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The original code in linux kernel is :

static inline void __raw_spin_lock_irq(raw_spinlock_t *lock)
{
    local_irq_disable();
    preempt_disable();
    spin_acquire(&lock->dep_map, 0, 0, _RET_IP_);
    LOCK_CONTENDED(lock, do_raw_spin_trylock, do_raw_spin_lock);
}

I think there is no execution path can preempt current path after local IRQ is disabled.

Because all common hard IRQs is disabled, there should be no softirq occur and also no tick to kick schedule wheel. I think current path is safe. So why there is a preempt_disable()?

Thank you.

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@cnicutar.Are you sure? I don't think so. Every CPU core uses schedule() to pick a job to run. In a SMP system with multicores, each core has a dedicated execution path just like UP system. In this case, local IRQ is disabled, so schedule wheel on this core is blocked.Maybe preemption occurs at another CPU, but that won't affect execution path on this one, I think they are dedicated at execution level. –  Zhi Wang Nov 7 '12 at 5:41

1 Answer 1

As far as I can tell, preempt_disable() calls were added to quite a few locking primitives, including spin_lock_irq, by Dave Miller on December 4th, 2002, and released in 2.5.51. The commit message isn't helpful; it just says "[SPINLOCK]: Fix non-SMP nopping spin/rwlock macros."

I believe the Proper Locking Under a Preemptible Kernel documentation explains this well enough. The final section titled "PREVENTING PREEMPTION USING INTERRUPT DISABLING" begins,

It is possible to prevent a preemption event using local_irq_disable and
local_irq_save.  Note, when doing so, you must be very careful ...
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,Your comment is very helpful.Thank you very much. :) –  Zhi Wang Nov 7 '12 at 7:44

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