I\'ve been playing with Amazon S3 presigned URLs all night attempting to PUT a file. I generate the presigned URL in java code.
AWSCredentials credentials =
Ran into this problem as well. We're already tracking when the file is uploaded on the backend, so our work around was to set the content type after the client uploads the file using the Rails app with a call to copy_from.
This is indeed a bit puzzling, I consider it to be a bug in the AWS SDK for Java (see below) - but first and foremost, the following curl command will upload your file as such (assuming an updated pre-signed URL of course):
curl -v -T mypicture.jpg https://mybucket.s3.amazonaws.com/myfilename?Expires=1334126943&AWSAccessKeyId=<accessKey>&Signature=<generatedSignature>
That is, I've excluded the Content type
header, which yields application/octet-stream
(or binary/octet-stream
) as a result, which is obviously not desired; thus, further digging had been order.
Pre-signed URLs for PUT (and DELETE as well as HEAD) requests to Amazon S3 are known to work in principle, not the least evidenced in related questions on this site (see e.g. my answer to Upload to s3 with curl using pre-signed URL (getting 403)).
The facilitated Query String Request Authentication Alternative is documented to use the following pseudo-grammar that illustrates the query string request authentication method:
StringToSign = HTTP-VERB + "\n" +
Content-MD5 + "\n" +
Content-Type + "\n" +
Expires + "\n" +
CanonicalizedAmzHeaders +
CanonicalizedResource;
It does include the Content-Type
header, and (as you already discovered) this has been the missing piece in some documented cases, see e.g. the AWS team response to GetPreSignedURL with PUT request, yielding a working pre-signed URL once added.
This is easy to achieve with the AWS SDK for .NET indeed, which provides the convenience method GetPreSignedUrlRequest.WithContentType to do just that:
Sets the ContentType property for this request. This property defaults to "binary/octet-stream", but if you require something else you can set this property.
Accordingly, extending the respective sample Upload an Object Using Pre-Signed URL - AWS SDK for .NET as follows yields a working pre-signed URL with content type, that can be uploaded via curl as expected (i.e. exactly as you attempted to):
// ...
GetPreSignedUrlRequest request = new GetPreSignedUrlRequest();
// ...
request.WithContentType("image/jpg");
// ...
Now, one would like to extend the semantically identical sample Upload an Object Using Pre-Signed URL - AWS SDK for Java in a similar fashion, but (as you've discovered already as well), there is no dedicated method to achieve this. This might just be a lacking convenience method though and could be achievable via addRequestParameter() or setResponseHeaders() eventually, e.g.:
// ...
request.setExpiration( new Date( System.currentTimeMillis() + (120 * 60 * 1000) ));
request.addRequestParameter("content-type", "image/jpg");
return client.generatePresignedUrl( request ).toString();
// ...
However, both method's documentation suggests other purposes, and it doesn't work indeed, i.e. they always yield the identical signature, no matter which content type is set like so (if any).
Debugging further into the SDKs reveals, that both provide a semantically similar core method to calculate the query string authentication according to the pseudo-grammar referenced above, see buildSigningString() for .NET and makeS3CanonicalString() for Java.
But the respective code in the Java version to Add all interesting headers to a list, then sort them, where "Interesting" is defined as Content-MD5, Content-Type, Date, and x-amz- is never executed in fact, because there is indeed no method to provide these headers somehow, which are only available for class DefaultRequest and not class GeneratePresignedUrlRequest used to initialize the former, which is used as input for calculating the signature in turn, see protected method createRequest().
Interestingly/Notably, the two methods to calculate the query string authentication in .NET vs. Java compose their input from an almost inverse combination of header vs. parameter sources on the call stack, which could hint on the cause of the Java bug, but obviously that might as well be just difficult to decipher, i.e. the internal architecture could differ significantly of course.
There are two angles to this:
In conclusion, the only reasonable way to resolve this would be an updated SDK, so a bug report is in order - obviously one could as well duplicate/extend the SDK functionality to account for this special case separately (ideally in a way allowing to submit a pull request for the aws-sdk-for-java project), but getting this right in a compatible and maintainable way seems to be a bit tricky, thus is likely best done by the SDK maintainers themselves.