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Let us consider a scenario:-

A Kernel thread acquires a lock and is in the middle of a critical section when an interrupt occurs. The interrupt handler runs and arrives at the same critical section and tries to acquire lock and go to sleep.

Can this happen or are interrupts disabled during a critical section ? what steps are taken to to avoid it ?

// Some Code
 Acquire_lock()

Critical section   //Interrupt occurs and arrives to acquire the same lock.

Disable_lock()
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Do you have particular platform in mind or is this just a generic question? –  Pete Feb 6 '13 at 22:57
    
A generic question. Let's say Linux kernel on x86 machine ? –  Sharat Chandra Feb 6 '13 at 22:57

1 Answer 1

You would never allow code that holds a lock to be interrupted by code that attempts to acquire that same lock. If you mean inside the OS, it may require disabling all interrupts in code that interacts with objects that are also manipulated by interrupt handlers.

User-space threads and processes have no such issue. No interrupt handler acquires a lock that user-space threads can acquire. And if a thread that holds a user-space lock is interrupted, it will release it as soon as it gets rescheduled -- the user-space thread is still ready-to-run.

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Sorry, I did not mention I was talking about Kernel threads. So basically kernel threads MUST and SHOULD disable interrupts before entering a critical section ? How does it decide which interrupt line should be disabled ? Or does it disable all interrupts in general ? –  Sharat Chandra Feb 7 '13 at 0:51
    
If they're going to hold a lock that an interrupt handler might try to acquire, they need to at least disabling servicing of that interrupt on that core. –  David Schwartz Feb 7 '13 at 6:33

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