/* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /// @file MAVLink_routing.h /// @brief handle routing of MAVLink packets by sysid/componentid #include "GCS_config.h" #if HAL_GCS_ENABLED #include #include #include #include "GCS.h" #include "MAVLink_routing.h" #include extern const AP_HAL::HAL& hal; #define ROUTING_DEBUG 0 // constructor MAVLink_routing::MAVLink_routing(void) : num_routes(0) {} /* forward a MAVLink message to the right port. This also automatically learns the route for the sender if it is not already known. This returns true if the message should be processed locally Theory of MAVLink routing: When a flight controller receives a message it should process it locally if any of these conditions hold: 1a) the message has no target_system field 1b) the message has a target_system of zero 1c) the message has the flight controllers target system and has no target_component field 1d) the message has the flight controllers target system and has the flight controllers target_component 1e) the message has the flight controllers target system and the flight controller has not seen any messages on any of its links from a system that has the messages target_system/target_component combination When a flight controller receives a message it should forward it onto another different link if any of these conditions hold for that link: 2a) the message has no target_system field 2b) the message has a target_system of zero 2c) the message does not have the flight controllers target_system and the flight controller has seen a message from the messages target_system on the link 2d) the message has the flight controllers target_system and has a target_component field and the flight controllers has seen a message from the target_system/target_component combination on the link Note: This proposal assumes that ground stations will not send command packets to a non-broadcast destination (sysid/compid combination) until they have received at least one package from that destination over the link. This is essential to prevent a flight controller from acting on a message that is not meant for it. For example, a PARAM_SET cannot be sent to a specific sysid/compid combination until the GCS has seen a packet from that sysid/compid combination on the link. The GCS must also reset what sysid/compid combinations it has seen on a link when it sees a SYSTEM_TIME message with a decrease in time_boot_ms from a particular sysid/compid. That is essential to detect a reset of the flight controller, which implies a reset of its routing table. */ bool MAVLink_routing::check_and_forward(GCS_MAVLINK &in_link, const mavlink_message_t &msg) { #if HAL_SOLO_GIMBAL_ENABLED // check if a Gopro is connected. If yes, we allow the routing // of mavlink messages to a private channel (Solo Gimbal case) if (!gopro_status_check && (msg.msgid == MAVLINK_MSG_ID_GOPRO_HEARTBEAT)) { gopro_status_check = true; gcs().send_text(MAV_SEVERITY_NOTICE, "GoPro in Solo gimbal detected"); } #endif // HAL_SOLO_GIMBAL_ENABLED // handle the case of loopback of our own messages, due to // incorrect serial configuration. if (msg.sysid == mavlink_system.sysid && msg.compid == mavlink_system.compid) { return false; } // learn new routes including private channels // so that find_mav_type works for all channels learn_route(in_link, msg); if (msg.msgid == MAVLINK_MSG_ID_RADIO || msg.msgid == MAVLINK_MSG_ID_RADIO_STATUS) { // don't forward RADIO packets return true; } const bool from_private_channel = in_link.is_private(); if (msg.msgid == MAVLINK_MSG_ID_HEARTBEAT) { // heartbeat needs special handling if (!from_private_channel) { handle_heartbeat(in_link, msg); } return true; } #if HAL_ADSB_ENABLED if (msg.msgid == MAVLINK_MSG_ID_ADSB_VEHICLE) { // if enabled ADSB packets are not forwarded, they have their own stream rate const AP_ADSB *adsb = AP::ADSB(); if ((adsb != nullptr) && (adsb->enabled())) { return true; } } #endif // extract the targets for this packet int16_t target_system = -1; int16_t target_component = -1; get_targets(msg, target_system, target_component); bool broadcast_system = (target_system == 0 || target_system == -1); bool broadcast_component = (target_component == 0 || target_component == -1); bool match_system = broadcast_system || (target_system == mavlink_system.sysid); bool match_component = match_system && (broadcast_component || (target_component == mavlink_system.compid)); bool process_locally = match_system && match_component; // don't ever forward data from a private channel // unless a Gopro camera is connected to a Solo gimbal bool should_process_locally = from_private_channel; #if HAL_SOLO_GIMBAL_ENABLED if (gopro_status_check) { should_process_locally = false; } #endif if (should_process_locally) { return process_locally; } if (process_locally && !broadcast_system && !broadcast_component) { // nothing more to do - it can only be for us return true; } // forward on any channels matching the targets bool forwarded = false; bool sent_to_chan[MAVLINK_COMM_NUM_BUFFERS]; memset(sent_to_chan, 0, sizeof(sent_to_chan)); for (uint8_t i=0; iis_private() && (target_system != routes[i].sysid || target_component != routes[i].compid)) { continue; } if (broadcast_system || (target_system == routes[i].sysid && (broadcast_component || target_component == routes[i].compid || !match_system))) { if (&in_link != out_link && !sent_to_chan[routes[i].channel]) { if (out_link->check_payload_size(msg.len)) { #if ROUTING_DEBUG ::printf("fwd msg %u from chan %u on chan %u sysid=%d compid=%d\n", msg.msgid, (unsigned)in_link->get_chan(), (unsigned)routes[i].channel, (int)target_system, (int)target_component); #endif _mavlink_resend_uart(routes[i].channel, &msg); } sent_to_chan[routes[i].channel] = true; forwarded = true; } } } if ((!forwarded && match_system) || broadcast_system) { process_locally = true; } return process_locally; } /* send a MAVLink message to all components with this vehicle's system id This is a no-op if no routes to components have been learned */ void MAVLink_routing::send_to_components(uint32_t msgid, const char *pkt, uint8_t pkt_len) { const mavlink_msg_entry_t *entry = mavlink_get_msg_entry(msgid); if (entry == nullptr) { return; } send_to_components(pkt, entry, pkt_len); } void MAVLink_routing::send_to_components(const char *pkt, const mavlink_msg_entry_t *entry, const uint8_t pkt_len) { bool sent_to_chan[MAVLINK_COMM_NUM_BUFFERS] {}; // check learned routes for (uint8_t i=0; imax_msg_len) + GCS_MAVLINK::packet_overhead_chan(routes[i].channel)) { // it doesn't fit on this channel continue; } #if ROUTING_DEBUG ::printf("send msg %u on chan %u sysid=%u compid=%u\n", entry->msgid, (unsigned)routes[i].channel, (unsigned)routes[i].sysid, (unsigned)routes[i].compid); #endif #if CONFIG_HAL_BOARD == HAL_BOARD_SITL if (entry->max_msg_len > pkt_len) { AP_HAL::panic("Passed packet message length (%u > %u)", entry->max_msg_len, pkt_len); } #endif _mav_finalize_message_chan_send(routes[i].channel, entry->msgid, pkt, entry->min_msg_len, MIN(entry->max_msg_len, pkt_len), entry->crc_extra); sent_to_chan[routes[i].channel] = true; } } /* search for the first vehicle or component in the routing table with given mav_type and retrieve it's sysid, compid and channel returns true if a match is found */ bool MAVLink_routing::find_by_mavtype(uint8_t mavtype, uint8_t &sysid, uint8_t &compid, mavlink_channel_t &channel) { // check learned routes for (uint8_t i=0; i= ((uint16_t)msg.len) + GCS_MAVLINK::packet_overhead_chan(channel)) { #if ROUTING_DEBUG ::printf("fwd HB from chan %u on chan %u from sysid=%u compid=%u\n", (unsigned)in_channel, (unsigned)channel, (unsigned)msg.sysid, (unsigned)msg.compid); #endif _mavlink_resend_uart(channel, &msg); } } } } /* extract target sysid and compid from a message. int16_t is used so that the caller can set them to -1 and know when a sysid or compid target is found in the message */ void MAVLink_routing::get_targets(const mavlink_message_t &msg, int16_t &sysid, int16_t &compid) { const mavlink_msg_entry_t *msg_entry = mavlink_get_msg_entry(msg.msgid); if (msg_entry == nullptr) { return; } if (msg_entry->flags & MAV_MSG_ENTRY_FLAG_HAVE_TARGET_SYSTEM) { sysid = _MAV_RETURN_uint8_t(&msg, msg_entry->target_system_ofs); } if (msg_entry->flags & MAV_MSG_ENTRY_FLAG_HAVE_TARGET_COMPONENT) { compid = _MAV_RETURN_uint8_t(&msg, msg_entry->target_component_ofs); } } #endif // HAL_GCS_ENABLED