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With regard to the Python Twisted framework, can someone explain to me how to write asynchronously a very large data string to a consumer, say the protocol.transport object?

I think what I am missing is a write(data_chunk) function that returns a Deferred. This is what I would like to do:

data_block = get_lots_and_lots_data()
CHUNK_SIZE = 1024 # write 1-K at a time.
def write_chunk(data, i):
  d = transport.deferredWrite(data[i:i+CHUNK_SIZE])
  d.addCallback(write_chunk, data, i+1)
write_chunk(data, 0)

But, after a day of wandering around in the Twisted API/Documentation, I can't seem to locate anything like the deferredWrite equivalence. What am I missing?

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2 Answers 2

The way large amounts of data is generally handled in Twisted is using the Producer/Consumer APIs. This doesn't give you a write method that returns a Deferred, but it does give you notification about when it's time to write more data.

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As Jean-Paul says, you should use IProducer and IConsumer, but you should also note that the lack of deferredWrite is a somewhat intentional omission.

For one thing, creating a Deferred for potentially every byte of data that gets written is a performance problem: we tried it in the web2 project and found that it was the most significant performance issue with the whole system, and we are trying to avoid that mistake as we backport web2 code to twisted.web.

More importantly, however, having a Deferred which gets returned when the write "completes" would provide a misleading impression: that the other end of the wire has received the data that you've sent. There's no reasonable way to discern this. Proxies, smart routers, application bugs and all manner of network contrivances can conspire to fool you into thinking that your data has actually arrived on the other end of the connection, even if it never gets processed. If you need to know that the other end has processed your data, make sure that your application protocol has an acknowledgement message that is only transmitted after the data has been received and processed.

The main reason to use producers and consumers in this kind of code is to avoid allocating memory in the first place. If your code really does read all of the data that it's going to write to its peer into a giant string in memory first (data_block = get_lots_and_lots_data() pretty directly implies that) then you won't lose much by doing transport.write(data_block). The transport will wake up and send a chunk of data as often as it can. Plus, you can simply do transport.write(hugeString) and then transport.loseConnection(), and the transport won't actually disconnect until either all of the data has been sent or the connection is otherwise interrupted. (Again: if you don't wait for an acknowledgement, you won't know if the data got there. But if you just want to dump some bytes into the socket and forget about it, this works okay.)

If get_lots_and_lots_data() is actually reading a file, you can use the included FileSender class. If it's something which is sort of like a file but not exactly, the implementation of FileSender might be a useful example.

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1  
Wow, didn't think about having too many deferred around. Thanks, Glyph. With pointers given by Jean-Paul, and the sample code of FileSender, my head is much less twisted in confusion. –  Ken Pu Jul 17 '10 at 6:50
    
+1 Less twisted mind - that's what Twisted gives you. –  Jeffrey Jose Jul 17 '10 at 11:00

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