use super::*;
#[test]
fn test_session_entry_new_initiating() {
use crate::noise::HandshakeState;
let identity_a = Identity::generate();
let identity_b = Identity::generate();
let handshake = HandshakeState::new_initiator(identity_a.keypair(), identity_b.pubkey_full());
let entry = crate::node::session::SessionEntry::new(
*identity_b.node_addr(),
identity_b.pubkey_full(),
EndToEndState::Initiating(handshake),
1000,
true,
);
assert!(entry.state().is_initiating());
assert!(!entry.state().is_established());
assert!(!entry.state().is_awaiting_msg3());
assert_eq!(entry.created_at(), 1000);
assert_eq!(entry.last_activity(), 1000);
assert_eq!(entry.last_inbound_frame_ms(), 1000);
assert_eq!(entry.last_inbound_data_frame_ms(), 1000);
}
#[test]
fn test_session_entry_rekey_jitter_in_range() {
use crate::node::REKEY_JITTER_SECS;
use crate::noise::HandshakeState;
for _ in 0..100 {
let identity_a = Identity::generate();
let identity_b = Identity::generate();
let handshake =
HandshakeState::new_initiator(identity_a.keypair(), identity_b.pubkey_full());
let entry = crate::node::session::SessionEntry::new(
*identity_b.node_addr(),
identity_b.pubkey_full(),
EndToEndState::Initiating(handshake),
1000,
true,
);
let jitter = entry.rekey_jitter_secs();
assert!(
(-REKEY_JITTER_SECS..=REKEY_JITTER_SECS).contains(&jitter),
"jitter {} outside [-{}, +{}]",
jitter,
REKEY_JITTER_SECS,
REKEY_JITTER_SECS
);
}
}
#[test]
fn test_session_entry_rekey_jitter_mean_near_zero() {
use crate::noise::HandshakeState;
let mut sum = 0i64;
let n = 200i64;
for _ in 0..n {
let identity_a = Identity::generate();
let identity_b = Identity::generate();
let handshake =
HandshakeState::new_initiator(identity_a.keypair(), identity_b.pubkey_full());
let entry = crate::node::session::SessionEntry::new(
*identity_b.node_addr(),
identity_b.pubkey_full(),
EndToEndState::Initiating(handshake),
1000,
true,
);
sum += entry.rekey_jitter_secs();
}
let mean = sum / n;
assert!(
mean.abs() < 5,
"empirical mean {} not within 5 of 0 over {} samples",
mean,
n
);
}
#[test]
fn test_session_entry_touch() {
use crate::noise::HandshakeState;
let identity_a = Identity::generate();
let identity_b = Identity::generate();
let handshake = HandshakeState::new_initiator(identity_a.keypair(), identity_b.pubkey_full());
let mut entry = crate::node::session::SessionEntry::new(
*identity_b.node_addr(),
identity_b.pubkey_full(),
EndToEndState::Initiating(handshake),
1000,
true,
);
entry.touch(2000);
assert_eq!(entry.last_activity(), 2000);
assert_eq!(entry.created_at(), 1000);
}
#[test]
fn test_control_frame_does_not_refresh_data_return_trust() {
use crate::noise::HandshakeState;
let identity_a = Identity::generate();
let identity_b = Identity::generate();
let handshake = HandshakeState::new_initiator(identity_a.keypair(), identity_b.pubkey_full());
let mut entry = crate::node::session::SessionEntry::new(
*identity_b.node_addr(),
identity_b.pubkey_full(),
EndToEndState::Initiating(handshake),
1_000,
true,
);
entry.record_sent(128);
entry.touch_outbound_frame(20_000);
entry.touch_inbound_frame(20_000);
assert_eq!(entry.last_inbound_frame_ms(), 20_000);
assert_eq!(
entry.last_inbound_data_frame_ms(),
1_000,
"control/MMP frames must not prove endpoint data is returning"
);
assert!(
entry.has_recent_outbound_without_inbound(20_000, 10_000),
"recent outbound endpoint data without recent inbound data should expire direct trust"
);
entry.record_recv(128);
entry.touch_inbound_data_frame(20_000);
assert!(
!entry.has_recent_outbound_without_inbound(20_000, 10_000),
"inbound endpoint data should restore direct trust"
);
}
#[test]
fn test_session_entry_decrypt_failure_counter() {
use crate::noise::HandshakeState;
let identity_a = Identity::generate();
let identity_b = Identity::generate();
let handshake = HandshakeState::new_initiator(identity_a.keypair(), identity_b.pubkey_full());
let mut entry = crate::node::session::SessionEntry::new(
*identity_b.node_addr(),
identity_b.pubkey_full(),
EndToEndState::Initiating(handshake),
1000,
true,
);
assert_eq!(entry.consecutive_decrypt_failures(), 0);
for expected in 1..=5 {
let count = entry.record_decrypt_failure();
assert_eq!(count, expected);
assert_eq!(entry.consecutive_decrypt_failures(), expected);
}
entry.reset_decrypt_failures();
assert_eq!(entry.consecutive_decrypt_failures(), 0);
entry.reset_decrypt_failures();
assert_eq!(entry.consecutive_decrypt_failures(), 0);
let count = entry.record_decrypt_failure();
assert_eq!(count, 1);
}
#[test]
fn test_session_table_operations() {
use crate::noise::HandshakeState;
let mut node = make_node();
let identity_b = Identity::generate();
let handshake =
HandshakeState::new_initiator(node.identity().keypair(), identity_b.pubkey_full());
let dest_addr = *identity_b.node_addr();
let entry = crate::node::session::SessionEntry::new(
dest_addr,
identity_b.pubkey_full(),
EndToEndState::Initiating(handshake),
1000,
true,
);
node.sessions.insert(dest_addr, entry);
assert_eq!(node.session_count(), 1);
assert!(node.get_session(&dest_addr).is_some());
assert!(node.get_session(&make_node_addr(0xFF)).is_none());
let removed = node.remove_session(&dest_addr);
assert!(removed.is_some());
assert_eq!(node.session_count(), 0);
}