You have to upload your file in 5MiB+ chunks via S3's multipart API. Each of those chunks requires a Content-Length but you can avoid loading huge amounts of data (100MiB+) into memory.
- Initiate S3 Multipart Upload.
- Gather data into a buffer until that buffer reaches S3's lower chunk-size limit (5MiB). Generate MD5 checksum while building up the buffer.
- Upload that buffer as a Part, store the ETag (read the docs on that one).
- Once you reach EOF of your data, upload the last chunk (which can be smaller than 5MiB).
- Finalize the Multipart Upload.
S3 allows up to 10,000 parts. So by choosing a part-size of 5MiB you will be able to upload dynamic files of up to 50GiB. Should be enough for most use-cases.
However: If you need more, you have to increase your part-size. Either by using a higher part-size (10MiB for example) or by increasing it during the upload.
First 25 parts: 5MiB (total: 125MiB)
Next 25 parts: 10MiB (total: 375MiB)
Next 25 parts: 25MiB (total: 1GiB)
Next 25 parts: 50MiB (total: 2.25GiB)
After that: 100MiB
This will allow you to upload files of up to 1TB (S3's limit for a single file is 5TB right now) without wasting memory unnecessarily.
His problem is different from yours - he knows and uses the Content-Length before the upload. He wants to improve on this situation: Many libraries handle uploads by loading all data from a file into memory. In pseudo-code that would be something like this:
data = File.read(file_name)
request = new S3::PutFileRequest()
His solution does it by getting the
Content-Length via the filesystem-API. He then streams the data from disk into the request-stream. In pseudo-code:
upload = new S3::PutFileRequestStream()
input = File.open(file_name, File::READONLY_FLAG)
while (data = input.read())