Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have an application that downloads a file from the server. The connection is very unstable and so we are implementing a feature to check for file integrity so that we can know if the file was not downloaded correctly and manage accordingly.

How should I go about this process? Right now I make a request to the server for the file's hash, then I make another request for the file itself, then compute the hash for the downloaded file and file compare the 2 hashes.

Is this the right approach? Something tells me it is not. If the hashes are found to be different I go through the exact same process a few times including requesting the hash again (which should be the same). Should I bother requesting the hash every time ? I'm doing it in case that is not transferred correctly ? Is this unnecessary ? Would there be a way for me to reduce the number of requests since they are expensive and things are veeery slow right now.

Any ideas?

Just in case it matters the server is using C# and the client is an android device (JAVA).


share|improve this question
A hash match is evidence that the file transferred correctly, but not a guarantee; hashes collide. You are playing the odds. Your strategy therefore should be to compute the expected value and the expected cost of the various strategies, and then choose the one with the highest expected net value to the customer. –  Eric Lippert May 3 '11 at 14:48
That said, my strategy would be to keep it simple. If the transfer fails, or it "succeeds" but the hashes do not match then don't try again. Tell the user that the attempt failed and let them decide whether to try again or to give up. If the connections are slow then ultimately it is the user's time that you are spending; let them decide how to spend it. –  Eric Lippert May 3 '11 at 14:49

2 Answers 2

TCP/IP does integrity checking on its own; you don't have to. Integrity of each data packet is ensured with CRC, and the TCP protocol checks for lost packets and requests resubmission. So as long as your server generates the Content-Length header, you can be sure that mistransmission is detected and the client errors out.

That said, a good place for a file hash would be a custom HTTP header. Prefix its name with "X-", so that it does not collide with existing or future standard headers.

share|improve this answer
An HTTP Content-Length header (or any other means of transmitting the content length) is actually only required if the TCP connection is to be used for transfer of multiple files. If only one file is transferred through the TCP socket, the receiving end is able to tell if the sender closed the connection properly (after sending the last data) or if the connection dropped, e.g. because of network problems. –  jarnbjo May 3 '11 at 15:02
The data doesn't necessarily have to be corrupted in transit: –  Bradley Grainger May 3 '11 at 15:11

Yes there is a better way. Firstly, instead of requesting a hash of the entire file, compress the file and segment the compressed data into (say) 100KB blocks and supply a sequence of hashes, one per block, followed by a self-hash of those sequence of hashes. By a self-hash I just mean taking the vector of hashes, hashing that and sticking that on the end of the vector.

You can now verify that this vector of hashes transferred correctly by checking the self-hash. If it doesn't pass, re-request the hash vector.

The second phase is then to request the transfer of the compressed data. As this comes across, you can check at 100KB intervals that the transfer is correct, aborting as soon as you get an error. Then (if possible) start the re-request from where you left off, a "high tide mark".

Finally you can safely decompress the data. Many decompression algorithm will perform a further integrity check, which gives you a further round of verification - defending against any programming mistakes. A free check is worth it.

This approach will work regardless of whether or not you're working over a checked protocol like TCP/IP or an unreliable protocol like UDP. Compressing the data, if you don't do it already, will be a significant improvement too.

The only downside - it is obviously a lot more work.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.