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I have a byte array like this:

lzo_bytep out; // my byte array
size_t uncompressedImageSize = 921600;

out = (lzo_bytep) malloc((uncompressedImageSize + 
          uncompressedImageSize / 16 + 64 + 3));
wrkmem = (lzo_voidp) malloc(LZO1X_1_MEM_COMPRESS);

// Now the byte array has 802270 bytes
r = lzo1x_1_compress(imageData, uncompressedImageSize,
        out, &out_len, wrkmem);

How can I split it into smaller parts under 65,535 bytes (the byte array is one large image which I want to sent over UDP which has upper limit 65,535 bytes) and then join those small chunks back into a continuous array?

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3 Answers 3

up vote 41 down vote accepted

The problem with doing this is that the UDP packets can arrive out or order, or be dropped. Use TCP for this; that's what it's for.

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23  
@Richard: You're not going to be able to implement a connection that does this correctly that operates any faster than TCP does. Open a TCP connection to send over the initial big chunk, and then use UDP for updates, (assuming that if any of the updates are lost or destroyed, you can recover from that; UDP packets can be lost or destroyed). This is what game servers who need this kind of low latency do -- i.e. sound files and such are transferred over TCP, but player positions and such are transmitted over UDP (i.e. CounterStrike servers). –  Billy ONeal Dec 28 '10 at 20:59
2  
True in theory. Less so in practice. –  John Dibling Dec 28 '10 at 21:53
2  
@Richard: What if the 1 integer gets dropped? (Like I said, this is a hard problem) –  Billy ONeal Dec 28 '10 at 23:42
10  
@richard don't let them tease you; they're goading you into reinventing tcp one feature at a time so you realize that tcp is precisely the minimum overhead that you need when you want to send things that are too long for a single packet, which is why it was invented. –  Joel Spolsky Dec 29 '10 at 2:16
6  
@Joel, not necessarily, TCP has a lot more overhead (flow/congestion control for example), UDP has the added advantage that if at some point you are broadcasting to multiple clients, multicast becomes a possibility - there are advantages to adding a little bit of reliability over UDP (some commercial messaging protocols employ this technique - for this very reason!) –  Nim Dec 29 '10 at 2:31

You don't have to "split" the array. You just have to point into different parts of it.

Assuming you're using a typical UDP write() function, it takes several arguments. One of them is a pointer to the buffer and the other is the length.

If you want to get the first 65535 bytes, your buffer is at wrkmem and the length is 65535.

For the second 65535 bytes, your buffer is at wrkmem + 65535 and your length is 65535.

The third 65535 bytes, your buffer is at wrkmem + 2 * 65535 and your length is 65535.

Get it?

(That said, the other posters are correct. You should be using TCP).

On the other side, when you want to re-join the array, you must allocate enough memory for the whole thing, then use a copy function like memcpy() to copy the arriving chunks into their correct position. Remember that UDP may not deliver the pieces in order and may not deliver all of them.

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1  
+1 -- of course neither side will be able to detect if a packet arrives out of order, or is dropped completely. Therefore the OP will need to implement his/her own mechanism for handing these tasks. –  Billy ONeal Dec 28 '10 at 21:01
13  
look at the bright side: he'll learn a lot about pointer arithmetic trying to reimplement his own TCP implementation. –  Joel Spolsky Dec 28 '10 at 21:02
1  
This is a good point... though I hope it isn't my checking account he's withdrawing from with this :) –  Billy ONeal Dec 28 '10 at 21:03
1  
Another alternative is to use SCTP: you can have both reliable and unreliable streams in a single connection. –  BruceCran Dec 28 '10 at 21:16

You might wish to try a message based middleware like ØMQ and feed the entire compressed image as one message and have the middleware run asynchronously and manage redelivery at the fastest speed possible. It provides a BSD socket compatible API and so can be easy to migrate code over and allows you to easily swap between various underlying transport protocols as required.

Other message systems are available.

void my_free (void *data, void *hint)
{
    free (data);
}

    /*  ...  */

size_t uncompressedImageSize = 921600, compressedImageSize = 0;
size_t out_len = (uncompressedImageSize + uncompressedImageSize / 16 + 64 + 3);
lzo_bytep out = (lzo_bytep)malloc (out_len);
lzo_voidp wkrmem = (lzo_voidp)malloc (LZO1X_1_MEM_COMPRESS);
zmq_msg_t msg;

rc = lzo1x_1_compress (imageData, uncompressedImageSize,
                       out, &compressedImageSize, wrkmem);
assert (compressedImageSize > 0);
rc = zmq_msg_init_data (&msg, out, compressedImageSize, my_free, NULL);
assert (rc == 0);
/* Send the message to the socket */
rc = zmq_send (socket, &msg, 0);
assert (rc == 0);
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