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I'm writing a linux kernel module that provides a (virtual) block device (so no actual hardware IO is performed).

Currently I'm using spin_lock_irqsave / spin_unlock_irqrestore to handle locks.

There is only one function running in non-process context, and this is the make_request function of the block device.

Would it be safe to use spin_lock_bh / spin_unlock_bh to handle locks? I guess that simple spin_lock is insufficient, since make_request is not run by a process (is this correct?).

Thanks in advance.

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A little update: I used the irqsave / restore kind of locks, and on some systems, the irq handlers were starved, so I finally tried the _bh functions. It all looks pretty now. I still need some expert saying that things won't go terribly wrong this way. –  netom Nov 18 '11 at 6:16

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up vote 2 down vote accepted

Your make_request function actually does run in process context. The only caller of q->make_request_fn is the block layer's generic_make_request(), which assumes process context (eg look at its use of current). And as another example, drivers/md/md.c has md_make_request() which explicitly sleeps on a waitqueue.

So you are completely safe using plain spin_lock()/spin_unlock() as long as all the rest of your code is process context too.

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Thank you for the reply, I'll check on md.c and the block layer code as you suggested. –  netom Nov 18 '11 at 8:37
    
Hell, if all your code is process-context then you should be safe with mutex_lock() / mutex_unlock() –  caf Nov 20 '11 at 10:53
    
Well, you are right. I'm just stuck in a cognitive pit. :) I'll give it a shot. I thought about spin locks not just because the seemingly possible interrupt context, but because these locks are held for very short times. Thanks for the enlightening comment anyway. –  netom Nov 21 '11 at 9:20
    
Thank you again for your notes, you've helped me a lot. –  netom Nov 23 '11 at 14:37

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