mod acs; mod ccsds; mod events; mod hk; mod logger; mod pus; mod requests; mod tcp; mod tm_funnel; mod tmtc; mod udp; use crate::events::EventHandler; use crate::pus::stack::PusStack; use crate::tm_funnel::{TmFunnelDynamic, TmFunnelStatic}; use log::info; use pus::test::create_test_service_dynamic; use satrs::hal::std::tcp_server::ServerConfig; use satrs::hal::std::udp_server::UdpTcServer; use satrs::request::GenericMessage; use satrs::tmtc::tm_helper::SharedTmPool; use satrs_example::config::pool::{create_sched_tc_pool, create_static_pools}; use satrs_example::config::tasks::{ FREQ_MS_AOCS, FREQ_MS_EVENT_HANDLING, FREQ_MS_PUS_STACK, FREQ_MS_UDP_TMTC, }; use satrs_example::config::{OBSW_SERVER_ADDR, PACKET_ID_VALIDATOR, SERVER_PORT}; use tmtc::PusTcSourceProviderDynamic; use udp::DynamicUdpTmHandler; use crate::acs::mgm::{MgmHandlerLis3Mdl, MpscModeLeafInterface, SpiDummyInterface}; use crate::ccsds::CcsdsReceiver; use crate::logger::setup_logger; use crate::pus::action::{create_action_service_dynamic, create_action_service_static}; use crate::pus::event::{create_event_service_dynamic, create_event_service_static}; use crate::pus::hk::{create_hk_service_dynamic, create_hk_service_static}; use crate::pus::mode::{create_mode_service_dynamic, create_mode_service_static}; use crate::pus::scheduler::{create_scheduler_service_dynamic, create_scheduler_service_static}; use crate::pus::test::create_test_service_static; use crate::pus::{PusReceiver, PusTcMpscRouter}; use crate::requests::{CompositeRequest, GenericRequestRouter}; use crate::tcp::{SyncTcpTmSource, TcpTask}; use crate::tmtc::{ PusTcSourceProviderSharedPool, SharedTcPool, TcSourceTaskDynamic, TcSourceTaskStatic, }; use crate::udp::{StaticUdpTmHandler, UdpTmtcServer}; use satrs::mode::ModeRequest; use satrs::pus::event_man::EventRequestWithToken; use satrs::pus::TmInSharedPoolSender; use satrs::spacepackets::{time::cds::CdsTime, time::TimeWriter}; use satrs::tmtc::CcsdsDistributor; use satrs_example::config::components::MGM_HANDLER_0; use std::net::{IpAddr, SocketAddr}; use std::sync::mpsc; use std::sync::{Arc, RwLock}; use std::thread; use std::time::Duration; #[allow(dead_code)] fn static_tmtc_pool_main() { let (tm_pool, tc_pool) = create_static_pools(); let shared_tm_pool = SharedTmPool::new(tm_pool); let shared_tc_pool = SharedTcPool { pool: Arc::new(RwLock::new(tc_pool)), }; let (tc_source_tx, tc_source_rx) = mpsc::sync_channel(50); let (tm_funnel_tx, tm_funnel_rx) = mpsc::sync_channel(50); let (tm_server_tx, tm_server_rx) = mpsc::sync_channel(50); let tm_funnel_tx_sender = TmInSharedPoolSender::new(shared_tm_pool.clone(), tm_funnel_tx.clone()); let (mgm_handler_composite_tx, mgm_handler_composite_rx) = mpsc::channel::>(); let (mgm_handler_mode_tx, mgm_handler_mode_rx) = mpsc::channel::>(); // Some request are targetable. This map is used to retrieve sender handles based on a target ID. let mut request_map = GenericRequestRouter::default(); request_map .composite_router_map .insert(MGM_HANDLER_0.id(), mgm_handler_composite_tx); request_map .mode_router_map .insert(MGM_HANDLER_0.id(), mgm_handler_mode_tx); // This helper structure is used by all telecommand providers which need to send telecommands // to the TC source. let tc_source = PusTcSourceProviderSharedPool { shared_pool: shared_tc_pool.clone(), tc_source: tc_source_tx, }; // Create event handling components // These sender handles are used to send event requests, for example to enable or disable // certain events. let (event_request_tx, event_request_rx) = mpsc::channel::(); // The event task is the core handler to perform the event routing and TM handling as specified // in the sat-rs documentation. let mut event_handler = EventHandler::new(tm_funnel_tx.clone(), event_request_rx); let (pus_test_tx, pus_test_rx) = mpsc::channel(); let (pus_event_tx, pus_event_rx) = mpsc::channel(); let (pus_sched_tx, pus_sched_rx) = mpsc::channel(); let (pus_hk_tx, pus_hk_rx) = mpsc::channel(); let (pus_action_tx, pus_action_rx) = mpsc::channel(); let (pus_mode_tx, pus_mode_rx) = mpsc::channel(); let (_pus_action_reply_tx, pus_action_reply_rx) = mpsc::channel(); let (pus_hk_reply_tx, pus_hk_reply_rx) = mpsc::channel(); let (pus_mode_reply_tx, pus_mode_reply_rx) = mpsc::channel(); let pus_router = PusTcMpscRouter { test_tc_sender: pus_test_tx, event_tc_sender: pus_event_tx, sched_tc_sender: pus_sched_tx, hk_tc_sender: pus_hk_tx, action_tc_sender: pus_action_tx, mode_tc_sender: pus_mode_tx, }; let pus_test_service = create_test_service_static( tm_funnel_tx_sender.clone(), shared_tc_pool.pool.clone(), event_handler.clone_event_sender(), pus_test_rx, ); let pus_scheduler_service = create_scheduler_service_static( tm_funnel_tx_sender.clone(), tc_source.clone(), pus_sched_rx, create_sched_tc_pool(), ); let pus_event_service = create_event_service_static( tm_funnel_tx_sender.clone(), shared_tc_pool.pool.clone(), pus_event_rx, event_request_tx, ); let pus_action_service = create_action_service_static( tm_funnel_tx_sender.clone(), shared_tc_pool.pool.clone(), pus_action_rx, request_map.clone(), pus_action_reply_rx, ); let pus_hk_service = create_hk_service_static( tm_funnel_tx_sender.clone(), shared_tc_pool.pool.clone(), pus_hk_rx, request_map.clone(), pus_hk_reply_rx, ); let pus_mode_service = create_mode_service_static( tm_funnel_tx_sender.clone(), shared_tc_pool.pool.clone(), pus_mode_rx, request_map, pus_mode_reply_rx, ); let mut pus_stack = PusStack::new( pus_test_service, pus_hk_service, pus_event_service, pus_action_service, pus_scheduler_service, pus_mode_service, ); let ccsds_receiver = CcsdsReceiver { tc_source }; let mut tmtc_task = TcSourceTaskStatic::new( shared_tc_pool.clone(), tc_source_rx, PusReceiver::new(tm_funnel_tx_sender, pus_router), ); let sock_addr = SocketAddr::new(IpAddr::V4(OBSW_SERVER_ADDR), SERVER_PORT); let udp_ccsds_distributor = CcsdsDistributor::new(ccsds_receiver.clone()); let udp_tc_server = UdpTcServer::new(sock_addr, 2048, Box::new(udp_ccsds_distributor)) .expect("creating UDP TMTC server failed"); let mut udp_tmtc_server = UdpTmtcServer { udp_tc_server, tm_handler: StaticUdpTmHandler { tm_rx: tm_server_rx, tm_store: shared_tm_pool.clone_backing_pool(), }, }; let tcp_ccsds_distributor = CcsdsDistributor::new(ccsds_receiver); let tcp_server_cfg = ServerConfig::new(sock_addr, Duration::from_millis(400), 4096, 8192); let sync_tm_tcp_source = SyncTcpTmSource::new(200); let mut tcp_server = TcpTask::new( tcp_server_cfg, sync_tm_tcp_source.clone(), tcp_ccsds_distributor, PACKET_ID_VALIDATOR.clone(), ) .expect("tcp server creation failed"); let mut tm_funnel = TmFunnelStatic::new( shared_tm_pool, sync_tm_tcp_source, tm_funnel_rx, tm_server_tx, ); let (mgm_handler_mode_reply_to_parent_tx, _mgm_handler_mode_reply_to_parent_rx) = mpsc::channel(); let dummy_spi_interface = SpiDummyInterface::default(); let shared_mgm_set = Arc::default(); let mode_leaf_interface = MpscModeLeafInterface { request_rx: mgm_handler_mode_rx, reply_tx_to_pus: pus_mode_reply_tx, reply_tx_to_parent: mgm_handler_mode_reply_to_parent_tx, }; let mut mgm_handler = MgmHandlerLis3Mdl::new( MGM_HANDLER_0, "MGM_0", mode_leaf_interface, mgm_handler_composite_rx, pus_hk_reply_tx, tm_funnel_tx, dummy_spi_interface, shared_mgm_set, ); info!("Starting TMTC and UDP task"); let jh_udp_tmtc = thread::Builder::new() .name("TMTC and UDP".to_string()) .spawn(move || { info!("Running UDP server on port {SERVER_PORT}"); loop { udp_tmtc_server.periodic_operation(); tmtc_task.periodic_operation(); thread::sleep(Duration::from_millis(FREQ_MS_UDP_TMTC)); } }) .unwrap(); info!("Starting TCP task"); let jh_tcp = thread::Builder::new() .name("TCP".to_string()) .spawn(move || { info!("Running TCP server on port {SERVER_PORT}"); loop { tcp_server.periodic_operation(); } }) .unwrap(); info!("Starting TM funnel task"); let jh_tm_funnel = thread::Builder::new() .name("TM Funnel".to_string()) .spawn(move || loop { tm_funnel.operation(); }) .unwrap(); info!("Starting event handling task"); let jh_event_handling = thread::Builder::new() .name("Event".to_string()) .spawn(move || loop { event_handler.periodic_operation(); thread::sleep(Duration::from_millis(FREQ_MS_EVENT_HANDLING)); }) .unwrap(); info!("Starting AOCS thread"); let jh_aocs = thread::Builder::new() .name("AOCS".to_string()) .spawn(move || loop { mgm_handler.periodic_operation(); thread::sleep(Duration::from_millis(FREQ_MS_AOCS)); }) .unwrap(); info!("Starting PUS handler thread"); let jh_pus_handler = thread::Builder::new() .name("PUS".to_string()) .spawn(move || loop { pus_stack.periodic_operation(); thread::sleep(Duration::from_millis(FREQ_MS_PUS_STACK)); }) .unwrap(); jh_udp_tmtc .join() .expect("Joining UDP TMTC server thread failed"); jh_tcp .join() .expect("Joining TCP TMTC server thread failed"); jh_tm_funnel .join() .expect("Joining TM Funnel thread failed"); jh_event_handling .join() .expect("Joining Event Manager thread failed"); jh_aocs.join().expect("Joining AOCS thread failed"); jh_pus_handler .join() .expect("Joining PUS handler thread failed"); } #[allow(dead_code)] fn dyn_tmtc_pool_main() { let (tc_source_tx, tc_source_rx) = mpsc::channel(); let (tm_funnel_tx, tm_funnel_rx) = mpsc::channel(); let (tm_server_tx, tm_server_rx) = mpsc::channel(); // Some request are targetable. This map is used to retrieve sender handles based on a target ID. let (mgm_handler_composite_tx, mgm_handler_composite_rx) = mpsc::channel::>(); let (mgm_handler_mode_tx, mgm_handler_mode_rx) = mpsc::channel::>(); // Some request are targetable. This map is used to retrieve sender handles based on a target ID. let mut request_map = GenericRequestRouter::default(); request_map .composite_router_map .insert(MGM_HANDLER_0.raw(), mgm_handler_composite_tx); request_map .mode_router_map .insert(MGM_HANDLER_0.raw(), mgm_handler_mode_tx); let tc_source = PusTcSourceProviderDynamic(tc_source_tx); // Create event handling components // These sender handles are used to send event requests, for example to enable or disable // certain events. let (event_request_tx, event_request_rx) = mpsc::channel::(); // The event task is the core handler to perform the event routing and TM handling as specified // in the sat-rs documentation. let mut event_handler = EventHandler::new(tm_funnel_tx.clone(), event_request_rx); let (pus_test_tx, pus_test_rx) = mpsc::channel(); let (pus_event_tx, pus_event_rx) = mpsc::channel(); let (pus_sched_tx, pus_sched_rx) = mpsc::channel(); let (pus_hk_tx, pus_hk_rx) = mpsc::channel(); let (pus_action_tx, pus_action_rx) = mpsc::channel(); let (pus_mode_tx, pus_mode_rx) = mpsc::channel(); let (_pus_action_reply_tx, pus_action_reply_rx) = mpsc::channel(); let (pus_hk_reply_tx, pus_hk_reply_rx) = mpsc::channel(); let (pus_mode_reply_tx, pus_mode_reply_rx) = mpsc::channel(); let pus_router = PusTcMpscRouter { test_tc_sender: pus_test_tx, event_tc_sender: pus_event_tx, sched_tc_sender: pus_sched_tx, hk_tc_sender: pus_hk_tx, action_tc_sender: pus_action_tx, mode_tc_sender: pus_mode_tx, }; let pus_test_service = create_test_service_dynamic( tm_funnel_tx.clone(), event_handler.clone_event_sender(), pus_test_rx, ); let pus_scheduler_service = create_scheduler_service_dynamic( tm_funnel_tx.clone(), tc_source.0.clone(), pus_sched_rx, create_sched_tc_pool(), ); let pus_event_service = create_event_service_dynamic(tm_funnel_tx.clone(), pus_event_rx, event_request_tx); let pus_action_service = create_action_service_dynamic( tm_funnel_tx.clone(), pus_action_rx, request_map.clone(), pus_action_reply_rx, ); let pus_hk_service = create_hk_service_dynamic( tm_funnel_tx.clone(), pus_hk_rx, request_map.clone(), pus_hk_reply_rx, ); let pus_mode_service = create_mode_service_dynamic( tm_funnel_tx.clone(), pus_mode_rx, request_map, pus_mode_reply_rx, ); let mut pus_stack = PusStack::new( pus_test_service, pus_hk_service, pus_event_service, pus_action_service, pus_scheduler_service, pus_mode_service, ); let ccsds_receiver = CcsdsReceiver { tc_source }; let mut tmtc_task = TcSourceTaskDynamic::new( tc_source_rx, PusReceiver::new(tm_funnel_tx.clone(), pus_router), ); let sock_addr = SocketAddr::new(IpAddr::V4(OBSW_SERVER_ADDR), SERVER_PORT); let udp_ccsds_distributor = CcsdsDistributor::new(ccsds_receiver.clone()); let udp_tc_server = UdpTcServer::new(sock_addr, 2048, Box::new(udp_ccsds_distributor)) .expect("creating UDP TMTC server failed"); let mut udp_tmtc_server = UdpTmtcServer { udp_tc_server, tm_handler: DynamicUdpTmHandler { tm_rx: tm_server_rx, }, }; let tcp_ccsds_distributor = CcsdsDistributor::new(ccsds_receiver); let tcp_server_cfg = ServerConfig::new(sock_addr, Duration::from_millis(400), 4096, 8192); let sync_tm_tcp_source = SyncTcpTmSource::new(200); let mut tcp_server = TcpTask::new( tcp_server_cfg, sync_tm_tcp_source.clone(), tcp_ccsds_distributor, PACKET_ID_VALIDATOR.clone(), ) .expect("tcp server creation failed"); let mut tm_funnel = TmFunnelDynamic::new(sync_tm_tcp_source, tm_funnel_rx, tm_server_tx); let (mgm_handler_mode_reply_to_parent_tx, _mgm_handler_mode_reply_to_parent_rx) = mpsc::channel(); let dummy_spi_interface = SpiDummyInterface::default(); let shared_mgm_set = Arc::default(); let mode_leaf_interface = MpscModeLeafInterface { request_rx: mgm_handler_mode_rx, reply_tx_to_pus: pus_mode_reply_tx, reply_tx_to_parent: mgm_handler_mode_reply_to_parent_tx, }; let mut mgm_handler = MgmHandlerLis3Mdl::new( MGM_HANDLER_0, "MGM_0", mode_leaf_interface, mgm_handler_composite_rx, pus_hk_reply_tx, tm_funnel_tx, dummy_spi_interface, shared_mgm_set, ); info!("Starting TMTC and UDP task"); let jh_udp_tmtc = thread::Builder::new() .name("TMTC and UDP".to_string()) .spawn(move || { info!("Running UDP server on port {SERVER_PORT}"); loop { udp_tmtc_server.periodic_operation(); tmtc_task.periodic_operation(); thread::sleep(Duration::from_millis(FREQ_MS_UDP_TMTC)); } }) .unwrap(); info!("Starting TCP task"); let jh_tcp = thread::Builder::new() .name("TCP".to_string()) .spawn(move || { info!("Running TCP server on port {SERVER_PORT}"); loop { tcp_server.periodic_operation(); } }) .unwrap(); info!("Starting TM funnel task"); let jh_tm_funnel = thread::Builder::new() .name("TM Funnel".to_string()) .spawn(move || loop { tm_funnel.operation(); }) .unwrap(); info!("Starting event handling task"); let jh_event_handling = thread::Builder::new() .name("Event".to_string()) .spawn(move || loop { event_handler.periodic_operation(); thread::sleep(Duration::from_millis(FREQ_MS_EVENT_HANDLING)); }) .unwrap(); info!("Starting AOCS thread"); let jh_aocs = thread::Builder::new() .name("AOCS".to_string()) .spawn(move || loop { mgm_handler.periodic_operation(); thread::sleep(Duration::from_millis(FREQ_MS_AOCS)); }) .unwrap(); info!("Starting PUS handler thread"); let jh_pus_handler = thread::Builder::new() .name("PUS".to_string()) .spawn(move || loop { pus_stack.periodic_operation(); thread::sleep(Duration::from_millis(FREQ_MS_PUS_STACK)); }) .unwrap(); jh_udp_tmtc .join() .expect("Joining UDP TMTC server thread failed"); jh_tcp .join() .expect("Joining TCP TMTC server thread failed"); jh_tm_funnel .join() .expect("Joining TM Funnel thread failed"); jh_event_handling .join() .expect("Joining Event Manager thread failed"); jh_aocs.join().expect("Joining AOCS thread failed"); jh_pus_handler .join() .expect("Joining PUS handler thread failed"); } fn main() { setup_logger().expect("setting up logging with fern failed"); println!("Running OBSW example"); #[cfg(not(feature = "dyn_tmtc"))] static_tmtc_pool_main(); #[cfg(feature = "dyn_tmtc")] dyn_tmtc_pool_main(); } pub fn update_time(time_provider: &mut CdsTime, timestamp: &mut [u8]) { time_provider .update_from_now() .expect("Could not get current time"); time_provider .write_to_bytes(timestamp) .expect("Writing timestamp failed"); }