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I've made my UDP server and client with boost::asio udp sockets. Everything looked good before I started sending more datagrams. They come correctly from client to server. But, they are united in my buffer into one message.

I use

udp::socket::async_receive with std::array<char, 1 << 18 > buffer

for making async request. And receive data through callback

void on_receive(const error_code& code, size_t bytes_transferred)

If I send data too often (every 10 milliseconds) I receive several datagrams simultaneously into my buffer with callback above. The question is - how to separate them? Note: my UDP datagrams have variable length. I don't want to use addition header with size, cause it'll make my code useless for third-party datagrams.

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Could you show your code? –  Nikolai N Fetissov Jul 20 '12 at 18:32
Use a user-provided callback function in your on_receive message, that processes all the included messages in the single received packet. –  Chad Jul 23 '12 at 14:45
Sure, it could be found here: udp2tcp_tunnel. It's in progress - yet a little ping-pong server (sending by TCP from client, receiving the same test message back from server by UDP). It seems to me I found the problem. If I send several buffers in buffer sequence by 'basic_datagram_socket::async_send_to(buffer_sequence, handler)', it'll come as one datagram (not one datagram for each buffer). –  valery_l Jul 23 '12 at 14:57
Have you tried buf_.clear() after you receive each datagram? –  Nikolai N Fetissov Jul 23 '12 at 15:08
@Nikolai, no. But suppose, it's not a solution, cause I've got 'bytes_transferred' in my receive handler equal to the size of several datagrams together. I've solved the problem by sending only one buffer by 'basic_datagram_socket::async_send_to' at once, while still sending several buffers by 'async_write' for TCP socket. Maybe there is any better solution? –  valery_l Jul 23 '12 at 15:29

1 Answer 1

I believe this is a limitation in the way boost::asio handles stateless data streams. I noticed exactly the same behavior when using boost::asio for a serial interface. When I was sending packets with relatively large gaps between them I was receiving each one in a separate callback. As the packet size grew and the gap between the packets therefore decreased, it reached a stage when it would execute the callback only when the buffer was full, not after receipt of a single packet.

If you know exactly the size of the expected datagrams, then your solution of limiting the input buffer size is a perfectly sensible one, as you know a-priori exactly how large the buffer needs to be.

If your congestion is coming from having multiple different packet types being transmitted, so you can't pre-allocate the correct size buffer, then you could potentially create different sockets on different ports for each type of transaction. It's a little more "hacky" but given the virtually unlimited nature of ephemeral port availability, as long as you're not using 20,000 different packet types that would probably help you out as-well.

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