# We need advice for a server software implementation with Java NIO

I'm trying to calculate the load on a server I have to build.

I need to create a server witch have one million users registered in an SQL database. During a week each user will approximately connect 3-4 times. Each time a user will up and download 1-30 MB data, and it will take maybe 1-2 minutes.

When an upload is complete it will be deleted within minutes. (Update text removed error in calculations)

I know how to make and query an SQL database but what to consider in this situation?

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I am using Netty for a similar scenario. It is just working!

Here is a starting point for using netty:

public class TCPListener {
private static ServerBootstrap bootstrap;

public static void run(){
bootstrap = new ServerBootstrap(
new NioServerSocketChannelFactory(

bootstrap.setPipelineFactory(new ChannelPipelineFactory() {
public ChannelPipeline getPipeline() throws Exception {
TCPListnerHandler handler = new MyHandler();
ChannelPipeline pipeline = Channels.pipeline();

return pipeline;
}
});

bootstrap.bind(new InetSocketAddress(9999));  //port number is 9999
}

public static void main(String[] args) throws Exception {
run();
}
}


and MyHandler class:

public class MyHandler extends SimpleChannelUpstreamHandler {
@Override
ChannelHandlerContext ctx, MessageEvent e) {

try {
ChannelBuffer buffer= (ChannelBuffer) e.getMessage();
//Now the buffer contains byte stream from client.

} catch (UnsupportedEncodingException ex) {
ex.printStackTrace();
}

byte[] output; //suppose output is a filled byte array
ChannelBuffer writebuffer = ChannelBuffers.buffer(output.length);
for (int i = 0; i < output.length; i++) {
writebuffer.writeByte(output[i]);
}

e.getChannel().write(writebuffer);
}

@Override
public void exceptionCaught(
ChannelHandlerContext ctx, ExceptionEvent e) {
// Close the connection when an exception is raised.
e.getChannel().close();
}
}

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@Farshid Zaker Thanks, where do i start to learn Netty except the obvious Apache site. I know there are different brands of Netty right? Easy beginner reading..Books? –  Erik Jun 3 '11 at 8:31
Added a simple example. –  Farshid Zaker Jun 3 '11 at 8:47
@Farshid Zake thanks I see it looks quite easy. I have thoughts about the NIO mechanism. If all my users never interact with each other. Ans only need filesystem, Sql access. No singletons or static. What type of NIO type of approach should i use? –  Erik Jun 3 '11 at 8:49
@Farshid Zake What about if i want encryption. Encrypted login and all files sent/received to be encrypted. Guess i can make the sender encrypt and compress the files. But the sql login part, is there some Netty library for that? –  Erik Jun 3 '11 at 9:10
Sometimes nobody is connected! And sometimes about 100 devices (yes, devices not users!) are connected. It is going to increase next month to several hundreds. In test situation, it supports 1000 concurrent connections. By the way, who says everything is running on a single thread? –  Farshid Zaker Jun 3 '11 at 22:07

What you want exactly is Netty. It's an API written in NIO and provides another event driven model instead of the classic thread model. It doesn't use a thread per request, but it put the requests in a queue. With this tool you can make up to 250,000 requests per second.

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Will second Netty: quite reasonable. A bit more complex than one would expect, but full featured. –  Femi Jun 3 '11 at 8:22
What is "Will second Netty:"? NETTY2? –  Erik Jun 3 '11 at 8:34
+1 I love Netty and, IMHO, is much easier and more powerful than Java sockets and Java NIO. –  alpian Jun 3 '11 at 8:44
@Erik : Excuse me where is it mentioned ? –  Houcem Berrayana Jun 3 '11 at 9:00
@Erik, Definition: sec·ond /'sekənd/ Verb: Formally support or endorse (a nomination or resolution or its proposer) as a necessary preliminary to adoption or further discussion. –  willjcroz Jun 3 '11 at 10:21

The important thing to remember is that most users do not access a system evenly in every hour of every day of the week. Your system need to perform correctly during the busiest hour of the week.

Say the busiest hour of the week, 1/50 of all uploads are made. In the busiest hour each upload could be 30 MB, a total of 1.8 TB. This means you need to have an Internet upload bandwidth to support this. 1.8 TB/hour * 8 bits/byte / 60 min/hour / 60 sec/min = 4 Gbit/s Internet connection.

If for example, you have only a 1 Gbit/s connection, this will limit access to your server.

The other thing to consider is your retention time for these uploads. If each upload is 15 MB on average, you will be getting 157 TB per week or 8.2 PB (8200 TB) per year. You may need a significant amount of storage to retain this.

Once you have spend a significant amount of money on Internet connectivity and disk, the cost of buying a couple of servers is minor. You could use Apache MIMA, however a single server with a 10 Gbit/s connection can support 1 GB easily using any software you care to chose.

A single PC/server/labtop can handle 1,000 I/O threads so 300-600 is not a lot.

The problem will not be in the software but in the network/hardware you chose.

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Thanks @Peter Lawrey. I edited my questions for more details. My customers are world width but Europa and USA might give me peeks in queries since they have better data plan bandwidth. I have contract with a Server Hall providing all the computers and can expand quickly. –  Erik Jun 3 '11 at 8:23
@Erik, you might find that disk IO is a issue. 50 MB/second is relatively easy, but 125 MB/s (for is harder 1 Gb) and 500 MB/s (for 4 Gb upload) will require multiple back end data storage systems. –  Peter Lawrey Jun 3 '11 at 9:34
If you read and write 150 TB per month that is 300 TB total. Amazon would charge about \$30K/month for this IO rate. Can these files be compressed because if they can this could really help reduce costs? –  Peter Lawrey Jun 3 '11 at 9:38
@ Peter Lawrey Thanks i have relayed your consideration to my Server provider, lets see what they say about this. I live in Sweden btw. Thanks for your point –  Erik Jun 3 '11 at 21:28

At first I was thinking this many users would require a non-blocking solution but my calculations show that I dont, [am I] right?

On modern operating systems and hardware, thread-per-connection is faster than non-blocking I/O, at least unless the number of connections reaches truely extreme levels. However, for writing the data to disk, NIO (channels and buffers) may help, because it can use DMA and avoid copy operations.

But overall, I also think network bandwidth and storage are your main concerns in this application.

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@Michael Borgwardt Good point thanks. I looks like Netty is the way to go. Thankfully I have no limitations when it comes to hardware and bandwidth. I have two month to produce the server. DO you have any suggestion in Books, example or code samples –  Erik Jun 3 '11 at 8:42
@Erik: actually my point is that there is no reason to complicate your design by using netty. Using classic threaded IO should be fine. –  Michael Borgwardt Jun 3 '11 at 8:46
@Michael Borgward I was thinking NIO is better since the only purpose is to let users save/load files from HDD. No calculations no waiting. Simply in and out delivering or getting a file. Really so you think i can use the David Flanagan´s (link) approacher if i just make sure i have like 4 server computers using SSD disks? LoadBalansing computers –  Erik Jun 3 '11 at 8:58
@Erik: your threads will have quite a lot of work to do just handling all that data. And I'd definitely use an established server component like Tomcat rather than example code from a book. –  Michael Borgwardt Jun 3 '11 at 10:28
@Michael Borgwardt Can you elaborate on that Tomcat. Some people say i can use simple java threading and some say Netty. How does Tomcat work compared to the other? –  Erik Jun 3 '11 at 20:44