I'm working on improving the upload performance of a .net app that uploads groups of largeish (~15mb each) files to S3.
I have adjusted multipart options (threads, chunk size, etc.) and I think I've improved that as much as possible, but while closely watching the network utilization, I noticed something unexpected.
I iterate over a number of files in a directory and then submit each of them for upload using an instance of the S3 transfer utility like so:
// prepare the upload this._transferUtility.S3Client.PutBucket(new PutBucketRequest().WithBucketName(streamingBucket)); request = new TransferUtilityUploadRequest() .WithBucketName(streamingBucket) .WithFilePath(streamFile) .WithKey(targetFile) .WithTimeout(uploadTimeout) .WithSubscriber(this.uploadFileProgressCallback); // start the upload this._transferUtility.Upload(request);
Then I watch for these to complete in the uploadFileProgressCallback specified above.
However when I watch the network interface, I can see a number of distinct "humps" in my outbound traffic graph which coincide precisely with the number of files I'm uploading to S3.
Since this is an asynchronous call, I was under the impression that each transfer would begin immediately, and I'd see a stepped increase in outbound data followed by a stepped decrease as each upload was completed. Base on what I'm seeing now I wonder if these requests, while asynchronous to the calling code, are being queued up somewhere and then executed in series?
If so I'd like to change that so the request all begin uploading at (close to) the same time, so I can maximize the upload bandwidth I have available and reduce the overal execution time.
I poked around in the S3 .net SDK documentation but I couldn't find any mention of this queueing mechanism or any properties/etc. that appeared to provide a way of increasing the concurrency of these calls.
Any pointers appreciated!