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2222 2223 2224 2225 2226 2227 2228 2229 2230 2231 2232 2233 2234 2235 2236 2237 2238 2239 2240 2241 2242 2243 2244 2245 2246 2247 2248 2249 2250 2251 2252 2253 2254 2255 2256 2257 2258 2259 2260 2261 2262 2263 2264 2265 2266 2267 2268 2269 2270 2271 2272 2273 2274 2275 2276 2277 2278 2279 2280 2281 2282 2283 2284 2285 2286 2287 2288 2289 2290 2291 2292 2293 2294 2295 2296 2297 2298 2299 2300 2301 2302 2303 2304 2305 2306 2307 2308 2309 2310 2311 2312 2313 2314 2315 2316 2317 2318 2319 2320 2321 2322 2323 2324 | /* * Copyright (c) 2016 Intel Corporation. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief Public API for network interface */ #ifndef ZEPHYR_INCLUDE_NET_NET_IF_H_ #define ZEPHYR_INCLUDE_NET_NET_IF_H_ /** * @brief Network Interface abstraction layer * @defgroup net_if Network Interface abstraction layer * @ingroup networking * @{ */ #include <device.h> #include <sys/slist.h> #include <net/net_core.h> #include <net/hostname.h> #include <net/net_linkaddr.h> #include <net/net_ip.h> #include <net/net_l2.h> #include <net/net_stats.h> #include <net/net_timeout.h> #if defined(CONFIG_NET_DHCPV4) && defined(CONFIG_NET_NATIVE_IPV4) #include <net/dhcpv4.h> #endif #if defined(CONFIG_NET_IPV4_AUTO) && defined(CONFIG_NET_NATIVE_IPV4) #include <net/ipv4_autoconf.h> #endif #ifdef __cplusplus extern "C" { #endif /** * @brief Network Interface unicast IP addresses * * Stores the unicast IP addresses assigned to this network interface. */ struct net_if_addr { /** IP address */ struct net_addr address; #if defined(CONFIG_NET_NATIVE_IPV6) struct net_timeout lifetime; #endif #if defined(CONFIG_NET_IPV6_DAD) && defined(CONFIG_NET_NATIVE_IPV6) /** Duplicate address detection (DAD) timer */ sys_snode_t dad_node; u32_t dad_start; #endif /** How the IP address was set */ enum net_addr_type addr_type; /** What is the current state of the address */ enum net_addr_state addr_state; #if defined(CONFIG_NET_IPV6_DAD) && defined(CONFIG_NET_NATIVE_IPV6) /** How many times we have done DAD */ u8_t dad_count; #endif /** Is the IP address valid forever */ u8_t is_infinite : 1; /** Is this IP address used or not */ u8_t is_used : 1; /** Is this IP address usage limited to the subnet (mesh) or not */ u8_t is_mesh_local : 1; u8_t _unused : 5; }; /** * @brief Network Interface multicast IP addresses * * Stores the multicast IP addresses assigned to this network interface. */ struct net_if_mcast_addr { /** IP address */ struct net_addr address; /** Is this multicast IP address used or not */ u8_t is_used : 1; /** Did we join to this group */ u8_t is_joined : 1; u8_t _unused : 6; }; /** * @brief Network Interface IPv6 prefixes * * Stores the multicast IP addresses assigned to this network interface. */ struct net_if_ipv6_prefix { /** Prefix lifetime */ struct net_timeout lifetime; /** IPv6 prefix */ struct in6_addr prefix; /** Backpointer to network interface where this prefix is used */ struct net_if *iface; /** Prefix length */ u8_t len; /** Is the IP prefix valid forever */ u8_t is_infinite : 1; /** Is this prefix used or not */ u8_t is_used : 1; u8_t _unused : 6; }; /** * @brief Information about routers in the system. * * Stores the router information. */ struct net_if_router { /** Slist lifetime timer node */ sys_snode_t node; /** IP address */ struct net_addr address; /** Network interface the router is connected to */ struct net_if *iface; /** Router life timer start */ u32_t life_start; /** Router lifetime */ u16_t lifetime; /** Is this router used or not */ u8_t is_used : 1; /** Is default router */ u8_t is_default : 1; /** Is the router valid forever */ u8_t is_infinite : 1; u8_t _unused : 5; }; /* * Special alignment is needed for net_if which is stored in * a net_if linker section if there are more than one network * interface in the system. If there is only one network interface, * then this alignment is not needed, unfortunately this cannot be * known beforehand. * * The net_if struct needs to be aligned to 32 byte boundary, * otherwise the __net_if_end will point to wrong location and net_if * initialization done in net_if_init() will not find proper values * for the second interface. * * So this alignment is a workaround and should eventually be removed. */ #define __net_if_align __aligned(32) enum net_if_flag { /** Interface is up/ready to receive and transmit */ NET_IF_UP, /** Interface is pointopoint */ NET_IF_POINTOPOINT, /** Interface is in promiscuous mode */ NET_IF_PROMISC, /** Do not start the interface immediately after initialization. * This requires that either the device driver or some other entity * will need to manually take the interface up when needed. * For example for Ethernet this will happen when the driver calls * the net_eth_carrier_on() function. */ NET_IF_NO_AUTO_START, /** Power management specific: interface is being suspended */ NET_IF_SUSPENDED, /** @cond INTERNAL_HIDDEN */ /* Total number of flags - must be at the end of the enum */ NET_IF_NUM_FLAGS /** @endcond */ }; #if defined(CONFIG_NET_OFFLOAD) struct net_offload; #endif /* CONFIG_NET_OFFLOAD */ /** @cond INTERNAL_HIDDEN */ #if defined(CONFIG_NET_NATIVE_IPV6) #define NET_IF_MAX_IPV6_ADDR CONFIG_NET_IF_UNICAST_IPV6_ADDR_COUNT #define NET_IF_MAX_IPV6_MADDR CONFIG_NET_IF_MCAST_IPV6_ADDR_COUNT #define NET_IF_MAX_IPV6_PREFIX CONFIG_NET_IF_IPV6_PREFIX_COUNT #else #define NET_IF_MAX_IPV6_ADDR 0 #define NET_IF_MAX_IPV6_MADDR 0 #define NET_IF_MAX_IPV6_PREFIX 0 #endif /* @endcond */ struct net_if_ipv6 { /** Unicast IP addresses */ struct net_if_addr unicast[NET_IF_MAX_IPV6_ADDR]; /** Multicast IP addresses */ struct net_if_mcast_addr mcast[NET_IF_MAX_IPV6_MADDR]; /** Prefixes */ struct net_if_ipv6_prefix prefix[NET_IF_MAX_IPV6_PREFIX]; /** Default reachable time (RFC 4861, page 52) */ u32_t base_reachable_time; /** Reachable time (RFC 4861, page 20) */ u32_t reachable_time; /** Retransmit timer (RFC 4861, page 52) */ u32_t retrans_timer; #if defined(CONFIG_NET_IPV6_ND) && defined(CONFIG_NET_NATIVE_IPV6) /** Router solicitation timer node */ sys_snode_t rs_node; /* RS start time */ u32_t rs_start; /** RS count */ u8_t rs_count; #endif /** IPv6 hop limit */ u8_t hop_limit; }; /** @cond INTERNAL_HIDDEN */ #if defined(CONFIG_NET_NATIVE_IPV4) #define NET_IF_MAX_IPV4_ADDR CONFIG_NET_IF_UNICAST_IPV4_ADDR_COUNT #define NET_IF_MAX_IPV4_MADDR CONFIG_NET_IF_MCAST_IPV4_ADDR_COUNT #else #define NET_IF_MAX_IPV4_ADDR 0 #define NET_IF_MAX_IPV4_MADDR 0 #endif /** @endcond */ struct net_if_ipv4 { /** Unicast IP addresses */ struct net_if_addr unicast[NET_IF_MAX_IPV4_ADDR]; /** Multicast IP addresses */ struct net_if_mcast_addr mcast[NET_IF_MAX_IPV4_MADDR]; /** Gateway */ struct in_addr gw; /** Netmask */ struct in_addr netmask; /** IPv4 time-to-live */ u8_t ttl; }; #if defined(CONFIG_NET_DHCPV4) && defined(CONFIG_NET_NATIVE_IPV4) struct net_if_dhcpv4 { /** Used for timer lists */ sys_snode_t node; /** Timer start */ s64_t timer_start; /** Time for INIT, DISCOVER, REQUESTING, RENEWAL */ u32_t request_time; u32_t xid; /** IP address Lease time */ u32_t lease_time; /** IP address Renewal time */ u32_t renewal_time; /** IP address Rebinding time */ u32_t rebinding_time; /** Server ID */ struct in_addr server_id; /** Requested IP addr */ struct in_addr requested_ip; /** * DHCPv4 client state in the process of network * address allocation. */ enum net_dhcpv4_state state; /** Number of attempts made for REQUEST and RENEWAL messages */ u8_t attempts; }; #endif /* CONFIG_NET_DHCPV4 */ #if defined(CONFIG_NET_IPV4_AUTO) && defined(CONFIG_NET_NATIVE_IPV4) struct net_if_ipv4_autoconf { /** Used for timer lists */ sys_snode_t node; /** Backpointer to correct network interface */ struct net_if *iface; /** Timer start */ s64_t timer_start; /** Time for INIT, DISCOVER, REQUESTING, RENEWAL */ u32_t timer_timeout; /** Current IP addr */ struct in_addr current_ip; /** Requested IP addr */ struct in_addr requested_ip; /** IPV4 Autoconf state in the process of network address allocation. */ enum net_ipv4_autoconf_state state; /** Number of sent probe requests */ u8_t probe_cnt; /** Number of sent announcements */ u8_t announce_cnt; /** Incoming conflict count */ u8_t conflict_cnt; }; #endif /* CONFIG_NET_IPV4_AUTO */ /** @cond INTERNAL_HIDDEN */ /* We always need to have at least one IP config */ #define NET_IF_MAX_CONFIGS 1 /** @endcond */ /** * @brief Network interface IP address configuration. */ struct net_if_ip { #if defined(CONFIG_NET_NATIVE_IPV6) struct net_if_ipv6 *ipv6; #endif /* CONFIG_NET_IPV6 */ #if defined(CONFIG_NET_NATIVE_IPV4) struct net_if_ipv4 *ipv4; #endif /* CONFIG_NET_IPV4 */ }; /** * @brief IP and other configuration related data for network interface. */ struct net_if_config { /** IP address configuration setting */ struct net_if_ip ip; #if defined(CONFIG_NET_DHCPV4) && defined(CONFIG_NET_NATIVE_IPV4) struct net_if_dhcpv4 dhcpv4; #endif /* CONFIG_NET_DHCPV4 */ #if defined(CONFIG_NET_IPV4_AUTO) && defined(CONFIG_NET_NATIVE_IPV4) struct net_if_ipv4_autoconf ipv4auto; #endif /* CONFIG_NET_IPV4_AUTO */ }; /** * @brief Network traffic class. * * Traffic classes are used when sending or receiving data that is classified * with different priorities. So some traffic can be marked as high priority * and it will be sent or received first. There is always at least one work * queue in the system for Rx and Tx. Each network packet that is transmitted * or received goes through a work queue thread that will transmit it. */ struct net_traffic_class { /** Work queue for handling this Tx or Rx packet */ struct k_work_q work_q; /** Stack for this work queue */ k_thread_stack_t *stack; /** Traffic class value */ int tc; }; /** * @brief Network Interface Device structure * * Used to handle a network interface on top of a device driver instance. * There can be many net_if_dev instance against the same device. * * Such interface is mainly to be used by the link layer, but is also tight * to a network context: it then makes the relation with a network context * and the network device. * * Because of the strong relationship between a device driver and such * network interface, each net_if_dev should be instantiated by */ struct net_if_dev { /** The actually device driver instance the net_if is related to */ struct device *dev; /** Interface's L2 layer */ const struct net_l2 * const l2; /** Interface's private L2 data pointer */ void *l2_data; /* For internal use */ ATOMIC_DEFINE(flags, NET_IF_NUM_FLAGS); /** The hardware link address */ struct net_linkaddr link_addr; #if defined(CONFIG_NET_OFFLOAD) /** TCP/IP Offload functions. * If non-NULL, then the TCP/IP stack is located * in the communication chip that is accessed via this * network interface. */ struct net_offload *offload; #endif /* CONFIG_NET_OFFLOAD */ /** The hardware MTU */ u16_t mtu; #if defined(CONFIG_NET_SOCKETS_OFFLOAD) /** Indicate whether interface is offloaded at socket level. */ bool offloaded; #endif /* CONFIG_NET_SOCKETS_OFFLOAD */ }; /** * @brief Network Interface structure * * Used to handle a network interface on top of a net_if_dev instance. * There can be many net_if instance against the same net_if_dev instance. * */ struct net_if { /** The net_if_dev instance the net_if is related to */ struct net_if_dev *if_dev; #if defined(CONFIG_NET_STATISTICS_PER_INTERFACE) /** Network statistics related to this network interface */ struct net_stats stats; #endif /* CONFIG_NET_STATISTICS_PER_INTERFACE */ /** Network interface instance configuration */ struct net_if_config config; #if defined(CONFIG_NET_POWER_MANAGEMENT) /** Keep track of packets pending in traffic queues. This is * needed to avoid putting network device driver to sleep if * there are packets waiting to be sent. */ int tx_pending; #endif } __net_if_align; /** * @brief Set a value in network interface flags * * @param iface Pointer to network interface * @param value Flag value */ static inline void net_if_flag_set(struct net_if *iface, enum net_if_flag value) { NET_ASSERT(iface); atomic_set_bit(iface->if_dev->flags, value); } /** * @brief Test and set a value in network interface flags * * @param iface Pointer to network interface * @param value Flag value * * @return true if the bit was set, false if it wasn't. */ static inline bool net_if_flag_test_and_set(struct net_if *iface, enum net_if_flag value) { NET_ASSERT(iface); return atomic_test_and_set_bit(iface->if_dev->flags, value); } /** * @brief Clear a value in network interface flags * * @param iface Pointer to network interface * @param value Flag value */ static inline void net_if_flag_clear(struct net_if *iface, enum net_if_flag value) { NET_ASSERT(iface); atomic_clear_bit(iface->if_dev->flags, value); } /** * @brief Check if a value in network interface flags is set * * @param iface Pointer to network interface * @param value Flag value * * @return True if the value is set, false otherwise */ static inline bool net_if_flag_is_set(struct net_if *iface, enum net_if_flag value) { NET_ASSERT(iface); return atomic_test_bit(iface->if_dev->flags, value); } /** * @brief Send a packet through a net iface * * @param iface Pointer to a network interface structure * @param pkt Pointer to a net packet to send * * return verdict about the packet */ enum net_verdict net_if_send_data(struct net_if *iface, struct net_pkt *pkt); /** * @brief Get a pointer to the interface L2 * * @param iface a valid pointer to a network interface structure * * @return a pointer to the iface L2 */ static inline const struct net_l2 * const net_if_l2(struct net_if *iface) { if (!iface || !iface->if_dev) { return NULL; } return iface->if_dev->l2; } /** * @brief Input a packet through a net iface * * @param iface Pointer to a network interface structure * @param pkt Pointer to a net packet to input * * @return verdict about the packet */ enum net_verdict net_if_recv_data(struct net_if *iface, struct net_pkt *pkt); /** * @brief Get a pointer to the interface L2 private data * * @param iface a valid pointer to a network interface structure * * @return a pointer to the iface L2 data */ static inline void *net_if_l2_data(struct net_if *iface) { return iface->if_dev->l2_data; } /** * @brief Get an network interface's device * * @param iface Pointer to a network interface structure * * @return a pointer to the device driver instance */ static inline struct device *net_if_get_device(struct net_if *iface) { return iface->if_dev->dev; } /** * @brief Queue a packet to the net interface TX queue * * @param iface Pointer to a network interface structure * @param pkt Pointer to a net packet to queue */ void net_if_queue_tx(struct net_if *iface, struct net_pkt *pkt); /** * @brief Return the IP offload status * * @param iface Network interface * * @return True if IP offlining is active, false otherwise. */ static inline bool net_if_is_ip_offloaded(struct net_if *iface) { #if defined(CONFIG_NET_OFFLOAD) return (iface->if_dev->offload != NULL); #else ARG_UNUSED(iface); return false; #endif } /** * @brief Return the IP offload plugin * * @param iface Network interface * * @return NULL if there is no offload plugin defined, valid pointer otherwise */ static inline struct net_offload *net_if_offload(struct net_if *iface) { #if defined(CONFIG_NET_OFFLOAD) return iface->if_dev->offload; #else return NULL; #endif } /** * @brief Return the socket offload status * * @param iface Network interface * * @return True if socket offloading is active, false otherwise. */ static inline bool net_if_is_socket_offloaded(struct net_if *iface) { #if defined(CONFIG_NET_SOCKETS_OFFLOAD) return iface->if_dev->offloaded; #else ARG_UNUSED(iface); return false; #endif } /** * @brief Get an network interface's link address * * @param iface Pointer to a network interface structure * * @return a pointer to the network link address */ static inline struct net_linkaddr *net_if_get_link_addr(struct net_if *iface) { return &iface->if_dev->link_addr; } /** * @brief Return network configuration for this network interface * * @param iface Pointer to a network interface structure * * @return Pointer to configuration */ static inline struct net_if_config *net_if_get_config(struct net_if *iface) { return &iface->config; } /** * @brief Start duplicate address detection procedure. * * @param iface Pointer to a network interface structure */ #if defined(CONFIG_NET_IPV6_DAD) && defined(CONFIG_NET_NATIVE_IPV6) void net_if_start_dad(struct net_if *iface); #else static inline void net_if_start_dad(struct net_if *iface) { ARG_UNUSED(iface); } #endif /** * @brief Start neighbor discovery and send router solicitation message. * * @param iface Pointer to a network interface structure */ void net_if_start_rs(struct net_if *iface); /** * @brief Stop neighbor discovery. * * @param iface Pointer to a network interface structure */ #if defined(CONFIG_NET_IPV6_ND) && defined(CONFIG_NET_NATIVE_IPV6) void net_if_stop_rs(struct net_if *iface); #else static inline void net_if_stop_rs(struct net_if *iface) { ARG_UNUSED(iface); } #endif /* CONFIG_NET_IPV6_ND */ /** * @brief Set a network interface's link address * * @param iface Pointer to a network interface structure * @param addr A pointer to a u8_t buffer representing the address. The buffer * must remain valid throughout interface lifetime. * @param len length of the address buffer * @param type network bearer type of this link address * * @return 0 on success */ static inline int net_if_set_link_addr(struct net_if *iface, u8_t *addr, u8_t len, enum net_link_type type) { if (net_if_flag_is_set(iface, NET_IF_UP)) { return -EPERM; } net_if_get_link_addr(iface)->addr = addr; net_if_get_link_addr(iface)->len = len; net_if_get_link_addr(iface)->type = type; net_hostname_set_postfix(addr, len); return 0; } /** * @brief Get an network interface's MTU * * @param iface Pointer to a network interface structure * * @return the MTU */ static inline u16_t net_if_get_mtu(struct net_if *iface) { return iface->if_dev->mtu; } /** * @brief Set an network interface's MTU * * @param iface Pointer to a network interface structure * @param mtu New MTU, note that we store only 16 bit mtu value. */ static inline void net_if_set_mtu(struct net_if *iface, u16_t mtu) { iface->if_dev->mtu = mtu; } /** * @brief Set the infinite status of the network interface address * * @param ifaddr IP address for network interface * @param is_infinite Infinite status */ static inline void net_if_addr_set_lf(struct net_if_addr *ifaddr, bool is_infinite) { ifaddr->is_infinite = is_infinite; } /** * @brief Get an interface according to link layer address. * * @param ll_addr Link layer address. * * @return Network interface or NULL if not found. */ struct net_if *net_if_get_by_link_addr(struct net_linkaddr *ll_addr); /** * @brief Find an interface from it's related device * * @param dev A valid struct device pointer to relate with an interface * * @return a valid struct net_if pointer on success, NULL otherwise */ struct net_if *net_if_lookup_by_dev(struct device *dev); /** * @brief Get network interface IP config * * @param iface Interface to use. * * @return NULL if not found or pointer to correct config settings. */ static inline struct net_if_config *net_if_config_get(struct net_if *iface) { return &iface->config; } /** * @brief Remove a router from the system * * @param router Pointer to existing router */ static inline void net_if_router_rm(struct net_if_router *router) { router->is_used = false; /* FIXME - remove timer */ } /** * @brief Get the default network interface. * * @return Default interface or NULL if no interfaces are configured. */ struct net_if *net_if_get_default(void); /** * @brief Get the first network interface according to its type. * * @param l2 Layer 2 type of the network interface. * * @return First network interface of a given type or NULL if no such * interfaces was found. */ struct net_if *net_if_get_first_by_type(const struct net_l2 *l2); #if defined(CONFIG_NET_L2_IEEE802154) /** * @brief Get the first IEEE 802.15.4 network interface. * * @return First IEEE 802.15.4 network interface or NULL if no such * interfaces was found. */ static inline struct net_if *net_if_get_ieee802154(void) { return net_if_get_first_by_type(&NET_L2_GET_NAME(IEEE802154)); } #endif /* CONFIG_NET_L2_IEEE802154 */ /** * @brief Allocate network interface IPv6 config. * * @details This function will allocate new IPv6 config. * * @param iface Interface to use. * @param ipv6 Pointer to allocated IPv6 struct is returned to caller. * * @return 0 if ok, <0 if error */ int net_if_config_ipv6_get(struct net_if *iface, struct net_if_ipv6 **ipv6); /** * @brief Release network interface IPv6 config. * * @param iface Interface to use. * * @return 0 if ok, <0 if error */ int net_if_config_ipv6_put(struct net_if *iface); /** * @brief Check if this IPv6 address belongs to one of the interfaces. * * @param addr IPv6 address * @param iface Pointer to interface is returned * * @return Pointer to interface address, NULL if not found. */ struct net_if_addr *net_if_ipv6_addr_lookup(const struct in6_addr *addr, struct net_if **iface); /** * @brief Check if this IPv6 address belongs to this specific interfaces. * * @param iface Network interface * @param addr IPv6 address * * @return Pointer to interface address, NULL if not found. */ struct net_if_addr *net_if_ipv6_addr_lookup_by_iface(struct net_if *iface, struct in6_addr *addr); /** * @brief Check if this IPv6 address belongs to one of the interface indices. * * @param addr IPv6 address * * @return >0 if address was found in given network interface index, * all other values mean address was not found */ __syscall int net_if_ipv6_addr_lookup_by_index(const struct in6_addr *addr); /** * @brief Add a IPv6 address to an interface * * @param iface Network interface * @param addr IPv6 address * @param addr_type IPv6 address type * @param vlifetime Validity time for this address * * @return Pointer to interface address, NULL if cannot be added */ struct net_if_addr *net_if_ipv6_addr_add(struct net_if *iface, struct in6_addr *addr, enum net_addr_type addr_type, u32_t vlifetime); /** * @brief Add a IPv6 address to an interface by index * * @param index Network interface index * @param addr IPv6 address * @param addr_type IPv6 address type * @param vlifetime Validity time for this address * * @return True if ok, false if address could not be added */ __syscall bool net_if_ipv6_addr_add_by_index(int index, struct in6_addr *addr, enum net_addr_type addr_type, u32_t vlifetime); /** * @brief Update validity lifetime time of an IPv6 address. * * @param ifaddr Network IPv6 address * @param vlifetime Validity time for this address */ void net_if_ipv6_addr_update_lifetime(struct net_if_addr *ifaddr, u32_t vlifetime); /** * @brief Remove an IPv6 address from an interface * * @param iface Network interface * @param addr IPv6 address * * @return True if successfully removed, false otherwise */ bool net_if_ipv6_addr_rm(struct net_if *iface, const struct in6_addr *addr); /** * @brief Remove an IPv6 address from an interface by index * * @param index Network interface index * @param addr IPv6 address * * @return True if successfully removed, false otherwise */ __syscall bool net_if_ipv6_addr_rm_by_index(int index, const struct in6_addr *addr); /** * @brief Add a IPv6 multicast address to an interface * * @param iface Network interface * @param addr IPv6 multicast address * * @return Pointer to interface multicast address, NULL if cannot be added */ struct net_if_mcast_addr *net_if_ipv6_maddr_add(struct net_if *iface, const struct in6_addr *addr); /** * @brief Remove an IPv6 multicast address from an interface * * @param iface Network interface * @param addr IPv6 multicast address * * @return True if successfully removed, false otherwise */ bool net_if_ipv6_maddr_rm(struct net_if *iface, const struct in6_addr *addr); /** * @brief Check if this IPv6 multicast address belongs to a specific interface * or one of the interfaces. * * @param addr IPv6 address * @param iface If *iface is null, then pointer to interface is returned, * otherwise the *iface value needs to be matched. * * @return Pointer to interface multicast address, NULL if not found. */ struct net_if_mcast_addr *net_if_ipv6_maddr_lookup(const struct in6_addr *addr, struct net_if **iface); /** * @typedef net_if_mcast_callback_t * @brief Define callback that is called whenever IPv6 multicast address group * is joined or left. * @param "struct net_if *iface" A pointer to a struct net_if to which the * multicast address is attached. * @param "const struct in6_addr *addr" IPv6 multicast address. * @param "bool is_joined" True if the address is joined, false if left. */ typedef void (*net_if_mcast_callback_t)(struct net_if *iface, const struct in6_addr *addr, bool is_joined); /** * @brief Multicast monitor handler struct. * * Stores the multicast callback information. Caller must make sure that * the variable pointed by this is valid during the lifetime of * registration. Typically this means that the variable cannot be * allocated from stack. */ struct net_if_mcast_monitor { /** Node information for the slist. */ sys_snode_t node; /** Network interface */ struct net_if *iface; /** Multicast callback */ net_if_mcast_callback_t cb; }; /** * @brief Register a multicast monitor * * @param mon Monitor handle. This is a pointer to a monitor storage structure * which should be allocated by caller, but does not need to be initialized. * @param iface Network interface * @param cb Monitor callback */ void net_if_mcast_mon_register(struct net_if_mcast_monitor *mon, struct net_if *iface, net_if_mcast_callback_t cb); /** * @brief Unregister a multicast monitor * * @param mon Monitor handle */ void net_if_mcast_mon_unregister(struct net_if_mcast_monitor *mon); /** * @brief Call registered multicast monitors * * @param iface Network interface * @param addr Multicast address * @param is_joined Is this multicast address joined (true) or not (false) */ void net_if_mcast_monitor(struct net_if *iface, const struct in6_addr *addr, bool is_joined); /** * @brief Mark a given multicast address to be joined. * * @param addr IPv6 multicast address */ static inline void net_if_ipv6_maddr_join(struct net_if_mcast_addr *addr) { NET_ASSERT(addr); addr->is_joined = true; } /** * @brief Check if given multicast address is joined or not. * * @param addr IPv6 multicast address * * @return True if address is joined, False otherwise. */ static inline bool net_if_ipv6_maddr_is_joined(struct net_if_mcast_addr *addr) { NET_ASSERT(addr); return addr->is_joined; } /** * @brief Mark a given multicast address to be left. * * @param addr IPv6 multicast address */ static inline void net_if_ipv6_maddr_leave(struct net_if_mcast_addr *addr) { NET_ASSERT(addr); addr->is_joined = false; } /** * @brief Return prefix that corresponds to this IPv6 address. * * @param iface Network interface * @param addr IPv6 address * * @return Pointer to prefix, NULL if not found. */ struct net_if_ipv6_prefix *net_if_ipv6_prefix_get(struct net_if *iface, struct in6_addr *addr); /** * @brief Check if this IPv6 prefix belongs to this interface * * @param iface Network interface * @param addr IPv6 address * @param len Prefix length * * @return Pointer to prefix, NULL if not found. */ struct net_if_ipv6_prefix *net_if_ipv6_prefix_lookup(struct net_if *iface, struct in6_addr *addr, u8_t len); /** * @brief Add a IPv6 prefix to an network interface. * * @param iface Network interface * @param prefix IPv6 address * @param len Prefix length * @param lifetime Prefix lifetime in seconds * * @return Pointer to prefix, NULL if the prefix was not added. */ struct net_if_ipv6_prefix *net_if_ipv6_prefix_add(struct net_if *iface, struct in6_addr *prefix, u8_t len, u32_t lifetime); /** * @brief Remove an IPv6 prefix from an interface * * @param iface Network interface * @param addr IPv6 prefix address * @param len Prefix length * * @return True if successfully removed, false otherwise */ bool net_if_ipv6_prefix_rm(struct net_if *iface, struct in6_addr *addr, u8_t len); /** * @brief Set the infinite status of the prefix * * @param prefix IPv6 address * @param is_infinite Infinite status */ static inline void net_if_ipv6_prefix_set_lf(struct net_if_ipv6_prefix *prefix, bool is_infinite) { prefix->is_infinite = is_infinite; } /** * @brief Set the prefix lifetime timer. * * @param prefix IPv6 address * @param lifetime Prefix lifetime in seconds */ void net_if_ipv6_prefix_set_timer(struct net_if_ipv6_prefix *prefix, u32_t lifetime); /** * @brief Unset the prefix lifetime timer. * * @param prefix IPv6 address */ void net_if_ipv6_prefix_unset_timer(struct net_if_ipv6_prefix *prefix); /** * @brief Check if this IPv6 address is part of the subnet of our * network interface. * * @param iface Network interface. This is returned to the caller. * The iface can be NULL in which case we check all the interfaces. * @param addr IPv6 address * * @return True if address is part of our subnet, false otherwise */ bool net_if_ipv6_addr_onlink(struct net_if **iface, struct in6_addr *addr); /** * @brief Get the IPv6 address of the given router * @param router a network router * * @return pointer to the IPv6 address, or NULL if none */ #if defined(CONFIG_NET_NATIVE_IPV6) static inline struct in6_addr *net_if_router_ipv6(struct net_if_router *router) { return &router->address.in6_addr; } #else static inline struct in6_addr *net_if_router_ipv6(struct net_if_router *router) { static struct in6_addr addr; ARG_UNUSED(router); return &addr; } #endif /** * @brief Check if IPv6 address is one of the routers configured * in the system. * * @param iface Network interface * @param addr IPv6 address * * @return Pointer to router information, NULL if cannot be found */ struct net_if_router *net_if_ipv6_router_lookup(struct net_if *iface, struct in6_addr *addr); /** * @brief Find default router for this IPv6 address. * * @param iface Network interface. This can be NULL in which case we * go through all the network interfaces to find a suitable router. * @param addr IPv6 address * * @return Pointer to router information, NULL if cannot be found */ struct net_if_router *net_if_ipv6_router_find_default(struct net_if *iface, struct in6_addr *addr); /** * @brief Update validity lifetime time of a router. * * @param router Network IPv6 address * @param lifetime Lifetime of this router. */ void net_if_ipv6_router_update_lifetime(struct net_if_router *router, u16_t lifetime); /** * @brief Add IPv6 router to the system. * * @param iface Network interface * @param addr IPv6 address * @param router_lifetime Lifetime of the router * * @return Pointer to router information, NULL if could not be added */ struct net_if_router *net_if_ipv6_router_add(struct net_if *iface, struct in6_addr *addr, u16_t router_lifetime); /** * @brief Remove IPv6 router from the system. * * @param router Router information. * * @return True if successfully removed, false otherwise */ bool net_if_ipv6_router_rm(struct net_if_router *router); /** * @brief Get IPv6 hop limit specified for a given interface. This is the * default value but can be overridden by the user. * * @param iface Network interface * * @return Hop limit */ static inline u8_t net_if_ipv6_get_hop_limit(struct net_if *iface) { #if defined(CONFIG_NET_NATIVE_IPV6) if (!iface->config.ip.ipv6) { return 0; } return iface->config.ip.ipv6->hop_limit; #else return 0; #endif } /** * @brief Set the default IPv6 hop limit of a given interface. * * @param iface Network interface * @param hop_limit New hop limit */ static inline void net_ipv6_set_hop_limit(struct net_if *iface, u8_t hop_limit) { #if defined(CONFIG_NET_NATIVE_IPV6) if (!iface->config.ip.ipv6) { return; } iface->config.ip.ipv6->hop_limit = hop_limit; #endif } /** * @brief Set IPv6 reachable time for a given interface * * @param iface Network interface * @param reachable_time New reachable time */ static inline void net_if_ipv6_set_base_reachable_time(struct net_if *iface, u32_t reachable_time) { #if defined(CONFIG_NET_NATIVE_IPV6) if (!iface->config.ip.ipv6) { return; } iface->config.ip.ipv6->base_reachable_time = reachable_time; #endif } /** * @brief Get IPv6 reachable timeout specified for a given interface * * @param iface Network interface * * @return Reachable timeout */ static inline u32_t net_if_ipv6_get_reachable_time(struct net_if *iface) { #if defined(CONFIG_NET_NATIVE_IPV6) if (!iface->config.ip.ipv6) { return 0; } return iface->config.ip.ipv6->reachable_time; #else return 0; #endif } /** * @brief Calculate next reachable time value for IPv6 reachable time * * @param ipv6 IPv6 address configuration * * @return Reachable time */ u32_t net_if_ipv6_calc_reachable_time(struct net_if_ipv6 *ipv6); /** * @brief Set IPv6 reachable time for a given interface. This requires * that base reachable time is set for the interface. * * @param ipv6 IPv6 address configuration */ static inline void net_if_ipv6_set_reachable_time(struct net_if_ipv6 *ipv6) { #if defined(CONFIG_NET_NATIVE_IPV6) ipv6->reachable_time = net_if_ipv6_calc_reachable_time(ipv6); #endif } /** * @brief Set IPv6 retransmit timer for a given interface * * @param iface Network interface * @param retrans_timer New retransmit timer */ static inline void net_if_ipv6_set_retrans_timer(struct net_if *iface, u32_t retrans_timer) { #if defined(CONFIG_NET_NATIVE_IPV6) if (!iface->config.ip.ipv6) { return; } iface->config.ip.ipv6->retrans_timer = retrans_timer; #endif } /** * @brief Get IPv6 retransmit timer specified for a given interface * * @param iface Network interface * * @return Retransmit timer */ static inline u32_t net_if_ipv6_get_retrans_timer(struct net_if *iface) { #if defined(CONFIG_NET_NATIVE_IPV6) if (!iface->config.ip.ipv6) { return 0; } return iface->config.ip.ipv6->retrans_timer; #else return 0; #endif } /** * @brief Get a IPv6 source address that should be used when sending * network data to destination. * * @param iface Interface that was used when packet was received. * If the interface is not known, then NULL can be given. * @param dst IPv6 destination address * * @return Pointer to IPv6 address to use, NULL if no IPv6 address * could be found. */ #if defined(CONFIG_NET_NATIVE_IPV6) const struct in6_addr *net_if_ipv6_select_src_addr(struct net_if *iface, const struct in6_addr *dst); #else static inline const struct in6_addr *net_if_ipv6_select_src_addr( struct net_if *iface, const struct in6_addr *dst) { ARG_UNUSED(iface); ARG_UNUSED(dst); return NULL; } #endif /** * @brief Get a network interface that should be used when sending * IPv6 network data to destination. * * @param dst IPv6 destination address * * @return Pointer to network interface to use, NULL if no suitable interface * could be found. */ #if defined(CONFIG_NET_NATIVE_IPV6) struct net_if *net_if_ipv6_select_src_iface(const struct in6_addr *dst); #else static inline struct net_if *net_if_ipv6_select_src_iface( const struct in6_addr *dst) { ARG_UNUSED(dst); return NULL; } #endif /** * @brief Get a IPv6 link local address in a given state. * * @param iface Interface to use. Must be a valid pointer to an interface. * @param addr_state IPv6 address state (preferred, tentative, deprecated) * * @return Pointer to link local IPv6 address, NULL if no proper IPv6 address * could be found. */ struct in6_addr *net_if_ipv6_get_ll(struct net_if *iface, enum net_addr_state addr_state); /** * @brief Return link local IPv6 address from the first interface that has * a link local address matching give state. * * @param state IPv6 address state (ANY, TENTATIVE, PREFERRED, DEPRECATED) * @param iface Pointer to interface is returned * * @return Pointer to IPv6 address, NULL if not found. */ struct in6_addr *net_if_ipv6_get_ll_addr(enum net_addr_state state, struct net_if **iface); /** * @brief Stop IPv6 Duplicate Address Detection (DAD) procedure if * we find out that our IPv6 address is already in use. * * @param iface Interface where the DAD was running. * @param addr IPv6 address that failed DAD */ void net_if_ipv6_dad_failed(struct net_if *iface, const struct in6_addr *addr); /** * @brief Return global IPv6 address from the first interface that has * a global IPv6 address matching the given state. * * @param state IPv6 address state (ANY, TENTATIVE, PREFERRED, DEPRECATED) * @param iface Caller can give an interface to check. If iface is set to NULL, * then all the interfaces are checked. Pointer to interface where the IPv6 * address is defined is returned to the caller. * * @return Pointer to IPv6 address, NULL if not found. */ struct in6_addr *net_if_ipv6_get_global_addr(enum net_addr_state state, struct net_if **iface); /** * @brief Allocate network interface IPv4 config. * * @details This function will allocate new IPv4 config. * * @param iface Interface to use. * @param ipv4 Pointer to allocated IPv4 struct is returned to caller. * * @return 0 if ok, <0 if error */ int net_if_config_ipv4_get(struct net_if *iface, struct net_if_ipv4 **ipv4); /** * @brief Release network interface IPv4 config. * * @param iface Interface to use. * * @return 0 if ok, <0 if error */ int net_if_config_ipv4_put(struct net_if *iface); /** * @brief Get IPv4 time-to-live value specified for a given interface * * @param iface Network interface * * @return Time-to-live */ static inline u8_t net_if_ipv4_get_ttl(struct net_if *iface) { #if defined(CONFIG_NET_NATIVE_IPV4) if (!iface->config.ip.ipv4) { return 0; } return iface->config.ip.ipv4->ttl; #else return 0; #endif } /** * @brief Check if this IPv4 address belongs to one of the interfaces. * * @param addr IPv4 address * @param iface Interface is returned * * @return Pointer to interface address, NULL if not found. */ struct net_if_addr *net_if_ipv4_addr_lookup(const struct in_addr *addr, struct net_if **iface); /** * @brief Add a IPv4 address to an interface * * @param iface Network interface * @param addr IPv4 address * @param addr_type IPv4 address type * @param vlifetime Validity time for this address * * @return Pointer to interface address, NULL if cannot be added */ struct net_if_addr *net_if_ipv4_addr_add(struct net_if *iface, struct in_addr *addr, enum net_addr_type addr_type, u32_t vlifetime); /** * @brief Remove a IPv4 address from an interface * * @param iface Network interface * @param addr IPv4 address * * @return True if successfully removed, false otherwise */ bool net_if_ipv4_addr_rm(struct net_if *iface, const struct in_addr *addr); /** * @brief Check if this IPv4 address belongs to one of the interface indices. * * @param addr IPv4 address * * @return >0 if address was found in given network interface index, * all other values mean address was not found */ __syscall int net_if_ipv4_addr_lookup_by_index(const struct in_addr *addr); /** * @brief Add a IPv4 address to an interface by network interface index * * @param index Network interface index * @param addr IPv4 address * @param addr_type IPv4 address type * @param vlifetime Validity time for this address * * @return True if ok, false if the address could not be added */ __syscall bool net_if_ipv4_addr_add_by_index(int index, struct in_addr *addr, enum net_addr_type addr_type, u32_t vlifetime); /** * @brief Remove a IPv4 address from an interface by interface index * * @param index Network interface index * @param addr IPv4 address * * @return True if successfully removed, false otherwise */ __syscall bool net_if_ipv4_addr_rm_by_index(int index, const struct in_addr *addr); /** * @brief Add a IPv4 multicast address to an interface * * @param iface Network interface * @param addr IPv4 multicast address * * @return Pointer to interface multicast address, NULL if cannot be added */ struct net_if_mcast_addr *net_if_ipv4_maddr_add(struct net_if *iface, const struct in_addr *addr); /** * @brief Remove an IPv4 multicast address from an interface * * @param iface Network interface * @param addr IPv4 multicast address * * @return True if successfully removed, false otherwise */ bool net_if_ipv4_maddr_rm(struct net_if *iface, const struct in_addr *addr); /** * @brief Check if this IPv4 multicast address belongs to a specific interface * or one of the interfaces. * * @param addr IPv4 address * @param iface If *iface is null, then pointer to interface is returned, * otherwise the *iface value needs to be matched. * * @return Pointer to interface multicast address, NULL if not found. */ struct net_if_mcast_addr *net_if_ipv4_maddr_lookup(const struct in_addr *addr, struct net_if **iface); /** * @brief Get the IPv4 address of the given router * @param router a network router * * @return pointer to the IPv4 address, or NULL if none */ #if defined(CONFIG_NET_NATIVE_IPV4) static inline struct in_addr *net_if_router_ipv4(struct net_if_router *router) { return &router->address.in_addr; } #else static inline struct in_addr *net_if_router_ipv4(struct net_if_router *router) { static struct in_addr addr; ARG_UNUSED(router); return &addr; } #endif /** * @brief Check if IPv4 address is one of the routers configured * in the system. * * @param iface Network interface * @param addr IPv4 address * * @return Pointer to router information, NULL if cannot be found */ struct net_if_router *net_if_ipv4_router_lookup(struct net_if *iface, struct in_addr *addr); /** * @brief Find default router for this IPv4 address. * * @param iface Network interface. This can be NULL in which case we * go through all the network interfaces to find a suitable router. * @param addr IPv4 address * * @return Pointer to router information, NULL if cannot be found */ struct net_if_router *net_if_ipv4_router_find_default(struct net_if *iface, struct in_addr *addr); /** * @brief Add IPv4 router to the system. * * @param iface Network interface * @param addr IPv4 address * @param is_default Is this router the default one * @param router_lifetime Lifetime of the router * * @return Pointer to router information, NULL if could not be added */ struct net_if_router *net_if_ipv4_router_add(struct net_if *iface, struct in_addr *addr, bool is_default, u16_t router_lifetime); /** * @brief Remove IPv4 router from the system. * * @param router Router information. * * @return True if successfully removed, false otherwise */ bool net_if_ipv4_router_rm(struct net_if_router *router); /** * @brief Check if the given IPv4 address belongs to local subnet. * * @param iface Interface to use. Must be a valid pointer to an interface. * @param addr IPv4 address * * @return True if address is part of local subnet, false otherwise. */ bool net_if_ipv4_addr_mask_cmp(struct net_if *iface, const struct in_addr *addr); /** * @brief Check if the given IPv4 address is a broadcast address. * * @param iface Interface to use. Must be a valid pointer to an interface. * @param addr IPv4 address, this should be in network byte order * * @return True if address is a broadcast address, false otherwise. */ bool net_if_ipv4_is_addr_bcast(struct net_if *iface, const struct in_addr *addr); /** * @brief Get a network interface that should be used when sending * IPv4 network data to destination. * * @param dst IPv4 destination address * * @return Pointer to network interface to use, NULL if no suitable interface * could be found. */ #if defined(CONFIG_NET_NATIVE_IPV4) struct net_if *net_if_ipv4_select_src_iface(const struct in_addr *dst); #else static inline struct net_if *net_if_ipv4_select_src_iface( const struct in_addr *dst) { ARG_UNUSED(dst); return NULL; } #endif /** * @brief Get a IPv4 source address that should be used when sending * network data to destination. * * @param iface Interface to use when sending the packet. * If the interface is not known, then NULL can be given. * @param dst IPv4 destination address * * @return Pointer to IPv4 address to use, NULL if no IPv4 address * could be found. */ #if defined(CONFIG_NET_NATIVE_IPV4) const struct in_addr *net_if_ipv4_select_src_addr(struct net_if *iface, const struct in_addr *dst); #else static inline const struct in_addr *net_if_ipv4_select_src_addr( struct net_if *iface, const struct in_addr *dst) { ARG_UNUSED(iface); ARG_UNUSED(dst); return NULL; } #endif /** * @brief Get a IPv4 link local address in a given state. * * @param iface Interface to use. Must be a valid pointer to an interface. * @param addr_state IPv4 address state (preferred, tentative, deprecated) * * @return Pointer to link local IPv4 address, NULL if no proper IPv4 address * could be found. */ struct in_addr *net_if_ipv4_get_ll(struct net_if *iface, enum net_addr_state addr_state); /** * @brief Get a IPv4 global address in a given state. * * @param iface Interface to use. Must be a valid pointer to an interface. * @param addr_state IPv4 address state (preferred, tentative, deprecated) * * @return Pointer to link local IPv4 address, NULL if no proper IPv4 address * could be found. */ struct in_addr *net_if_ipv4_get_global_addr(struct net_if *iface, enum net_addr_state addr_state); /** * @brief Set IPv4 netmask for an interface. * * @param iface Interface to use. * @param netmask IPv4 netmask */ void net_if_ipv4_set_netmask(struct net_if *iface, const struct in_addr *netmask); /** * @brief Set IPv4 netmask for an interface index. * * @param index Network interface index * @param netmask IPv4 netmask * * @return True if netmask was added, false otherwise. */ __syscall bool net_if_ipv4_set_netmask_by_index(int index, const struct in_addr *netmask); /** * @brief Set IPv4 gateway for an interface. * * @param iface Interface to use. * @param gw IPv4 address of an gateway */ void net_if_ipv4_set_gw(struct net_if *iface, const struct in_addr *gw); /** * @brief Set IPv4 gateway for an interface index. * * @param index Network interface index * @param gw IPv4 address of an gateway * * @return True if gateway was added, false otherwise. */ __syscall bool net_if_ipv4_set_gw_by_index(int index, const struct in_addr *gw); /** * @brief Get a network interface that should be used when sending * IPv6 or IPv4 network data to destination. * * @param dst IPv6 or IPv4 destination address * * @return Pointer to network interface to use. Note that the function * will return the default network interface if the best network interface * is not found. */ struct net_if *net_if_select_src_iface(const struct sockaddr *dst); /** * @typedef net_if_link_callback_t * @brief Define callback that is called after a network packet * has been sent. * @param "struct net_if *iface" A pointer to a struct net_if to which the * the net_pkt was sent to. * @param "struct net_linkaddr *dst" Link layer address of the destination * where the network packet was sent. * @param "int status" Send status, 0 is ok, < 0 error. */ typedef void (*net_if_link_callback_t)(struct net_if *iface, struct net_linkaddr *dst, int status); /** * @brief Link callback handler struct. * * Stores the link callback information. Caller must make sure that * the variable pointed by this is valid during the lifetime of * registration. Typically this means that the variable cannot be * allocated from stack. */ struct net_if_link_cb { /** Node information for the slist. */ sys_snode_t node; /** Link callback */ net_if_link_callback_t cb; }; /** * @brief Register a link callback. * * @param link Caller specified handler for the callback. * @param cb Callback to register. */ void net_if_register_link_cb(struct net_if_link_cb *link, net_if_link_callback_t cb); /** * @brief Unregister a link callback. * * @param link Caller specified handler for the callback. */ void net_if_unregister_link_cb(struct net_if_link_cb *link); /** * @brief Call a link callback function. * * @param iface Network interface. * @param lladdr Destination link layer address * @param status 0 is ok, < 0 error */ void net_if_call_link_cb(struct net_if *iface, struct net_linkaddr *lladdr, int status); /** * @brief Check if received network packet checksum calculation can be avoided * or not. For example many ethernet devices support network packet offloading * in which case the IP stack does not need to calculate the checksum. * * @param iface Network interface * * @return True if checksum needs to be calculated, false otherwise. */ bool net_if_need_calc_rx_checksum(struct net_if *iface); /** * @brief Check if network packet checksum calculation can be avoided or not * when sending the packet. For example many ethernet devices support network * packet offloading in which case the IP stack does not need to calculate the * checksum. * * @param iface Network interface * * @return True if checksum needs to be calculated, false otherwise. */ bool net_if_need_calc_tx_checksum(struct net_if *iface); /** * @brief Get interface according to index * * @param index Interface index * * @return Pointer to interface or NULL if not found. */ struct net_if *net_if_get_by_index(int index); /** * @brief Get interface index according to pointer * * @param iface Pointer to network interface * * @return Interface index */ int net_if_get_by_iface(struct net_if *iface); /** * @typedef net_if_cb_t * @brief Callback used while iterating over network interfaces * * @param iface Pointer to current network interface * @param user_data A valid pointer to user data or NULL */ typedef void (*net_if_cb_t)(struct net_if *iface, void *user_data); /** * @brief Go through all the network interfaces and call callback * for each interface. * * @param cb User-supplied callback function to call * @param user_data User specified data */ void net_if_foreach(net_if_cb_t cb, void *user_data); /** * @brief Bring interface up * * @param iface Pointer to network interface * * @return 0 on success */ int net_if_up(struct net_if *iface); /** * @brief Check if interface is up. * * @param iface Pointer to network interface * * @return True if interface is up, False if it is down. */ static inline bool net_if_is_up(struct net_if *iface) { NET_ASSERT(iface); return net_if_flag_is_set(iface, NET_IF_UP); } /** * @brief Bring interface down * * @param iface Pointer to network interface * * @return 0 on success */ int net_if_down(struct net_if *iface); #if defined(CONFIG_NET_PKT_TIMESTAMP) && defined(CONFIG_NET_NATIVE) /** * @typedef net_if_timestamp_callback_t * @brief Define callback that is called after a network packet * has been timestamped. * @param "struct net_pkt *pkt" A pointer on a struct net_pkt which has * been timestamped after being sent. */ typedef void (*net_if_timestamp_callback_t)(struct net_pkt *pkt); /** * @brief Timestamp callback handler struct. * * Stores the timestamp callback information. Caller must make sure that * the variable pointed by this is valid during the lifetime of * registration. Typically this means that the variable cannot be * allocated from stack. */ struct net_if_timestamp_cb { /** Node information for the slist. */ sys_snode_t node; /** Packet for which the callback is needed. * A NULL value means all packets. */ struct net_pkt *pkt; /** Net interface for which the callback is needed. * A NULL value means all interfaces. */ struct net_if *iface; /** Timestamp callback */ net_if_timestamp_callback_t cb; }; /** * @brief Register a timestamp callback. * * @param handle Caller specified handler for the callback. * @param pkt Net packet for which the callback is registered. NULL for all * packets. * @param iface Net interface for which the callback is. NULL for all * interfaces. * @param cb Callback to register. */ void net_if_register_timestamp_cb(struct net_if_timestamp_cb *handle, struct net_pkt *pkt, struct net_if *iface, net_if_timestamp_callback_t cb); /** * @brief Unregister a timestamp callback. * * @param handle Caller specified handler for the callback. */ void net_if_unregister_timestamp_cb(struct net_if_timestamp_cb *handle); /** * @brief Call a timestamp callback function. * * @param pkt Network buffer. */ void net_if_call_timestamp_cb(struct net_pkt *pkt); /* * @brief Add timestamped TX buffer to be handled * * @param pkt Timestamped buffer */ void net_if_add_tx_timestamp(struct net_pkt *pkt); #endif /* CONFIG_NET_PKT_TIMESTAMP */ /** * @brief Set network interface into promiscuous mode * * @details Note that not all network technologies will support this. * * @param iface Pointer to network interface * * @return 0 on success, <0 if error */ int net_if_set_promisc(struct net_if *iface); /** * @brief Set network interface into normal mode * * @param iface Pointer to network interface */ void net_if_unset_promisc(struct net_if *iface); /** * @brief Check if promiscuous mode is set or not. * * @param iface Pointer to network interface * * @return True if interface is in promisc mode, * False if interface is not in in promiscuous mode. */ bool net_if_is_promisc(struct net_if *iface); /** * @brief Check if there are any pending TX network data for a given network * interface. * * @param iface Pointer to network interface * * @return True if there are pending TX network packets for this network * interface, False otherwise. */ static inline bool net_if_are_pending_tx_packets(struct net_if *iface) { #if defined(CONFIG_NET_POWER_MANAGEMENT) return !!iface->tx_pending; #else ARG_UNUSED(iface); return false; #endif } #ifdef CONFIG_NET_POWER_MANAGEMENT /** * @brief Suspend a network interface from a power management perspective * * @param iface Pointer to network interface * * @return 0 on success, or -EALREADY/-EBUSY as possible errors. */ int net_if_suspend(struct net_if *iface); /** * @brief Resume a network interface from a power management perspective * * @param iface Pointer to network interface * * @return 0 on success, or -EALREADY as a possible error. */ int net_if_resume(struct net_if *iface); /** * @brief Check if the network interface is suspended or not. * * @param iface Pointer to network interface * * @return True if interface is suspended, False otherwise. */ bool net_if_is_suspended(struct net_if *iface); #endif /* CONFIG_NET_POWER_MANAGEMENT */ /** @cond INTERNAL_HIDDEN */ struct net_if_api { void (*init)(struct net_if *iface); }; #if defined(CONFIG_NET_DHCPV4) && defined(CONFIG_NET_NATIVE_IPV4) #define NET_IF_DHCPV4_INIT .dhcpv4.state = NET_DHCPV4_DISABLED, #else #define NET_IF_DHCPV4_INIT #endif #define NET_IF_CONFIG_INIT \ .config = { \ .ip = { \ }, \ NET_IF_DHCPV4_INIT \ } #define NET_IF_GET_NAME(dev_name, sfx) (__net_if_##dev_name##_##sfx) #define NET_IF_DEV_GET_NAME(dev_name, sfx) (__net_if_dev_##dev_name##_##sfx) #define NET_IF_GET(dev_name, sfx) \ ((struct net_if *)&NET_IF_GET_NAME(dev_name, sfx)) #define NET_IF_INIT(dev_name, sfx, _l2, _mtu, _num_configs) \ static struct net_if_dev (NET_IF_DEV_GET_NAME(dev_name, sfx)) \ __used __attribute__((__section__(".net_if_dev.data"))) = { \ .dev = &(DEVICE_NAME_GET(dev_name)), \ .l2 = &(NET_L2_GET_NAME(_l2)), \ .l2_data = &(NET_L2_GET_DATA(dev_name, sfx)), \ .mtu = _mtu, \ }; \ static struct net_if \ (NET_IF_GET_NAME(dev_name, sfx))[_num_configs] __used \ __attribute__((__section__(".net_if.data"))) = { \ [0 ... (_num_configs - 1)] = { \ .if_dev = &(NET_IF_DEV_GET_NAME(dev_name, sfx)), \ NET_IF_CONFIG_INIT \ } \ } #define NET_IF_OFFLOAD_INIT(dev_name, sfx, _mtu) \ static struct net_if_dev (NET_IF_DEV_GET_NAME(dev_name, sfx)) __used \ __attribute__((__section__(".net_if_dev.data"))) = { \ .dev = &(__device_##dev_name), \ .mtu = _mtu, \ }; \ static struct net_if \ (NET_IF_GET_NAME(dev_name, sfx))[NET_IF_MAX_CONFIGS] __used \ __attribute__((__section__(".net_if.data"))) = { \ [0 ... (NET_IF_MAX_CONFIGS - 1)] = { \ .if_dev = &(NET_IF_DEV_GET_NAME(dev_name, sfx)), \ NET_IF_CONFIG_INIT \ } \ } /** @endcond */ /* Network device initialization macros */ /** * @def NET_DEVICE_INIT * * @brief Create a network interface and bind it to network device. * * @param dev_name Network device name. * @param drv_name The name this instance of the driver exposes to * the system. * @param init_fn Address to the init function of the driver. * @param pm_control_fn Pointer to device_pm_control function. * Can be empty function (device_pm_control_nop) if not implemented. * @param data Pointer to the device's private data. * @param cfg_info The address to the structure containing the * configuration information for this instance of the driver. * @param prio The initialization level at which configuration occurs. * @param api Provides an initial pointer to the API function struct * used by the driver. Can be NULL. * @param l2 Network L2 layer for this network interface. * @param l2_ctx_type Type of L2 context data. * @param mtu Maximum transfer unit in bytes for this network interface. */ #define NET_DEVICE_INIT(dev_name, drv_name, init_fn, pm_control_fn, \ data, cfg_info, prio, api, l2, \ l2_ctx_type, mtu) \ DEVICE_DEFINE(dev_name, drv_name, init_fn, pm_control_fn, data, \ cfg_info, POST_KERNEL, prio, api); \ NET_L2_DATA_INIT(dev_name, 0, l2_ctx_type); \ NET_IF_INIT(dev_name, 0, l2, mtu, NET_IF_MAX_CONFIGS) /** * @def NET_DEVICE_INIT_INSTANCE * * @brief Create multiple network interfaces and bind them to network device. * If your network device needs more than one instance of a network interface, * use this macro below and provide a different instance suffix each time * (0, 1, 2, ... or a, b, c ... whatever works for you) * * @param dev_name Network device name. * @param drv_name The name this instance of the driver exposes to * the system. * @param instance Instance identifier. * @param init_fn Address to the init function of the driver. * @param pm_control_fn Pointer to device_pm_control function. * Can be empty function (device_pm_control_nop) if not implemented. * @param data Pointer to the device's private data. * @param cfg_info The address to the structure containing the * configuration information for this instance of the driver. * @param prio The initialization level at which configuration occurs. * @param api Provides an initial pointer to the API function struct * used by the driver. Can be NULL. * @param l2 Network L2 layer for this network interface. * @param l2_ctx_type Type of L2 context data. * @param mtu Maximum transfer unit in bytes for this network interface. */ #define NET_DEVICE_INIT_INSTANCE(dev_name, drv_name, instance, init_fn, \ pm_control_fn, data, cfg_info, prio, \ api, l2, l2_ctx_type, mtu) \ DEVICE_DEFINE(dev_name, drv_name, init_fn, pm_control_fn, data, \ cfg_info, POST_KERNEL, prio, api); \ NET_L2_DATA_INIT(dev_name, instance, l2_ctx_type); \ NET_IF_INIT(dev_name, instance, l2, mtu, NET_IF_MAX_CONFIGS) /** * @def NET_DEVICE_OFFLOAD_INIT * * @brief Create a offloaded network interface and bind it to network device. * The offloaded network interface is implemented by a device vendor HAL or * similar. * * @param dev_name Network device name. * @param drv_name The name this instance of the driver exposes to * the system. * @param init_fn Address to the init function of the driver. * @param pm_control_fn Pointer to device_pm_control function. * Can be empty function (device_pm_control_nop) if not implemented. * @param data Pointer to the device's private data. * @param cfg_info The address to the structure containing the * configuration information for this instance of the driver. * @param prio The initialization level at which configuration occurs. * @param api Provides an initial pointer to the API function struct * used by the driver. Can be NULL. * @param mtu Maximum transfer unit in bytes for this network interface. */ #define NET_DEVICE_OFFLOAD_INIT(dev_name, drv_name, init_fn, \ pm_control_fn, data, cfg_info, prio, \ api, mtu) \ DEVICE_DEFINE(dev_name, drv_name, init_fn, pm_control_fn, data, \ cfg_info, POST_KERNEL, prio, api); \ NET_IF_OFFLOAD_INIT(dev_name, 0, mtu) #ifdef __cplusplus } #endif #include <syscalls/net_if.h> /** * @} */ #endif /* ZEPHYR_INCLUDE_NET_NET_IF_H_ */ |