private void CheckDisposeAction() { RESTCommand <T> cmd = this.RestCMD; if (cmd != null && cmd.DisposeAction != null) { Logger.LogInformational(this.OperationContext, SR.TraceDispose); try { cmd.DisposeAction(cmd); } catch (Exception ex) { // Ignore the error thrown by the dispose action in the error case so the original error that caused it can be exposed // to the user. Just log this here for debugging service. Logger.LogWarning(this.OperationContext, SR.TraceDisposeError, ex.Message); } } }
private static void ProcessStartOfRequest <T>(ExecutionState <T> executionState, string startLogMessage, CancellationTokenSource timeoutTokenSource = null) { RESTCommand <T> cmd = executionState.RestCMD; // 1. Build request and content executionState.CurrentOperation = ExecutorOperation.BeginOperation; // Content is re-created every retry, as HttpClient disposes it after a successful request HttpContent content = cmd.BuildContent != null?cmd.BuildContent(cmd, executionState.OperationContext) : null; // This is so the old auth header etc is cleared out, the content is where serialization occurs which is the major perf hit Uri uri = cmd.StorageUri.GetUri(executionState.CurrentLocation); Uri transformedUri = cmd.Credentials.TransformUri(uri); Logger.LogInformational(executionState.OperationContext, SR.TraceStartRequestAsync, transformedUri); UriQueryBuilder builder = new UriQueryBuilder(executionState.RestCMD.Builder); executionState.Req = cmd.BuildRequest(cmd, transformedUri, builder, content, cmd.ServerTimeoutInSeconds, executionState.OperationContext); // 2. Set Headers Executor.ApplyUserHeaders(executionState); // Let the user know we are ready to send Executor.FireSendingRequest(executionState); // 3. Sign Request is not needed, as HttpClient will call us // 4. Set timeout (this is actually not honored by asynchronous requests) if (executionState.OperationExpiryTime.HasValue) { // set the token to cancel after timing out, if the higher token hasn't already been cancelled timeoutTokenSource?.CancelAfter(executionState.RemainingTimeout); } else { // effectively prevent timeout timeoutTokenSource?.CancelAfter(int.MaxValue); } }
private async static Task <T> ExecuteAsyncInternal <T>(RESTCommand <T> cmd, IRetryPolicy policy, OperationContext operationContext, CancellationToken token) { // Note all code below will reference state, not params directly, this will allow common code with multiple executors (APM, Sync, Async) using (ExecutionState <T> executionState = new ExecutionState <T>(cmd, policy, operationContext)) using (CancellationTokenSource timeoutTokenSource = CancellationTokenSource.CreateLinkedTokenSource(token)) { bool shouldRetry = false; TimeSpan delay = TimeSpan.Zero; // Note - The service accepts both api-version and x-ms-version and therefore it is ok to add x-ms-version to all requests. // Create a new client HttpClient client = HttpClientFactory.Instance; do { try { executionState.Init(); // 0. Begin Request Executor.StartRequestAttempt(executionState); // 1. Build request and content executionState.CurrentOperation = ExecutorOperation.BeginOperation; // Content is re-created every retry, as HttpClient disposes it after a successful request HttpContent content = cmd.BuildContent != null?cmd.BuildContent(cmd, executionState.OperationContext) : null; // This is so the old auth header etc is cleared out, the content is where serialization occurs which is the major perf hit Uri uri = cmd.StorageUri.GetUri(executionState.CurrentLocation); Uri transformedUri = cmd.Credentials.TransformUri(uri); Logger.LogInformational(executionState.OperationContext, SR.TraceStartRequestAsync, transformedUri); UriQueryBuilder builder = new UriQueryBuilder(executionState.RestCMD.Builder); executionState.Req = cmd.BuildRequest(cmd, transformedUri, builder, content, cmd.ServerTimeoutInSeconds, executionState.OperationContext); // 2. Set Headers Executor.ApplyUserHeaders(executionState); // Let the user know we are ready to send Executor.FireSendingRequest(executionState); // 3. Sign Request is not needed, as HttpClient will call us // 4. Set timeout if (executionState.OperationExpiryTime.HasValue) { // set the token to cancel after timing out, if the higher token hasn't already been cancelled timeoutTokenSource.CancelAfter(executionState.RemainingTimeout); } else { // effectively prevent timeout timeoutTokenSource.CancelAfter(int.MaxValue); } Executor.CheckTimeout <T>(executionState, true); } catch (Exception ex) { Logger.LogError(executionState.OperationContext, SR.TraceInitRequestError, ex.Message); // Store exception and throw here. All operations in this try would be non-retryable by default StorageException storageEx = StorageException.TranslateException(ex, executionState.Cmd.CurrentResult, null); storageEx.IsRetryable = false; executionState.ExceptionRef = storageEx; throw executionState.ExceptionRef; } // Enter Retryable Section of execution try { // Send Request executionState.CurrentOperation = ExecutorOperation.BeginGetResponse; Logger.LogInformational(executionState.OperationContext, SR.TraceGetResponse); executionState.Resp = await client.SendAsync(executionState.Req, HttpCompletionOption.ResponseHeadersRead, timeoutTokenSource.Token); executionState.CurrentOperation = ExecutorOperation.EndGetResponse; // Since HttpClient wont throw for non success, manually check and populate an exception if (!executionState.Resp.IsSuccessStatusCode) { // At this point, don't try to read the stream to parse the error executionState.ExceptionRef = await Exceptions.PopulateStorageExceptionFromHttpResponseMessage(executionState.Resp, executionState.Cmd.CurrentResult, executionState.Cmd.ParseError); } Logger.LogInformational(executionState.OperationContext, SR.TraceResponse, executionState.Cmd.CurrentResult.HttpStatusCode, executionState.Cmd.CurrentResult.ServiceRequestID, executionState.Cmd.CurrentResult.ContentMd5, executionState.Cmd.CurrentResult.Etag); Executor.FireResponseReceived(executionState); // 7. Do Response parsing (headers etc, no stream available here) if (cmd.PreProcessResponse != null) { executionState.CurrentOperation = ExecutorOperation.PreProcess; try { executionState.Result = cmd.PreProcessResponse(cmd, executionState.Resp, executionState.ExceptionRef, executionState.OperationContext); // clear exception executionState.ExceptionRef = null; } catch (Exception ex) { executionState.ExceptionRef = ex; } Logger.LogInformational(executionState.OperationContext, SR.TracePreProcessDone); } // 8. (Potentially reads stream from server) executionState.CurrentOperation = ExecutorOperation.GetResponseStream; cmd.ResponseStream = await executionState.Resp.Content.ReadAsStreamAsync(); // The stream is now available in ResponseStream. Use the stream to parse out the response or error if (executionState.ExceptionRef != null) { executionState.CurrentOperation = ExecutorOperation.BeginDownloadResponse; Logger.LogInformational(executionState.OperationContext, SR.TraceDownloadError); try { cmd.ErrorStream = new MemoryStream(); await cmd.ResponseStream.WriteToAsync(cmd.ErrorStream, null /* copyLength */, null /* maxLength */, false, executionState, new StreamDescriptor(), timeoutTokenSource.Token); cmd.ErrorStream.Seek(0, SeekOrigin.Begin); #if ASPNET_K || PORTABLE executionState.ExceptionRef = StorageException.TranslateExceptionWithPreBufferedStream(executionState.ExceptionRef, executionState.Cmd.CurrentResult, stream => executionState.Cmd.ParseError(stream, executionState.Resp, null), cmd.ErrorStream, executionState.Resp); #else executionState.ExceptionRef = StorageException.TranslateExceptionWithPreBufferedStream(executionState.ExceptionRef, executionState.Cmd.CurrentResult, stream => executionState.Cmd.ParseError(stream, executionState.Resp, null), cmd.ErrorStream); #endif throw executionState.ExceptionRef; } finally { cmd.ResponseStream.Dispose(); cmd.ResponseStream = null; cmd.ErrorStream.Dispose(); cmd.ErrorStream = null; } } else { if (!cmd.RetrieveResponseStream) { cmd.DestinationStream = Stream.Null; } if (cmd.DestinationStream != null) { if (cmd.StreamCopyState == null) { cmd.StreamCopyState = new StreamDescriptor(); } try { executionState.CurrentOperation = ExecutorOperation.BeginDownloadResponse; Logger.LogInformational(executionState.OperationContext, SR.TraceDownload); await cmd.ResponseStream.WriteToAsync(cmd.DestinationStream, null /* copyLength */, null /* maxLength */, cmd.CalculateMd5ForResponseStream, executionState, cmd.StreamCopyState, timeoutTokenSource.Token); } finally { cmd.ResponseStream.Dispose(); cmd.ResponseStream = null; } } } // 9. Evaluate Response & Parse Results, (Stream potentially available here) if (cmd.PostProcessResponse != null) { executionState.CurrentOperation = ExecutorOperation.PostProcess; Logger.LogInformational(executionState.OperationContext, SR.TracePostProcess); executionState.Result = await cmd.PostProcessResponse(cmd, executionState.Resp, executionState.OperationContext); } executionState.CurrentOperation = ExecutorOperation.EndOperation; Logger.LogInformational(executionState.OperationContext, SR.TraceSuccess); Executor.FinishRequestAttempt(executionState); return(executionState.Result); } catch (Exception e) { Logger.LogWarning(executionState.OperationContext, SR.TraceGenericError, e.Message); Executor.FinishRequestAttempt(executionState); if (e is TaskCanceledException && (executionState.OperationExpiryTime.HasValue && DateTime.Now.CompareTo(executionState.OperationExpiryTime.Value) > 0)) { e = new TimeoutException(SR.TimeoutExceptionMessage, e); } #if ASPNET_K || PORTABLE StorageException translatedException = StorageException.TranslateException(e, executionState.Cmd.CurrentResult, stream => executionState.Cmd.ParseError(stream, executionState.Resp, null), executionState.Resp); #else StorageException translatedException = StorageException.TranslateException(e, executionState.Cmd.CurrentResult, stream => executionState.Cmd.ParseError(stream, executionState.Resp, null)); #endif executionState.ExceptionRef = translatedException; Logger.LogInformational(executionState.OperationContext, SR.TraceRetryCheck, executionState.RetryCount, executionState.Cmd.CurrentResult.HttpStatusCode, translatedException.IsRetryable ? "yes" : "no", translatedException.Message); shouldRetry = false; if (translatedException.IsRetryable && (executionState.RetryPolicy != null)) { executionState.CurrentLocation = Executor.GetNextLocation(executionState.CurrentLocation, cmd.LocationMode); Logger.LogInformational(executionState.OperationContext, SR.TraceNextLocation, executionState.CurrentLocation); IExtendedRetryPolicy extendedRetryPolicy = executionState.RetryPolicy as IExtendedRetryPolicy; if (extendedRetryPolicy != null) { RetryContext retryContext = new RetryContext( executionState.RetryCount++, cmd.CurrentResult, executionState.CurrentLocation, cmd.LocationMode); RetryInfo retryInfo = extendedRetryPolicy.Evaluate(retryContext, executionState.OperationContext); if (retryInfo != null) { Logger.LogInformational(executionState.OperationContext, SR.TraceRetryInfo, retryInfo.TargetLocation, retryInfo.UpdatedLocationMode); shouldRetry = true; executionState.CurrentLocation = retryInfo.TargetLocation; cmd.LocationMode = retryInfo.UpdatedLocationMode; delay = retryInfo.RetryInterval; } } else { shouldRetry = executionState.RetryPolicy.ShouldRetry( executionState.RetryCount++, cmd.CurrentResult.HttpStatusCode, executionState.ExceptionRef, out delay, executionState.OperationContext); } if ((delay < TimeSpan.Zero) || (delay > Constants.MaximumRetryBackoff)) { delay = Constants.MaximumRetryBackoff; } } } finally { if (executionState.Resp != null) { executionState.Resp.Dispose(); executionState.Resp = null; } } // potentially backoff if (!shouldRetry || (executionState.OperationExpiryTime.HasValue && (DateTime.Now + delay).CompareTo(executionState.OperationExpiryTime.Value) > 0)) { Logger.LogError(executionState.OperationContext, shouldRetry ? SR.TraceRetryDecisionTimeout : SR.TraceRetryDecisionPolicy, executionState.ExceptionRef.Message); throw executionState.ExceptionRef; } else { if (cmd.RecoveryAction != null) { // I.E. Rewind stream etc. cmd.RecoveryAction(cmd, executionState.Cmd.CurrentResult.Exception, executionState.OperationContext); } if (delay > TimeSpan.Zero) { await Task.Delay(delay, token); } Logger.LogInformational(executionState.OperationContext, SR.TraceRetry); } Executor.FireRetrying(executionState); }while (shouldRetry); // should never get here throw new NotImplementedException(SR.InternalStorageError); } }
public static Task <T> ExecuteAsync <T>(RESTCommand <T> cmd, IRetryPolicy policy, OperationContext operationContext, CancellationToken token) { return(ExecuteAsyncInternal(cmd, policy, operationContext, token)); }
public static Task ExecuteAsyncNullReturn(RESTCommand <NullType> cmd, IRetryPolicy policy, OperationContext operationContext) { return(ExecuteAsyncNullReturn(cmd, policy, operationContext, CancellationToken.None)); }
private async static Task <T> ExecuteAsyncInternal <T>(RESTCommand <T> cmd, IRetryPolicy policy, OperationContext operationContext, CancellationToken token) { // Note all code below will reference state, not params directly, this will allow common code with multiple executors (APM, Sync, Async) ExecutionState <T> executionState = new ExecutionState <T>(cmd, policy, operationContext); bool shouldRetry = false; TimeSpan delay = TimeSpan.FromMilliseconds(0); // Steps 1-4 HttpClient client = cmd.BuildClient(cmd, operationContext); if (executionState.OperationExpiryTime.HasValue) { client.Timeout = executionState.OperationExpiryTime.Value - DateTime.Now; } else { client.Timeout = TimeSpan.FromDays(15); } // Setup token CancellationTokenSource cts = new CancellationTokenSource(client.Timeout); CancellationToken tokenWithTimeout = cts.Token; // Hookup users token token.Register(() => cts.Cancel()); do { Executor.StartRequestAttempt(executionState); // Enter Retryable Section of execution try { // Typically this would be out of the try, but do to the unique need for RTMD to translate exception it is included. if (executionState.OperationExpiryTime.HasValue && executionState.Cmd.CurrentResult.StartTime.CompareTo(executionState.OperationExpiryTime.Value) > 0) { throw Exceptions.GenerateTimeoutException(executionState.Cmd.CurrentResult, null); } // Content is re-created every retry, as HttpClient disposes it after a successful request HttpContent content = cmd.BuildContent != null?cmd.BuildContent(cmd, operationContext) : null; // This is so the old auth header etc is cleared out, the content is where serialization occurs which is the major perf hit executionState.Req = cmd.BuildRequest(cmd, content, operationContext); // User Headers Executor.ApplyUserHeaders(executionState); Executor.FireSendingRequest(executionState); // Send Request executionState.Resp = await client.SendAsync(executionState.Req, HttpCompletionOption.ResponseHeadersRead, tokenWithTimeout); // Since HttpClient wont throw for non success, manually check and populate an exception if (!executionState.Resp.IsSuccessStatusCode) { executionState.ExceptionRef = await Exceptions.PopulateStorageExceptionFromHttpResponseMessage(executionState.Resp, executionState.Cmd.CurrentResult); } Executor.FireResponseReceived(executionState); // 7. Do Response parsing (headers etc, no stream available here) if (cmd.PreProcessResponse != null) { executionState.Result = cmd.PreProcessResponse(cmd, executionState.Resp, executionState.ExceptionRef, executionState.OperationContext); // clear exception executionState.ExceptionRef = null; } // 8. (Potentially reads stream from server) if (cmd.RetrieveResponseStream) { cmd.ResponseStream = await executionState.Resp.Content.ReadAsStreamAsync(); } if (cmd.DestinationStream != null) { if (cmd.StreamCopyState == null) { cmd.StreamCopyState = new StreamDescriptor(); } await cmd.ResponseStream.WriteToAsync(cmd.DestinationStream, null /* MaxLength */, cmd.CalculateMd5ForResponseStream, executionState.OperationContext, cmd.StreamCopyState, tokenWithTimeout); cmd.ResponseStream.Dispose(); } // 9. Evaluate Response & Parse Results, (Stream potentially available here) if (cmd.PostProcessResponse != null) { executionState.Result = await cmd.PostProcessResponse(cmd, executionState.Resp, executionState.ExceptionRef, executionState.OperationContext); } Executor.FinishRequestAttempt(executionState); return(executionState.Result); } catch (Exception e) { Executor.FinishRequestAttempt(executionState); if (e is TaskCanceledException && (executionState.OperationExpiryTime.HasValue && DateTime.Now.CompareTo(executionState.OperationExpiryTime.Value) > 0)) { e = new TimeoutException(SR.TimeoutExceptionMessage, e); } StorageException translatedException = StorageException.TranslateException(e, executionState.Cmd.CurrentResult); executionState.ExceptionRef = translatedException; delay = TimeSpan.FromMilliseconds(0); shouldRetry = translatedException.IsRetryable && executionState.RetryPolicy != null? executionState.RetryPolicy.ShouldRetry( executionState.RetryCount++, executionState.Cmd.CurrentResult.HttpStatusCode, executionState.ExceptionRef, out delay, executionState.OperationContext) : false; delay = delay.TotalMilliseconds <0 || delay> Constants.MaximumRetryBackoff ? Constants.MaximumRetryBackoff : delay; } // potentially backoff if (!shouldRetry || (executionState.OperationExpiryTime.HasValue && (DateTime.Now + delay).CompareTo(executionState.OperationExpiryTime.Value) > 0)) { #if RTMD // Need to throw wrapped Exception with message as serialized exception info stuff. int hResult = WrappedStorageException.GenerateHResult(executionState.ExceptionRef, executionState.Cmd.CurrentResult); throw new WrappedStorageException(executionState.Cmd.CurrentResult.WriteAsXml(), executionState.ExceptionRef, hResult); #else throw executionState.ExceptionRef; // throw base exception for desktop #endif } else { if (cmd.RecoveryAction != null) { // I.E. Rewind stream etc. cmd.RecoveryAction(cmd, executionState.Cmd.CurrentResult.Exception, executionState.OperationContext); } if (delay > TimeSpan.Zero) { await Task.Delay(delay); } } }while (shouldRetry); // should never get here throw new NotImplementedException(SR.InternalStorageError); }
public static T ExecuteSync <T>(RESTCommand <T> cmd, IRetryPolicy policy, OperationContext operationContext) { // Note all code below will reference state, not params directly, this will allow common code with async executor using (ExecutionState <T> executionState = new ExecutionState <T>(cmd, policy, operationContext)) { bool shouldRetry = false; TimeSpan delay = TimeSpan.Zero; do { try { executionState.Init(); // 0. Begin Request Executor.StartRequestAttempt(executionState); // Steps 1-4 Executor.ProcessStartOfRequest(executionState, SR.TraceStartRequestSync); Executor.CheckTimeout <T>(executionState, true); } catch (Exception ex) { Logger.LogError(executionState.OperationContext, SR.TraceInitRequestError, ex.Message); // Store exception and throw here. All operations in this try would be non-retryable by default. At this point, the request is not even made. // Therefore, we will not get extended error info. Hence ParseError doesn't matter here. StorageException storageEx = ExecutorBase.TranslateExceptionBasedOnParseError(ex, executionState.Cmd.CurrentResult, executionState.Resp, executionState.Cmd.ParseError); storageEx.IsRetryable = false; executionState.ExceptionRef = storageEx; throw executionState.ExceptionRef; } // Enter Retryable Section of execution try { // 5. potentially upload data if (cmd.SendStream != null) { executionState.CurrentOperation = ExecutorOperation.BeginGetRequestStream; Logger.LogInformational(executionState.OperationContext, SR.TracePrepareUpload); executionState.Req.Timeout = (int)executionState.RemainingTimeout.TotalMilliseconds; executionState.ReqStream = executionState.Req.GetRequestStream(); executionState.CurrentOperation = ExecutorOperation.BeginUploadRequest; Logger.LogInformational(executionState.OperationContext, SR.TraceUpload); MultiBufferMemoryStream multiBufferMemoryStream = cmd.SendStream as MultiBufferMemoryStream; try { if (multiBufferMemoryStream != null && !cmd.SendStreamLength.HasValue) { multiBufferMemoryStream.FastCopyTo(executionState.ReqStream, executionState.OperationExpiryTime); } else { // don't calculate md5 here as we should have already set this for auth purposes executionState.RestCMD.SendStream.WriteToSync(executionState.ReqStream, cmd.SendStreamLength, null /* maxLength */, false, true, executionState, null /* streamCopyState */); } executionState.ReqStream.Flush(); executionState.ReqStream.Dispose(); executionState.ReqStream = null; } catch (Exception) { executionState.Req.Abort(); throw; } } // 6. Get response try { executionState.CurrentOperation = ExecutorOperation.BeginGetResponse; Logger.LogInformational(executionState.OperationContext, SR.TraceGetResponse); executionState.Req.Timeout = (int)executionState.RemainingTimeout.TotalMilliseconds; executionState.Resp = (HttpWebResponse)executionState.Req.GetResponse(); executionState.CurrentOperation = ExecutorOperation.EndGetResponse; } catch (WebException ex) { Logger.LogWarning(executionState.OperationContext, SR.TraceGetResponseError, ex.Message); executionState.Resp = (HttpWebResponse)ex.Response; if (ex.Status == WebExceptionStatus.Timeout || executionState.ReqTimedOut) { throw new TimeoutException(); } if (executionState.Resp == null) { throw; } else { executionState.ExceptionRef = ExecutorBase.TranslateExceptionBasedOnParseError(ex, executionState.Cmd.CurrentResult, executionState.Resp, executionState.Cmd.ParseError); } } // Response Logger.LogInformational(executionState.OperationContext, SR.TraceResponse, executionState.Cmd.CurrentResult.HttpStatusCode, executionState.Cmd.CurrentResult.ServiceRequestID, executionState.Cmd.CurrentResult.ContentMd5, executionState.Cmd.CurrentResult.Etag); Executor.FireResponseReceived(executionState); // 7. Do Response parsing (headers etc, no stream available here) if (cmd.PreProcessResponse != null) { executionState.CurrentOperation = ExecutorOperation.PreProcess; executionState.Result = cmd.PreProcessResponse(cmd, executionState.Resp, executionState.ExceptionRef, executionState.OperationContext); // clear exception executionState.ExceptionRef = null; Logger.LogInformational(executionState.OperationContext, SR.TracePreProcessDone); } // 8. (Potentially reads stream from server) executionState.CurrentOperation = ExecutorOperation.GetResponseStream; cmd.ResponseStream = executionState.Resp.GetResponseStream(); if (!cmd.RetrieveResponseStream) { cmd.DestinationStream = Stream.Null; } if (cmd.DestinationStream != null) { if (cmd.StreamCopyState == null) { cmd.StreamCopyState = new StreamDescriptor(); } try { executionState.CurrentOperation = ExecutorOperation.BeginDownloadResponse; Logger.LogInformational(executionState.OperationContext, SR.TraceDownload); cmd.ResponseStream.WriteToSync(cmd.DestinationStream, null /* copyLength */, null /* maxLength */, cmd.CalculateMd5ForResponseStream, false, executionState, cmd.StreamCopyState); } finally { cmd.ResponseStream.Dispose(); cmd.ResponseStream = null; } } // Step 9 - This will not be called if an exception is raised during stream copying Executor.ProcessEndOfRequest(executionState); Executor.FinishRequestAttempt(executionState); return(executionState.Result); } catch (Exception e) { Logger.LogWarning(executionState.OperationContext, SR.TraceGenericError, e.Message); Executor.FinishRequestAttempt(executionState); StorageException translatedException = ExecutorBase.TranslateExceptionBasedOnParseError(e, executionState.Cmd.CurrentResult, executionState.Resp, executionState.Cmd.ParseError); executionState.ExceptionRef = translatedException; Logger.LogInformational(executionState.OperationContext, SR.TraceRetryCheck, executionState.RetryCount, executionState.Cmd.CurrentResult.HttpStatusCode, translatedException.IsRetryable ? "yes" : "no", translatedException.Message); shouldRetry = false; if (translatedException.IsRetryable && (executionState.RetryPolicy != null)) { executionState.CurrentLocation = Executor.GetNextLocation(executionState.CurrentLocation, cmd.LocationMode); Logger.LogInformational(executionState.OperationContext, SR.TraceNextLocation, executionState.CurrentLocation); IExtendedRetryPolicy extendedRetryPolicy = executionState.RetryPolicy as IExtendedRetryPolicy; if (extendedRetryPolicy != null) { RetryContext retryContext = new RetryContext( executionState.RetryCount++, cmd.CurrentResult, executionState.CurrentLocation, cmd.LocationMode); RetryInfo retryInfo = extendedRetryPolicy.Evaluate(retryContext, executionState.OperationContext); if (retryInfo != null) { Logger.LogInformational(executionState.OperationContext, SR.TraceRetryInfo, retryInfo.TargetLocation, retryInfo.UpdatedLocationMode); shouldRetry = true; executionState.CurrentLocation = retryInfo.TargetLocation; cmd.LocationMode = retryInfo.UpdatedLocationMode; delay = retryInfo.RetryInterval; } } else { shouldRetry = executionState.RetryPolicy.ShouldRetry( executionState.RetryCount++, cmd.CurrentResult.HttpStatusCode, executionState.ExceptionRef, out delay, executionState.OperationContext); } if ((delay < TimeSpan.Zero) || (delay > Constants.MaximumRetryBackoff)) { delay = Constants.MaximumRetryBackoff; } } } finally { if (executionState.Resp != null) { executionState.Resp.Close(); executionState.Resp = null; } } if (!shouldRetry || (executionState.OperationExpiryTime.HasValue && (DateTime.Now + delay).CompareTo(executionState.OperationExpiryTime.Value) > 0)) { Logger.LogError(executionState.OperationContext, shouldRetry ? SR.TraceRetryDecisionTimeout : SR.TraceRetryDecisionPolicy, executionState.ExceptionRef.Message); throw executionState.ExceptionRef; } else { if (executionState.Cmd.RecoveryAction != null) { // I.E. Rewind stream etc. executionState.Cmd.RecoveryAction(executionState.Cmd, executionState.ExceptionRef, executionState.OperationContext); } if (delay > TimeSpan.Zero) { Logger.LogInformational(executionState.OperationContext, SR.TraceRetryDelay, (int)delay.TotalMilliseconds); Thread.Sleep(delay); } Logger.LogInformational(executionState.OperationContext, SR.TraceRetry); } Executor.FireRetrying(executionState); }while (shouldRetry); } // should never get here, either return, or throw; throw new NotImplementedException(SR.InternalStorageError); }
public static async Task <T> ExecuteAsync <T>(RESTCommand <T> cmd, IRetryPolicy policy, OperationContext operationContext, CancellationToken token) { // Note all code below will reference state, not params directly, this will allow common code with async executor using (ExecutionState <T> executionState = new ExecutionState <T>(cmd, policy, operationContext)) using (CancellationTokenSource timeoutTokenSource = CancellationTokenSource.CreateLinkedTokenSource(token)) { bool shouldRetry = false; TimeSpan delay = TimeSpan.Zero; // Create a new client HttpClient client = HttpClientFactory.Instance; do { try { executionState.Init(); // 0. Begin Request Executor.StartRequestAttempt(executionState); // Steps 1-4: Build Content/SetHeaders/ Executor.ProcessStartOfRequest(executionState, SR.TraceStartRequestAsync, timeoutTokenSource); Executor.CheckTimeout <T>(executionState, true); } catch (Exception ex) { Logger.LogError(executionState.OperationContext, SR.TraceInitRequestError, ex.Message); // Store exception and throw here. All operations in this try would be non-retryable by default. At this point, the request is not even made. // Therefore, we will not get extended error info. Hence ParseError doesn't matter here. StorageException storageEx = await ExecutorBase.TranslateExceptionBasedOnParseErrorAsync(ex, executionState.Cmd.CurrentResult, executionState.Resp, executionState.Cmd.ParseErrorAsync, token).ConfigureAwait(false); storageEx.IsRetryable = false; executionState.ExceptionRef = storageEx; throw executionState.ExceptionRef; } // Enter Retryable Section of execution try { // Send Request executionState.CurrentOperation = ExecutorOperation.BeginGetResponse; Logger.LogInformational(executionState.OperationContext, SR.TraceGetResponse); executionState.Resp = await client.SendAsync(executionState.Req, HttpCompletionOption.ResponseHeadersRead, timeoutTokenSource.Token).ConfigureAwait(false); executionState.CurrentOperation = ExecutorOperation.EndGetResponse; // Since HttpClient wont throw for non success, manually check and populate an exception if (!executionState.Resp.IsSuccessStatusCode) { // At this point, don't try to read the stream to parse the error executionState.ExceptionRef = await Exceptions.PopulateStorageExceptionFromHttpResponseMessage(executionState.Resp, executionState.Cmd.CurrentResult, token, executionState.Cmd.ParseErrorAsync).ConfigureAwait(false); } Logger.LogInformational(executionState.OperationContext, SR.TraceResponse, executionState.Cmd.CurrentResult.HttpStatusCode, executionState.Cmd.CurrentResult.ServiceRequestID, executionState.Cmd.CurrentResult.ContentMd5, executionState.Cmd.CurrentResult.Etag); Executor.FireResponseReceived(executionState); // 7. Do Response parsing (headers etc, no stream available here) if (cmd.PreProcessResponse != null) { executionState.CurrentOperation = ExecutorOperation.PreProcess; try { executionState.Result = cmd.PreProcessResponse(cmd, executionState.Resp, executionState.ExceptionRef, executionState.OperationContext); // clear exception executionState.ExceptionRef = null; } catch (Exception ex) { executionState.ExceptionRef = ex; } Logger.LogInformational(executionState.OperationContext, SR.TracePreProcessDone); } // 8. (Potentially reads stream from server) executionState.CurrentOperation = ExecutorOperation.GetResponseStream; cmd.ResponseStream = await executionState.Resp.Content.ReadAsStreamAsync().ConfigureAwait(false); // The stream is now available in ResponseStream. Use the stream to parse out the response or error if (executionState.ExceptionRef != null) { executionState.CurrentOperation = ExecutorOperation.BeginDownloadResponse; Logger.LogInformational(executionState.OperationContext, SR.TraceDownloadError); try { cmd.ErrorStream = new MemoryStream(); await cmd.ResponseStream.WriteToAsync(cmd.ErrorStream, default(IBufferManager), null /* copyLength */, null /* maxLength */, false, executionState, new StreamDescriptor(), timeoutTokenSource.Token).ConfigureAwait(false); cmd.ErrorStream.Seek(0, SeekOrigin.Begin); executionState.ExceptionRef = StorageException.TranslateExceptionWithPreBufferedStream(executionState.ExceptionRef, executionState.Cmd.CurrentResult, stream => executionState.Cmd.ParseError(stream, executionState.Resp, null), cmd.ErrorStream, executionState.Resp); throw executionState.ExceptionRef; } finally { cmd.ResponseStream.Dispose(); cmd.ResponseStream = null; cmd.ErrorStream.Dispose(); cmd.ErrorStream = null; } } else { if (!cmd.RetrieveResponseStream) { cmd.DestinationStream = Stream.Null; } if (cmd.DestinationStream != null) { if (cmd.StreamCopyState == null) { cmd.StreamCopyState = new StreamDescriptor(); } try { executionState.CurrentOperation = ExecutorOperation.BeginDownloadResponse; Logger.LogInformational(executionState.OperationContext, SR.TraceDownload); await cmd.ResponseStream.WriteToAsync(cmd.DestinationStream, default(IBufferManager), null /* copyLength */, null /* maxLength */, cmd.CalculateMd5ForResponseStream, executionState, cmd.StreamCopyState, timeoutTokenSource.Token).ConfigureAwait(false); } finally { cmd.ResponseStream.Dispose(); cmd.ResponseStream = null; } } } await Executor.ProcessEndOfRequestAsync(executionState, token).ConfigureAwait(false); Executor.FinishRequestAttempt(executionState); return(executionState.Result); } catch (Exception e) { Logger.LogWarning(executionState.OperationContext, SR.TraceGenericError, e.Message); Executor.FinishRequestAttempt(executionState); if (e is OperationCanceledException && (executionState.OperationExpiryTime.HasValue && DateTime.Now.CompareTo(executionState.OperationExpiryTime.Value) > 0)) { e = new TimeoutException(SR.TimeoutExceptionMessage, e); } StorageException translatedException = await ExecutorBase.TranslateExceptionBasedOnParseErrorAsync(e, executionState.Cmd.CurrentResult, executionState.Resp, executionState.Cmd.ParseErrorAsync, token).ConfigureAwait(false); executionState.ExceptionRef = translatedException; Logger.LogInformational(executionState.OperationContext, SR.TraceRetryCheck, executionState.RetryCount, executionState.Cmd.CurrentResult.HttpStatusCode, translatedException.IsRetryable ? "yes" : "no", translatedException.Message); shouldRetry = false; if (translatedException.IsRetryable && (executionState.RetryPolicy != null)) { executionState.CurrentLocation = Executor.GetNextLocation(executionState.CurrentLocation, cmd.LocationMode); Logger.LogInformational(executionState.OperationContext, SR.TraceNextLocation, executionState.CurrentLocation); IExtendedRetryPolicy extendedRetryPolicy = executionState.RetryPolicy as IExtendedRetryPolicy; if (extendedRetryPolicy != null) { RetryContext retryContext = new RetryContext( executionState.RetryCount++, cmd.CurrentResult, executionState.CurrentLocation, cmd.LocationMode); RetryInfo retryInfo = extendedRetryPolicy.Evaluate(retryContext, executionState.OperationContext); if (retryInfo != null) { Logger.LogInformational(executionState.OperationContext, SR.TraceRetryInfo, retryInfo.TargetLocation, retryInfo.UpdatedLocationMode); shouldRetry = true; executionState.CurrentLocation = retryInfo.TargetLocation; cmd.LocationMode = retryInfo.UpdatedLocationMode; delay = retryInfo.RetryInterval; } } else { shouldRetry = executionState.RetryPolicy.ShouldRetry( executionState.RetryCount++, cmd.CurrentResult.HttpStatusCode, executionState.ExceptionRef, out delay, executionState.OperationContext); } if ((delay < TimeSpan.Zero) || (delay > Constants.MaximumRetryBackoff)) { delay = Constants.MaximumRetryBackoff; } } } finally { if (executionState.Resp != null) { executionState.Resp.Dispose(); executionState.Resp = null; } } // potentially backoff if (!shouldRetry || (executionState.OperationExpiryTime.HasValue && (DateTime.Now + delay).CompareTo(executionState.OperationExpiryTime.Value) > 0)) { Logger.LogError(executionState.OperationContext, shouldRetry ? SR.TraceRetryDecisionTimeout : SR.TraceRetryDecisionPolicy, executionState.ExceptionRef.Message); throw executionState.ExceptionRef; } else { // I.E. Rewind stream etc. cmd.RecoveryAction?.Invoke(cmd, executionState.Cmd.CurrentResult.Exception, executionState.OperationContext); if (delay > TimeSpan.Zero) { await Task.Delay(delay, token).ConfigureAwait(false); } Logger.LogInformational(executionState.OperationContext, SR.TraceRetry); } Executor.FireRetrying(executionState); }while (shouldRetry); // should never get here throw new NotImplementedException(SR.InternalStorageError); } }
private async static Task <T> ExecuteAsyncInternal <T>(RESTCommand <T> cmd, IRetryPolicy policy, OperationContext operationContext, CancellationToken token) { // Note all code below will reference state, not params directly, this will allow common code with multiple executors (APM, Sync, Async) using (ExecutionState <T> executionState = new ExecutionState <T>(cmd, policy, operationContext)) { bool shouldRetry = false; TimeSpan delay = TimeSpan.Zero; // Create a new client HttpClient client = cmd.BuildClient(cmd, executionState.OperationContext); client.Timeout = TimeSpan.FromMilliseconds(int.MaxValue); do { try { executionState.Init(); // 0. Begin Request Executor.StartRequestAttempt(executionState); // 1. Build request and content executionState.CurrentOperation = ExecutorOperation.BeginOperation; // Content is re-created every retry, as HttpClient disposes it after a successful request HttpContent content = cmd.BuildContent != null?cmd.BuildContent(cmd, executionState.OperationContext) : null; // This is so the old auth header etc is cleared out, the content is where serialization occurs which is the major perf hit Logger.LogInformational(executionState.OperationContext, SR.TraceStartRequestAsync, cmd.Uri); executionState.Req = cmd.BuildRequest(cmd, content, executionState.OperationContext); // 2. Set Headers Executor.ApplyUserHeaders(executionState); // Let the user know we are ready to send Executor.FireSendingRequest(executionState); // 3. Sign Request is not needed, as HttpClient will call us // 4. Set timeout if (executionState.OperationExpiryTime.HasValue) { client.Timeout = executionState.RemainingTimeout; } Executor.CheckTimeout <T>(executionState, true); } catch (Exception ex) { Logger.LogError(executionState.OperationContext, SR.TraceInitRequestError, ex.Message); // Store exception and throw here. All operations in this try would be non-retryable by default StorageException storageEx = StorageException.TranslateException(ex, executionState.Cmd.CurrentResult); storageEx.IsRetryable = false; executionState.ExceptionRef = storageEx; #if WINDOWS_RT // Need to throw wrapped Exception with message as serialized exception info stuff. int hResult = WrappedStorageException.GenerateHResult(executionState.ExceptionRef, executionState.Cmd.CurrentResult); throw new WrappedStorageException(executionState.Cmd.CurrentResult.WriteAsXml(), executionState.ExceptionRef, hResult); #else throw executionState.ExceptionRef; // throw base exception for desktop #endif } // Enter Retryable Section of execution try { // Send Request executionState.CurrentOperation = ExecutorOperation.BeginGetResponse; Logger.LogInformational(executionState.OperationContext, SR.TraceGetResponse); executionState.Resp = await client.SendAsync(executionState.Req, HttpCompletionOption.ResponseHeadersRead, token); executionState.CurrentOperation = ExecutorOperation.EndGetResponse; // Since HttpClient wont throw for non success, manually check and populate an exception if (!executionState.Resp.IsSuccessStatusCode) { executionState.ExceptionRef = await Exceptions.PopulateStorageExceptionFromHttpResponseMessage(executionState.Resp, executionState.Cmd.CurrentResult); } Logger.LogInformational(executionState.OperationContext, SR.TraceResponse, executionState.Cmd.CurrentResult.HttpStatusCode, executionState.Cmd.CurrentResult.ServiceRequestID, executionState.Cmd.CurrentResult.ContentMd5, executionState.Cmd.CurrentResult.Etag); Executor.FireResponseReceived(executionState); // 7. Do Response parsing (headers etc, no stream available here) if (cmd.PreProcessResponse != null) { executionState.CurrentOperation = ExecutorOperation.PreProcess; executionState.Result = cmd.PreProcessResponse(cmd, executionState.Resp, executionState.ExceptionRef, executionState.OperationContext); // clear exception executionState.ExceptionRef = null; Logger.LogInformational(executionState.OperationContext, SR.TracePreProcessDone); } // 8. (Potentially reads stream from server) executionState.CurrentOperation = ExecutorOperation.GetResponseStream; cmd.ResponseStream = await executionState.Resp.Content.ReadAsStreamAsync(); if (!cmd.RetrieveResponseStream) { cmd.DestinationStream = Stream.Null; } if (cmd.DestinationStream != null) { if (cmd.StreamCopyState == null) { cmd.StreamCopyState = new StreamDescriptor(); } try { executionState.CurrentOperation = ExecutorOperation.BeginDownloadResponse; Logger.LogInformational(executionState.OperationContext, SR.TraceDownload); await cmd.ResponseStream.WriteToAsync(cmd.DestinationStream, null /* copyLength */, null /* maxLength */, cmd.CalculateMd5ForResponseStream, executionState, cmd.StreamCopyState, token); } finally { cmd.ResponseStream.Dispose(); cmd.ResponseStream = null; } } // 9. Evaluate Response & Parse Results, (Stream potentially available here) if (cmd.PostProcessResponse != null) { executionState.CurrentOperation = ExecutorOperation.PostProcess; Logger.LogInformational(executionState.OperationContext, SR.TracePostProcess); executionState.Result = await cmd.PostProcessResponse(cmd, executionState.Resp, executionState.OperationContext); } executionState.CurrentOperation = ExecutorOperation.EndOperation; Logger.LogInformational(executionState.OperationContext, SR.TraceSuccess); Executor.FinishRequestAttempt(executionState); return(executionState.Result); } catch (Exception e) { Logger.LogWarning(executionState.OperationContext, SR.TraceGenericError, e.Message); Executor.FinishRequestAttempt(executionState); if (e is TaskCanceledException && (executionState.OperationExpiryTime.HasValue && DateTime.Now.CompareTo(executionState.OperationExpiryTime.Value) > 0)) { e = new TimeoutException(SR.TimeoutExceptionMessage, e); } StorageException translatedException = StorageException.TranslateException(e, executionState.Cmd.CurrentResult); executionState.ExceptionRef = translatedException; Logger.LogInformational(executionState.OperationContext, SR.TraceRetryCheck, executionState.RetryCount, executionState.Cmd.CurrentResult.HttpStatusCode, translatedException.IsRetryable ? "yes" : "no", translatedException.Message); shouldRetry = false; if (translatedException.IsRetryable && (executionState.RetryPolicy != null)) { shouldRetry = executionState.RetryPolicy.ShouldRetry( executionState.RetryCount++, executionState.Cmd.CurrentResult.HttpStatusCode, executionState.ExceptionRef, out delay, executionState.OperationContext); if ((delay < TimeSpan.Zero) || (delay > Constants.MaximumRetryBackoff)) { delay = Constants.MaximumRetryBackoff; } } } finally { if (executionState.Resp != null) { executionState.Resp.Dispose(); executionState.Resp = null; } } // potentially backoff if (!shouldRetry || (executionState.OperationExpiryTime.HasValue && (DateTime.Now + delay).CompareTo(executionState.OperationExpiryTime.Value) > 0)) { Logger.LogError(executionState.OperationContext, shouldRetry ? SR.TraceRetryDecisionTimeout : SR.TraceRetryDecisionPolicy, executionState.ExceptionRef.Message); #if WINDOWS_RT // Need to throw wrapped Exception with message as serialized exception info stuff. int hResult = WrappedStorageException.GenerateHResult(executionState.ExceptionRef, executionState.Cmd.CurrentResult); throw new WrappedStorageException(executionState.Cmd.CurrentResult.WriteAsXml(), executionState.ExceptionRef, hResult); #else throw executionState.ExceptionRef; // throw base exception for desktop #endif } else { if (cmd.RecoveryAction != null) { // I.E. Rewind stream etc. cmd.RecoveryAction(cmd, executionState.Cmd.CurrentResult.Exception, executionState.OperationContext); } if (delay > TimeSpan.Zero) { await Task.Delay(delay, token); } Logger.LogInformational(executionState.OperationContext, SR.TraceRetry); } }while (shouldRetry); // should never get here throw new NotImplementedException(SR.InternalStorageError); } }