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I am looking forward to implement a driver for CAN bus communicationin Linux.
Need some design suggestion.

Linux there are user space & kernel space. Drivers run at kernel space application at user space.

1> Now suppose if packets are received at very high speed then how drivers can manage this situation ?

2> If packets have to transmit at high rate then what to do ?

3> how data should be moved between user & kernel space. Should we use system call or some fast mechanism apart from this ?

4> Can it be done in threads at kernel level ? But if there are two threads running at kernel level to TX from CAN bus & RX from CAN bus then do we have to use mutex to save critical section (i.e our internal registers)

5> If suppose shared libraries are used to access the driver from application. Can shared libraries access driver functionality using system call ?

Totally confused what should be the right approach.

Please suggest. Any reply will be appreciable.

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Which CAN controller are you using, probably it's driver will be available on Linux and you can access it directly using the device node. – manav m-n Dec 4 '12 at 9:18
may be i have explained bit wrong.. I have just given an example of --- Can bus -- Question is an general question which can apply to any communicating device like CAN bus, Usart , raw-ethernet. please suggest. – Katoch Dec 4 '12 at 9:57
Before you reinvent the wheel, you should investigate existing driver implementations. Why do you assume existing implementations are not "fast" enough? Maybe you can try an incremental improvement on an existing scheme. One advantage of open source software is not having to start from scratch all the time. If the code has to be proprietary, then maybe Linux should be avoided all together. – sawdust Dec 5 '12 at 20:25
The high frequency trading people have developed some interesting optimizations to network stacks/drivers you could look at in theory; however as Martin says your CAN bus isn't likely to be anywhere near as demanding. – Chris Stratton Dec 5 '12 at 21:16

Data-rate wise CAN isn't that fast compared to most processors you'll be wanting to run Linux on. Most buses stick below 60% loading, which is only about 60kB/s! A simple packet FIFO from user space to kernel space ought to be fine.

What can be a problem is if you have a hard-real-time deadline for transmitting messages on a schedule. Or worse getting transmitting a message in response to a received message within a given time period. If you have either of those requirements, Linux probably isn't for you - you need a proper real-time operating system (RTOS).

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And there are real-time schedulers which collaborate with linux to handle the less demanding (but more complicated) tasks. – Chris Stratton Dec 5 '12 at 21:17

Perhaps you should review an existing high-performance CAN driver and the WCCD framework to replace SocketCAN. The authors document significant performance improvements by optimizing the ISR and minimizing the use of critical regions & their locks.

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