#include <asm/paca.h>
/*
- * The watchdog has a simple timer that runs on each CPU, once per timer
- * period. This is the heartbeat.
+ * The powerpc watchdog ensures that each CPU is able to service timers.
+ * The watchdog sets up a simple timer on each CPU to run once per timer
+ * period, and updates a per-cpu timestamp and a "pending" cpumask. This is
+ * the heartbeat.
*
- * Then there are checks to see if the heartbeat has not triggered on a CPU
- * for the panic timeout period. Currently the watchdog only supports an
- * SMP check, so the heartbeat only turns on when we have 2 or more CPUs.
+ * Then there are two systems to check that the heartbeat is still running.
+ * The local soft-NMI, and the SMP checker.
*
- * This is not an NMI watchdog, but Linux uses that name for a generic
- * watchdog in some cases, so NMI gets used in some places.
+ * The soft-NMI checker can detect lockups on the local CPU. When interrupts
+ * are disabled with local_irq_disable(), platforms that use soft-masking
+ * can leave hardware interrupts enabled and handle them with a masked
+ * interrupt handler. The masked handler can send the timer interrupt to the
+ * watchdog's soft_nmi_interrupt(), which appears to Linux as an NMI
+ * interrupt, and can be used to detect CPUs stuck with IRQs disabled.
+ *
+ * The soft-NMI checker will compare the heartbeat timestamp for this CPU
+ * with the current time, and take action if the difference exceeds the
+ * watchdog threshold.
+ *
+ * The limitation of the soft-NMI watchdog is that it does not work when
+ * interrupts are hard disabled or otherwise not being serviced. This is
+ * solved by also having a SMP watchdog where all CPUs check all other
+ * CPUs heartbeat.
+ *
+ * The SMP checker can detect lockups on other CPUs. A gobal "pending"
+ * cpumask is kept, containing all CPUs which enable the watchdog. Each
+ * CPU clears their pending bit in their heartbeat timer. When the bitmask
+ * becomes empty, the last CPU to clear its pending bit updates a global
+ * timestamp and refills the pending bitmask.
+ *
+ * In the heartbeat timer, if any CPU notices that the global timestamp has
+ * not been updated for a period exceeding the watchdog threshold, then it
+ * means the CPU(s) with their bit still set in the pending mask have had
+ * their heartbeat stop, and action is taken.
+ *
+ * Some platforms implement true NMI IPIs, which can by used by the SMP
+ * watchdog to detect an unresponsive CPU and pull it out of its stuck
+ * state with the NMI IPI, to get crash/debug data from it. This way the
+ * SMP watchdog can detect hardware interrupts off lockups.
*/
static cpumask_t wd_cpus_enabled __read_mostly;
static DEFINE_PER_CPU(struct timer_list, wd_timer);
static DEFINE_PER_CPU(u64, wd_timer_tb);
-/*
- * These are for the SMP checker. CPUs clear their pending bit in their
- * heartbeat. If the bitmask becomes empty, the time is noted and the
- * bitmask is refilled.
- *
- * All CPUs clear their bit in the pending mask every timer period.
- * Once all have cleared, the time is noted and the bits are reset.
- * If the time since all clear was greater than the panic timeout,
- * we can panic with the list of stuck CPUs.
- *
- * This will work best with NMI IPIs for crash code so the stuck CPUs
- * can be pulled out to get their backtraces.
- */
+/* SMP checker bits */
static unsigned long __wd_smp_lock;
static cpumask_t wd_smp_cpus_pending;
static cpumask_t wd_smp_cpus_stuck;