use chain::transaction::{OutPoint, TransactionData};
// Since this struct is returned in `list_channels` methods, expose it here in case users want to
// construct one themselves.
+use ln::{PaymentHash, PaymentPreimage, PaymentSecret};
pub use ln::channel::CounterpartyForwardingInfo;
use ln::channel::{Channel, ChannelError};
use ln::features::{InitFeatures, NodeFeatures};
use std::time::Duration;
#[cfg(any(test, feature = "allow_wallclock_use"))]
use std::time::Instant;
-use std::marker::{Sync, Send};
use std::ops::Deref;
use bitcoin::hashes::hex::ToHex;
}
}
-/// payment_hash type, use to cross-lock hop
-/// (C-not exported) as we just use [u8; 32] directly
-#[derive(Hash, Copy, Clone, PartialEq, Eq, Debug)]
-pub struct PaymentHash(pub [u8;32]);
-/// payment_preimage type, use to route payment between hop
-/// (C-not exported) as we just use [u8; 32] directly
-#[derive(Hash, Copy, Clone, PartialEq, Eq, Debug)]
-pub struct PaymentPreimage(pub [u8;32]);
-/// payment_secret type, use to authenticate sender to the receiver and tie MPP HTLCs together
-/// (C-not exported) as we just use [u8; 32] directly
-#[derive(Hash, Copy, Clone, PartialEq, Eq, Debug)]
-pub struct PaymentSecret(pub [u8;32]);
-
type ShutdownResult = (Option<(OutPoint, ChannelMonitorUpdate)>, Vec<(HTLCSource, PaymentHash)>);
/// Error type returned across the channel_state mutex boundary. When an Err is generated for a
/// Storage for PaymentSecrets and any requirements on future inbound payments before we will
/// expose them to users via a PaymentReceived event. HTLCs which do not meet the requirements
/// here are failed when we process them as pending-forwardable-HTLCs, and entries are removed
- /// after we generate a PaymentReceived upon receipt of all MPP parts.
+ /// after we generate a PaymentReceived upon receipt of all MPP parts or when they time out.
/// Locked *after* channel_state.
pending_inbound_payments: Mutex<HashMap<PaymentHash, PendingInboundPayment>>,
pub(crate) const MAX_LOCAL_BREAKDOWN_TIMEOUT: u16 = 2 * 6 * 24 * 7;
/// The minimum number of blocks between an inbound HTLC's CLTV and the corresponding outbound
-/// HTLC's CLTV. The current default represents roughly six hours of blocks at six blocks/hour.
+/// HTLC's CLTV. The current default represents roughly seven hours of blocks at six blocks/hour.
///
/// This can be increased (but not decreased) through [`ChannelConfig::cltv_expiry_delta`]
///
// i.e. the node we forwarded the payment on to should always have enough room to reliably time out
// the HTLC via a full update_fail_htlc/commitment_signed dance before we hit the
// CLTV_CLAIM_BUFFER point (we static assert that it's at least 3 blocks more).
-pub const MIN_CLTV_EXPIRY_DELTA: u16 = 6 * 6;
+pub const MIN_CLTV_EXPIRY_DELTA: u16 = 6*7;
pub(super) const CLTV_FAR_FAR_AWAY: u32 = 6 * 24 * 7; //TODO?
+/// Minimum CLTV difference between the current block height and received inbound payments.
+/// Invoices generated for payment to us must set their `min_final_cltv_expiry` field to at least
+/// this value.
+// Note that we fail if exactly HTLC_FAIL_BACK_BUFFER + 1 was used, so we need to add one for
+// any payments to succeed. Further, we don't want payments to fail if a block was found while
+// a payment was being routed, so we add an extra block to be safe.
+pub const MIN_FINAL_CLTV_EXPIRY: u32 = HTLC_FAIL_BACK_BUFFER + 3;
+
// Check that our CLTV_EXPIRY is at least CLTV_CLAIM_BUFFER + ANTI_REORG_DELAY + LATENCY_GRACE_PERIOD_BLOCKS,
// ie that if the next-hop peer fails the HTLC within
// LATENCY_GRACE_PERIOD_BLOCKS then we'll still have CLTV_CLAIM_BUFFER left to timeout it onchain,
#[allow(dead_code)]
const CHECK_CLTV_EXPIRY_SANITY: u32 = MIN_CLTV_EXPIRY_DELTA as u32 - LATENCY_GRACE_PERIOD_BLOCKS - CLTV_CLAIM_BUFFER - ANTI_REORG_DELAY - LATENCY_GRACE_PERIOD_BLOCKS;
-// Check for ability of an attacker to make us fail on-chain by delaying inbound claim. See
+// Check for ability of an attacker to make us fail on-chain by delaying an HTLC claim. See
// ChannelMontior::would_broadcast_at_height for a description of why this is needed.
#[deny(const_err)]
#[allow(dead_code)]
/// Note that this means this value is *not* persistent - it can change once during the
/// lifetime of the channel.
pub channel_id: [u8; 32],
+ /// The Channel's funding transaction output, if we've negotiated the funding transaction with
+ /// our counterparty already.
+ ///
+ /// Note that, if this has been set, `channel_id` will be equivalent to
+ /// `funding_txo.unwrap().to_channel_id()`.
+ pub funding_txo: Option<OutPoint>,
/// The position of the funding transaction in the chain. None if the funding transaction has
/// not yet been confirmed and the channel fully opened.
pub short_channel_id: Option<u64>,
/// Note that there are some corner cases not fully handled here, so the actual available
/// inbound capacity may be slightly higher than this.
pub inbound_capacity_msat: u64,
+ /// True if the channel was initiated (and thus funded) by us.
+ pub is_outbound: bool,
+ /// True if the channel is confirmed, funding_locked messages have been exchanged, and the
+ /// channel is not currently being shut down. `funding_locked` message exchange implies the
+ /// required confirmation count has been reached (and we were connected to the peer at some
+ /// point after the funding transaction received enough confirmations).
+ pub is_funding_locked: bool,
/// True if the channel is (a) confirmed and funding_locked messages have been exchanged, (b)
- /// the peer is connected, and (c) no monitor update failure is pending resolution.
- pub is_live: bool,
-
+ /// the peer is connected, (c) no monitor update failure is pending resolution, and (d) the
+ /// channel is not currently negotiating a shutdown.
+ ///
+ /// This is a strict superset of `is_funding_locked`.
+ pub is_usable: bool,
+ /// True if this channel is (or will be) publicly-announced.
+ pub is_public: bool,
/// Information on the fees and requirements that the counterparty requires when forwarding
/// payments to us through this channel.
pub counterparty_forwarding_info: Option<CounterpartyForwardingInfo>,
let (inbound_capacity_msat, outbound_capacity_msat) = channel.get_inbound_outbound_available_balance_msat();
res.push(ChannelDetails {
channel_id: (*channel_id).clone(),
+ funding_txo: channel.get_funding_txo(),
short_channel_id: channel.get_short_channel_id(),
remote_network_id: channel.get_counterparty_node_id(),
counterparty_features: InitFeatures::empty(),
inbound_capacity_msat,
outbound_capacity_msat,
user_id: channel.get_user_id(),
- is_live: channel.is_live(),
+ is_outbound: channel.is_outbound(),
+ is_funding_locked: channel.is_usable(),
+ is_usable: channel.is_live(),
+ is_public: channel.should_announce(),
counterparty_forwarding_info: channel.counterparty_forwarding_info(),
});
}
/// Gets the list of usable channels, in random order. Useful as an argument to
/// get_route to ensure non-announced channels are used.
///
- /// These are guaranteed to have their is_live value set to true, see the documentation for
- /// ChannelDetails::is_live for more info on exactly what the criteria are.
+ /// These are guaranteed to have their [`ChannelDetails::is_usable`] value set to true, see the
+ /// documentation for [`ChannelDetails::is_usable`] for more info on exactly what the criteria
+ /// are.
pub fn list_usable_channels(&self) -> Vec<ChannelDetails> {
// Note we use is_live here instead of usable which leads to somewhat confused
// internal/external nomenclature, but that's ok cause that's probably what the user
/// only Tor Onion addresses.
///
/// Panics if addresses is absurdly large (more than 500).
- pub fn broadcast_node_announcement(&self, rgb: [u8; 3], alias: [u8; 32], addresses: Vec<NetAddress>) {
+ pub fn broadcast_node_announcement(&self, rgb: [u8; 3], alias: [u8; 32], mut addresses: Vec<NetAddress>) {
let _persistence_guard = PersistenceNotifierGuard::new(&self.total_consistency_lock, &self.persistence_notifier);
if addresses.len() > 500 {
panic!("More than half the message size was taken up by public addresses!");
}
+ // While all existing nodes handle unsorted addresses just fine, the spec requires that
+ // addresses be sorted for future compatibility.
+ addresses.sort_by_key(|addr| addr.get_id());
+
let announcement = msgs::UnsignedNodeAnnouncement {
features: NodeFeatures::known(),
timestamp: self.last_node_announcement_serial.fetch_add(1, Ordering::AcqRel) as u32,
} else if total_value == payment_data.total_msat {
new_events.push(events::Event::PaymentReceived {
payment_hash,
- payment_secret: Some(payment_data.payment_secret),
+ payment_preimage: inbound_payment.get().payment_preimage,
+ payment_secret: payment_data.payment_secret,
amt: total_value,
user_payment_id: inbound_payment.get().user_payment_id,
});
///
/// [`create_inbound_payment`]: Self::create_inbound_payment
/// [`create_inbound_payment_for_hash`]: Self::create_inbound_payment_for_hash
- pub fn claim_funds(&self, payment_preimage: PaymentPreimage, expected_amount: u64) -> bool {
+ pub fn claim_funds(&self, payment_preimage: PaymentPreimage) -> bool {
let payment_hash = PaymentHash(Sha256::hash(&payment_preimage.0).into_inner());
let _persistence_guard = PersistenceNotifierGuard::new(&self.total_consistency_lock, &self.persistence_notifier);
// we got all the HTLCs and then a channel closed while we were waiting for the user to
// provide the preimage, so worrying too much about the optimal handling isn't worth
// it.
- let mut valid_mpp = sources[0].payment_data.total_msat >= expected_amount;
+ let mut valid_mpp = true;
for htlc in sources.iter() {
if let None = channel_state.as_ref().unwrap().short_to_id.get(&htlc.prev_hop.short_channel_id) {
valid_mpp = false;
},
}
if let Some(tx) = funding_broadcastable {
+ log_info!(self.logger, "Broadcasting funding transaction with txid {}", tx.txid());
self.tx_broadcaster.broadcast_transaction(&tx);
}
if let Some(msg) = funding_locked {
hash_map::Entry::Vacant(_) => return Err(MsgHandleErrInternal::send_err_msg_no_close("Failed to find corresponding channel".to_owned(), msg.channel_id))
}
};
+ log_info!(self.logger, "Broadcasting funding transaction with txid {}", funding_tx.txid());
self.tx_broadcaster.broadcast_transaction(&funding_tx);
Ok(())
}
}
};
if let Some(broadcast_tx) = tx {
- log_trace!(self.logger, "Broadcast onchain {}", log_tx!(broadcast_tx));
+ log_info!(self.logger, "Broadcasting {}", log_tx!(broadcast_tx));
self.tx_broadcaster.broadcast_transaction(&broadcast_tx);
}
if let Some(chan) = chan_option {
/// This differs from [`create_inbound_payment_for_hash`] only in that it generates the
/// [`PaymentHash`] and [`PaymentPreimage`] for you, returning the first and storing the second.
///
+ /// The [`PaymentPreimage`] will ultimately be returned to you in the [`PaymentReceived`], which
+ /// will have the [`PaymentReceived::payment_preimage`] field filled in. That should then be
+ /// passed directly to [`claim_funds`].
+ ///
/// See [`create_inbound_payment_for_hash`] for detailed documentation on behavior and requirements.
///
+ /// [`claim_funds`]: Self::claim_funds
+ /// [`PaymentReceived`]: events::Event::PaymentReceived
+ /// [`PaymentReceived::payment_preimage`]: events::Event::PaymentReceived::payment_preimage
/// [`create_inbound_payment_for_hash`]: Self::create_inbound_payment_for_hash
pub fn create_inbound_payment(&self, min_value_msat: Option<u64>, invoice_expiry_delta_secs: u32, user_payment_id: u64) -> (PaymentHash, PaymentSecret) {
let payment_preimage = PaymentPreimage(self.keys_manager.get_secure_random_bytes());
/// `invoice_expiry_delta_secs` describes the number of seconds that the invoice is valid for
/// in excess of the current time. This should roughly match the expiry time set in the invoice.
/// After this many seconds, we will remove the inbound payment, resulting in any attempts to
- /// pay the invoice failing. The BOLT spec suggests 7,200 secs as a default validity time for
+ /// pay the invoice failing. The BOLT spec suggests 3,600 secs as a default validity time for
/// invoices when no timeout is set.
///
/// Note that we use block header time to time-out pending inbound payments (with some margin
/// If you need exact expiry semantics, you should enforce them upon receipt of
/// [`PaymentReceived`].
///
+ /// Pending inbound payments are stored in memory and in serialized versions of this
+ /// [`ChannelManager`]. If potentially unbounded numbers of inbound payments may exist and
+ /// space is limited, you may wish to rate-limit inbound payment creation.
+ ///
/// May panic if `invoice_expiry_delta_secs` is greater than one year.
///
+ /// Note that invoices generated for inbound payments should have their `min_final_cltv_expiry`
+ /// set to at least [`MIN_FINAL_CLTV_EXPIRY`].
+ ///
/// [`create_inbound_payment`]: Self::create_inbound_payment
/// [`PaymentReceived`]: events::Event::PaymentReceived
/// [`PaymentReceived::user_payment_id`]: events::Event::PaymentReceived::user_payment_id
}
max_time!(self.last_node_announcement_serial);
max_time!(self.highest_seen_timestamp);
+ let mut payment_secrets = self.pending_inbound_payments.lock().unwrap();
+ payment_secrets.retain(|_, inbound_payment| {
+ inbound_payment.expiry_time > header.time as u64
+ });
}
fn get_relevant_txids(&self) -> Vec<Txid> {
}
}
-impl<Signer: Sign, M: Deref + Sync + Send, T: Deref + Sync + Send, K: Deref + Sync + Send, F: Deref + Sync + Send, L: Deref + Sync + Send>
+impl<Signer: Sign, M: Deref , T: Deref , K: Deref , F: Deref , L: Deref >
ChannelMessageHandler for ChannelManager<Signer, M, T, K, F, L>
where M::Target: chain::Watch<Signer>,
T::Target: BroadcasterInterface,
expect_pending_htlcs_forwardable!(NodeHolder { node: &$node_b });
expect_payment_received!(NodeHolder { node: &$node_b }, payment_hash, payment_secret, 10_000);
- assert!($node_b.claim_funds(payment_preimage, 10_000));
+ assert!($node_b.claim_funds(payment_preimage));
match $node_b.get_and_clear_pending_msg_events().pop().unwrap() {
MessageSendEvent::UpdateHTLCs { node_id, updates } => {
projects / rust-lightning / blobdiff