/* * Copyright (c) 2019 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include LOG_MODULE_REGISTER(conn_mgr, CONFIG_NET_CONNECTION_MANAGER_LOG_LEVEL); #include #include #include #include #include #include #include #include #include "conn_mgr_private.h" #if defined(CONFIG_NET_TC_THREAD_COOPERATIVE) #define THREAD_PRIORITY K_PRIO_COOP(CONFIG_NUM_COOP_PRIORITIES - 1) #else #define THREAD_PRIORITY K_PRIO_PREEMPT(7) #endif static K_THREAD_STACK_DEFINE(conn_mgr_mon_stack, CONFIG_NET_CONNECTION_MANAGER_MONITOR_STACK_SIZE); static struct k_thread conn_mgr_mon_thread; /* Internal state array tracking readiness, flags, and other state information for all available * ifaces. Note that indexing starts at 0, whereas Zephyr iface indices start at 1. * conn_mgr_mon_get_if_by_index and conn_mgr_get_index_for_if are used to go back and forth between * iface_states indices and Zephyr iface pointers. */ uint16_t iface_states[CONN_MGR_IFACE_MAX]; /* Tracks the total number of L4-ready ifaces */ static uint16_t ready_count; /* Tracks the last ifaces to change state in each respective direction */ static struct net_if *last_iface_down; static struct net_if *last_iface_up; /* Used to signal when modifications have been made that need to be responded to */ K_SEM_DEFINE(conn_mgr_mon_updated, 1, 1); /* Used to protect conn_mgr_monitor state */ K_MUTEX_DEFINE(conn_mgr_mon_lock); /** * @brief Retrieves pointer to an iface by the index that corresponds to it in iface_states * * @param index - The index in iface_states to find the corresponding iface for. * @return net_if* - The corresponding iface. */ static struct net_if *conn_mgr_mon_get_if_by_index(int index) { return net_if_get_by_index(index + 1); } /** * @brief Gets the index in iface_states for the state corresponding to a provided iface. * * @param iface - iface to find the index of. * @return int - The index found. */ static int conn_mgr_get_index_for_if(struct net_if *iface) { return net_if_get_by_iface(iface) - 1; } /** * @brief Marks an iface as ready or unready and updates all associated state tracking. * * @param idx - index (in iface_states) of the iface to mark ready or unready * @param readiness - true if the iface should be considered ready, otherwise false */ static void conn_mgr_mon_set_ready(int idx, bool readiness) { /* Clear and then update the L4-readiness bit */ iface_states[idx] &= ~CONN_MGR_IF_READY; if (readiness) { iface_states[idx] |= CONN_MGR_IF_READY; ready_count += 1; last_iface_up = conn_mgr_mon_get_if_by_index(idx); } else { ready_count -= 1; last_iface_down = conn_mgr_mon_get_if_by_index(idx); } } static void conn_mgr_mon_handle_update(void) { int idx; int original_ready_count; bool is_ip_ready; bool is_ipv6_ready; bool is_ipv4_ready; bool is_l4_ready; bool is_oper_up; bool was_l4_ready; bool is_ignored; k_mutex_lock(&conn_mgr_mon_lock, K_FOREVER); original_ready_count = ready_count; for (idx = 0; idx < ARRAY_SIZE(iface_states); idx++) { if (iface_states[idx] == 0) { /* This interface is not used */ continue; } if (!(iface_states[idx] & CONN_MGR_IF_CHANGED)) { /* No changes on this iface */ continue; } /* Clear the state-change flag */ iface_states[idx] &= ~CONN_MGR_IF_CHANGED; /* Detect whether the iface is currently or was L4 ready */ was_l4_ready = iface_states[idx] & CONN_MGR_IF_READY; is_ipv6_ready = iface_states[idx] & CONN_MGR_IF_IPV6_SET; is_ipv4_ready = iface_states[idx] & CONN_MGR_IF_IPV4_SET; is_oper_up = iface_states[idx] & CONN_MGR_IF_UP; is_ignored = iface_states[idx] & CONN_MGR_IF_IGNORED; is_ip_ready = is_ipv6_ready || is_ipv4_ready; is_l4_ready = is_oper_up && is_ip_ready && !is_ignored; /* Respond to changes to iface readiness */ if (was_l4_ready != is_l4_ready) { /* Track the iface readiness change */ conn_mgr_mon_set_ready(idx, is_l4_ready); } } /* If the total number of ready ifaces changed, possibly send an event */ if (ready_count != original_ready_count) { if (ready_count == 0) { /* We just lost connectivity */ net_mgmt_event_notify(NET_EVENT_L4_DISCONNECTED, last_iface_down); } else if (original_ready_count == 0) { /* We just gained connectivity */ net_mgmt_event_notify(NET_EVENT_L4_CONNECTED, last_iface_up); } } k_mutex_unlock(&conn_mgr_mon_lock); } /** * @brief Initialize the internal state flags for the given iface using its current status * * @param iface - iface to initialize from. */ static void conn_mgr_mon_initial_state(struct net_if *iface) { int idx = net_if_get_by_iface(iface) - 1; k_mutex_lock(&conn_mgr_mon_lock, K_FOREVER); if (net_if_is_up(iface)) { NET_DBG("Iface %p UP", iface); iface_states[idx] |= CONN_MGR_IF_UP; } if (IS_ENABLED(CONFIG_NET_NATIVE_IPV6)) { if (net_if_ipv6_get_global_addr(NET_ADDR_PREFERRED, &iface)) { NET_DBG("IPv6 addr set"); iface_states[idx] |= CONN_MGR_IF_IPV6_SET; } } if (IS_ENABLED(CONFIG_NET_NATIVE_IPV4)) { if (net_if_ipv4_get_global_addr(iface, NET_ADDR_PREFERRED)) { NET_DBG("IPv4 addr set"); iface_states[idx] |= CONN_MGR_IF_IPV4_SET; } } iface_states[idx] |= CONN_MGR_IF_CHANGED; k_mutex_unlock(&conn_mgr_mon_lock); } static void conn_mgr_mon_init_cb(struct net_if *iface, void *user_data) { ARG_UNUSED(user_data); conn_mgr_mon_initial_state(iface); } static void conn_mgr_mon_thread_fn(void *p1, void *p2, void *p3) { ARG_UNUSED(p1); ARG_UNUSED(p2); ARG_UNUSED(p3); k_mutex_lock(&conn_mgr_mon_lock, K_FOREVER); conn_mgr_conn_init(); conn_mgr_init_events_handler(); net_if_foreach(conn_mgr_mon_init_cb, NULL); k_mutex_unlock(&conn_mgr_mon_lock); NET_DBG("Connection Manager started"); while (true) { /* Wait for changes */ k_sem_take(&conn_mgr_mon_updated, K_FOREVER); /* Respond to changes */ conn_mgr_mon_handle_update(); } } void conn_mgr_mon_resend_status(void) { k_mutex_lock(&conn_mgr_mon_lock, K_FOREVER); if (ready_count == 0) { net_mgmt_event_notify(NET_EVENT_L4_DISCONNECTED, last_iface_down); } else { net_mgmt_event_notify(NET_EVENT_L4_CONNECTED, last_iface_up); } k_mutex_unlock(&conn_mgr_mon_lock); } void conn_mgr_ignore_iface(struct net_if *iface) { int idx = conn_mgr_get_index_for_if(iface); k_mutex_lock(&conn_mgr_mon_lock, K_FOREVER); if (!(iface_states[idx] & CONN_MGR_IF_IGNORED)) { /* Set ignored flag and mark state as changed */ iface_states[idx] |= CONN_MGR_IF_IGNORED; iface_states[idx] |= CONN_MGR_IF_CHANGED; k_sem_give(&conn_mgr_mon_updated); } k_mutex_unlock(&conn_mgr_mon_lock); } void conn_mgr_watch_iface(struct net_if *iface) { int idx = conn_mgr_get_index_for_if(iface); k_mutex_lock(&conn_mgr_mon_lock, K_FOREVER); if (iface_states[idx] & CONN_MGR_IF_IGNORED) { /* Clear ignored flag and mark state as changed */ iface_states[idx] &= ~CONN_MGR_IF_IGNORED; iface_states[idx] |= CONN_MGR_IF_CHANGED; k_sem_give(&conn_mgr_mon_updated); } k_mutex_unlock(&conn_mgr_mon_lock); } bool conn_mgr_is_iface_ignored(struct net_if *iface) { int idx = conn_mgr_get_index_for_if(iface); bool ret = false; k_mutex_lock(&conn_mgr_mon_lock, K_FOREVER); ret = iface_states[idx] & CONN_MGR_IF_IGNORED; k_mutex_unlock(&conn_mgr_mon_lock); return ret; } /** * @brief Check whether a provided iface uses the provided L2. * * @param iface - iface to check. * @param l2 - L2 to check. NULL will match offloaded ifaces. * @retval true if the iface uses the provided L2. * @retval false otherwise. */ static bool iface_uses_l2(struct net_if *iface, const struct net_l2 *l2) { return (!l2 && net_if_offload(iface)) || (net_if_l2(iface) == l2); } void conn_mgr_ignore_l2(const struct net_l2 *l2) { /* conn_mgr_ignore_iface already locks the mutex, but we lock it here too * so that all matching ifaces are updated simultaneously. */ k_mutex_lock(&conn_mgr_mon_lock, K_FOREVER); STRUCT_SECTION_FOREACH(net_if, iface) { if (iface_uses_l2(iface, l2)) { conn_mgr_ignore_iface(iface); } } k_mutex_unlock(&conn_mgr_mon_lock); } void conn_mgr_watch_l2(const struct net_l2 *l2) { /* conn_mgr_watch_iface already locks the mutex, but we lock it here too * so that all matching ifaces are updated simultaneously. */ k_mutex_lock(&conn_mgr_mon_lock, K_FOREVER); STRUCT_SECTION_FOREACH(net_if, iface) { if (iface_uses_l2(iface, l2)) { conn_mgr_watch_iface(iface); } } k_mutex_unlock(&conn_mgr_mon_lock); } static int conn_mgr_mon_init(void) { int i; for (i = 0; i < ARRAY_SIZE(iface_states); i++) { iface_states[i] = 0; } k_thread_create(&conn_mgr_mon_thread, conn_mgr_mon_stack, CONFIG_NET_CONNECTION_MANAGER_MONITOR_STACK_SIZE, conn_mgr_mon_thread_fn, NULL, NULL, NULL, THREAD_PRIORITY, 0, K_NO_WAIT); k_thread_name_set(&conn_mgr_mon_thread, "conn_mgr_monitor"); return 0; } SYS_INIT(conn_mgr_mon_init, APPLICATION, CONFIG_NET_CONNECTION_MANAGER_MONITOR_PRIORITY);