void UavcanNode::cb_restart(const uavcan::ServiceCallResult<uavcan::protocol::RestartNode> &result) { uavcan::protocol::RestartNode::Response resp; _callback_success = result.isSuccessful(); resp = result.getResponse(); _callback_success &= resp.ok; }
void UavcanNode::cb_opcode(const uavcan::ServiceCallResult<uavcan::protocol::param::ExecuteOpcode> &result) { uavcan::protocol::param::ExecuteOpcode::Response resp; _callback_success = result.isSuccessful(); resp = result.getResponse(); _callback_success &= resp.ok; }
void handleResponse(const uavcan::ServiceCallResult<DataType>& result) { std::cout << result << std::endl; last_status = result.getStatus(); last_response = result.getResponse(); last_server_node_id = result.getCallID().server_node_id; responses.push(result.getResponse()); }
void handleReadResponse(const uavcan::ServiceCallResult<uavcan::protocol::file::Read>& result) { if (result.isSuccessful() && result.getResponse().error.value == 0) { auto& data = result.getResponse().data; image_.insert(image_.end(), data.begin(), data.end()); if (data.size() < data.capacity()) // Termination condition { status_ = Status::Success; uavcan::TimerBase::stop(); } } else { status_ = Status::Failure; uavcan::TimerBase::stop(); } }
void UavcanServers::cb_enumeration_begin(const uavcan::ServiceCallResult<uavcan::protocol::enumeration::Begin> &result) { uint8_t next_id = get_next_active_node_id(result.getCallID().server_node_id.get()); if (!result.isSuccessful()) { warnx("UAVCAN ESC enumeration: begin request for node %hhu timed out.", result.getCallID().server_node_id.get()); } else if (result.getResponse().error) { warnx("UAVCAN ESC enumeration: begin request for node %hhu rejected: %hhu", result.getCallID().server_node_id.get(), result.getResponse().error); } else { _esc_count++; warnx("UAVCAN ESC enumeration: begin request for node %hhu completed OK.", result.getCallID().server_node_id.get()); } if (next_id < 128) { // Still other active nodes to send the request to uavcan::protocol::enumeration::Begin::Request req; // TODO: Incorrect implementation; the parameter name field should be left empty. // Leaving it as-is to avoid breaking compatibility with non-compliant nodes. req.parameter_name = "esc_index"; req.timeout_sec = _esc_enumeration_active ? 65535 : 0; int call_res = _enumeration_client.call(next_id, req); if (call_res < 0) { warnx("UAVCAN ESC enumeration: couldn't send Begin request: %d", call_res); } else { warnx("UAVCAN ESC enumeration: sent Begin request"); } } else { warnx("UAVCAN ESC enumeration: begun enumeration on all nodes."); } }
void UavcanServers::cb_restart(const uavcan::ServiceCallResult<uavcan::protocol::RestartNode> &result) { bool success = result.isSuccessful(); uint8_t node_id = result.getCallID().server_node_id.get(); uavcan::protocol::RestartNode::Response resp = result.getResponse(); success &= resp.ok; _cmd_in_progress = false; if (success) { warnx("UAVCAN command bridge: restart request for node %hhu completed OK.", node_id); // Clear the dirty flag clear_node_params_dirty(node_id); } else { warnx("UAVCAN command bridge: restart request for node %hhu failed.", node_id); } // Get the next dirty node ID and send the same command to it node_id = get_next_dirty_node_id(node_id); if (node_id < 128) { param_opcode(node_id); } }
void UavcanServers::cb_opcode(const uavcan::ServiceCallResult<uavcan::protocol::param::ExecuteOpcode> &result) { bool success = result.isSuccessful(); uint8_t node_id = result.getCallID().server_node_id.get(); uavcan::protocol::param::ExecuteOpcode::Response resp = result.getResponse(); success &= resp.ok; _cmd_in_progress = false; if (!result.isSuccessful()) { warnx("UAVCAN command bridge: save request for node %hhu timed out.", node_id); } else if (!result.getResponse().ok) { warnx("UAVCAN command bridge: save request for node %hhu rejected.", node_id); } else { warnx("UAVCAN command bridge: save request for node %hhu completed OK, restarting.", node_id); uavcan::protocol::RestartNode::Request restart_req; restart_req.magic_number = restart_req.MAGIC_NUMBER; int call_res = _param_restartnode_client.call(node_id, restart_req); if (call_res < 0) { warnx("UAVCAN command bridge: couldn't send RestartNode: %d", call_res); } else { warnx("UAVCAN command bridge: sent RestartNode"); _cmd_in_progress = true; } } if (!_cmd_in_progress) { /* * Something went wrong, so cb_restart is never going to be called as a result of this request. * To ensure we try to execute the opcode on all nodes that permit it, get the next dirty node * ID and keep processing here. The dirty bit on the current node is still set, so the * save/erase attempt will occur when the next save/erase command is received over MAVLink. */ node_id = get_next_dirty_node_id(node_id); if (node_id < 128) { param_opcode(node_id); } } }
void UavcanServers::cb_enumeration_save(const uavcan::ServiceCallResult<uavcan::protocol::param::ExecuteOpcode> &result) { uavcan::equipment::indication::BeepCommand beep; if (!result.isSuccessful()) { warnx("UAVCAN ESC enumeration: save request for node %hhu timed out.", result.getCallID().server_node_id.get()); beep.frequency = 880.0f; beep.duration = 1.0f; } else if (!result.getResponse().ok) { warnx("UAVCAN ESC enumeration: save request for node %hhu rejected", result.getCallID().server_node_id.get()); beep.frequency = 880.0f; beep.duration = 1.0f; } else { warnx("UAVCAN ESC enumeration: save request for node %hhu completed OK.", result.getCallID().server_node_id.get()); beep.frequency = 440.0f; beep.duration = 0.25f; } (void)_beep_pub.broadcast(beep); warnx("UAVCAN ESC enumeration: completed %hhu of %hhu", _esc_enumeration_index, _esc_count); if (_esc_enumeration_index == uavcan::equipment::esc::RawCommand::FieldTypes::cmd::MaxSize - 1 || _esc_enumeration_index == _esc_count) { _esc_enumeration_active = false; // Tell all ESCs to stop enumerating uavcan::protocol::enumeration::Begin::Request req; req.parameter_name = "esc_index"; req.timeout_sec = 0; int call_res = _enumeration_client.call(get_next_active_node_id(1), req); if (call_res < 0) { warnx("UAVCAN ESC enumeration: couldn't send Begin request to stop enumeration: %d", call_res); } else { warnx("UAVCAN ESC enumeration: sent Begin request to stop enumeration"); } } }
void UavcanServers::cb_enumeration_save(const uavcan::ServiceCallResult<uavcan::protocol::param::ExecuteOpcode> &result) { const bool this_is_the_last_one = _esc_enumeration_index >= uavcan::equipment::esc::RawCommand::FieldTypes::cmd::MaxSize - 1 || _esc_enumeration_index >= _esc_count; if (!result.isSuccessful()) { warnx("UAVCAN ESC enumeration: save request for node %hhu timed out.", result.getCallID().server_node_id.get()); beep(BeepFrequencyError); } else if (!result.getResponse().ok) { warnx("UAVCAN ESC enumeration: save request for node %hhu rejected", result.getCallID().server_node_id.get()); beep(BeepFrequencyError); } else { warnx("UAVCAN ESC enumeration: save request for node %hhu completed OK.", result.getCallID().server_node_id.get()); beep(this_is_the_last_one ? BeepFrequencySuccess : BeepFrequencyGenericIndication); } warnx("UAVCAN ESC enumeration: completed %hhu of %hhu", _esc_enumeration_index, _esc_count); if (this_is_the_last_one) { _esc_enumeration_active = false; // Tell all ESCs to stop enumerating uavcan::protocol::enumeration::Begin::Request req; // TODO: Incorrect implementation; the parameter name field should be left empty. // Leaving it as-is to avoid breaking compatibility with non-compliant nodes. req.parameter_name = "esc_index"; req.timeout_sec = 0; int call_res = _enumeration_client.call(get_next_active_node_id(1), req); if (call_res < 0) { warnx("UAVCAN ESC enumeration: couldn't send Begin request to stop enumeration: %d", call_res); } else { warnx("UAVCAN ESC enumeration: sent Begin request to stop enumeration"); } } }
void UavcanServers::cb_enumeration_getset(const uavcan::ServiceCallResult<uavcan::protocol::param::GetSet> &result) { if (!result.isSuccessful()) { warnx("UAVCAN ESC enumeration: save request for node %hhu timed out.", result.getCallID().server_node_id.get()); } else { warnx("UAVCAN ESC enumeration: save request for node %hhu completed OK.", result.getCallID().server_node_id.get()); uavcan::protocol::param::GetSet::Response resp = result.getResponse(); uint8_t esc_index = (uint8_t)resp.value.to<uavcan::protocol::param::Value::Tag::integer_value>(); esc_index = std::min((uint8_t)(uavcan::equipment::esc::RawCommand::FieldTypes::cmd::MaxSize - 1), esc_index); _esc_enumeration_index = std::max(_esc_enumeration_index, (uint8_t)(esc_index + 1)); _esc_enumeration_ids[esc_index] = result.getCallID().server_node_id.get(); uavcan::protocol::param::ExecuteOpcode::Request opcode_req; opcode_req.opcode = opcode_req.OPCODE_SAVE; int call_res = _enumeration_save_client.call(result.getCallID().server_node_id, opcode_req); if (call_res < 0) { warnx("UAVCAN ESC enumeration: couldn't send ExecuteOpcode: %d", call_res); } else { warnx("UAVCAN ESC enumeration: sent ExecuteOpcode to node %hhu (index %hhu)", _esc_enumeration_ids[esc_index], esc_index); } } }
void handler(const uavcan::ServiceCallResult<DataType>& tmp_result) { std::cout << tmp_result << std::endl; result.reset(new Result(tmp_result.getStatus(), tmp_result.getCallID(), tmp_result.getResponse())); }
void config_client_cb(const uavcan::ServiceCallResult<cvra::motor::config::LoadConfiguration>& call_result) { if (!call_result.isSuccessful()) { chSysHalt("uavcan service call timeout"); } }
void UavcanServers::cb_getset(const uavcan::ServiceCallResult<uavcan::protocol::param::GetSet> &result) { if (_count_in_progress) { /* * Currently in parameter count mode: * Iterate over all parameters for the node to which the request was * originally sent, in order to find the maximum parameter ID. If a * request fails, set the node's parameter count to zero. */ uint8_t node_id = result.getCallID().server_node_id.get(); if (result.isSuccessful()) { uavcan::protocol::param::GetSet::Response resp = result.getResponse(); if (resp.name.size()) { _count_index++; _param_counts[node_id] = _count_index; uavcan::protocol::param::GetSet::Request req; req.index = _count_index; int call_res = _param_getset_client.call(result.getCallID().server_node_id, req); if (call_res < 0) { _count_in_progress = false; _count_index = 0; warnx("UAVCAN command bridge: couldn't send GetSet during param count: %d", call_res); beep(BeepFrequencyError); } } else { _count_in_progress = false; _count_index = 0; warnx("UAVCAN command bridge: completed param count for node %hhu: %hhu", node_id, _param_counts[node_id]); beep(BeepFrequencyGenericIndication); } } else { _param_counts[node_id] = 0; _count_in_progress = false; _count_index = 0; warnx("UAVCAN command bridge: GetSet error during param count"); } } else { /* * Currently in parameter get/set mode: * Publish a uORB uavcan_parameter_value message containing the current value * of the parameter. */ if (result.isSuccessful()) { uavcan::protocol::param::GetSet::Response param = result.getResponse(); struct uavcan_parameter_value_s response; response.node_id = result.getCallID().server_node_id.get(); strncpy(response.param_id, param.name.c_str(), sizeof(response.param_id) - 1); response.param_id[16] = '\0'; response.param_index = _param_index; response.param_count = _param_counts[response.node_id]; if (param.value.is(uavcan::protocol::param::Value::Tag::integer_value)) { response.param_type = MAV_PARAM_TYPE_INT64; response.int_value = param.value.to<uavcan::protocol::param::Value::Tag::integer_value>(); } else if (param.value.is(uavcan::protocol::param::Value::Tag::real_value)) { response.param_type = MAV_PARAM_TYPE_REAL32; response.real_value = param.value.to<uavcan::protocol::param::Value::Tag::real_value>(); } else if (param.value.is(uavcan::protocol::param::Value::Tag::boolean_value)) { response.param_type = MAV_PARAM_TYPE_UINT8; response.int_value = param.value.to<uavcan::protocol::param::Value::Tag::boolean_value>(); } if (_param_response_pub == nullptr) { _param_response_pub = orb_advertise(ORB_ID(uavcan_parameter_value), &response); } else { orb_publish(ORB_ID(uavcan_parameter_value), _param_response_pub, &response); } } else { warnx("UAVCAN command bridge: GetSet error"); } _param_in_progress = false; _param_index++; } }
void feedback_stream_pub_cb(const uavcan::ServiceCallResult<cvra::motor::config::FeedbackStream>& call_result) { if (!call_result.isSuccessful()) { chSysHalt("uavcan service call timeout"); } }
void enable_client_cb(const uavcan::ServiceCallResult<cvra::motor::config::EnableMotor>& call_result) { if (!call_result.isSuccessful()) { chSysHalt("uavcan service call timeout"); } }
void UavcanNode::cb_setget(const uavcan::ServiceCallResult<uavcan::protocol::param::GetSet> &result) { _callback_success = result.isSuccessful(); *_setget_response = result.getResponse(); }
void current_pid_client_cb(const uavcan::ServiceCallResult<cvra::motor::config::CurrentPID>& call_result) { if (!call_result.isSuccessful()) { chSysHalt("uavcan service call timeout"); } }