// (c) 2012 Thomas Schoebel-Theuer / 1&1 Internet AG #ifndef MARS_LIB_TIMING_H #define MARS_LIB_TIMING_H #include "brick.h" #include /* Simple infrastructure for timing of arbitrary operations and creation * of some simple histogram statistics. */ #define TIMING_MAX 24 struct timing_stats { #ifdef CONFIG_MARS_DEBUG int tim_count[TIMING_MAX]; #endif }; #define _TIME_THIS(_stamp1, _stamp2, _CODE) \ ({ \ (_stamp1) = cpu_clock(raw_smp_processor_id()); \ \ _CODE; \ \ (_stamp2) = cpu_clock(raw_smp_processor_id()); \ (_stamp2) - (_stamp1); \ }) #define TIME_THIS(_CODE) \ ({ \ unsigned long long _stamp1; \ unsigned long long _stamp2; \ _TIME_THIS(_stamp1, _stamp2, _CODE); \ }) #ifdef CONFIG_MARS_DEBUG #define _TIME_STATS(_timing, _stamp1, _stamp2, _CODE) \ ({ \ unsigned long long _time; \ unsigned long _tmp; \ int _i; \ \ _time = _TIME_THIS(_stamp1, _stamp2, _CODE); \ \ _tmp = _time / 1000; /* convert to us */ \ _i = 0; \ while (_tmp > 0 && _i < TIMING_MAX - 1) { \ _tmp >>= 1; \ _i++; \ } \ (_timing)->tim_count[_i]++; \ _time; \ }) #define TIME_STATS(_timing, _CODE) \ ({ \ unsigned long long _stamp1; \ unsigned long long _stamp2; \ _TIME_STATS(_timing, _stamp1, _stamp2, _CODE); \ }) extern int report_timing(struct timing_stats *tim, char *str, int maxlen); #else // CONFIG_MARS_DEBUG #define _TIME_STATS(_timing, _stamp1, _stamp2, _CODE) \ ((void)_timing, (_stamp1) = (_stamp2) = cpu_clock(raw_smp_processor_id()), _CODE, 0) #define TIME_STATS(_timing, _CODE) \ ((void)_timing, _CODE, 0) #define report_timing(tim,str,maxlen) ((void)tim, 0) #endif // CONFIG_MARS_DEBUG /* A banning represents some overloaded resource. * * Whenever overload is detected, you should call banning_hit() * telling that the overload is assumed / estimated to continue * for some duration in time. * * ATTENTION! These operations are deliberately raceful. * They are meant to deliver _hints_ (e.g. for IO scheduling * decisions etc), not hard facts! * * If you need locking, just surround these operations * with locking by yourself. */ struct banning { long long ban_last_hit; // statistical int ban_renew_count; int ban_count; }; extern inline bool banning_hit(struct banning *ban, long long duration) { long long now = cpu_clock(raw_smp_processor_id()); bool hit = ban->ban_last_hit >= now; long long new_hit = now + duration; ban->ban_renew_count++; if (!ban->ban_last_hit || ban->ban_last_hit < new_hit) { ban->ban_last_hit = new_hit; ban->ban_count++; } return hit; } extern inline bool banning_is_hit(struct banning *ban) { long long now = cpu_clock(raw_smp_processor_id()); return (ban->ban_last_hit && ban->ban_last_hit >= now); } /* Threshold: trigger a banning whenever some latency threshold * is exceeded. */ struct threshold { struct banning *thr_ban; // tunables int thr_limit; // in us int thr_factor; // in % int thr_plus; // in us // statistical int thr_triggered; int thr_true_hit; }; extern inline void threshold_check(struct threshold *thr, long long latency) { if (thr->thr_limit && latency > (long long)thr->thr_limit * 1000) { thr->thr_triggered++; if (!banning_hit(thr->thr_ban, latency * thr->thr_factor / 100 + thr->thr_plus * 1000)) thr->thr_true_hit++; } } #endif