2023-09-20 15:04:46 +02:00
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//! This serves as both an integration test and an example application showcasing all major
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//! features of the TCP COBS server by performing following steps:
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//!
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//! 1. It defines both a TC receiver and a TM source which are [Sync].
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//! 2. A telemetry packet is inserted into the TM source. The packet will be handled by the
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//! TCP server after handling all TCs.
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//! 3. It instantiates the TCP server on localhost with automatic port assignment and assigns
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//! the TC receiver and TM source created previously.
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//! 4. It moves the TCP server to a different thread and calls the
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//! [TcpTmtcInCobsServer::handle_next_connection] call inside that thread
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//! 5. The main threads connects to the server, sends a test telecommand and then reads back
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//! the test telemetry insertd in to the TM source previously.
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use core::{
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sync::atomic::{AtomicBool, Ordering},
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time::Duration,
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};
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use std::{
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io::{Read, Write},
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net::{IpAddr, Ipv4Addr, SocketAddr, TcpStream},
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sync::Mutex,
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thread,
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};
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2023-09-26 15:57:51 +02:00
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use hashbrown::HashSet;
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2024-02-12 15:51:37 +01:00
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use satrs::{
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2023-09-20 15:20:14 +02:00
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encoding::cobs::encode_packet_with_cobs,
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2023-09-26 15:57:51 +02:00
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hal::std::tcp_server::{ServerConfig, TcpSpacepacketsServer, TcpTmtcInCobsServer},
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2023-09-20 15:04:46 +02:00
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tmtc::{ReceivesTcCore, TmPacketSourceCore},
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};
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2023-09-26 15:57:51 +02:00
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use spacepackets::{
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2023-12-07 13:29:26 +01:00
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ecss::{tc::PusTcCreator, WritablePusPacket},
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2023-09-26 15:57:51 +02:00
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PacketId, SpHeader,
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};
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2024-04-04 15:18:53 +02:00
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use std::{collections::VecDeque, sync::Arc, vec::Vec};
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2023-09-20 15:04:46 +02:00
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#[derive(Default, Clone)]
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struct SyncTcCacher {
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tc_queue: Arc<Mutex<VecDeque<Vec<u8>>>>,
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}
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impl ReceivesTcCore for SyncTcCacher {
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type Error = ();
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fn pass_tc(&mut self, tc_raw: &[u8]) -> Result<(), Self::Error> {
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let mut tc_queue = self.tc_queue.lock().expect("tc forwarder failed");
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println!("Received TC: {:x?}", tc_raw);
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tc_queue.push_back(tc_raw.to_vec());
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Ok(())
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}
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}
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#[derive(Default, Clone)]
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struct SyncTmSource {
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tm_queue: Arc<Mutex<VecDeque<Vec<u8>>>>,
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}
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impl SyncTmSource {
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pub(crate) fn add_tm(&mut self, tm: &[u8]) {
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let mut tm_queue = self.tm_queue.lock().expect("locking tm queue failec");
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tm_queue.push_back(tm.to_vec());
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}
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}
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impl TmPacketSourceCore for SyncTmSource {
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type Error = ();
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fn retrieve_packet(&mut self, buffer: &mut [u8]) -> Result<usize, Self::Error> {
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let mut tm_queue = self.tm_queue.lock().expect("locking tm queue failed");
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if !tm_queue.is_empty() {
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let next_vec = tm_queue.front().unwrap();
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if buffer.len() < next_vec.len() {
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panic!(
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"provided buffer too small, must be at least {} bytes",
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next_vec.len()
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);
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}
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println!("Sending and encoding TM: {:x?}", next_vec);
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let next_vec = tm_queue.pop_front().unwrap();
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buffer[0..next_vec.len()].copy_from_slice(&next_vec);
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return Ok(next_vec.len());
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}
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Ok(0)
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}
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}
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const SIMPLE_PACKET: [u8; 5] = [1, 2, 3, 4, 5];
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const INVERTED_PACKET: [u8; 5] = [5, 4, 3, 4, 1];
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const AUTO_PORT_ADDR: SocketAddr = SocketAddr::new(IpAddr::V4(Ipv4Addr::new(127, 0, 0, 1)), 0);
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2023-09-20 15:04:46 +02:00
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2023-09-26 15:57:51 +02:00
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#[test]
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fn test_cobs_server() {
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let tc_receiver = SyncTcCacher::default();
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let mut tm_source = SyncTmSource::default();
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// Insert a telemetry packet which will be read back by the client at a later stage.
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tm_source.add_tm(&INVERTED_PACKET);
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let mut tcp_server = TcpTmtcInCobsServer::new(
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2023-09-26 15:57:51 +02:00
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ServerConfig::new(AUTO_PORT_ADDR, Duration::from_millis(2), 1024, 1024),
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2023-10-01 14:32:15 +02:00
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tm_source,
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tc_receiver.clone(),
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)
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.expect("TCP server generation failed");
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let dest_addr = tcp_server
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.local_addr()
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.expect("retrieving dest addr failed");
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let conn_handled: Arc<AtomicBool> = Default::default();
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let set_if_done = conn_handled.clone();
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// Call the connection handler in separate thread, does block.
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thread::spawn(move || {
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let result = tcp_server.handle_next_connection();
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if result.is_err() {
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panic!("handling connection failed: {:?}", result.unwrap_err());
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}
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let conn_result = result.unwrap();
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assert_eq!(conn_result.num_received_tcs, 1, "No TC received");
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assert_eq!(conn_result.num_sent_tms, 1, "No TM received");
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// Signal the main thread we are done.
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set_if_done.store(true, Ordering::Relaxed);
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});
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// Send TC to server now.
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let mut encoded_buf: [u8; 16] = [0; 16];
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let mut current_idx = 0;
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encode_packet_with_cobs(&SIMPLE_PACKET, &mut encoded_buf, &mut current_idx);
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let mut stream = TcpStream::connect(dest_addr).expect("connecting to TCP server failed");
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stream
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.write_all(&encoded_buf[..current_idx])
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.expect("writing to TCP server failed");
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// Done with writing.
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stream
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.shutdown(std::net::Shutdown::Write)
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.expect("shutting down write failed");
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let mut read_buf: [u8; 16] = [0; 16];
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let read_len = stream.read(&mut read_buf).expect("read failed");
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drop(stream);
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// 1 byte encoding overhead, 2 sentinel bytes.
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assert_eq!(read_len, 8);
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assert_eq!(read_buf[0], 0);
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assert_eq!(read_buf[read_len - 1], 0);
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let decoded_len =
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cobs::decode_in_place(&mut read_buf[1..read_len]).expect("COBS decoding failed");
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assert_eq!(decoded_len, 5);
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// Skip first sentinel byte.
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assert_eq!(&read_buf[1..1 + INVERTED_PACKET.len()], &INVERTED_PACKET);
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// A certain amount of time is allowed for the transaction to complete.
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for _ in 0..3 {
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if !conn_handled.load(Ordering::Relaxed) {
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thread::sleep(Duration::from_millis(5));
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}
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}
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if !conn_handled.load(Ordering::Relaxed) {
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panic!("connection was not handled properly");
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}
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// Check that the packet was received and decoded successfully.
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let mut tc_queue = tc_receiver
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.tc_queue
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.lock()
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.expect("locking tc queue failed");
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assert_eq!(tc_queue.len(), 1);
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assert_eq!(tc_queue.pop_front().unwrap(), &SIMPLE_PACKET);
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drop(tc_queue);
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}
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2023-09-26 15:57:51 +02:00
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const TEST_APID_0: u16 = 0x02;
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const TEST_PACKET_ID_0: PacketId = PacketId::new_for_tc(true, TEST_APID_0);
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#[test]
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fn test_ccsds_server() {
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let tc_receiver = SyncTcCacher::default();
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let mut tm_source = SyncTmSource::default();
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2024-04-04 15:18:53 +02:00
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let sph = SpHeader::new_for_unseg_tc(TEST_APID_0, 0, 0);
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let verif_tm = PusTcCreator::new_simple(sph, 1, 1, &[], true);
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let tm_0 = verif_tm.to_vec().expect("tm generation failed");
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tm_source.add_tm(&tm_0);
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let mut packet_id_lookup = HashSet::new();
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packet_id_lookup.insert(TEST_PACKET_ID_0);
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let mut tcp_server = TcpSpacepacketsServer::new(
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ServerConfig::new(AUTO_PORT_ADDR, Duration::from_millis(2), 1024, 1024),
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tm_source,
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tc_receiver.clone(),
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packet_id_lookup,
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)
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.expect("TCP server generation failed");
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let dest_addr = tcp_server
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.local_addr()
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.expect("retrieving dest addr failed");
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let conn_handled: Arc<AtomicBool> = Default::default();
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let set_if_done = conn_handled.clone();
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// Call the connection handler in separate thread, does block.
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thread::spawn(move || {
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let result = tcp_server.handle_next_connection();
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if result.is_err() {
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panic!("handling connection failed: {:?}", result.unwrap_err());
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}
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let conn_result = result.unwrap();
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assert_eq!(conn_result.num_received_tcs, 1);
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assert_eq!(conn_result.num_sent_tms, 1);
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set_if_done.store(true, Ordering::Relaxed);
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});
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let mut stream = TcpStream::connect(dest_addr).expect("connecting to TCP server failed");
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stream
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.set_read_timeout(Some(Duration::from_millis(10)))
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.expect("setting reas timeout failed");
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// Send ping telecommand.
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let sph = SpHeader::new_for_unseg_tc(TEST_APID_0, 0, 0);
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let ping_tc = PusTcCreator::new_simple(sph, 17, 1, &[], true);
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let tc_0 = ping_tc.to_vec().expect("packet creation failed");
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stream
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.write_all(&tc_0)
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.expect("writing to TCP server failed");
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// Done with writing.
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stream
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.shutdown(std::net::Shutdown::Write)
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.expect("shutting down write failed");
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// Now read all the telemetry from the server.
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let mut read_buf: [u8; 16] = [0; 16];
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let mut read_len_total = 0;
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// Timeout ensures this does not block forever.
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while read_len_total < tm_0.len() {
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let read_len = stream.read(&mut read_buf).expect("read failed");
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read_len_total += read_len;
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assert_eq!(read_buf[..read_len], tm_0);
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}
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drop(stream);
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// A certain amount of time is allowed for the transaction to complete.
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for _ in 0..3 {
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if !conn_handled.load(Ordering::Relaxed) {
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thread::sleep(Duration::from_millis(5));
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}
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}
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if !conn_handled.load(Ordering::Relaxed) {
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panic!("connection was not handled properly");
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}
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// Check that TC has arrived.
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let mut tc_queue = tc_receiver.tc_queue.lock().unwrap();
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assert_eq!(tc_queue.len(), 1);
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assert_eq!(tc_queue.pop_front().unwrap(), tc_0);
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}
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