/** @file * @brief Trickle timer library * * This implements Trickle timer as specified in RFC 6206 */ /* * Copyright (c) 2016 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include LOG_MODULE_REGISTER(net_trickle, CONFIG_NET_TRICKLE_LOG_LEVEL); #include #include #include #include #include #define TICK_MAX ~0 static void trickle_timeout(struct k_work *work); static inline bool is_suppression_disabled(struct net_trickle *trickle) { return trickle->k == NET_TRICKLE_INFINITE_REDUNDANCY; } static inline bool is_tx_allowed(struct net_trickle *trickle) { return is_suppression_disabled(trickle) || (trickle->c < trickle->k); } static inline uint32_t get_end(struct net_trickle *trickle) { return trickle->Istart + trickle->I; } /* Returns a random time point t in [I/2 , I) */ static uint32_t get_t(uint32_t I) { I >>= 1; NET_DBG("[%d, %d)", I, I << 1); return I + (sys_rand32_get() % I); } static void double_interval_timeout(struct k_work *work) { struct net_trickle *trickle = CONTAINER_OF(work, struct net_trickle, timer); uint32_t rand_time; uint32_t last_end = get_end(trickle); trickle->c = 0U; NET_DBG("now %u (was at %u)", k_uptime_get_32(), last_end); /* Check if we need to double the interval */ if (trickle->I <= (trickle->Imax_abs >> 1)) { /* Double if I <= Imax/2 */ trickle->I <<= 1; NET_DBG("double I %u", trickle->I); } else { trickle->I = trickle->Imax_abs; NET_DBG("I %u", trickle->I); } /* Random t in [I/2, I) */ rand_time = get_t(trickle->I); NET_DBG("doubling time %u", rand_time); trickle->Istart = k_uptime_get_32() + rand_time; k_delayed_work_init(&trickle->timer, trickle_timeout); k_delayed_work_submit(&trickle->timer, K_MSEC(rand_time)); NET_DBG("last end %u new end %u for %u I %u", last_end, get_end(trickle), trickle->Istart, trickle->I); } static inline void reschedule(struct net_trickle *trickle) { uint32_t now = k_uptime_get_32(); uint32_t diff = get_end(trickle) - now; NET_DBG("now %d end in %d", now, diff); /* Did the clock wrap */ if ((int32_t)diff < 0) { diff = 0U; NET_DBG("Clock wrap"); } k_delayed_work_init(&trickle->timer, double_interval_timeout); k_delayed_work_submit(&trickle->timer, K_MSEC(diff)); } static void trickle_timeout(struct k_work *work) { struct net_trickle *trickle = CONTAINER_OF(work, struct net_trickle, timer); NET_DBG("Trickle timeout at %d", k_uptime_get_32()); if (trickle->cb) { NET_DBG("TX ok %d c(%u) < k(%u)", is_tx_allowed(trickle), trickle->c, trickle->k); trickle->cb(trickle, is_tx_allowed(trickle), trickle->user_data); } if (net_trickle_is_running(trickle)) { reschedule(trickle); } } static void setup_new_interval(struct net_trickle *trickle) { uint32_t t; trickle->c = 0U; t = get_t(trickle->I); trickle->Istart = k_uptime_get_32(); k_delayed_work_submit(&trickle->timer, K_MSEC(t)); NET_DBG("new interval at %d ends %d t %d I %d", trickle->Istart, get_end(trickle), t, trickle->I); } #define CHECK_IMIN(Imin) \ ((Imin < 2) || (Imin > (TICK_MAX >> 1))) int net_trickle_create(struct net_trickle *trickle, uint32_t Imin, uint8_t Imax, uint8_t k) { NET_ASSERT(trickle && Imax > 0 && k > 0 && !CHECK_IMIN(Imin)); (void)memset(trickle, 0, sizeof(struct net_trickle)); trickle->Imin = Imin; trickle->Imax = Imax; trickle->Imax_abs = Imin << Imax; trickle->k = k; NET_ASSERT(trickle->Imax_abs); NET_DBG("Imin %d Imax %u k %u Imax_abs %d", trickle->Imin, trickle->Imax, trickle->k, trickle->Imax_abs); k_delayed_work_init(&trickle->timer, trickle_timeout); return 0; } int net_trickle_start(struct net_trickle *trickle, net_trickle_cb_t cb, void *user_data) { NET_ASSERT(trickle && cb); trickle->cb = cb; trickle->user_data = user_data; /* Random I in [Imin , Imax] */ trickle->I = trickle->Imin + (sys_rand32_get() % (trickle->Imax_abs - trickle->Imin + 1)); setup_new_interval(trickle); NET_DBG("start %d end %d in [%d , %d)", trickle->Istart, get_end(trickle), trickle->I >> 1, trickle->I); return 0; } int net_trickle_stop(struct net_trickle *trickle) { NET_ASSERT(trickle); k_delayed_work_cancel(&trickle->timer); trickle->I = 0U; return 0; } void net_trickle_consistency(struct net_trickle *trickle) { NET_ASSERT(trickle); if (trickle->c < 0xFF) { trickle->c++; } NET_DBG("consistency %u", trickle->c); } void net_trickle_inconsistency(struct net_trickle *trickle) { NET_ASSERT(trickle); if (trickle->I != trickle->Imin) { NET_DBG("inconsistency"); trickle->I = trickle->Imin; } setup_new_interval(trickle); }