I'm writing a Java client application that will consume high rate UDP data and I want to minimize packet loss at the host/application layer (I understand there may be unavoidable loss in the network layer).
What is a reasobaly high Buffer Size (MulticastSocket.setReceiverBufferSize())?
What is the ideal DatagramPacket buffer size? Is there a downside to using 64k?
I have very limited insight into the network topology and the sender application. This is running on Linux. TCP is not an option.
What is a reasobaly high Buffer Size (MulticastSocket.setReceiverBufferSize())?
Figure out how much your application might jitter and the rate of data you need to receive. e.g. if your application pauses to do something for 0.5 seconds (like garbage collection), and you're receiving data at 10MB/sec, you'd need a buffer of 5MB to make up for not receiving data for those 0.5 seconds.
Note that you might need to tune the net.core.rmem_max sysctl on linux to be allowed to set the buffers to the desired size(iirc you actually only get half the size of what you specify in the sysctl) , the default net.core.rmem_max might be rather low.
What is the ideal DatagramPacket buffer size? Is there a downside to using 64k?
The ideal is that of the MTU of your network, for normal ethernet, that means an UDP payload of 1472 bytes. Anything bigger is a bad idea, as it causes fragmented IP packet - IP fragmentation is generally considered a bad thing, as it causes more overhead and can cause more lost data.
Sockets end and receive buffers can be as large as you like, a megabyte or two if you want.
The maximum practical datagram size via a router is 534 bytes.
Related
I have to measure the speed of UDP and TCP between a Client and a Server, for a university project, and for that we have to choose the data we will send. For example 500 bytes, 750 bytes, 1500 bytes...
In Linux I know how to reduce or increment MTU of the segment, but I do not know how to do it in Java for my application. Are there any function to do it, or a way to make the socket bigger or smaller and force it to send the amount of data that I want?
Thank you in advance!
The Java socket API is pretty high level and doesn't give you much fine grained control.
That said you can write x number of bytes to the socket then flush it.
You should also enable TCP_NODELAY, otherwise the packets may end up being buffered.
So long as the amount of bytes is less than the underlying OS MTU then the messages should be sent in separate packets.
I have to implement a socket communicatio between a Server written in Java and a Client written in C.
The maximum amount of data that I will have to transmit is 64KB.
In the most socket communication tutorials they are working with buffer sizes of about 1024 Byte or less.
Is it a (maybe performance) problem to set the buffer to 64KB?
The two software parts will run on the same machine or at least in the same local area network.
And if it is a problem: How to handle messages that are bigger than buffer in general?
The buffer can be smaller than the messages without any problem while the receiver consumes the data as fast as the sender generates it. A bigger buffer lets your receiver to have more time to process the message, but usually you don't need a giant buffer: for example, when you download software the size of a file can be more than 1GB, but your browser/ftp client just reads the buffer and stores the data in a file in your local hard disk.
And in general, you can ignore the language used to create the client or the server, only the network protocol matters. Every language has its own libraries to handle sockets with ease.
I suggest a larger buffer but I suspect you see less than 5% difference whether you use 1 KB or 64 KB.
Note: b = bit and B = byte, k = 1000 and K = 1024 and it is best not to get the confused (not that it is likely to matter here)
In Java when using DatagramPacket suppose you have a byte[1024*1024] buffer. If you just pass that for the DatagramPacket when sending/receiving will a Java receive call for the DatagramPacket block until it has read the entire megabyte?
I'm asking if Java will split it up or just try to send the entire thing which gets dropped.
Normally the size limit is around 64KB for a UDP packet, but I wondered since Java's API allow for byte arrays if that is a limit and something super huge is dropped or split up and reassembled for you.
If it is dropped what API call would tell me the maximum data payload I can use in the Java call? I've heard that IPv6 also has jumbo frames, but does DatagramPacket (or DatagramSocket) support that since UDP defines the header spec?
DatagramPacket is just a wrapper on a UDP based socket, so the usual UDP rules apply.
64 kilobytes is the theoretical maximum size of a complete IP datagram, but only 576 bytes are guaranteed to be routed. On any given network path, the link with the smallest Maximum Transmit Unit will determine the actual limit. (1500 bytes, less headers is the common maximum, but it is impossible to predict how many headers there will be so its safest to limit messages to around 1400 bytes.)
If you go over the MTU limit, IPv4 will automatically break the datagram up into fragments and reassemble them at the end, but only up to 64 kilobytes and only if all fragments make it through. If any fragment is lost, or if any device decides it doesn't like fragments, then the entire packet is lost.
As noted above, it is impossible to know in advance what the MTU of path will be. There are various algorithms for experimenting to find out, but many devices do not properly implement (or deliberately ignore) the necessary standards so it all comes down to trial and error. Or you can just guess 1400 bytes per message.
As for errors, if you try to send more bytes than the OS is configured to allow, you should get an EMSGSIZE error or its equivalent. If you send less than that but more than the network allows, the packet will just disappear.
java.net.DatagramPacket buffer max size is 65507.
See
https://en.wikipedia.org/wiki/User_Datagram_Protocol#UDP_datagram_structure
Maximum Transmission Unit (MTU) size varies dependent on implementation but is arguably irrelevant to the basic question "Java DatagramPacket (UDP) maximum send/recv buffer size" as the MTU is transparent to the java.net.DatagramPacket layer.
# Mihai Danila. Because I couldn't add a comment to the above answer, that's why writing into reply section.
In continuation of your answer on MTU size, in my practice, I try to use NetworkInterface.getMTU()-40 for setting the buffer size of DatagramSocket.setSendBufferSize(). So, trying not to rely on getSendBufferSize() This is to make sure it matches different window sizes on different platforms and is universally acceptable on ethernet (ignoring dial-up for a moment). I haven't hardcoded it to 1460 bytes (1500-20-20) because on windows, the MTU size is universally 1500. However, windows platform's own window size is 8192 bytes, but I believe, by setting the SO_SNDBUF to < MTU, I am burdening the network/IP layer less, and for all the hops for routers and receivers, some overheads. Thus, reducing some latency over the network.
Similarly, for the receive buffer, I am using a max of 64K or 65535 bytes. This way my program is portable on different platforms using different window sizes.
Do you think it sounds OK? I have not implemented any tools to measure any differences but assuming that its the case based on what's out there.
I am receiving ~3000 UDP packets per second, each of them having a size of ~200bytes. I wrote a java application which listens to those UDP packets and just writes the data to a file. Then the server sends 15000 messages with previously specified rate. After writing to the file it contains only ~3500 messages. Using wireshark I confirmed that all 15000 messages were received by my network interface. After that I tried changing the buffer size of the socket (which was initially 8496bytes):
(java.net.MulticastSocket)socket.setReceiveBufferSize(32*1024);
That change increased the number of messages saved to ~8000. I kept increasing the buffer size up to 1MB. After that, number of messages saved reached ~14400. Increasing buffer size to larger values wouldn't increase the number of messages saved. I think I have reached the maximum allowed buffer size. Still, I need to capture all 15000 messages which were received by my network interface.
Any help would be appreciated. Thanks in advance.
Smells like a bug, most likely in your code. If the UDP packets are delivered over the network, they will be queued for delivery locally, as you've seen in Wireshark. Perhaps your program just isn't making timely progress on reading from its socket - is there a dedicated thread for this task?
You might be able to make some headway by detecting which packets are being lost by your program. If all the packets lost are early ones, perhaps the data is being sent before the program is waiting to receive them. If they're all later, perhaps it exits too soon. If they are at regular intervals there may be some trouble in your code which loops receiving packets. etc.
In any case you seem exceptionally anxious about lost packets. By design UDP is not a reliable transport. If the loss of these multicast packets is a problem for your system (rather than just a mystery that you'd like to solve for performance reasons) then the system design is wrong.
The problem you appear to be having is that you get delay writing to a file. I would read all the data into memory before writing to the file (or writing to a file in another thread)
However, there is no way to ensure 100% of packet are received with UDP without the ability to ask for packets to be sent again (something TCP does for you)
I see that you are using UDP to send the file contents. In UDP the order of packets is not assured. If you not worried about the order, you put all the packets in a queue and have another thread process the queue and write the contents to file. By this the socket reader thread is not blocked because of file operations.
The receive buffer size is configured at OS level.
For example on Linux system, sysctl -w net.core.rmem_max=26214400 as in this article
https://access.redhat.com/site/documentation/en-US/JBoss_Enterprise_Web_Platform/5/html/Administration_And_Configuration_Guide/jgroups-perf-udpbuffer.html
This is a Windows only answer, but the following changes in the Network Controller Card properties made a DRAMATIC difference in packet loss for our use-case.
We are consuming around 200 Mbps of UDP data and were experiencing substantial packet loss under moderate server load.
The network card in use is an Asus ROG Aerion 10G card, but I would expect most high-end network controller cards to expose similar properties. You can access them via Device Manager->Network card->Right-Click->Properties->Advanced Options.
1. Increase number of Receive Buffers:
Default value was 512; we could increase it up to 1024. In our case, higher settings were accepted, but the network card becomes disabled once we exceed 1024. Having a larger number of available buffers at the network-card level gives the system more tolerance to latency in transferring data from the network card buffers to the socket buffers where our apps finally can read the data.
2. Set Interrupt Moderation Rate to 'Off':
If I understood correctly, interrupt moderation coalesces multiple "buffer fill" notifications (via interrupts) into a single notification. So, the CPU will be interrupted less-often and fetch multiple buffers during each interrupt. This reduces CPU usage, but increases the chance a ready buffer is overwritten before being fetched, in case the interrupt is serviced late.
Additionally, we increased the socket buffer size (as the OP already did) and also enabled Circular Buffering at the socket level, as suggested by Len Holgate in a comment, this should also increase tolerance to latency in processing the socket buffers.
I read this question about the error that I'm getting and I learned that UDP data payloads can't be more than 64k. The suggestions that I've read are to use TCP, but that is not an option in this particular case. I am interfacing with an external system that is transmitting data over UDP, but I don't have access to that external system at this time, so I'm simulating it.
I have data messages that are upwards of 1,400,000 bytes in some instances and it's a requirement that the UDP protocol is used. I am not able to change protocols (I would much rather use TCP or a reliable protocol build on UDP). Instead, I have to find a way to transmit large payloads over UDP from a test application into the system that I am building and to read those large payloads in the system that I'm building for processing. I don't have to worry about dropped packets, either - if I don't get the datagram, I don't care - just wait for the next payload to arrive. If it's incomplete or missing, just throw it all away and continue waiting. I also don't know the size of the datagram in advance (they range of a few hundred bytes to 1,400,000+ bytes.
I've already set my send and receive buffer sizes large enough, but that's not sufficient. What else can I do?
UDP packets have a 16 bit length field. It's nothing to do with Java. They cannot be bigger, period. If the server you are talking to is immutable, you are stuck with what you can fit into a packet.
If you can change the server and thus the protocol, you can more or less reimplement TCP for yourself. Since UDP is defined to be unreliable, you need the full retransmission mechanism to cope with packets that are dropped in the network somewhere. So, you have to split the 'message' into chunks, send the chunks, and have a protocol for requesting retransmission of lost chunks.
It's a requirement ...
The requirement should also therefore dictate the packetization technique. You need more information about the external system and its protocol. Note that the maximum IPv4 UDP payload Is 65535-28 bytes, and the maximum practical payload is < 1500 bytes once a router gets involved.