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I know that there are process context and interrupt context but I don't understand when executing softirq or tasklet, which context is it run under.

I have seen some people use the term "bottom-halves context", if there's such term, what's the difference comparing with the others.

Another question to softirq and tasklet is that why sleep are not allowed during execution??

Can anyone help me identify these questions, thanks!!

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2 Answers 2

up vote 8 down vote accepted

The softirq and tasklet are both kind of bottom-halves mechanism. Sleep is not allowed becuase they run under interrupt context not process context. If sleep is allowed, then the linux cannot schedule them and finally cause a kernel panic with a dequeue_task error. The interrupt context does not even have a data structure describing the register info, so they can never be scheduled by linux. If it is designed to have that structure and can be scheduled, the performance for interrupt handling process will be effected.

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thanks Jermaine –  kai Aug 21 '11 at 5:57
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@kai: your qs reg which context bottom-halves execute in?

Technically, softirq's do run in an interrupt context - the "softirq" context; it's just that it's not "hard-irq" context (which is the context when a hardware interrupt occurs).

So, in a softirq handler, in terms of the 'lookup' macros Linux provides:

in_interrupt: yes | in_irq: no | in_softirq: yes | in_serving_softirq: yes

But be aware (beware!!! :): "all of the restrictions that apply to interrupt handlers also apply to bottom halves. Thus, bottom halves cannot sleep, cannot access user space, and cannot invoke the scheduler." -- LDD3.

Jermaine answers the rest of your question.

[Update] In addition, I'd like to point out that one can define simple and elegant macros that help print debug info as and when required. Over the years, I've put these macros and convenience routines into a header file; you can check it out and download it here: "A Header of Convenience".

There are macros / functions to:

  • make debug prints along with funcname / line# info (via the usual printk() or trace_printk()) and only if DEBUG mode is On
    • dump the kernel-mode stack
    • print the current context (process or interrupt along with flags in the form that ftrace uses)
    • a simple assert() macro (!)
    • a cpu-intensive DELAY_LOOP (useful for test rigs that must spin on the processor)
    • an equivalent to usermode sleep functionality
    • a function to calculate the time delta given two timestamps (timeval structs)
    • convert decimal to binary, and
    • a few more.

Whew :-)

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We should also realize that, as of around 2.6.30, Thomas Gleixner (and others) have been actively moving the traditional interrupt handling model to that of the PREEMPT_RT's "threaded interrupt" model. So, yeah, within this model the traditional 'hard-irq' now runs via a kernel thread, implying, in process context! Crazy huh. Until one realizes that this is intentional: in order to support prioritized interrupt handlers and to have the ability to have interrupt code-paths preemptible by 'real-time' usermode threads! Ref: elinux.org/images/e/ef/InterruptThreads-Slides_Anderson.pdf –  kaiwan Jan 11 at 9:48
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