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I'm currently using a SAMA5D31-EK board running Linux 3.10.0+ to control some hardware devices. I'm using GPIOs, I2C, PWM and UARTS available in that board. Some devices are controlled with just a GPIO line while others need an UART a PWM and 3 GPIOs. So far I'm using an userspace program to control those hardware devices - basically a stepper motor, an ADC and a alphanumeric LCD display.

What would be the advantges of developping a kernel device driver to control those devices? So far (using a userspace program) the only limitation I've found is speed: since I have to bit bang some GPIOs, the result is a bit slow.

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I assume that you have the platform-specific drivers available for the I2C/GPIO/PWM/UART interfaces on your board(it should be part of BSP[Board-support-package] ).

It is just that you don't want to use the Kernel device driver framework and want to do things from the user-space. I'd been in this situation hence I know, how tempting it could be,especially , if you are not well-versed in Kernel device drivers.

a. SPEED: You mentioned it. But, you probably didn't grasp the reason completely.

Speed efficiency comes from avoiding the Context-switching between Kernel and User-space process. Here is an example:

/* A loop in kernel code which reads a register 100 time */
for (i = 0 ; i < 100 ; i++ )
{
  __kernel_read_reg(...);
}

/* A loop in User-space code which reads a register 100 time */
for ( i= 0 ; i < 100; i++)
{
   __user_read_reg(...);
}

Functionality wise both *_read_reg() is same. Assuming that __user_read_reg() will go through a typical-system-call procedure,it has to do a Context-switch for every single __user_read_reg(...) which is too costly.

You may argue, "We can mmap() the hardware registers and avoid system call for such operations". Of course, you could do that, but the point I was making is: What is close to hardware (for example: a register read or write or handling an interrupt) should be done as fast as possible. Latencies involved in context-switching will impact the performance.

b. Existing/Tested/Well-built subsystems:

If you see an I2C subsystem in the Linux Kernel, it provides a well-tested, robust framework which could be easily-reused. You don't have to write full I2C subsytem (handling all device types, speed, various configuration etc ) in the user-space. Re-using" what is already done could be one big advantage while going for kernel device drivers.

c. Move from Polling-based approach to Interrupt-based mechanism

If you are not handling interrupts in Kernel driver,You must be using some sort of polling-mechanism in the user-space process. Depending on the system, it might not be very reliable way of handling the hardware-changes.Definitely not accurate/reliable for fast devices.

Interrupt-based mechanism , in general, where you handle the critical changes as fast as possible( Hardware interrupt context) and move the non-critical work-load either to user-space or some other kernel mechanism is more reliable way of handling devices.

Of-course, there could be several more arguments and counter-arguments besides above three.

Another thread which might be of interest to you is here: Userspace vs kernel space driver

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