I am trying to implement a Direct Connect Client, and I am currently stuck at a point where I need to hash the files in order to be able to upload them to other clients.
I have implemented a routine that uses the hash function from before, and is able to hash large files, according to the logic specified in Tree Hash EXchange format (THEX) (basically, the tree diagram is the important part on that page).
However, the value produced by it is similar to those shown on Wikipedia, a hex digest, but is different from those shown in the DC clients I'm using for reference.
I have been unable to find out how the hex digest form is converted to this other one (39 characters, A-Z, 0-9). Could someone please explain how that is done?
Well ... I tried what Paulo Ebermann said, using the following functions:
def strdivide(list,length): result =  # Calculate how many blocks there are, using the condition: i*length = len(list). # The additional maths operations are to deal with the last block which might have a smaller size for i in range(0,int(math.ceil(float(len(list))/length))): result.append(list[i*length:(i+1)*length]) return result def dchash(data): result = tiger.hash(data) # From the aformentioned tiger-hash-python script, 48-char hex digest result = "".join([ "".join(strdivide(result[i:i+16],2)[::-1]) for i in range(0,48,16) ]) # Representation Transform bits = "".join([chr(int(c,16)) for c in strdivide(result,2)]) # Converting every 2 hex characters into 1 normal result = base64.b32encode(bits) # Result will be 40 characters return result[:-1] # Leaving behind the trailing '='
The TTH for an empty file was found to be
8B630E030AD09E5D0E90FB246A3A75DBB6256C3EE7B8635A, which after the transformation specified here, becomes
5D9ED00A030E638BDB753A6A24FB900E5A63B8E73E6C25B6. Base-32 encoding this result yielded
LWPNACQDBZRYXW3VHJVCJ64QBZNGHOHHHZWCLNQ, which was found to be what DC++ generates.