - ERROR_WINHTTP_OPERATION_CANCELLED"); state.LifecycleAwaitable.SetCanceled(); } else { state.LifecycleAwaitable.SetException( new IOException(SR.net_http_io_read, innerException)); } break; case Interop.WinHttp.API_READ_DATA: if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { // TODO: Issue #2165. We need to pass in the cancellation token from the // user's ReadAsync() call into the TrySetCanceled(). WinHttpTraceHelper.Trace("RequestCallback: API_READ_DATA - ERROR_WINHTTP_OPERATION_CANCELLED"); state.LifecycleAwaitable.SetCanceled(); } else { state.LifecycleAwaitable.SetException(new IOException(SR.net_http_io_read, innerException)); } break; case Interop.WinHttp.API_WRITE_DATA: if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { // TODO: Issue #2165. We need to pass in the cancellation token from the // user's WriteAsync() call into the TrySetCanceled(). WinHttpTraceHelper.Trace("RequestCallback: API_WRITE_DATA - ERROR_WINHTTP_OPERATION_CANCELLED"); state.TcsInternalWriteDataToRequestStream.TrySetCanceled(); } else { state.TcsInternalWriteDataToRequestStream.TrySetException( new IOException(SR.net_http_io_write, innerException)); } break; default: Debug.Fail( "OnRequestError: Result (" + asyncResult.dwResult + ") is not expected.", "Error code: " + asyncResult.dwError + " (" + innerException.Message + ")"); break; } }
private static void OnRequestError(WinHttpRequestState state, Interop.WinHttp.WINHTTP_ASYNC_RESULT asyncResult) { Debug.Assert(state != null, "OnRequestError: state is null"); if (NetEventSource.Log.IsEnabled()) { WinHttpTraceHelper.TraceAsyncError(state, asyncResult); } Exception innerException = WinHttpException.CreateExceptionUsingError(unchecked ((int)asyncResult.dwError), "WINHTTP_CALLBACK_STATUS_REQUEST_ERROR"); switch (unchecked ((uint)asyncResult.dwResult.ToInt32())) { case Interop.WinHttp.API_SEND_REQUEST: state.LifecycleAwaitable.SetException(innerException); break; case Interop.WinHttp.API_RECEIVE_RESPONSE: if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_RESEND_REQUEST) { state.RetryRequest = true; state.LifecycleAwaitable.SetResult(0); } else if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_CLIENT_AUTH_CERT_NEEDED) { // WinHttp will automatically drop any client SSL certificates that we // have pre-set into the request handle including the NULL certificate // (which means we have no certs to send). For security reasons, we don't // allow the certificate to be re-applied. But we need to tell WinHttp // explicitly that we don't have any certificate to send. Debug.Assert(state.RequestHandle != null, "OnRequestError: state.RequestHandle is null"); WinHttpHandler.SetNoClientCertificate(state.RequestHandle); state.RetryRequest = true; state.LifecycleAwaitable.SetResult(0); } else if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { state.LifecycleAwaitable.SetCanceled(state.CancellationToken); } else { state.LifecycleAwaitable.SetException(innerException); } break; case Interop.WinHttp.API_QUERY_DATA_AVAILABLE: if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { if (NetEventSource.Log.IsEnabled()) { NetEventSource.Error(state, "QUERY_DATA_AVAILABLE - ERROR_WINHTTP_OPERATION_CANCELLED"); } state.LifecycleAwaitable.SetCanceled(); } else { state.LifecycleAwaitable.SetException( new IOException(SR.net_http_io_read, innerException)); } break; case Interop.WinHttp.API_READ_DATA: if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { if (NetEventSource.Log.IsEnabled()) { NetEventSource.Error(state, "API_READ_DATA - ERROR_WINHTTP_OPERATION_CANCELLED"); } state.LifecycleAwaitable.SetCanceled(); } else { state.LifecycleAwaitable.SetException(new IOException(SR.net_http_io_read, innerException)); } break; case Interop.WinHttp.API_WRITE_DATA: Debug.Assert(state.TcsInternalWriteDataToRequestStream != null); if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { if (NetEventSource.Log.IsEnabled()) { NetEventSource.Error(state, "API_WRITE_DATA - ERROR_WINHTTP_OPERATION_CANCELLED"); } state.TcsInternalWriteDataToRequestStream.TrySetCanceled(); } else { state.TcsInternalWriteDataToRequestStream.TrySetException( new IOException(SR.net_http_io_write, innerException)); } break; default: Debug.Fail( "OnRequestError: Result (" + asyncResult.dwResult + ") is not expected.", "Error code: " + asyncResult.dwError + " (" + innerException.Message + ")"); break; } }
private static void OnRequestError(WinHttpRequestState state, Interop.WinHttp.WINHTTP_ASYNC_RESULT asyncResult) { WinHttpTraceHelper.TraceAsyncError("OnRequestError", asyncResult); Debug.Assert(state != null, "OnRequestError: state is null"); var innerException = WinHttpException.CreateExceptionUsingError((int)asyncResult.dwError).InitializeStackTrace(); switch ((uint)asyncResult.dwResult.ToInt32()) { case Interop.WinHttp.API_SEND_REQUEST: state.TcsSendRequest.TrySetException(innerException); break; case Interop.WinHttp.API_RECEIVE_RESPONSE: if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_RESEND_REQUEST) { state.RetryRequest = true; state.TcsReceiveResponseHeaders.TrySetResult(false); } else if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_CLIENT_AUTH_CERT_NEEDED) { // WinHttp will automatically drop any client SSL certificates that we // have pre-set into the request handle including the NULL certificate // (which means we have no certs to send). For security reasons, we don't // allow the certificate to be re-applied. But we need to tell WinHttp // explicitly that we don't have any certificate to send. Debug.Assert(state.RequestHandle != null, "OnRequestError: state.RequestHandle is null"); WinHttpHandler.SetNoClientCertificate(state.RequestHandle); state.RetryRequest = true; state.TcsReceiveResponseHeaders.TrySetResult(false); } else if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { state.TcsReceiveResponseHeaders.TrySetCanceled(state.CancellationToken); } else { state.TcsReceiveResponseHeaders.TrySetException(innerException); } break; case Interop.WinHttp.API_QUERY_DATA_AVAILABLE: if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { // TODO: Issue #2165. We need to pass in the cancellation token from the // user's ReadAsync() call into the TrySetCanceled(). Debug.WriteLine("RequestCallback: QUERY_DATA_AVAILABLE - ERROR_WINHTTP_OPERATION_CANCELLED"); state.TcsQueryDataAvailable.TrySetCanceled(); } else { state.TcsQueryDataAvailable.TrySetException( new IOException(SR.net_http_io_read, innerException)); } break; case Interop.WinHttp.API_READ_DATA: state.DisposeCtrReadFromResponseStream(); if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { // TODO: Issue #2165. We need to pass in the cancellation token from the // user's ReadAsync() call into the TrySetCanceled(). Debug.WriteLine("RequestCallback: API_READ_DATA - ERROR_WINHTTP_OPERATION_CANCELLED"); state.TcsReadFromResponseStream.TrySetCanceled(); } else { state.TcsReadFromResponseStream.TrySetException( new IOException(SR.net_http_io_read, innerException)); } break; case Interop.WinHttp.API_WRITE_DATA: if (asyncResult.dwError == Interop.WinHttp.ERROR_WINHTTP_OPERATION_CANCELLED) { // TODO: Issue #2165. We need to pass in the cancellation token from the // user's WriteAsync() call into the TrySetCanceled(). Debug.WriteLine("RequestCallback: API_WRITE_DATA - ERROR_WINHTTP_OPERATION_CANCELLED"); state.TcsInternalWriteDataToRequestStream.TrySetCanceled(); } else { state.TcsInternalWriteDataToRequestStream.TrySetException( new IOException(SR.net_http_io_write, innerException)); } break; default: Debug.Fail( "OnRequestError: Result (" + asyncResult.dwResult + ") is not expected.", "Error code: " + asyncResult.dwError + " (" + innerException.Message + ")"); break; } }