public async Task <IBoxResponse <T> > ExecuteAsync <T>(IBoxRequest request)
where T : class
{
// Need to account for special cases when the return type is a stream
bool isStream = typeof(T) == typeof(Stream);
var retryCounter = 0;
ExponentialBackoff expBackoff = new ExponentialBackoff();
try
{
// TODO: yhu@ better handling of different request
var isMultiPartRequest = request.GetType() == typeof(BoxMultiPartRequest);
var isBinaryRequest = request.GetType() == typeof(BoxBinaryRequest);
while (true)
{
HttpRequestMessage httpRequest = getHttpRequest(request, isMultiPartRequest, isBinaryRequest);
Debug.WriteLine(string.Format("RequestUri: {0}", httpRequest.RequestUri));
HttpResponseMessage response = await getResponse(request, isStream, httpRequest).ConfigureAwait(false);
//need to wait for Retry-After seconds and then retry request
var retryAfterHeader = response.Headers.RetryAfter;
// If we get a retryable/transient error code and this is not a multi part request (meaning a file upload, which cannot be retried
// because the stream cannot be reset) and we haven't exceeded the number of allowed retries, then retry the request.
// If we get a 202 code and has a retry-after header, we will retry after
if (!isMultiPartRequest &&
(response.StatusCode == TooManyRequests
||
response.StatusCode == HttpStatusCode.InternalServerError
||
response.StatusCode == HttpStatusCode.BadGateway
||
response.StatusCode == HttpStatusCode.ServiceUnavailable
||
response.StatusCode == HttpStatusCode.GatewayTimeout
||
(response.StatusCode == HttpStatusCode.Accepted && retryAfterHeader != null)) &&
retryCounter++ < RetryLimit)
{
TimeSpan delay = expBackoff.GetRetryTimeout(retryCounter);
Debug.WriteLine("HttpCode : {0}. Waiting for {1} seconds to retry request. RequestUri: {2}", response.StatusCode, delay.Seconds, httpRequest.RequestUri);
await Task.Delay(delay);
}
else
{
BoxResponse <T> boxResponse = await getBoxResponse <T>(isStream, response).ConfigureAwait(false);
return(boxResponse);
}
}
}
catch (Exception ex)
{
Debug.WriteLine(string.Format("Exception: {0}", ex.Message));
throw;
}
}
public void ExponentialBackoff_ValidResponse()
{
int retryCount = 1;
double[] lowerBound = { 1, 2, 4, 8, 16, 32 };
double[] upperBound = { 3, 6, 12, 24, 48, 96 };
for (int i = 0; i < 6; i++)
{
ExponentialBackoff expBackoff = new ExponentialBackoff();
var backoffDelay = expBackoff.GetRetryTimeout(retryCount);
Assert.IsTrue(lowerBound[i] <= backoffDelay.TotalSeconds, "Backoff Delay is not in the correct range.");
Assert.IsTrue(backoffDelay.TotalSeconds <= upperBound[i], "Backoff Delay is not in the correct range.");
retryCount++;
}
}
public async Task <IBoxResponse <T> > ExecuteAsync <T>(IBoxRequest request)
where T : class
{
// Need to account for special cases when the return type is a stream
bool isStream = typeof(T) == typeof(Stream);
var retryCounter = 0;
ExponentialBackoff expBackoff = new ExponentialBackoff();
try
{
// TODO: yhu@ better handling of different request
var isMultiPartRequest = request.GetType() == typeof(BoxMultiPartRequest);
var isBinaryRequest = request.GetType() == typeof(BoxBinaryRequest);
while (true)
{
HttpRequestMessage httpRequest = null;
if (isMultiPartRequest)
{
httpRequest = BuildMultiPartRequest(request as BoxMultiPartRequest);
}
else if (isBinaryRequest)
{
httpRequest = BuildBinaryRequest(request as BoxBinaryRequest);
}
else
{
httpRequest = BuildRequest(request);
}
// Add headers
foreach (var kvp in request.HttpHeaders)
{
// They could not be added to the headers directly
if (kvp.Key == Constants.RequestParameters.ContentMD5 ||
kvp.Key == Constants.RequestParameters.ContentRange)
{
httpRequest.Content.Headers.Add(kvp.Key, kvp.Value);
}
else
{
httpRequest.Headers.TryAddWithoutValidation(kvp.Key, kvp.Value);
}
}
// If we are retrieving a stream, we should return without reading the entire response
HttpCompletionOption completionOption = isStream ?
HttpCompletionOption.ResponseHeadersRead :
HttpCompletionOption.ResponseContentRead;
Debug.WriteLine(string.Format("RequestUri: {0}", httpRequest.RequestUri));
HttpClient client = GetClient(request);
// Not disposing the reponse since it will affect stream response
var response = await client.SendAsync(httpRequest, completionOption).ConfigureAwait(false);
//need to wait for Retry-After seconds and then retry request
var retryAfterHeader = response.Headers.RetryAfter;
// If we get a retryable/transient error code and this is not a multi part request (meaning a file upload, which cannot be retried
// because the stream cannot be reset) and we haven't exceeded the number of allowed retries, then retry the request.
// If we get a 202 code and has a retry-after header, we will retry after
if (!isMultiPartRequest &&
(response.StatusCode == TooManyRequests
||
response.StatusCode == HttpStatusCode.InternalServerError
||
response.StatusCode == HttpStatusCode.GatewayTimeout
||
response.StatusCode == HttpStatusCode.BadGateway
||
(response.StatusCode == HttpStatusCode.Accepted && retryAfterHeader != null)) &&
retryCounter++ < RetryLimit)
{
TimeSpan delay = expBackoff.GetRetryTimeout(retryCounter);
Debug.WriteLine("HttpCode : {0}. Waiting for {1} seconds to retry request. RequestUri: {2}", response.StatusCode, delay.Seconds, httpRequest.RequestUri);
await Task.Delay(delay);
}
else
{
BoxResponse <T> boxResponse = new BoxResponse <T>();
boxResponse.Headers = response.Headers;
// Translate the status codes that interest us
boxResponse.StatusCode = response.StatusCode;
switch (response.StatusCode)
{
case HttpStatusCode.OK:
case HttpStatusCode.Created:
case HttpStatusCode.NoContent:
case HttpStatusCode.Found:
case HttpStatusCode.PartialContent: // Download with range
boxResponse.Status = ResponseStatus.Success;
break;
case HttpStatusCode.Accepted:
boxResponse.Status = ResponseStatus.Pending;
break;
case HttpStatusCode.Unauthorized:
boxResponse.Status = ResponseStatus.Unauthorized;
break;
case HttpStatusCode.Forbidden:
boxResponse.Status = ResponseStatus.Forbidden;
break;
case TooManyRequests:
boxResponse.Status = ResponseStatus.TooManyRequests;
break;
default:
boxResponse.Status = ResponseStatus.Error;
break;
}
if (isStream && boxResponse.Status == ResponseStatus.Success)
{
var resObj = await response.Content.ReadAsStreamAsync().ConfigureAwait(false);
boxResponse.ResponseObject = resObj as T;
}
else
{
boxResponse.ContentString = await response.Content.ReadAsStringAsync().ConfigureAwait(false);
// We can safely dispose the response now since all of it has been read
response.Dispose();
}
return(boxResponse);
}
}
}
catch (Exception ex)
{
Debug.WriteLine(string.Format("Exception: {0}", ex.Message));
throw;
}
}
private async Task <string> GetTokenAsync(string subType, string subId)
{
var retryCounter = 0;
var expBackoff = new ExponentialBackoff();
var assertion = ConstructJWTAssertion(subId, subType);
OAuthSession result;
while (true)
{
try
{
result = await JWTAuthPostAsync(assertion).ConfigureAwait(false);
return(result.AccessToken);
}
catch (BoxAPIException ex)
{
//need to wait for Retry-After seconds and then retry request
var retryAfterHeader = ex.ResponseHeaders?.RetryAfter;
// If we get a retryable/transient error code and this is not a multi part request (meaning a file upload, which cannot be retried
// because the stream cannot be reset) and we haven't exceeded the number of allowed retries, then retry the request.
// If we get a 202 code and has a retry-after header, we will retry after.
// If we get a 400 due to exp claim issue, this can happen if the current system time is too different from the Box server time, so retry.
var errorCode = ex.ErrorCode;
var errorDescription = ex.ErrorDescription;
if ((ex.StatusCode == HttpRequestHandler.TooManyRequests
||
ex.StatusCode == HttpStatusCode.InternalServerError
||
ex.StatusCode == HttpStatusCode.BadGateway
||
ex.StatusCode == HttpStatusCode.ServiceUnavailable
||
ex.StatusCode == HttpStatusCode.GatewayTimeout
||
(ex.StatusCode == HttpStatusCode.Accepted && retryAfterHeader != null)
||
(ex.StatusCode == HttpStatusCode.BadRequest &&
errorCode.Contains("invalid_grant") &&
errorDescription.Contains("exp"))) &&
retryCounter++ < HttpRequestHandler.RetryLimit)
{
TimeSpan delay = expBackoff.GetRetryTimeout(retryCounter);
// If the response contains a Retry-After header, override the exponential back-off delay value
if (retryAfterHeader != null && int.TryParse(retryAfterHeader.ToString(), out var timeToWait))
{
delay = new TimeSpan(0, 0, 0, 0, timeToWait);
}
// Before we retry the JWT Authentication request, we must regenerate the JTI claim with an updated DateTimeOffset.
// A delay is added to the JWT time, to account for the time of the upcoming wait.
var serverDate = ex.ResponseHeaders?.Date;
if (serverDate.HasValue)
{
var date = serverDate.Value;
assertion = ConstructJWTAssertion(subId, subType, date.LocalDateTime.Add(delay));
}
else
{
assertion = ConstructJWTAssertion(subId, subType, DateTimeOffset.UtcNow.Add(delay));
}
Debug.WriteLine("HttpCode: {0}. Waiting for {1} seconds to retry JWT Authentication request.", ex.StatusCode, delay.Seconds);
System.Threading.Tasks.Task.Delay(delay).Wait();
}
else
{
throw ex;
}
} /**/
}
}