/* * OpenVPN -- An application to securely tunnel IP networks * over a single TCP/UDP port, with support for SSL/TLS-based * session authentication and key exchange, * packet encryption, packet authentication, and * packet compression. * * Copyright (C) 2002-2010 OpenVPN Technologies, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 * as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program (see the file COPYING included with this * distribution); if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* * The interval_ routines are designed to optimize the calling of a routine * (normally tls_multi_process()) which can be called less frequently * between triggers. */ #ifndef INTERVAL_H #define INTERVAL_H #include "otime.h" #define INTERVAL_DEBUG 0 /* * Designed to limit calls to expensive functions that need to be called * regularly. */ struct interval { interval_t refresh; interval_t horizon; time_t future_trigger; time_t last_action; time_t last_test_true; }; void interval_init (struct interval *top, int horizon, int refresh); /* * IF * last_action less than horizon seconds ago * OR last_test_true more than refresh seconds ago * OR hit future_trigger * THEN * return true * ELSE * set wakeup to the number of seconds until a true return * return false */ static inline bool interval_test (struct interval* top) { bool trigger = false; const time_t local_now = now; if (top->future_trigger && local_now >= top->future_trigger) { trigger = true; top->future_trigger = 0; } if (top->last_action + top->horizon > local_now || top->last_test_true + top->refresh <= local_now || trigger) { top->last_test_true = local_now; #if INTERVAL_DEBUG dmsg (D_INTERVAL, "INTERVAL interval_test true"); #endif return true; } else { return false; } } static inline void interval_schedule_wakeup (struct interval* top, interval_t *wakeup) { const time_t local_now = now; interval_earliest_wakeup (wakeup, top->last_test_true + top->refresh, local_now); interval_earliest_wakeup (wakeup, top->future_trigger, local_now); #if INTERVAL_DEBUG dmsg (D_INTERVAL, "INTERVAL interval_schedule wakeup=%d", (int)*wakeup); #endif } /* * In wakeup seconds, interval_test will return true once. */ static inline void interval_future_trigger (struct interval* top, interval_t wakeup) { if (wakeup) { #if INTERVAL_DEBUG dmsg (D_INTERVAL, "INTERVAL interval_future_trigger %d", (int)wakeup); #endif top->future_trigger = now + wakeup; } } /* * Once an action is triggered, interval_test will remain true for * horizon seconds. */ static inline void interval_action (struct interval* top) { #if INTERVAL_DEBUG dmsg (D_INTERVAL, "INTERVAL action"); #endif top->last_action = now; } /* * Measure when n seconds beyond an event have elapsed */ struct event_timeout { bool defined; interval_t n; time_t last; /* time of last event */ }; static inline bool event_timeout_defined (const struct event_timeout* et) { return et->defined; } static inline void event_timeout_clear (struct event_timeout* et) { et->defined = false; et->n = 0; et->last = 0; } static inline struct event_timeout event_timeout_clear_ret () { struct event_timeout ret; event_timeout_clear (&ret); return ret; } static inline void event_timeout_init (struct event_timeout* et, interval_t n, const time_t local_now) { et->defined = true; et->n = (n >= 0) ? n : 0; et->last = local_now; } static inline void event_timeout_reset (struct event_timeout* et) { if (et->defined) et->last = now; } static inline void event_timeout_modify_wakeup (struct event_timeout* et, interval_t n) { /* note that you might need to call reset_coarse_timers after this */ if (et->defined) et->n = (n >= 0) ? n : 0; } /* * This is the principal function for testing and triggering recurring * timers and will return true on a timer signal event. * If et_const_retry == ETT_DEFAULT and a signal occurs, * the function will return true and *et will be armed for the * next event. If et_const_retry >= 0 and a signal occurs, * *et will not be touched, but *tv will be set to * minimum (*tv, et_const_retry) for a future re-test, * and the function will return true. */ #define ETT_DEFAULT (-1) bool event_timeout_trigger (struct event_timeout *et, struct timeval *tv, const int et_const_retry); /* * Measure time intervals in microseconds */ #define USEC_TIMER_MAX 60 /* maximum interval size in seconds */ #define USEC_TIMER_MAX_USEC (USEC_TIMER_MAX * 1000000) struct usec_timer { struct timeval start; struct timeval end; }; #ifdef HAVE_GETTIMEOFDAY static inline void usec_timer_start (struct usec_timer *obj) { CLEAR (*obj); openvpn_gettimeofday (&obj->start, NULL); } static inline void usec_timer_end (struct usec_timer *obj) { openvpn_gettimeofday (&obj->end, NULL); } #endif /* HAVE_GETTIMEOFDAY */ static inline bool usec_timer_interval_defined (struct usec_timer *obj) { return obj->start.tv_sec && obj->end.tv_sec; } static inline int usec_timer_interval (struct usec_timer *obj) { return tv_subtract (&obj->end, &obj->start, USEC_TIMER_MAX); } #endif /* INTERVAL_H */