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I wrote a program that creates a TCP and UDP socket in C and starts both servers up. The goal of the application is to monitor requests over the TCP socket as to what UDP packets to send it (i.e. monitor for something like "0x01 0x02" and if I see it, then have the UDP server parse the payload, and forward it over to the TCP server for processing). The problem is, the UDP server will be busy keeping another device up, literally sending thousands of packets back and forth with this device. So what is the best way to continuously monitor requests from the TCP server, but send it certain payloads from the UDP server when requested since the UDP server will be busy?

I looked into pthreads with semaphores and/or mutex (not sure all the socket operations are thread safe, though, and if this is the right way to approach it) as well as fork / pipe. Forking the UDP server off as a child process seems easy enough, but I don't see exactly how I would be passing the kind of data I need among both servers (need request data from TCP and payload data from the UDP). Any help would be appreciated as I am new to C. Thanks!

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4 Answers 4

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Firstly, would it make sense to put these two servers into one program? If so, you won't have to communicate between processes, and the whole logic becomes substantially easier. You will have to think about doing asynchronous input and output, and the select() function is designed for just this. There will be many explanations around on how to do this, and a quick look finds this page.

However, if you must have two separate processes, then you will need to choose a mechanism for inter-process communication, of which there are several, and your choice will be affected by your operating system. A pipe, if available, might be suitable, as might a Unix named pipe. Or you could look into third-party message passing frameworks, or just use shared memory and/or semaphores (but be very careful!).

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Tim, thanks, that helps a lot getting started with this. I have it setup this way basically: toplevel-file.c, toplevel-file.h, udp-program.c udp-program.h tcp-program.c tcp-program.h and finally net.c and net.h (which I put all the UDP / TCP simple socket functions in). I thought this method would make it easier since the UDP server will be busy keeping another device up. If you think it's easier to put it ALL in the top level file (which I normally never do), than I can do that. Select definitely seems easier to implement than a pipe, but having one file (or one process) makes things messy. –  Jack Oct 22 '10 at 13:42
Don't forget that a single compiled program can come from multiple source files, which can help keep different parts of the program separate. Just make sure that there's only one main() function, and check your development system documentation about how to compile and link several source files. –  Tim Oct 22 '10 at 13:46
Oh sorry Tim, in that case, it is only "one program". I just have multiple source files. The only thing is, I forked the UDP server to run off the side currently so that I could also monitor for incoming TCP requests with the TCP program (so right now, when the user calls start on the main program, it runs and forks the UDP server, and runs the TCP server, only problem I have is obv. the communication between them). This is why I was confused when you said multiple processes. I will look into both solutions: fork/pipes and select but which would be easier to implement for something like this? –  Jack Oct 22 '10 at 13:51
Got it. I strongly suspect that getting rid of the fork() and keeping just one process is the best way forward. You probably decided on using fork() because you wanted the two servers to run side-by-side. This is a common approach, but much more difficult to control than using a single process with multiple active sockets. What I would do is set up both your sockets, then drop into a main loop which calls select() to see which socket needs attention. Use the timeout parameter to carry out housekeeping tasks when there's no traffic. Ask a new question here if you hit difficulties. :-) –  Tim Oct 22 '10 at 13:57
One reason you might want to go with multiple processes (or multiple threads) is if the operations need to proceed in parallel: for example, a TCP request comes in that may take a long time to process, but you need to keep servicing the UDP socket in the interim. But, if your requests are relatively quick to process, a single-threaded implementation using select() is the most straightforward, particularly at the introductory level. –  David Gelhar Oct 22 '10 at 14:17

What you should look at is libevent, anything else you are reinventing the wheel writing this low level code yourself. Here is a Tutorial, Google, Krugle

Also you should use some predefined protocol between the servers. There are lots to choose from. Ranging from the extremely simple XDR to Protocol Buffers.

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Thanks fuzzy, will look into this too. I don't see too many examples on how to use it though, so it may be difficult, but if it easily accomplishes what I need, I will definitely think about using it. I prefer standard libraries, but I like to keep my options open so I appreciate it :) –  Jack Oct 22 '10 at 14:21
Thanks for the edit, the additional info helps a bit more, I just ran into that tutorial as well, trying to understand exactly how it works. Will hammer down the protocol details as soon as hammer down the best method of implementation. –  Jack Oct 22 '10 at 16:27

You could use pipes on Unix. See http://tldp.org/LDP/lpg/node11.html

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I looked into pipes, but this problem seemed too complex for something forks/pipes alone to accomplish. How easy / difficult would implementing pipes be to solve this? I looked at forks / pipes btw, its the first thing I looked at, but this seemed too "specialized" for that. –  Jack Oct 22 '10 at 13:25

Well, you certainly picked an interesting introduction to C!

You might try shared memory. What OS?

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It will be running in our own embedded Linux environment (running 2.6.34 I believe), but currently I'm testing everything in an Ubuntu 10.10 VM. –  Jack Oct 22 '10 at 13:24

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