use crate::{cdk::types::Cycles, dto::prelude::*};
pub use crate::domain::cycles::CycleTopupEventStatus;
#[derive(CandidType, Deserialize)]
pub struct CycleTrackerEntry {
pub timestamp_secs: u64,
pub cycles: Cycles,
}
#[derive(CandidType, Deserialize)]
pub struct CycleTopupEvent {
pub timestamp_secs: u64,
pub sequence: u32,
pub requested_cycles: Cycles,
pub transferred_cycles: Option<Cycles>,
pub status: CycleTopupEventStatus,
pub error: Option<String>,
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn reexported_topup_status_roundtrips_through_candid() {
let event = CycleTopupEvent {
timestamp_secs: 42,
sequence: 7,
requested_cycles: Cycles::new(1_000_000),
transferred_cycles: Some(Cycles::new(999_000)),
status: crate::domain::cycles::CycleTopupEventStatus::RequestOk,
error: None,
};
let bytes = candid::encode_one(&event).expect("encode cycle top-up event");
let decoded: CycleTopupEvent =
candid::decode_one(&bytes).expect("decode cycle top-up event");
let dto_status: CycleTopupEventStatus =
crate::domain::cycles::CycleTopupEventStatus::RequestOk;
assert_eq!(decoded.timestamp_secs, 42);
assert_eq!(decoded.sequence, 7);
assert_eq!(decoded.requested_cycles, Cycles::new(1_000_000));
assert_eq!(decoded.transferred_cycles, Some(Cycles::new(999_000)));
assert_eq!(decoded.status, dto_status);
assert_eq!(decoded.error, None);
}
}