/* * Copyright (c) 2019 Alexander Wachter * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include LOG_MODULE_REGISTER(net_can, CONFIG_CAN_NET_LOG_LEVEL); struct mcast_filter_mapping { const struct in6_addr *addr; int filter_id; }; struct net_can_context { const struct device *can_dev; struct net_if *iface; int recv_filter_id; struct mcast_filter_mapping mcast_mapping[NET_IF_MAX_IPV6_MADDR]; #ifdef CONFIG_NET_L2_CANBUS_ETH_TRANSLATOR int eth_bridge_filter_id; int all_mcast_filter_id; #endif }; static struct net_if_mcast_monitor mcast_monitor; struct mcast_filter_mapping *can_get_mcast_filter(struct net_can_context *ctx, const struct in6_addr *addr) { struct mcast_filter_mapping *map = ctx->mcast_mapping; for (int i = 0; i < NET_IF_MAX_IPV6_MADDR; i++) { if (map[i].addr == addr) { return &map[i]; } } return NULL; } static inline uint8_t can_get_frame_datalength(struct zcan_frame *frame) { /* TODO: Needs update when CAN FD support is added */ return frame->dlc; } static inline uint16_t can_get_lladdr_src(struct zcan_frame *frame) { return (frame->id >> CAN_NET_IF_ADDR_SRC_POS) & CAN_NET_IF_ADDR_MASK; } static inline uint16_t can_get_lladdr_dest(struct zcan_frame *frame) { uint16_t addr = (frame->id >> CAN_NET_IF_ADDR_DEST_POS) & CAN_NET_IF_ADDR_MASK; if (frame->id & CAN_NET_IF_ADDR_MCAST_MASK) { addr |= CAN_NET_IF_IS_MCAST_BIT; } return addr; } static inline void can_set_lladdr(struct net_pkt *pkt, struct zcan_frame *frame) { struct net_buf *buf = pkt->buffer; /* Put the destination at the beginning of the pkt. * The net_canbus_lladdr has a size if 14 bits. To convert it to * network byte order, we treat it as 16 bits here. */ net_pkt_lladdr_dst(pkt)->addr = buf->data; net_pkt_lladdr_dst(pkt)->len = sizeof(struct net_canbus_lladdr); net_pkt_lladdr_dst(pkt)->type = NET_LINK_CANBUS; net_buf_add_be16(buf, can_get_lladdr_dest(frame)); net_buf_pull(buf, sizeof(uint16_t)); /* Do the same as above for the source address */ net_pkt_lladdr_src(pkt)->addr = buf->data; net_pkt_lladdr_src(pkt)->len = sizeof(struct net_canbus_lladdr); net_pkt_lladdr_src(pkt)->type = NET_LINK_CANBUS; net_buf_add_be16(buf, can_get_lladdr_src(frame)); net_buf_pull(buf, sizeof(uint16_t)); } static int net_can_send(const struct device *dev, const struct zcan_frame *frame, can_tx_callback_t cb, void *cb_arg, k_timeout_t timeout) { struct net_can_context *ctx = dev->data; NET_ASSERT(frame->id_type == CAN_EXTENDED_IDENTIFIER); return can_send(ctx->can_dev, frame, timeout, cb, cb_arg); } static void net_can_recv(struct zcan_frame *frame, void *arg) { struct net_can_context *ctx = (struct net_can_context *)arg; size_t pkt_size = 2 * sizeof(struct net_canbus_lladdr) + can_get_frame_datalength(frame); struct net_pkt *pkt; int ret; NET_DBG("Frame with ID 0x%x received", frame->id); pkt = net_pkt_rx_alloc_with_buffer(ctx->iface, pkt_size, AF_UNSPEC, 0, K_NO_WAIT); if (!pkt) { LOG_ERR("Failed to obtain net_pkt with size of %d", pkt_size); goto drop; } pkt->canbus_rx_ctx = NULL; can_set_lladdr(pkt, frame); net_pkt_cursor_init(pkt); ret = net_pkt_write(pkt, frame->data, can_get_frame_datalength(frame)); if (ret) { LOG_ERR("Failed to append frame data to net_pkt"); goto drop; } ret = net_recv_data(ctx->iface, pkt); if (ret < 0) { LOG_ERR("Packet dropped by NET stack"); goto drop; } return; drop: NET_INFO("pkt dropped"); if (pkt) { net_pkt_unref(pkt); } } static inline int attach_mcast_filter(struct net_can_context *ctx, const struct in6_addr *addr) { static struct zcan_filter filter = { .id_type = CAN_EXTENDED_IDENTIFIER, .rtr = CAN_DATAFRAME, .rtr_mask = 1, .id_mask = CAN_NET_IF_ADDR_MCAST_MASK | CAN_NET_IF_ADDR_DEST_MASK }; const uint16_t group = sys_be16_to_cpu(UNALIGNED_GET((&addr->s6_addr16[7]))); int filter_id; filter.id = CAN_NET_IF_ADDR_MCAST_MASK | ((group & CAN_NET_IF_ADDR_MASK) << CAN_NET_IF_ADDR_DEST_POS); filter_id = can_attach_isr(ctx->can_dev, net_can_recv, ctx, &filter); if (filter_id == CAN_NET_FILTER_NOT_SET) { return CAN_NET_FILTER_NOT_SET; } NET_DBG("Attached mcast filter. Group 0x%04x. Filter:%d", group, filter_id); return filter_id; } static void mcast_cb(struct net_if *iface, const struct net_addr *addr, bool is_joined) { const struct device *dev = net_if_get_device(iface); struct net_can_context *ctx = dev->data; struct mcast_filter_mapping *filter_mapping; int filter_id; if (addr->family != AF_INET6) { return; } if (is_joined) { filter_mapping = can_get_mcast_filter(ctx, NULL); if (!filter_mapping) { NET_ERR("Can't get a free filter_mapping"); } filter_id = attach_mcast_filter(ctx, addr->in6_addr); if (filter_id < 0) { NET_ERR("Can't attach mcast filter"); return; } filter_mapping->addr = addr->in6_addr; filter_mapping->filter_id = filter_id; } else { filter_mapping = can_get_mcast_filter(ctx, addr->in6_addr); if (!filter_mapping) { NET_ERR("No filter mapping found"); return; } can_detach(ctx->can_dev, filter_mapping->filter_id); filter_mapping->addr = NULL; } } static void net_can_iface_init(struct net_if *iface) { const struct device *dev = net_if_get_device(iface); struct net_can_context *ctx = dev->data; ctx->iface = iface; NET_DBG("Init CAN network interface %p dev %p", iface, dev); net_6locan_init(iface); net_if_mcast_mon_register(&mcast_monitor, iface, mcast_cb); } static int can_attach_filter(const struct device *dev, can_rx_callback_t cb, void *cb_arg, const struct zcan_filter *filter) { struct net_can_context *ctx = dev->data; return can_attach_isr(ctx->can_dev, cb, cb_arg, filter); } static void can_detach_filter(const struct device *dev, int filter_id) { struct net_can_context *ctx = dev->data; if (filter_id >= 0) { can_detach(ctx->can_dev, filter_id); } } static inline int can_attach_unicast_filter(struct net_can_context *ctx) { struct zcan_filter filter = { .id_type = CAN_EXTENDED_IDENTIFIER, .rtr = CAN_DATAFRAME, .rtr_mask = 1, .id_mask = CAN_NET_IF_ADDR_DEST_MASK }; const uint8_t *link_addr = net_if_get_link_addr(ctx->iface)->addr; const uint16_t dest = sys_be16_to_cpu(UNALIGNED_GET((uint16_t *) link_addr)); int filter_id; filter.id = (dest << CAN_NET_IF_ADDR_DEST_POS); filter_id = can_attach_isr(ctx->can_dev, net_can_recv, ctx, &filter); if (filter_id == CAN_NET_FILTER_NOT_SET) { NET_ERR("Can't attach FF filter"); return CAN_NET_FILTER_NOT_SET; } NET_DBG("Attached FF filter %d", filter_id); return filter_id; } #ifdef CONFIG_NET_L2_CANBUS_ETH_TRANSLATOR static inline int can_attach_eth_bridge_filter(struct net_can_context *ctx) { const struct zcan_filter filter = { .id_type = CAN_EXTENDED_IDENTIFIER, .rtr = CAN_DATAFRAME, .rtr_mask = 1, .id_mask = CAN_NET_IF_ADDR_DEST_MASK, .id = (NET_CAN_ETH_TRANSLATOR_ADDR << CAN_NET_IF_ADDR_DEST_POS) }; int filter_id; filter_id = can_attach_isr(ctx->can_dev, net_can_recv, ctx, &filter); if (filter_id == CAN_NET_FILTER_NOT_SET) { NET_ERR("Can't attach ETH bridge filter"); return CAN_NET_FILTER_NOT_SET; } NET_DBG("Attached ETH bridge filter %d", filter_id); return filter_id; } static inline int can_attach_all_mcast_filter(struct net_can_context *ctx) { const struct zcan_filter filter = { .id_type = CAN_EXTENDED_IDENTIFIER, .rtr = CAN_DATAFRAME, .rtr_mask = 1, .id_mask = CAN_NET_IF_ADDR_MCAST_MASK, .id = CAN_NET_IF_ADDR_MCAST_MASK }; int filter_id; filter_id = can_attach_isr(ctx->can_dev, net_can_recv, ctx, &filter); if (filter_id == CAN_NET_FILTER_NOT_SET) { NET_ERR("Can't attach all mcast filter"); return CAN_NET_FILTER_NOT_SET; } NET_DBG("Attached all mcast filter %d", filter_id); return filter_id; } #endif /*CONFIG_NET_L2_CANBUS_ETH_TRANSLATOR*/ static int can_enable(const struct device *dev, bool enable) { struct net_can_context *ctx = dev->data; if (enable) { if (ctx->recv_filter_id == CAN_NET_FILTER_NOT_SET) { ctx->recv_filter_id = can_attach_unicast_filter(ctx); if (ctx->recv_filter_id < 0) { return -EIO; } } #ifdef CONFIG_NET_L2_CANBUS_ETH_TRANSLATOR if (ctx->eth_bridge_filter_id == CAN_NET_FILTER_NOT_SET) { ctx->eth_bridge_filter_id = can_attach_eth_bridge_filter(ctx); if (ctx->eth_bridge_filter_id < 0) { can_detach(ctx->can_dev, ctx->recv_filter_id); return -EIO; } } if (ctx->all_mcast_filter_id == CAN_NET_FILTER_NOT_SET) { ctx->all_mcast_filter_id = can_attach_all_mcast_filter(ctx); if (ctx->all_mcast_filter_id < 0) { can_detach(ctx->can_dev, ctx->recv_filter_id); can_detach(ctx->can_dev, ctx->eth_bridge_filter_id); return -EIO; } } #endif /*CONFIG_NET_L2_CANBUS_ETH_TRANSLATOR*/ } else { if (ctx->recv_filter_id != CAN_NET_FILTER_NOT_SET) { can_detach(ctx->can_dev, ctx->recv_filter_id); } #ifdef CONFIG_NET_L2_CANBUS_ETH_TRANSLATOR if (ctx->eth_bridge_filter_id != CAN_NET_FILTER_NOT_SET) { can_detach(ctx->can_dev, ctx->eth_bridge_filter_id); } if (ctx->all_mcast_filter_id != CAN_NET_FILTER_NOT_SET) { can_detach(ctx->can_dev, ctx->all_mcast_filter_id); } #endif /*CONFIG_NET_L2_CANBUS_ETH_TRANSLATOR*/ } return 0; } static struct net_can_api net_can_api_inst = { .iface_api.init = net_can_iface_init, .send = net_can_send, .attach_filter = can_attach_filter, .detach_filter = can_detach_filter, .enable = can_enable, }; static int net_can_init(const struct device *dev) { const struct device *can_dev; struct net_can_context *ctx = dev->data; can_dev = device_get_binding(DT_CHOSEN_ZEPHYR_CAN_PRIMARY_LABEL); ctx->recv_filter_id = CAN_NET_FILTER_NOT_SET; #ifdef CONFIG_NET_L2_CANBUS_ETH_TRANSLATOR ctx->eth_bridge_filter_id = CAN_NET_FILTER_NOT_SET; ctx->all_mcast_filter_id = CAN_NET_FILTER_NOT_SET; #endif /*CONFIG_NET_L2_CANBUS_ETH_TRANSLATOR*/ if (!can_dev) { NET_ERR("Can't get binding to CAN device %s", DT_CHOSEN_ZEPHYR_CAN_PRIMARY_LABEL); return -EIO; } NET_DBG("Init net CAN device %p (%s) for dev %p (%s)", dev, dev->name, can_dev, can_dev->name); ctx->can_dev = can_dev; return 0; } static struct net_can_context net_can_context_1; NET_DEVICE_INIT(net_can_1, CONFIG_CAN_NET_NAME, net_can_init, NULL, &net_can_context_1, NULL, CONFIG_CAN_NET_INIT_PRIORITY, &net_can_api_inst, CANBUS_L2, NET_L2_GET_CTX_TYPE(CANBUS_L2), NET_CAN_MTU);