// // Copyright (C) 2019-2021 Swift Navigation Inc. // Contact: https://support.swiftnav.com // // This source is subject to the license found in the file 'LICENSE' which must // be distributed together with this source. All other rights reserved. // // THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY KIND, // EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED // WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A PARTICULAR PURPOSE. // This file was auto-generated from spec/tests/yaml/swiftnav/sbp/ssr/test_MsgSsrOrbitClockBounds.yaml by generate.py. Do not modify by hand! use crate::*; /// Tests [`sbp::iter_messages`], from payload into SBP messages /// /// Asserts: /// - SBP fields equates to that of the field /// - Payload is identical #[test] fn test_auto_check_sbp_ssr_msg_ssr_orbit_clock_bounds() { { let mut payload = Cursor::new(vec![ 85, 222, 5, 66, 0, 31, 180, 0, 0, 0, 3, 0, 1, 2, 3, 48, 15, 1, 2, 24, 39, 38, 37, 1, 2, 3, 39, 1, 3, 39, 38, 37, 1, 2, 3, 39, 1, 21, 85, ]); // Test the round trip payload parsing let sbp_msg = { let mut msgs = iter_messages(&mut payload); msgs.next() .expect("no message found") .expect("failed to parse message") }; match &sbp_msg { sbp::messages::Sbp::MsgSsrOrbitClockBounds(msg) => { let msg_type = msg.message_type().unwrap(); assert_eq!( msg_type, 1502, "Incorrect message type, expected 1502, is {}", msg_type ); let sender_id = msg.sender_id().unwrap(); assert_eq!( sender_id, 0x0042, "incorrect sender id, expected 0x0042, is {sender_id}" ); assert_eq!( msg.const_id, 1, "incorrect value for const_id, expected 1, is {}", msg.const_id ); assert_eq!( msg.header.num_msgs, 1, "incorrect value for header.num_msgs, expected 1, is {}", msg.header.num_msgs ); assert_eq!( msg.header.seq_num, 2, "incorrect value for header.seq_num, expected 2, is {}", msg.header.seq_num ); assert_eq!( msg.header.sol_id, 48, "incorrect value for header.sol_id, expected 48, is {}", msg.header.sol_id ); assert_eq!( msg.header.time.tow, 180, "incorrect value for header.time.tow, expected 180, is {}", msg.header.time.tow ); assert_eq!( msg.header.time.wn, 3, "incorrect value for header.time.wn, expected 3, is {}", msg.header.time.wn ); assert_eq!( msg.header.update_interval, 3, "incorrect value for header.update_interval, expected 3, is {}", msg.header.update_interval ); assert_eq!( msg.n_sats, 2, "incorrect value for n_sats, expected 2, is {}", msg.n_sats ); assert_eq!( msg.orbit_clock_bounds[0].clock_bound_mu, 39, "incorrect value for orbit_clock_bounds[0].clock_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[0].clock_bound_mu ); assert_eq!( msg.orbit_clock_bounds[0].clock_bound_sig, 1, "incorrect value for orbit_clock_bounds[0].clock_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[0].clock_bound_sig ); assert_eq!(msg.orbit_clock_bounds[0].orb_along_bound_mu, 38, "incorrect value for orbit_clock_bounds[0].orb_along_bound_mu, expected 38, is {}", msg.orbit_clock_bounds[0].orb_along_bound_mu); assert_eq!(msg.orbit_clock_bounds[0].orb_along_bound_sig, 2, "incorrect value for orbit_clock_bounds[0].orb_along_bound_sig, expected 2, is {}", msg.orbit_clock_bounds[0].orb_along_bound_sig); assert_eq!(msg.orbit_clock_bounds[0].orb_cross_bound_mu, 37, "incorrect value for orbit_clock_bounds[0].orb_cross_bound_mu, expected 37, is {}", msg.orbit_clock_bounds[0].orb_cross_bound_mu); assert_eq!(msg.orbit_clock_bounds[0].orb_cross_bound_sig, 3, "incorrect value for orbit_clock_bounds[0].orb_cross_bound_sig, expected 3, is {}", msg.orbit_clock_bounds[0].orb_cross_bound_sig); assert_eq!(msg.orbit_clock_bounds[0].orb_radial_bound_mu, 39, "incorrect value for orbit_clock_bounds[0].orb_radial_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[0].orb_radial_bound_mu); assert_eq!(msg.orbit_clock_bounds[0].orb_radial_bound_sig, 1, "incorrect value for orbit_clock_bounds[0].orb_radial_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[0].orb_radial_bound_sig); assert_eq!( msg.orbit_clock_bounds[0].sat_id, 24, "incorrect value for orbit_clock_bounds[0].sat_id, expected 24, is {}", msg.orbit_clock_bounds[0].sat_id ); assert_eq!( msg.orbit_clock_bounds[1].clock_bound_mu, 39, "incorrect value for orbit_clock_bounds[1].clock_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[1].clock_bound_mu ); assert_eq!( msg.orbit_clock_bounds[1].clock_bound_sig, 1, "incorrect value for orbit_clock_bounds[1].clock_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[1].clock_bound_sig ); assert_eq!(msg.orbit_clock_bounds[1].orb_along_bound_mu, 38, "incorrect value for orbit_clock_bounds[1].orb_along_bound_mu, expected 38, is {}", msg.orbit_clock_bounds[1].orb_along_bound_mu); assert_eq!(msg.orbit_clock_bounds[1].orb_along_bound_sig, 2, "incorrect value for orbit_clock_bounds[1].orb_along_bound_sig, expected 2, is {}", msg.orbit_clock_bounds[1].orb_along_bound_sig); assert_eq!(msg.orbit_clock_bounds[1].orb_cross_bound_mu, 37, "incorrect value for orbit_clock_bounds[1].orb_cross_bound_mu, expected 37, is {}", msg.orbit_clock_bounds[1].orb_cross_bound_mu); assert_eq!(msg.orbit_clock_bounds[1].orb_cross_bound_sig, 3, "incorrect value for orbit_clock_bounds[1].orb_cross_bound_sig, expected 3, is {}", msg.orbit_clock_bounds[1].orb_cross_bound_sig); assert_eq!(msg.orbit_clock_bounds[1].orb_radial_bound_mu, 39, "incorrect value for orbit_clock_bounds[1].orb_radial_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[1].orb_radial_bound_mu); assert_eq!(msg.orbit_clock_bounds[1].orb_radial_bound_sig, 1, "incorrect value for orbit_clock_bounds[1].orb_radial_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[1].orb_radial_bound_sig); assert_eq!( msg.orbit_clock_bounds[1].sat_id, 3, "incorrect value for orbit_clock_bounds[1].sat_id, expected 3, is {}", msg.orbit_clock_bounds[1].sat_id ); assert_eq!( msg.ssr_iod, 15, "incorrect value for ssr_iod, expected 15, is {}", msg.ssr_iod ); } _ => panic!("Invalid message type! Expected a MsgSsrOrbitClockBounds"), }; let frame = sbp::to_vec(&sbp_msg).unwrap(); assert_eq!(frame, payload.into_inner()); } } /// Tests [`sbp::json::iter_messages`] for JSON payload -> SBP message /// and [`sbp::json::iter_messages_from_fields`] for JSON fields -> SBP message. /// /// Asserts: /// - SBP message constructed via payload is identical to from fields /// - SBP fields equates to that of the field /// - Payload is identical #[test] #[cfg(feature = "json")] fn test_json2sbp_auto_check_sbp_ssr_msg_ssr_orbit_clock_bounds() { { let json_input = r#"{"header": {"time": {"tow": 180, "wn": 3}, "num_msgs": 1, "seq_num": 2, "update_interval": 3, "sol_id": 48}, "ssr_iod": 15, "const_id": 1, "n_sats": 2, "orbit_clock_bounds": [{"sat_id": 24, "orb_radial_bound_mu": 39, "orb_along_bound_mu": 38, "orb_cross_bound_mu": 37, "orb_radial_bound_sig": 1, "orb_along_bound_sig": 2, "orb_cross_bound_sig": 3, "clock_bound_mu": 39, "clock_bound_sig": 1}, {"sat_id": 3, "orb_radial_bound_mu": 39, "orb_along_bound_mu": 38, "orb_cross_bound_mu": 37, "orb_radial_bound_sig": 1, "orb_along_bound_sig": 2, "orb_cross_bound_sig": 3, "clock_bound_mu": 39, "clock_bound_sig": 1}], "preamble": 85, "msg_type": 1502, "sender": 66, "length": 31, "payload": "tAAAAAMAAQIDMA8BAhgnJiUBAgMnAQMnJiUBAgMnAQ==", "crc": 21781}"#.as_bytes(); let sbp_msg = { // JSON to SBP message from payload let mut iter = json2sbp_iter_msg(json_input); let from_payload = iter .next() .expect("no message found") .expect("failed to parse message"); // JSON to SBP message from fields let mut iter = iter_messages_from_fields(json_input); let from_fields = iter .next() .expect("no message found") .expect("failed to parse message"); assert_eq!(from_fields, from_payload); from_fields }; match &sbp_msg { sbp::messages::Sbp::MsgSsrOrbitClockBounds(msg) => { let msg_type = msg.message_type().unwrap(); assert_eq!( msg_type, 1502, "Incorrect message type, expected 1502, is {}", msg_type ); let sender_id = msg.sender_id().unwrap(); assert_eq!( sender_id, 0x0042, "incorrect sender id, expected 0x0042, is {sender_id}" ); assert_eq!( msg.const_id, 1, "incorrect value for const_id, expected 1, is {}", msg.const_id ); assert_eq!( msg.header.num_msgs, 1, "incorrect value for header.num_msgs, expected 1, is {}", msg.header.num_msgs ); assert_eq!( msg.header.seq_num, 2, "incorrect value for header.seq_num, expected 2, is {}", msg.header.seq_num ); assert_eq!( msg.header.sol_id, 48, "incorrect value for header.sol_id, expected 48, is {}", msg.header.sol_id ); assert_eq!( msg.header.time.tow, 180, "incorrect value for header.time.tow, expected 180, is {}", msg.header.time.tow ); assert_eq!( msg.header.time.wn, 3, "incorrect value for header.time.wn, expected 3, is {}", msg.header.time.wn ); assert_eq!( msg.header.update_interval, 3, "incorrect value for header.update_interval, expected 3, is {}", msg.header.update_interval ); assert_eq!( msg.n_sats, 2, "incorrect value for n_sats, expected 2, is {}", msg.n_sats ); assert_eq!( msg.orbit_clock_bounds[0].clock_bound_mu, 39, "incorrect value for orbit_clock_bounds[0].clock_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[0].clock_bound_mu ); assert_eq!( msg.orbit_clock_bounds[0].clock_bound_sig, 1, "incorrect value for orbit_clock_bounds[0].clock_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[0].clock_bound_sig ); assert_eq!(msg.orbit_clock_bounds[0].orb_along_bound_mu, 38, "incorrect value for orbit_clock_bounds[0].orb_along_bound_mu, expected 38, is {}", msg.orbit_clock_bounds[0].orb_along_bound_mu); assert_eq!(msg.orbit_clock_bounds[0].orb_along_bound_sig, 2, "incorrect value for orbit_clock_bounds[0].orb_along_bound_sig, expected 2, is {}", msg.orbit_clock_bounds[0].orb_along_bound_sig); assert_eq!(msg.orbit_clock_bounds[0].orb_cross_bound_mu, 37, "incorrect value for orbit_clock_bounds[0].orb_cross_bound_mu, expected 37, is {}", msg.orbit_clock_bounds[0].orb_cross_bound_mu); assert_eq!(msg.orbit_clock_bounds[0].orb_cross_bound_sig, 3, "incorrect value for orbit_clock_bounds[0].orb_cross_bound_sig, expected 3, is {}", msg.orbit_clock_bounds[0].orb_cross_bound_sig); assert_eq!(msg.orbit_clock_bounds[0].orb_radial_bound_mu, 39, "incorrect value for orbit_clock_bounds[0].orb_radial_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[0].orb_radial_bound_mu); assert_eq!(msg.orbit_clock_bounds[0].orb_radial_bound_sig, 1, "incorrect value for orbit_clock_bounds[0].orb_radial_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[0].orb_radial_bound_sig); assert_eq!( msg.orbit_clock_bounds[0].sat_id, 24, "incorrect value for orbit_clock_bounds[0].sat_id, expected 24, is {}", msg.orbit_clock_bounds[0].sat_id ); assert_eq!( msg.orbit_clock_bounds[1].clock_bound_mu, 39, "incorrect value for orbit_clock_bounds[1].clock_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[1].clock_bound_mu ); assert_eq!( msg.orbit_clock_bounds[1].clock_bound_sig, 1, "incorrect value for orbit_clock_bounds[1].clock_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[1].clock_bound_sig ); assert_eq!(msg.orbit_clock_bounds[1].orb_along_bound_mu, 38, "incorrect value for orbit_clock_bounds[1].orb_along_bound_mu, expected 38, is {}", msg.orbit_clock_bounds[1].orb_along_bound_mu); assert_eq!(msg.orbit_clock_bounds[1].orb_along_bound_sig, 2, "incorrect value for orbit_clock_bounds[1].orb_along_bound_sig, expected 2, is {}", msg.orbit_clock_bounds[1].orb_along_bound_sig); assert_eq!(msg.orbit_clock_bounds[1].orb_cross_bound_mu, 37, "incorrect value for orbit_clock_bounds[1].orb_cross_bound_mu, expected 37, is {}", msg.orbit_clock_bounds[1].orb_cross_bound_mu); assert_eq!(msg.orbit_clock_bounds[1].orb_cross_bound_sig, 3, "incorrect value for orbit_clock_bounds[1].orb_cross_bound_sig, expected 3, is {}", msg.orbit_clock_bounds[1].orb_cross_bound_sig); assert_eq!(msg.orbit_clock_bounds[1].orb_radial_bound_mu, 39, "incorrect value for orbit_clock_bounds[1].orb_radial_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[1].orb_radial_bound_mu); assert_eq!(msg.orbit_clock_bounds[1].orb_radial_bound_sig, 1, "incorrect value for orbit_clock_bounds[1].orb_radial_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[1].orb_radial_bound_sig); assert_eq!( msg.orbit_clock_bounds[1].sat_id, 3, "incorrect value for orbit_clock_bounds[1].sat_id, expected 3, is {}", msg.orbit_clock_bounds[1].sat_id ); assert_eq!( msg.ssr_iod, 15, "incorrect value for ssr_iod, expected 15, is {}", msg.ssr_iod ); } _ => panic!("Invalid message type! Expected a MsgSsrOrbitClockBounds"), }; } } /// Tests [`sbp::json::JsonEncoder`] for roundtrip SBP message -> JSON /// /// Assumes: /// - [`self::test_auto_check_sbp_ssr_msg_ssr_orbit_clock_bounds`] passes /// /// Asserts: /// - SBP fields equates to that of the field /// - Payload is identical #[test] #[cfg(feature = "json")] fn test_sbp2json_auto_check_sbp_ssr_msg_ssr_orbit_clock_bounds() { { let mut payload = Cursor::new(vec![ 85, 222, 5, 66, 0, 31, 180, 0, 0, 0, 3, 0, 1, 2, 3, 48, 15, 1, 2, 24, 39, 38, 37, 1, 2, 3, 39, 1, 3, 39, 38, 37, 1, 2, 3, 39, 1, 21, 85, ]); // Construct sbp message let sbp_msg = { let mut msgs = iter_messages(&mut payload); msgs.next() .expect("no message found") .expect("failed to parse message") }; let mut json_buffer = vec![]; // Populate json buffer, CompactFormatter sbp::json::JsonEncoder::new(&mut json_buffer, sbp::json::CompactFormatter {}) .send(&sbp_msg) .unwrap(); // Reconstruct Sbp message from json fields, roundtrip let sbp_msg = sbp::messages::Sbp::MsgSsrOrbitClockBounds( serde_json::from_str( std::str::from_utf8(json_buffer.as_slice()) .unwrap() .to_string() .as_str(), ) .unwrap(), ); match &sbp_msg { sbp::messages::Sbp::MsgSsrOrbitClockBounds(msg) => { let msg_type = msg.message_type().unwrap(); assert_eq!( msg_type, 1502, "Incorrect message type, expected 1502, is {}", msg_type ); let sender_id = msg.sender_id().unwrap(); assert_eq!( sender_id, 0x0042, "incorrect sender id, expected 0x0042, is {sender_id}" ); assert_eq!( msg.const_id, 1, "incorrect value for const_id, expected 1, is {}", msg.const_id ); assert_eq!( msg.header.num_msgs, 1, "incorrect value for header.num_msgs, expected 1, is {}", msg.header.num_msgs ); assert_eq!( msg.header.seq_num, 2, "incorrect value for header.seq_num, expected 2, is {}", msg.header.seq_num ); assert_eq!( msg.header.sol_id, 48, "incorrect value for header.sol_id, expected 48, is {}", msg.header.sol_id ); assert_eq!( msg.header.time.tow, 180, "incorrect value for header.time.tow, expected 180, is {}", msg.header.time.tow ); assert_eq!( msg.header.time.wn, 3, "incorrect value for header.time.wn, expected 3, is {}", msg.header.time.wn ); assert_eq!( msg.header.update_interval, 3, "incorrect value for header.update_interval, expected 3, is {}", msg.header.update_interval ); assert_eq!( msg.n_sats, 2, "incorrect value for n_sats, expected 2, is {}", msg.n_sats ); assert_eq!( msg.orbit_clock_bounds[0].clock_bound_mu, 39, "incorrect value for orbit_clock_bounds[0].clock_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[0].clock_bound_mu ); assert_eq!( msg.orbit_clock_bounds[0].clock_bound_sig, 1, "incorrect value for orbit_clock_bounds[0].clock_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[0].clock_bound_sig ); assert_eq!(msg.orbit_clock_bounds[0].orb_along_bound_mu, 38, "incorrect value for orbit_clock_bounds[0].orb_along_bound_mu, expected 38, is {}", msg.orbit_clock_bounds[0].orb_along_bound_mu); assert_eq!(msg.orbit_clock_bounds[0].orb_along_bound_sig, 2, "incorrect value for orbit_clock_bounds[0].orb_along_bound_sig, expected 2, is {}", msg.orbit_clock_bounds[0].orb_along_bound_sig); assert_eq!(msg.orbit_clock_bounds[0].orb_cross_bound_mu, 37, "incorrect value for orbit_clock_bounds[0].orb_cross_bound_mu, expected 37, is {}", msg.orbit_clock_bounds[0].orb_cross_bound_mu); assert_eq!(msg.orbit_clock_bounds[0].orb_cross_bound_sig, 3, "incorrect value for orbit_clock_bounds[0].orb_cross_bound_sig, expected 3, is {}", msg.orbit_clock_bounds[0].orb_cross_bound_sig); assert_eq!(msg.orbit_clock_bounds[0].orb_radial_bound_mu, 39, "incorrect value for orbit_clock_bounds[0].orb_radial_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[0].orb_radial_bound_mu); assert_eq!(msg.orbit_clock_bounds[0].orb_radial_bound_sig, 1, "incorrect value for orbit_clock_bounds[0].orb_radial_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[0].orb_radial_bound_sig); assert_eq!( msg.orbit_clock_bounds[0].sat_id, 24, "incorrect value for orbit_clock_bounds[0].sat_id, expected 24, is {}", msg.orbit_clock_bounds[0].sat_id ); assert_eq!( msg.orbit_clock_bounds[1].clock_bound_mu, 39, "incorrect value for orbit_clock_bounds[1].clock_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[1].clock_bound_mu ); assert_eq!( msg.orbit_clock_bounds[1].clock_bound_sig, 1, "incorrect value for orbit_clock_bounds[1].clock_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[1].clock_bound_sig ); assert_eq!(msg.orbit_clock_bounds[1].orb_along_bound_mu, 38, "incorrect value for orbit_clock_bounds[1].orb_along_bound_mu, expected 38, is {}", msg.orbit_clock_bounds[1].orb_along_bound_mu); assert_eq!(msg.orbit_clock_bounds[1].orb_along_bound_sig, 2, "incorrect value for orbit_clock_bounds[1].orb_along_bound_sig, expected 2, is {}", msg.orbit_clock_bounds[1].orb_along_bound_sig); assert_eq!(msg.orbit_clock_bounds[1].orb_cross_bound_mu, 37, "incorrect value for orbit_clock_bounds[1].orb_cross_bound_mu, expected 37, is {}", msg.orbit_clock_bounds[1].orb_cross_bound_mu); assert_eq!(msg.orbit_clock_bounds[1].orb_cross_bound_sig, 3, "incorrect value for orbit_clock_bounds[1].orb_cross_bound_sig, expected 3, is {}", msg.orbit_clock_bounds[1].orb_cross_bound_sig); assert_eq!(msg.orbit_clock_bounds[1].orb_radial_bound_mu, 39, "incorrect value for orbit_clock_bounds[1].orb_radial_bound_mu, expected 39, is {}", msg.orbit_clock_bounds[1].orb_radial_bound_mu); assert_eq!(msg.orbit_clock_bounds[1].orb_radial_bound_sig, 1, "incorrect value for orbit_clock_bounds[1].orb_radial_bound_sig, expected 1, is {}", msg.orbit_clock_bounds[1].orb_radial_bound_sig); assert_eq!( msg.orbit_clock_bounds[1].sat_id, 3, "incorrect value for orbit_clock_bounds[1].sat_id, expected 3, is {}", msg.orbit_clock_bounds[1].sat_id ); assert_eq!( msg.ssr_iod, 15, "incorrect value for ssr_iod, expected 15, is {}", msg.ssr_iod ); } _ => panic!("Invalid message type! Expected a MsgSsrOrbitClockBounds"), }; // Check payload is still identical let frame = sbp::to_vec(&sbp_msg).unwrap(); assert_eq!(frame, payload.into_inner()); } }