sat-rs/satrs-example/src/main.rs

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Rust
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mod ccsds;
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mod hk;
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mod pus;
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mod requests;
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mod tmtc;
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use crate::hk::{AcsHkIds};
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use crate::requests::{Request, RequestWithToken};
use crate::tmtc::{
core_tmtc_task, OtherArgs, PusTcSource, TcArgs, TcStore, TmArgs, TmFunnel, TmStore, PUS_APID,
};
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use satrs_core::event_man::{
EventManagerWithMpscQueue, MpscEventReceiver, MpscEventU32SendProvider, SendEventProvider,
};
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use satrs_core::events::EventU32;
use satrs_core::pool::{LocalPool, PoolCfg, StoreAddr};
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use satrs_core::pus::event_man::{
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DefaultPusMgmtBackendProvider, EventReporter, EventRequest, EventRequestWithToken,
PusEventDispatcher,
};
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use satrs_core::pus::hk::Subservice as HkSubservice;
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use satrs_core::pus::verification::{
MpscVerifSender, VerificationReporterCfg, VerificationReporterWithSender,
};
use satrs_core::pus::{EcssTmErrorWithSend, EcssTmSenderCore};
use satrs_core::seq_count::SeqCountProviderSimple;
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use satrs_core::spacepackets::{
time::cds::TimeProvider,
time::TimeWriter,
tm::{PusTm, PusTmSecondaryHeader},
SequenceFlags, SpHeader,
};
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use satrs_example::{RequestTargetId, OBSW_SERVER_ADDR, SERVER_PORT};
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use std::collections::HashMap;
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use std::net::{IpAddr, SocketAddr};
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use std::sync::mpsc::{channel, TryRecvError};
use std::sync::{mpsc, Arc, RwLock};
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use std::thread;
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use std::time::Duration;
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use satrs_core::hk::HkRequest;
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#[derive(Clone)]
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struct EventTmSender {
store_helper: TmStore,
sender: mpsc::Sender<StoreAddr>,
}
impl EventTmSender {
fn new(store_helper: TmStore, sender: mpsc::Sender<StoreAddr>) -> Self {
Self {
store_helper,
sender,
}
}
}
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impl EcssTmSenderCore for EventTmSender {
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type Error = mpsc::SendError<StoreAddr>;
fn send_tm(&mut self, tm: PusTm) -> Result<(), EcssTmErrorWithSend<Self::Error>> {
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let addr = self.store_helper.add_pus_tm(&tm);
self.sender
.send(addr)
.map_err(EcssTmErrorWithSend::SendError)
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}
}
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fn main() {
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println!("Running OBSW example");
let tm_pool = LocalPool::new(PoolCfg::new(vec![
(30, 32),
(15, 64),
(15, 128),
(15, 256),
(15, 1024),
(15, 2048),
]));
let tm_store = TmStore {
pool: Arc::new(RwLock::new(Box::new(tm_pool))),
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};
let tc_pool = LocalPool::new(PoolCfg::new(vec![
(30, 32),
(15, 64),
(15, 128),
(15, 256),
(15, 1024),
(15, 2048),
]));
let tc_store = TcStore {
pool: Arc::new(RwLock::new(Box::new(tc_pool))),
};
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let sock_addr = SocketAddr::new(IpAddr::V4(OBSW_SERVER_ADDR), SERVER_PORT);
let (tc_source_tx, tc_source_rx) = channel();
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let (tm_funnel_tx, tm_funnel_rx) = channel();
let (tm_server_tx, tm_server_rx) = channel();
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let verif_sender = MpscVerifSender::new(tm_store.pool.clone(), tm_funnel_tx.clone());
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let verif_cfg = VerificationReporterCfg::new(
PUS_APID,
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#[allow(clippy::box_default)]
Box::new(SeqCountProviderSimple::default()),
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1,
2,
8,
)
.unwrap();
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let verif_reporter = VerificationReporterWithSender::new(&verif_cfg, Box::new(verif_sender));
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// Create event handling components
let (event_request_tx, event_request_rx) = channel::<EventRequestWithToken>();
let (event_sender, event_man_rx) = channel();
let event_recv = MpscEventReceiver::<EventU32>::new(event_man_rx);
let mut event_man = EventManagerWithMpscQueue::new(Box::new(event_recv));
let event_reporter = EventReporter::new(PUS_APID, 128).unwrap();
let pus_tm_backend = DefaultPusMgmtBackendProvider::<EventU32>::default();
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let mut pus_event_dispatcher =
PusEventDispatcher::new(event_reporter, Box::new(pus_tm_backend));
let (pus_event_man_tx, pus_event_man_rx) = channel();
let pus_event_man_send_provider = MpscEventU32SendProvider::new(1, pus_event_man_tx);
let mut reporter_event_handler = verif_reporter.clone();
let mut reporter_aocs = verif_reporter.clone();
event_man.subscribe_all(pus_event_man_send_provider.id());
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let mut request_map = HashMap::new();
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let (acs_thread_tx, acs_thread_rx) = channel::<RequestWithToken>();
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request_map.insert(RequestTargetId::AcsSubsystem as u32, acs_thread_tx);
let tc_source = PusTcSource {
tc_store,
tc_source: tc_source_tx,
};
// Create clones here to allow moving the values
let core_args = OtherArgs {
sock_addr,
verif_reporter,
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event_sender,
event_request_tx,
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request_map,
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};
let tc_args = TcArgs {
tc_source,
tc_receiver: tc_source_rx,
};
let tm_args = TmArgs {
tm_store: tm_store.clone(),
tm_sink_sender: tm_funnel_tx.clone(),
tm_server_rx,
};
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let aocs_to_funnel = tm_funnel_tx.clone();
let mut aocs_tm_store = tm_store.clone();
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println!("Starting TMTC task");
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let jh0 = thread::spawn(move || {
core_tmtc_task(core_args, tc_args, tm_args);
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});
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println!("Starting TM funnel task");
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let jh1 = thread::spawn(move || {
let tm_funnel = TmFunnel {
tm_server_tx,
tm_funnel_rx,
};
loop {
if let Ok(addr) = tm_funnel.tm_funnel_rx.recv() {
tm_funnel
.tm_server_tx
.send(addr)
.expect("Sending TM to server failed");
}
}
});
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println!("Starting event handling task");
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let jh2 = thread::spawn(move || {
let mut timestamp: [u8; 7] = [0; 7];
let mut sender = EventTmSender::new(tm_store, tm_funnel_tx);
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let mut time_provider = TimeProvider::new_with_u16_days(0, 0);
let mut report_completion = |event_req: EventRequestWithToken, timestamp: &[u8]| {
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reporter_event_handler
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.completion_success(event_req.token, Some(timestamp))
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.expect("Sending completion success failed");
};
loop {
if let Ok(event_req) = event_request_rx.try_recv() {
match event_req.request {
EventRequest::Enable(event) => {
pus_event_dispatcher
.enable_tm_for_event(&event)
.expect("Enabling TM failed");
update_time(&mut time_provider, &mut timestamp);
report_completion(event_req, &timestamp);
}
EventRequest::Disable(event) => {
pus_event_dispatcher
.disable_tm_for_event(&event)
.expect("Disabling TM failed");
update_time(&mut time_provider, &mut timestamp);
report_completion(event_req, &timestamp);
}
}
}
if let Ok((event, _param)) = pus_event_man_rx.try_recv() {
update_time(&mut time_provider, &mut timestamp);
pus_event_dispatcher
.generate_pus_event_tm_generic(&mut sender, &timestamp, event, None)
.expect("Sending TM as event failed");
}
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thread::sleep(Duration::from_millis(400));
}
});
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println!("Starting AOCS thread");
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let jh3 = thread::spawn(move || {
let mut timestamp: [u8; 7] = [0; 7];
let mut time_provider = TimeProvider::new_with_u16_days(0, 0);
loop {
match acs_thread_rx.try_recv() {
Ok(request) => {
println!("ACS thread: Received HK request {:?}", request.0);
update_time(&mut time_provider, &mut timestamp);
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match request.0 {
Request::HkRequest(hk_req) => match hk_req {
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HkRequest::OneShot(address) => {
assert_eq!(address.target_id, RequestTargetId::AcsSubsystem as u32);
if address.unique_id == AcsHkIds::TestMgmSet as u32 {
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let mut sp_header =
SpHeader::tm(PUS_APID, SequenceFlags::Unsegmented, 0, 0)
.unwrap();
let sec_header = PusTmSecondaryHeader::new_simple(
3,
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HkSubservice::TmHkPacket as u8,
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&timestamp,
);
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let mut buf: [u8; 8] = [0; 8];
address.write_to_be_bytes(&mut buf).unwrap();
let pus_tm =
PusTm::new(&mut sp_header, sec_header, Some(&buf), true);
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let addr = aocs_tm_store.add_pus_tm(&pus_tm);
aocs_to_funnel.send(addr).expect("Sending HK TM failed");
}
}
HkRequest::Enable(_) => {}
HkRequest::Disable(_) => {}
HkRequest::ModifyCollectionInterval(_, _) => {}
},
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_ => {}
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}
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let started_token = reporter_aocs
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.start_success(request.1, Some(&timestamp))
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.expect("Sending start success failed");
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reporter_aocs
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.completion_success(started_token, Some(&timestamp))
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.expect("Sending completion success failed");
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}
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Err(e) => match e {
TryRecvError::Empty => {}
TryRecvError::Disconnected => {
println!("ACS thread: Message Queue TX disconnected!")
}
},
}
thread::sleep(Duration::from_millis(500));
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}
});
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jh0.join().expect("Joining UDP TMTC server thread failed");
jh1.join().expect("Joining TM Funnel thread failed");
jh2.join().expect("Joining Event Manager thread failed");
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jh3.join().expect("Joining AOCS thread failed");
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}
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pub fn update_time(time_provider: &mut TimeProvider, timestamp: &mut [u8]) {
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time_provider
.update_from_now()
.expect("Could not get current time");
time_provider
.write_to_bytes(timestamp)
.expect("Writing timestamp failed");
}