#ifndef __WATCHDOG_H__ #define __WATCHDOG_H__ #include "kernel.h" #include "arch_watchdog.h" extern int watchdog_enabled; /* if set to non-zero the watch dog is enabled */ extern unsigned watchdog_local_timer_ticks; /* is timer still ticking? */ /* * as the implementation is not only architecture dependent but like in x86 case * very much model specific, we need to keep a collection of methods that * implement it in runtime after the correct arch/model was detected */ typedef void (* arch_watchdog_method_t)(const unsigned); typedef int (* arch_watchdog_profile_init_t)(const unsigned); struct arch_watchdog { arch_watchdog_method_t init; /* initial setup */ arch_watchdog_method_t reinit; /* reinit after a tick */ arch_watchdog_profile_init_t profile_init; unsigned resetval; unsigned watchdog_resetval; unsigned profile_resetval; }; extern struct arch_watchdog *watchdog; /* let the arch code do whatever it needs to setup or quit the watchdog */ int arch_watchdog_init(void); void arch_watchdog_stop(void); /* if the watchdog detects lockup, let the arch code to handle it */ void arch_watchdog_lockup(const struct nmi_frame * frame); /* generic NMI handler. Takes one agument which points to where the arch * specific low level handler dumped CPU information and can be inspected by the * arch specific code of the watchdog implementaion */ void nmi_watchdog_handler(struct nmi_frame * frame); /* * start and stop profiling using the NMI watchdog */ int nmi_watchdog_start_profiling(const unsigned freq); void nmi_watchdog_stop_profiling(void); #endif /* __WATCHDOG_H__ */