On 07/22/2010 04:57 PM, Darren Hart wrote:

On 07/22/2010 03:25 PM, Benjamin Herrenschmidt wrote:

quoted

On Thu, 2010-07-22 at 11:24 -0700, Darren Hart wrote:

quoted

1) How can the preempt_count() get mangled across the H_CEDE hcall?
2) Should we call preempt_enable() in cpu_idle() prior to cpu_die() ?

The preempt count is on the thread info at the bottom of the stack.

Can you check the stack pointers ?

Hi Ben, thanks for looking.

I instrumented the area around extended_cede_processor() as follows
(please confirm I'm getting the stack pointer correctly).

while (get_preferred_offline_state(cpu) == CPU_STATE_INACTIVE) {
	asm("mr %0,1" : "=r" (sp));
	printk("before H_CEDE current->stack: %lx, pcnt: %x\n", sp, preempt_count());
	extended_cede_processor(cede_latency_hint);
	asm("mr %0,1" : "=r" (sp));
	printk("after H_CEDE current->stack: %lx, pcnt: %x\n", sp, preempt_count());
  }


On Mainline (2.6.33.6, CONFIG_PREEMPT=y) I see this:
Jul 22 18:37:08 igoort1 kernel: before H_CEDE current->stack: c00000010e9e3ce0, pcnt: 1
Jul 22 18:37:08 igoort1 kernel: after H_CEDE current->stack:  c00000010e9e3ce0, pcnt: 1

This surprised me as preempt_count is 1 before and after, so no
corruption appears to occur on mainline. This makes the pcnt of 65 I see
without the preempt_count()=0 hack very strange. I ran several hundred
off/on cycles. The issue of preempt_count being 1 is still addressed by
this patch however.

On PREEMPT_RT (2.6.33.5-rt23 - tglx, sorry, rt/2.6.33 next time, promise):
Jul 22 18:51:11 igoort1 kernel: before H_CEDE current->stack: c000000089bcfcf0, pcnt: 1
Jul 22 18:51:11 igoort1 kernel: after H_CEDE current->stack:  c000000089bcfcf0, pcnt: ffffffff

In both cases the stack pointer appears unchanged.

Note: there is a BUG triggered in between these statements as the
preempt_count causes the printk to trigger:
Badness at kernel/sched.c:5572

At Steven's suggestion I updated the instrumentation to display the
local_save_flags and irqs_disabled_flags:

while (get_preferred_offline_state(cpu) == CPU_STATE_INACTIVE) {
        local_save_flags(flags);
        printk("local flags: %lx, irqs disabled: %d\n", flags, irqs_disabled_flags(flags));
        asm("mr %0,1" : "=r" (sp));
        printk("before H_CEDE current->stack: %lx, pcnt: %x\n", sp, preempt_count());
        extended_cede_processor(cede_latency_hint);
        asm("mr %0,1" : "=r" (sp));
        printk("after H_CEDE current->stack: %lx, pcnt: %x\n", sp, preempt_count());
}


Jul 22 23:36:58 igoort1 kernel: local flags: 0, irqs disabled: 1
Jul 22 23:36:58 igoort1 kernel: before H_CEDE current->stack: c00000010e9e3ce0, pcnt: 1
Jul 22 23:36:58 igoort1 kernel: after H_CEDE current->stack: c00000010e9e3ce0, pcnt: 1

I'm not sure if I'm reading that right, but I believe interrupts are
intended to be disabled here. If accomplished via the
spin_lock_irqsave() this would behave differently on RT. However, this
path disables the interrupts handled by xics, all but the IPIs anyway.
On RT I disabled the decrementer as well.

Is it possible for RT to be receiving other interrupts here?

-- 
Darren Hart
IBM Linux Technology Center
Real-Time Linux Team