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base: rust/sat-rs:satrs-shared-v0.2.4
Branches Tags
rust/sat-rs:main rust/sat-rs:update-stm32h7-example-code rust/sat-rs:update-stm32f3-example-code rust/sat-rs:start-adding-acs-subsys rust/sat-rs:mode-tree-extension-in-example rust/sat-rs:serialization-prototyping
rust/sat-rs:satrs-v0.3.0-alpha.3 rust/sat-rs:satrs-shared-v0.2.4 rust/sat-rs:satrs-mib-v0.1.3 rust/sat-rs:satrs-shared-v0.2.3 rust/sat-rs:satrs-v0.3.0-alpha.1 rust/sat-rs:satrs-shared-v0.2.2 rust/sat-rs:satrs-v0.3.0-alpha.0 rust/sat-rs:satrs-shared-v0.2.1 rust/sat-rs:satrs-shared-v0.2.0 rust/sat-rs:satrs-v0.2.1 rust/sat-rs:satrs-v0.2.0 rust/sat-rs:satrs-v0.2.0-rc.4 rust/sat-rs:satrs-v0.2.0-rc.3 rust/sat-rs:satrs-v0.2.0-rc.2 rust/sat-rs:satrs-mib-v0.1.2 rust/sat-rs:satrs-v0.2.0-rc.0 rust/sat-rs:satrs-v0.2.0-rc.1 rust/sat-rs:satrs-example-v0.1.1 rust/sat-rs:satrs-mib-v0.1.1 rust/sat-rs:satrs-example-v0.1.0 rust/sat-rs:satrs-v0.1.1 rust/sat-rs:satrs-v0.1.0 rust/sat-rs:satrs-mib-v0.1.0 rust/sat-rs:satrs-mib-v0.1.0-alpha.2 rust/sat-rs:satrs-core-v0.1.0-alpha.3 rust/sat-rs:satrs-core-v0.1.0-alpha.2 rust/sat-rs:satrs-mib-v0.1.0-alpha.1 rust/sat-rs:satrs-core-v0.1.0-alpha.1 rust/sat-rs:satrs-core-v0.1.0-alpha.0
..
compare: rust/sat-rs:update-stm32h7-example-code
Branches Tags
rust/sat-rs:update-stm32h7-example-code rust/sat-rs:update-stm32f3-example-code rust/sat-rs:start-adding-acs-subsys rust/sat-rs:main rust/sat-rs:mode-tree-extension-in-example rust/sat-rs:serialization-prototyping
rust/sat-rs:satrs-v0.3.0-alpha.3 rust/sat-rs:satrs-shared-v0.2.4 rust/sat-rs:satrs-mib-v0.1.3 rust/sat-rs:satrs-shared-v0.2.3 rust/sat-rs:satrs-v0.3.0-alpha.1 rust/sat-rs:satrs-shared-v0.2.2 rust/sat-rs:satrs-v0.3.0-alpha.0 rust/sat-rs:satrs-shared-v0.2.1 rust/sat-rs:satrs-shared-v0.2.0 rust/sat-rs:satrs-v0.2.1 rust/sat-rs:satrs-v0.2.0 rust/sat-rs:satrs-v0.2.0-rc.4 rust/sat-rs:satrs-v0.2.0-rc.3 rust/sat-rs:satrs-v0.2.0-rc.2 rust/sat-rs:satrs-mib-v0.1.2 rust/sat-rs:satrs-v0.2.0-rc.0 rust/sat-rs:satrs-v0.2.0-rc.1 rust/sat-rs:satrs-example-v0.1.1 rust/sat-rs:satrs-mib-v0.1.1 rust/sat-rs:satrs-example-v0.1.0 rust/sat-rs:satrs-v0.1.1 rust/sat-rs:satrs-v0.1.0 rust/sat-rs:satrs-mib-v0.1.0 rust/sat-rs:satrs-mib-v0.1.0-alpha.2 rust/sat-rs:satrs-core-v0.1.0-alpha.3 rust/sat-rs:satrs-core-v0.1.0-alpha.2 rust/sat-rs:satrs-mib-v0.1.0-alpha.1 rust/sat-rs:satrs-core-v0.1.0-alpha.1 rust/sat-rs:satrs-core-v0.1.0-alpha.0

19 Commits
satrs-shared-v0.2.4 .. update-stm32h7-example-code

Author SHA1 Message Date
Robin Mueller 1fafe149c1 need to add UDP to tmtc-utils 2026-05-13 10:33:00 +02:00
Robin Mueller bcc1cc850f first TC handling 2026-05-13 10:23:44 +02:00
Robin Mueller 2cab8d7fed new models library 2026-05-13 09:49:03 +02:00
Robin Mueller b6612ed861 introduce new embedded-models lib 2026-05-13 09:37:51 +02:00
Robin Mueller 9d15dbcf09 update STM32H7 example code 2026-05-12 15:05:24 +02:00
muellerr b1253eaad4 Merge pull request 'Rework ACS' (#264) from rework-acs into main 
Reviewed-on: #264
 2026-03-18 11:19:24 +01:00
Robin Mueller ae4d26b8bd re-work ACS 2026-03-17 15:56:25 +01:00
muellerr cfcfabb5e3 Merge pull request 'fixes for switching' (#262) from fix-for-mgm-switching into main 
Reviewed-on: #262
 2026-03-12 13:48:04 +01:00
Robin Mueller 70f747ad86 fixes for switching 2026-03-12 13:45:19 +01:00
muellerr f44aac6ea2 Merge pull request 'probably need to re-work the mode model..' (#261) from continue-example-update into main 
Reviewed-on: #261
 2026-03-12 12:01:16 +01:00
Robin Mueller df517af85b probably need to re-work the mode model.. 2026-03-12 12:00:24 +01:00
muellerr ae9edf5888 Merge pull request 'minor clean up' (#260) from minor-cleanup into main 
Reviewed-on: #260
 2026-03-10 11:57:21 +01:00
Robin Mueller 512384026c minor clean up 2026-03-10 11:56:39 +01:00
muellerr 42c7a3b9ee Merge pull request 'Move to CCSDS + serde, rip out PUS' (#259) from move-to-ccsds-and-serde into main 
Reviewed-on: #259
 2026-03-10 11:56:16 +01:00
muellerr 1e15e3d501 move to CCSDS + serde for sat-rs example 2026-03-10 11:45:11 +01:00
muellerr d7e6732888 Merge pull request 'CCSDS scheduler' (#258) from ccsds-scheduler into main 
Reviewed-on: #258
 2025-11-27 16:09:52 +01:00
Robin Mueller c27569a526 new CCSDS packet scheduler 2025-11-27 16:02:39 +01:00
muellerr b2bc87641c Merge pull request 'bumped sat-rs' (#257) from bump-satrs into main 
Reviewed-on: #257
 2025-11-06 14:54:05 +01:00
Robin Mueller c8245772bb bumped sat-rs 2025-11-06 14:53:49 +01:00
112 changed files with 5675 additions and 113522 deletions
Expand all files Collapse all files
.github/workflows/ci.yml
+6 -1
View File
@@ -11,6 +11,9 @@ jobs:
steps:
- uses: actions/checkout@v4
- uses: dtolnay/rust-toolchain@stable
- name: Install libudev-dev on Ubuntu
if: ${{ matrix.os == 'ubuntu-latest' }}
run: sudo apt update && sudo apt install -y libudev-dev
- run: cargo check
# Check example with static pool configuration
- run: cargo check -p satrs-example --no-default-features
@@ -23,6 +26,7 @@ jobs:
- uses: dtolnay/rust-toolchain@stable
- name: Install nextest
uses: taiki-e/install-action@nextest
- run: sudo apt update && sudo apt install -y libudev-dev
- run: cargo nextest run --all-features
- run: cargo test --doc --all-features
@@ -57,7 +61,7 @@ jobs:
steps:
- uses: actions/checkout@v4
- uses: dtolnay/rust-toolchain@nightly
- run: RUSTDOCFLAGS="--cfg docsrs" cargo +nightly doc -p satrs --all-features
- run: RUSTDOCFLAGS="--cfg docsrs" cargo +nightly doc -p satrs --all-features --no-deps
clippy:
name: Clippy
@@ -67,4 +71,5 @@ jobs:
- uses: dtolnay/rust-toolchain@stable
with:
components: clippy
- run: sudo apt update && sudo apt install -y libudev-dev
- run: cargo clippy -- -D warnings
Cargo.toml
+4 -1
View File
@@ -4,9 +4,12 @@ members = [
"satrs",
"satrs-mib",
"satrs-example",
"satrs-minisim",
"satrs-example/models",
"satrs-example/client",
"satrs-example/minisim",
"satrs-shared",
"embedded-examples/embedded-client",
"embedded-examples/models",
]
exclude = [
embedded-examples/embedded-client/Cargo.toml
+1
View File
@@ -10,6 +10,7 @@ toml = "0.9"
serde = { version = "1", features = ["derive"] }
satrs-stm32f3-disco-rtic = { path = "../stm32f3-disco-rtic" }
spacepackets = { version = "0.17" }
embedded-models = { path = "../models" }
tmtc-utils = { git = "https://egit.irs.uni-stuttgart.de/rust/tmtc-utils.git", version = "0.1" }
postcard = { version = "1", features = ["alloc"] }
cobs = "0.5"
embedded-examples/embedded-client/src/main.rs → embedded-examples/embedded-client/src/bin/stm32f3-client.rs
+8 -49
View File
@@ -1,13 +1,9 @@
use std::{
fs::File,
io::Read,
path::Path,
time::{Duration, SystemTime},
};
use std::time::Duration;
use clap::Parser;
use cobs::CobsDecoderOwned;
use satrs_stm32f3_disco_rtic::Request;
use embedded_client::setup_logger;
use embedded_models::stm32f3;
use spacepackets::{CcsdsPacketCreatorOwned, CcsdsPacketReader, SpHeader};
use tmtc_utils::transport::serial::PacketTransportSerialCobs;
@@ -21,47 +17,11 @@ struct Cli {
set_led_frequency: Option<u32>,
}
#[derive(Debug, serde::Deserialize)]
struct Config {
interface: Interface,
}
#[derive(Debug, serde::Deserialize)]
struct Interface {
serial_port: String,
}
fn setup_logger() -> Result<(), fern::InitError> {
fern::Dispatch::new()
.format(|out, message, record| {
out.finish(format_args!(
"[{} {} {}] {}",
humantime::format_rfc3339_seconds(SystemTime::now()),
record.level(),
record.target(),
message
))
})
.level(log::LevelFilter::Debug)
.chain(std::io::stdout())
.chain(fern::log_file("output.log")?)
.apply()?;
Ok(())
}
fn main() {
setup_logger().expect("failed to initialize logger");
println!("sat-rs embedded examples TMTC client");
println!("-- STM32F3 TMTC client --");
let cli = Cli::parse();
let mut config_file =
File::open(Path::new("config.toml")).expect("opening config.toml file failed");
let mut toml_str = String::new();
config_file
.read_to_string(&mut toml_str)
.expect("reading config.toml file failed");
let config: Config = toml::from_str(&toml_str).expect("parsing config.toml file failed");
println!("Connecting to serial port {}", config.interface.serial_port);
let config = embedded_client::Config::new_from_file();
let serial = serialport::new(config.interface.serial_port, 115200)
.open()
@@ -69,8 +29,7 @@ fn main() {
let mut transport = PacketTransportSerialCobs::new(serial, CobsDecoderOwned::new(1024));
if cli.ping {
let request = Request::Ping;
let tc = create_stm32f3_tc(&request);
let tc = create_stm32f3_tc(&embedded_models::stm32f3::Request::Ping);
log::info!(
"Sending ping request with TC ID: {:#010x}",
tc.ccsds_packet_id_and_psc().raw()
@@ -79,7 +38,7 @@ fn main() {
}
if let Some(freq_ms) = cli.set_led_frequency {
let request = Request::ChangeBlinkFrequency(Duration::from_millis(freq_ms as u64));
let request = stm32f3::Request::ChangeBlinkFrequency(Duration::from_millis(freq_ms as u64));
let tc = create_stm32f3_tc(&request);
log::info!(
"Sending change blink frequency request {:?} with TC ID: {:#010x}",
@@ -100,7 +59,7 @@ fn main() {
}
}
fn create_stm32f3_tc(request: &Request) -> CcsdsPacketCreatorOwned {
fn create_stm32f3_tc(request: &stm32f3::Request) -> CcsdsPacketCreatorOwned {
let req_raw = postcard::to_allocvec(&request).unwrap();
let sp_header = SpHeader::new_from_apid(satrs_stm32f3_disco_rtic::APID);
CcsdsPacketCreatorOwned::new_tc_with_checksum(sp_header, &req_raw).unwrap()
embedded-examples/embedded-client/src/bin/stm32h7-client.rs
+64
View File
@@ -0,0 +1,64 @@
use std::{fs::File, io::Read, path::Path, time::Duration};
use clap::Parser;
use cobs::CobsDecoderOwned;
use embedded_client::setup_logger;
use embedded_models::{stm32f3, stm32h7};
use spacepackets::{CcsdsPacketCreatorOwned, CcsdsPacketReader, SpHeader};
use tmtc_utils::transport::serial::PacketTransportSerialCobs;
#[derive(Parser, Debug)]
struct Cli {
#[arg(short, long)]
ping: bool,
/// Set frequency in milliseconds.
#[arg(short, long)]
set_led_frequency: Option<u32>,
}
fn main() {
setup_logger().expect("failed to initialize logger");
println!("-- STM32H7 TMTC client --");
let cli = Cli::parse();
let config = embedded_client::Config::new_from_file();
/*
if cli.ping {
let tc = create_stm32f3_tc(&embedded_models::stm32f3::Request::Ping);
log::info!(
"Sending ping request with TC ID: {:#010x}",
tc.ccsds_packet_id_and_psc().raw()
);
transport.send(&tc.to_vec()).unwrap();
}
if let Some(freq_ms) = cli.set_led_frequency {
let request = stm32f3::Request::ChangeBlinkFrequency(Duration::from_millis(freq_ms as u64));
let tc = create_stm32f3_tc(&request);
log::info!(
"Sending change blink frequency request {:?} with TC ID: {:#010x}",
request,
tc.ccsds_packet_id_and_psc().raw()
);
transport.send(&tc.to_vec()).unwrap();
}
log::info!("Waiting for response...");
loop {
transport
.receive(|packet: &[u8]| {
let reader = CcsdsPacketReader::new_with_checksum(packet);
log::info!("Received packet: {:?}", reader);
})
.unwrap();
}
*/
}
fn create_stm32h7_tc(request: &stm32h7::Request) -> CcsdsPacketCreatorOwned {
let req_raw = postcard::to_allocvec(&request).unwrap();
let sp_header = SpHeader::new_from_apid(satrs_stm32f3_disco_rtic::APID);
CcsdsPacketCreatorOwned::new_tc_with_checksum(sp_header, &req_raw).unwrap()
}
embedded-examples/embedded-client/src/lib.rs
+42
View File
@@ -0,0 +1,42 @@
use std::{fs::File, io::Read as _, path::Path, time::SystemTime};
#[derive(Debug, serde::Deserialize)]
pub struct Config {
pub interface: Interface,
}
#[derive(Debug, serde::Deserialize)]
pub struct Interface {
pub serial_port: String,
}
impl Config {
pub fn new_from_file() -> Self {
let mut config_file =
File::open(Path::new("config.toml")).expect("opening config.toml file failed");
let mut toml_str = String::new();
config_file
.read_to_string(&mut toml_str)
.expect("reading config.toml file failed");
let config: Config = toml::from_str(&toml_str).expect("parsing config.toml file failed");
println!("Connecting to serial port {}", config.interface.serial_port);
config
}
}
pub fn setup_logger() -> Result<(), fern::InitError> {
fern::Dispatch::new()
.format(|out, message, record| {
out.finish(format_args!(
"[{} {} {}] {}",
humantime::format_rfc3339_seconds(SystemTime::now()),
record.level(),
record.target(),
message
))
})
.level(log::LevelFilter::Debug)
.chain(std::io::stdout())
.chain(fern::log_file("output.log")?)
.apply()?;
Ok(())
}
embedded-examples/models/Cargo.toml
+11
View File
@@ -0,0 +1,11 @@
[package]
name = "embedded-models"
version = "0.1.0"
edition = "2024"
[dependencies]
serde = { version = "1", default-features = false }
defmt = { version = "1", optional = true }
spacepackets = { version = "0.17", default-features = false, features = ["defmt", "serde"] }
postcard = { version = "1", features = ["defmt"] }
arbitrary-int = "2"
embedded-examples/models/src/lib.rs
+84
View File
@@ -0,0 +1,84 @@
#![no_std]
use spacepackets::{
CcsdsPacketCreationError, CcsdsPacketCreatorWithReservedData, CcsdsPacketIdAndPsc,
SpacePacketHeader, ccsds_packet_len_for_user_data_len_with_checksum,
};
pub mod stm32f3 {
use arbitrary_int::u11;
use core::time::Duration;
pub const PUS_APID: u11 = u11::new(0x02);
#[derive(Copy, Clone, Debug, serde::Serialize, serde::Deserialize)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum Request {
Ping,
ChangeBlinkFrequency(Duration),
}
#[derive(Debug, serde::Serialize, serde::Deserialize)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum Response {
Ok,
}
}
/// This might look like a duplication, but we intentionally keep those separate so they can
/// change independently.
pub mod stm32h7 {
use arbitrary_int::u11;
use core::time::Duration;
pub const PUS_APID: u11 = u11::new(0x03);
#[derive(Copy, Clone, Debug, serde::Serialize, serde::Deserialize)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum Request {
Ping,
ChangeBlinkFrequency(Duration),
}
#[derive(Debug, serde::Serialize, serde::Deserialize)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum Response {
Ok,
}
}
#[derive(Debug, serde::Serialize, serde::Deserialize)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct TmHeader {
pub tc_packet_id: Option<CcsdsPacketIdAndPsc>,
pub uptime_millis: u64,
}
pub fn tm_size<Response: serde::Serialize>(tm_header: &TmHeader, response: &Response) -> usize {
ccsds_packet_len_for_user_data_len_with_checksum(
postcard::experimental::serialized_size(tm_header).unwrap()
+ postcard::experimental::serialized_size(response).unwrap(),
)
.unwrap()
}
pub fn create_tm_packet<Response: serde::Serialize>(
buf: &mut [u8],
sp_header: SpacePacketHeader,
tm_header: TmHeader,
response: Response,
) -> Result<usize, CcsdsPacketCreationError> {
let packet_data_size = postcard::experimental::serialized_size(&tm_header).unwrap()
+ postcard::experimental::serialized_size(&response).unwrap();
let mut creator =
CcsdsPacketCreatorWithReservedData::new_tm_with_checksum(sp_header, packet_data_size, buf)?;
let current_index = postcard::to_slice(&tm_header, creator.packet_data_mut())
.unwrap()
.len();
postcard::to_slice(&response, &mut creator.packet_data_mut()[current_index..]).unwrap();
Ok(creator.finish())
}
#[cfg(test)]
mod tests {}
embedded-examples/stm32f3-disco-rtic/Cargo.lock
Generated
+15 -1
View File
@@ -592,6 +592,17 @@ dependencies = [
"embedded-io",
]
[[package]]
name = "embedded-models"
version = "0.1.0"
dependencies = [
"arbitrary-int 2.0.0",
"defmt 1.0.1",
"postcard",
"serde",
"spacepackets",
]
[[package]]
name = "embedded-storage"
version = "0.3.1"
@@ -942,6 +953,7 @@ source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "6764c3b5dd454e283a30e6dfe78e9b31096d9e32036b5d1eaac7a6119ccb9a24"
dependencies = [
"cobs 0.3.0",
"defmt 1.0.1",
"heapless 0.7.17",
"serde",
]
@@ -1139,6 +1151,7 @@ dependencies = [
"defmt-test",
"embassy-stm32",
"embedded-hal 1.0.0",
"embedded-models",
"enumset",
"heapless 0.9.1",
"panic-probe",
@@ -1245,7 +1258,8 @@ checksum = "67b1b7a3b5fe4f1376887184045fcf45c69e92af734b7aaddc05fb777b6fbd03"
[[package]]
name = "spacepackets"
version = "0.17.0"
source = "git+https://egit.irs.uni-stuttgart.de/rust/spacepackets.git#2bc61677105765e69cc96bb1ff9960557c00fa8e"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "94979a990b4333f43667cba9fe9e72b9c4e9ada82e09fbe8fb250844358590cc"
dependencies = [
"arbitrary-int 2.0.0",
"bitbybit",
embedded-examples/stm32f3-disco-rtic/Cargo.toml
+1 -5
View File
@@ -7,6 +7,7 @@ default-run = "satrs-stm32f3-disco-rtic"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
embedded-models = { path = "../models", features = ["defmt"] }
cortex-m = { version = "0.7", features = ["critical-section-single-core"] }
cortex-m-rt = "0.7"
defmt = "1"
@@ -29,11 +30,6 @@ rtic = { version = "2", features = ["thumbv7-backend"] }
rtic-sync = { version = "1" }
rtic-monotonics = { version = "2", features = ["cortex-m-systick"] }
#[dependencies.satrs]
# path = "../../satrs"
#default-features = false
# features = ["defmt"]
[dev-dependencies]
defmt-test = "0.4"
embedded-examples/stm32f3-disco-rtic/src/lib.rs
+2 -48
View File
@@ -1,13 +1,10 @@
#![no_main]
#![no_std]
use defmt_rtt as _;
use arbitrary_int::u11;
use core::time::Duration;
use embassy_stm32::gpio::Output;
use spacepackets::{
ccsds_packet_len_for_user_data_len_with_checksum, CcsdsPacketCreationError,
CcsdsPacketCreatorWithReservedData, CcsdsPacketIdAndPsc, SpacePacketHeader,
};
pub const APID: u11 = u11::new(0x02);
@@ -40,49 +37,6 @@ impl Direction {
}
}
#[derive(Copy, Clone, Debug, defmt::Format, serde::Serialize, serde::Deserialize)]
pub enum Request {
Ping,
ChangeBlinkFrequency(Duration),
}
#[derive(Debug, defmt::Format, serde::Serialize, serde::Deserialize)]
pub struct TmHeader {
pub tc_packet_id: Option<CcsdsPacketIdAndPsc>,
pub uptime_millis: u32,
}
#[derive(Debug, defmt::Format, serde::Serialize, serde::Deserialize)]
pub enum Response {
CommandDone,
}
pub fn tm_size(tm_header: &TmHeader, response: &Response) -> usize {
ccsds_packet_len_for_user_data_len_with_checksum(
postcard::experimental::serialized_size(tm_header).unwrap()
+ postcard::experimental::serialized_size(response).unwrap(),
)
.unwrap()
}
pub fn create_tm_packet(
buf: &mut [u8],
sp_header: SpacePacketHeader,
tm_header: TmHeader,
response: Response,
) -> Result<usize, CcsdsPacketCreationError> {
let packet_data_size = postcard::experimental::serialized_size(&tm_header).unwrap()
+ postcard::experimental::serialized_size(&response).unwrap();
let mut creator =
CcsdsPacketCreatorWithReservedData::new_tm_with_checksum(sp_header, packet_data_size, buf)?;
let current_index = postcard::to_slice(&tm_header, creator.packet_data_mut())
.unwrap()
.len();
postcard::to_slice(&response, &mut creator.packet_data_mut()[current_index..]).unwrap();
Ok(creator.finish())
}
pub struct Leds {
pub north: Output<'static>,
pub north_east: Output<'static>,
embedded-examples/stm32f3-disco-rtic/src/main.rs
+17 -18
View File
@@ -1,9 +1,9 @@
#![no_std]
#![no_main]
use arbitrary_int::{u11, u14};
use arbitrary_int::u14;
use cortex_m_semihosting::debug::{self, EXIT_FAILURE, EXIT_SUCCESS};
use satrs_stm32f3_disco_rtic::{create_tm_packet, tm_size, CcsdsPacketId, Request, Response};
use spacepackets::{CcsdsPacketCreationError, SpHeader};
use embedded_models::{create_tm_packet, stm32f3, tm_size, TmHeader};
use spacepackets::{CcsdsPacketCreationError, CcsdsPacketIdAndPsc, SpHeader};
use defmt_rtt as _; // global logger
@@ -23,8 +23,6 @@ const TX_HANDLER_FREQ_MS: u32 = 20;
const MAX_TC_LEN: usize = 128;
const MAX_TM_LEN: usize = 128;
pub const PUS_APID: u11 = u11::new(0x02);
// This is the predictable maximum overhead of the COBS encoding scheme.
// It is simply the maximum packet lenght dividied by 254 rounded up.
const COBS_TM_OVERHEAD: usize = cobs::max_encoding_overhead(MAX_TM_LEN);
@@ -47,8 +45,8 @@ pub enum TmSendError {
#[derive(Debug, defmt::Format)]
pub struct RequestWithTcId {
pub request: Request,
pub tc_id: CcsdsPacketId,
pub request: stm32f3::Request,
pub tc_id: CcsdsPacketIdAndPsc,
}
#[app(device = embassy_stm32)]
@@ -57,12 +55,13 @@ mod app {
use super::*;
use arbitrary_int::u14;
use embedded_models::stm32f3::{Request, Response};
use rtic::Mutex;
use rtic_sync::{
channel::{Receiver, Sender},
make_channel,
};
use satrs_stm32f3_disco_rtic::{CcsdsPacketId, LedPinSet, Request, Response};
use satrs_stm32f3_disco_rtic::LedPinSet;
use spacepackets::CcsdsPacketReader;
systick_monotonic!(Mono, 1000);
@@ -200,7 +199,7 @@ mod app {
Ok(packet) => {
let packet_id = packet.packet_id();
let psc = packet.psc();
let tc_packet_id = CcsdsPacketId { packet_id, psc };
let tc_packet_id = CcsdsPacketIdAndPsc { packet_id, psc };
if let Ok(request) =
postcard::from_bytes::<Request>(packet.packet_data())
{
@@ -260,17 +259,17 @@ mod app {
fn handle_ping_request(
cx: &mut req_handler::Context,
tc_packet_id: CcsdsPacketId,
tc_packet_id: CcsdsPacketIdAndPsc,
) -> Result<(), TmSendError> {
defmt::info!("Received PUS ping telecommand, sending ping reply");
send_tm(tc_packet_id, Response::CommandDone, *cx.local.seq_count)?;
send_tm(tc_packet_id, Response::Ok, *cx.local.seq_count)?;
*cx.local.seq_count = cx.local.seq_count.wrapping_add(u14::new(1));
Ok(())
}
fn handle_change_blink_frequency_request(
cx: &mut req_handler::Context,
tc_packet_id: CcsdsPacketId,
tc_packet_id: CcsdsPacketIdAndPsc,
duration: Duration,
) -> Result<(), TmSendError> {
defmt::info!(
@@ -280,21 +279,21 @@ mod app {
cx.shared
.blink_freq
.lock(|blink_freq| *blink_freq = duration);
send_tm(tc_packet_id, Response::CommandDone, *cx.local.seq_count)?;
send_tm(tc_packet_id, Response::Ok, *cx.local.seq_count)?;
*cx.local.seq_count = cx.local.seq_count.wrapping_add(u14::new(1));
Ok(())
}
}
fn send_tm(
tc_packet_id: CcsdsPacketId,
response: Response,
tc_packet_id: CcsdsPacketIdAndPsc,
response: stm32f3::Response,
current_seq_count: u14,
) -> Result<(), TmSendError> {
let sp_header = SpHeader::new_for_unseg_tc(PUS_APID, current_seq_count, 0);
let tm_header = satrs_stm32f3_disco_rtic::TmHeader {
let sp_header = SpHeader::new_for_unseg_tc(stm32f3::PUS_APID, current_seq_count, 0);
let tm_header = TmHeader {
tc_packet_id: Some(tc_packet_id),
uptime_millis: Mono::now().duration_since_epoch().to_millis(),
uptime_millis: Mono::now().duration_since_epoch().to_millis() as u64,
};
let mut tm_packet = TmPacket::new();
let tm_size = tm_size(&tm_header, &response);
embedded-examples/stm32h7-nucleo-rtic/.cargo/def_config.toml
-29
View File
@@ -1,29 +0,0 @@
[target.'cfg(all(target_arch = "arm", target_os = "none"))']
runner = "probe-rs run --chip STM32H743ZITx"
# runner = ["probe-rs", "run", "--chip", "$CHIP", "--log-format", "{L} {s}"]
rustflags = [
"-C", "linker=flip-link",
"-C", "link-arg=-Tlink.x",
"-C", "link-arg=-Tdefmt.x",
# This is needed if your flash or ram addresses are not aligned to 0x10000 in memory.x
# See https://github.com/rust-embedded/cortex-m-quickstart/pull/95
"-C", "link-arg=--nmagic",
# Can be useful for debugging.
# "-Clink-args=-Map=app.map"
]
[build]
# (`thumbv6m-*` is compatible with all ARM Cortex-M chips but using the right
# target improves performance)
# target = "thumbv6m-none-eabi" # Cortex-M0 and Cortex-M0+
# target = "thumbv7m-none-eabi" # Cortex-M3
# target = "thumbv7em-none-eabi" # Cortex-M4 and Cortex-M7 (no FPU)
target = "thumbv7em-none-eabihf" # Cortex-M4F and Cortex-M7F (with FPU)
[alias]
rb = "run --bin"
rrb = "run --release --bin"
[env]
DEFMT_LOG = "info"
embedded-examples/stm32h7-nucleo-rtic/Cargo.lock
Generated
+644 -593
View File
File diff suppressed because it is too large Load Diff
embedded-examples/stm32h7-nucleo-rtic/Cargo.toml
+14 -24
View File
@@ -14,38 +14,28 @@ name = "integration"
harness = false
[dependencies]
embedded-models = { path = "../models", features = ["defmt"] }
cortex-m = { version = "0.7", features = ["critical-section-single-core"] }
arbitrary-int = "2"
cortex-m-rt = "0.7"
defmt = "1"
defmt-brtt = { version = "0.1", default-features = false, features = ["rtt"] }
defmt-rtt = "1"
panic-probe = { version = "1", features = ["print-defmt"] }
cortex-m-semihosting = "0.5.0"
# TODO: Replace with embassy-hal.
stm32h7xx-hal = { version="0.16", features= ["stm32h743v", "ethernet"] }
embedded-alloc = "0.6"
rtic-sync = { version = "1", features = ["defmt-03"] }
embedded-alloc = "0.7"
static_cell = "2"
rtic = { version = "2", features = ["thumbv7-backend"] }
spacepackets = { version = "0.17", default-features = false, features = ["defmt"] }
postcard = "1"
[dependencies.smoltcp]
version = "0.12"
default-features = false
features = ["medium-ethernet", "proto-ipv4", "socket-raw", "socket-dhcpv4", "socket-udp", "defmt"]
embassy-stm32 = { git = "https://github.com/embassy-rs/embassy.git", rev = "dd8e4c14e53f088bae27c5d841ab7a4fa338a52c", version = "0.6", features = ["stm32h743zi", "memory-x", "defmt", "time-driver-any"]}
[dependencies.rtic]
version = "2"
features = ["thumbv7-backend"]
[dependencies.rtic-monotonics]
version = "2"
features = ["cortex-m-systick"]
[dependencies.satrs]
path = "../../satrs"
# version = "0.2"
default-features = false
features = ["defmt", "heapless"]
embassy-time = { git = "https://github.com/embassy-rs/embassy.git", rev = "dd8e4c14e53f088bae27c5d841ab7a4fa338a52c", version = "0.5", features = ["defmt-timestamp-uptime-ms", "generic-queue-16"] }
embassy-net = { git = "https://github.com/embassy-rs/embassy.git", rev = "dd8e4c14e53f088bae27c5d841ab7a4fa338a52c", version = "0.9", features = ["medium-ethernet", "proto-ipv4", "tcp", "udp", "auto-icmp-echo-reply", "dhcpv4", "defmt"] }
embassy-sync = { git = "https://github.com/embassy-rs/embassy.git", rev = "dd8e4c14e53f088bae27c5d841ab7a4fa338a52c" }
[dev-dependencies]
defmt-test = "0.4"
defmt-test = "0.5"
# cargo build/run
[profile.dev]
embedded-examples/stm32h7-nucleo-rtic/STM32H743.svd
-107782
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File diff suppressed because it is too large Load Diff
embedded-examples/stm32h7-nucleo-rtic/build.rs
+14
View File
@@ -0,0 +1,14 @@
use std::path::PathBuf;
use std::{env, fs};
fn main() {
let manifest_dir = PathBuf::from(env::var_os("CARGO_MANIFEST_DIR").unwrap());
let cargo_dir = manifest_dir.parent().unwrap().join(".cargo");
let config = cargo_dir.join("config.toml");
let config_template = cargo_dir.join("config.toml.template");
if !config.exists() && config_template.exists() {
fs::create_dir_all(&cargo_dir).unwrap();
fs::copy(&config_template, &config).unwrap();
}
}
embedded-examples/stm32h7-nucleo-rtic/memory.x → embedded-examples/stm32h7-nucleo-rtic/memory.x.tmp
View File
embedded-examples/stm32h7-nucleo-rtic/pyclient/.gitignore
-8
View File
@@ -1,8 +0,0 @@
/venv
/.tmtc-history.txt
/log
/.idea/*
!/.idea/runConfigurations
/seqcnt.txt
/tmtc_conf.json
embedded-examples/stm32h7-nucleo-rtic/pyclient/def_tmtc_conf.json
-4
View File
@@ -1,4 +0,0 @@
{
"com_if": "udp",
"tcpip_udp_port": 7301
}
embedded-examples/stm32h7-nucleo-rtic/pyclient/main.py
-305
View File
@@ -1,305 +0,0 @@
#!/usr/bin/env python3
"""Example client for the sat-rs example application"""
import struct
import logging
import sys
import time
from typing import Any, Optional, cast
from prompt_toolkit.history import FileHistory, History
from spacepackets.ecss.tm import CdsShortTimestamp
import tmtccmd
from spacepackets.ecss import PusTelemetry, PusTelecommand, PusTm, PusVerificator
from spacepackets.ecss.pus_17_test import Service17Tm
from spacepackets.ecss.pus_1_verification import UnpackParams, Service1Tm
from tmtccmd import TcHandlerBase, ProcedureParamsWrapper
from tmtccmd.core.base import BackendRequest
from tmtccmd.core.ccsds_backend import QueueWrapper
from tmtccmd.logging import add_colorlog_console_logger
from tmtccmd.pus import VerificationWrapper
from tmtccmd.tmtc import CcsdsTmHandler, SpecificApidHandlerBase
from tmtccmd.com import ComInterface
from tmtccmd.config import (
CmdTreeNode,
default_json_path,
SetupParams,
HookBase,
params_to_procedure_conversion,
)
from tmtccmd.config.com import SerialCfgWrapper
from tmtccmd.config import PreArgsParsingWrapper, SetupWrapper
from tmtccmd.logging.pus import (
RegularTmtcLogWrapper,
RawTmtcTimedLogWrapper,
TimedLogWhen,
)
from tmtccmd.tmtc import (
TcQueueEntryType,
ProcedureWrapper,
TcProcedureType,
FeedWrapper,
SendCbParams,
DefaultPusQueueHelper,
)
from tmtccmd.pus.s5_fsfw_event import Service5Tm
from spacepackets.seqcount import FileSeqCountProvider, PusFileSeqCountProvider
from tmtccmd.util.obj_id import ObjectIdDictT
_LOGGER = logging.getLogger()
EXAMPLE_PUS_APID = 0x02
class SatRsConfigHook(HookBase):
def __init__(self, json_cfg_path: str):
super().__init__(json_cfg_path)
def get_communication_interface(self, com_if_key: str) -> Optional[ComInterface]:
from tmtccmd.config.com import (
create_com_interface_default,
create_com_interface_cfg_default,
)
assert self.cfg_path is not None
cfg = create_com_interface_cfg_default(
com_if_key=com_if_key,
json_cfg_path=self.cfg_path,
space_packet_ids=None,
)
if cfg is None:
raise ValueError(
f"No valid configuration could be retrieved for the COM IF with key {com_if_key}"
)
if cfg.com_if_key == "serial_cobs":
cfg = cast(SerialCfgWrapper, cfg)
cfg.serial_cfg.serial_timeout = 0.5
return create_com_interface_default(cfg)
def get_command_definitions(self) -> CmdTreeNode:
"""This function should return the root node of the command definition tree."""
return create_cmd_definition_tree()
def get_cmd_history(self) -> Optional[History]:
"""Optionlly return a history class for the past command paths which will be used
when prompting a command path from the user in CLI mode."""
return FileHistory(".tmtc-history.txt")
def get_object_ids(self) -> ObjectIdDictT:
from tmtccmd.config.objects import get_core_object_ids
return get_core_object_ids()
def create_cmd_definition_tree() -> CmdTreeNode:
root_node = CmdTreeNode.root_node()
root_node.add_child(CmdTreeNode("ping", "Send PUS ping TC"))
root_node.add_child(CmdTreeNode("change_blink_freq", "Change blink frequency"))
return root_node
class PusHandler(SpecificApidHandlerBase):
def __init__(
self,
file_logger: logging.Logger,
verif_wrapper: VerificationWrapper,
raw_logger: RawTmtcTimedLogWrapper,
):
super().__init__(EXAMPLE_PUS_APID, None)
self.file_logger = file_logger
self.raw_logger = raw_logger
self.verif_wrapper = verif_wrapper
def handle_tm(self, packet: bytes, _user_args: Any):
try:
pus_tm = PusTm.unpack(
packet, timestamp_len=CdsShortTimestamp.TIMESTAMP_SIZE
)
except ValueError as e:
_LOGGER.warning("Could not generate PUS TM object from raw data")
_LOGGER.warning(f"Raw Packet: [{packet.hex(sep=',')}], REPR: {packet!r}")
raise e
service = pus_tm.service
tm_packet = None
if service == 1:
tm_packet = Service1Tm.unpack(
data=packet, params=UnpackParams(CdsShortTimestamp.TIMESTAMP_SIZE, 1, 2)
)
res = self.verif_wrapper.add_tm(tm_packet)
if res is None:
_LOGGER.info(
f"Received Verification TM[{tm_packet.service}, {tm_packet.subservice}] "
f"with Request ID {tm_packet.tc_req_id.as_u32():#08x}"
)
_LOGGER.warning(
f"No matching telecommand found for {tm_packet.tc_req_id}"
)
else:
self.verif_wrapper.log_to_console(tm_packet, res)
self.verif_wrapper.log_to_file(tm_packet, res)
if service == 3:
_LOGGER.info("No handling for HK packets implemented")
_LOGGER.info(f"Raw packet: 0x[{packet.hex(sep=',')}]")
pus_tm = PusTelemetry.unpack(packet, CdsShortTimestamp.TIMESTAMP_SIZE)
if pus_tm.subservice == 25:
if len(pus_tm.source_data) < 8:
raise ValueError("No addressable ID in HK packet")
json_str = pus_tm.source_data[8:]
_LOGGER.info("received JSON string: " + json_str.decode("utf-8"))
if service == 5:
tm_packet = Service5Tm.unpack(packet, CdsShortTimestamp.TIMESTAMP_SIZE)
if service == 17:
tm_packet = Service17Tm.unpack(packet, CdsShortTimestamp.TIMESTAMP_SIZE)
if tm_packet.subservice == 2:
_LOGGER.info("Received Ping Reply TM[17,2]")
else:
_LOGGER.info(
f"Received Test Packet with unknown subservice {tm_packet.subservice}"
)
if tm_packet is None:
_LOGGER.info(
f"The service {service} is not implemented in Telemetry Factory"
)
tm_packet = PusTelemetry.unpack(packet, CdsShortTimestamp.TIMESTAMP_SIZE)
self.raw_logger.log_tm(pus_tm)
def make_addressable_id(target_id: int, unique_id: int) -> bytes:
byte_string = bytearray(struct.pack("!I", target_id))
byte_string.extend(struct.pack("!I", unique_id))
return byte_string
class TcHandler(TcHandlerBase):
def __init__(
self,
seq_count_provider: FileSeqCountProvider,
verif_wrapper: VerificationWrapper,
):
super(TcHandler, self).__init__()
self.seq_count_provider = seq_count_provider
self.verif_wrapper = verif_wrapper
self.queue_helper = DefaultPusQueueHelper(
queue_wrapper=QueueWrapper.empty(),
tc_sched_timestamp_len=7,
seq_cnt_provider=seq_count_provider,
pus_verificator=verif_wrapper.pus_verificator,
default_pus_apid=EXAMPLE_PUS_APID,
)
def send_cb(self, send_params: SendCbParams):
entry_helper = send_params.entry
if entry_helper.is_tc:
if entry_helper.entry_type == TcQueueEntryType.PUS_TC:
pus_tc_wrapper = entry_helper.to_pus_tc_entry()
pus_tc_wrapper.pus_tc.seq_count = (
self.seq_count_provider.get_and_increment()
)
self.verif_wrapper.add_tc(pus_tc_wrapper.pus_tc)
raw_tc = pus_tc_wrapper.pus_tc.pack()
_LOGGER.info(f"Sending {pus_tc_wrapper.pus_tc}")
send_params.com_if.send(raw_tc)
elif entry_helper.entry_type == TcQueueEntryType.LOG:
log_entry = entry_helper.to_log_entry()
_LOGGER.info(log_entry.log_str)
def queue_finished_cb(self, info: ProcedureWrapper):
if info.proc_type == TcProcedureType.TREE_COMMANDING:
def_proc = info.to_tree_commanding_procedure()
_LOGGER.info(f"Queue handling finished for command {def_proc.cmd_path}")
def feed_cb(self, info: ProcedureWrapper, wrapper: FeedWrapper):
q = self.queue_helper
q.queue_wrapper = wrapper.queue_wrapper
if info.proc_type == TcProcedureType.TREE_COMMANDING:
def_proc = info.to_tree_commanding_procedure()
cmd_path = def_proc.cmd_path
if cmd_path == "/ping":
q.add_log_cmd("Sending PUS ping telecommand")
q.add_pus_tc(PusTelecommand(service=17, subservice=1))
if cmd_path == "/change_blink_freq":
self.create_change_blink_freq_command(q)
def create_change_blink_freq_command(self, q: DefaultPusQueueHelper):
q.add_log_cmd("Changing blink frequency")
while True:
blink_freq = int(
input(
"Please specify new blink frequency in ms. Valid Range [2..10000]: "
)
)
if blink_freq < 2 or blink_freq > 10000:
print(
"Invalid blink frequency. Please specify a value between 2 and 10000."
)
continue
break
app_data = struct.pack("!I", blink_freq)
q.add_pus_tc(PusTelecommand(service=8, subservice=1, app_data=app_data))
def main():
add_colorlog_console_logger(_LOGGER)
tmtccmd.init_printout(False)
hook_obj = SatRsConfigHook(json_cfg_path=default_json_path())
parser_wrapper = PreArgsParsingWrapper()
parser_wrapper.create_default_parent_parser()
parser_wrapper.create_default_parser()
parser_wrapper.add_def_proc_args()
params = SetupParams()
post_args_wrapper = parser_wrapper.parse(hook_obj, params)
proc_wrapper = ProcedureParamsWrapper()
if post_args_wrapper.use_gui:
post_args_wrapper.set_params_without_prompts(proc_wrapper)
else:
post_args_wrapper.set_params_with_prompts(proc_wrapper)
params.apid = EXAMPLE_PUS_APID
setup_args = SetupWrapper(
hook_obj=hook_obj, setup_params=params, proc_param_wrapper=proc_wrapper
)
# Create console logger helper and file loggers
tmtc_logger = RegularTmtcLogWrapper()
file_logger = tmtc_logger.logger
raw_logger = RawTmtcTimedLogWrapper(when=TimedLogWhen.PER_HOUR, interval=1)
verificator = PusVerificator()
verification_wrapper = VerificationWrapper(verificator, _LOGGER, file_logger)
# Create primary TM handler and add it to the CCSDS Packet Handler
tm_handler = PusHandler(file_logger, verification_wrapper, raw_logger)
ccsds_handler = CcsdsTmHandler(generic_handler=None)
ccsds_handler.add_apid_handler(tm_handler)
# Create TC handler
seq_count_provider = PusFileSeqCountProvider()
tc_handler = TcHandler(seq_count_provider, verification_wrapper)
tmtccmd.setup(setup_args=setup_args)
init_proc = params_to_procedure_conversion(setup_args.proc_param_wrapper)
tmtc_backend = tmtccmd.create_default_tmtc_backend(
setup_wrapper=setup_args,
tm_handler=ccsds_handler,
tc_handler=tc_handler,
init_procedure=init_proc,
)
tmtccmd.start(tmtc_backend=tmtc_backend, hook_obj=hook_obj)
try:
while True:
state = tmtc_backend.periodic_op(None)
if state.request == BackendRequest.TERMINATION_NO_ERROR:
sys.exit(0)
elif state.request == BackendRequest.DELAY_IDLE:
_LOGGER.info("TMTC Client in IDLE mode")
time.sleep(3.0)
elif state.request == BackendRequest.DELAY_LISTENER:
time.sleep(0.8)
elif state.request == BackendRequest.DELAY_CUSTOM:
if state.next_delay.total_seconds() <= 0.4:
time.sleep(state.next_delay.total_seconds())
else:
time.sleep(0.4)
elif state.request == BackendRequest.CALL_NEXT:
pass
except KeyboardInterrupt:
sys.exit(0)
if __name__ == "__main__":
main()
embedded-examples/stm32h7-nucleo-rtic/pyclient/requirements.txt
-2
View File
@@ -1,2 +0,0 @@
tmtccmd == 8.0.1
# -e git+https://github.com/robamu-org/tmtccmd.git@main#egg=tmtccmd
embedded-examples/stm32h7-nucleo-rtic/rust-toolchain.toml
+2
View File
@@ -0,0 +1,2 @@
[toolchain]
targets = ["thumbv7em-none-eabihf"]
embedded-examples/stm32h7-nucleo-rtic/src/bin/blinky.rs
+39 -37
View File
@@ -5,51 +5,53 @@
#![no_std]
#![no_main]
use rtic::app;
use satrs_stm32h7_nucleo_rtic as _;
use stm32h7xx_hal::{block, prelude::*, timer::Timer};
#[app(device = embassy_stm32, peripherals = false, dispatchers = [SPI1])]
mod app {
use embassy_stm32::gpio;
use cortex_m_rt::entry;
#[shared]
struct Shared {}
#[entry]
fn main() -> ! {
defmt::println!("starting stm32h7 blinky example");
#[local]
struct Local {}
// Get access to the device specific peripherals from the peripheral access crate
let dp = stm32h7xx_hal::stm32::Peripherals::take().unwrap();
#[init]
fn init(_cx: init::Context) -> (Shared, Local) {
let p = embassy_stm32::init(Default::default());
defmt::info!("Hello World!");
// Configure gpio B pin 0 as a push-pull output.
let ld1 = gpio::Output::new(p.PB0, gpio::Level::High, gpio::Speed::Low);
let ld2 = gpio::Output::new(p.PB7, gpio::Level::High, gpio::Speed::Low);
let ld3 = gpio::Output::new(p.PB14, gpio::Level::High, gpio::Speed::Low);
// Take ownership over the RCC devices and convert them into the corresponding HAL structs
let rcc = dp.RCC.constrain();
// Schedule the blinking task
blink::spawn(ld1, ld2, ld3).ok();
let pwr = dp.PWR.constrain();
let pwrcfg = pwr.freeze();
(Shared {}, Local {})
}
// Freeze the configuration of all the clocks in the system and
// retrieve the Core Clock Distribution and Reset (CCDR) object
let rcc = rcc.use_hse(8.MHz()).bypass_hse();
let ccdr = rcc.freeze(pwrcfg, &dp.SYSCFG);
#[task()]
async fn blink(
_cx: blink::Context,
mut ld1: gpio::Output<'static>,
mut ld2: gpio::Output<'static>,
mut ld3: gpio::Output<'static>,
) {
loop {
defmt::info!("high");
ld1.set_high();
ld2.set_high();
ld3.set_high();
embassy_time::Timer::after_millis(500).await;
// Acquire the GPIOB peripheral
let gpiob = dp.GPIOB.split(ccdr.peripheral.GPIOB);
// Configure gpio B pin 0 as a push-pull output.
let mut ld1 = gpiob.pb0.into_push_pull_output();
// Configure gpio B pin 7 as a push-pull output.
let mut ld2 = gpiob.pb7.into_push_pull_output();
// Configure gpio B pin 14 as a push-pull output.
let mut ld3 = gpiob.pb14.into_push_pull_output();
// Configure the timer to trigger an update every second
let mut timer = Timer::tim1(dp.TIM1, ccdr.peripheral.TIM1, &ccdr.clocks);
timer.start(1.Hz());
// Wait for the timer to trigger an update and change the state of the LED
loop {
ld1.toggle();
ld2.toggle();
ld3.toggle();
block!(timer.wait()).unwrap();
defmt::info!("low");
ld1.set_low();
ld2.set_low();
ld3.set_low();
embassy_time::Timer::after_millis(500).await;
}
}
}
embedded-examples/stm32h7-nucleo-rtic/src/bin/hello.rs
+6 -4
View File
@@ -1,11 +1,13 @@
#![no_main]
#![no_std]
use satrs_stm32h7_nucleo_rtic as _; // global logger + panicking-behavior + memory layout
// global logger + panicking-behavior + memory layout
use satrs_stm32h7_nucleo_rtic as _;
#[cortex_m_rt::entry]
fn main() -> ! {
defmt::println!("Hello, world!");
satrs_stm32h7_nucleo_rtic::exit()
loop {
defmt::println!("Hello, world!");
cortex_m::asm::delay(100_000_000);
}
}
embedded-examples/stm32h7-nucleo-rtic/src/lib.rs
+3 -18
View File
@@ -1,13 +1,8 @@
#![no_main]
#![no_std]
use cortex_m_semihosting::debug;
use defmt_brtt as _; // global logger
// TODO(5) adjust HAL import
use stm32h7xx_hal as _; // memory layout
use defmt_rtt as _;
use embassy_stm32 as _;
use panic_probe as _;
// same panicking *behavior* as `panic-probe` but doesn't print a panic message
@@ -17,14 +12,6 @@ fn panic() -> ! {
cortex_m::asm::udf()
}
/// Terminates the application and makes a semihosting-capable debug tool exit
/// with status code 0.
pub fn exit() -> ! {
loop {
debug::exit(debug::EXIT_SUCCESS);
}
}
/// Hardfault handler.
///
/// Terminates the application and makes a semihosting-capable debug tool exit
@@ -32,9 +19,7 @@ pub fn exit() -> ! {
/// loop.
#[cortex_m_rt::exception]
unsafe fn HardFault(_frame: &cortex_m_rt::ExceptionFrame) -> ! {
loop {
debug::exit(debug::EXIT_FAILURE);
}
panic!("unexpected hard fault");
}
// defmt-test 0.3.0 has the limitation that this `#[tests]` attribute can only be used
embedded-examples/stm32h7-nucleo-rtic/src/main.rs
+294 -436
View File
@@ -3,422 +3,215 @@
extern crate alloc;
use rtic::app;
use rtic_monotonics::systick::prelude::*;
use satrs::pool::{PoolAddr, PoolProvider, StaticHeaplessMemoryPool};
use satrs::static_subpool;
// global logger + panicking-behavior + memory layout
use embassy_stm32::bind_interrupts;
use satrs_stm32h7_nucleo_rtic as _;
use smoltcp::socket::udp::UdpMetadata;
use smoltcp::socket::{dhcpv4, udp};
use core::mem::MaybeUninit;
use embedded_alloc::LlffHeap as Heap;
use smoltcp::iface::{Config, Interface, SocketHandle, SocketSet, SocketStorage};
use smoltcp::wire::{HardwareAddress, IpAddress, IpCidr};
use stm32h7xx_hal::ethernet;
const DEFAULT_BLINK_FREQ_MS: u32 = 1000;
const PORT: u16 = 7301;
const HEAP_SIZE: usize = 131_072;
const TC_SOURCE_CHANNEL_DEPTH: usize = 16;
pub type SharedPool = StaticHeaplessMemoryPool<3>;
pub type TcSourceChannel = rtic_sync::channel::Channel<PoolAddr, TC_SOURCE_CHANNEL_DEPTH>;
pub type TcSourceTx = rtic_sync::channel::Sender<'static, PoolAddr, TC_SOURCE_CHANNEL_DEPTH>;
pub type TcSourceRx = rtic_sync::channel::Receiver<'static, PoolAddr, TC_SOURCE_CHANNEL_DEPTH>;
#[global_allocator]
static HEAP: Heap = Heap::empty();
systick_monotonic!(Mono, 1000);
// We place the memory pool buffers inside the larger AXISRAM.
pub const SUBPOOL_SMALL_NUM_BLOCKS: u16 = 32;
pub const SUBPOOL_SMALL_BLOCK_SIZE: usize = 32;
pub const SUBPOOL_MEDIUM_NUM_BLOCKS: u16 = 16;
pub const SUBPOOL_MEDIUM_BLOCK_SIZE: usize = 128;
pub const SUBPOOL_LARGE_NUM_BLOCKS: u16 = 8;
pub const SUBPOOL_LARGE_BLOCK_SIZE: usize = 2048;
// This data will be held by Net through a mutable reference
pub struct NetStorageStatic<'a> {
socket_storage: [SocketStorage<'a>; 8],
}
// MaybeUninit allows us write code that is correct even if STORE is not
// initialised by the runtime
static mut STORE: MaybeUninit<NetStorageStatic> = MaybeUninit::uninit();
static mut UDP_RX_META: [udp::PacketMetadata; 12] = [udp::PacketMetadata::EMPTY; 12];
static mut UDP_RX: [u8; 2048] = [0; 2048];
static mut UDP_TX_META: [udp::PacketMetadata; 12] = [udp::PacketMetadata::EMPTY; 12];
static mut UDP_TX: [u8; 2048] = [0; 2048];
/// Locally administered MAC address
const MAC_ADDRESS: [u8; 6] = [0x02, 0x00, 0x11, 0x22, 0x33, 0x44];
pub struct Net {
iface: Interface,
ethdev: ethernet::EthernetDMA<4, 4>,
dhcp_handle: SocketHandle,
}
const TC_QUEUE_DEPTH: usize = 32;
const TM_QUEUE_DEPTH: usize = 32;
impl Net {
pub fn new(
sockets: &mut SocketSet<'static>,
mut ethdev: ethernet::EthernetDMA<4, 4>,
ethernet_addr: HardwareAddress,
) -> Self {
let config = Config::new(ethernet_addr);
let mut iface = Interface::new(
config,
&mut ethdev,
smoltcp::time::Instant::from_millis(Mono::now().duration_since_epoch().to_millis()),
);
// Create sockets
let dhcp_socket = dhcpv4::Socket::new();
iface.update_ip_addrs(|addrs| {
let _ = addrs.push(IpCidr::new(IpAddress::v4(192, 168, 1, 99), 0));
});
let dhcp_handle = sockets.add(dhcp_socket);
Net {
iface,
ethdev,
dhcp_handle,
}
}
/// Polls on the ethernet interface. You should refer to the smoltcp
/// documentation for poll() to understand how to call poll efficiently
pub fn poll<'a>(&mut self, sockets: &'a mut SocketSet) -> bool {
let uptime = Mono::now().duration_since_epoch();
let timestamp = smoltcp::time::Instant::from_millis(uptime.to_millis());
self.iface.poll(timestamp, &mut self.ethdev, sockets)
}
pub fn poll_dhcp<'a>(&mut self, sockets: &'a mut SocketSet) -> Option<dhcpv4::Event<'a>> {
let opt_event = sockets.get_mut::<dhcpv4::Socket>(self.dhcp_handle).poll();
if let Some(event) = &opt_event {
match event {
dhcpv4::Event::Deconfigured => {
defmt::info!("DHCP lost configuration");
self.iface.update_ip_addrs(|addrs| addrs.clear());
self.iface.routes_mut().remove_default_ipv4_route();
}
dhcpv4::Event::Configured(config) => {
defmt::info!("DHCP configuration acquired");
defmt::info!("IP address: {}", config.address);
self.iface.update_ip_addrs(|addrs| {
addrs.clear();
addrs.push(IpCidr::Ipv4(config.address)).unwrap();
});
if let Some(router) = config.router {
defmt::debug!("Default gateway: {}", router);
self.iface
.routes_mut()
.add_default_ipv4_route(router)
.unwrap();
} else {
defmt::debug!("Default gateway: None");
self.iface.routes_mut().remove_default_ipv4_route();
}
}
}
}
opt_event
}
}
pub struct UdpNet {
udp_handle: SocketHandle,
last_client: Option<UdpMetadata>,
tc_source_tx: TcSourceTx,
}
impl UdpNet {
pub fn new<'sockets>(sockets: &mut SocketSet<'sockets>, tc_source_tx: TcSourceTx) -> Self {
// SAFETY: The RX and TX buffers are passed here and not used anywhere else.
let udp_rx_buffer =
smoltcp::socket::udp::PacketBuffer::new(unsafe { &mut UDP_RX_META[..] }, unsafe {
&mut UDP_RX[..]
});
let udp_tx_buffer =
smoltcp::socket::udp::PacketBuffer::new(unsafe { &mut UDP_TX_META[..] }, unsafe {
&mut UDP_TX[..]
});
let udp_socket = smoltcp::socket::udp::Socket::new(udp_rx_buffer, udp_tx_buffer);
let udp_handle = sockets.add(udp_socket);
Self {
udp_handle,
last_client: None,
tc_source_tx,
}
}
pub fn poll<'sockets>(
&mut self,
sockets: &'sockets mut SocketSet,
shared_pool: &mut SharedPool,
) {
let socket = sockets.get_mut::<udp::Socket>(self.udp_handle);
if !socket.is_open() {
if let Err(e) = socket.bind(PORT) {
defmt::warn!("binding UDP socket failed: {}", e);
}
}
loop {
match socket.recv() {
Ok((data, client)) => {
match shared_pool.add(data) {
Ok(store_addr) => {
if let Err(e) = self.tc_source_tx.try_send(store_addr) {
defmt::warn!("TC source channel is full: {}", e);
}
}
Err(e) => {
defmt::warn!("could not add UDP packet to shared pool: {}", e);
}
}
self.last_client = Some(client);
// TODO: Implement packet wiretapping.
}
Err(e) => match e {
udp::RecvError::Exhausted => {
break;
}
udp::RecvError::Truncated => {
defmt::warn!("UDP packet was truncacted");
}
},
};
}
}
}
#[app(device = stm32h7xx_hal::stm32, peripherals = true)]
#[app(device = embassy_stm32, peripherals = false)]
mod app {
use core::ptr::addr_of_mut;
use super::*;
use rtic_monotonics::fugit::MillisDurationU32;
use satrs::spacepackets::ecss::tc::PusTcReader;
use stm32h7xx_hal::ethernet::{EthernetMAC, PHY};
use stm32h7xx_hal::gpio::{Output, Pin};
use stm32h7xx_hal::prelude::*;
use stm32h7xx_hal::stm32::Interrupt;
use arbitrary_int::u14;
use embassy_net::udp::UdpSocket;
use embassy_net::StackResources;
use embassy_stm32::eth;
use embassy_stm32::gpio;
use embassy_stm32::peripherals;
use embassy_stm32::rng;
use embassy_sync::blocking_mutex::raw::NoopRawMutex;
use embassy_time::Duration;
use embassy_time::Timer;
use embassy_time::WithTimeout as _;
use embedded_models::create_tm_packet;
use embedded_models::stm32h7;
use embedded_models::tm_size;
use embedded_models::TmHeader;
use spacepackets::CcsdsPacketCreationError;
use spacepackets::CcsdsPacketIdAndPsc;
use spacepackets::CcsdsPacketReader;
use spacepackets::SpHeader;
use static_cell::StaticCell;
bind_interrupts!(struct Irqs {
ETH => eth::InterruptHandler;
RNG => rng::InterruptHandler<peripherals::RNG>;
});
type Device = eth::Ethernet<
'static,
peripherals::ETH,
eth::GenericPhy<eth::Sma<'static, peripherals::ETH_SMA>>,
>;
struct BlinkyLeds {
led1: Pin<'B', 7, Output>,
led2: Pin<'B', 14, Output>,
led1: gpio::Output<'static>,
led2: gpio::Output<'static>,
}
#[local]
struct Local {
net_runner: embassy_net::Runner<'static, Device>,
net_stack: embassy_net::Stack<'static>,
leds: BlinkyLeds,
link_led: Pin<'B', 0, Output>,
net: Net,
udp: UdpNet,
tc_source_rx: TcSourceRx,
phy: ethernet::phy::LAN8742A<EthernetMAC>,
link_led: gpio::Output<'static>,
tc_rx: embassy_sync::channel::Receiver<
'static,
NoopRawMutex,
alloc::vec::Vec<u8>,
TC_QUEUE_DEPTH,
>,
tc_tx: embassy_sync::channel::Sender<
'static,
NoopRawMutex,
alloc::vec::Vec<u8>,
TC_QUEUE_DEPTH,
>,
tm_rx: embassy_sync::channel::Receiver<
'static,
NoopRawMutex,
alloc::vec::Vec<u8>,
TM_QUEUE_DEPTH,
>,
tm_tx: embassy_sync::channel::Sender<
'static,
NoopRawMutex,
alloc::vec::Vec<u8>,
TM_QUEUE_DEPTH,
>,
}
#[shared]
struct Shared {
blink_freq: MillisDurationU32,
eth_link_up: bool,
sockets: SocketSet<'static>,
shared_pool: SharedPool,
sequence_count: u14,
blink_freq: embassy_time::Duration,
}
#[init]
fn init(mut cx: init::Context) -> (Shared, Local) {
fn init(_cx: init::Context) -> (Shared, Local) {
defmt::println!("Starting sat-rs demo application for the STM32H743ZIT");
let pwr = cx.device.PWR.constrain();
let pwrcfg = pwr.freeze();
let mut config = embassy_stm32::Config::default();
{
use embassy_stm32::rcc::*;
config.rcc.hsi = Some(HSIPrescaler::Div1);
config.rcc.csi = true;
config.rcc.hsi48 = Some(Default::default()); // needed for RNG
config.rcc.pll1 = Some(Pll {
source: PllSource::Hsi,
prediv: PllPreDiv::Div4,
mul: PllMul::Mul50,
fracn: None,
divp: Some(PllDiv::Div2),
divq: None,
divr: None,
});
config.rcc.sys = Sysclk::Pll1P; // 400 Mhz
config.rcc.ahb_pre = AHBPrescaler::Div2; // 200 Mhz
config.rcc.apb1_pre = APBPrescaler::Div2; // 100 Mhz
config.rcc.apb2_pre = APBPrescaler::Div2; // 100 Mhz
config.rcc.apb3_pre = APBPrescaler::Div2; // 100 Mhz
config.rcc.apb4_pre = APBPrescaler::Div2; // 100 Mhz
config.rcc.voltage_scale = VoltageScale::Scale1;
}
let periphs = embassy_stm32::init(config);
let rcc = cx.device.RCC.constrain();
// Try to keep the clock configuration similar to one used in STM examples:
// https://github.com/STMicroelectronics/STM32CubeH7/blob/master/Projects/NUCLEO-H743ZI/Examples/GPIO/GPIO_EXTI/Src/main.c
let ccdr = rcc
.sys_ck(400.MHz())
.hclk(200.MHz())
.use_hse(8.MHz())
.bypass_hse()
.pclk1(100.MHz())
.pclk2(100.MHz())
.pclk3(100.MHz())
.pclk4(100.MHz())
.freeze(pwrcfg, &cx.device.SYSCFG);
// Initialize the systick interrupt & obtain the token to prove that we did
Mono::start(cx.core.SYST, ccdr.clocks.sys_ck().to_Hz());
// Those are used in the smoltcp of the stm32h7xx-hal , I am not fully sure what they are
// good for.
cx.core.SCB.enable_icache();
cx.core.DWT.enable_cycle_counter();
let gpioa = cx.device.GPIOA.split(ccdr.peripheral.GPIOA);
let gpiob = cx.device.GPIOB.split(ccdr.peripheral.GPIOB);
let gpioc = cx.device.GPIOC.split(ccdr.peripheral.GPIOC);
let gpiog = cx.device.GPIOG.split(ccdr.peripheral.GPIOG);
let link_led = gpiob.pb0.into_push_pull_output();
let mut led1 = gpiob.pb7.into_push_pull_output();
let mut led2 = gpiob.pb14.into_push_pull_output();
let link_led = gpio::Output::new(periphs.PB0, gpio::Level::Low, gpio::Speed::Medium);
let mut led1 = gpio::Output::new(periphs.PB7, gpio::Level::Low, gpio::Speed::Medium);
let mut led2 = gpio::Output::new(periphs.PB14, gpio::Level::Low, gpio::Speed::Medium);
// Criss-cross pattern looks cooler.
led1.set_high();
led2.set_low();
let leds = BlinkyLeds { led1, led2 };
let rmii_ref_clk = gpioa.pa1.into_alternate::<11>();
let rmii_mdio = gpioa.pa2.into_alternate::<11>();
let rmii_mdc = gpioc.pc1.into_alternate::<11>();
let rmii_crs_dv = gpioa.pa7.into_alternate::<11>();
let rmii_rxd0 = gpioc.pc4.into_alternate::<11>();
let rmii_rxd1 = gpioc.pc5.into_alternate::<11>();
let rmii_tx_en = gpiog.pg11.into_alternate::<11>();
let rmii_txd0 = gpiog.pg13.into_alternate::<11>();
let rmii_txd1 = gpiob.pb13.into_alternate::<11>();
let mac_addr = smoltcp::wire::EthernetAddress::from_bytes(&MAC_ADDRESS);
/// Ethernet descriptor rings are a global singleton
#[link_section = ".sram3.eth"]
static mut DES_RING: MaybeUninit<ethernet::DesRing<4, 4>> = MaybeUninit::uninit();
let (eth_dma, eth_mac) = ethernet::new(
cx.device.ETHERNET_MAC,
cx.device.ETHERNET_MTL,
cx.device.ETHERNET_DMA,
(
rmii_ref_clk,
rmii_mdio,
rmii_mdc,
rmii_crs_dv,
rmii_rxd0,
rmii_rxd1,
rmii_tx_en,
rmii_txd0,
rmii_txd1,
),
// SAFETY: We do not move the returned DMA struct across thread boundaries, so this
// should be safe according to the docs.
unsafe { DES_RING.assume_init_mut() },
mac_addr,
ccdr.peripheral.ETH1MAC,
&ccdr.clocks,
);
// Initialise ethernet PHY...
let mut lan8742a = ethernet::phy::LAN8742A::new(eth_mac.set_phy_addr(0));
lan8742a.phy_reset();
lan8742a.phy_init();
unsafe {
ethernet::enable_interrupt();
cx.core.NVIC.set_priority(Interrupt::ETH, 196); // Mid prio
cortex_m::peripheral::NVIC::unmask(Interrupt::ETH);
}
// unsafe: mutable reference to static storage, we only do this once
let store = unsafe {
let store_ptr = STORE.as_mut_ptr();
// Initialise the socket_storage field. Using `write` instead of
// assignment via `=` to not call `drop` on the old, uninitialised
// value
addr_of_mut!((*store_ptr).socket_storage).write([SocketStorage::EMPTY; 8]);
// Now that all fields are initialised we can safely use
// assume_init_mut to return a mutable reference to STORE
STORE.assume_init_mut()
};
let (tc_source_tx, tc_source_rx) =
rtic_sync::make_channel!(PoolAddr, TC_SOURCE_CHANNEL_DEPTH);
let mut sockets = SocketSet::new(&mut store.socket_storage[..]);
let net = Net::new(&mut sockets, eth_dma, mac_addr.into());
let udp = UdpNet::new(&mut sockets, tc_source_tx);
let mut shared_pool: SharedPool = StaticHeaplessMemoryPool::new(true);
static_subpool!(
SUBPOOL_SMALL,
SUBPOOL_SMALL_SIZES,
SUBPOOL_SMALL_NUM_BLOCKS as usize,
SUBPOOL_SMALL_BLOCK_SIZE,
link_section = ".axisram"
);
static_subpool!(
SUBPOOL_MEDIUM,
SUBPOOL_MEDIUM_SIZES,
SUBPOOL_MEDIUM_NUM_BLOCKS as usize,
SUBPOOL_MEDIUM_BLOCK_SIZE,
link_section = ".axisram"
);
static_subpool!(
SUBPOOL_LARGE,
SUBPOOL_LARGE_SIZES,
SUBPOOL_LARGE_NUM_BLOCKS as usize,
SUBPOOL_LARGE_BLOCK_SIZE,
link_section = ".axisram"
static PACKETS: StaticCell<eth::PacketQueue<4, 4>> = StaticCell::new();
// warning: Not all STM32H7 devices have the exact same pins here
// for STM32H747XIH, replace p.PB13 for PG12
let device = eth::Ethernet::new(
PACKETS.init(eth::PacketQueue::<4, 4>::new()),
periphs.ETH,
Irqs,
periphs.PA1, // ref_clk
periphs.PA7, // CRS_DV: Carrier Sense
periphs.PC4, // RX_D0: Received Bit 0
periphs.PC5, // RX_D1: Received Bit 1
periphs.PG13, // TX_D0: Transmit Bit 0
periphs.PB13, // TX_D1: Transmit Bit 1
periphs.PG11, // TX_EN: Transmit Enable
MAC_ADDRESS,
periphs.ETH_SMA,
periphs.PA2, // mdio
periphs.PC1, // mdc
);
shared_pool
.grow(
SUBPOOL_SMALL.get_mut().unwrap(),
SUBPOOL_SMALL_SIZES.get_mut().unwrap(),
SUBPOOL_SMALL_NUM_BLOCKS,
true,
)
.expect("growing heapless memory pool failed");
shared_pool
.grow(
SUBPOOL_MEDIUM.get_mut().unwrap(),
SUBPOOL_MEDIUM_SIZES.get_mut().unwrap(),
SUBPOOL_MEDIUM_NUM_BLOCKS,
true,
)
.expect("growing heapless memory pool failed");
shared_pool
.grow(
SUBPOOL_LARGE.get_mut().unwrap(),
SUBPOOL_LARGE_SIZES.get_mut().unwrap(),
SUBPOOL_LARGE_NUM_BLOCKS,
true,
)
.expect("growing heapless memory pool failed");
let config = embassy_net::Config::dhcpv4(embassy_net::DhcpConfig::default());
// Generate random seed.
let mut rng = rng::Rng::new(periphs.RNG, Irqs);
let mut seed = [0; 8];
rng.fill_bytes(&mut seed);
let seed = u64::from_le_bytes(seed);
// Init network stack
static RESOURCES: StaticCell<StackResources<3>> = StaticCell::new();
let (stack, runner) =
embassy_net::new(device, config, RESOURCES.init(StackResources::new()), seed);
// Set up global allocator. Use AXISRAM for the heap.
#[link_section = ".axisram"]
static mut HEAP_MEM: [MaybeUninit<u8>; HEAP_SIZE] = [MaybeUninit::uninit(); HEAP_SIZE];
unsafe { HEAP.init(&raw mut HEAP_MEM as usize, HEAP_SIZE) }
eth_link_check::spawn().expect("eth link check failed");
static TC_CHANNEL: static_cell::ConstStaticCell<
embassy_sync::channel::Channel<NoopRawMutex, alloc::vec::Vec<u8>, TC_QUEUE_DEPTH>,
> = static_cell::ConstStaticCell::new(embassy_sync::channel::Channel::new());
let tc_channel = TC_CHANNEL.take();
let tc_sender = tc_channel.sender();
let tc_receiver = tc_channel.receiver();
static TM_CHANNEL: static_cell::ConstStaticCell<
embassy_sync::channel::Channel<NoopRawMutex, alloc::vec::Vec<u8>, TM_QUEUE_DEPTH>,
> = static_cell::ConstStaticCell::new(embassy_sync::channel::Channel::new());
let tm_channel = TM_CHANNEL.take();
let tm_sender = tm_channel.sender();
let tm_receiver = tm_channel.receiver();
net_lib_task::spawn().expect("spawning net library task failed");
net_app_task::spawn().expect("spawning net application task failed");
blinky::spawn().expect("spawning blink task failed");
udp_task::spawn().expect("spawning UDP task failed");
tc_source_task::spawn().expect("spawning TC source task failed");
tc_handler::spawn().expect("spawning TC handler task failed");
(
Shared {
blink_freq: MillisDurationU32::from_ticks(DEFAULT_BLINK_FREQ_MS),
eth_link_up: false,
sockets,
shared_pool,
blink_freq: Duration::from_millis(DEFAULT_BLINK_FREQ_MS as u64),
sequence_count: u14::new(0),
},
Local {
link_led,
leds,
net,
udp,
tc_source_rx,
phy: lan8742a,
net_runner: runner,
net_stack: stack,
tc_tx: tc_sender,
tc_rx: tc_receiver,
tm_tx: tm_sender,
tm_rx: tm_receiver,
},
)
}
@@ -430,94 +223,159 @@ mod app {
leds.led1.toggle();
leds.led2.toggle();
let current_blink_freq = cx.shared.blink_freq.lock(|current| *current);
Mono::delay(current_blink_freq).await;
Timer::after_millis(current_blink_freq.as_millis()).await;
}
}
/// This task checks for the network link.
#[task(local=[link_led, phy], shared=[eth_link_up])]
async fn eth_link_check(mut cx: eth_link_check::Context) {
let phy = cx.local.phy;
let link_led = cx.local.link_led;
#[task(local=[net_runner])]
async fn net_lib_task(cx: net_lib_task::Context) {
cx.local.net_runner.run().await;
}
#[task(local = [net_stack, link_led, tc_tx, tm_rx])]
async fn net_app_task(cx: net_app_task::Context) {
pub const MTU: usize = 1500;
// Ensure those are in the data section by making them static.
static RX_UDP_META: static_cell::ConstStaticCell<[embassy_net::udp::PacketMetadata; 8]> =
static_cell::ConstStaticCell::new([embassy_net::udp::PacketMetadata::EMPTY; 8]);
static TX_UDP_META: static_cell::ConstStaticCell<[embassy_net::udp::PacketMetadata; 8]> =
static_cell::ConstStaticCell::new([embassy_net::udp::PacketMetadata::EMPTY; 8]);
static TX_UDP_BUFS: static_cell::ConstStaticCell<[u8; MTU]> =
static_cell::ConstStaticCell::new([0; MTU]);
static RX_UDP_BUFS: static_cell::ConstStaticCell<[u8; MTU]> =
static_cell::ConstStaticCell::new([0; MTU]);
let rx_udp_meta = RX_UDP_META.take();
let rx_udp_bufs = RX_UDP_BUFS.take();
let tx_udp_meta = TX_UDP_META.take();
let tx_udp_bufs = TX_UDP_BUFS.take();
let mut rx_buffer = [0; MTU];
loop {
let link_was_up = cx.shared.eth_link_up.lock(|link_up| *link_up);
if phy.poll_link() {
if !link_was_up {
link_led.set_high();
cx.shared.eth_link_up.lock(|link_up| *link_up = true);
defmt::info!("Ethernet link up");
cx.local.net_stack.wait_link_up().await;
cx.local.link_led.set_high();
defmt::info!("Network link is up");
// Ensure DHCP configuration is up before trying connect
cx.local.net_stack.wait_config_up().await;
let config = cx.local.net_stack.config_v4();
defmt::info!("Network task initialized, config: {}", config);
let mut udp = UdpSocket::new(
cx.local.net_stack.clone(),
rx_udp_meta,
rx_udp_bufs,
tx_udp_meta,
tx_udp_bufs,
);
defmt::info!("UDP socket bound to port {}", PORT);
udp.bind(PORT).expect("failed to bind UDP socket");
let mut remote_endpoint = None;
loop {
if !cx.local.net_stack.is_link_up() {
defmt::warn!("Network link is down");
cx.local.link_led.set_low();
break;
}
} else if link_was_up {
link_led.set_low();
cx.shared.eth_link_up.lock(|link_up| *link_up = false);
defmt::info!("Ethernet link down");
}
Mono::delay(100.millis()).await;
}
}
#[task(binds=ETH, local=[net], shared=[sockets])]
fn eth_isr(mut cx: eth_isr::Context) {
// SAFETY: We do not write the register mentioned inside the docs anywhere else.
unsafe {
ethernet::interrupt_handler();
}
// Check and process ETH frames and DHCP. UDP is checked in a different task.
cx.shared.sockets.lock(|sockets| {
cx.local.net.poll(sockets);
cx.local.net.poll_dhcp(sockets);
});
}
/// This task routes UDP packets.
#[task(local=[udp], shared=[sockets, shared_pool])]
async fn udp_task(mut cx: udp_task::Context) {
loop {
cx.shared.sockets.lock(|sockets| {
cx.shared.shared_pool.lock(|pool| {
cx.local.udp.poll(sockets, pool);
})
});
Mono::delay(40.millis()).await;
}
}
/// This task handles all the incoming telecommands.
#[task(local=[read_buf: [u8; 1024] = [0; 1024], tc_source_rx], shared=[shared_pool])]
async fn tc_source_task(mut cx: tc_source_task::Context) {
loop {
let recv_result = cx.local.tc_source_rx.recv().await;
match recv_result {
Ok(pool_addr) => {
cx.shared.shared_pool.lock(|pool| {
match pool.read(&pool_addr, cx.local.read_buf.as_mut()) {
Ok(packet_len) => {
defmt::info!("received {} bytes in the TC source task", packet_len);
match PusTcReader::new(&cx.local.read_buf[0..packet_len]) {
Ok((packet, _tc_len)) => {
// TODO: Handle packet here or dispatch to dedicated PUS
// handler? Dispatching could simplify some things and make
// the software more scalable..
defmt::info!("received PUS packet: {}", packet);
}
Err(e) => {
defmt::info!("invalid TC format, not a PUS packet: {}", e);
}
}
if let Err(e) = pool.delete(pool_addr) {
defmt::warn!("deleting TC data failed: {}", e);
}
}
Err(e) => {
defmt::warn!("TC packet read failed: {}", e);
}
match udp
.recv_from(&mut rx_buffer)
.with_timeout(Duration::from_millis(200))
.await
{
Ok(result) => match result {
Ok((data, meta)) => {
remote_endpoint = Some(meta.endpoint);
defmt::debug!("UDP RX {}, Meta: {}", data, meta);
cx.local.tc_tx.send(rx_buffer[0..data].to_vec()).await;
}
});
Err(e) => {
defmt::warn!("udp receive error: {}", e);
Timer::after_millis(100).await;
}
},
Err(_e) => (),
}
Err(e) => {
defmt::warn!("TC source reception error: {}", e);
if let Some(endpoint) = remote_endpoint {
while let Ok(packet) = cx.local.tm_rx.try_receive() {
match udp.send_to(&packet, endpoint).await {
Ok(_) => {
defmt::debug!("UDP TX: {} bytes to: {}", packet.len(), endpoint)
}
Err(e) => defmt::warn!("udp send error: {}", e),
}
}
}
};
}
}
}
#[task(local = [tc_rx, tm_tx], shared=[sequence_count, blink_freq])]
async fn tc_handler(mut cx: tc_handler::Context) {
loop {
let tc = cx.local.tc_rx.receive().await;
match CcsdsPacketReader::new_with_checksum(&tc) {
Ok(packet) => {
let packet_id = packet.packet_id();
let psc = packet.psc();
let tc_packet_id = CcsdsPacketIdAndPsc { packet_id, psc };
if let Ok(request) =
postcard::from_bytes::<stm32h7::Request>(packet.packet_data())
{
let response = match request {
stm32h7::Request::Ping => {
stm32h7::Response::Ok
}
stm32h7::Request::ChangeBlinkFrequency(duration) => {
cx.shared.blink_freq.lock(|current| {
*current = Duration::from_millis(duration.as_millis() as u64)
});
stm32h7::Response::Ok
}
};
let sequence_count = cx.shared.sequence_count.lock(|v| {
let current = *v;
*v = v.wrapping_add(u14::new(1));
current
});
// Send Pong/OK response immediately.
if let Err(e) =
send_tm(tc_packet_id, response, sequence_count, cx.local.tm_tx).await
{
defmt::warn!("Failed to send TM response: {}", e);
}
}
}
Err(e) => defmt::warn!("Failed to parse received TC packet: {}", e,),
}
defmt::info!("Received from UDP client: {}", tc.as_slice());
}
}
async fn send_tm(
tc_packet_id: CcsdsPacketIdAndPsc,
response: stm32h7::Response,
current_seq_count: u14,
sender: &embassy_sync::channel::Sender<
'static,
NoopRawMutex,
alloc::vec::Vec<u8>,
TM_QUEUE_DEPTH,
>,
) -> Result<(), CcsdsPacketCreationError> {
let sp_header = SpHeader::new_for_unseg_tc(stm32h7::PUS_APID, current_seq_count, 0);
let tm_header = TmHeader {
tc_packet_id: Some(tc_packet_id),
uptime_millis: embassy_time::Instant::now().as_millis(),
};
let tm_size = tm_size(&tm_header, &response);
let mut packet = alloc::vec![0; tm_size];
create_tm_packet(&mut packet, sp_header, tm_header, response)?;
sender.send(packet).await;
Ok(())
}
}
embedded-examples/stm32h7-nucleo-rtic/tests/integration.rs
+1 -1
View File
@@ -1,7 +1,7 @@
#![no_std]
#![no_main]
use stm32h7_testapp as _; // memory layout + panic handler
use satrs_stm32h7_nucleo_rtic as _; // memory layout + panic handler
// See https://crates.io/crates/defmt-test/0.3.0 for more documentation (e.g. about the 'state'
// feature)
embedded-examples/stm32h7-nucleo-rtic/vscode/.gitignore
-2
View File
@@ -1,2 +0,0 @@
/settings.json
/.cortex-debug.*
embedded-examples/stm32h7-nucleo-rtic/vscode/extensions.json
-12
View File
@@ -1,12 +0,0 @@
{
// See https://go.microsoft.com/fwlink/?LinkId=827846 to learn about workspace recommendations.
// Extension identifier format: ${publisher}.${name}. Example: vscode.csharp
// List of extensions which should be recommended for users of this workspace.
"recommendations": [
"rust-lang.rust",
"probe-rs.probe-rs-debugger"
],
// List of extensions recommended by VS Code that should not be recommended for users of this workspace.
"unwantedRecommendations": []
}
embedded-examples/stm32h7-nucleo-rtic/vscode/launch.json
-22
View File
@@ -1,22 +0,0 @@
{
"version": "0.2.0",
"configurations": [
{
"preLaunchTask": "${defaultBuildTask}",
"type": "probe-rs-debug",
"request": "launch",
"name": "probe-rs Debugging ",
"flashingConfig": {
"flashingEnabled": true
},
"chip": "STM32H743ZITx",
"coreConfigs": [
{
"programBinary": "${workspaceFolder}/target/thumbv7em-none-eabihf/debug/satrs-stm32h7-nucleo-rtic",
"rttEnabled": true,
"svdFile": "STM32H743.svd"
}
]
}
]
}
embedded-examples/stm32h7-nucleo-rtic/vscode/tasks.json
-20
View File
@@ -1,20 +0,0 @@
{
// See https://go.microsoft.com/fwlink/?LinkId=733558
// for the documentation about the tasks.json format
"version": "2.0.0",
"tasks": [
{
"label": "cargo build",
"type": "shell",
"command": "~/.cargo/bin/cargo", // note: full path to the cargo
"args": [
"build"
],
"group": {
"kind": "build",
"isDefault": true
}
},
]
}
justfile
+11 -3
View File
@@ -11,15 +11,23 @@ test:
cargo nextest run --all-features
cargo test --doc --all-features
embedded:
embedded: embedded-stm32h7 embedded-stm32f3
cargo check -p satrs --target=thumbv7em-none-eabihf --no-default-features
fmt:
cargo fmt --all
[working-directory:"embedded-examples/stm32h7-nucleo-rtic"]
embedded-stm32h7:
cargo build --target=thumbv7em-none-eabihf --release
[working-directory:"embedded-examples/stm32f3-disco-rtic"]
embedded-stm32f3:
cargo build --target=thumbv7em-none-eabihf --release
check-fmt:
cargo fmt --all -- --check
fmt:
cargo fmt --all
clippy:
cargo clippy -- -D warnings
satrs-example/Cargo.toml
+11 -15
View File
@@ -1,7 +1,7 @@
[package]
name = "satrs-example"
version = "0.1.1"
edition = "2021"
edition = "2024"
authors = ["Robin Mueller <muellerr@irs.uni-stuttgart.de>"]
default-run = "satrs-example"
homepage = "https://egit.irs.uni-stuttgart.de/rust/sat-rs"
@@ -18,28 +18,24 @@ csv = "1"
num_enum = "0.7"
thiserror = "2"
lazy_static = "1"
strum = { version = "0.27", features = ["derive"] }
strum = { version = "0.28", features = ["derive"] }
derive-new = "0.7"
cfg-if = "1"
arbitrary-int = "2"
bitbybit = "1.4"
bitbybit = "2"
postcard = "1"
ctrlc = "3"
serde = { version = "1", features = ["derive"] }
serde_json = "1"
[dependencies.satrs]
path = "../satrs"
features = ["test_util"]
[dependencies.satrs-minisim]
path = "../satrs-minisim"
[dependencies.satrs-mib]
version = "0.1.1"
path = "../satrs-mib"
satrs = { path = "../satrs", features = ["test_util"] }
models = { path = "./models" }
satrs-minisim = { path = "./minisim" }
satrs-mib = { path = "../satrs-mib" }
[features]
default = ["heap_tmtc"]
heap_tmtc = []
# default = ["heap_tmtc"]
# heap_tmtc = []
[dev-dependencies]
env_logger = "0.11"
satrs-example/client/Cargo.toml
+19
View File
@@ -0,0 +1,19 @@
[package]
name = "client"
version = "0.1.0"
edition = "2024"
[dependencies]
clap = { version = "4", features = ["derive"] }
log = "0.4"
fern = "0.7"
humantime = "2"
serde = { version = "1" }
satrs-example = { path = ".." }
models = { path = "../models" }
spacepackets = { version = "0.17", git = "https://egit.irs.uni-stuttgart.de/rust/spacepackets.git", default-features = false }
bitbybit = "2"
arbitrary-int = "2"
ctrlc = { version = "3.5" }
postcard = { version = "1" }
anyhow = "1"
satrs-example/client/src/main.rs
+334
View File
@@ -0,0 +1,334 @@
use anyhow::bail;
use arbitrary_int::u11;
use clap::Parser as _;
use models::{Apid, MessageType, TcHeader, mgm::request::HkRequest};
use satrs_example::config::{OBSW_SERVER_ADDR, SERVER_PORT};
use spacepackets::{CcsdsPacketIdAndPsc, SpacePacketHeader};
use std::{
net::{IpAddr, SocketAddr, UdpSocket},
sync::{
Arc,
atomic::{AtomicBool, Ordering},
},
time::{Duration, SystemTime},
};
#[derive(clap::Parser)]
pub struct Cli {
#[arg(short, long)]
ping: bool,
#[arg(short, long)]
test_event: bool,
#[command(subcommand)]
commands: Option<Commands>,
}
#[derive(clap::Subcommand)]
enum Commands {
Mgm0(MgmArgs),
Mgm1(MgmArgs),
MgmAssy(MgmAssemblyArgs),
}
impl Commands {
#[inline]
pub fn target_id(&self) -> models::ComponentId {
match self {
Commands::Mgm0(_mgm_args) => models::ComponentId::AcsMgm0,
Commands::Mgm1(_mgm_args) => models::ComponentId::AcsMgm1,
Commands::MgmAssy(_mgm_assembly_args) => models::ComponentId::AcsMgmAssembly,
}
}
}
#[derive(Debug, PartialEq, Eq, Clone, Copy, clap::Parser)]
struct MgmArgs {
#[arg(short, long)]
ping: bool,
#[arg(long)]
request_hk: bool,
#[arg(short, long)]
mode: Option<DeviceModeSelect>,
}
#[derive(Debug, PartialEq, Eq, Clone, Copy, clap::Parser)]
struct MgmAssemblyArgs {
#[arg(short, long)]
ping: bool,
#[arg(short, long)]
mode: Option<AssemblyModeSelect>,
}
#[derive(Debug, PartialEq, Eq, Clone, Copy, clap::ValueEnum)]
pub enum DeviceModeSelect {
Off,
Normal,
}
#[derive(Debug, PartialEq, Eq, Clone, Copy, clap::ValueEnum)]
pub enum AssemblyModeSelect {
NoModeKeeping,
Off,
Normal,
}
fn setup_logger(level: log::LevelFilter) -> Result<(), fern::InitError> {
fern::Dispatch::new()
.format(|out, message, record| {
out.finish(format_args!(
"[{} {} {}] {}",
humantime::format_rfc3339_seconds(SystemTime::now()),
record.level(),
record.target(),
message
))
})
.level(level)
.chain(std::io::stdout())
.chain(fern::log_file("output.log")?)
.apply()?;
Ok(())
}
fn main() -> anyhow::Result<()> {
setup_logger(log::LevelFilter::Debug).unwrap();
let kill_signal = Arc::new(AtomicBool::new(false));
let ctrl_kill_signal = kill_signal.clone();
ctrlc::set_handler(move || ctrl_kill_signal.store(true, Ordering::Relaxed)).unwrap();
let cli = Cli::parse();
let addr = SocketAddr::new(IpAddr::V4(OBSW_SERVER_ADDR), SERVER_PORT);
let client = UdpSocket::bind("127.0.0.1:7302").expect("Connecting to UDP server failed");
client.set_nonblocking(true)?;
client.set_read_timeout(Some(Duration::from_millis(200)))?;
if cli.ping {
let request = models::ccsds::CcsdsTcPacketOwned::new_with_request(
SpacePacketHeader::new_from_apid(u11::new(Apid::Tmtc as u16)),
TcHeader::new(models::ComponentId::Controller, models::MessageType::Ping),
models::control::request::Request::Ping,
);
let sent_tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&request.sp_header);
log::info!("sending ping request with TC ID {:#010x}", sent_tc_id.raw());
let request_packet = request.to_vec();
client.send_to(&request_packet, addr).unwrap();
}
if cli.test_event {
let request = models::ccsds::CcsdsTcPacketOwned::new_with_request(
SpacePacketHeader::new_from_apid(u11::new(Apid::Tmtc as u16)),
TcHeader::new(models::ComponentId::Controller, models::MessageType::Event),
models::control::request::Request::TestEvent,
);
let sent_tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&request.sp_header);
log::info!(
"sending event request with TC ID {:#010x}",
sent_tc_id.raw()
);
let request_packet = request.to_vec();
client.send_to(&request_packet, addr).unwrap();
}
if let Some(cmd) = cli.commands {
let target_id = cmd.target_id();
match cmd {
Commands::Mgm0(args) | Commands::Mgm1(args) => {
if args.ping {
let request = models::ccsds::CcsdsTcPacketOwned::new_with_request(
SpacePacketHeader::new_from_apid(u11::new(Apid::Acs as u16)),
TcHeader::new(cmd.target_id(), models::MessageType::Ping),
models::mgm::request::Request::Ping,
);
let sent_tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&request.sp_header);
log::info!(
"sending {:?} ping request with TC ID {:#010x}",
target_id,
sent_tc_id.raw()
);
let request_packet = request.to_vec();
client.send_to(&request_packet, addr).unwrap();
}
if args.request_hk {
let request = models::ccsds::CcsdsTcPacketOwned::new_with_request(
SpacePacketHeader::new_from_apid(u11::new(Apid::Acs as u16)),
TcHeader::new(target_id, models::MessageType::Hk),
models::mgm::request::Request::Hk(HkRequest {
id: models::mgm::request::HkId::Sensor,
req_type: models::HkRequestType::OneShot,
}),
);
let sent_tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&request.sp_header);
log::info!(
"sending {:?} HK request with TC ID {:#010x}",
target_id,
sent_tc_id.raw()
);
let request_packet = request.to_vec();
client.send_to(&request_packet, addr).unwrap();
}
if let Some(mode) = args.mode {
let dev_mode = match mode {
DeviceModeSelect::Off => models::DeviceMode::Off,
DeviceModeSelect::Normal => models::DeviceMode::Normal,
};
let request = models::ccsds::CcsdsTcPacketOwned::new_with_request(
SpacePacketHeader::new_from_apid(u11::new(Apid::Acs as u16)),
TcHeader::new(target_id, models::MessageType::Mode),
models::mgm::request::Request::Mode(
models::mgm::request::ModeRequest::SetMode(dev_mode),
),
);
let sent_tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&request.sp_header);
log::info!(
"sending {:?} HK request with TC ID {:#010x}",
target_id,
sent_tc_id.raw()
);
let request_packet = request.to_vec();
client.send_to(&request_packet, addr).unwrap();
}
}
Commands::MgmAssy(mgm_assembly_args) => {
if mgm_assembly_args.ping {
let request = models::ccsds::CcsdsTcPacketOwned::new_with_request(
SpacePacketHeader::new_from_apid(u11::new(Apid::Acs as u16)),
TcHeader::new(cmd.target_id(), models::MessageType::Ping),
models::mgm::request::Request::Ping,
);
let sent_tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&request.sp_header);
log::info!(
"sending {:?} ping request with TC ID {:#010x}",
target_id,
sent_tc_id.raw()
);
let request_packet = request.to_vec();
client.send_to(&request_packet, addr).unwrap();
}
if let Some(mode) = mgm_assembly_args.mode {
let assembly_mode = match mode {
AssemblyModeSelect::NoModeKeeping => {
models::mgm_assembly::AssemblyMode::NoModeKeeping
}
AssemblyModeSelect::Off => {
models::mgm_assembly::AssemblyMode::Device(models::DeviceMode::Off)
}
AssemblyModeSelect::Normal => {
models::mgm_assembly::AssemblyMode::Device(models::DeviceMode::Normal)
}
};
let request = models::ccsds::CcsdsTcPacketOwned::new_with_request(
SpacePacketHeader::new_from_apid(u11::new(Apid::Acs as u16)),
TcHeader::new(target_id, models::MessageType::Mode),
models::mgm_assembly::request::Request::Mode(
models::mgm_assembly::request::ModeRequest::SetMode(assembly_mode),
),
);
let sent_tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&request.sp_header);
log::info!(
"sending {:?} HK request with TC ID {:#010x}",
target_id,
sent_tc_id.raw()
);
let request_packet = request.to_vec();
client.send_to(&request_packet, addr).unwrap();
}
}
}
}
let mut recv_buf: Box<[u8; 2048]> = Box::new([0; 2048]);
log::info!("entering listening loop");
loop {
if kill_signal.load(std::sync::atomic::Ordering::Relaxed) {
log::info!("received kill signal, exiting");
break;
}
match client.recv(recv_buf.as_mut_slice()) {
Ok(received_bytes) => handle_raw_tm_packet(&recv_buf.as_slice()[0..received_bytes])?,
Err(e) => {
if e.kind() == std::io::ErrorKind::WouldBlock
|| e.kind() == std::io::ErrorKind::TimedOut
{
continue;
}
log::warn!("UDP reception error: {}", e)
}
}
}
Ok(())
}
fn handle_raw_tm_packet(data: &[u8]) -> anyhow::Result<()> {
match spacepackets::CcsdsPacketReader::new_with_checksum(data) {
Ok(packet) => {
let tm_header_result =
postcard::take_from_bytes::<models::TmHeader>(packet.user_data());
if let Err(e) = tm_header_result {
bail!("Failed to deserialize TM header: {}", e);
}
let (tm_header, remainder) = tm_header_result.unwrap();
if let Some(tc_id) = tm_header.tc_id {
log::info!(
"Received TM with APID {} and from sender {:?} for TC ID {:#010x}",
packet.apid(),
tm_header.sender_id,
tc_id.raw()
);
} else {
log::info!(
"Received unsolicited TM with APID {} and from sender {:?}",
packet.apid(),
tm_header.sender_id,
);
}
if tm_header.message_type == MessageType::Event {
let response = postcard::from_bytes::<models::Event>(remainder);
log::info!(
"Received event from {:?}: {:?}",
tm_header.sender_id,
response.unwrap()
);
return Ok(());
}
match tm_header.sender_id {
models::ComponentId::EpsPcdu => {
let response =
postcard::from_bytes::<models::pcdu::response::Response>(remainder);
log::info!("Received response from PCDU: {:?}", response.unwrap());
}
models::ComponentId::Controller => {
let response =
postcard::from_bytes::<models::control::response::Response>(remainder);
log::info!("Received response from controller: {:?}", response.unwrap());
}
models::ComponentId::AcsSubsystem => todo!(),
models::ComponentId::AcsMgmAssembly => {
let response =
postcard::from_bytes::<models::mgm_assembly::response::Response>(remainder);
log::info!(
"Received response from MGM Assembly: {:?}",
response.unwrap()
);
}
models::ComponentId::AcsMgm0 => {
let response =
postcard::from_bytes::<models::mgm::response::Response>(remainder);
log::info!("Received response from MGM0: {:?}", response.unwrap());
}
models::ComponentId::AcsMgm1 => {
let response =
postcard::from_bytes::<models::mgm::response::Response>(remainder);
log::info!("Received response from MGM1: {:?}", response.unwrap());
}
models::ComponentId::EpsSubsystem => todo!(),
models::ComponentId::UdpServer => todo!(),
models::ComponentId::TcpServer => todo!(),
models::ComponentId::Ground => todo!(),
models::ComponentId::EventManager => {}
}
}
Err(_) => todo!(),
}
Ok(())
}
satrs-minisim/Cargo.toml → satrs-example/minisim/Cargo.toml
+4 -6
View File
@@ -11,16 +11,14 @@ serde_json = "1"
log = "0.4"
thiserror = "2"
fern = "0.7"
strum = { version = "0.27", features = ["derive"] }
strum = { version = "0.28", features = ["derive"] }
num_enum = "0.7"
humantime = "2"
tai-time = { version = "0.3", features = ["serde"] }
nexosim = { version = "0.3.1" }
[dependencies.nexosim]
version = "0.3.1"
[dependencies.satrs]
path = "../satrs"
satrs = { path = "../../satrs" }
models = { path = "../models" }
[dev-dependencies]
delegate = "0.13"
satrs-minisim/README.md → satrs-example/minisim/README.md
View File
satrs-minisim/src/acs.rs → satrs-example/minisim/src/acs.rs
+5 -6
View File
@@ -1,10 +1,10 @@
use std::{f32::consts::PI, sync::mpsc, time::Duration};
use models::pcdu::SwitchStateBinary;
use nexosim::{
model::{Context, Model},
ports::Output,
};
use satrs::power::SwitchStateBinary;
use satrs_minisim::{
acs::{
lis3mdl::MgmLis3MdlReply, MgmReplyCommon, MgmReplyProvider, MgmSensorValuesMicroTesla,
@@ -179,13 +179,12 @@ impl Model for MagnetorquerModel {}
pub mod tests {
use std::time::Duration;
use satrs::power::SwitchStateBinary;
use models::pcdu::{SwitchId, SwitchStateBinary};
use satrs_minisim::{
acs::{
lis3mdl::{self, MgmLis3MdlReply},
MgmRequestLis3Mdl, MgtDipole, MgtHkSet, MgtReply, MgtRequest,
},
eps::PcduSwitch,
SerializableSimMsgPayload, SimComponent, SimMessageProvider, SimRequest,
};
@@ -215,7 +214,7 @@ pub mod tests {
#[test]
fn test_basic_mgm_request_switched_on() {
let mut sim_testbench = SimTestbench::new();
switch_device_on(&mut sim_testbench, PcduSwitch::Mgm);
switch_device_on(&mut sim_testbench, SwitchId::Mgm0);
let mut request = SimRequest::new_with_epoch_time(MgmRequestLis3Mdl::RequestSensorData);
sim_testbench
@@ -279,7 +278,7 @@ pub mod tests {
#[test]
fn test_basic_mgt_request_is_on() {
let mut sim_testbench = SimTestbench::new();
switch_device_on(&mut sim_testbench, PcduSwitch::Mgt);
switch_device_on(&mut sim_testbench, SwitchId::Mgt);
let request = SimRequest::new_with_epoch_time(MgtRequest::RequestHk);
sim_testbench
@@ -324,7 +323,7 @@ pub mod tests {
#[test]
fn test_basic_mgt_request_is_on_and_torquing() {
let mut sim_testbench = SimTestbench::new();
switch_device_on(&mut sim_testbench, PcduSwitch::Mgt);
switch_device_on(&mut sim_testbench, SwitchId::Mgt);
let commanded_dipole = MgtDipole {
x: -200,
y: 200,
satrs-minisim/src/controller.rs → satrs-example/minisim/src/controller.rs
View File
satrs-minisim/src/eps.rs → satrs-example/minisim/src/eps.rs
+21 -21
View File
@@ -1,14 +1,11 @@
use std::{sync::mpsc, time::Duration};
use models::pcdu::{SwitchId, SwitchMapBinaryWrapper, SwitchStateBinary};
use nexosim::{
model::{Context, Model},
ports::Output,
};
use satrs::power::SwitchStateBinary;
use satrs_minisim::{
eps::{PcduReply, PcduSwitch, SwitchMapBinaryWrapper},
SimReply,
};
use satrs_minisim::{eps::PcduReply, SimReply};
pub const SWITCH_INFO_DELAY_MS: u64 = 10;
@@ -45,10 +42,12 @@ impl PcduModel {
self.reply_sender.send(reply).unwrap();
}
pub async fn switch_device(
&mut self,
switch_and_target_state: (PcduSwitch, SwitchStateBinary),
) {
pub async fn switch_device(&mut self, switch_and_target_state: (SwitchId, SwitchStateBinary)) {
log::info!(
"switching {:?} to {:?}",
switch_and_target_state.0,
switch_and_target_state.1
);
let val = self
.switcher_map
.0
@@ -56,12 +55,13 @@ impl PcduModel {
.unwrap_or_else(|| panic!("switch {:?} not found", switch_and_target_state.0));
*val = switch_and_target_state.1;
match switch_and_target_state.0 {
PcduSwitch::Mgm => {
SwitchId::Mgm0 => {
self.mgm_0_switch.send(switch_and_target_state.1).await;
}
PcduSwitch::Mgt => {
SwitchId::Mgt => {
self.mgt_switch.send(switch_and_target_state.1).await;
}
SwitchId::Mgm1 => todo!(),
}
}
}
@@ -73,16 +73,16 @@ pub(crate) mod tests {
use super::*;
use std::time::Duration;
use models::pcdu::SwitchMapBinary;
use satrs_minisim::{
eps::{PcduRequest, SwitchMapBinary},
SerializableSimMsgPayload, SimComponent, SimMessageProvider, SimRequest,
eps::PcduRequest, SerializableSimMsgPayload, SimComponent, SimMessageProvider, SimRequest,
};
use crate::test_helpers::SimTestbench;
fn switch_device(
sim_testbench: &mut SimTestbench,
switch: PcduSwitch,
switch: SwitchId,
target: SwitchStateBinary,
) {
let request = SimRequest::new_with_epoch_time(PcduRequest::SwitchDevice {
@@ -97,10 +97,10 @@ pub(crate) mod tests {
}
#[allow(dead_code)]
pub(crate) fn switch_device_off(sim_testbench: &mut SimTestbench, switch: PcduSwitch) {
pub(crate) fn switch_device_off(sim_testbench: &mut SimTestbench, switch: SwitchId) {
switch_device(sim_testbench, switch, SwitchStateBinary::Off);
}
pub(crate) fn switch_device_on(sim_testbench: &mut SimTestbench, switch: PcduSwitch) {
pub(crate) fn switch_device_on(sim_testbench: &mut SimTestbench, switch: SwitchId) {
switch_device(sim_testbench, switch, SwitchStateBinary::On);
}
@@ -128,7 +128,7 @@ pub(crate) mod tests {
}
}
fn test_pcdu_switching_single_switch(switch: PcduSwitch, target: SwitchStateBinary) {
fn test_pcdu_switching_single_switch(switch: SwitchId, target: SwitchStateBinary) {
let mut sim_testbench = SimTestbench::new();
switch_device(&mut sim_testbench, switch, target);
let mut switcher_map = get_all_off_switch_map();
@@ -165,17 +165,17 @@ pub(crate) mod tests {
#[test]
fn test_pcdu_switching_mgm_on() {
test_pcdu_switching_single_switch(PcduSwitch::Mgm, SwitchStateBinary::On);
test_pcdu_switching_single_switch(SwitchId::Mgm0, SwitchStateBinary::On);
}
#[test]
fn test_pcdu_switching_mgt_on() {
test_pcdu_switching_single_switch(PcduSwitch::Mgt, SwitchStateBinary::On);
test_pcdu_switching_single_switch(SwitchId::Mgt, SwitchStateBinary::On);
}
#[test]
fn test_pcdu_switching_mgt_off() {
test_pcdu_switching_single_switch(PcduSwitch::Mgt, SwitchStateBinary::On);
test_pcdu_switching_single_switch(PcduSwitch::Mgt, SwitchStateBinary::Off);
test_pcdu_switching_single_switch(SwitchId::Mgt, SwitchStateBinary::On);
test_pcdu_switching_single_switch(SwitchId::Mgt, SwitchStateBinary::Off);
}
}
satrs-minisim/src/lib.rs → satrs-example/minisim/src/lib.rs
+3 -70
View File
@@ -1,5 +1,4 @@
use nexosim::time::MonotonicTime;
use num_enum::{IntoPrimitive, TryFromPrimitive};
use serde::{de::DeserializeOwned, Deserialize, Serialize};
#[derive(Debug, Copy, Clone, PartialEq, Eq, Serialize, Deserialize, Hash)]
@@ -162,73 +161,7 @@ impl From<SimRequestError> for SimCtrlReply {
pub mod eps {
use super::*;
use satrs::power::{SwitchState, SwitchStateBinary};
use std::collections::HashMap;
use strum::{EnumIter, IntoEnumIterator};
pub type SwitchMap = HashMap<PcduSwitch, SwitchState>;
pub type SwitchMapBinary = HashMap<PcduSwitch, SwitchStateBinary>;
pub struct SwitchMapWrapper(pub SwitchMap);
pub struct SwitchMapBinaryWrapper(pub SwitchMapBinary);
#[derive(
Debug,
Copy,
Clone,
PartialEq,
Eq,
Serialize,
Deserialize,
Hash,
EnumIter,
IntoPrimitive,
TryFromPrimitive,
)]
#[repr(u16)]
pub enum PcduSwitch {
Mgm = 0,
Mgt = 1,
}
impl Default for SwitchMapBinaryWrapper {
fn default() -> Self {
let mut switch_map = SwitchMapBinary::default();
for entry in PcduSwitch::iter() {
switch_map.insert(entry, SwitchStateBinary::Off);
}
Self(switch_map)
}
}
impl Default for SwitchMapWrapper {
fn default() -> Self {
let mut switch_map = SwitchMap::default();
for entry in PcduSwitch::iter() {
switch_map.insert(entry, SwitchState::Unknown);
}
Self(switch_map)
}
}
impl SwitchMapWrapper {
pub fn new_with_init_switches_off() -> Self {
let mut switch_map = SwitchMap::default();
for entry in PcduSwitch::iter() {
switch_map.insert(entry, SwitchState::Off);
}
Self(switch_map)
}
pub fn from_binary_switch_map_ref(switch_map: &SwitchMapBinary) -> Self {
Self(
switch_map
.iter()
.map(|(key, value)| (*key, SwitchState::from(*value)))
.collect(),
)
}
}
use models::pcdu::{SwitchId, SwitchMapBinary, SwitchStateBinary};
#[derive(Debug, Copy, Clone)]
#[repr(u8)]
@@ -240,7 +173,7 @@ pub mod eps {
#[derive(Debug, Copy, Clone, PartialEq, Eq, Serialize, Deserialize)]
pub enum PcduRequest {
SwitchDevice {
switch: PcduSwitch,
switch: SwitchId,
state: SwitchStateBinary,
},
RequestSwitchInfo,
@@ -264,7 +197,7 @@ pub mod eps {
pub mod acs {
use std::time::Duration;
use satrs::power::SwitchStateBinary;
use models::pcdu::SwitchStateBinary;
use super::*;
satrs-minisim/src/main.rs → satrs-example/minisim/src/main.rs
View File
satrs-minisim/src/test_helpers.rs → satrs-example/minisim/src/test_helpers.rs
View File
satrs-minisim/src/time.rs → satrs-example/minisim/src/time.rs
View File
satrs-minisim/src/udp.rs → satrs-example/minisim/src/udp.rs
+2 -5
View File
@@ -91,11 +91,8 @@ impl SimUdpServer {
self.sender_addr = Some(src);
let sim_req = SimRequest::from_raw_data(&self.req_buf[..bytes_read]);
if sim_req.is_err() {
log::warn!(
"received UDP request with invalid format: {}",
sim_req.unwrap_err()
);
if let Err(e) = sim_req {
log::warn!("received UDP request with invalid format: {}", e);
return processed_requests;
}
self.request_sender.send(sim_req.unwrap()).unwrap();
satrs-example/models/Cargo.toml
+15
View File
@@ -0,0 +1,15 @@
[package]
name = "models"
version = "0.1.0"
edition = "2024"
[dependencies]
serde = { version = "1", features = ["derive"] }
spacepackets = { version = "0.17", git = "https://egit.irs.uni-stuttgart.de/rust/spacepackets.git", default-features = false }
satrs = { path = "../../satrs" }
num_enum = { version = "0.7" }
strum = { version = "0.28", features = ["derive"] }
postcard = { version = "1" }
thiserror = { version = "2" }
bitbybit = "2"
arbitrary-int = "2"
satrs-example/models/src/ccsds.rs
+130
View File
@@ -0,0 +1,130 @@
use crate::TmHeader;
use serde::Serialize;
use spacepackets::{
CcsdsPacketCreationError, CcsdsPacketCreatorWithReservedData, SpHeader, SpacePacketHeader,
ccsds_packet_len_for_user_data_len_with_checksum,
};
use crate::TcHeader;
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct CcsdsTcPacketOwned {
pub sp_header: SpacePacketHeader,
pub tc_header: TcHeader,
pub payload: alloc::vec::Vec<u8>,
}
impl CcsdsTcPacketOwned {
pub fn new_with_request<R: serde::Serialize>(
sp_header: SpacePacketHeader,
tc_header: TcHeader,
request: R,
) -> Self {
let request_serialized = postcard::to_allocvec(&request).unwrap();
Self::new(sp_header, tc_header, request_serialized)
}
pub fn new(
sp_header: SpacePacketHeader,
tc_header: TcHeader,
payload: alloc::vec::Vec<u8>,
) -> Self {
Self {
sp_header,
tc_header,
payload,
}
}
pub fn write_to_bytes(&self, buf: &mut [u8]) -> Result<usize, CcsdsCreationError> {
let response_len =
postcard::experimental::serialized_size(&self.tc_header)? + self.payload.len();
let mut ccsds_tc = CcsdsPacketCreatorWithReservedData::new_tc_with_checksum(
self.sp_header,
response_len,
buf,
)?;
let user_data = ccsds_tc.packet_data_mut();
let ser_len = postcard::to_slice(&self.tc_header, user_data)?.len();
user_data[ser_len..ser_len + self.payload.len()].copy_from_slice(&self.payload);
let ccsds_packet_len = ccsds_tc.finish();
Ok(ccsds_packet_len)
}
pub fn len_written(&self) -> usize {
ccsds_packet_len_for_user_data_len_with_checksum(
postcard::experimental::serialized_size(&self.tc_header).unwrap() as usize
+ postcard::experimental::serialized_size(&self.payload).unwrap() as usize,
)
.unwrap()
}
pub fn to_vec(&self) -> alloc::vec::Vec<u8> {
let mut buf = alloc::vec![0u8; self.len_written()];
let len = self.write_to_bytes(&mut buf).unwrap();
buf.truncate(len);
buf
}
}
#[derive(Debug, thiserror::Error)]
pub enum CcsdsCreationError {
#[error("CCSDS packet creation error: {0}")]
CcsdsPacketCreation(#[from] CcsdsPacketCreationError),
#[error("postcard error: {0}")]
Postcard(#[from] postcard::Error),
#[error("timestamp generation error")]
Time,
}
/// Unserialized owned TM packet which can be cloned and sent around.
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct CcsdsTmPacketOwned {
pub sp_header: SpacePacketHeader,
pub tm_header: TmHeader,
pub payload: alloc::vec::Vec<u8>,
}
impl CcsdsTmPacketOwned {
pub fn new_with_serde_payload(
sp_header: SpHeader,
tm_header: &TmHeader,
payload: &impl Serialize,
) -> Result<Self, postcard::Error> {
Ok(CcsdsTmPacketOwned {
sp_header,
tm_header: *tm_header,
payload: postcard::to_allocvec(&payload)?,
})
}
pub fn write_to_bytes(&self, buf: &mut [u8]) -> Result<usize, CcsdsCreationError> {
let response_len =
postcard::experimental::serialized_size(&self.tm_header)? + self.payload.len();
let mut ccsds_tm = CcsdsPacketCreatorWithReservedData::new_tm_with_checksum(
self.sp_header,
response_len,
buf,
)?;
let user_data = ccsds_tm.packet_data_mut();
let ser_len = postcard::to_slice(&self.tm_header, user_data)?.len();
user_data[ser_len..ser_len + self.payload.len()].copy_from_slice(&self.payload);
let ccsds_packet_len = ccsds_tm.finish();
Ok(ccsds_packet_len)
}
pub fn len_written(&self) -> usize {
ccsds_packet_len_for_user_data_len_with_checksum(
postcard::experimental::serialized_size(&self.tm_header).unwrap() as usize
+ postcard::experimental::serialized_size(&self.payload).unwrap() as usize,
)
.unwrap()
}
pub fn to_vec(&self) -> alloc::vec::Vec<u8> {
let mut buf = alloc::vec![0u8; self.len_written()];
let len = self.write_to_bytes(&mut buf).unwrap();
buf.truncate(len);
buf
}
}
satrs-example/models/src/control.rs
+39
View File
@@ -0,0 +1,39 @@
use crate::Message;
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug)]
pub enum Event {
TestEvent,
}
impl Message for Event {
fn message_type(&self) -> crate::MessageType {
crate::MessageType::Event
}
}
pub mod request {
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug)]
pub enum Request {
Ping,
TestEvent,
}
}
pub mod response {
use crate::Message;
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug)]
pub enum Response {
Ok,
Event(super::Event),
}
impl Message for Response {
fn message_type(&self) -> crate::MessageType {
match self {
Response::Ok => crate::MessageType::Verification,
Response::Event(_event) => crate::MessageType::Event,
}
}
}
}
satrs-example/models/src/lib.rs
+196
View File
@@ -0,0 +1,196 @@
extern crate alloc;
use core::str::FromStr;
use spacepackets::{
CcsdsPacketIdAndPsc,
time::cds::{CdsTime, MIN_CDS_FIELD_LEN},
};
pub mod ccsds;
pub mod control;
pub mod mgm;
pub mod mgm_assembly;
pub mod pcdu;
#[derive(
Debug,
Copy,
Clone,
PartialEq,
Eq,
Hash,
serde::Serialize,
serde::Deserialize,
num_enum::TryFromPrimitive,
num_enum::IntoPrimitive,
)]
#[repr(u64)]
pub enum ComponentId {
Controller,
AcsSubsystem,
AcsMgmAssembly,
AcsMgm0,
AcsMgm1,
EpsSubsystem,
EpsPcdu,
UdpServer,
TcpServer,
EventManager,
Ground,
}
#[derive(Debug, PartialEq, Eq, strum::EnumIter)]
#[bitbybit::bitenum(u11)]
pub enum Apid {
Tmtc = 1,
Cfdp = 2,
Acs = 3,
Eps = 6,
}
#[derive(Debug, Copy, Clone, serde::Serialize, serde::Deserialize)]
pub enum Event {
ControllerEvent(control::Event),
}
impl Message for Event {
fn message_type(&self) -> MessageType {
MessageType::Event
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, serde::Serialize, serde::Deserialize)]
#[non_exhaustive]
pub struct TmHeader {
pub sender_id: ComponentId,
pub target_id: ComponentId,
pub message_type: MessageType,
/// Telemetry can either be sent unsolicited, or as a response to telecommands.
pub tc_id: Option<CcsdsPacketIdAndPsc>,
/// Raw CDS short timestamp.
pub timestamp: Option<[u8; 7]>,
}
impl TmHeader {
pub fn new(
sender_id: ComponentId,
target_id: ComponentId,
message_type: MessageType,
tc_id: Option<CcsdsPacketIdAndPsc>,
cds_timestamp: &CdsTime,
) -> Self {
// Can not fail, CDS short always requires 7 bytes.
let mut stamp_buf: [u8; MIN_CDS_FIELD_LEN] = [0; MIN_CDS_FIELD_LEN];
cds_timestamp.write_to_bytes(&mut stamp_buf).unwrap();
Self {
sender_id,
target_id,
tc_id,
message_type,
timestamp: Some(stamp_buf),
}
}
pub fn new_for_unsolicited_tm(
sender_id: ComponentId,
target_id: ComponentId,
message_type: MessageType,
cds_timestamp: &CdsTime,
) -> Self {
Self::new(sender_id, target_id, message_type, None, cds_timestamp)
}
pub fn new_for_tc_response(
sender_id: ComponentId,
target_id: ComponentId,
message_type: MessageType,
tc_id: CcsdsPacketIdAndPsc,
cds_timestamp: &CdsTime,
) -> Self {
Self::new(
sender_id,
target_id,
message_type,
Some(tc_id),
cds_timestamp,
)
}
pub fn from_bytes_postcard(data: &[u8]) -> Result<(Self, &[u8]), postcard::Error> {
postcard::take_from_bytes::<TmHeader>(data)
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, serde::Serialize, serde::Deserialize)]
#[non_exhaustive]
pub struct TcHeader {
pub target_id: ComponentId,
pub request_type: MessageType,
}
impl TcHeader {
pub fn new(target_id: ComponentId, request_type: MessageType) -> Self {
Self {
target_id,
request_type,
}
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, serde::Serialize, serde::Deserialize)]
pub enum MessageType {
Ping,
Mode,
Hk,
Action,
Event,
Verification,
}
pub trait Message {
fn message_type(&self) -> MessageType;
}
/// Generic device mode which covers the requirements of most devices.
///
/// The states are related both to the physical and the logical state of the device. Some
/// device handlers control the power supply of their own device and an off state might also
/// mean that the device is physically off.
#[derive(serde::Serialize, serde::Deserialize, Debug, PartialEq, Eq, Copy, Clone)]
pub enum DeviceMode {
Off = 0,
On = 1,
/// Normal operation mode where periodic polling might be done as well.
Normal = 2,
}
impl FromStr for DeviceMode {
type Err = ();
fn from_str(s: &str) -> Result<Self, Self::Err> {
match s.to_lowercase().as_str() {
"off" => Ok(DeviceMode::Off),
"on" => Ok(DeviceMode::On),
"normal" => Ok(DeviceMode::Normal),
_ => Err(()),
}
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, serde::Serialize, serde::Deserialize)]
#[non_exhaustive]
pub enum HkRequestType {
OneShot,
/// Enable periodic HK generation with a specified frequency.
EnablePeriodic(core::time::Duration),
DisablePeriodic,
/// Modify periodic HK generation interval.
ModifyInterval(core::time::Duration),
}
#[cfg(test)]
mod tests {}
satrs-example/models/src/mgm.rs
+90
View File
@@ -0,0 +1,90 @@
pub mod request {
use crate::{DeviceMode, HkRequestType, Message};
#[derive(serde::Serialize, serde::Deserialize, Debug, Clone, Copy, PartialEq, Eq)]
pub enum ModeRequest {
SetMode(DeviceMode),
ReadMode,
}
#[derive(Debug, PartialEq, Eq, Clone, Copy, serde::Serialize, serde::Deserialize)]
pub enum HkId {
Sensor,
}
#[derive(Debug, PartialEq, Eq, Clone, Copy, serde::Serialize, serde::Deserialize)]
pub struct HkRequest {
pub id: HkId,
pub req_type: HkRequestType,
}
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug)]
pub enum Request {
Ping,
Hk(HkRequest),
Mode(ModeRequest),
}
impl Request {
fn message_type(&self) -> crate::MessageType {
match self {
Request::Ping => crate::MessageType::Verification,
Request::Hk(_hk_request) => crate::MessageType::Hk,
Request::Mode(_mode) => crate::MessageType::Mode,
}
}
}
impl Message for Request {
fn message_type(&self) -> crate::MessageType {
self.message_type()
}
}
}
#[derive(Default, Debug, Copy, Clone, serde::Serialize, serde::Deserialize)]
pub struct MgmData {
pub valid: bool,
pub x: f32,
pub y: f32,
pub z: f32,
}
pub mod response {
use crate::{DeviceMode, Message, mgm::MgmData};
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug)]
pub enum HkResponse {
MgmData(MgmData),
}
#[derive(serde::Serialize, serde::Deserialize, Debug, Clone, Copy)]
pub enum ModeResponse {
/// New mode has been set.
Mode(DeviceMode),
/// Setting a mode timed out.
SetModeTimeout,
}
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug)]
pub enum Response {
Ok,
Hk(HkResponse),
Mode(ModeResponse),
}
impl Response {
fn message_type(&self) -> crate::MessageType {
match self {
Response::Ok => crate::MessageType::Verification,
Response::Hk(_hk_response) => crate::MessageType::Hk,
Response::Mode(_mode_failure) => crate::MessageType::Mode,
}
}
}
impl Message for Response {
fn message_type(&self) -> crate::MessageType {
self.message_type()
}
}
}
satrs-example/models/src/mgm_assembly.rs
+109
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@@ -0,0 +1,109 @@
use core::str::FromStr;
use crate::DeviceMode;
#[derive(serde::Serialize, serde::Deserialize, Debug, Clone, Copy, PartialEq, Eq)]
pub enum AssemblyMode {
/// The assembly mode ressembles the modes of the devices it controls. It also tries to keep
/// the children in the correct mode by re-commanding them into the correct mode.
Device(DeviceMode),
/// Mode keeping disabled.
NoModeKeeping,
}
impl FromStr for AssemblyMode {
type Err = ();
fn from_str(s: &str) -> Result<Self, Self::Err> {
match s.to_lowercase().as_str() {
"off" => Ok(AssemblyMode::Device(DeviceMode::Off)),
"on" => Ok(AssemblyMode::Device(DeviceMode::On)),
"normal" => Ok(AssemblyMode::Device(DeviceMode::Normal)),
"no_mode_keeping" => Ok(AssemblyMode::NoModeKeeping),
_ => Err(()),
}
}
}
pub mod request {
use crate::{HkRequestType, Message, mgm_assembly::AssemblyMode};
#[derive(Debug, PartialEq, Eq, Clone, Copy, serde::Serialize, serde::Deserialize)]
pub enum HkId {
Sensor,
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, serde::Serialize, serde::Deserialize)]
pub enum ModeRequest {
SetMode(AssemblyMode),
ReadMode,
}
#[derive(Debug, PartialEq, Eq, Clone, Copy, serde::Serialize, serde::Deserialize)]
pub struct HkRequest {
pub id: HkId,
pub req_type: HkRequestType,
}
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug)]
pub enum Request {
Ping,
Mode(ModeRequest),
}
impl Request {
fn message_type(&self) -> crate::MessageType {
match self {
Request::Ping => crate::MessageType::Verification,
Request::Mode(_mode) => crate::MessageType::Mode,
}
}
}
impl Message for Request {
fn message_type(&self) -> crate::MessageType {
self.message_type()
}
}
}
pub mod response {
use crate::{DeviceMode, Message};
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug, PartialEq, Eq)]
pub enum ModeCommandFailure {
Timeout,
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, serde::Serialize, serde::Deserialize)]
pub enum ModeReport {
/// Mode of the assembly.
Mode(super::AssemblyMode),
/// Timeout failure setting the children modes.
SetModeTimeout([Option<DeviceMode>; 2]),
/// Children are in wrong mode after commanding.
WrongMode([Option<DeviceMode>; 2]),
/// An assembly tried modekeeping but can not keep its mode.
CanNotKeepMode([Option<DeviceMode>; 2]),
}
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug, PartialEq, Eq)]
pub enum Response {
Ok,
Mode(ModeReport),
}
impl Response {
fn message_type(&self) -> crate::MessageType {
match self {
Response::Ok => crate::MessageType::Verification,
Response::Mode(_mode_report) => crate::MessageType::Mode,
}
}
}
impl Message for Response {
fn message_type(&self) -> crate::MessageType {
self.message_type()
}
}
}
satrs-example/models/src/pcdu.rs
+147
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@@ -0,0 +1,147 @@
use std::collections::HashMap;
use strum::IntoEnumIterator as _;
#[bitbybit::bitfield(u16, debug, default = 0x0)]
#[derive(serde::Serialize, serde::Deserialize)]
pub struct SwitchesBitfield {
#[bit(2, rw)]
magnetorquer: bool,
#[bit(1, rw)]
mgm1: bool,
#[bit(0, rw)]
mgm0: bool,
}
#[derive(
Debug,
Copy,
Clone,
PartialEq,
Eq,
serde::Serialize,
serde::Deserialize,
Hash,
strum::EnumIter,
num_enum::IntoPrimitive,
num_enum::TryFromPrimitive,
)]
#[repr(u16)]
pub enum SwitchId {
Mgm0 = 0,
Mgm1 = 1,
Mgt = 2,
}
#[derive(Debug, Eq, PartialEq, Copy, Clone, serde::Serialize, serde::Deserialize)]
pub enum SwitchState {
Off = 0,
On = 1,
Unknown = 2,
Faulty = 3,
}
impl From<SwitchStateBinary> for SwitchState {
fn from(value: SwitchStateBinary) -> Self {
match value {
SwitchStateBinary::Off => SwitchState::Off,
SwitchStateBinary::On => SwitchState::On,
}
}
}
#[derive(Debug, Eq, PartialEq, Copy, Clone, serde::Serialize, serde::Deserialize)]
pub enum SwitchStateBinary {
Off = 0,
On = 1,
}
pub type SwitchMapBinary = HashMap<SwitchId, SwitchStateBinary>;
pub struct SwitchMapBinaryWrapper(pub SwitchMapBinary);
impl Default for SwitchMapBinaryWrapper {
fn default() -> Self {
let mut switch_map = SwitchMapBinary::default();
for entry in SwitchId::iter() {
switch_map.insert(entry, SwitchStateBinary::Off);
}
Self(switch_map)
}
}
pub struct SwitchRequest {
pub switch_id: SwitchId,
pub target_state: SwitchStateBinary,
}
impl SwitchRequest {
pub fn new(switch_id: SwitchId, target_state: SwitchStateBinary) -> Self {
Self {
switch_id,
target_state,
}
}
pub fn switch_id(&self) -> SwitchId {
self.switch_id
}
pub fn target_state(&self) -> SwitchStateBinary {
self.target_state
}
}
pub mod request {
use crate::{DeviceMode, Message};
use super::*;
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug)]
pub enum Request {
Mode(DeviceMode),
Ping,
GetSwitches,
EnableSwitches(SwitchesBitfield),
DisableSwitches(SwitchesBitfield),
}
impl Request {
pub fn message_type(&self) -> crate::MessageType {
match self {
Request::Mode(_mode) => crate::MessageType::Mode,
Request::Ping => crate::MessageType::Verification,
Request::GetSwitches => crate::MessageType::Action,
Request::EnableSwitches(_switches) | Request::DisableSwitches(_switches) => {
crate::MessageType::Action
}
}
}
}
impl Message for Request {
fn message_type(&self) -> crate::MessageType {
self.message_type()
}
}
}
pub mod response {
use super::*;
use crate::Message;
#[derive(serde::Serialize, serde::Deserialize, Clone, Copy, Debug)]
pub enum Response {
Ok,
Switches(SwitchesBitfield),
}
impl Message for Response {
fn message_type(&self) -> crate::MessageType {
match self {
Response::Ok => crate::MessageType::Verification,
Response::Switches(_switches) => crate::MessageType::Action,
}
}
}
}
satrs-example/src/acs/assembly.rs
-1
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@@ -1 +0,0 @@
// TODO: Write the assembly
satrs-example/src/acs/mgm.rs
+526 -478
View File
File diff suppressed because it is too large Load Diff
satrs-example/src/acs/mgm_assembly.rs
+634
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@@ -0,0 +1,634 @@
use std::{sync::mpsc, time::Duration};
use models::{
ComponentId, DeviceMode,
mgm_assembly::{AssemblyMode, request, response},
};
use satrs::spacepackets::CcsdsPacketIdAndPsc;
use satrs_example::{ModeHelper, TmtcQueues};
use crate::ccsds::pack_ccsds_tm_packet_for_now;
pub struct ParentQueueHelper {
pub request_rx: mpsc::Receiver<request::ModeRequest>,
pub report_tx: mpsc::SyncSender<response::ModeReport>,
}
/// Helper component for communication with a parent component, which is usually as assembly.
pub struct ChildrenQueueHelper {
pub request_tx_queues: [mpsc::SyncSender<models::mgm::request::ModeRequest>; 2],
pub report_rx_queues: [mpsc::Receiver<models::mgm::response::ModeResponse>; 2],
}
#[derive(Debug, Default, Clone, Copy, PartialEq, Eq)]
pub enum TransitionState {
#[default]
Idle,
AwaitingReplies,
}
#[derive(Debug, Default, Copy, Clone)]
pub struct MgmInfo {
reply_received: bool,
mode: Option<DeviceMode>,
}
/// MGM assembly component.
pub struct Assembly {
mode_helper: ModeHelper<AssemblyMode, TransitionState>,
/// This boolean is used for the distinction between transitions commanded by the parent
/// or by ground, and transitions which were commanded autonomously as part of children
/// mode keeping.
mode_keeping_transition: bool,
tmtc_queues: TmtcQueues,
mgm_modes: [MgmInfo; 2],
parent_queues: ParentQueueHelper,
pub(crate) children_queues: ChildrenQueueHelper,
}
impl Assembly {
pub const ID: ComponentId = ComponentId::AcsMgmAssembly;
pub fn new(
parent_queues: ParentQueueHelper,
children_queues: ChildrenQueueHelper,
tmtc_queues: TmtcQueues,
mode_timeout: Duration,
) -> Self {
Self {
mode_helper: ModeHelper::new(AssemblyMode::NoModeKeeping, mode_timeout),
mode_keeping_transition: false,
tmtc_queues,
mgm_modes: [MgmInfo::default(); 2],
parent_queues,
children_queues,
}
}
pub fn periodic_operation(&mut self) {
self.handle_telecommands();
self.handle_parent_mode_queue();
self.handle_children_mode_queues();
if self.mode_helper.transition_active() {
self.handle_mode_transition();
}
}
pub fn handle_telecommands(&mut self) {
loop {
match self.tmtc_queues.tc_rx.try_recv() {
Ok(packet) => {
let tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&packet.sp_header);
match postcard::from_bytes::<models::mgm_assembly::request::Request>(
&packet.payload,
) {
Ok(request) => match request {
models::mgm_assembly::request::Request::Ping => {
self.send_telemetry(Some(tc_id), response::Response::Ok)
}
models::mgm_assembly::request::Request::Mode(request) => {
match request {
request::ModeRequest::SetMode(assembly_mode) => {
self.start_transition(false, assembly_mode, Some(tc_id))
}
request::ModeRequest::ReadMode => self.send_telemetry(
Some(tc_id),
response::Response::Mode(response::ModeReport::Mode(
self.mode(),
)),
),
}
}
},
Err(e) => {
log::warn!("failed to deserialize request: {}", e);
}
}
}
Err(e) => match e {
mpsc::TryRecvError::Empty => break,
mpsc::TryRecvError::Disconnected => log::warn!("packet sender disconnected"),
},
}
}
}
pub fn send_telemetry(
&self,
tc_id: Option<CcsdsPacketIdAndPsc>,
response: models::mgm_assembly::response::Response,
) {
match pack_ccsds_tm_packet_for_now(Self::ID, tc_id, &response) {
Ok(packet) => {
if let Err(e) = self.tmtc_queues.tm_tx.send(packet) {
log::warn!("failed to send TM packet: {}", e);
}
}
Err(e) => {
log::warn!("failed to pack TM packet: {}", e);
}
}
}
pub fn handle_parent_mode_queue(&mut self) {
loop {
match self.parent_queues.request_rx.try_recv() {
Ok(request) => match request {
request::ModeRequest::SetMode(assembly_mode) => match assembly_mode {
AssemblyMode::Device(_device_mode) => {
self.start_transition(false, assembly_mode, None);
}
AssemblyMode::NoModeKeeping => {
self.mode_helper.current = AssemblyMode::NoModeKeeping;
}
},
request::ModeRequest::ReadMode => self
.parent_queues
.report_tx
.send(response::ModeReport::Mode(self.mode_helper.current))
.unwrap(),
},
Err(e) => match e {
mpsc::TryRecvError::Empty => break,
mpsc::TryRecvError::Disconnected => {
log::warn!("packet sender disconnected")
}
},
}
}
}
pub fn handle_children_mode_queues(&mut self) {
let mut mode_report_received = false;
for (idx, rx) in self.children_queues.report_rx_queues.iter_mut().enumerate() {
loop {
match rx.try_recv() {
Ok(report) => match report {
models::mgm::response::ModeResponse::Mode(device_mode) => {
self.mgm_modes[idx].mode = Some(device_mode);
self.mgm_modes[idx].reply_received = true;
mode_report_received = true;
}
models::mgm::response::ModeResponse::SetModeTimeout => {
// Ignore, handle this with our own timeout.
log::warn!("MGM {} mode timeout", idx);
}
},
Err(e) => match e {
mpsc::TryRecvError::Empty => break,
mpsc::TryRecvError::Disconnected => {
log::warn!("packet sender disconnected")
}
},
}
}
}
if !mode_report_received {
return;
}
// Transition is active, check for completion.
if self.mode_helper.transition_active()
&& self.mgm_modes.iter().all(|i| i.reply_received)
&& let AssemblyMode::Device(device_mode) = self.mode_helper.target.unwrap()
{
// If at least one child reached the correct mode, we are done.
if self.mgm_modes.iter().any(|i| i.mode == Some(device_mode)) {
self.handle_mode_reached(true);
} else {
let report = if self.mode_keeping_transition {
response::ModeReport::CanNotKeepMode(self.mgm_modes.map(|info| info.mode))
} else {
response::ModeReport::WrongMode(self.mgm_modes.map(|info| info.mode))
};
self.handle_mode_transition_failure(report);
}
}
// Mode keeping active: Check children modes.
if let AssemblyMode::Device(device_mode) = self.mode_helper.current
&& self
.mgm_modes
.iter()
.all(|info| info.mode != Some(device_mode))
{
// Children lost mode. Try to command them back to the correct
// mode.
self.start_transition(true, self.mode_helper.current, None);
}
}
pub fn handle_mode_transition(&mut self) {
if self.mode_helper.target.is_none() {
self.handle_mode_reached(true);
return;
}
let target = self.mode_helper.target.unwrap();
let device_mode = match target {
AssemblyMode::Device(device_mode) => device_mode,
AssemblyMode::NoModeKeeping => {
self.handle_mode_reached(true);
return;
}
};
if self.mode_helper.transition_state == TransitionState::Idle {
self.command_children(device_mode);
self.mode_helper.transition_state = TransitionState::AwaitingReplies;
}
if self.mode_helper.transition_state == TransitionState::AwaitingReplies
&& self.mode_helper.timed_out()
{
let report = if self.mode_keeping_transition {
response::ModeReport::CanNotKeepMode(self.mgm_modes.map(|info| info.mode))
} else {
response::ModeReport::SetModeTimeout(self.mgm_modes.map(|info| info.mode))
};
self.handle_mode_transition_failure(report);
}
}
pub fn handle_mode_reached(&mut self, success: bool) {
let tc_commander = self.mode_helper.finish(success);
self.announce_mode();
if tc_commander.is_some() {
self.send_telemetry(tc_commander, response::Response::Ok);
}
self.parent_queues
.report_tx
.send(response::ModeReport::Mode(self.mode_helper.current))
.unwrap();
}
pub fn handle_mode_transition_failure(&mut self, report: response::ModeReport) {
if self.mode_helper.tc_commander.is_some() {
self.send_telemetry(
self.mode_helper.tc_commander,
response::Response::Mode(response::ModeReport::SetModeTimeout(
self.mgm_modes.map(|info| info.mode),
)),
);
}
self.parent_queues.report_tx.send(report).unwrap();
self.mode_helper.finish(false);
}
pub fn command_children(&self, mode: DeviceMode) {
for tx in &self.children_queues.request_tx_queues {
tx.send(models::mgm::request::ModeRequest::SetMode(mode))
.unwrap();
}
}
pub fn start_transition(
&mut self,
mode_keeping: bool,
target: AssemblyMode,
tc_id: Option<CcsdsPacketIdAndPsc>,
) {
self.mode_keeping_transition = mode_keeping;
self.mode_helper.tc_commander = tc_id;
self.mgm_modes
.iter_mut()
.for_each(|m| m.reply_received = false);
self.mode_helper.start(target);
}
fn announce_mode(&self) {
// TODO: Event?
log::info!(
"{:?} announcing mode: {:?}",
Self::ID,
self.mode_helper.current
);
}
#[inline]
pub fn mode(&self) -> AssemblyMode {
self.mode_helper.current
}
#[inline]
#[cfg(test)]
fn mode_transition_active(&self) -> bool {
self.mode_helper.transition_active()
}
}
#[cfg(test)]
mod tests {
use std::sync::mpsc::TryRecvError;
use arbitrary_int::u11;
use models::{
Apid, Message, MessageType, TcHeader,
ccsds::{CcsdsTcPacketOwned, CcsdsTmPacketOwned},
mgm_assembly,
};
use satrs::spacepackets::SpacePacketHeader;
use super::*;
pub struct Testbench {
subsystem_req_tx: mpsc::SyncSender<request::ModeRequest>,
subsystem_report_rx: mpsc::Receiver<response::ModeReport>,
mgm_request_rx: [mpsc::Receiver<models::mgm::request::ModeRequest>; 2],
mgm_report_tx: [mpsc::SyncSender<models::mgm::response::ModeResponse>; 2],
tc_tx: mpsc::SyncSender<CcsdsTcPacketOwned>,
tm_rx: mpsc::Receiver<CcsdsTmPacketOwned>,
assembly: Assembly,
}
impl Testbench {
pub fn new() -> Self {
let (subsystem_req_tx, subsystem_req_rx) = mpsc::sync_channel(5);
let (subsystem_report_tx, subsystem_report_rx) = mpsc::sync_channel(5);
let (mgm_0_mode_request_tx, mgm_0_mode_request_rx) = mpsc::sync_channel(5);
let (mgm_1_mode_request_tx, mgm_1_mode_request_rx) = mpsc::sync_channel(5);
let (mgm_0_mode_report_tx, mgm_0_mode_report_rx) = mpsc::sync_channel(5);
let (mgm_1_mode_report_tx, mgm_1_mode_report_rx) = mpsc::sync_channel(5);
let (tc_tx, tc_rx) = mpsc::sync_channel(5);
let (tm_tx, tm_rx) = mpsc::sync_channel(5);
Self {
subsystem_req_tx,
subsystem_report_rx,
mgm_request_rx: [mgm_0_mode_request_rx, mgm_1_mode_request_rx],
mgm_report_tx: [mgm_0_mode_report_tx, mgm_1_mode_report_tx],
tc_tx,
tm_rx,
assembly: Assembly::new(
ParentQueueHelper {
request_rx: subsystem_req_rx,
report_tx: subsystem_report_tx,
},
ChildrenQueueHelper {
request_tx_queues: [mgm_0_mode_request_tx, mgm_1_mode_request_tx],
report_rx_queues: [mgm_0_mode_report_rx, mgm_1_mode_report_rx],
},
TmtcQueues { tc_rx, tm_tx },
Duration::from_millis(20),
),
}
}
pub fn assert_all_queues_empty(&self) {
assert!(
matches!(self.tm_rx.try_recv().unwrap_err(), TryRecvError::Empty),
"TM queue not empty"
);
assert!(
matches!(
self.subsystem_report_rx.try_recv().unwrap_err(),
TryRecvError::Empty
),
"subsystem report queue not empty"
);
for rx in self.mgm_request_rx.iter() {
assert!(
matches!(rx.try_recv().unwrap_err(), TryRecvError::Empty),
"mgm request queue not empty"
)
}
}
}
pub fn create_request_tc(
request: models::mgm_assembly::request::Request,
) -> models::ccsds::CcsdsTcPacketOwned {
models::ccsds::CcsdsTcPacketOwned::new_with_request(
SpacePacketHeader::new_from_apid(u11::new(Apid::Acs as u16)),
TcHeader::new(Assembly::ID, request.message_type()),
request,
)
}
#[test]
fn basic_test() {
let mut tb = Testbench::new();
tb.assert_all_queues_empty();
tb.assembly.periodic_operation();
tb.assert_all_queues_empty();
assert_eq!(tb.assembly.mode(), AssemblyMode::NoModeKeeping);
}
#[test]
fn test_tc_commanded_transition() {
let mut tb = Testbench::new();
tb.tc_tx
.send(create_request_tc(mgm_assembly::request::Request::Mode(
request::ModeRequest::SetMode(AssemblyMode::Device(DeviceMode::Normal)),
)))
.unwrap();
tb.assembly.periodic_operation();
assert!(tb.assembly.mode_transition_active());
for rx in tb.mgm_request_rx.iter() {
let request = rx.try_recv().unwrap();
assert_eq!(
request,
models::mgm::request::ModeRequest::SetMode(DeviceMode::Normal)
);
}
// Confirm the mode is set.
for tx in tb.mgm_report_tx.iter() {
tx.send(models::mgm::response::ModeResponse::Mode(
DeviceMode::Normal,
))
.unwrap();
}
tb.assembly.periodic_operation();
assert!(!tb.assembly.mode_transition_active());
assert_eq!(tb.assembly.mode(), AssemblyMode::Device(DeviceMode::Normal));
let response = tb.tm_rx.try_recv().unwrap();
assert_eq!(response.tm_header.sender_id, Assembly::ID);
assert_eq!(response.tm_header.message_type, MessageType::Verification);
let response: response::Response = postcard::from_bytes(&response.payload).unwrap();
assert_eq!(response, response::Response::Ok);
}
#[test]
fn test_parent_commanded_transition() {
let mut tb = Testbench::new();
tb.subsystem_req_tx
.send(request::ModeRequest::SetMode(AssemblyMode::Device(
DeviceMode::Normal,
)))
.unwrap();
tb.assembly.periodic_operation();
assert!(tb.assembly.mode_transition_active());
for rx in tb.mgm_request_rx.iter() {
let request = rx.try_recv().unwrap();
assert_eq!(
request,
models::mgm::request::ModeRequest::SetMode(DeviceMode::Normal)
);
}
// Confirm the mode is set.
for tx in tb.mgm_report_tx.iter() {
tx.send(models::mgm::response::ModeResponse::Mode(
DeviceMode::Normal,
))
.unwrap();
}
tb.assembly.periodic_operation();
assert!(!tb.assembly.mode_transition_active());
assert_eq!(tb.assembly.mode(), AssemblyMode::Device(DeviceMode::Normal));
let report = tb.subsystem_report_rx.try_recv().unwrap();
assert_eq!(
report,
response::ModeReport::Mode(AssemblyMode::Device(DeviceMode::Normal))
);
}
#[test]
fn test_one_mgm_is_sufficient() {
let mut tb = Testbench::new();
tb.subsystem_req_tx
.send(request::ModeRequest::SetMode(AssemblyMode::Device(
DeviceMode::Normal,
)))
.unwrap();
tb.assembly.periodic_operation();
assert!(tb.assembly.mode_transition_active());
for rx in tb.mgm_request_rx.iter() {
let request = rx.try_recv().unwrap();
assert_eq!(
request,
models::mgm::request::ModeRequest::SetMode(DeviceMode::Normal)
);
}
// One device is sufficient.
tb.mgm_report_tx[0]
.send(models::mgm::response::ModeResponse::Mode(
DeviceMode::Normal,
))
.unwrap();
tb.mgm_report_tx[1]
.send(models::mgm::response::ModeResponse::Mode(DeviceMode::Off))
.unwrap();
tb.assembly.periodic_operation();
assert!(!tb.assembly.mode_transition_active());
assert_eq!(tb.assembly.mode(), AssemblyMode::Device(DeviceMode::Normal));
let report = tb.subsystem_report_rx.try_recv().unwrap();
assert_eq!(
report,
response::ModeReport::Mode(AssemblyMode::Device(DeviceMode::Normal))
);
}
#[test]
fn test_mode_commanding_fails() {
let mut tb = Testbench::new();
tb.subsystem_req_tx
.send(request::ModeRequest::SetMode(AssemblyMode::Device(
DeviceMode::Normal,
)))
.unwrap();
tb.assembly.periodic_operation();
assert!(tb.assembly.mode_transition_active());
for rx in tb.mgm_request_rx.iter() {
let request = rx.try_recv().unwrap();
assert_eq!(
request,
models::mgm::request::ModeRequest::SetMode(DeviceMode::Normal)
);
}
// Confirm the mode is set.
for tx in tb.mgm_report_tx.iter() {
tx.send(models::mgm::response::ModeResponse::Mode(DeviceMode::Off))
.unwrap();
}
tb.assembly.periodic_operation();
assert!(!tb.assembly.mode_transition_active());
assert_eq!(tb.assembly.mode(), AssemblyMode::NoModeKeeping);
let report = tb.subsystem_report_rx.try_recv().unwrap();
assert_eq!(
report,
response::ModeReport::WrongMode([Some(DeviceMode::Off), Some(DeviceMode::Off)])
);
}
#[test]
fn test_mode_keeping_fails() {
let mut tb = Testbench::new();
tb.subsystem_req_tx
.send(request::ModeRequest::SetMode(AssemblyMode::Device(
DeviceMode::Normal,
)))
.unwrap();
tb.assembly.periodic_operation();
assert!(tb.assembly.mode_transition_active());
for rx in tb.mgm_request_rx.iter() {
let request = rx.try_recv().unwrap();
assert_eq!(
request,
models::mgm::request::ModeRequest::SetMode(DeviceMode::Normal)
);
}
// Confirm the mode is set.
for tx in tb.mgm_report_tx.iter() {
tx.send(models::mgm::response::ModeResponse::Mode(
DeviceMode::Normal,
))
.unwrap();
}
tb.assembly.periodic_operation();
assert!(!tb.assembly.mode_transition_active());
assert_eq!(tb.assembly.mode(), AssemblyMode::Device(DeviceMode::Normal));
let report = tb.subsystem_report_rx.try_recv().unwrap();
assert_eq!(
report,
response::ModeReport::Mode(AssemblyMode::Device(DeviceMode::Normal))
);
for tx in tb.mgm_report_tx.iter() {
tx.send(models::mgm::response::ModeResponse::Mode(DeviceMode::Off))
.unwrap();
}
// This should start mode keeping.
tb.assembly.periodic_operation();
assert!(tb.assembly.mode_transition_active());
for rx in tb.mgm_request_rx.iter() {
let request = rx.try_recv().unwrap();
assert_eq!(
request,
models::mgm::request::ModeRequest::SetMode(DeviceMode::Normal)
);
}
// Let the mode keeping fail.
for tx in tb.mgm_report_tx.iter() {
tx.send(models::mgm::response::ModeResponse::Mode(DeviceMode::Off))
.unwrap();
}
tb.assembly.periodic_operation();
let report = tb.subsystem_report_rx.try_recv().unwrap();
assert_eq!(
report,
response::ModeReport::CanNotKeepMode([Some(DeviceMode::Off), Some(DeviceMode::Off)])
);
}
}
satrs-example/src/acs/mod.rs
+3 -1
View File
@@ -1,4 +1,6 @@
pub mod assembly;
pub mod ctrl;
pub mod mgm;
pub mod mgm_assembly;
pub mod subsystem;
satrs-example/src/bin/simpleclient.rs
-87
View File
@@ -1,87 +0,0 @@
use arbitrary_int::u11;
use satrs::pus::verification::RequestId;
use satrs::spacepackets::ecss::tc::PusTcCreator;
use satrs::spacepackets::ecss::tm::PusTmReader;
use satrs::spacepackets::ecss::{CreatorConfig, MessageTypeId};
use satrs::spacepackets::SpHeader;
use satrs_example::config::{OBSW_SERVER_ADDR, SERVER_PORT};
use std::net::{IpAddr, SocketAddr, UdpSocket};
use std::time::Duration;
fn main() {
let mut buf = [0; 32];
let addr = SocketAddr::new(IpAddr::V4(OBSW_SERVER_ADDR), SERVER_PORT);
let pus_tc = PusTcCreator::new_simple(
SpHeader::new_from_apid(u11::new(0x02)),
MessageTypeId::new(17, 1),
&[],
CreatorConfig::default(),
);
let client = UdpSocket::bind("127.0.0.1:7302").expect("Connecting to UDP server failed");
let tc_req_id = RequestId::new(&pus_tc);
println!("Packing and sending PUS ping command TC[17,1] with request ID {tc_req_id}");
let size = pus_tc
.write_to_bytes(&mut buf)
.expect("Creating PUS TC failed");
client
.send_to(&buf[0..size], addr)
.unwrap_or_else(|_| panic!("Sending to {addr:?} failed"));
client
.set_read_timeout(Some(Duration::from_secs(2)))
.expect("Setting read timeout failed");
loop {
let res = client.recv(&mut buf);
match res {
Ok(_len) => {
let pus_tm = PusTmReader::new(&buf, 7).expect("Parsing PUS TM failed");
if pus_tm.service_type_id() == 17 && pus_tm.message_subtype_id() == 2 {
println!("Received PUS Ping Reply TM[17,2]")
} else if pus_tm.service_type_id() == 1 {
if pus_tm.source_data().is_empty() {
println!("Invalid verification TM, no source data");
}
let src_data = pus_tm.source_data();
if src_data.len() < 4 {
println!("Invalid verification TM source data, less than 4 bytes")
}
let req_id = RequestId::from_bytes(src_data).unwrap();
let subtype_id = pus_tm.message_subtype_id();
if subtype_id == 1 {
println!("Received TM[1,1] acceptance success for request ID {req_id}")
} else if subtype_id == 2 {
println!("Received TM[1,2] acceptance failure for request ID {req_id}")
} else if subtype_id == 3 {
println!("Received TM[1,3] start success for request ID {req_id}")
} else if subtype_id == 4 {
println!("Received TM[1,2] start failure for request ID {req_id}")
} else if subtype_id == 5 {
println!("Received TM[1,5] step success for request ID {req_id}")
} else if subtype_id == 6 {
println!("Received TM[1,6] step failure for request ID {req_id}")
} else if subtype_id == 7 {
println!("Received TM[1,7] completion success for request ID {req_id}")
} else if subtype_id == 8 {
println!("Received TM[1,8] completion failure for request ID {req_id}");
}
} else {
println!(
"Received TM[{}, {}] with {} bytes",
pus_tm.service_type_id(),
pus_tm.message_subtype_id(),
size
);
}
}
Err(ref e)
if e.kind() == std::io::ErrorKind::WouldBlock
|| e.kind() == std::io::ErrorKind::TimedOut =>
{
println!("No reply received for 2 seconds");
break;
}
_ => {
println!("UDP receive error {:?}", res.unwrap_err());
}
}
}
}
satrs-example/src/bin/test.rs
-66
View File
@@ -1,66 +0,0 @@
#![allow(dead_code)]
use crossbeam_channel::{bounded, Receiver, Sender};
use std::sync::atomic::{AtomicU16, Ordering};
use std::thread;
use zerocopy::{FromBytes, Immutable, IntoBytes, NetworkEndian, Unaligned, U16};
trait FieldDataProvider: Send {
fn get_data(&self) -> &[u8];
}
struct FixedFieldDataWrapper {
data: [u8; 8],
}
impl FixedFieldDataWrapper {
pub fn from_two_u32(p0: u32, p1: u32) -> Self {
let mut data = [0; 8];
data[0..4].copy_from_slice(p0.to_be_bytes().as_slice());
data[4..8].copy_from_slice(p1.to_be_bytes().as_slice());
Self { data }
}
}
impl FieldDataProvider for FixedFieldDataWrapper {
fn get_data(&self) -> &[u8] {
self.data.as_slice()
}
}
type FieldDataTraitObj = Box<dyn FieldDataProvider>;
struct ExampleMgmSet {
mgm_vec: [f32; 3],
temperature: u16,
}
#[derive(FromBytes, IntoBytes, Immutable, Unaligned)]
#[repr(C)]
struct ExampleMgmSetZc {
mgm_vec: [u8; 12],
temperatur: U16<NetworkEndian>,
}
fn main() {
let (s0, r0): (Sender<FieldDataTraitObj>, Receiver<FieldDataTraitObj>) = bounded(5);
let data_wrapper = FixedFieldDataWrapper::from_two_u32(2, 3);
s0.send(Box::new(data_wrapper)).unwrap();
let jh0 = thread::spawn(move || {
let data = r0.recv().unwrap();
let raw = data.get_data();
println!("Received data {raw:?}");
});
let jh1 = thread::spawn(|| {});
jh0.join().unwrap();
jh1.join().unwrap();
//let mut max_val: u16 = u16::MAX;
//max_val += 1;
//println!("Max val: {}", max_val);
let atomic_u16: AtomicU16 = AtomicU16::new(u16::MAX);
atomic_u16.fetch_add(1, Ordering::SeqCst);
println!(
"atomic after overflow: {}",
atomic_u16.load(Ordering::SeqCst)
);
}
satrs-example/src/ccsds.rs
+34
View File
@@ -0,0 +1,34 @@
use arbitrary_int::u11;
use models::{Apid, ComponentId, Message, TmHeader, ccsds::CcsdsTmPacketOwned};
use satrs::spacepackets::{
CcsdsPacketIdAndPsc, SpHeader,
time::{StdTimestampError, cds::CdsTime},
};
use serde::Serialize;
#[derive(Debug, thiserror::Error)]
pub enum CcsdsTmCreationError {
#[error("postcard error: {0}")]
Postcard(#[from] postcard::Error),
#[error("timestamp error: {0}")]
Time(#[from] StdTimestampError),
}
pub fn pack_ccsds_tm_packet_for_now(
sender_id: ComponentId,
tc_id: Option<CcsdsPacketIdAndPsc>,
payload: &(impl Serialize + Message),
) -> Result<CcsdsTmPacketOwned, CcsdsTmCreationError> {
let now = CdsTime::now_with_u16_days()?;
let sp_header = SpHeader::new_from_apid(u11::new(Apid::Tmtc as u16));
let tm_header = TmHeader::new(
sender_id,
ComponentId::Ground,
payload.message_type(),
tc_id,
&now,
);
Ok(CcsdsTmPacketOwned::new_with_serde_payload(
sp_header, &tm_header, payload,
)?)
}
satrs-example/src/config.rs
+6 -11
View File
@@ -7,13 +7,10 @@ use satrs::{
use satrs_mib::res_code::ResultU16Info;
use satrs_mib::resultcode;
use std::{collections::HashSet, net::Ipv4Addr};
use strum::IntoEnumIterator;
use strum::IntoEnumIterator as _;
use num_enum::{IntoPrimitive, TryFromPrimitive};
use satrs::{
events_legacy::{EventU32TypedSev, SeverityInfo},
pool::{StaticMemoryPool, StaticPoolConfig},
};
use satrs::pool::{StaticMemoryPool, StaticPoolConfig};
#[derive(Copy, Clone, PartialEq, Eq, Debug, TryFromPrimitive, IntoPrimitive)]
#[repr(u8)]
@@ -39,19 +36,17 @@ pub enum GroupId {
pub const OBSW_SERVER_ADDR: Ipv4Addr = Ipv4Addr::UNSPECIFIED;
pub const SERVER_PORT: u16 = 7301;
pub const TEST_EVENT: EventU32TypedSev<SeverityInfo> = EventU32TypedSev::<SeverityInfo>::new(0, 0);
lazy_static! {
pub static ref PACKET_ID_VALIDATOR: HashSet<PacketId> = {
let mut set = HashSet::new();
for id in crate::ids::Apid::iter() {
for id in models::Apid::iter() {
set.insert(PacketId::new(PacketType::Tc, true, u11::new(id as u16)));
}
set
};
pub static ref APID_VALIDATOR: HashSet<u16> = {
let mut set = HashSet::new();
for id in crate::ids::Apid::iter() {
for id in models::Apid::iter() {
set.insert(id as u16);
}
set
@@ -174,7 +169,7 @@ pub mod pool {
pub mod tasks {
pub const FREQ_MS_UDP_TMTC: u64 = 200;
pub const FREQ_MS_AOCS: u64 = 500;
pub const FREQ_MS_PUS_STACK: u64 = 200;
pub const FREQ_MS_AOCS: u64 = 200;
pub const FREQ_MS_CONTROLLER: u64 = 200;
pub const SIM_CLIENT_IDLE_DELAY_MS: u64 = 5;
}
satrs-example/src/control.rs
+84
View File
@@ -0,0 +1,84 @@
use models::{
ComponentId,
ccsds::{CcsdsTcPacketOwned, CcsdsTmPacketOwned},
control,
};
use satrs::spacepackets::CcsdsPacketIdAndPsc;
use crate::ccsds::pack_ccsds_tm_packet_for_now;
pub struct Controller {
pub tc_rx: std::sync::mpsc::Receiver<CcsdsTcPacketOwned>,
pub tm_tx: std::sync::mpsc::SyncSender<CcsdsTmPacketOwned>,
pub event_ctrl_tx: std::sync::mpsc::SyncSender<control::Event>,
}
impl Controller {
pub fn new(
tc_rx: std::sync::mpsc::Receiver<CcsdsTcPacketOwned>,
tm_tx: std::sync::mpsc::SyncSender<CcsdsTmPacketOwned>,
event_ctrl_tx: std::sync::mpsc::SyncSender<control::Event>,
) -> Self {
Self {
tc_rx,
tm_tx,
event_ctrl_tx,
}
}
pub fn periodic_operation(&mut self) {
self.handle_telecommands();
}
pub fn handle_telecommands(&mut self) {
loop {
match self.tc_rx.try_recv() {
Ok(packet) => {
let tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&packet.sp_header);
match postcard::from_bytes::<control::request::Request>(&packet.payload) {
Ok(request) => {
log::info!(
"received request {:?} with TC ID {:#010x}",
request,
tc_id.raw()
);
match request {
control::request::Request::Ping => self
.send_telemetry(Some(tc_id), control::response::Response::Ok),
control::request::Request::TestEvent => {
self.event_ctrl_tx.send(control::Event::TestEvent).unwrap()
}
}
}
Err(e) => {
log::warn!("failed to deserialize request: {}", e);
}
}
}
Err(e) => match e {
std::sync::mpsc::TryRecvError::Empty => break,
std::sync::mpsc::TryRecvError::Disconnected => {
log::warn!("packet sender disconnected")
}
},
}
}
}
pub fn send_telemetry(
&self,
tc_id: Option<CcsdsPacketIdAndPsc>,
response: control::response::Response,
) {
match pack_ccsds_tm_packet_for_now(ComponentId::Controller, tc_id, &response) {
Ok(packet) => {
if let Err(e) = self.tm_tx.send(packet) {
log::warn!("failed to send TM packet: {}", e);
}
}
Err(e) => {
log::warn!("failed to pack TM packet: {}", e);
}
}
}
}
satrs-example/src/eps/mod.rs
+90 -29
View File
@@ -1,16 +1,15 @@
use derive_new::new;
use models::pcdu::{SwitchId, SwitchRequest, SwitchState, SwitchStateBinary};
use std::{cell::RefCell, collections::VecDeque, sync::mpsc, time::Duration};
use satrs::{
power::{
PowerSwitchInfo, PowerSwitcherCommandSender, SwitchRequest, SwitchState, SwitchStateBinary,
},
queue::GenericSendError,
request::{GenericMessage, MessageMetadata},
};
use satrs_minisim::eps::{PcduSwitch, SwitchMapWrapper};
use thiserror::Error;
use crate::eps::pcdu::SwitchMapWrapper;
use self::pcdu::SharedSwitchSet;
pub mod pcdu;
@@ -22,6 +21,7 @@ pub struct PowerSwitchHelper {
}
#[derive(Debug, Error, Copy, Clone, PartialEq, Eq)]
#[allow(dead_code)]
pub enum SwitchCommandingError {
#[error("send error: {0}")]
Send(#[from] GenericSendError),
@@ -31,18 +31,72 @@ pub enum SwitchCommandingError {
pub enum SwitchInfoError {
/// This is a configuration error which should not occur.
#[error("switch ID not in map")]
SwitchIdNotInMap(PcduSwitch),
SwitchIdNotInMap(SwitchId),
#[error("switch set invalid")]
SwitchSetInvalid,
}
impl PowerSwitchInfo<PcduSwitch> for PowerSwitchHelper {
impl PowerSwitchHelper {
pub fn send_switch_on_cmd(
&self,
requestor_info: satrs::request::MessageMetadata,
switch_id: SwitchId,
) -> Result<(), GenericSendError> {
self.switcher_tx.send(GenericMessage::new(
requestor_info,
SwitchRequest::new(switch_id, SwitchStateBinary::On),
))?;
Ok(())
}
#[allow(dead_code)]
pub fn send_switch_off_cmd(
&self,
requestor_info: satrs::request::MessageMetadata,
switch_id: SwitchId,
) -> Result<(), GenericSendError> {
self.switcher_tx.send(GenericMessage::new(
requestor_info,
SwitchRequest::new(switch_id, SwitchStateBinary::Off),
))?;
Ok(())
}
pub fn switch_state(&self, switch_id: SwitchId) -> Result<SwitchState, SwitchInfoError> {
let switch_set = self
.shared_switch_set
.lock()
.expect("failed to lock switch set");
if !switch_set.valid {
return Err(SwitchInfoError::SwitchSetInvalid);
}
if let Some(state) = switch_set.switch_map.get(&switch_id) {
return Ok(*state);
}
Err(SwitchInfoError::SwitchIdNotInMap(switch_id))
}
#[allow(dead_code)]
fn switch_delay_ms(&self) -> Duration {
// Here, we could set device specific switch delays theoretically. Set it to this value
// for now.
Duration::from_millis(1000)
}
pub fn is_switch_on(&self, switch_id: SwitchId) -> bool {
if let Ok(state) = self.switch_state(switch_id) {
state == SwitchState::On
} else {
false
}
}
}
/*
impl PowerSwitchInfo<SwitchId> for PowerSwitchHelper {
type Error = SwitchInfoError;
fn switch_state(
&self,
switch_id: PcduSwitch,
) -> Result<satrs::power::SwitchState, Self::Error> {
fn switch_state(&self, switch_id: SwitchId) -> Result<SwitchState, Self::Error> {
let switch_set = self
.shared_switch_set
.lock()
@@ -63,43 +117,51 @@ impl PowerSwitchInfo<PcduSwitch> for PowerSwitchHelper {
Duration::from_millis(1000)
}
}
*/
impl PowerSwitcherCommandSender<PcduSwitch> for PowerSwitchHelper {
/*
impl PowerSwitcherCommandSender<SwitchId> for PowerSwitchHelper {
type Error = SwitchCommandingError;
fn send_switch_on_cmd(
&self,
requestor_info: satrs::request::MessageMetadata,
switch_id: PcduSwitch,
switch_id: SwitchId,
) -> Result<(), Self::Error> {
self.switcher_tx
.send_switch_on_cmd(requestor_info, switch_id)?;
self.switcher_tx.send(GenericMessage::new(
requestor_info,
SwitchRequest::new(switch_id, SwitchStateBinary::On),
));
Ok(())
}
fn send_switch_off_cmd(
&self,
requestor_info: satrs::request::MessageMetadata,
switch_id: PcduSwitch,
switch_id: SwitchId,
) -> Result<(), Self::Error> {
self.switcher_tx
.send_switch_off_cmd(requestor_info, switch_id)?;
self.switcher_tx.send(GenericMessage::new(
requestor_info,
SwitchRequest::new(switch_id, SwitchStateBinary::Off),
));
Ok(())
}
}
*/
#[allow(dead_code)]
#[derive(new)]
pub struct SwitchRequestInfo {
pub requestor_info: MessageMetadata,
pub switch_id: PcduSwitch,
pub target_state: satrs::power::SwitchStateBinary,
pub switch_id: SwitchId,
pub target_state: SwitchStateBinary,
}
// Test switch helper which can be used for unittests.
#[allow(dead_code)]
pub struct TestSwitchHelper {
pub switch_requests: RefCell<VecDeque<SwitchRequestInfo>>,
pub switch_info_requests: RefCell<VecDeque<PcduSwitch>>,
pub switch_info_requests: RefCell<VecDeque<SwitchId>>,
#[allow(dead_code)]
pub switch_delay_request_count: u32,
pub next_switch_delay: Duration,
@@ -120,13 +182,11 @@ impl Default for TestSwitchHelper {
}
}
impl PowerSwitchInfo<PcduSwitch> for TestSwitchHelper {
/*
impl PowerSwitchInfo<SwitchId> for TestSwitchHelper {
type Error = SwitchInfoError;
fn switch_state(
&self,
switch_id: PcduSwitch,
) -> Result<satrs::power::SwitchState, Self::Error> {
fn switch_state(&self, switch_id: SwitchId) -> Result<satrs::power::SwitchState, Self::Error> {
let mut switch_info_requests_mut = self.switch_info_requests.borrow_mut();
switch_info_requests_mut.push_back(switch_id);
if !self.switch_map_valid {
@@ -144,13 +204,13 @@ impl PowerSwitchInfo<PcduSwitch> for TestSwitchHelper {
}
}
impl PowerSwitcherCommandSender<PcduSwitch> for TestSwitchHelper {
impl PowerSwitcherCommandSender<SwitchId> for TestSwitchHelper {
type Error = SwitchCommandingError;
fn send_switch_on_cmd(
&self,
requestor_info: MessageMetadata,
switch_id: PcduSwitch,
switch_id: SwitchId,
) -> Result<(), Self::Error> {
let mut switch_requests_mut = self.switch_requests.borrow_mut();
switch_requests_mut.push_back(SwitchRequestInfo {
@@ -170,7 +230,7 @@ impl PowerSwitcherCommandSender<PcduSwitch> for TestSwitchHelper {
fn send_switch_off_cmd(
&self,
requestor_info: MessageMetadata,
switch_id: PcduSwitch,
switch_id: SwitchId,
) -> Result<(), Self::Error> {
let mut switch_requests_mut = self.switch_requests.borrow_mut();
switch_requests_mut.push_back(SwitchRequestInfo {
@@ -187,11 +247,12 @@ impl PowerSwitcherCommandSender<PcduSwitch> for TestSwitchHelper {
Ok(())
}
}
*/
#[allow(dead_code)]
impl TestSwitchHelper {
// Helper function which can be used to force a switch to another state for test purposes.
pub fn set_switch_state(&mut self, switch: PcduSwitch, state: SwitchState) {
pub fn set_switch_state(&mut self, switch: SwitchId, state: SwitchState) {
self.switch_map.get_mut().0.insert(switch, state);
}
}
satrs-example/src/eps/pcdu.rs
+299 -291
View File
@@ -1,43 +1,109 @@
use std::{
cell::RefCell,
collections::VecDeque,
sync::{mpsc, Arc, Mutex},
collections::{HashMap, VecDeque},
sync::{Arc, Mutex, mpsc},
};
use derive_new::new;
use models::{
ComponentId, DeviceMode,
ccsds::{CcsdsTcPacketOwned, CcsdsTmPacketOwned},
pcdu::{
self, SwitchId, SwitchMapBinary, SwitchMapBinaryWrapper, SwitchRequest, SwitchState,
SwitchStateBinary, SwitchesBitfield,
},
};
use num_enum::{IntoPrimitive, TryFromPrimitive};
use satrs::{
hk::{HkRequest, HkRequestVariant},
mode::{
ModeAndSubmode, ModeError, ModeProvider, ModeReply, ModeRequestHandler,
ModeRequestHandlerMpscBounded,
},
mode_tree::{ModeChild, ModeNode},
power::SwitchRequest,
pus::{EcssTmSender, PusTmVariant},
queue::GenericSendError,
request::{GenericMessage, MessageMetadata, UniqueApidTargetId},
spacepackets::ByteConversionError,
};
use satrs_example::{
config::components::NO_SENDER,
ids::{eps::PCDU, generic_pus::PUS_MODE},
DeviceMode, TimestampHelper,
};
use satrs::{request::GenericMessage, spacepackets::CcsdsPacketIdAndPsc};
use satrs_example::TimestampHelper;
use satrs_minisim::{
eps::{
PcduReply, PcduRequest, PcduSwitch, SwitchMap, SwitchMapBinaryWrapper, SwitchMapWrapper,
},
SerializableSimMsgPayload, SimReply, SimRequest,
eps::{PcduReply, PcduRequest},
};
use serde::{Deserialize, Serialize};
use strum::IntoEnumIterator as _;
use crate::{
hk::PusHkHelper,
pus::hk::{HkReply, HkReplyVariant},
requests::CompositeRequest,
tmtc::sender::TmTcSender,
};
use crate::ccsds::pack_ccsds_tm_packet_for_now;
#[derive(Clone, PartialEq, Eq, Serialize, Deserialize)]
pub struct SwitchSet {
pub valid: bool,
pub switch_map: SwitchMap,
}
impl SwitchSet {
pub fn new(switch_map: SwitchMap) -> Self {
Self {
valid: true,
switch_map,
}
}
pub fn new_with_init_switches_unknown() -> Self {
let wrapper = SwitchMapWrapper::default();
Self::new(wrapper.0)
}
pub fn as_bitfield(&self) -> Option<SwitchesBitfield> {
for entry in SwitchId::iter() {
if !self.switch_map.contains_key(&entry) {
return None;
}
}
Some(
SwitchesBitfield::builder()
.with_magnetorquer(*self.switch_map.get(&SwitchId::Mgt).unwrap() == SwitchState::On)
.with_mgm1(*self.switch_map.get(&SwitchId::Mgm1).unwrap() == SwitchState::On)
.with_mgm0(*self.switch_map.get(&SwitchId::Mgm0).unwrap() == SwitchState::On)
.build(),
)
}
#[allow(dead_code)]
pub fn set_switch_state(&mut self, switch_id: SwitchId, state: SwitchState) -> bool {
if !self.switch_map.contains_key(&switch_id) {
return false;
}
*self.switch_map.get_mut(&switch_id).unwrap() = state;
true
}
}
pub type SwitchMap = HashMap<SwitchId, SwitchState>;
pub struct SwitchMapWrapper(pub SwitchMap);
impl Default for SwitchMapWrapper {
fn default() -> Self {
let mut switch_map = SwitchMap::default();
for entry in SwitchId::iter() {
switch_map.insert(entry, SwitchState::Unknown);
}
Self(switch_map)
}
}
impl SwitchMapWrapper {
#[allow(dead_code)]
pub fn new_with_init_switches_off() -> Self {
let mut switch_map = SwitchMap::default();
for entry in SwitchId::iter() {
switch_map.insert(entry, SwitchState::Off);
}
Self(switch_map)
}
pub fn from_binary_switch_map_ref(switch_map: &SwitchMapBinary) -> Self {
Self(
switch_map
.iter()
.map(|(key, value)| (*key, SwitchState::from(*value)))
.collect(),
)
}
}
pub type SharedSwitchSet = Arc<Mutex<SwitchSet>>;
pub trait SerialInterface {
type Error: core::fmt::Debug;
@@ -194,49 +260,50 @@ pub enum OpCode {
PollAndRecvReplies = 1,
}
#[derive(Clone, PartialEq, Eq, Default, Serialize, Deserialize)]
pub struct SwitchSet {
pub valid: bool,
pub switch_map: SwitchMap,
}
pub type SharedSwitchSet = Arc<Mutex<SwitchSet>>;
/// Example PCDU device handler.
#[derive(new)]
#[allow(clippy::too_many_arguments)]
pub struct PcduHandler<ComInterface: SerialInterface> {
id: UniqueApidTargetId,
dev_str: &'static str,
mode_node: ModeRequestHandlerMpscBounded,
composite_request_rx: mpsc::Receiver<GenericMessage<CompositeRequest>>,
hk_reply_tx: mpsc::SyncSender<GenericMessage<HkReply>>,
switch_request_rx: mpsc::Receiver<GenericMessage<SwitchRequest>>,
tm_sender: TmTcSender,
tc_rx: std::sync::mpsc::Receiver<CcsdsTcPacketOwned>,
tm_tx: mpsc::SyncSender<CcsdsTmPacketOwned>,
pub com_interface: ComInterface,
shared_switch_map: Arc<Mutex<SwitchSet>>,
#[new(value = "PusHkHelper::new(id)")]
hk_helper: PusHkHelper,
#[new(value = "ModeAndSubmode::new(satrs_example::DeviceMode::Off as u32, 0)")]
mode_and_submode: ModeAndSubmode,
#[new(default)]
mode: DeviceMode,
stamp_helper: TimestampHelper,
#[new(value = "[0; 256]")]
tm_buf: [u8; 256],
}
impl<ComInterface: SerialInterface> PcduHandler<ComInterface> {
pub fn new(
tc_rx: std::sync::mpsc::Receiver<CcsdsTcPacketOwned>,
tm_tx: std::sync::mpsc::SyncSender<CcsdsTmPacketOwned>,
switch_request_rx: mpsc::Receiver<GenericMessage<SwitchRequest>>,
com_interface: ComInterface,
shared_switch_map: Arc<Mutex<SwitchSet>>,
init_mode: DeviceMode,
) -> Self {
Self {
dev_str: "PCDU",
tc_rx,
switch_request_rx,
tm_tx,
com_interface,
shared_switch_map,
stamp_helper: TimestampHelper::default(),
// Start in normal mode by default. Assume that the PCDU itself is on by default.
mode: init_mode,
}
}
pub fn periodic_operation(&mut self, op_code: OpCode) {
match op_code {
OpCode::RegularOp => {
self.stamp_helper.update_from_now();
// Handle requests.
self.handle_composite_requests();
self.handle_mode_requests();
self.handle_telecommands();
self.handle_switch_requests();
// Poll the switch states and/or telemetry regularly here.
if self.mode() == DeviceMode::Normal as u32 || self.mode() == DeviceMode::On as u32
{
if self.mode() == DeviceMode::Normal || self.mode() == DeviceMode::On {
self.handle_periodic_commands();
}
}
@@ -246,75 +313,122 @@ impl<ComInterface: SerialInterface> PcduHandler<ComInterface> {
}
}
pub fn handle_composite_requests(&mut self) {
loop {
match self.composite_request_rx.try_recv() {
Ok(ref msg) => match &msg.message {
CompositeRequest::Hk(hk_request) => {
self.handle_hk_request(&msg.requestor_info, hk_request)
}
// TODO: This object does not have actions (yet).. Still send back completion failure
// reply.
CompositeRequest::Action(_action_req) => {}
},
#[inline]
pub fn mode(&self) -> DeviceMode {
self.mode
}
Err(e) => {
if e != mpsc::TryRecvError::Empty {
log::warn!(
"{}: failed to receive composite request: {:?}",
self.dev_str,
e
);
} else {
break;
pub fn handle_telecommands(&mut self) {
loop {
match self.tc_rx.try_recv() {
Ok(packet) => {
let tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&packet.sp_header);
match postcard::from_bytes::<pcdu::request::Request>(&packet.payload) {
Ok(request) => {
log::info!(
"received request {:?} with TC ID {:#010x}",
request,
tc_id.raw()
);
match request {
pcdu::request::Request::Ping => {
self.send_tm(Some(tc_id), pcdu::response::Response::Ok)
}
pcdu::request::Request::GetSwitches => self.send_tm(
Some(tc_id),
pcdu::response::Response::Switches(
self.shared_switch_map
.lock()
.unwrap()
.as_bitfield()
.expect("could not build switches response"),
),
),
pcdu::request::Request::EnableSwitches(switches) => {
self.handle_switches_bitfield_request(
switches,
SwitchStateBinary::On,
);
}
pcdu::request::Request::DisableSwitches(switches) => {
self.handle_switches_bitfield_request(
switches,
SwitchStateBinary::Off,
);
}
pcdu::request::Request::Mode(device_mode) => {
self.switch_mode(tc_id, device_mode)
}
}
}
Err(e) => {
log::warn!("failed to deserialize request: {}", e);
}
}
}
Err(e) => match e {
std::sync::mpsc::TryRecvError::Empty => break,
std::sync::mpsc::TryRecvError::Disconnected => {
log::warn!("packet sender disconnected")
}
},
}
}
}
pub fn handle_hk_request(&mut self, requestor_info: &MessageMetadata, hk_request: &HkRequest) {
match hk_request.variant {
HkRequestVariant::OneShot => {
if hk_request.unique_id == SetId::SwitcherSet as u32 {
if let Ok(hk_tm) = self.hk_helper.generate_hk_report_packet(
self.stamp_helper.stamp(),
SetId::SwitcherSet as u32,
&mut |hk_buf| {
// Send TM down as JSON.
let switch_map_snapshot = self
.shared_switch_map
.lock()
.expect("failed to lock switch map")
.clone();
let switch_map_json = serde_json::to_string(&switch_map_snapshot)
.expect("failed to serialize switch map");
if switch_map_json.len() > hk_buf.len() {
log::error!("switch map JSON too large for HK buffer");
return Err(ByteConversionError::ToSliceTooSmall {
found: hk_buf.len(),
expected: switch_map_json.len(),
});
}
Ok(switch_map_json.len())
},
&mut self.tm_buf,
) {
self.tm_sender
.send_tm(self.id.id(), PusTmVariant::Direct(hk_tm))
.expect("failed to send HK TM");
self.hk_reply_tx
.send(GenericMessage::new(
*requestor_info,
HkReply::new(hk_request.unique_id, HkReplyVariant::Ack),
))
.expect("failed to send HK reply");
}
pub fn handle_switches_bitfield_request(
&mut self,
switches: SwitchesBitfield,
state: SwitchStateBinary,
) {
if switches.mgm0() {
self.handle_device_switching(SwitchId::Mgm0, state);
}
if switches.mgm1() {
self.handle_device_switching(SwitchId::Mgm1, state);
}
if switches.magnetorquer() {
self.handle_device_switching(SwitchId::Mgt, state);
}
}
pub fn send_tm(&self, tc_id: Option<CcsdsPacketIdAndPsc>, response: pcdu::response::Response) {
match pack_ccsds_tm_packet_for_now(ComponentId::EpsPcdu, tc_id, &response) {
Ok(packet) => {
if let Err(e) = self.tm_tx.send(packet) {
log::warn!("failed to send TM packet: {}", e);
}
}
HkRequestVariant::EnablePeriodic => todo!(),
HkRequestVariant::DisablePeriodic => todo!(),
HkRequestVariant::ModifyCollectionInterval(_) => todo!(),
Err(e) => {
log::warn!("failed to pack TM packet: {}", e);
}
}
}
fn switch_mode(&mut self, requestor: CcsdsPacketIdAndPsc, mode: DeviceMode) {
log::info!("{}: transitioning to mode {:?}", self.dev_str, mode);
self.mode = mode;
if self.mode() == DeviceMode::Off {
self.shared_switch_map.lock().unwrap().valid = false;
}
log::info!("{} announcing mode: {:?}", self.dev_str, self.mode);
self.send_telemetry(Some(requestor), pcdu::response::Response::Ok);
}
pub fn send_telemetry(
&self,
tc_id: Option<CcsdsPacketIdAndPsc>,
response: pcdu::response::Response,
) {
match pack_ccsds_tm_packet_for_now(ComponentId::EpsPcdu, tc_id, &response) {
Ok(packet) => {
if let Err(e) = self.tm_tx.send(packet) {
log::warn!("failed to send TM packet: {}", e);
}
}
Err(e) => {
log::warn!("failed to pack TM packet: {}", e);
}
}
}
@@ -326,6 +440,7 @@ impl<ComInterface: SerialInterface> PcduHandler<ComInterface> {
}
}
/*
pub fn handle_mode_requests(&mut self) {
loop {
// TODO: Only allow one set mode request per cycle?
@@ -356,23 +471,28 @@ impl<ComInterface: SerialInterface> PcduHandler<ComInterface> {
}
}
}
*/
pub fn handle_device_switching(&mut self, switch_id: SwitchId, state: SwitchStateBinary) {
let pcdu_req = PcduRequest::SwitchDevice {
switch: switch_id,
state,
};
let pcdu_req_ser = serde_json::to_string(&pcdu_req).unwrap();
self.com_interface
.send(pcdu_req_ser.as_bytes())
.expect("failed to send switch request to PCDU");
}
pub fn handle_switch_requests(&mut self) {
loop {
match self.switch_request_rx.try_recv() {
Ok(switch_req) => match PcduSwitch::try_from(switch_req.message.switch_id()) {
Ok(pcdu_switch) => {
let pcdu_req = PcduRequest::SwitchDevice {
switch: pcdu_switch,
state: switch_req.message.target_state(),
};
let pcdu_req_ser = serde_json::to_string(&pcdu_req).unwrap();
self.com_interface
.send(pcdu_req_ser.as_bytes())
.expect("failed to send switch request to PCDU");
}
Err(e) => todo!("failed to convert switch ID {:?} to typed PCDU switch", e),
},
Ok(switch_req) => {
self.handle_device_switching(
switch_req.message.switch_id(),
switch_req.message.target_state(),
);
}
Err(e) => match e {
mpsc::TryRecvError::Empty => break,
mpsc::TryRecvError::Disconnected => {
@@ -406,115 +526,33 @@ impl<ComInterface: SerialInterface> PcduHandler<ComInterface> {
}
}
impl<ComInterface: SerialInterface> ModeProvider for PcduHandler<ComInterface> {
fn mode_and_submode(&self) -> ModeAndSubmode {
self.mode_and_submode
}
}
impl<ComInterface: SerialInterface> ModeRequestHandler for PcduHandler<ComInterface> {
type Error = ModeError;
fn start_transition(
&mut self,
requestor: MessageMetadata,
mode_and_submode: ModeAndSubmode,
_forced: bool,
) -> Result<(), satrs::mode::ModeError> {
log::info!(
"{}: transitioning to mode {:?}",
self.dev_str,
mode_and_submode
);
self.mode_and_submode = mode_and_submode;
if mode_and_submode.mode() == DeviceMode::Off as u32 {
self.shared_switch_map.lock().unwrap().valid = false;
}
self.handle_mode_reached(Some(requestor))?;
Ok(())
}
fn announce_mode(&self, _requestor_info: Option<MessageMetadata>, _recursive: bool) {
log::info!(
"{} announcing mode: {:?}",
self.dev_str,
self.mode_and_submode
);
}
fn handle_mode_reached(
&mut self,
requestor: Option<MessageMetadata>,
) -> Result<(), Self::Error> {
self.announce_mode(requestor, false);
if let Some(requestor) = requestor {
if requestor.sender_id() == NO_SENDER {
return Ok(());
}
if requestor.sender_id() != PUS_MODE.id() {
log::warn!(
"can not send back mode reply to sender {}",
requestor.sender_id()
);
} else {
self.send_mode_reply(requestor, ModeReply::ModeReply(self.mode_and_submode()))?;
}
}
Ok(())
}
fn send_mode_reply(
&self,
requestor: MessageMetadata,
reply: ModeReply,
) -> Result<(), Self::Error> {
if requestor.sender_id() != PUS_MODE.id() {
log::warn!(
"can not send back mode reply to sender {}",
requestor.sender_id()
);
}
self.mode_node
.send_mode_reply(requestor, reply)
.map_err(|_| GenericSendError::RxDisconnected)?;
Ok(())
}
fn handle_mode_info(
&mut self,
_requestor_info: MessageMetadata,
_info: ModeAndSubmode,
) -> Result<(), Self::Error> {
Ok(())
}
}
impl<ComInterface: SerialInterface> ModeNode for PcduHandler<ComInterface> {
fn id(&self) -> satrs::ComponentId {
PCDU.into()
}
}
impl<ComInterface: SerialInterface> ModeChild for PcduHandler<ComInterface> {
type Sender = mpsc::SyncSender<GenericMessage<ModeReply>>;
fn add_mode_parent(&mut self, id: satrs::ComponentId, reply_sender: Self::Sender) {
self.mode_node.add_message_target(id, reply_sender);
}
}
#[cfg(test)]
mod tests {
use std::sync::mpsc;
use arbitrary_int::u21;
use satrs::{
mode::ModeRequest, power::SwitchStateBinary, request::GenericMessage, tmtc::PacketAsVec,
use arbitrary_int::u11;
use models::{
Apid, TcHeader,
pcdu::{SwitchMapBinary, SwitchStateBinary},
};
use satrs::{
mode::{ModeReply, ModeRequest},
request::{GenericMessage, MessageMetadata},
spacepackets::SpacePacketHeader,
};
use satrs_example::ids::{self, Apid};
use satrs_minisim::eps::SwitchMapBinary;
use super::*;
pub fn create_request_tc(
request: models::pcdu::request::Request,
) -> models::ccsds::CcsdsTcPacketOwned {
models::ccsds::CcsdsTcPacketOwned::new_with_request(
SpacePacketHeader::new_from_apid(u11::new(Apid::Eps as u16)),
TcHeader::new(ComponentId::EpsPcdu, request.message_type()),
request,
)
}
#[derive(Default)]
pub struct SerialInterfaceTest {
pub inner: SerialInterfaceDummy,
@@ -550,47 +588,37 @@ mod tests {
}
}
#[allow(dead_code)]
pub struct PcduTestbench {
pub mode_request_tx: mpsc::SyncSender<GenericMessage<ModeRequest>>,
pub mode_reply_rx_to_pus: mpsc::Receiver<GenericMessage<ModeReply>>,
pub mode_reply_rx_to_parent: mpsc::Receiver<GenericMessage<ModeReply>>,
pub composite_request_tx: mpsc::Sender<GenericMessage<CompositeRequest>>,
pub hk_reply_rx: mpsc::Receiver<GenericMessage<HkReply>>,
pub tm_rx: mpsc::Receiver<PacketAsVec>,
pub tc_tx: mpsc::SyncSender<CcsdsTcPacketOwned>,
pub tm_rx: mpsc::Receiver<CcsdsTmPacketOwned>,
pub switch_request_tx: mpsc::Sender<GenericMessage<SwitchRequest>>,
pub handler: PcduHandler<SerialInterfaceTest>,
}
impl PcduTestbench {
pub fn new() -> Self {
let (mode_request_tx, mode_request_rx) = mpsc::sync_channel(5);
let (mode_reply_tx_to_pus, mode_reply_rx_to_pus) = mpsc::sync_channel(5);
let (mode_reply_tx_to_parent, mode_reply_rx_to_parent) = mpsc::sync_channel(5);
let mode_node = ModeRequestHandlerMpscBounded::new(PCDU.into(), mode_request_rx);
let (composite_request_tx, composite_request_rx) = mpsc::channel();
let (hk_reply_tx, hk_reply_rx) = mpsc::sync_channel(10);
let (tm_tx, tm_rx) = mpsc::sync_channel::<PacketAsVec>(5);
let (mode_request_tx, _mode_request_rx) = mpsc::sync_channel(5);
let (_mode_reply_tx_to_parent, mode_reply_rx_to_parent) = mpsc::sync_channel(5);
let (tc_tx, tc_rx) = mpsc::sync_channel(5);
let (tm_tx, tm_rx) = mpsc::sync_channel(5);
let (switch_request_tx, switch_reqest_rx) = mpsc::channel();
let shared_switch_map = Arc::new(Mutex::new(SwitchSet::default()));
let mut handler = PcduHandler::new(
UniqueApidTargetId::new(Apid::Eps.raw_value(), u21::new(0)),
"TEST_PCDU",
mode_node,
composite_request_rx,
hk_reply_tx,
let shared_switch_map =
Arc::new(Mutex::new(SwitchSet::new_with_init_switches_unknown()));
let handler = PcduHandler::new(
tc_rx,
tm_tx.clone(),
switch_reqest_rx,
TmTcSender::Heap(tm_tx.clone()),
SerialInterfaceTest::default(),
shared_switch_map,
DeviceMode::Off,
);
handler.add_mode_parent(ids::eps::SUBSYSTEM.into(), mode_reply_tx_to_parent);
handler.add_mode_parent(PUS_MODE.into(), mode_reply_tx_to_pus);
Self {
mode_request_tx,
mode_reply_rx_to_pus,
mode_reply_rx_to_parent,
composite_request_tx,
hk_reply_rx,
tc_tx,
tm_rx,
switch_request_tx,
handler,
@@ -610,7 +638,7 @@ mod tests {
pub fn verify_switch_req_was_sent(
&self,
expected_queue_len: usize,
switch_id: PcduSwitch,
switch_id: SwitchId,
target_state: SwitchStateBinary,
) {
// Check that there is now communication happening.
@@ -651,11 +679,7 @@ mod tests {
testbench.handler.com_interface.reply_queue.borrow().len(),
0
);
assert_eq!(
testbench.handler.mode_and_submode().mode(),
DeviceMode::Off as u32
);
assert_eq!(testbench.handler.mode_and_submode().submode(), 0_u16);
assert_eq!(testbench.handler.mode(), DeviceMode::Off);
testbench.handler.periodic_operation(OpCode::RegularOp);
testbench
.handler
@@ -666,39 +690,27 @@ mod tests {
testbench.handler.com_interface.reply_queue.borrow().len(),
0
);
assert_eq!(
testbench.handler.mode_and_submode().mode(),
DeviceMode::Off as u32
);
assert_eq!(testbench.handler.mode_and_submode().submode(), 0_u16);
assert_eq!(testbench.handler.mode(), DeviceMode::Off);
}
#[test]
fn test_normal_mode() {
let mut testbench = PcduTestbench::new();
testbench
.mode_request_tx
.send(GenericMessage::new(
MessageMetadata::new(0, PUS_MODE.id()),
ModeRequest::SetMode {
mode_and_submode: ModeAndSubmode::new(DeviceMode::Normal as u32, 0),
forced: false,
},
))
.expect("failed to send mode request");
.tc_tx
.send(create_request_tc(pcdu::request::Request::Mode(
DeviceMode::Normal,
)))
.unwrap();
let switch_map_shared = testbench.handler.shared_switch_map.lock().unwrap();
assert!(!switch_map_shared.valid);
assert!(switch_map_shared.valid);
drop(switch_map_shared);
testbench.handler.periodic_operation(OpCode::RegularOp);
testbench
.handler
.periodic_operation(OpCode::PollAndRecvReplies);
// Check correctness of mode.
assert_eq!(
testbench.handler.mode_and_submode().mode(),
DeviceMode::Normal as u32
);
assert_eq!(testbench.handler.mode_and_submode().submode(), 0);
assert_eq!(testbench.handler.mode(), DeviceMode::Normal);
testbench.verify_switch_info_req_was_sent(1);
testbench.verify_switch_reply_received(1, SwitchMapBinaryWrapper::default().0);
@@ -712,20 +724,16 @@ mod tests {
fn test_switch_request_handling() {
let mut testbench = PcduTestbench::new();
testbench
.mode_request_tx
.send(GenericMessage::new(
MessageMetadata::new(0, PUS_MODE.id()),
ModeRequest::SetMode {
mode_and_submode: ModeAndSubmode::new(DeviceMode::Normal as u32, 0),
forced: false,
},
))
.expect("failed to send mode request");
.tc_tx
.send(create_request_tc(pcdu::request::Request::Mode(
DeviceMode::Normal,
)))
.unwrap();
testbench
.switch_request_tx
.send(GenericMessage::new(
MessageMetadata::new(0, ids::acs::MGM0.id()),
SwitchRequest::new(0, SwitchStateBinary::On),
MessageMetadata::new(0, ComponentId::AcsMgm0 as u32),
SwitchRequest::new(SwitchId::Mgm0, SwitchStateBinary::On),
))
.expect("failed to send switch request");
testbench.handler.periodic_operation(OpCode::RegularOp);
@@ -733,11 +741,11 @@ mod tests {
.handler
.periodic_operation(OpCode::PollAndRecvReplies);
testbench.verify_switch_req_was_sent(2, PcduSwitch::Mgm, SwitchStateBinary::On);
testbench.verify_switch_req_was_sent(2, SwitchId::Mgm0, SwitchStateBinary::On);
testbench.verify_switch_info_req_was_sent(1);
let mut switch_map = SwitchMapBinaryWrapper::default().0;
*switch_map
.get_mut(&PcduSwitch::Mgm)
.get_mut(&SwitchId::Mgm0)
.expect("switch state setting failed") = SwitchStateBinary::On;
testbench.verify_switch_reply_received(1, switch_map);
satrs-example/src/event_manager.rs
+35
View File
@@ -0,0 +1,35 @@
use models::{ComponentId, Event, Message, ccsds::CcsdsTmPacketOwned, control};
use crate::ccsds::pack_ccsds_tm_packet_for_now;
// TODO: We should add the capability to enable/disable the TM generation of individual events and
// event groups as well.
pub struct EventManager {
pub ctrl_rx: std::sync::mpsc::Receiver<control::Event>,
pub tm_tx: std::sync::mpsc::SyncSender<CcsdsTmPacketOwned>,
}
impl EventManager {
pub fn periodic_operation(&mut self) {
if let Ok(event) = self.ctrl_rx.try_recv() {
self.event_to_tm(ComponentId::Controller, &Event::ControllerEvent(event));
}
}
pub fn event_to_tm(
&mut self,
sender_id: ComponentId,
event: &(impl serde::Serialize + Message),
) {
match pack_ccsds_tm_packet_for_now(sender_id, None, event) {
Ok(packet) => {
if let Err(e) = self.tm_tx.send(packet) {
log::warn!("error sending event TM packet: {:?}", e);
}
}
Err(e) => {
log::warn!("error packing event TM packet: {:?}", e);
}
}
}
}
satrs-example/src/ids.rs
-109
View File
@@ -1,109 +0,0 @@
//! This is an auto-generated configuration module.
use satrs::request::UniqueApidTargetId;
#[derive(Debug, PartialEq, Eq, strum::EnumIter)]
#[bitbybit::bitenum(u11)]
pub enum Apid {
Sched = 1,
GenericPus = 2,
Acs = 3,
Cfdp = 4,
Tmtc = 5,
Eps = 6,
}
pub mod acs {
#[derive(Debug, PartialEq, Eq)]
#[bitbybit::bitenum(u21, exhaustive = false)]
pub enum Id {
Subsystem = 1,
Assembly = 2,
Mgm0 = 3,
Mgm1 = 4,
}
pub const SUBSYSTEM: super::UniqueApidTargetId =
super::UniqueApidTargetId::new(super::Apid::Acs.raw_value(), Id::Subsystem.raw_value());
pub const ASSEMBLY: super::UniqueApidTargetId =
super::UniqueApidTargetId::new(super::Apid::Acs.raw_value(), Id::Assembly.raw_value());
pub const MGM0: super::UniqueApidTargetId =
super::UniqueApidTargetId::new(super::Apid::Acs.raw_value(), Id::Mgm0.raw_value());
pub const MGM1: super::UniqueApidTargetId =
super::UniqueApidTargetId::new(super::Apid::Acs.raw_value(), Id::Mgm1.raw_value());
}
pub mod eps {
#[derive(Debug, PartialEq, Eq)]
#[bitbybit::bitenum(u21, exhaustive = false)]
pub enum Id {
Pcdu = 0,
Subsystem = 1,
}
pub const PCDU: super::UniqueApidTargetId =
super::UniqueApidTargetId::new(super::Apid::Eps.raw_value(), Id::Pcdu.raw_value());
pub const SUBSYSTEM: super::UniqueApidTargetId =
super::UniqueApidTargetId::new(super::Apid::Eps.raw_value(), Id::Subsystem.raw_value());
}
pub mod generic_pus {
#[derive(Debug, PartialEq, Eq)]
#[bitbybit::bitenum(u21, exhaustive = false)]
pub enum Id {
PusEventManagement = 0,
PusRouting = 1,
PusTest = 2,
PusAction = 3,
PusMode = 4,
PusHk = 5,
}
pub const PUS_EVENT_MANAGEMENT: super::UniqueApidTargetId = super::UniqueApidTargetId::new(
super::Apid::GenericPus.raw_value(),
Id::PusEventManagement.raw_value(),
);
pub const PUS_ROUTING: super::UniqueApidTargetId = super::UniqueApidTargetId::new(
super::Apid::GenericPus.raw_value(),
Id::PusRouting.raw_value(),
);
pub const PUS_TEST: super::UniqueApidTargetId = super::UniqueApidTargetId::new(
super::Apid::GenericPus.raw_value(),
Id::PusTest.raw_value(),
);
pub const PUS_ACTION: super::UniqueApidTargetId = super::UniqueApidTargetId::new(
super::Apid::GenericPus.raw_value(),
Id::PusAction.raw_value(),
);
pub const PUS_MODE: super::UniqueApidTargetId = super::UniqueApidTargetId::new(
super::Apid::GenericPus.raw_value(),
Id::PusMode.raw_value(),
);
pub const PUS_HK: super::UniqueApidTargetId =
super::UniqueApidTargetId::new(super::Apid::GenericPus.raw_value(), Id::PusHk.raw_value());
}
pub mod sched {
#[derive(Debug, PartialEq, Eq)]
#[bitbybit::bitenum(u21, exhaustive = false)]
pub enum Id {
PusSched = 0,
}
pub const PUS_SCHED: super::UniqueApidTargetId =
super::UniqueApidTargetId::new(super::Apid::Sched.raw_value(), Id::PusSched.raw_value());
}
pub mod tmtc {
#[derive(Debug, PartialEq, Eq)]
#[bitbybit::bitenum(u21, exhaustive = false)]
pub enum Id {
UdpServer = 0,
TcpServer = 1,
}
pub const UDP_SERVER: super::UniqueApidTargetId =
super::UniqueApidTargetId::new(super::Apid::Tmtc.raw_value(), Id::UdpServer.raw_value());
pub const TCP_SERVER: super::UniqueApidTargetId =
super::UniqueApidTargetId::new(super::Apid::Tmtc.raw_value(), Id::TcpServer.raw_value());
}
satrs-example/src/interface/sim_client_udp.rs
+5 -4
View File
@@ -7,8 +7,8 @@ use std::{
use satrs::pus::HandlingStatus;
use satrs_minisim::{
udp::SIM_CTRL_PORT, SerializableSimMsgPayload, SimComponent, SimMessageProvider, SimReply,
SimRequest,
SerializableSimMsgPayload, SimComponent, SimMessageProvider, SimReply, SimRequest,
udp::SIM_CTRL_PORT,
};
use satrs_minisim::{SimCtrlReply, SimCtrlRequest};
@@ -187,16 +187,17 @@ pub mod tests {
collections::HashMap,
net::{SocketAddr, UdpSocket},
sync::{
Arc,
atomic::{AtomicBool, Ordering},
mpsc, Arc,
mpsc,
},
time::Duration,
};
use satrs_minisim::{
eps::{PcduReply, PcduRequest},
SerializableSimMsgPayload, SimComponent, SimCtrlReply, SimCtrlRequest, SimMessageProvider,
SimReply, SimRequest,
eps::{PcduReply, PcduRequest},
};
use super::SimClientUdp;
satrs-example/src/interface/tcp.rs
+7 -9
View File
@@ -129,15 +129,13 @@ impl TcpTask {
}
pub fn periodic_operation(&mut self) {
loop {
let result = self
.0
.handle_all_connections(Some(Duration::from_millis(400)));
match result {
Ok(_conn_result) => (),
Err(e) => {
warn!("TCP server error: {e:?}");
}
let result = self
.0
.handle_all_connections(Some(Duration::from_millis(400)));
match result {
Ok(_conn_result) => (),
Err(e) => {
warn!("TCP server error: {e:?}");
}
}
}
satrs-example/src/interface/udp.rs
+61 -76
View File
@@ -1,66 +1,29 @@
#![allow(dead_code)]
use std::collections::VecDeque;
use std::net::{SocketAddr, UdpSocket};
use std::sync::mpsc;
use std::sync::{Arc, Mutex, mpsc};
use log::{info, warn};
use log::warn;
use models::ccsds::CcsdsTmPacketOwned;
use satrs::hal::std::udp_server::{ReceiveResult, UdpTcServer};
use satrs::pus::HandlingStatus;
use satrs::queue::GenericSendError;
use satrs::tmtc::PacketAsVec;
use satrs::pool::{PoolProviderWithGuards, SharedStaticMemoryPool};
use satrs::tmtc::PacketInPool;
use crate::tmtc::sender::TmTcSender;
pub trait UdpTmHandler {
pub trait UdpTmHandlerProvider {
fn send_tm_to_udp_client(&mut self, socket: &UdpSocket, recv_addr: &SocketAddr);
}
pub struct StaticUdpTmHandler {
pub tm_rx: mpsc::Receiver<PacketInPool>,
pub tm_store: SharedStaticMemoryPool,
pub struct UdpTmHandlerWithChannel {
pub tm_rx: mpsc::Receiver<CcsdsTmPacketOwned>,
}
impl UdpTmHandler for StaticUdpTmHandler {
fn send_tm_to_udp_client(&mut self, socket: &UdpSocket, &recv_addr: &SocketAddr) {
while let Ok(pus_tm_in_pool) = self.tm_rx.try_recv() {
let store_lock = self.tm_store.write();
if store_lock.is_err() {
warn!("Locking TM store failed");
continue;
}
let mut store_lock = store_lock.unwrap();
let pg = store_lock.read_with_guard(pus_tm_in_pool.store_addr);
let read_res = pg.read_as_vec();
if read_res.is_err() {
warn!("Error reading TM pool data");
continue;
}
let buf = read_res.unwrap();
let result = socket.send_to(&buf, recv_addr);
if let Err(e) = result {
warn!("Sending TM with UDP socket failed: {e}")
}
}
}
}
pub struct DynamicUdpTmHandler {
pub tm_rx: mpsc::Receiver<PacketAsVec>,
}
impl UdpTmHandler for DynamicUdpTmHandler {
impl UdpTmHandlerProvider for UdpTmHandlerWithChannel {
fn send_tm_to_udp_client(&mut self, socket: &UdpSocket, recv_addr: &SocketAddr) {
while let Ok(tm) = self.tm_rx.try_recv() {
if tm.packet.len() > 9 {
let service = tm.packet[7];
let subservice = tm.packet[8];
info!("Sending PUS TM[{service},{subservice}]")
} else {
info!("Sending PUS TM");
}
let result = socket.send_to(&tm.packet, recv_addr);
log::debug!("sending TM from sender {:?}", tm.tm_header.sender_id);
let result = socket.send_to(&tm.to_vec(), recv_addr);
if let Err(e) = result {
warn!("Sending TM with UDP socket failed: {e}")
}
@@ -68,12 +31,49 @@ impl UdpTmHandler for DynamicUdpTmHandler {
}
}
pub struct UdpTmtcServer<TmHandler: UdpTmHandler> {
pub udp_tc_server: UdpTcServer<TmTcSender, GenericSendError>,
pub tm_handler: TmHandler,
#[derive(Default, Debug, Clone)]
pub struct TestTmHandler {
addrs_to_send_to: Arc<Mutex<VecDeque<SocketAddr>>>,
}
impl<TmHandler: UdpTmHandler> UdpTmtcServer<TmHandler> {
impl UdpTmHandlerProvider for TestTmHandler {
fn send_tm_to_udp_client(&mut self, _socket: &UdpSocket, recv_addr: &SocketAddr) {
self.addrs_to_send_to.lock().unwrap().push_back(*recv_addr);
}
}
pub enum UdpTmHandler {
Normal(UdpTmHandlerWithChannel),
Test(TestTmHandler),
}
impl From<UdpTmHandlerWithChannel> for UdpTmHandler {
fn from(handler: UdpTmHandlerWithChannel) -> Self {
UdpTmHandler::Normal(handler)
}
}
impl From<TestTmHandler> for UdpTmHandler {
fn from(handler: TestTmHandler) -> Self {
UdpTmHandler::Test(handler)
}
}
impl UdpTmHandlerProvider for UdpTmHandler {
fn send_tm_to_udp_client(&mut self, socket: &UdpSocket, recv_addr: &SocketAddr) {
match self {
UdpTmHandler::Normal(handler) => handler.send_tm_to_udp_client(socket, recv_addr),
UdpTmHandler::Test(handler) => handler.send_tm_to_udp_client(socket, recv_addr),
}
}
}
pub struct UdpTmtcServer {
pub udp_tc_server: UdpTcServer<TmTcSender, GenericSendError>,
pub tm_handler: UdpTmHandler,
}
impl UdpTmtcServer {
pub fn periodic_operation(&mut self) {
loop {
if self.poll_tc_server() == HandlingStatus::Empty {
@@ -107,43 +107,28 @@ impl<TmHandler: UdpTmHandler> UdpTmtcServer<TmHandler> {
#[cfg(test)]
mod tests {
use std::net::IpAddr;
use std::net::Ipv4Addr;
use std::{
collections::VecDeque,
net::IpAddr,
sync::{Arc, Mutex},
};
use arbitrary_int::traits::Integer as _;
use arbitrary_int::u14;
use models::Apid;
use satrs::spacepackets::ecss::{CreatorConfig, MessageTypeId};
use satrs::{
spacepackets::{
ecss::{tc::PusTcCreator, WritablePusPacket},
SpHeader,
},
ComponentId,
spacepackets::{
SpHeader,
ecss::{WritablePusPacket, tc::PusTcCreator},
},
};
use satrs_example::config::OBSW_SERVER_ADDR;
use satrs_example::ids;
use crate::tmtc::sender::{MockSender, TmTcSender};
use crate::tmtc::sender::MockSender;
use super::*;
const UDP_SERVER_ID: ComponentId = 0x05;
#[derive(Default, Debug, Clone)]
pub struct TestTmHandler {
addrs_to_send_to: Arc<Mutex<VecDeque<SocketAddr>>>,
}
impl UdpTmHandler for TestTmHandler {
fn send_tm_to_udp_client(&mut self, _socket: &UdpSocket, recv_addr: &SocketAddr) {
self.addrs_to_send_to.lock().unwrap().push_back(*recv_addr);
}
}
#[test]
fn test_basic() {
let sock_addr = SocketAddr::new(IpAddr::V4(OBSW_SERVER_ADDR), 0);
@@ -154,7 +139,7 @@ mod tests {
let tm_handler_calls = tm_handler.addrs_to_send_to.clone();
let mut udp_dyn_server = UdpTmtcServer {
udp_tc_server,
tm_handler,
tm_handler: tm_handler.into(),
};
udp_dyn_server.periodic_operation();
let queue = udp_dyn_server
@@ -179,9 +164,9 @@ mod tests {
let tm_handler_calls = tm_handler.addrs_to_send_to.clone();
let mut udp_dyn_server = UdpTmtcServer {
udp_tc_server,
tm_handler,
tm_handler: tm_handler.into(),
};
let sph = SpHeader::new_for_unseg_tc(ids::Apid::GenericPus.raw_value(), u14::ZERO, 0);
let sph = SpHeader::new_for_unseg_tc(Apid::Tmtc.raw_value(), u14::ZERO, 0);
let ping_tc = PusTcCreator::new_simple(
sph,
MessageTypeId::new(17, 1),
satrs-example/src/events.rs → satrs-example/src/legacy/events.rs
+2 -3
View File
@@ -1,6 +1,3 @@
use std::sync::mpsc::{self};
use crate::pus::create_verification_reporter;
use arbitrary_int::traits::Integer as _;
use arbitrary_int::u11;
use satrs::event_man_legacy::{EventMessageU32, EventRoutingError};
@@ -34,6 +31,7 @@ impl EventTmHook for EventApidSetter {
}
}
/*
/// The PUS event handler subscribes for all events and converts them into ECSS PUS 5 event
/// packets. It also handles the verification completion of PUS event service requests.
pub struct PusEventHandler<TmSender: EcssTmSender> {
@@ -292,3 +290,4 @@ mod tests {
// TODO: Add test.
}
}
*/
satrs-example/src/hk.rs → satrs-example/src/legacy/hk.rs
View File
satrs-example/src/pus/action.rs → satrs-example/src/legacy/pus/action.rs
View File
satrs-example/src/pus/event.rs → satrs-example/src/legacy/pus/event.rs
View File
satrs-example/src/pus/hk.rs → satrs-example/src/legacy/pus/hk.rs
View File
satrs-example/src/pus/mod.rs → satrs-example/src/legacy/pus/mod.rs
+2
View File
@@ -39,6 +39,7 @@ pub fn create_verification_reporter(owner_id: ComponentId, apid: Apid) -> Verifi
VerificationReporter::new(owner_id, &verif_cfg)
}
/*
/// Simple router structure which forwards PUS telecommands to dedicated handlers.
pub struct PusTcMpscRouter {
pub test_tc_sender: mpsc::SyncSender<EcssTcAndToken>,
@@ -187,6 +188,7 @@ impl PusTcDistributor {
Ok(HandlingStatus::HandledOne)
}
}
*/
pub trait TargetedPusService {
const SERVICE_ID: u8;
satrs-example/src/pus/mode.rs → satrs-example/src/legacy/pus/mode.rs
View File
satrs-example/src/pus/scheduler.rs → satrs-example/src/legacy/pus/scheduler.rs
+3 -3
View File
@@ -5,7 +5,7 @@ use crate::pus::create_verification_reporter;
use crate::tmtc::sender::TmTcSender;
use log::info;
use satrs::pool::{PoolProvider, StaticMemoryPool};
use satrs::pus::scheduler::{PusScheduler, TcInfo};
use satrs::pus::scheduler::{PusSchedulerAlloc, TcInfo};
use satrs::pus::scheduler_srv::PusSchedServiceHandler;
use satrs::pus::verification::VerificationReporter;
use satrs::pus::{
@@ -86,7 +86,7 @@ pub struct SchedulingServiceWrapper {
TmTcSender,
EcssTcCacher,
VerificationReporter,
PusScheduler,
PusSchedulerAlloc,
>,
pub sched_tc_pool: StaticMemoryPool,
pub releaser_buf: [u8; 4096],
@@ -179,7 +179,7 @@ pub fn create_scheduler_service(
pus_sched_rx: mpsc::Receiver<EcssTcAndToken>,
sched_tc_pool: StaticMemoryPool,
) -> SchedulingServiceWrapper {
let scheduler = PusScheduler::new_with_current_init_time(Duration::from_secs(5))
let scheduler = PusSchedulerAlloc::new_with_current_init_time(Duration::from_secs(5))
.expect("Creating PUS Scheduler failed");
let pus_11_handler = PusSchedServiceHandler::new(
PusServiceHelper::new(
satrs-example/src/pus/stack.rs → satrs-example/src/legacy/pus/stack.rs
View File
satrs-example/src/pus/test.rs → satrs-example/src/legacy/pus/test.rs
View File
satrs-example/src/requests.rs → satrs-example/src/legacy/requests.rs
+2 -1
View File
@@ -15,8 +15,8 @@ use satrs::spacepackets::ecss::tc::PusTcReader;
use satrs::spacepackets::ecss::PusPacket;
use satrs::ComponentId;
use satrs_example::config::tmtc_err;
use satrs_example::ids;
/*
#[derive(Clone, Debug)]
#[non_exhaustive]
pub enum CompositeRequest {
@@ -153,3 +153,4 @@ impl PusRequestRouter<ModeRequest> for GenericRequestRouter {
Err(GenericRoutingError::UnknownTargetId(target_id))
}
}
*/
satrs-example/src/lib.rs
+124 -7
View File
@@ -1,13 +1,28 @@
use satrs::spacepackets::time::cds::CdsTime;
extern crate alloc;
use std::{
sync::mpsc,
time::{Duration, Instant},
};
pub use models::ComponentId;
use models::ccsds::{CcsdsTcPacketOwned, CcsdsTmPacketOwned};
use satrs::spacepackets::{CcsdsPacketIdAndPsc, time::cds::CdsTime};
pub mod config;
pub mod ids;
#[derive(Debug, PartialEq, Eq, Copy, Clone)]
pub enum DeviceMode {
Off = 0,
On = 1,
Normal = 2,
/// Simple type modelling packet stored in the heap. This structure is intended to
/// be used when sending a packet via a message queue, so it also contains the sender ID.
#[derive(Debug, PartialEq, Eq, Clone)]
pub struct PacketAsVec {
pub sender_id: ComponentId,
pub packet: Vec<u8>,
}
impl PacketAsVec {
pub fn new(sender_id: ComponentId, packet: Vec<u8>) -> Self {
Self { sender_id, packet }
}
}
pub struct TimestampHelper {
@@ -38,3 +53,105 @@ impl Default for TimestampHelper {
}
}
}
/// Helper structure for periodic HK generation of a single set.
#[derive(Debug)]
pub struct HkHelperSingleSet {
pub enabled: bool,
pub frequency: Duration,
pub last_generated: Option<Instant>,
}
impl HkHelperSingleSet {
#[inline]
pub const fn new(enabled: bool, init_frequency: Duration) -> Self {
Self {
enabled,
frequency: init_frequency,
last_generated: None,
}
}
#[inline]
pub const fn enabled(&self) -> bool {
self.enabled
}
/// Check whether a new HK packet needs to be generated.
pub fn needs_generation(&mut self) -> bool {
if !self.enabled {
return false;
}
if self.last_generated.is_none() {
self.last_generated = Some(Instant::now());
return true;
}
let last_generated = self.last_generated.unwrap();
if Instant::now() - last_generated >= self.frequency {
self.last_generated = Some(Instant::now());
return true;
}
false
}
}
pub struct TmtcQueues {
pub tc_rx: mpsc::Receiver<CcsdsTcPacketOwned>,
pub tm_tx: mpsc::SyncSender<CcsdsTmPacketOwned>,
}
#[derive(Debug)]
pub struct ModeHelper<Mode, TransitionState> {
pub current: Mode,
pub target: Option<Mode>,
pub tc_commander: Option<CcsdsPacketIdAndPsc>,
pub transition_start: Option<Instant>,
pub timeout: Duration,
pub transition_state: TransitionState,
}
impl<Mode: Copy + Clone, TransitionState: Default> ModeHelper<Mode, TransitionState> {
pub fn new(init_mode: Mode, timeout: Duration) -> Self {
Self {
current: init_mode,
target: Default::default(),
tc_commander: Default::default(),
transition_start: None,
timeout,
transition_state: Default::default(),
}
}
pub fn start(&mut self, target: Mode) {
self.target = Some(target);
self.transition_start = Some(Instant::now());
self.transition_state = TransitionState::default();
}
#[inline]
pub fn transition_active(&self) -> bool {
self.target.is_some()
}
pub fn timed_out(&self) -> bool {
if self.target.is_none() {
return false;
}
if let Some(transition_start) = self.transition_start {
return Instant::now() - transition_start >= self.timeout;
}
false
}
pub fn finish(&mut self, success: bool) -> Option<CcsdsPacketIdAndPsc> {
self.target?;
if success {
self.current = self.target.take().unwrap();
} else {
self.target = None;
}
self.transition_state = Default::default();
self.transition_start = None;
self.tc_commander.take()
}
}
satrs-example/src/logger.rs
+10 -1
View File
@@ -1,4 +1,13 @@
use std::str::FromStr as _;
pub fn setup_logger() -> Result<(), fern::InitError> {
// Read the RUST_LOG environment variable and parse it.
// If the variable is not set or is invalid, default to Debug.
let mut log_level = log::LevelFilter::Info;
if let Ok(log_level_str) = std::env::var("RUST_LOG") {
log_level = log::LevelFilter::from_str(&log_level_str).unwrap_or(log::LevelFilter::Info);
}
fern::Dispatch::new()
.format(|out, message, record| {
out.finish(format_args!(
@@ -9,7 +18,7 @@ pub fn setup_logger() -> Result<(), fern::InitError> {
message
))
})
.level(log::LevelFilter::Debug)
.level(log_level)
.chain(std::io::stdout())
.chain(fern::log_file("output.log")?)
.apply()?;
satrs-example/src/main.rs
+185 -306
View File
@@ -1,16 +1,18 @@
use std::{
net::{IpAddr, SocketAddr},
sync::{mpsc, Arc, Mutex},
sync::{
Arc, Mutex,
atomic::{AtomicBool, Ordering},
mpsc,
},
thread,
time::Duration,
};
use acs::mgm::{MgmHandlerLis3Mdl, SpiDummyInterface, SpiSimInterface, SpiSimInterfaceWrapper};
use eps::{
pcdu::{PcduHandler, SerialInterfaceDummy, SerialInterfaceToSim, SerialSimInterfaceWrapper},
PowerSwitchHelper,
pcdu::{PcduHandler, SerialInterfaceDummy, SerialInterfaceToSim, SerialSimInterfaceWrapper},
};
use events::EventHandler;
use interface::{
sim_client_udp::create_sim_client,
tcp::{SyncTcpTmSource, TcpTask},
@@ -18,256 +20,117 @@ use interface::{
};
use log::info;
use logger::setup_logger;
use pus::{
action::create_action_service,
event::create_event_service,
hk::create_hk_service,
mode::create_mode_service,
scheduler::{create_scheduler_service, TcReleaser},
stack::PusStack,
test::create_test_service,
PusTcDistributor, PusTcMpscRouter,
};
use requests::GenericRequestRouter;
use models::{ComponentId, DeviceMode};
use satrs::{
hal::std::{tcp_server::ServerConfig, udp_server::UdpTcServer},
mode::{Mode, ModeAndSubmode, ModeRequest, ModeRequestHandlerMpscBounded},
mode_tree::connect_mode_nodes,
pus::{event_man::EventRequestWithToken, EcssTcCacher, HandlingStatus},
mode::{Mode, ModeAndSubmode, ModeRequest},
pus::HandlingStatus,
request::{GenericMessage, MessageMetadata},
spacepackets::time::cds::CdsTime,
};
use satrs_example::{
TmtcQueues,
config::{
components::NO_SENDER,
pool::create_sched_tc_pool,
tasks::{FREQ_MS_AOCS, FREQ_MS_PUS_STACK, FREQ_MS_UDP_TMTC, SIM_CLIENT_IDLE_DELAY_MS},
OBSW_SERVER_ADDR, PACKET_ID_VALIDATOR, SERVER_PORT,
components::NO_SENDER,
tasks::{FREQ_MS_AOCS, FREQ_MS_CONTROLLER, FREQ_MS_UDP_TMTC, SIM_CLIENT_IDLE_DELAY_MS},
},
ids::{
acs::*,
eps::*,
tmtc::{TCP_SERVER, UDP_SERVER},
},
DeviceMode,
};
use tmtc::sender::TmTcSender;
use tmtc::{tc_source::TcSourceTask, tm_sink::TmSink};
cfg_if::cfg_if! {
if #[cfg(feature = "heap_tmtc")] {
use interface::udp::DynamicUdpTmHandler;
use satrs::pus::EcssTcVecCacher;
use tmtc::{tc_source::TcSourceTaskDynamic, tm_sink::TmSinkDynamic};
} else {
use std::sync::RwLock;
use interface::udp::StaticUdpTmHandler;
use satrs::pus::EcssTcInSharedPoolCacher;
use satrs::tmtc::{PacketSenderWithSharedPool, SharedPacketPool};
use satrs_example::config::pool::create_static_pools;
use tmtc::{
tc_source::TcSourceTaskStatic,
tm_sink::TmSinkStatic,
};
}
}
use crate::{
acs::{mgm, mgm_assembly},
control::Controller,
eps::pcdu::SwitchSet,
event_manager::EventManager,
interface::udp::UdpTmHandlerWithChannel,
tmtc::tc_source::CcsdsDistributor,
};
mod acs;
mod ccsds;
mod control;
mod eps;
mod events;
mod hk;
mod event_manager;
mod interface;
mod logger;
mod pus;
mod requests;
mod spi;
mod tmtc;
fn main() {
setup_logger().expect("setting up logging with fern failed");
println!("Running OBSW example");
static KILL_SIGNAL: AtomicBool = AtomicBool::new(false);
cfg_if::cfg_if! {
if #[cfg(not(feature = "heap_tmtc"))] {
let (tm_pool, tc_pool) = create_static_pools();
let shared_tm_pool = Arc::new(RwLock::new(tm_pool));
let shared_tc_pool = Arc::new(RwLock::new(tc_pool));
let shared_tm_pool_wrapper = SharedPacketPool::new(&shared_tm_pool);
let shared_tc_pool_wrapper = SharedPacketPool::new(&shared_tc_pool);
}
}
setup_logger().expect("setting up logging with fern failed");
println!("Runng OBSW example");
ctrlc::set_handler(move || {
log::info!("Received Ctrl-C, shutting down");
KILL_SIGNAL.store(true, Ordering::Relaxed);
})
.expect("Error setting Ctrl-C handler");
let (tc_source_tx, tc_source_rx) = mpsc::sync_channel(50);
let (tm_sink_tx, tm_sink_rx) = mpsc::sync_channel(50);
let (tm_server_tx, tm_server_rx) = mpsc::sync_channel(50);
cfg_if::cfg_if! {
if #[cfg(not(feature = "heap_tmtc"))] {
let tm_sender = TmTcSender::Static(
PacketSenderWithSharedPool::new(tm_sink_tx.clone(), shared_tm_pool_wrapper.clone())
);
} else if #[cfg(feature = "heap_tmtc")] {
let tm_sender = TmTcSender::Heap(tm_sink_tx.clone());
}
}
let (sim_request_tx, sim_request_rx) = mpsc::channel();
let (mgm_0_sim_reply_tx, mgm_0_sim_reply_rx) = mpsc::channel();
let (mgm_1_sim_reply_tx, mgm_1_sim_reply_rx) = mpsc::channel();
let (pcdu_sim_reply_tx, pcdu_sim_reply_rx) = mpsc::channel();
let mut opt_sim_client = create_sim_client(sim_request_rx);
let (mgm_0_handler_composite_tx, mgm_0_handler_composite_rx) = mpsc::sync_channel(10);
let (mgm_1_handler_composite_tx, mgm_1_handler_composite_rx) = mpsc::sync_channel(10);
let (pcdu_handler_composite_tx, pcdu_handler_composite_rx) = mpsc::sync_channel(30);
let (mgm_0_handler_mode_tx, mgm_0_handler_mode_rx) = mpsc::sync_channel(5);
let (mgm_1_handler_mode_tx, mgm_1_handler_mode_rx) = mpsc::sync_channel(5);
let (pcdu_handler_mode_tx, pcdu_handler_mode_rx) = mpsc::sync_channel(5);
let (mgm_0_handler_tc_tx, mgm_0_handler_tc_rx) = mpsc::sync_channel(10);
let (mgm_1_handler_tc_tx, mgm_1_handler_tc_rx) = mpsc::sync_channel(10);
let (mgm_assembly_tc_tx, mgm_assembly_tc_rx) = mpsc::sync_channel(10);
let (pcdu_handler_tc_tx, pcdu_handler_tc_rx) = mpsc::sync_channel(30);
let (controller_tc_tx, controller_tc_rx) = mpsc::sync_channel(10);
// 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(MGM0.id(), mgm_0_handler_composite_tx);
request_map
.composite_router_map
.insert(MGM1.id(), mgm_1_handler_composite_tx);
request_map
.composite_router_map
.insert(PCDU.id(), pcdu_handler_composite_tx);
// These message handles need to go into the MGM assembly and ACS subsystem.
let (_mgm_assembly_request_tx, mgm_assembly_request_rx) = mpsc::sync_channel(5);
let (mgm_assembly_report_tx, _mgm_assembly_report_rx) = mpsc::sync_channel(5);
// This helper structure is used by all telecommand providers which need to send telecommands
// to the TC source.
cfg_if::cfg_if! {
if #[cfg(not(feature = "heap_tmtc"))] {
let tc_sender_with_shared_pool =
PacketSenderWithSharedPool::new(tc_source_tx, shared_tc_pool_wrapper.clone());
let tc_in_mem_converter =
EcssTcCacher::Static(EcssTcInSharedPoolCacher::new(shared_tc_pool, 4096));
} else if #[cfg(feature = "heap_tmtc")] {
let tc_in_mem_converter = EcssTcCacher::Heap(EcssTcVecCacher::default());
}
}
// These message handles need to go into the MGM assembly and MGM devices.
let (mgm_0_mode_request_tx, mgm_0_mode_request_rx) = mpsc::sync_channel(5);
let (mgm_1_mode_request_tx, mgm_1_mode_request_rx) = mpsc::sync_channel(5);
let (mgm_0_mode_report_tx, mgm_0_mode_report_rx) = mpsc::sync_channel(5);
let (mgm_1_mode_report_tx, mgm_1_mode_report_rx) = mpsc::sync_channel(5);
// Create event handling components
// These sender handles are used to send event requests, for example to enable or disable
// certain events.
let (event_tx, event_rx) = mpsc::sync_channel(100);
let (event_request_tx, event_request_rx) = mpsc::channel::<EventRequestWithToken>();
let (pcdu_handler_mode_tx, _pcdu_handler_mode_rx) = mpsc::sync_channel(5);
// 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_sink_tx.clone(), event_rx, event_request_rx);
let (pus_test_tx, pus_test_rx) = mpsc::sync_channel(20);
let (pus_event_tx, pus_event_rx) = mpsc::sync_channel(10);
let (pus_sched_tx, pus_sched_rx) = mpsc::sync_channel(50);
let (pus_hk_tx, pus_hk_rx) = mpsc::sync_channel(50);
let (pus_action_tx, pus_action_rx) = mpsc::sync_channel(50);
let (pus_mode_tx, pus_mode_rx) = mpsc::sync_channel(50);
let (_pus_action_reply_tx, pus_action_reply_rx) = mpsc::channel();
let (pus_hk_reply_tx, pus_hk_reply_rx) = mpsc::sync_channel(50);
let (pus_mode_reply_tx, pus_mode_reply_rx) = mpsc::sync_channel(30);
cfg_if::cfg_if! {
if #[cfg(not(feature = "heap_tmtc"))] {
let tc_releaser = TcReleaser::Static(tc_sender_with_shared_pool.clone());
} else if #[cfg(feature = "heap_tmtc")] {
let tc_releaser = TcReleaser::Heap(tc_source_tx.clone());
}
}
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 (event_ctrl_tx, event_ctrl_rx) = mpsc::sync_channel(10);
let mut event_manager = EventManager {
ctrl_rx: event_ctrl_rx,
tm_tx: tm_sink_tx.clone(),
};
let pus_test_service = create_test_service(
tm_sender.clone(),
tc_in_mem_converter.clone(),
event_tx.clone(),
pus_test_rx,
);
let pus_scheduler_service = create_scheduler_service(
tm_sender.clone(),
tc_in_mem_converter.clone(),
tc_releaser,
pus_sched_rx,
create_sched_tc_pool(),
);
let pus_event_service = create_event_service(
tm_sender.clone(),
tc_in_mem_converter.clone(),
pus_event_rx,
event_request_tx,
);
let pus_action_service = create_action_service(
tm_sender.clone(),
tc_in_mem_converter.clone(),
pus_action_rx,
request_map.clone(),
pus_action_reply_rx,
);
let pus_hk_service = create_hk_service(
tm_sender.clone(),
tc_in_mem_converter.clone(),
pus_hk_rx,
request_map.clone(),
pus_hk_reply_rx,
);
let pus_mode_service = create_mode_service(
tm_sender.clone(),
tc_in_mem_converter.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,
);
cfg_if::cfg_if! {
if #[cfg(not(feature = "heap_tmtc"))] {
let mut tmtc_task = TcSourceTask::Static(TcSourceTaskStatic::new(
shared_tc_pool_wrapper.clone(),
tc_source_rx,
PusTcDistributor::new(tm_sender.clone(), pus_router),
));
let tc_sender = TmTcSender::Static(tc_sender_with_shared_pool);
let udp_tm_handler = StaticUdpTmHandler {
tm_rx: tm_server_rx,
tm_store: shared_tm_pool.clone(),
};
} else if #[cfg(feature = "heap_tmtc")] {
let mut tmtc_task = TcSourceTask::Heap(TcSourceTaskDynamic::new(
tc_source_rx,
PusTcDistributor::new(tm_sender.clone(), pus_router),
));
let tc_sender = TmTcSender::Heap(tc_source_tx.clone());
let udp_tm_handler = DynamicUdpTmHandler {
tm_rx: tm_server_rx,
};
}
}
let mut controller = Controller::new(controller_tc_rx, tm_sink_tx.clone(), event_ctrl_tx);
let ccsds_distributor = CcsdsDistributor::default();
let mut tc_source = TcSourceTask::new(tc_source_rx, ccsds_distributor);
tc_source.add_target(ComponentId::EpsPcdu, pcdu_handler_tc_tx);
tc_source.add_target(ComponentId::Controller, controller_tc_tx);
tc_source.add_target(ComponentId::AcsMgm0, mgm_0_handler_tc_tx);
tc_source.add_target(ComponentId::AcsMgm1, mgm_1_handler_tc_tx);
tc_source.add_target(ComponentId::AcsMgmAssembly, mgm_assembly_tc_tx);
let tc_sender = TmTcSender::Normal(tc_source_tx.clone());
let udp_tm_handler = UdpTmHandlerWithChannel {
tm_rx: tm_server_rx,
};
let sock_addr = SocketAddr::new(IpAddr::V4(OBSW_SERVER_ADDR), SERVER_PORT);
let udp_tc_server = UdpTcServer::new(UDP_SERVER.id(), sock_addr, 2048, tc_sender.clone())
.expect("creating UDP TMTC server failed");
let udp_tc_server = UdpTcServer::new(
ComponentId::UdpServer as u32,
sock_addr,
2048,
tc_sender.clone(),
)
.expect("creating UDP TMTC server failed");
let mut udp_tmtc_server = UdpTmtcServer {
udp_tc_server,
tm_handler: udp_tm_handler,
tm_handler: udp_tm_handler.into(),
};
let tcp_server_cfg = ServerConfig::new(
TCP_SERVER.id(),
ComponentId::TcpServer as u32,
sock_addr,
Duration::from_millis(400),
4096,
@@ -282,31 +145,14 @@ fn main() {
)
.expect("tcp server creation failed");
cfg_if::cfg_if! {
if #[cfg(not(feature = "heap_tmtc"))] {
let mut tm_sink = TmSink::Static(TmSinkStatic::new(
shared_tm_pool_wrapper,
sync_tm_tcp_source,
tm_sink_rx,
tm_server_tx,
));
} else if #[cfg(feature = "heap_tmtc")] {
let mut tm_sink = TmSink::Heap(TmSinkDynamic::new(
sync_tm_tcp_source,
tm_sink_rx,
tm_server_tx,
));
}
}
let mut tm_sink = TmSink::new(sync_tm_tcp_source, tm_sink_rx, tm_server_tx);
let shared_switch_set = Arc::new(Mutex::default());
let shared_switch_set = Arc::new(Mutex::new(SwitchSet::new_with_init_switches_unknown()));
let (switch_request_tx, switch_request_rx) = mpsc::sync_channel(20);
let switch_helper = PowerSwitchHelper::new(switch_request_tx, shared_switch_set.clone());
let shared_mgm_0_set = Arc::default();
let shared_mgm_1_set = Arc::default();
let mgm_0_mode_node = ModeRequestHandlerMpscBounded::new(MGM0.into(), mgm_0_handler_mode_rx);
let mgm_1_mode_node = ModeRequestHandlerMpscBounded::new(MGM1.into(), mgm_1_handler_mode_rx);
let (mgm_0_spi_interface, mgm_1_spi_interface) =
if let Some(sim_client) = opt_sim_client.as_mut() {
sim_client
@@ -314,55 +160,65 @@ fn main() {
sim_client
.add_reply_recipient(satrs_minisim::SimComponent::Mgm1Lis3Mdl, mgm_1_sim_reply_tx);
(
SpiSimInterfaceWrapper::Sim(SpiSimInterface {
mgm::SpiCommunication::Sim(mgm::SpiSimInterface {
sim_request_tx: sim_request_tx.clone(),
sim_reply_rx: mgm_0_sim_reply_rx,
}),
SpiSimInterfaceWrapper::Sim(SpiSimInterface {
mgm::SpiCommunication::Sim(mgm::SpiSimInterface {
sim_request_tx: sim_request_tx.clone(),
sim_reply_rx: mgm_1_sim_reply_rx,
}),
)
} else {
(
SpiSimInterfaceWrapper::Dummy(SpiDummyInterface::default()),
SpiSimInterfaceWrapper::Dummy(SpiDummyInterface::default()),
mgm::SpiCommunication::Dummy(mgm::SpiDummyInterface::default()),
mgm::SpiCommunication::Dummy(mgm::SpiDummyInterface::default()),
)
};
let mut mgm_0_handler = MgmHandlerLis3Mdl::new(
MGM0,
"MGM_0",
mgm_0_mode_node,
mgm_0_handler_composite_rx,
pus_hk_reply_tx.clone(),
let mut mgm_0_handler = mgm::MgmHandlerLis3Mdl::new(
mgm::MgmId::_0,
TmtcQueues {
tc_rx: mgm_0_handler_tc_rx,
tm_tx: tm_sink_tx.clone(),
},
switch_helper.clone(),
tm_sender.clone(),
mgm_0_spi_interface,
shared_mgm_0_set,
mgm::ModeLeafHelper {
request_rx: mgm_0_mode_request_rx,
report_tx: mgm_0_mode_report_tx,
},
Duration::from_millis(1000),
);
let mut mgm_1_handler = MgmHandlerLis3Mdl::new(
MGM1,
"MGM_1",
mgm_1_mode_node,
mgm_1_handler_composite_rx,
pus_hk_reply_tx.clone(),
let mut mgm_1_handler = mgm::MgmHandlerLis3Mdl::new(
mgm::MgmId::_1,
TmtcQueues {
tc_rx: mgm_1_handler_tc_rx,
tm_tx: tm_sink_tx.clone(),
},
switch_helper.clone(),
tm_sender.clone(),
mgm_1_spi_interface,
shared_mgm_1_set,
mgm::ModeLeafHelper {
request_rx: mgm_1_mode_request_rx,
report_tx: mgm_1_mode_report_tx,
},
Duration::from_millis(1000),
);
// Connect PUS service to device handlers.
connect_mode_nodes(
&mut pus_stack.mode_srv,
mgm_0_handler_mode_tx,
&mut mgm_0_handler,
pus_mode_reply_tx.clone(),
);
connect_mode_nodes(
&mut pus_stack.mode_srv,
mgm_1_handler_mode_tx,
&mut mgm_1_handler,
pus_mode_reply_tx.clone(),
let mut mgm_assembly = mgm_assembly::Assembly::new(
mgm_assembly::ParentQueueHelper {
request_rx: mgm_assembly_request_rx,
report_tx: mgm_assembly_report_tx,
},
mgm_assembly::ChildrenQueueHelper {
request_tx_queues: [mgm_0_mode_request_tx, mgm_1_mode_request_tx],
report_rx_queues: [mgm_0_mode_report_rx, mgm_1_mode_report_rx],
},
TmtcQueues {
tc_rx: mgm_assembly_tc_rx,
tm_tx: tm_sink_tx.clone(),
},
Duration::from_millis(2000),
);
let pcdu_serial_interface = if let Some(sim_client) = opt_sim_client.as_mut() {
@@ -374,23 +230,13 @@ fn main() {
} else {
SerialSimInterfaceWrapper::Dummy(SerialInterfaceDummy::default())
};
let pcdu_mode_node = ModeRequestHandlerMpscBounded::new(PCDU.into(), pcdu_handler_mode_rx);
let mut pcdu_handler = PcduHandler::new(
PCDU,
"PCDU",
pcdu_mode_node,
pcdu_handler_composite_rx,
pus_hk_reply_tx,
pcdu_handler_tc_rx,
tm_sink_tx.clone(),
switch_request_rx,
tm_sender.clone(),
pcdu_serial_interface,
shared_switch_set,
);
connect_mode_nodes(
&mut pus_stack.mode_srv,
pcdu_handler_mode_tx.clone(),
&mut pcdu_handler,
pus_mode_reply_tx,
DeviceMode::Normal,
);
// The PCDU is a critical component which should be in normal mode immediately.
@@ -406,12 +252,15 @@ fn main() {
info!("Starting TMTC and UDP task");
let jh_udp_tmtc = thread::Builder::new()
.name("SATRS tmtc-udp".to_string())
.name("TMTC & UDP".to_string())
.spawn(move || {
info!("Running UDP server on port {SERVER_PORT}");
loop {
if KILL_SIGNAL.load(Ordering::Relaxed) {
break;
}
udp_tmtc_server.periodic_operation();
tmtc_task.periodic_operation();
tc_source.periodic_operation();
thread::sleep(Duration::from_millis(FREQ_MS_UDP_TMTC));
}
})
@@ -419,10 +268,13 @@ fn main() {
info!("Starting TCP task");
let jh_tcp = thread::Builder::new()
.name("sat-rs tcp".to_string())
.name("TCP".to_string())
.spawn(move || {
info!("Running TCP server on port {SERVER_PORT}");
loop {
if KILL_SIGNAL.load(Ordering::Relaxed) {
break;
}
tcp_server.periodic_operation();
}
})
@@ -430,9 +282,14 @@ fn main() {
info!("Starting TM funnel task");
let jh_tm_funnel = thread::Builder::new()
.name("tm sink".to_string())
.spawn(move || loop {
tm_sink.operation();
.name("TM SINK".to_string())
.spawn(move || {
loop {
if KILL_SIGNAL.load(Ordering::Relaxed) {
break;
}
tm_sink.operation();
}
})
.unwrap();
@@ -441,10 +298,15 @@ fn main() {
info!("Starting UDP sim client task");
opt_jh_sim_client = Some(
thread::Builder::new()
.name("sat-rs sim adapter".to_string())
.spawn(move || loop {
if sim_client.operation() == HandlingStatus::Empty {
std::thread::sleep(Duration::from_millis(SIM_CLIENT_IDLE_DELAY_MS));
.name("SIM ADAPTER".to_string())
.spawn(move || {
loop {
if KILL_SIGNAL.load(Ordering::Relaxed) {
break;
}
if sim_client.operation() == HandlingStatus::Empty {
std::thread::sleep(Duration::from_millis(SIM_CLIENT_IDLE_DELAY_MS));
}
}
})
.unwrap(),
@@ -453,38 +315,55 @@ fn main() {
info!("Starting AOCS thread");
let jh_aocs = thread::Builder::new()
.name("sat-rs aocs".to_string())
.spawn(move || loop {
mgm_0_handler.periodic_operation();
mgm_1_handler.periodic_operation();
thread::sleep(Duration::from_millis(FREQ_MS_AOCS));
.name("AOCS".to_string())
.spawn(move || {
loop {
if KILL_SIGNAL.load(Ordering::Relaxed) {
break;
}
mgm_0_handler.periodic_operation();
mgm_1_handler.periodic_operation();
mgm_assembly.periodic_operation();
thread::sleep(Duration::from_millis(FREQ_MS_AOCS));
}
})
.unwrap();
info!("Starting EPS thread");
let jh_eps = thread::Builder::new()
.name("sat-rs eps".to_string())
.spawn(move || loop {
// TODO: We should introduce something like a fixed timeslot helper to allow a more
// declarative API. It would also be very useful for the AOCS task.
//
// TODO: The fixed timeslot handler exists.. use it.
pcdu_handler.periodic_operation(crate::eps::pcdu::OpCode::RegularOp);
thread::sleep(Duration::from_millis(50));
pcdu_handler.periodic_operation(crate::eps::pcdu::OpCode::PollAndRecvReplies);
thread::sleep(Duration::from_millis(50));
pcdu_handler.periodic_operation(crate::eps::pcdu::OpCode::PollAndRecvReplies);
thread::sleep(Duration::from_millis(300));
.name("EPS".to_string())
.spawn(move || {
loop {
if KILL_SIGNAL.load(Ordering::Relaxed) {
break;
}
// TODO: We should introduce something like a fixed timeslot helper to allow a more
// declarative API. It would also be very useful for the AOCS task.
//
// TODO: The fixed timeslot handler exists.. use it.
// TODO: Why not just use sync code in the PCDU handler, and fully delay there?
pcdu_handler.periodic_operation(crate::eps::pcdu::OpCode::RegularOp);
thread::sleep(Duration::from_millis(50));
pcdu_handler.periodic_operation(crate::eps::pcdu::OpCode::PollAndRecvReplies);
thread::sleep(Duration::from_millis(50));
pcdu_handler.periodic_operation(crate::eps::pcdu::OpCode::PollAndRecvReplies);
thread::sleep(Duration::from_millis(300));
}
})
.unwrap();
info!("Starting PUS handler thread");
let jh_pus_handler = thread::Builder::new()
.name("sat-rs pus".to_string())
.spawn(move || loop {
event_handler.periodic_operation();
pus_stack.periodic_operation();
thread::sleep(Duration::from_millis(FREQ_MS_PUS_STACK));
info!("Starting controller thread");
let jh_controller_thread = thread::Builder::new()
.name("CTRL".to_string())
.spawn(move || {
loop {
if KILL_SIGNAL.load(Ordering::Relaxed) {
break;
}
controller.periodic_operation();
event_manager.periodic_operation();
thread::sleep(Duration::from_millis(FREQ_MS_CONTROLLER));
}
})
.unwrap();
@@ -504,7 +383,7 @@ fn main() {
}
jh_aocs.join().expect("Joining AOCS thread failed");
jh_eps.join().expect("Joining EPS thread failed");
jh_pus_handler
jh_controller_thread
.join()
.expect("Joining PUS handler thread failed");
}
satrs-example/src/spi.rs
-6
View File
@@ -1,6 +0,0 @@
use core::fmt::Debug;
pub trait SpiInterface {
type Error: Debug;
fn transfer(&mut self, tx: &[u8], rx: &mut [u8]) -> Result<(), Self::Error>;
}
satrs-example/src/tmtc/sender.rs
+5 -32
View File
@@ -1,11 +1,9 @@
use std::{cell::RefCell, collections::VecDeque, sync::mpsc};
use satrs::{
pus::EcssTmSender,
queue::GenericSendError,
spacepackets::ecss::WritablePusPacket,
tmtc::{PacketAsVec, PacketHandler, PacketSenderWithSharedPool},
ComponentId,
queue::GenericSendError,
tmtc::{PacketAsVec, PacketHandler},
};
#[derive(Default, Debug, Clone)]
@@ -14,8 +12,7 @@ pub struct MockSender(pub RefCell<VecDeque<PacketAsVec>>);
#[allow(dead_code)]
#[derive(Debug, Clone)]
pub enum TmTcSender {
Static(PacketSenderWithSharedPool),
Heap(mpsc::SyncSender<PacketAsVec>),
Normal(mpsc::SyncSender<PacketAsVec>),
Mock(MockSender),
}
@@ -29,37 +26,13 @@ impl TmTcSender {
}
}
impl EcssTmSender for TmTcSender {
fn send_tm(
&self,
sender_id: satrs::ComponentId,
tm: satrs::pus::PusTmVariant,
) -> Result<(), satrs::pus::EcssTmtcError> {
match self {
TmTcSender::Static(sync_sender) => sync_sender.send_tm(sender_id, tm),
TmTcSender::Heap(sync_sender) => match tm {
satrs::pus::PusTmVariant::InStore(_) => panic!("can not send TM in store"),
satrs::pus::PusTmVariant::Direct(pus_tm_creator) => sync_sender
.send(PacketAsVec::new(sender_id, pus_tm_creator.to_vec()?))
.map_err(|_| GenericSendError::RxDisconnected.into()),
},
TmTcSender::Mock(_) => Ok(()),
}
}
}
impl PacketHandler for TmTcSender {
type Error = GenericSendError;
fn handle_packet(&self, sender_id: ComponentId, packet: &[u8]) -> Result<(), Self::Error> {
match self {
TmTcSender::Static(packet_sender_with_shared_pool) => {
if let Err(e) = packet_sender_with_shared_pool.handle_packet(sender_id, packet) {
log::error!("Error sending packet via Static TM/TC sender: {:?}", e);
}
}
TmTcSender::Heap(sync_sender) => {
if let Err(e) = sync_sender.handle_packet(sender_id, packet) {
TmTcSender::Normal(sync_sender) => {
if let Err(e) = sync_sender.send(PacketAsVec::new(sender_id, packet.to_vec())) {
log::error!("Error sending packet via Heap TM/TC sender: {:?}", e);
}
}
satrs-example/src/tmtc/tc_source.rs
+83 -107
View File
@@ -1,121 +1,97 @@
use models::{ComponentId, TcHeader, ccsds::CcsdsTcPacketOwned};
use satrs::{
pool::PoolProvider,
pus::HandlingStatus,
tmtc::{PacketAsVec, PacketInPool, SharedPacketPool},
spacepackets::{CcsdsPacketReader, ChecksumType},
tmtc::PacketAsVec,
};
use std::{
collections::HashMap,
sync::mpsc::{self, TryRecvError},
};
use std::sync::mpsc::{self, TryRecvError};
use crate::pus::PusTcDistributor;
// TC source components where static pools are the backing memory of the received telecommands.
pub struct TcSourceTaskStatic {
shared_tc_pool: SharedPacketPool,
tc_receiver: mpsc::Receiver<PacketInPool>,
/// We allocate this buffer from the heap to avoid a clippy warning on large enum variant
/// differences.
tc_buf: Box<[u8; 4096]>,
pus_distributor: PusTcDistributor,
}
#[allow(dead_code)]
impl TcSourceTaskStatic {
pub fn new(
shared_tc_pool: SharedPacketPool,
tc_receiver: mpsc::Receiver<PacketInPool>,
pus_receiver: PusTcDistributor,
) -> Self {
Self {
shared_tc_pool,
tc_receiver,
tc_buf: Box::new([0; 4096]),
pus_distributor: pus_receiver,
}
}
pub fn periodic_operation(&mut self) {
self.poll_tc();
}
pub fn poll_tc(&mut self) -> HandlingStatus {
// Right now, we only expect ECSS PUS packets.
// If packets like CFDP are expected, we might have to check the APID first.
match self.tc_receiver.try_recv() {
Ok(packet_in_pool) => {
let pool = self
.shared_tc_pool
.0
.read()
.expect("locking tc pool failed");
pool.read(&packet_in_pool.store_addr, self.tc_buf.as_mut_slice())
.expect("reading pool failed");
drop(pool);
self.pus_distributor
.handle_tc_packet_in_store(packet_in_pool, self.tc_buf.as_slice())
.ok();
HandlingStatus::HandledOne
}
Err(e) => match e {
TryRecvError::Empty => HandlingStatus::Empty,
TryRecvError::Disconnected => {
log::warn!("tmtc thread: sender disconnected");
HandlingStatus::Empty
}
},
}
}
}
pub type CcsdsDistributor = HashMap<ComponentId, std::sync::mpsc::SyncSender<CcsdsTcPacketOwned>>;
// TC source components where the heap is the backing memory of the received telecommands.
pub struct TcSourceTaskDynamic {
pub struct TcSourceTask {
pub tc_receiver: mpsc::Receiver<PacketAsVec>,
pus_distributor: PusTcDistributor,
}
#[allow(dead_code)]
impl TcSourceTaskDynamic {
pub fn new(tc_receiver: mpsc::Receiver<PacketAsVec>, pus_receiver: PusTcDistributor) -> Self {
Self {
tc_receiver,
pus_distributor: pus_receiver,
}
}
pub fn periodic_operation(&mut self) {
self.poll_tc();
}
pub fn poll_tc(&mut self) -> HandlingStatus {
// Right now, we only expect ECSS PUS packets.
// If packets like CFDP are expected, we might have to check the APID first.
match self.tc_receiver.try_recv() {
Ok(packet_as_vec) => {
self.pus_distributor
.handle_tc_packet_vec(packet_as_vec)
.ok();
HandlingStatus::HandledOne
}
Err(e) => match e {
TryRecvError::Empty => HandlingStatus::Empty,
TryRecvError::Disconnected => {
log::warn!("tmtc thread: sender disconnected");
HandlingStatus::Empty
}
},
}
}
}
#[allow(dead_code)]
pub enum TcSourceTask {
Static(TcSourceTaskStatic),
Heap(TcSourceTaskDynamic),
ccsds_distributor: CcsdsDistributor,
}
impl TcSourceTask {
pub fn new(
tc_receiver: mpsc::Receiver<PacketAsVec>,
ccsds_distributor: CcsdsDistributor,
) -> Self {
Self {
tc_receiver,
ccsds_distributor,
}
}
pub fn add_target(
&mut self,
target_id: ComponentId,
sender: mpsc::SyncSender<CcsdsTcPacketOwned>,
) {
self.ccsds_distributor.insert(target_id, sender);
}
pub fn periodic_operation(&mut self) {
match self {
TcSourceTask::Static(task) => task.periodic_operation(),
TcSourceTask::Heap(task) => task.periodic_operation(),
loop {
if self.poll_tc() == HandlingStatus::Empty {
break;
}
}
}
pub fn poll_tc(&mut self) -> HandlingStatus {
match self.tc_receiver.try_recv() {
Ok(packet) => {
log::debug!("received raw packet: {:?}", packet);
let ccsds_tc_reader_result =
CcsdsPacketReader::new(&packet.packet, Some(ChecksumType::WithCrc16));
if ccsds_tc_reader_result.is_err() {
log::warn!(
"received invalid CCSDS TC packet: {:?}",
ccsds_tc_reader_result.err()
);
// TODO: Send a dedicated TM packet.
return HandlingStatus::HandledOne;
}
let ccsds_tc_reader = ccsds_tc_reader_result.unwrap();
let tc_header_result =
postcard::take_from_bytes::<TcHeader>(ccsds_tc_reader.user_data());
if tc_header_result.is_err() {
log::warn!(
"received CCSDS TC packet with invalid TC header: {:?}",
tc_header_result.err()
);
// TODO: Send a dedicated TM packet.
return HandlingStatus::HandledOne;
}
let (tc_header, payload) = tc_header_result.unwrap();
if let Some(sender) = self.ccsds_distributor.get(&tc_header.target_id) {
log::debug!("sending TC packet to target ID: {:?}", tc_header.target_id);
sender
.send(CcsdsTcPacketOwned {
sp_header: *ccsds_tc_reader.sp_header(),
tc_header,
payload: payload.to_vec(),
})
.ok();
} else {
log::warn!("no TC handler for target ID {:?}", tc_header.target_id);
// TODO: Send a dedicated TM packet.
}
HandlingStatus::HandledOne
}
Err(e) => match e {
TryRecvError::Empty => HandlingStatus::Empty,
TryRecvError::Disconnected => {
log::warn!("tmtc thread: sender disconnected");
HandlingStatus::Empty
}
},
}
}
}
satrs-example/src/tmtc/tm_sink.rs
+15 -140
View File
@@ -4,18 +4,8 @@ use std::{
};
use arbitrary_int::{u11, u14};
use log::info;
use satrs::{
pool::PoolProvider,
spacepackets::{
ecss::{tm::PusTmZeroCopyWriter, PusPacket},
seq_count::SequenceCounter,
seq_count::SequenceCounterCcsdsSimple,
time::cds::MIN_CDS_FIELD_LEN,
CcsdsPacket,
},
tmtc::{PacketAsVec, PacketInPool, SharedPacketPool},
};
use models::ccsds::CcsdsTmPacketOwned;
use satrs::spacepackets::seq_count::{SequenceCounter, SequenceCounterCcsdsSimple};
use crate::interface::tcp::SyncTcpTmSource;
@@ -34,150 +24,35 @@ impl CcsdsSeqCounterMap {
}
}
pub struct TmFunnelCommon {
pub struct TmSink {
seq_counter_map: CcsdsSeqCounterMap,
msg_counter_map: HashMap<u8, u16>,
sync_tm_tcp_source: SyncTcpTmSource,
tm_funnel_rx: mpsc::Receiver<CcsdsTmPacketOwned>,
tm_server_tx: mpsc::SyncSender<CcsdsTmPacketOwned>,
}
impl TmFunnelCommon {
pub fn new(sync_tm_tcp_source: SyncTcpTmSource) -> Self {
impl TmSink {
pub fn new(
sync_tm_tcp_source: SyncTcpTmSource,
tm_funnel_rx: mpsc::Receiver<CcsdsTmPacketOwned>,
tm_server_tx: mpsc::SyncSender<CcsdsTmPacketOwned>,
) -> Self {
Self {
seq_counter_map: Default::default(),
msg_counter_map: Default::default(),
sync_tm_tcp_source,
}
}
// Applies common packet processing operations for PUS TM packets. This includes setting
// a sequence counter
fn apply_packet_processing(&mut self, mut zero_copy_writer: PusTmZeroCopyWriter) {
// zero_copy_writer.set_apid(PUS_APID);
zero_copy_writer.set_seq_count(
self.seq_counter_map
.get_and_increment(zero_copy_writer.apid()),
);
let entry = self
.msg_counter_map
.entry(zero_copy_writer.service_type_id())
.or_insert(0);
zero_copy_writer.set_msg_count(*entry);
if *entry == u16::MAX {
*entry = 0;
} else {
*entry += 1;
}
Self::packet_printout(&zero_copy_writer);
// This operation has to come last!
zero_copy_writer.finish();
}
fn packet_printout(tm: &PusTmZeroCopyWriter) {
info!(
"Sending PUS TM[{},{}] with APID {}",
tm.service_type_id(),
tm.message_subtype_id(),
tm.apid()
);
}
}
pub struct TmSinkStatic {
common: TmFunnelCommon,
shared_tm_store: SharedPacketPool,
tm_funnel_rx: mpsc::Receiver<PacketInPool>,
tm_server_tx: mpsc::SyncSender<PacketInPool>,
}
#[allow(dead_code)]
impl TmSinkStatic {
pub fn new(
shared_tm_store: SharedPacketPool,
sync_tm_tcp_source: SyncTcpTmSource,
tm_funnel_rx: mpsc::Receiver<PacketInPool>,
tm_server_tx: mpsc::SyncSender<PacketInPool>,
) -> Self {
Self {
common: TmFunnelCommon::new(sync_tm_tcp_source),
shared_tm_store,
tm_funnel_rx,
tm_server_tx,
}
}
pub fn operation(&mut self) {
if let Ok(pus_tm_in_pool) = self.tm_funnel_rx.recv() {
// Read the TM, set sequence counter and message counter, and finally update
// the CRC.
let shared_pool = self.shared_tm_store.0.clone();
let mut pool_guard = shared_pool.write().expect("Locking TM pool failed");
let mut tm_copy = Vec::new();
pool_guard
.modify(&pus_tm_in_pool.store_addr, |buf| {
let zero_copy_writer = PusTmZeroCopyWriter::new(buf, MIN_CDS_FIELD_LEN, true)
.expect("Creating TM zero copy writer failed");
self.common.apply_packet_processing(zero_copy_writer);
tm_copy = buf.to_vec()
})
.expect("Reading TM from pool failed");
self.tm_server_tx
.send(pus_tm_in_pool)
.expect("Sending TM to server failed");
// We could also do this step in the update closure, but I'd rather avoid this, could
// lead to nested locking.
self.common.sync_tm_tcp_source.add_tm(&tm_copy);
}
}
}
pub struct TmSinkDynamic {
common: TmFunnelCommon,
tm_funnel_rx: mpsc::Receiver<PacketAsVec>,
tm_server_tx: mpsc::SyncSender<PacketAsVec>,
}
#[allow(dead_code)]
impl TmSinkDynamic {
pub fn new(
sync_tm_tcp_source: SyncTcpTmSource,
tm_funnel_rx: mpsc::Receiver<PacketAsVec>,
tm_server_tx: mpsc::SyncSender<PacketAsVec>,
) -> Self {
Self {
common: TmFunnelCommon::new(sync_tm_tcp_source),
tm_funnel_rx,
tm_server_tx,
}
}
pub fn operation(&mut self) {
if let Ok(mut tm) = self.tm_funnel_rx.recv() {
// Read the TM, set sequence counter and message counter, and finally update
// the CRC.
let zero_copy_writer =
PusTmZeroCopyWriter::new(&mut tm.packet, MIN_CDS_FIELD_LEN, true)
.expect("Creating TM zero copy writer failed");
self.common.apply_packet_processing(zero_copy_writer);
self.common.sync_tm_tcp_source.add_tm(&tm.packet);
if let Ok(mut tm) = self.tm_funnel_rx.try_recv() {
tm.sp_header
.set_seq_count(self.seq_counter_map.get_and_increment(tm.sp_header.apid()));
self.sync_tm_tcp_source.add_tm(&tm.to_vec());
self.tm_server_tx
.send(tm)
.expect("Sending TM to server failed");
}
}
}
#[allow(dead_code)]
pub enum TmSink {
Static(TmSinkStatic),
Heap(TmSinkDynamic),
}
impl TmSink {
pub fn operation(&mut self) {
match self {
TmSink::Static(static_sink) => static_sink.operation(),
TmSink::Heap(dynamic_sink) => dynamic_sink.operation(),
}
}
}
satrs-shared/Cargo.toml
+2 -1
View File
@@ -11,7 +11,8 @@ license = "Apache-2.0"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
spacepackets = { version = "0.17", default-features = false }
# spacepackets = { version = "0.17", default-features = false }
spacepackets = { version = "0.17", git = "https://egit.irs.uni-stuttgart.de/rust/spacepackets.git", default-features = false }
serde = { version = "1", default-features = false, optional = true }
defmt = {version = "1", optional = true }
satrs/Cargo.toml
+2 -7
View File
@@ -1,6 +1,6 @@
[package]
name = "satrs"
version = "0.3.0-alpha.2"
version = "0.3.0-alpha.3"
edition = "2024"
rust-version = "1.85.0"
authors = ["Robin Mueller <muellerr@irs.uni-stuttgart.de>"]
@@ -14,7 +14,7 @@ categories = ["aerospace", "aerospace::space-protocols", "no-std", "hardware-sup
[dependencies]
satrs-shared = { version = "0.2", path = "../satrs-shared" }
spacepackets = { version = "0.17", default-features = false }
spacepackets = { version = "0.17", git = "https://egit.irs.uni-stuttgart.de/rust/spacepackets.git", default-features = false }
delegate = "0.13"
paste = "1"
@@ -78,8 +78,3 @@ test_util = []
[package.metadata.docs.rs]
all-features = true
rustdoc-args = ["--generate-link-to-definition"]
[[test]]
name = "event_test"
path = "tests/pus_events.rs"
required-features = ["test_util"]
satrs/src/ccsds/mod.rs
+1
View File
@@ -0,0 +1 @@
pub mod scheduler;
satrs/src/ccsds/scheduler.rs
+926
View File
@@ -0,0 +1,926 @@
//! # CCSDS Telecommand Scheduler.
#![deny(missing_docs)]
use core::{hash::Hash, time::Duration};
#[cfg(feature = "alloc")]
pub use alloc_mod::*;
use spacepackets::{
CcsdsPacketIdAndPsc,
time::{TimestampError, UnixTime},
};
/// Generic CCSDS scheduling errors.
#[derive(Debug, Clone, PartialEq, Eq, thiserror::Error)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum ScheduleError {
/// The release time is within the time-margin added on top of the current time.
/// The first parameter is the current time, the second one the time margin, and the third one
/// the release time.
#[error("release time in margin")]
ReleaseTimeInTimeMargin {
/// Current time.
current_time: UnixTime,
/// Configured time margin.
time_margin: Duration,
/// Release time.
release_time: UnixTime,
},
/// Nested time-tagged commands are not allowed.
#[error("nested scheduled tc")]
NestedScheduledTc,
/// TC data is empty.
#[error("tc data empty")]
TcDataEmpty,
/// Scheduler is full, packet number limit reached.
#[error("scheduler is full, packet number limit reached")]
PacketLimitReached,
/// Scheduler is full, numver of bytes limit reached.
#[error("scheduler is full, number of bytes limit reached")]
ByteLimitReached,
/// Timestamp error.
#[error("timestamp error: {0}")]
TimestampError(#[from] TimestampError),
}
/// Packet ID used for identifying scheduled packets.
///
/// Right now, this ID can be determined from the packet without requiring external input
/// or custom data fields in the CCSDS space pacekt.
#[derive(Debug, PartialEq, Eq, Clone)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
pub struct CcsdsSchedulePacketId {
/// Base ID.
pub base: CcsdsPacketIdAndPsc,
/// Optional checksum of the packet.
pub crc16: Option<u16>,
}
impl CcsdsSchedulePacketId {
/// Create a new CCSDS scheduling packet ID.
pub const fn new(base: CcsdsPacketIdAndPsc, checksum: Option<u16>) -> Self {
Self {
base,
crc16: checksum,
}
}
}
impl Hash for CcsdsSchedulePacketId {
fn hash<H: core::hash::Hasher>(&self, state: &mut H) {
self.base.hash(state);
self.crc16.hash(state);
}
}
/// Modules requiring [alloc] support.
#[cfg(feature = "alloc")]
pub mod alloc_mod {
use core::time::Duration;
#[cfg(feature = "std")]
use std::time::SystemTimeError;
use alloc::collections::btree_map;
use spacepackets::{CcsdsPacketIdAndPsc, CcsdsPacketReader, time::UnixTime};
use crate::ccsds::scheduler::CcsdsSchedulePacketId;
/// The scheduler can be configured to have bounds for both the number of packets
/// and the total number of bytes used by scheduled packets.
///
/// This can be used to avoid memory exhaustion in systems with limited resources or under
/// heavy workloads.
#[derive(Default, Debug)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct Limits {
/// Maximum number of scheduled packets.
pub packets: Option<usize>,
/// Maximum total number of bytes used by scheduled packets.
pub bytes: Option<usize>,
}
impl Limits {
/// Create new limits for the CCSDS scheduler.
pub const fn new(packets: Option<usize>, bytes: Option<usize>) -> Self {
Self { packets, bytes }
}
/// Check if no limits are set.
pub fn has_no_limits(&self) -> bool {
self.packets.is_none() && self.bytes.is_none()
}
}
/// Fill count of the scheduler.
#[derive(Default, Debug)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct FillCount {
/// Number of scheduled packets.
pub packets: usize,
/// Total number of bytes used by scheduled packets.
pub bytes: usize,
}
/// Simple CCSDS scheduler implementation.
///
/// Relies of [alloc] support but limits the number of scheduled packets.
#[derive(Debug)]
pub struct CcsdsScheduler {
tc_map: alloc::collections::BTreeMap<
UnixTime,
alloc::vec::Vec<(CcsdsSchedulePacketId, alloc::vec::Vec<u8>)>,
>,
limits: Limits,
pub(crate) current_time: UnixTime,
time_margin: Duration,
}
impl CcsdsScheduler {
/// Create a new CCSDS scheduler.
pub fn new(current_time: UnixTime, limits: Limits, time_margin: Duration) -> Self {
Self {
tc_map: alloc::collections::BTreeMap::new(),
limits,
current_time,
time_margin,
}
}
/// Like [Self::new], but sets the `init_current_time` parameter to the current system time.
#[cfg(feature = "std")]
pub fn new_with_current_init_time(
limits: Limits,
time_margin: Duration,
) -> Result<Self, SystemTimeError> {
Ok(Self::new(UnixTime::now()?, limits, time_margin))
}
/// Current fill count: number of scheduled packets and total number of bytes.
///
/// The first returned value is the number of scheduled packets, the second one is the
/// byte count.
pub fn current_fill_count(&self) -> FillCount {
let mut fill_count = FillCount::default();
for value in self.tc_map.values() {
for (_, raw_scheduled_tc) in value {
fill_count.packets += 1;
fill_count.bytes += raw_scheduled_tc.len();
}
}
fill_count
}
/// Current number of scheduled entries.
pub fn num_of_entries(&self) -> usize {
self.current_fill_count().packets
}
/// Update the current time.
#[inline]
pub fn update_time(&mut self, current_time: UnixTime) {
self.current_time = current_time;
}
/// Current time.
#[inline]
pub fn current_time(&self) -> &UnixTime {
&self.current_time
}
fn common_check(
&mut self,
release_time: UnixTime,
packet_size: usize,
) -> Result<(), super::ScheduleError> {
if !self.limits.has_no_limits() {
let fill_count = self.current_fill_count();
if let Some(max_bytes) = self.limits.bytes {
if fill_count.bytes + packet_size > max_bytes {
return Err(super::ScheduleError::ByteLimitReached);
}
}
if let Some(max_packets) = self.limits.packets {
if fill_count.packets + 1 > max_packets {
return Err(super::ScheduleError::PacketLimitReached);
}
}
}
if release_time < self.current_time + self.time_margin {
return Err(super::ScheduleError::ReleaseTimeInTimeMargin {
current_time: self.current_time,
time_margin: self.time_margin,
release_time,
});
}
Ok(())
}
/// Insert a telecommand using an existing [CcsdsPacketReader].
pub fn insert_telecommand_with_reader(
&mut self,
reader: &CcsdsPacketReader,
release_time: UnixTime,
) -> Result<(), super::ScheduleError> {
self.common_check(release_time, reader.packet_len())?;
let base_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(reader);
let checksum = reader.checksum();
let packet_id_scheduling = CcsdsSchedulePacketId {
base: base_id,
crc16: checksum,
};
self.insert_telecommand(packet_id_scheduling, reader.raw_data(), release_time)?;
Ok(())
}
/// Insert a raw telecommand, assuming the user has already extracted the
/// [CcsdsSchedulePacketId]
pub fn insert_telecommand(
&mut self,
packet_id_scheduling: CcsdsSchedulePacketId,
raw_packet: &[u8],
release_time: UnixTime,
) -> Result<(), super::ScheduleError> {
self.common_check(release_time, raw_packet.len())?;
match self.tc_map.entry(release_time) {
btree_map::Entry::Vacant(e) => {
e.insert(alloc::vec![(packet_id_scheduling, raw_packet.to_vec())]);
}
btree_map::Entry::Occupied(mut v) => {
v.get_mut()
.push((packet_id_scheduling, raw_packet.to_vec()));
}
}
Ok(())
}
/// Release all telecommands which should be released based on the current time.
pub fn release_telecommands<R: FnMut(&CcsdsSchedulePacketId, &[u8])>(
&mut self,
mut releaser: R,
) {
let tcs_to_release = self.telecommands_to_release();
for tc_group in tcs_to_release {
for (packet_id, raw_tc) in tc_group.1 {
releaser(packet_id, raw_tc);
}
}
self.tc_map.retain(|k, _| k > &self.current_time);
}
/// Retrieve all telecommands which should be released based on the current time.
pub fn telecommands_to_release(
&self,
) -> btree_map::Range<
'_,
UnixTime,
alloc::vec::Vec<(CcsdsSchedulePacketId, alloc::vec::Vec<u8>)>,
> {
self.tc_map.range(..=self.current_time)
}
/// Delete scheduled telecommand by their packet ID.
///
/// Returns whether any telecommand was deleted. This function might have to be called
/// multiple times if multiple identical CCSDS packet IDs are possible.
pub fn delete_by_id(&mut self, packet_id: &CcsdsSchedulePacketId) -> bool {
let mut was_removed = false;
self.tc_map.retain(|_, v| {
let len_before = v.len();
v.retain(|(stored_id, _)| stored_id != packet_id);
let has_remaining = !v.is_empty();
if v.len() < len_before {
was_removed = true;
}
has_remaining
});
was_removed
}
/// Delete all telecommands scheduled in a time window.
///
/// The range includes the start time but excludes the end time. Returns whether any
/// telecommands were deleted.
pub fn delete_time_window(&mut self, start_time: UnixTime, end_time: UnixTime) -> bool {
let len_before = self.tc_map.len();
self.tc_map.retain(|k, _| k < &start_time || k >= &end_time);
self.tc_map.len() < len_before
}
/// Delete all scheduled telecommands scheduled after or at a given time.
///
/// Returns whether any telecommands were deleted.
pub fn delete_starting_at(&mut self, start_time: UnixTime) -> bool {
let len_before = self.tc_map.len();
self.tc_map.retain(|k, _| k < &start_time);
self.tc_map.len() < len_before
}
/// Delete all scheduled telecommands scheduled before but not equal to a given time.
///
/// Returns whether any telecommands were deleted.
pub fn delete_before(&mut self, end_time: UnixTime) -> bool {
let len_before = self.tc_map.len();
self.tc_map.retain(|k, _| k >= &end_time);
self.tc_map.len() < len_before
}
/// Completely clear the scheduler.
pub fn clear(&mut self) {
self.tc_map.clear();
}
}
}
#[cfg(test)]
mod tests {
use arbitrary_int::{traits::Integer, u11, u14};
use spacepackets::{
CcsdsPacketCreatorOwned, CcsdsPacketReader, ChecksumType, SpacePacketHeader,
};
use super::*;
fn test_tc(app_data: &[u8], seq_count: u14) -> CcsdsPacketCreatorOwned {
CcsdsPacketCreatorOwned::new(
SpacePacketHeader::new_for_tc(
u11::new(0x1),
spacepackets::SequenceFlags::Unsegmented,
seq_count,
0,
),
spacepackets::PacketType::Tc,
app_data,
Some(ChecksumType::WithCrc16),
)
.unwrap()
}
#[test]
fn test_basic() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(5000),
);
assert_eq!(scheduler.current_fill_count().packets, 0);
assert_eq!(scheduler.current_fill_count().bytes, 0);
assert_eq!(scheduler.num_of_entries(), 0);
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
0
);
assert_eq!(scheduler.current_time(), &unix_time);
scheduler.release_telecommands(|_, _| {
panic!("should not be called");
});
}
#[test]
fn test_mutable_closure() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(5000),
);
let mut some_flag = false;
// We should be able to manipulate the boolean inside the closure.
scheduler.release_telecommands(|_, _| {
some_flag = true;
});
}
#[test]
fn test_clear() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(1000),
);
let test_tc = test_tc(&[1, 2, 3], u14::ZERO);
let test_tc_raw = test_tc.to_vec();
let reader = CcsdsPacketReader::new(&test_tc_raw, Some(ChecksumType::WithCrc16)).unwrap();
scheduler
.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0))
.unwrap();
assert_eq!(scheduler.current_fill_count().packets, 1);
assert_eq!(scheduler.current_fill_count().bytes, test_tc_raw.len());
assert_eq!(scheduler.num_of_entries(), 1);
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
0
);
scheduler.clear();
assert_eq!(scheduler.current_fill_count().packets, 0);
assert_eq!(scheduler.current_fill_count().bytes, 0);
assert_eq!(scheduler.num_of_entries(), 0);
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
0
);
}
#[test]
fn insert_and_release_one() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(1000),
);
let test_tc_0 = test_tc(&[1, 2, 3], u14::ZERO);
let tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&test_tc_0);
let test_tc_raw = test_tc_0.to_vec();
let reader = CcsdsPacketReader::new(&test_tc_raw, Some(ChecksumType::WithCrc16)).unwrap();
let checksum = reader.checksum();
scheduler
.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0))
.unwrap();
assert_eq!(scheduler.current_fill_count().packets, 1);
assert_eq!(scheduler.current_fill_count().bytes, test_tc_raw.len());
assert_eq!(scheduler.num_of_entries(), 1);
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
0
);
scheduler.release_telecommands(|_, _| {
panic!("should not be called");
});
scheduler.update_time(UnixTime::new(3, 0));
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
1
);
scheduler.release_telecommands(|tc_id_scheduled, tc_raw| {
assert_eq!(tc_id, tc_id_scheduled.base);
assert_eq!(checksum, tc_id_scheduled.crc16);
assert_eq!(tc_raw, test_tc_raw);
});
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
0
);
}
#[test]
fn insert_and_release_multi_0() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(1000),
);
let test_tc_0 = test_tc(&[42], u14::ZERO);
let test_tc_1 = test_tc(&[1, 2, 3], u14::new(1));
let tc_id_0 = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&test_tc_0);
let tc_id_1 = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&test_tc_1);
let test_tc_0_raw = test_tc_0.to_vec();
let test_tc_1_raw = test_tc_1.to_vec();
let reader_0 =
CcsdsPacketReader::new(&test_tc_0_raw, Some(ChecksumType::WithCrc16)).unwrap();
let reader_1 =
CcsdsPacketReader::new(&test_tc_1_raw, Some(ChecksumType::WithCrc16)).unwrap();
scheduler
.insert_telecommand_with_reader(&reader_0, UnixTime::new(2, 0))
.unwrap();
scheduler
.insert_telecommand(
CcsdsSchedulePacketId::new(tc_id_1, reader_1.checksum()),
&test_tc_1_raw,
UnixTime::new(5, 0),
)
.unwrap();
assert_eq!(scheduler.current_fill_count().packets, 2);
assert_eq!(
scheduler.current_fill_count().bytes,
test_tc_0_raw.len() + test_tc_1_raw.len()
);
assert_eq!(scheduler.num_of_entries(), 2);
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
0
);
scheduler.release_telecommands(|_, _| {
panic!("should not be called");
});
// Release first TC.
scheduler.update_time(UnixTime::new(3, 0));
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
1
);
scheduler.release_telecommands(|tc_id_scheduled, tc_raw| {
assert_eq!(tc_id_0, tc_id_scheduled.base);
assert_eq!(reader_0.checksum(), tc_id_scheduled.crc16);
assert_eq!(tc_raw, test_tc_0_raw);
});
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
0
);
assert_eq!(scheduler.current_fill_count().packets, 1);
assert_eq!(scheduler.current_fill_count().bytes, test_tc_1_raw.len());
assert_eq!(scheduler.num_of_entries(), 1);
// Release second TC.
scheduler.update_time(UnixTime::new(6, 0));
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
1
);
scheduler.release_telecommands(|tc_id_scheduled, tc_raw| {
assert_eq!(tc_id_1, tc_id_scheduled.base);
assert_eq!(reader_1.checksum(), tc_id_scheduled.crc16);
assert_eq!(tc_raw, test_tc_1_raw);
});
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
0
);
assert_eq!(scheduler.current_fill_count().packets, 0);
assert_eq!(scheduler.current_fill_count().bytes, 0);
assert_eq!(scheduler.num_of_entries(), 0);
}
#[test]
fn insert_and_release_multi_1() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(1000),
);
let test_tc_0 = test_tc(&[42], u14::ZERO);
let test_tc_1 = test_tc(&[1, 2, 3], u14::new(1));
let tc_id_0 = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&test_tc_0);
let tc_id_1 = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&test_tc_1);
let test_tc_0_raw = test_tc_0.to_vec();
let test_tc_1_raw = test_tc_1.to_vec();
let reader_0 =
CcsdsPacketReader::new(&test_tc_0_raw, Some(ChecksumType::WithCrc16)).unwrap();
let reader_1 =
CcsdsPacketReader::new(&test_tc_1_raw, Some(ChecksumType::WithCrc16)).unwrap();
scheduler
.insert_telecommand_with_reader(&reader_0, UnixTime::new(2, 0))
.unwrap();
scheduler
.insert_telecommand(
CcsdsSchedulePacketId::new(tc_id_1, reader_1.checksum()),
&test_tc_1_raw,
UnixTime::new(5, 0),
)
.unwrap();
assert_eq!(scheduler.current_fill_count().packets, 2);
assert_eq!(
scheduler.current_fill_count().bytes,
test_tc_0_raw.len() + test_tc_1_raw.len()
);
assert_eq!(scheduler.num_of_entries(), 2);
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
0
);
scheduler.release_telecommands(|_, _| {
panic!("should not be called");
});
// Release first TC.
scheduler.update_time(UnixTime::new(6, 0));
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
2
);
let mut index = 0;
scheduler.release_telecommands(|tc_id_scheduled, tc_raw| {
if index == 0 {
assert_eq!(tc_id_0, tc_id_scheduled.base);
assert_eq!(reader_0.checksum(), tc_id_scheduled.crc16);
assert_eq!(tc_raw, test_tc_0_raw);
} else {
assert_eq!(tc_id_1, tc_id_scheduled.base);
assert_eq!(reader_1.checksum(), tc_id_scheduled.crc16);
assert_eq!(tc_raw, test_tc_1_raw);
}
index += 1;
});
assert_eq!(
scheduler
.telecommands_to_release()
.collect::<alloc::vec::Vec<_>>()
.len(),
0
);
assert_eq!(scheduler.current_fill_count().packets, 0);
assert_eq!(scheduler.current_fill_count().bytes, 0);
assert_eq!(scheduler.num_of_entries(), 0);
}
#[test]
fn test_packet_limit_reached() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(3), None),
Duration::from_millis(1000),
);
let test_tc_0 = test_tc(&[42], u14::ZERO);
let test_tc_0_raw = test_tc_0.to_vec();
let reader = CcsdsPacketReader::new(&test_tc_0_raw, Some(ChecksumType::WithCrc16)).unwrap();
let tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&test_tc_0);
scheduler
.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0))
.unwrap();
assert_eq!(scheduler.current_fill_count().packets, 3);
assert_eq!(
scheduler.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0)),
Err(ScheduleError::PacketLimitReached)
);
assert_eq!(
scheduler.insert_telecommand(
CcsdsSchedulePacketId::new(tc_id, reader.checksum()),
&test_tc_0_raw,
UnixTime::new(2, 0)
),
Err(ScheduleError::PacketLimitReached)
);
}
#[test]
fn test_byte_limit_reached() {
let unix_time = UnixTime::new(0, 0);
let test_tc_0 = test_tc(&[42], u14::ZERO);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(None, Some(test_tc_0.len_written() * 3)),
Duration::from_millis(1000),
);
let test_tc_0_raw = test_tc_0.to_vec();
let reader = CcsdsPacketReader::new(&test_tc_0_raw, Some(ChecksumType::WithCrc16)).unwrap();
let tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&test_tc_0);
scheduler
.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0))
.unwrap();
assert_eq!(scheduler.current_fill_count().packets, 3);
assert_eq!(
scheduler.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0)),
Err(ScheduleError::ByteLimitReached)
);
assert_eq!(
scheduler.insert_telecommand(
CcsdsSchedulePacketId::new(tc_id, reader.checksum()),
&test_tc_0_raw,
UnixTime::new(2, 0)
),
Err(ScheduleError::ByteLimitReached)
);
}
#[test]
fn test_deletion_by_id() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(1000),
);
let test_tc = test_tc(&[1, 2, 3], u14::ZERO);
let tc_id = CcsdsPacketIdAndPsc::new_from_ccsds_packet(&test_tc);
let test_tc_raw = test_tc.to_vec();
let reader = CcsdsPacketReader::new(&test_tc_raw, Some(ChecksumType::WithCrc16)).unwrap();
let checksum = reader.checksum();
let id = CcsdsSchedulePacketId::new(tc_id, checksum);
scheduler
.insert_telecommand_with_reader(&reader, UnixTime::new(2, 0))
.unwrap();
scheduler.delete_by_id(&id);
assert_eq!(scheduler.current_fill_count().packets, 0);
assert_eq!(scheduler.current_fill_count().bytes, 0);
}
#[test]
fn test_deletion_by_window_0() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(1000),
);
let test_tc_0 = test_tc(&[42], u14::ZERO);
let test_tc_1 = test_tc(&[1, 2, 3], u14::new(1));
let test_tc_2 = test_tc(&[1, 2, 3], u14::new(2));
let test_tc_0_raw = test_tc_0.to_vec();
let test_tc_1_raw = test_tc_1.to_vec();
let test_tc_2_raw = test_tc_2.to_vec();
let reader_0 =
CcsdsPacketReader::new(&test_tc_0_raw, Some(ChecksumType::WithCrc16)).unwrap();
let reader_1 =
CcsdsPacketReader::new(&test_tc_1_raw, Some(ChecksumType::WithCrc16)).unwrap();
let reader_2 =
CcsdsPacketReader::new(&test_tc_2_raw, Some(ChecksumType::WithCrc16)).unwrap();
scheduler
.insert_telecommand_with_reader(&reader_0, UnixTime::new(2, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader_1, UnixTime::new(5, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader_2, UnixTime::new(7, 0))
.unwrap();
let deleted = scheduler.delete_time_window(UnixTime::new(3, 0), UnixTime::new(6, 0));
assert!(deleted);
assert_eq!(scheduler.current_fill_count().packets, 2);
assert_eq!(
scheduler.current_fill_count().bytes,
test_tc_0_raw.len() + test_tc_2_raw.len()
);
scheduler.update_time(UnixTime::new(10, 0));
let mut index = 0;
scheduler.release_telecommands(|_id, packet| {
if index == 0 {
assert_eq!(packet, test_tc_0_raw);
} else {
assert_eq!(packet, test_tc_2_raw);
}
index += 1;
});
assert_eq!(scheduler.current_fill_count().packets, 0);
assert_eq!(scheduler.current_fill_count().bytes, 0);
}
#[test]
fn test_deletion_by_window_1() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(1000),
);
let test_tc_0 = test_tc(&[42], u14::ZERO);
let test_tc_1 = test_tc(&[1, 2, 3], u14::new(1));
let test_tc_2 = test_tc(&[1, 2, 3], u14::new(2));
let test_tc_0_raw = test_tc_0.to_vec();
let test_tc_1_raw = test_tc_1.to_vec();
let test_tc_2_raw = test_tc_2.to_vec();
let reader_0 =
CcsdsPacketReader::new(&test_tc_0_raw, Some(ChecksumType::WithCrc16)).unwrap();
let reader_1 =
CcsdsPacketReader::new(&test_tc_1_raw, Some(ChecksumType::WithCrc16)).unwrap();
let reader_2 =
CcsdsPacketReader::new(&test_tc_2_raw, Some(ChecksumType::WithCrc16)).unwrap();
scheduler
.insert_telecommand_with_reader(&reader_0, UnixTime::new(2, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader_1, UnixTime::new(5, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader_2, UnixTime::new(7, 0))
.unwrap();
// This only deletes the first 2 TCs.
let deleted = scheduler.delete_time_window(UnixTime::new(2, 0), UnixTime::new(7, 0));
assert!(deleted);
assert_eq!(scheduler.current_fill_count().packets, 1);
assert_eq!(scheduler.current_fill_count().bytes, test_tc_2_raw.len());
scheduler.update_time(UnixTime::new(10, 0));
scheduler.release_telecommands(|_id, packet| {
assert_eq!(packet, test_tc_2_raw);
});
}
#[test]
fn test_deletion_from_start() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(1000),
);
let test_tc_0 = test_tc(&[42], u14::ZERO);
let test_tc_1 = test_tc(&[1, 2, 3], u14::new(1));
let test_tc_2 = test_tc(&[1, 2, 3], u14::new(2));
let test_tc_0_raw = test_tc_0.to_vec();
let test_tc_1_raw = test_tc_1.to_vec();
let test_tc_2_raw = test_tc_2.to_vec();
let reader_0 =
CcsdsPacketReader::new(&test_tc_0_raw, Some(ChecksumType::WithCrc16)).unwrap();
let reader_1 =
CcsdsPacketReader::new(&test_tc_1_raw, Some(ChecksumType::WithCrc16)).unwrap();
let reader_2 =
CcsdsPacketReader::new(&test_tc_2_raw, Some(ChecksumType::WithCrc16)).unwrap();
scheduler
.insert_telecommand_with_reader(&reader_0, UnixTime::new(2, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader_1, UnixTime::new(5, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader_2, UnixTime::new(7, 0))
.unwrap();
// This only deletes the first 2 TCs.
let deleted = scheduler.delete_starting_at(UnixTime::new(5, 0));
assert!(deleted);
assert_eq!(scheduler.current_fill_count().packets, 1);
assert_eq!(scheduler.current_fill_count().bytes, test_tc_0_raw.len());
scheduler.update_time(UnixTime::new(10, 0));
scheduler.release_telecommands(|_id, packet| {
assert_eq!(packet, test_tc_0_raw);
});
}
#[test]
fn test_deletion_until_end() {
let unix_time = UnixTime::new(0, 0);
let mut scheduler = CcsdsScheduler::new(
unix_time,
Limits::new(Some(100), Some(1024)),
Duration::from_millis(1000),
);
let test_tc_0 = test_tc(&[42], u14::ZERO);
let test_tc_1 = test_tc(&[1, 2, 3], u14::new(1));
let test_tc_2 = test_tc(&[1, 2, 3], u14::new(2));
let test_tc_0_raw = test_tc_0.to_vec();
let test_tc_1_raw = test_tc_1.to_vec();
let test_tc_2_raw = test_tc_2.to_vec();
let reader_0 =
CcsdsPacketReader::new(&test_tc_0_raw, Some(ChecksumType::WithCrc16)).unwrap();
let reader_1 =
CcsdsPacketReader::new(&test_tc_1_raw, Some(ChecksumType::WithCrc16)).unwrap();
let reader_2 =
CcsdsPacketReader::new(&test_tc_2_raw, Some(ChecksumType::WithCrc16)).unwrap();
scheduler
.insert_telecommand_with_reader(&reader_0, UnixTime::new(2, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader_1, UnixTime::new(5, 0))
.unwrap();
scheduler
.insert_telecommand_with_reader(&reader_2, UnixTime::new(7, 0))
.unwrap();
// This only deletes the first 2 TCs.
let deleted = scheduler.delete_before(UnixTime::new(7, 0));
assert!(deleted);
assert_eq!(scheduler.current_fill_count().packets, 1);
assert_eq!(scheduler.current_fill_count().bytes, test_tc_2_raw.len());
scheduler.update_time(UnixTime::new(10, 0));
scheduler.release_telecommands(|_id, packet| {
assert_eq!(packet, test_tc_2_raw);
});
}
}
satrs/src/dev_mgmt.rs
-448
View File
@@ -1,448 +0,0 @@
use crate::{
ComponentId,
mode::{ModeAndSubmode, ModeReply, ModeRequest, ModeRequestSender},
mode_tree::{ModeStoreProvider, ModeStoreVec},
queue::{GenericSendError, GenericTargetedMessagingError},
request::{GenericMessage, RequestId},
};
use core::fmt::Debug;
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub struct ActiveModeCommandContext {
pub target_mode: ModeAndSubmode,
pub active_request_id: RequestId,
}
#[derive(Debug, Default, PartialEq, Eq)]
pub enum DevManagerHelperResult {
#[default]
Idle,
Busy,
ModeCommandingDone(ActiveModeCommandContext),
}
#[derive(Debug)]
pub enum DevManagerHelperError {
ChildNotInStore,
}
pub trait DevManagerUserHook: Debug {
fn send_mode_cmd_to_child(
&self,
request_id: RequestId,
target_id: ComponentId,
mode: ModeAndSubmode,
forced: bool,
children_mode_store: &mut ModeStoreVec,
mode_req_sender: &impl ModeRequestSender,
) -> Result<(), GenericSendError>;
fn send_mode_cmds_to_children(
&self,
request_id: RequestId,
commanded_parent_mode: ModeAndSubmode,
forced: bool,
children_mode_store: &mut ModeStoreVec,
mode_req_sender: &impl ModeRequestSender,
) -> Result<(), GenericSendError>;
}
#[derive(Debug, Default)]
pub struct TransparentDevManagerHook {}
impl DevManagerUserHook for TransparentDevManagerHook {
fn send_mode_cmds_to_children(
&self,
request_id: RequestId,
commanded_parent_mode: ModeAndSubmode,
forced: bool,
children_mode_store: &mut ModeStoreVec,
mode_req_sender: &impl ModeRequestSender,
) -> Result<(), GenericSendError> {
for child in children_mode_store {
mode_req_sender.send_mode_request(
request_id,
child.id(),
ModeRequest::SetMode {
mode_and_submode: commanded_parent_mode,
forced,
},
)?;
child.awaiting_reply = true;
}
Ok(())
}
fn send_mode_cmd_to_child(
&self,
request_id: RequestId,
target_id: ComponentId,
mode: ModeAndSubmode,
forced: bool,
children_mode_store: &mut ModeStoreVec,
mode_req_sender: &impl ModeRequestSender,
) -> Result<(), GenericSendError> {
let mut_val = children_mode_store
.get_mut(target_id)
.ok_or(GenericSendError::TargetDoesNotExist(target_id))?;
mut_val.awaiting_reply = true;
mode_req_sender.send_mode_request(
request_id,
target_id,
ModeRequest::SetMode {
mode_and_submode: mode,
forced,
},
)?;
Ok(())
}
}
#[derive(Debug, Default, Clone, Copy, PartialEq, Eq)]
pub enum DevManagerCommandingState {
#[default]
Idle,
AwaitingReplies(ActiveModeCommandContext),
}
impl DevManagerCommandingState {
fn new_active_cmd(mode_and_submode: ModeAndSubmode, active_request_id: RequestId) -> Self {
DevManagerCommandingState::AwaitingReplies(ActiveModeCommandContext {
target_mode: mode_and_submode,
active_request_id,
})
}
}
/// A generic helper for manager components which manage child components in a mode tree.
///
/// Mode commands are usually forwarded to all children components transparently.
/// For example, this could be used in an Assembly component which manages multiple redundant
/// child components. It can also be used inside a manager component which only manages one device.
#[derive(Debug, Default)]
pub struct DevManagerCommandingHelper<UserHook: DevManagerUserHook> {
/// The IDs, modes and reply awaition status of all children are tracked in this data
/// structure.
pub children_mode_store: ModeStoreVec,
pub user_hook: UserHook,
pub state: DevManagerCommandingState,
}
impl<UserHook: DevManagerUserHook> DevManagerCommandingHelper<UserHook> {
pub fn new(user_hook: UserHook) -> Self {
Self {
children_mode_store: Default::default(),
user_hook,
state: Default::default(),
}
}
pub fn send_mode_cmd_to_one_child(
&mut self,
request_id: RequestId,
target_id: ComponentId,
mode_and_submode: ModeAndSubmode,
forced: bool,
mode_req_sender: &impl ModeRequestSender,
) -> Result<(), GenericSendError> {
self.state = DevManagerCommandingState::new_active_cmd(mode_and_submode, request_id);
self.user_hook.send_mode_cmd_to_child(
request_id,
target_id,
mode_and_submode,
forced,
&mut self.children_mode_store,
mode_req_sender,
)?;
Ok(())
}
pub fn send_mode_cmd_to_all_children(
&mut self,
request_id: RequestId,
mode_and_submode: ModeAndSubmode,
forced: bool,
mode_req_sender: &impl ModeRequestSender,
) -> Result<(), GenericSendError> {
self.state = DevManagerCommandingState::new_active_cmd(mode_and_submode, request_id);
self.user_hook.send_mode_cmds_to_children(
request_id,
mode_and_submode,
forced,
&mut self.children_mode_store,
mode_req_sender,
)?;
Ok(())
}
pub fn target_mode(&self) -> Option<ModeAndSubmode> {
match self.state {
DevManagerCommandingState::Idle => None,
DevManagerCommandingState::AwaitingReplies(context) => Some(context.target_mode),
}
}
pub fn state(&self) -> DevManagerCommandingState {
self.state
}
pub fn send_announce_mode_cmd_to_children(
&self,
request_id: RequestId,
mode_req_sender: &impl ModeRequestSender,
recursive: bool,
) -> Result<(), GenericTargetedMessagingError> {
let mut request = ModeRequest::AnnounceMode;
if recursive {
request = ModeRequest::AnnounceModeRecursive;
}
for child in self.children_mode_store.0.iter() {
mode_req_sender.send_mode_request(request_id, child.id(), request)?;
}
Ok(())
}
pub fn add_mode_child(&mut self, target_id: ComponentId, mode: ModeAndSubmode) {
self.children_mode_store.add_component(target_id, mode);
}
/// Helper method which counts the number of children which have a certain mode.
pub fn count_number_of_children_with_mode(&self, mode_and_submode: ModeAndSubmode) -> usize {
let mut children_in_target_mode = 0;
for child in &self.children_mode_store {
if child.mode_and_submode() == mode_and_submode {
children_in_target_mode += 1;
}
}
children_in_target_mode
}
pub fn handle_mode_reply(
&mut self,
mode_reply: &GenericMessage<ModeReply>,
) -> Result<DevManagerHelperResult, DevManagerHelperError> {
let context = match self.state {
DevManagerCommandingState::Idle => return Ok(DevManagerHelperResult::Idle),
DevManagerCommandingState::AwaitingReplies(active_mode_command_context) => {
Some(active_mode_command_context)
}
};
if !self
.children_mode_store
.has_component(mode_reply.sender_id())
{
return Err(DevManagerHelperError::ChildNotInStore);
}
let mut generic_mode_reply_handler = |mode_and_submode: Option<ModeAndSubmode>| {
// Tying the reply awaition to the request ID ensures that something like replies
// belonging to older requests do not interfere with the completion handling of
// the mode commanding. This is important for forced mode commands.
let mut handle_awaition = false;
if let DevManagerCommandingState::AwaitingReplies { .. } = self.state {
handle_awaition = true;
}
let still_awating_replies = self.children_mode_store.mode_reply_handler(
mode_reply.sender_id(),
mode_and_submode,
handle_awaition,
);
// It is okay to unwrap: If awaition should be handled, the returned value should
// always be some valid value.
if handle_awaition && !still_awating_replies.unwrap() {
self.state = DevManagerCommandingState::Idle;
return Ok(DevManagerHelperResult::ModeCommandingDone(context.unwrap()));
}
Ok(DevManagerHelperResult::Busy)
};
match mode_reply.message {
ModeReply::ModeInfo(mode_and_submode) | ModeReply::ModeReply(mode_and_submode) => {
generic_mode_reply_handler(Some(mode_and_submode))
}
ModeReply::CantReachMode(_result_u16) => generic_mode_reply_handler(None),
ModeReply::WrongMode {
expected: _,
reached,
} => generic_mode_reply_handler(Some(reached)),
}
}
}
#[cfg(test)]
mod tests {
use crate::{
mode::{UNKNOWN_MODE, tests::ModeReqSenderMock},
request::MessageMetadata,
};
use super::*;
pub enum ExampleId {
Id1 = 1,
Id2 = 2,
}
pub enum ExampleMode {
Mode1 = 1,
Mode2 = 2,
}
#[test]
fn test_basic() {
let assy_helper = DevManagerCommandingHelper::new(TransparentDevManagerHook::default());
assert_eq!(assy_helper.state(), DevManagerCommandingState::Idle);
}
#[test]
fn test_mode_announce() {
let mut assy_helper = DevManagerCommandingHelper::new(TransparentDevManagerHook::default());
let mode_req_sender = ModeReqSenderMock::default();
assy_helper.add_mode_child(ExampleId::Id1 as ComponentId, UNKNOWN_MODE);
assy_helper.add_mode_child(ExampleId::Id2 as ComponentId, UNKNOWN_MODE);
assy_helper
.send_announce_mode_cmd_to_children(1, &mode_req_sender, false)
.unwrap();
assert_eq!(mode_req_sender.requests.borrow().len(), 2);
let mut req = mode_req_sender.requests.borrow_mut().pop_front().unwrap();
assert_eq!(req.target_id, ExampleId::Id1 as ComponentId);
assert_eq!(req.request_id, 1);
assert_eq!(req.request, ModeRequest::AnnounceMode);
req = mode_req_sender.requests.borrow_mut().pop_front().unwrap();
assert_eq!(req.target_id, ExampleId::Id2 as ComponentId);
assert_eq!(req.request_id, 1);
assert_eq!(req.request, ModeRequest::AnnounceMode);
}
#[test]
fn test_mode_announce_recursive() {
let mut assy_helper = DevManagerCommandingHelper::new(TransparentDevManagerHook::default());
let mode_req_sender = ModeReqSenderMock::default();
assy_helper.add_mode_child(ExampleId::Id1 as ComponentId, UNKNOWN_MODE);
assy_helper.add_mode_child(ExampleId::Id2 as ComponentId, UNKNOWN_MODE);
assy_helper
.send_announce_mode_cmd_to_children(1, &mode_req_sender, true)
.unwrap();
assert_eq!(mode_req_sender.requests.borrow().len(), 2);
let mut req = mode_req_sender.requests.borrow_mut().pop_front().unwrap();
assert_eq!(req.target_id, ExampleId::Id1 as ComponentId);
assert_eq!(req.request_id, 1);
assert_eq!(req.request, ModeRequest::AnnounceModeRecursive);
req = mode_req_sender.requests.borrow_mut().pop_front().unwrap();
assert_eq!(req.target_id, ExampleId::Id2 as ComponentId);
assert_eq!(req.request_id, 1);
assert_eq!(req.request, ModeRequest::AnnounceModeRecursive);
}
#[test]
fn test_mode_commanding_one_child() {
let mut dev_mgmt_helper =
DevManagerCommandingHelper::new(TransparentDevManagerHook::default());
let mode_req_sender = ModeReqSenderMock::default();
dev_mgmt_helper.add_mode_child(ExampleId::Id1 as ComponentId, UNKNOWN_MODE);
let expected_mode = ModeAndSubmode::new(ExampleMode::Mode1 as u32, 0);
dev_mgmt_helper
.send_mode_cmd_to_one_child(
1,
ExampleId::Id1 as ComponentId,
expected_mode,
false,
&mode_req_sender,
)
.unwrap();
assert_eq!(mode_req_sender.requests.borrow().len(), 1);
let req = mode_req_sender.requests.borrow_mut().pop_front().unwrap();
assert_eq!(req.target_id, ExampleId::Id1 as ComponentId);
assert_eq!(req.request_id, 1);
assert_eq!(
req.request,
ModeRequest::SetMode {
mode_and_submode: expected_mode,
forced: false
}
);
matches!(
dev_mgmt_helper.state(),
DevManagerCommandingState::AwaitingReplies { .. }
);
if let DevManagerCommandingState::AwaitingReplies(ctx) = dev_mgmt_helper.state() {
assert_eq!(ctx.target_mode, expected_mode);
assert_eq!(ctx.active_request_id, 1);
}
let reply = GenericMessage::new(
MessageMetadata::new(1, ExampleId::Id1 as ComponentId),
ModeReply::ModeReply(expected_mode),
);
if let DevManagerHelperResult::ModeCommandingDone(ActiveModeCommandContext {
target_mode,
active_request_id,
}) = dev_mgmt_helper.handle_mode_reply(&reply).unwrap()
{
assert_eq!(target_mode, expected_mode);
assert_eq!(active_request_id, 1);
}
matches!(dev_mgmt_helper.state(), DevManagerCommandingState::Idle);
}
#[test]
fn test_mode_commanding_multi_child() {
let mut dev_mgmt_helper =
DevManagerCommandingHelper::new(TransparentDevManagerHook::default());
let mode_req_sender = ModeReqSenderMock::default();
dev_mgmt_helper.add_mode_child(ExampleId::Id1 as ComponentId, UNKNOWN_MODE);
dev_mgmt_helper.add_mode_child(ExampleId::Id2 as ComponentId, UNKNOWN_MODE);
let expected_mode = ModeAndSubmode::new(ExampleMode::Mode2 as u32, 0);
dev_mgmt_helper
.send_mode_cmd_to_all_children(1, expected_mode, false, &mode_req_sender)
.unwrap();
assert_eq!(mode_req_sender.requests.borrow().len(), 2);
let req = mode_req_sender.requests.borrow_mut().pop_front().unwrap();
assert_eq!(req.target_id, ExampleId::Id1 as ComponentId);
assert_eq!(req.request_id, 1);
assert_eq!(
req.request,
ModeRequest::SetMode {
mode_and_submode: expected_mode,
forced: false
}
);
let req = mode_req_sender.requests.borrow_mut().pop_front().unwrap();
assert_eq!(req.target_id, ExampleId::Id2 as ComponentId);
assert_eq!(req.request_id, 1);
assert_eq!(
req.request,
ModeRequest::SetMode {
mode_and_submode: expected_mode,
forced: false
}
);
matches!(
dev_mgmt_helper.state(),
DevManagerCommandingState::AwaitingReplies { .. }
);
if let DevManagerCommandingState::AwaitingReplies(ctx) = dev_mgmt_helper.state() {
assert_eq!(ctx.target_mode, expected_mode);
assert_eq!(ctx.active_request_id, 1);
}
let reply = GenericMessage::new(
MessageMetadata::new(1, ExampleId::Id1 as ComponentId),
ModeReply::ModeReply(expected_mode),
);
assert_eq!(
dev_mgmt_helper.handle_mode_reply(&reply).unwrap(),
DevManagerHelperResult::Busy
);
let reply = GenericMessage::new(
MessageMetadata::new(1, ExampleId::Id2 as ComponentId),
ModeReply::ModeReply(expected_mode),
);
if let DevManagerHelperResult::ModeCommandingDone(ActiveModeCommandContext {
target_mode,
active_request_id,
}) = dev_mgmt_helper.handle_mode_reply(&reply).unwrap()
{
assert_eq!(target_mode, expected_mode);
assert_eq!(active_request_id, 1);
}
matches!(dev_mgmt_helper.state(), DevManagerCommandingState::Idle);
}
}
satrs/src/device.rs
View File
satrs/src/hk.rs
-40
View File
@@ -1,40 +0,0 @@
use crate::ComponentId;
pub type CollectionIntervalFactor = u32;
/// Unique Identifier for a certain housekeeping dataset.
pub type UniqueId = u32;
#[derive(Debug, Copy, Clone, PartialEq, Eq)]
pub struct HkRequest {
pub unique_id: UniqueId,
pub variant: HkRequestVariant,
}
impl HkRequest {
pub fn new(unique_id: UniqueId, variant: HkRequestVariant) -> Self {
Self { unique_id, variant }
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq)]
pub enum HkRequestVariant {
OneShot,
EnablePeriodic,
DisablePeriodic,
ModifyCollectionInterval(CollectionIntervalFactor),
}
#[derive(Debug, Copy, Clone, PartialEq, Eq)]
pub struct TargetedHkRequest {
pub target_id: ComponentId,
pub hk_request: HkRequestVariant,
}
impl TargetedHkRequest {
pub fn new(target_id: ComponentId, hk_request: HkRequestVariant) -> Self {
Self {
target_id,
hk_request,
}
}
}
satrs/src/event_man.rs → satrs/src/legacy/event_man.rs
+5 -4
View File
@@ -50,7 +50,7 @@
//! show how the event management modules can be integrated into a more complex software.
use crate::{
ComponentId,
events::{Event, EventId, GroupId},
legacy::events::{Event, EventId, GroupId},
queue::GenericSendError,
};
use core::marker::PhantomData;
@@ -96,6 +96,7 @@ impl<EventInstance: Event> EventMessage<EventInstance> {
pub trait EventSender<EventInstance: Event> {
type Error;
/// Destination component ID.
fn target_id(&self) -> ComponentId;
fn send(&self, message: EventMessage<EventInstance>) -> Result<(), Self::Error>;
@@ -317,7 +318,7 @@ pub mod alloc_mod {
use alloc::vec::Vec;
use hashbrown::HashMap;
use crate::events::EventErasedAlloc;
use crate::legacy::events::EventErasedAlloc;
use super::*;
@@ -460,7 +461,7 @@ pub mod alloc_mod {
#[cfg(feature = "std")]
pub mod std_mod {
use crate::{
events::{EventErasedAlloc, EventErasedHeapless},
legacy::events::{EventErasedAlloc, EventErasedHeapless},
queue::GenericReceiveError,
};
@@ -577,7 +578,7 @@ mod tests {
use arbitrary_int::u14;
use super::*;
use crate::events::{EventErasedAlloc, Severity};
use crate::legacy::events::{EventErasedAlloc, Severity};
use crate::pus::test_util::{TEST_COMPONENT_ID_0, TEST_COMPONENT_ID_1};
use std::sync::mpsc;
satrs/src/event_man_legacy.rs → satrs/src/legacy/event_man_legacy.rs
+3 -3
View File
@@ -50,7 +50,7 @@
//! The [PUS event](https://egit.irs.uni-stuttgart.de/rust/sat-rs/src/branch/main/satrs-example/src/pus/event.rs)
//! module and the generic [events module](https://egit.irs.uni-stuttgart.de/rust/sat-rs/src/branch/main/satrs-example/src/events.rs)
//! show how the event management modules can be integrated into a more complex software.
use crate::events_legacy::{EventU16, EventU32, GenericEvent, LargestEventRaw, LargestGroupIdRaw};
use crate::legacy::events_legacy::{EventU16, EventU32, GenericEvent, LargestEventRaw, LargestGroupIdRaw};
use crate::params::Params;
use crate::queue::GenericSendError;
use core::fmt::Debug;
@@ -588,8 +588,8 @@ pub mod std_mod {
#[cfg(test)]
mod tests {
use super::*;
use crate::event_man_legacy::EventManager;
use crate::events_legacy::{EventU32, GenericEvent, Severity};
use crate::legacy::event_man_legacy::EventManager;
use crate::legacy::events_legacy::{EventU32, GenericEvent, Severity};
use crate::params::{ParamsHeapless, ParamsRaw};
use crate::pus::test_util::{TEST_COMPONENT_ID_0, TEST_COMPONENT_ID_1};
use std::format;
satrs/src/events.rs → satrs/src/legacy/events.rs
View File
satrs/src/events_legacy.rs → satrs/src/legacy/events_legacy.rs
View File
satrs/src/legacy/mod.rs
+4
View File
@@ -0,0 +1,4 @@
pub mod event_man;
pub mod events;
pub mod pus;
satrs/src/pus/event.rs → satrs/src/legacy/pus/event.rs
+1 -214
View File
@@ -267,217 +267,4 @@ mod alloc_mod {
}
#[cfg(test)]
mod tests {
use super::*;
use crate::ComponentId;
use crate::events_legacy::{EventU32, Severity};
use crate::pus::test_util::TEST_COMPONENT_ID_0;
use crate::pus::tests::CommonTmInfo;
use crate::pus::{ChannelWithId, EcssTmSender, EcssTmtcError, PusTmVariant};
use spacepackets::ByteConversionError;
use spacepackets::ecss::PusError;
use std::cell::RefCell;
use std::collections::VecDeque;
use std::vec::Vec;
const EXAMPLE_APID: u11 = u11::new(0xee);
const EXAMPLE_GROUP_ID: u16 = 2;
const EXAMPLE_EVENT_ID_0: u16 = 1;
#[allow(dead_code)]
const EXAMPLE_EVENT_ID_1: u16 = 2;
#[derive(Debug, Eq, PartialEq, Clone)]
struct TmInfo {
pub sender_id: ComponentId,
pub common: CommonTmInfo,
pub event: EventU32,
pub aux_data: Vec<u8>,
}
#[derive(Default, Clone)]
struct TestSender {
pub service_queue: RefCell<VecDeque<TmInfo>>,
}
impl ChannelWithId for TestSender {
fn id(&self) -> ComponentId {
0
}
}
impl EcssTmSender for TestSender {
fn send_tm(&self, sender_id: ComponentId, tm: PusTmVariant) -> Result<(), EcssTmtcError> {
match tm {
PusTmVariant::InStore(_) => {
panic!("TestSender: unexpected call with address");
}
PusTmVariant::Direct(tm) => {
assert!(!tm.source_data().is_empty());
let src_data = tm.source_data();
assert!(src_data.len() >= 4);
let event =
EventU32::from(u32::from_be_bytes(src_data[0..4].try_into().unwrap()));
let mut aux_data = Vec::new();
if src_data.len() > 4 {
aux_data.extend_from_slice(&src_data[4..]);
}
self.service_queue.borrow_mut().push_back(TmInfo {
sender_id,
common: CommonTmInfo::new_from_tm(&tm),
event,
aux_data,
});
Ok(())
}
}
}
}
fn severity_to_subservice(severity: Severity) -> MessageSubtypeId {
match severity {
Severity::Info => MessageSubtypeId::TmInfoReport,
Severity::Low => MessageSubtypeId::TmLowSeverityReport,
Severity::Medium => MessageSubtypeId::TmMediumSeverityReport,
Severity::High => MessageSubtypeId::TmHighSeverityReport,
}
}
fn report_basic_event(
reporter: &mut EventReporter,
sender: &mut TestSender,
time_stamp: &[u8],
event: EventU32,
severity: Severity,
aux_data: Option<&[u8]>,
) {
match severity {
Severity::Info => {
reporter
.event_info(sender, time_stamp, event, aux_data)
.expect("Error reporting info event");
}
Severity::Low => {
reporter
.event_low_severity(sender, time_stamp, event, aux_data)
.expect("Error reporting low event");
}
Severity::Medium => {
reporter
.event_medium_severity(sender, time_stamp, event, aux_data)
.expect("Error reporting medium event");
}
Severity::High => {
reporter
.event_high_severity(sender, time_stamp, event, aux_data)
.expect("Error reporting high event");
}
}
}
fn basic_event_test(
max_event_aux_data_buf: usize,
severity: Severity,
error_data: Option<&[u8]>,
) {
let mut sender = TestSender::default();
let mut reporter = EventReporter::new(
TEST_COMPONENT_ID_0.id(),
EXAMPLE_APID,
0,
max_event_aux_data_buf,
);
let time_stamp_empty: [u8; 7] = [0; 7];
let mut error_copy = Vec::new();
if let Some(err_data) = error_data {
error_copy.extend_from_slice(err_data);
}
let event = EventU32::new_checked(severity, EXAMPLE_GROUP_ID, EXAMPLE_EVENT_ID_0)
.expect("Error creating example event");
report_basic_event(
&mut reporter,
&mut sender,
&time_stamp_empty,
event,
severity,
error_data,
);
let mut service_queue = sender.service_queue.borrow_mut();
assert_eq!(service_queue.len(), 1);
let tm_info = service_queue.pop_front().unwrap();
assert_eq!(
tm_info.common.subservice,
severity_to_subservice(severity) as u8
);
assert_eq!(tm_info.common.dest_id, 0);
assert_eq!(tm_info.common.timestamp, time_stamp_empty);
assert_eq!(tm_info.common.msg_counter, 0);
assert_eq!(tm_info.common.apid, EXAMPLE_APID);
assert_eq!(tm_info.event, event);
assert_eq!(tm_info.sender_id, TEST_COMPONENT_ID_0.id());
assert_eq!(tm_info.aux_data, error_copy);
}
#[test]
fn basic_info_event_generation() {
basic_event_test(4, Severity::Info, None);
}
#[test]
fn basic_low_severity_event() {
basic_event_test(4, Severity::Low, None);
}
#[test]
fn basic_medium_severity_event() {
basic_event_test(4, Severity::Medium, None);
}
#[test]
fn basic_high_severity_event() {
basic_event_test(4, Severity::High, None);
}
#[test]
fn event_with_info_string() {
let info_string = "Test Information";
basic_event_test(32, Severity::Info, Some(info_string.as_bytes()));
}
#[test]
fn low_severity_with_raw_err_data() {
let raw_err_param: i32 = -1;
let raw_err = raw_err_param.to_be_bytes();
basic_event_test(8, Severity::Low, Some(&raw_err))
}
fn check_buf_too_small(
reporter: &mut EventReporter,
sender: &mut TestSender,
expected_found_len: usize,
) {
let time_stamp_empty: [u8; 7] = [0; 7];
let event = EventU32::new_checked(Severity::Info, EXAMPLE_GROUP_ID, EXAMPLE_EVENT_ID_0)
.expect("Error creating example event");
let err = reporter.event_info(sender, &time_stamp_empty, event, None);
assert!(err.is_err());
let err = err.unwrap_err();
if let EcssTmtcError::Pus(PusError::ByteConversion(
ByteConversionError::ToSliceTooSmall { found, expected },
)) = err
{
assert_eq!(expected, 4);
assert_eq!(found, expected_found_len);
} else {
panic!("Unexpected error {:?}", err);
}
}
#[test]
fn insufficient_buffer() {
let mut sender = TestSender::default();
for i in 0..3 {
let mut reporter = EventReporter::new(0, EXAMPLE_APID, 0, i);
check_buf_too_small(&mut reporter, &mut sender, i);
}
}
}
mod tests {}

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