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}; #define NET_ETH_HDR(pkt) ((struct net_eth_hdr *)net_pkt_data(pkt)) #define NET_ETH_PTYPE_ARP 0x0806 #define NET_ETH_PTYPE_IP 0x0800 #define NET_ETH_PTYPE_TSN 0x22f0 /* TSN (IEEE 1722) packet */ #define NET_ETH_PTYPE_IPV6 0x86dd #define NET_ETH_PTYPE_VLAN 0x8100 #define NET_ETH_PTYPE_PTP 0x88f7 #define NET_ETH_PTYPE_LLDP 0x88cc #define NET_ETH_PTYPE_ALL 0x0003 /* from linux/if_ether.h */ #define NET_ETH_PTYPE_ECAT 0x88a4 #define NET_ETH_PTYPE_EAPOL 0x888e #define NET_ETH_PTYPE_IEEE802154 0x00F6 /* from linux/if_ether.h: IEEE802.15.4 frame */ #if !defined(ETH_P_ALL) #define ETH_P_ALL NET_ETH_PTYPE_ALL #endif #if !defined(ETH_P_IP) #define ETH_P_IP NET_ETH_PTYPE_IP #endif #if !defined(ETH_P_ARP) #define ETH_P_ARP NET_ETH_PTYPE_ARP #endif #if !defined(ETH_P_IPV6) #define ETH_P_IPV6 NET_ETH_PTYPE_IPV6 #endif #if !defined(ETH_P_8021Q) #define ETH_P_8021Q NET_ETH_PTYPE_VLAN #endif #if !defined(ETH_P_TSN) #define ETH_P_TSN NET_ETH_PTYPE_TSN #endif #if !defined(ETH_P_ECAT) #define ETH_P_ECAT NET_ETH_PTYPE_ECAT #endif #if !defined(ETH_P_IEEE802154) #define ETH_P_IEEE802154 NET_ETH_PTYPE_IEEE802154 #endif #define NET_ETH_MINIMAL_FRAME_SIZE 60 #define NET_ETH_MTU 1500 #define _NET_ETH_MAX_FRAME_SIZE (NET_ETH_MTU + sizeof(struct net_eth_hdr)) #define _NET_ETH_MAX_HDR_SIZE (sizeof(struct net_eth_hdr)) /* * Extend the max frame size for DSA (KSZ8794) by one byte (to 1519) to * store tail tag. */ #if defined(CONFIG_NET_DSA) #define NET_ETH_MAX_FRAME_SIZE (_NET_ETH_MAX_FRAME_SIZE + DSA_TAG_SIZE) #define NET_ETH_MAX_HDR_SIZE (_NET_ETH_MAX_HDR_SIZE + DSA_TAG_SIZE) #else #define NET_ETH_MAX_FRAME_SIZE (_NET_ETH_MAX_FRAME_SIZE) #define NET_ETH_MAX_HDR_SIZE (_NET_ETH_MAX_HDR_SIZE) #endif #define NET_ETH_VLAN_HDR_SIZE 4 /** @endcond */ /** Ethernet hardware capabilities */ enum ethernet_hw_caps { /** TX Checksum offloading supported for all of IPv4, UDP, TCP */ ETHERNET_HW_TX_CHKSUM_OFFLOAD = BIT(0), /** RX Checksum offloading supported for all of IPv4, UDP, TCP */ ETHERNET_HW_RX_CHKSUM_OFFLOAD = BIT(1), /** VLAN supported */ ETHERNET_HW_VLAN = BIT(2), /** Enabling/disabling auto negotiation supported */ ETHERNET_AUTO_NEGOTIATION_SET = BIT(3), /** 10 Mbits link supported */ ETHERNET_LINK_10BASE_T = BIT(4), /** 100 Mbits link supported */ ETHERNET_LINK_100BASE_T = BIT(5), /** 1 Gbits link supported */ ETHERNET_LINK_1000BASE_T = BIT(6), /** Changing duplex (half/full) supported */ ETHERNET_DUPLEX_SET = BIT(7), /** IEEE 802.1AS (gPTP) clock supported */ ETHERNET_PTP = BIT(8), /** IEEE 802.1Qav (credit-based shaping) supported */ ETHERNET_QAV = BIT(9), /** Promiscuous mode supported */ ETHERNET_PROMISC_MODE = BIT(10), /** Priority queues available */ ETHERNET_PRIORITY_QUEUES = BIT(11), /** MAC address filtering supported */ ETHERNET_HW_FILTERING = BIT(12), /** Link Layer Discovery Protocol supported */ ETHERNET_LLDP = BIT(13), /** VLAN Tag stripping */ ETHERNET_HW_VLAN_TAG_STRIP = BIT(14), /** DSA switch */ ETHERNET_DSA_SLAVE_PORT = BIT(15), ETHERNET_DSA_MASTER_PORT = BIT(16), /** IEEE 802.1Qbv (scheduled traffic) supported */ ETHERNET_QBV = BIT(17), /** IEEE 802.1Qbu (frame preemption) supported */ ETHERNET_QBU = BIT(18), /** TXTIME supported */ ETHERNET_TXTIME = BIT(19), }; /** @cond INTERNAL_HIDDEN */ enum ethernet_config_type { ETHERNET_CONFIG_TYPE_AUTO_NEG, ETHERNET_CONFIG_TYPE_LINK, ETHERNET_CONFIG_TYPE_DUPLEX, ETHERNET_CONFIG_TYPE_MAC_ADDRESS, ETHERNET_CONFIG_TYPE_QAV_PARAM, ETHERNET_CONFIG_TYPE_QBV_PARAM, ETHERNET_CONFIG_TYPE_QBU_PARAM, ETHERNET_CONFIG_TYPE_TXTIME_PARAM, ETHERNET_CONFIG_TYPE_PROMISC_MODE, ETHERNET_CONFIG_TYPE_PRIORITY_QUEUES_NUM, ETHERNET_CONFIG_TYPE_FILTER, ETHERNET_CONFIG_TYPE_PORTS_NUM, }; enum ethernet_qav_param_type { ETHERNET_QAV_PARAM_TYPE_DELTA_BANDWIDTH, ETHERNET_QAV_PARAM_TYPE_IDLE_SLOPE, ETHERNET_QAV_PARAM_TYPE_OPER_IDLE_SLOPE, ETHERNET_QAV_PARAM_TYPE_TRAFFIC_CLASS, ETHERNET_QAV_PARAM_TYPE_STATUS, }; /** @endcond */ struct ethernet_qav_param { /** ID of the priority queue to use */ int queue_id; /** Type of Qav parameter */ enum ethernet_qav_param_type type; union { /** True if Qav is enabled for queue */ bool enabled; /** Delta Bandwidth (percentage of bandwidth) */ unsigned int delta_bandwidth; /** Idle Slope (bits per second) */ unsigned int idle_slope; /** Oper Idle Slope (bits per second) */ unsigned int oper_idle_slope; /** Traffic class the queue is bound to */ unsigned int traffic_class; }; }; /** @cond INTERNAL_HIDDEN */ enum ethernet_qbv_param_type { ETHERNET_QBV_PARAM_TYPE_STATUS, ETHERNET_QBV_PARAM_TYPE_GATE_CONTROL_LIST, ETHERNET_QBV_PARAM_TYPE_GATE_CONTROL_LIST_LEN, ETHERNET_QBV_PARAM_TYPE_TIME, }; enum ethernet_qbv_state_type { ETHERNET_QBV_STATE_TYPE_ADMIN, ETHERNET_QBV_STATE_TYPE_OPER, }; enum ethernet_gate_state_operation { ETHERNET_SET_GATE_STATE, ETHERNET_SET_AND_HOLD_MAC_STATE, ETHERNET_SET_AND_RELEASE_MAC_STATE, }; /** @endcond */ struct ethernet_qbv_param { /** Port id */ int port_id; /** Type of Qbv parameter */ enum ethernet_qbv_param_type type; /** What state (Admin/Oper) parameters are these */ enum ethernet_qbv_state_type state; union { /** True if Qbv is enabled or not */ bool enabled; struct { /** True = open, False = closed */ bool gate_status[NET_TC_TX_COUNT]; /** GateState operation */ enum ethernet_gate_state_operation operation; /** Time interval ticks (nanoseconds) */ uint32_t time_interval; /** Gate control list row */ uint16_t row; } gate_control; /** Number of entries in gate control list */ uint32_t gate_control_list_len; /* The time values are set in one go when type is set to * ETHERNET_QBV_PARAM_TYPE_TIME */ struct { /** Base time */ struct net_ptp_extended_time base_time; /** Cycle time */ struct net_ptp_time cycle_time; /** Extension time (nanoseconds) */ uint32_t extension_time; }; }; }; /** @cond INTERNAL_HIDDEN */ enum ethernet_qbu_param_type { ETHERNET_QBU_PARAM_TYPE_STATUS, ETHERNET_QBU_PARAM_TYPE_RELEASE_ADVANCE, ETHERNET_QBU_PARAM_TYPE_HOLD_ADVANCE, ETHERNET_QBU_PARAM_TYPE_PREEMPTION_STATUS_TABLE, /* Some preemption settings are from Qbr spec. */ ETHERNET_QBR_PARAM_TYPE_LINK_PARTNER_STATUS, ETHERNET_QBR_PARAM_TYPE_ADDITIONAL_FRAGMENT_SIZE, }; enum ethernet_qbu_preempt_status { ETHERNET_QBU_STATUS_EXPRESS, ETHERNET_QBU_STATUS_PREEMPTABLE } __packed; /** @endcond */ struct ethernet_qbu_param { /** Port id */ int port_id; /** Type of Qbu parameter */ enum ethernet_qbu_param_type type; union { /** Hold advance (nanoseconds) */ uint32_t hold_advance; /** Release advance (nanoseconds) */ uint32_t release_advance; /** sequence of framePreemptionAdminStatus values. */ enum ethernet_qbu_preempt_status frame_preempt_statuses[NET_TC_TX_COUNT]; /** True if Qbu is enabled or not */ bool enabled; /** Link partner status (from Qbr) */ bool link_partner_status; /** Additional fragment size (from Qbr). The minimum non-final * fragment size is (additional_fragment_size + 1) * 64 octets */ uint8_t additional_fragment_size : 2; }; }; /** @cond INTERNAL_HIDDEN */ enum ethernet_filter_type { ETHERNET_FILTER_TYPE_SRC_MAC_ADDRESS, ETHERNET_FILTER_TYPE_DST_MAC_ADDRESS, }; /** @endcond */ struct ethernet_filter { /** Type of filter */ enum ethernet_filter_type type; /** MAC address to filter */ struct net_eth_addr mac_address; /** Set (true) or unset (false) the filter */ bool set; }; /** @cond INTERNAL_HIDDEN */ enum ethernet_txtime_param_type { ETHERNET_TXTIME_PARAM_TYPE_ENABLE_QUEUES, }; /** @endcond */ struct ethernet_txtime_param { /** Type of TXTIME parameter */ enum ethernet_txtime_param_type type; /** Queue number for configuring TXTIME */ int queue_id; /** Enable or disable TXTIME per queue */ bool enable_txtime; }; /** @cond INTERNAL_HIDDEN */ struct ethernet_config { union { bool auto_negotiation; bool full_duplex; bool promisc_mode; struct { bool link_10bt; bool link_100bt; bool link_1000bt; } l; struct net_eth_addr mac_address; struct ethernet_qav_param qav_param; struct ethernet_qbv_param qbv_param; struct ethernet_qbu_param qbu_param; struct ethernet_txtime_param txtime_param; int priority_queues_num; int ports_num; struct ethernet_filter filter; }; }; /** @endcond */ struct ethernet_api { /** * The net_if_api must be placed in first position in this * struct so that we are compatible with network interface API. */ struct net_if_api iface_api; #if defined(CONFIG_NET_STATISTICS_ETHERNET) /** Collect optional ethernet specific statistics. This pointer * should be set by driver if statistics needs to be collected * for that driver. */ struct net_stats_eth *(*get_stats)(const struct device *dev); #endif /** Start the device */ int (*start)(const struct device *dev); /** Stop the device */ int (*stop)(const struct device *dev); /** Get the device capabilities */ enum ethernet_hw_caps (*get_capabilities)(const struct device *dev); /** Set specific hardware configuration */ int (*set_config)(const struct device *dev, enum ethernet_config_type type, const struct ethernet_config *config); /** Get hardware specific configuration */ int (*get_config)(const struct device *dev, enum ethernet_config_type type, struct ethernet_config *config); #if defined(CONFIG_NET_VLAN) /** The IP stack will call this function when a VLAN tag is enabled * or disabled. If enable is set to true, then the VLAN tag was added, * if it is false then the tag was removed. The driver can utilize * this information if needed. */ int (*vlan_setup)(const struct device *dev, struct net_if *iface, uint16_t tag, bool enable); #endif /* CONFIG_NET_VLAN */ #if defined(CONFIG_PTP_CLOCK) /** Return ptp_clock device that is tied to this ethernet device */ const struct device *(*get_ptp_clock)(const struct device *dev); #endif /* CONFIG_PTP_CLOCK */ /** Send a network packet */ int (*send)(const struct device *dev, struct net_pkt *pkt); }; /* Make sure that the network interface API is properly setup inside * Ethernet API struct (it is the first one). */ BUILD_ASSERT(offsetof(struct ethernet_api, iface_api) == 0); /** @cond INTERNAL_HIDDEN */ struct net_eth_hdr { struct net_eth_addr dst; struct net_eth_addr src; uint16_t type; } __packed; struct ethernet_vlan { /** Network interface that has VLAN enabled */ struct net_if *iface; /** VLAN tag */ uint16_t tag; }; #if defined(CONFIG_NET_VLAN_COUNT) #define NET_VLAN_MAX_COUNT CONFIG_NET_VLAN_COUNT #else /* Even thou there are no VLAN support, the minimum count must be set to 1. */ #define NET_VLAN_MAX_COUNT 1 #endif /** @endcond */ #if defined(CONFIG_NET_LLDP) struct ethernet_lldp { /** Used for track timers */ sys_snode_t node; /** LLDP Data Unit mandatory TLVs for the interface. */ const struct net_lldpdu *lldpdu; /** LLDP Data Unit optional TLVs for the interface */ const uint8_t *optional_du; /** Length of the optional Data Unit TLVs */ size_t optional_len; /** Network interface that has LLDP supported. */ struct net_if *iface; /** LLDP TX timer start time */ int64_t tx_timer_start; /** LLDP TX timeout */ uint32_t tx_timer_timeout; /** LLDP RX callback function */ net_lldp_recv_cb_t cb; }; #endif /* CONFIG_NET_LLDP */ enum ethernet_flags { ETH_CARRIER_UP, }; /** Ethernet L2 context that is needed for VLAN */ struct ethernet_context { /** Flags representing ethernet state, which are accessed from multiple * threads. */ atomic_t flags; #if defined(CONFIG_NET_VLAN) struct ethernet_vlan vlan[NET_VLAN_MAX_COUNT]; /** Array that will help when checking if VLAN is enabled for * some specific network interface. Requires that VLAN count * NET_VLAN_MAX_COUNT is not smaller than the actual number * of network interfaces. */ ATOMIC_DEFINE(interfaces, NET_VLAN_MAX_COUNT); #endif #if defined(CONFIG_NET_ETHERNET_BRIDGE) struct eth_bridge_iface_context bridge; #endif /** Carrier ON/OFF handler worker. This is used to create * network interface UP/DOWN event when ethernet L2 driver * notices carrier ON/OFF situation. We must not create another * network management event from inside management handler thus * we use worker thread to trigger the UP/DOWN event. */ struct k_work carrier_work; /** Network interface. */ struct net_if *iface; #if defined(CONFIG_NET_LLDP) struct ethernet_lldp lldp[NET_VLAN_MAX_COUNT]; #endif /** * This tells what L2 features does ethernet support. */ enum net_l2_flags ethernet_l2_flags; #if defined(CONFIG_NET_L2_PTP) /** The PTP port number for this network device. We need to store the * port number here so that we do not need to fetch it for every * incoming PTP packet. */ int port; #endif #if defined(CONFIG_NET_DSA) /** DSA RX callback function - for custom processing - like e.g. * redirecting packets when MAC address is caught */ dsa_net_recv_cb_t dsa_recv_cb; /** Switch physical port number */ uint8_t dsa_port_idx; /** DSA context pointer */ struct dsa_context *dsa_ctx; /** Send a network packet via DSA master port */ dsa_send_t dsa_send; #endif #if defined(CONFIG_NET_VLAN) /** Flag that tells whether how many VLAN tags are enabled for this * context. The same information can be dug from the vlan array but * this saves some time in RX path. */ int8_t vlan_enabled; #endif /** Is network carrier up */ bool is_net_carrier_up : 1; /** Is this context already initialized */ bool is_init : 1; }; /** * @brief Initialize Ethernet L2 stack for a given interface * * @param iface A valid pointer to a network interface */ void ethernet_init(struct net_if *iface); /** @cond INTERNAL_HIDDEN */ #define ETHERNET_L2_CTX_TYPE struct ethernet_context /* Separate header for VLAN as some of device interfaces might not * support VLAN. */ struct net_eth_vlan_hdr { struct net_eth_addr dst; struct net_eth_addr src; struct { uint16_t tpid; /* tag protocol id */ uint16_t tci; /* tag control info */ } vlan; uint16_t type; } __packed; static inline bool net_eth_is_addr_broadcast(struct net_eth_addr *addr) { if (addr->addr[0] == 0xff && addr->addr[1] == 0xff && addr->addr[2] == 0xff && addr->addr[3] == 0xff && addr->addr[4] == 0xff && addr->addr[5] == 0xff) { return true; } return false; } static inline bool net_eth_is_addr_unspecified(struct net_eth_addr *addr) { if (addr->addr[0] == 0x00 && addr->addr[1] == 0x00 && addr->addr[2] == 0x00 && addr->addr[3] == 0x00 && addr->addr[4] == 0x00 && addr->addr[5] == 0x00) { return true; } return false; } static inline bool net_eth_is_addr_multicast(struct net_eth_addr *addr) { #if defined(CONFIG_NET_IPV6) if (addr->addr[0] == 0x33 && addr->addr[1] == 0x33) { return true; } #endif #if defined(CONFIG_NET_IPV4) if (addr->addr[0] == 0x01 && addr->addr[1] == 0x00 && addr->addr[2] == 0x5e) { return true; } #endif return false; } static inline bool net_eth_is_addr_lldp_multicast(struct net_eth_addr *addr) { #if defined(CONFIG_NET_GPTP) || defined(CONFIG_NET_LLDP) if (addr->addr[0] == 0x01 && addr->addr[1] == 0x80 && addr->addr[2] == 0xc2 && addr->addr[3] == 0x00 && addr->addr[4] == 0x00 && addr->addr[5] == 0x0e) { return true; } #endif return false; } const struct net_eth_addr *net_eth_broadcast_addr(void); /** @endcond */ /** * @brief Convert IPv4 multicast address to Ethernet address. * * @param ipv4_addr IPv4 multicast address * @param mac_addr Output buffer for Ethernet address */ void net_eth_ipv4_mcast_to_mac_addr(const struct in_addr *ipv4_addr, struct net_eth_addr *mac_addr); /** * @brief Convert IPv6 multicast address to Ethernet address. * * @param ipv6_addr IPv6 multicast address * @param mac_addr Output buffer for Ethernet address */ void net_eth_ipv6_mcast_to_mac_addr(const struct in6_addr *ipv6_addr, struct net_eth_addr *mac_addr); /** * @brief Return ethernet device hardware capability information. * * @param iface Network interface * * @return Hardware capabilities */ static inline enum ethernet_hw_caps net_eth_get_hw_capabilities(struct net_if *iface) { const struct ethernet_api *eth = (struct ethernet_api *)net_if_get_device(iface)->api; if (!eth->get_capabilities) { return (enum ethernet_hw_caps)0; } return eth->get_capabilities(net_if_get_device(iface)); } /** * @brief Add VLAN tag to the interface. * * @param iface Interface to use. * @param tag VLAN tag to add * * @return 0 if ok, <0 if error */ #if defined(CONFIG_NET_VLAN) int net_eth_vlan_enable(struct net_if *iface, uint16_t tag); #else static inline int net_eth_vlan_enable(struct net_if *iface, uint16_t tag) { return -EINVAL; } #endif /** * @brief Remove VLAN tag from the interface. * * @param iface Interface to use. * @param tag VLAN tag to remove * * @return 0 if ok, <0 if error */ #if defined(CONFIG_NET_VLAN) int net_eth_vlan_disable(struct net_if *iface, uint16_t tag); #else static inline int net_eth_vlan_disable(struct net_if *iface, uint16_t tag) { return -EINVAL; } #endif /** * @brief Return VLAN tag specified to network interface * * @param iface Network interface. * * @return VLAN tag for this interface or NET_VLAN_TAG_UNSPEC if VLAN * is not configured for that interface. */ #if defined(CONFIG_NET_VLAN) uint16_t net_eth_get_vlan_tag(struct net_if *iface); #else static inline uint16_t net_eth_get_vlan_tag(struct net_if *iface) { return NET_VLAN_TAG_UNSPEC; } #endif /** * @brief Return network interface related to this VLAN tag * * @param iface Master network interface. This is used to get the * pointer to ethernet L2 context * @param tag VLAN tag * * @return Network interface related to this tag or NULL if no such interface * exists. */ #if defined(CONFIG_NET_VLAN) struct net_if *net_eth_get_vlan_iface(struct net_if *iface, uint16_t tag); #else static inline struct net_if *net_eth_get_vlan_iface(struct net_if *iface, uint16_t tag) { return NULL; } #endif /** * @brief Check if VLAN is enabled for a specific network interface. * * @param ctx Ethernet context * @param iface Network interface * * @return True if VLAN is enabled for this network interface, false if not. */ #if defined(CONFIG_NET_VLAN) bool net_eth_is_vlan_enabled(struct ethernet_context *ctx, struct net_if *iface); #else static inline bool net_eth_is_vlan_enabled(struct ethernet_context *ctx, struct net_if *iface) { return false; } #endif /** * @brief Get VLAN status for a given network interface (enabled or not). * * @param iface Network interface * * @return True if VLAN is enabled for this network interface, false if not. */ #if defined(CONFIG_NET_VLAN) bool net_eth_get_vlan_status(struct net_if *iface); #else static inline bool net_eth_get_vlan_status(struct net_if *iface) { return false; } #endif #if defined(CONFIG_NET_VLAN) #define Z_ETH_NET_DEVICE_INIT(node_id, dev_name, drv_name, init_fn, \ pm_action_cb, data, cfg, prio, api, mtu) \ Z_DEVICE_STATE_DEFINE(node_id, dev_name) \ Z_DEVICE_DEFINE(node_id, dev_name, drv_name, init_fn, \ pm_action_cb, data, cfg, POST_KERNEL, \ prio, api, &Z_DEVICE_STATE_NAME(dev_name)); \ NET_L2_DATA_INIT(dev_name, 0, NET_L2_GET_CTX_TYPE(ETHERNET_L2));\ NET_IF_INIT(dev_name, 0, ETHERNET_L2, mtu, NET_VLAN_MAX_COUNT) #else /* CONFIG_NET_VLAN */ #define Z_ETH_NET_DEVICE_INIT(node_id, dev_name, drv_name, init_fn, \ pm_action_cb, data, cfg, prio, api, mtu) \ Z_NET_DEVICE_INIT(node_id, dev_name, drv_name, init_fn, \ pm_action_cb, data, cfg, prio, api, \ ETHERNET_L2, NET_L2_GET_CTX_TYPE(ETHERNET_L2),\ mtu) #endif /* CONFIG_NET_VLAN */ /** * @brief Create an Ethernet 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_action_cb Pointer to PM action callback. * Can be NULL if not implemented. * @param data Pointer to the device's private data. * @param cfg 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 ETH_NET_DEVICE_INIT(dev_name, drv_name, init_fn, pm_action_cb, \ data, cfg, prio, api, mtu) \ Z_ETH_NET_DEVICE_INIT(DT_INVALID_NODE, dev_name, drv_name, \ init_fn, pm_action_cb, data, cfg, prio, \ api, mtu) /** * @brief Like ETH_NET_DEVICE_INIT but taking metadata from a devicetree. * Create an Ethernet network interface and bind it to network device. * * @param node_id The devicetree node identifier. * @param init_fn Address to the init function of the driver. * @param pm_action_cb Pointer to PM action callback. * Can be NULL if not implemented. * @param data Pointer to the device's private data. * @param cfg 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 ETH_NET_DEVICE_DT_DEFINE(node_id, init_fn, pm_action_cb, data, \ cfg, prio, api, mtu) \ Z_ETH_NET_DEVICE_INIT(node_id, Z_DEVICE_DT_DEV_NAME(node_id), \ DEVICE_DT_NAME(node_id), \ init_fn, pm_action_cb, data, cfg, prio, \ api, mtu) /** * @brief Like ETH_NET_DEVICE_DT_DEFINE for an instance of a DT_DRV_COMPAT * compatible * * @param inst instance number. This is replaced by * <tt>DT_DRV_COMPAT(inst)</tt> in the call to ETH_NET_DEVICE_DT_DEFINE. * * @param ... other parameters as expected by ETH_NET_DEVICE_DT_DEFINE. */ #define ETH_NET_DEVICE_DT_INST_DEFINE(inst, ...) \ ETH_NET_DEVICE_DT_DEFINE(DT_DRV_INST(inst), __VA_ARGS__) /** * @brief Inform ethernet L2 driver that ethernet carrier is detected. * This happens when cable is connected. * * @param iface Network interface */ void net_eth_carrier_on(struct net_if *iface); /** * @brief Inform ethernet L2 driver that ethernet carrier was lost. * This happens when cable is disconnected. * * @param iface Network interface */ void net_eth_carrier_off(struct net_if *iface); /** * @brief Set promiscuous mode either ON or OFF. * * @param iface Network interface * * @param enable on (true) or off (false) * * @return 0 if mode set or unset was successful, <0 otherwise. */ int net_eth_promisc_mode(struct net_if *iface, bool enable); /** * @brief Return PTP clock that is tied to this ethernet network interface. * * @param iface Network interface * * @return Pointer to PTP clock if found, NULL if not found or if this * ethernet interface does not support PTP. */ #if defined(CONFIG_PTP_CLOCK) const struct device *net_eth_get_ptp_clock(struct net_if *iface); #else static inline const struct device *net_eth_get_ptp_clock(struct net_if *iface) { ARG_UNUSED(iface); return NULL; } #endif /** * @brief Return PTP clock that is tied to this ethernet network interface * index. * * @param index Network interface index * * @return Pointer to PTP clock if found, NULL if not found or if this * ethernet interface index does not support PTP. */ __syscall const struct device *net_eth_get_ptp_clock_by_index(int index); /** * @brief Return PTP port number attached to this interface. * * @param iface Network interface * * @return Port number, no such port if < 0 */ #if defined(CONFIG_NET_L2_PTP) int net_eth_get_ptp_port(struct net_if *iface); #else static inline int net_eth_get_ptp_port(struct net_if *iface) { ARG_UNUSED(iface); return -ENODEV; } #endif /* CONFIG_NET_L2_PTP */ /** * @brief Set PTP port number attached to this interface. * * @param iface Network interface * @param port Port number to set */ #if defined(CONFIG_NET_L2_PTP) void net_eth_set_ptp_port(struct net_if *iface, int port); #endif /* CONFIG_NET_L2_PTP */ /** * @} */ #ifdef __cplusplus } #endif #include <syscalls/ethernet.h> #endif /* ZEPHYR_INCLUDE_NET_ETHERNET_H_ */ |