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I'm sending very large (64000 bytes) datagrams. I realize that the MTU is much smaller than 64000 bytes (a typical value is around 1500 bytes, from my reading), but I would suspect that one of two things would happen - either no datagrams would make it through (everything greater than 1500 bytes would get silently dropped or cause an error/exception to be thrown) or the 64000 byte datagrams would get chunked into about 43 1500 byte messages and transmitted transparently.

Over a long run (2000+ 64000 byte datagrams), about 1% (which seems abnormally high for even a LAN) of the datagrams get dropped. I might expect this over a network, where datagrams can arrive out of order, get dropped, filtered, and so on. However, I did not expect this when running on localhost.

What is causing the inability to send/receive data locally? I realize UDP is unreliable, but I didn't expect it to be so unreliable on localhost. I'm wondering if it's just a timing issue since both the sending and receiving components are on the same machine.

For completeness, I've included the code to send/receive datagrams.


DatagramSocket socket = new DatagramSocket(senderPort);

int valueToSend = 0;

while (valueToSend < valuesToSend || valuesToSend == -1) {
    byte[] intBytes = intToBytes(valueToSend);

    byte[] buffer = new byte[bufferSize - 4];

     //this makes sure that the data is put into an array of the size we want to send
    byte[] bytesToSend = concatAll(intBytes, buffer);

    System.out.println("Sending " + valueToSend + " as " + bytesToSend.length + " bytes");

    DatagramPacket packet = new DatagramPacket(bytesToSend,
                        bufferSize, receiverAddress, receiverPort);





DatagramSocket socket = new DatagramSocket(receiverPort);

while (true) {
    DatagramPacket packet = new DatagramPacket(
            new byte[bufferSize], bufferSize);

    System.out.println("Waiting for datagram...");

    int receivedValue = bytesToInt(packet.getData(), 0);

    System.out.println("Received: " + receivedValue
            + ". Expected: " + expectedValue);

    if (receivedValue == expectedValue) {
    else {

    expectedValue = receivedValue + 1;
    System.out.println("Expected Datagrams: " + totalDatagrams);
    System.out.println("Received Datagrams: " + receivedDatagrams);
    System.out.println("Dropped Datagrams: " + droppedDatagrams);
    System.out.println("Received: "
            + ((double) receivedDatagrams / totalDatagrams));
    System.out.println("Dropped: "
            + ((double) droppedDatagrams / totalDatagrams));
share|improve this question
Could you be reaching an internal OS buffer limit? The OS will only keep so much data before dropping packets. – Peter Lawrey Nov 1 '11 at 15:15
I've ran into this exact same scenario and thought the same thing, that I shouldn't really ever lose packets over localhost. Unfortunately, it does happen. You can easily create the situation by creating a simple UDP broadcaster that rapidly broadcasts a 512 byte message a thousand times. Create a simple UDP client that will receive the messages and check the counts... you will most certainly lose messages. – Randy Burden Nov 29 '11 at 9:15
@Randy With my most recent experimentation, it appears to only be because of the buffer size. Increasing the buffer size eliminated the problem entirely, at least under the conditions that I'm running. – Thomas Owens Nov 29 '11 at 10:24
@ThomasOwens Thanks for your response. I ran a few tests and to my amazement, I was able to send over 100,000 512 byte messages without a single lost packet over localhost by increasing the buffer size to 4 megabytes or (1024 * 4096 bytes)! Here's a snippet of the UDP message receiver: UdpClient listener = (UdpClient)ar.AsyncState; listener.Client.ReceiveBufferSize = 1024 * 4096; Byte[] receiveBytes = listener.EndReceive(ar, ref ipEndpoint); string receiveString = Encoding.ASCII.GetString(receiveBytes); – Randy Burden Nov 30 '11 at 6:49
up vote 23 down vote accepted

What is causing the inability to send/receive data locally?

Mostly buffer space. Say you're sending a constant 10MB/second , and you're only able to consume 5MB/second, the OS and network stack can't keep up, so it will drop the packets - this should be rather obvious. (Which, naturally is different from TCP which provides flow control and retransmission to handle such a situation).

Even if you're normally keeping up with consuming the data, there might be small time slices where you're not. e.g. a garbage collector kicks in, the OS decided to schedule another process instead of your consumer for 0.5 seconds, etc - and the system will drop packets.

This can be extended to any network devices in between. If you're running on a network instead of just locally, an ethernet switch, router, etc. will also drop packets if its queues are full (e.g. you're sending a 10MB/s stream through an 100MB/s ethernet switch, and a few seconds in the middle of the night someone else tries to cram 100MB/sec through the same path, some packets will lose.)

Try increasing the socket buffers size, often you have to increase this on the OS level as well.

(e.g. on linux, the default socket buffer size is often only 128k or less, which leaves very little room for pausing the data processing , you can try to increase them by setting the sysctl net.core.wmem_max,net.core.wmem_default, net.core.rmem_max, net.core.rmem_default)

share|improve this answer
I'll look into this. Will adjusting the send/receive buffer sizes through Java on Windows work, or do I need to make system-level changes? I'll be further researching/exploring this option. Once I start running over a network, I know that I need to be prepared for dropped/missing packets, but I just don't want this locally. – Thomas Owens Nov 1 '11 at 16:59
I believe Windows does not impose restrictions on the socket buffer size , so I'd try setting it to perhaps 2-5MB. (note, sending that large datagrams is really not optimal on an ethernet network, if just one of the fragments is lost, you lose the entire datagram.) – nos Nov 1 '11 at 17:12
+1 had the same issue and increasing the receive buffer size resulted in no dropped packets. – Ralf Nov 1 '11 at 17:17
Yeah - I'm aware of the losing one fragment = losing datagram. I raised that concern, but it was deemed to be acceptable for this particular application. If we lose a datagram, we can cope with it. And my searches turn up the same thing about Windows. This appears to mitigate (or at least reduce) the problem. I was even able to remove the delay between packet transmissions and only have a negligable loss of UDP datagrams (I sent almost 30000 datagrams before 1 was lost due to the buffer sizes). – Thomas Owens Nov 1 '11 at 17:26

UDP pkts scheduling may be handled by multiple threads on OS level. That would explain why you receive them out of order even on

share|improve this answer

I don't know what makes you expect a percentage less then 1% of dropped packets for UDP.

That being said, based on RFC 1122 (see section 3.3.2), the maximum buffer size guaranteed not to be split into multiple IP datagrams is 576 bytes. Larger UDP datagrams may be transmitted but they will likely be split into multiple IP datagrams to be reassembled at the receiving end point.

I would imagine that a reason contributing to the high rate of dropped packets you're seeing is that if one IP packet that was part of a large UDP datagram is lost, the whole UDP datagram will be lost. And you're counting UDP datagrams - not IP packets.

share|improve this answer
I would expect dropped packets...over a network. However, I'm sending to localhost. I expect no, or very few, IP packets to be dropped. – Thomas Owens Nov 1 '11 at 16:56

Your expectations, as expressed in your question and in numerous comments to other answers, are wrong. All the following can happen even in the absence of routers and cables.

  1. If you send a packet to any receiver and there is no room in his socket receive buffer it will get dropped.

  2. If you send a UDP datagram larger than the path MTU it will get fragmented into smaller packets, which are subject to (1).

  3. If all the packets of a datagram don't arrive, the datagram will never get delivered.

  4. The TCP/IP stack has no obligation to deliver packets or UDP datagrams in order.

share|improve this answer
I knew that 2-4 were true, although my problem was caused by 1. I just happened to run into a case where the default buffer sizes were causing problems, managed to produce a small code sample that demonstrated it, and got a solution. – Thomas Owens Nov 1 '11 at 23:09

UDP packets are not guaranteed to reach their destination whereas TCP is!

share|improve this answer
If I'm sending to, I'm not going over any kind of network. I would expect zero to no loss here in such a condition. – Thomas Owens Nov 1 '11 at 16:55
TCP and UDP are two different ways to send and receive packets. The network does not affect which approach you take. Please see this SO explanation and the skullbox link for an explanation.… – r0ast3d Nov 1 '11 at 17:41
I know all about the differences between TCP and UDP. My point is that if I send to, there should be 0 loss of data, regardless of the protocol used, unless some data loss is explicitly introduced on purpose. UDP data loss comes from the fact that it's a message-oriented protocol with no concept of packet sequence. Neither applies when running locally. – Thomas Owens Nov 1 '11 at 17:43
How are you saying that it does not apply locally? – r0ast3d Nov 1 '11 at 17:45
Physics says there's no reason for packets to arrive out of order. On any network, local or not, that has only a single path between the nodes, a packet A sent before a packet B will always arrive at the destination first. In addition, sending to should not (and under everything that I've ever used, does not) rely on any network. To prove this, simply unplug all network cables and turn off all wireless radios - you can still connect to and send data. – Thomas Owens Nov 1 '11 at 18:27

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