#ifndef LIGHTNING_LIGHTNINGD_CHANNEL_H #define LIGHTNING_LIGHTNINGD_CHANNEL_H #include "config.h" #include #include #include #include #include #include #include #include #include #include struct uncommitted_channel; struct wally_psbt; /* FIXME: Define serialization primitive for this? */ struct channel_info { struct channel_config their_config; struct pubkey remote_fundingkey; struct basepoints theirbase; /* The old_remote_per_commit is for the locked-in remote commit_tx, * and the remote_per_commit is for the commit_tx we're modifying now. */ struct pubkey remote_per_commit, old_remote_per_commit; }; struct billboard { /* Status information to display on listpeers */ const char *permanent[CHANNEL_STATE_MAX+1]; const char *transient; }; struct funding_info { struct bitcoin_outpoint outpoint; u32 feerate; struct amount_sat total_funds; /* Our original funds, in funding amount */ struct amount_sat our_funds; /* Relative splicing balance change */ s64 splice_amnt; }; struct channel_inflight { /* Inside channel->inflights. */ struct list_node list; /* Channel context */ struct channel *channel; /* Funding info */ const struct funding_info *funding; struct wally_psbt *funding_psbt; bool remote_tx_sigs; bool tx_broadcast; /* Commitment tx and sigs */ struct bitcoin_tx *last_tx; struct bitcoin_signature last_sig; /* Channel lease infos */ u32 lease_expiry; secp256k1_ecdsa_signature *lease_commit_sig; u32 lease_chan_max_msat; u16 lease_chan_max_ppt; u32 lease_blockheight_start; /* We save this data so we can do nice accounting; * on the channel we slot it into the 'push' field */ struct amount_msat lease_fee; /* Amount requested to lease for this open */ struct amount_sat lease_amt; /* Did I initate this splice attempt? */ bool i_am_initiator; /* On reestablish recovery; should I sign first? */ bool force_sign_first; /* Note: This field is not stored in the database. * * After splice_locked, we need a way to stop the chain watchers from * thinking the old channel was spent. * * Leaving the inflight in memory-only with splice_locked true leaves * moves the responsiblity of cleaning up the inflight to the watcher, * avoiding any potential race conditions. */ bool splice_locked_memonly; }; struct open_attempt { /* on uncommitted_channel struct */ struct channel *channel; struct channel_config our_config; enum tx_role role; bool aborted; /* On funding_channel struct */ struct command *cmd; struct amount_sat funding; const u8 *our_upfront_shutdown_script; /* First msg to send to dualopend (to make it create channel) */ const u8 *open_msg; }; struct channel { /* Inside peer->channels. */ struct list_node list; /* Peer context */ struct peer *peer; /* Inflight channel opens */ struct list_head inflights; /* Open attempt */ struct open_attempt *open_attempt; /* Database ID: 0 == not in db yet */ u64 dbid; /* Populated by new_unsaved_channel */ u64 unsaved_dbid; /* Error message (iff in error state) */ u8 *error; /* Their shachain. */ struct wallet_shachain their_shachain; /* What's happening. */ enum channel_state state; /* Which side offered channel? */ enum side opener; /* Is there a single subdaemon responsible for us? */ struct subd *owner; /* Telling the world (or just our peer) about us */ struct channel_gossip *channel_gossip; /* History */ struct logger *log; struct billboard billboard; /* Channel flags from opening message. */ u8 channel_flags; /* Our channel config. */ struct channel_config our_config; /* Require confirmed inputs for interactive tx */ bool req_confirmed_ins[NUM_SIDES]; /* Minimum funding depth (specified by us if they fund). */ u32 minimum_depth; /* Depth of the funding TX as reported by the txout * watch. Only used while we're in state * CHANNELD_AWAITING_LOCKING, afterwards the watches do not * trigger anymore. */ u32 depth; /* Tracking commitment transaction numbers. */ u64 next_index[NUM_SIDES]; u64 next_htlc_id; /* Funding outpoint and amount */ struct bitcoin_outpoint funding; struct amount_sat funding_sats; /* Watch we have on funding output. */ struct txowatch *funding_spend_watch; /* Our original funds, in funding amount */ struct amount_sat our_funds; struct amount_msat push; bool remote_channel_ready; /* Channel if locked locally. */ struct short_channel_id *scid; /* Alias used for option_zeroconf, or option_scid_alias, if * present. LOCAL are all the alias we told the peer about and * REMOTE is one of the aliases we got from the peer and we'll * use in a routehint. */ struct short_channel_id *alias[NUM_SIDES]; struct channel_id cid; /* Amount going to us, not counting unfinished HTLCs; if we have one. */ struct amount_msat our_msat; /* Statistics for min and max our_msatoshi. */ struct amount_msat msat_to_us_min; struct amount_msat msat_to_us_max; /* Last tx they gave us. */ struct bitcoin_tx *last_tx; struct bitcoin_signature last_sig; const struct bitcoin_signature *last_htlc_sigs; /* Keys for channel */ struct channel_info channel_info; /* Fee status */ const struct fee_states *fee_states; /* Height states (option_will_fund, update_blockheight) */ const struct height_states *blockheight_states; /* Our local basepoints */ struct basepoints local_basepoints; /* Our funding tx pubkey. */ struct pubkey local_funding_pubkey; /* scriptpubkey for shutdown, if applicable. */ const u8 *shutdown_scriptpubkey[NUM_SIDES]; /* Address for any final outputs */ u64 final_key_idx; /* Amount to give up on each step of the closing fee negotiation. */ u64 closing_fee_negotiation_step; /* Whether closing_fee_negotiation_step is in satoshi or %. */ u8 closing_fee_negotiation_step_unit; /* optional wrong_funding for mutual close */ const struct bitcoin_outpoint *shutdown_wrong_funding; /* optional feerate min/max for mutual close */ u32 *closing_feerate_range; /* Reestablishment stuff: last sent commit and revocation details. */ bool last_was_revoke; struct changed_htlc *last_sent_commit; /* Blockheight at creation, scans for funding confirmations * will start here */ u32 first_blocknum; /* Feerate range */ u32 min_possible_feerate, max_possible_feerate; /* Do we have an "impossible" future per_commitment_point from * peer via option_data_loss_protect? */ const struct pubkey *future_per_commitment_point; /* Min/max htlc amount allowed in channel. */ struct amount_msat htlc_minimum_msat, htlc_maximum_msat; /* Feerate per channel */ u32 feerate_base, feerate_ppm; /* But allow these feerates/htlcs up until this time. */ struct timeabs old_feerate_timeout; u32 old_feerate_base, old_feerate_ppm; struct amount_msat old_htlc_minimum_msat, old_htlc_maximum_msat; /* If they used option_upfront_shutdown_script. */ const u8 *remote_upfront_shutdown_script; /* At what commit numbers does `option_static_remotekey` apply? */ u64 static_remotekey_start[NUM_SIDES]; /* What features apply to this channel? */ const struct channel_type *type; /* Any commands trying to forget us. */ struct command **forgets; /* Our position in the round-robin list. */ u64 rr_number; /* the one that initiated a bilateral close, NUM_SIDES if unknown. */ enum side closer; /* Block height we saw closing tx at */ u32 *close_blockheight; /* Channeld said we've successfully exchanged reestablish. */ bool reestablished; /* Last known state_change cause */ enum state_change state_change_cause; /* Outstanding command for this channel, v2 only */ struct command *openchannel_signed_cmd; /* Block lease expires at, zero is no lease */ u32 lease_expiry; /* Lease commitment, useful someone breaks their promise * wrt channel fees */ secp256k1_ecdsa_signature *lease_commit_sig; /* Lease commited maximum channel fee base msat */ u32 lease_chan_max_msat; /* Lease commited max part per thousandth channel fee (ppm * 1000) */ u16 lease_chan_max_ppt; /* `Channel-shell` of this channel * (Minimum information required to backup this channel). */ struct scb_chan *scb; /* Do we allow the peer to set any fee it wants? */ bool ignore_fee_limits; /* Last time we had a stable connection, if any (0 = none) */ u64 last_stable_connection; struct oneshot *stable_conn_timer; }; /* Is channel owned (and should be talking to peer) */ bool channel_is_connected(const struct channel *channel); /* For v2 opens, a channel that has not yet been committed/saved to disk */ struct channel *new_unsaved_channel(struct peer *peer, u32 feerate_base, u32 feerate_ppm); struct open_attempt *new_channel_open_attempt(struct channel *channel); struct channel *new_channel(struct peer *peer, u64 dbid, /* NULL or stolen */ struct wallet_shachain *their_shachain STEALS, enum channel_state state, enum side opener, /* NULL or stolen */ struct logger *log STEALS, const char *transient_billboard TAKES, u8 channel_flags, bool req_confirmed_ins_local, bool req_confirmed_ins_remote, const struct channel_config *our_config, u32 minimum_depth, u64 next_index_local, u64 next_index_remote, u64 next_htlc_id, const struct bitcoin_outpoint *funding, struct amount_sat funding_sats, struct amount_msat push, struct amount_sat our_funds, bool remote_channel_ready, /* NULL or stolen */ struct short_channel_id *scid STEALS, struct short_channel_id *alias_local STEALS, struct short_channel_id *alias_remote STEALS, struct channel_id *cid, struct amount_msat our_msatoshi, struct amount_msat msatoshi_to_us_min, struct amount_msat msatoshi_to_us_max, struct bitcoin_tx *last_tx STEALS, const struct bitcoin_signature *last_sig, /* NULL or stolen */ const struct bitcoin_signature *last_htlc_sigs STEALS, const struct channel_info *channel_info, const struct fee_states *fee_states TAKES, /* NULL or stolen */ u8 *remote_shutdown_scriptpubkey STEALS, const u8 *local_shutdown_scriptpubkey, u64 final_key_idx, bool last_was_revoke, /* NULL or stolen */ struct changed_htlc *last_sent_commit STEALS, u32 first_blocknum, u32 min_possible_feerate, u32 max_possible_feerate, const struct basepoints *local_basepoints, const struct pubkey *local_funding_pubkey, const struct pubkey *future_per_commitment_point, u32 feerate_base, u32 feerate_ppm, /* NULL or stolen */ const u8 *remote_upfront_shutdown_script STEALS, u64 local_static_remotekey_start, u64 remote_static_remotekey_start, const struct channel_type *type STEALS, enum side closer, enum state_change reason, /* NULL or stolen */ const struct bitcoin_outpoint *shutdown_wrong_funding STEALS, const struct height_states *height_states TAKES, u32 lease_expiry, secp256k1_ecdsa_signature *lease_commit_sig STEALS, u32 lease_chan_max_msat, u16 lease_chan_max_ppt, struct amount_msat htlc_minimum_msat, struct amount_msat htlc_maximum_msat, bool ignore_fee_limits, /* NULL or stolen */ struct peer_update *peer_update STEALS, u64 last_stable_connection); /* new_inflight - Create a new channel_inflight for a channel */ struct channel_inflight *new_inflight(struct channel *channel, const struct bitcoin_outpoint *funding_outpoint, u32 funding_feerate, struct amount_sat funding_sat, struct amount_sat our_funds, struct wally_psbt *funding_psbt STEALS, const u32 lease_expiry, const secp256k1_ecdsa_signature *lease_commit_sig, const u32 lease_chan_max_msat, const u16 lease_chan_max_ppt, const u32 lease_blockheight_start, const struct amount_msat lease_fee, const struct amount_sat lease_amt, s64 splice_amnt, bool i_am_initiator, bool force_sign_first); /* Add a last_tx and sig to an inflight */ void inflight_set_last_tx(struct channel_inflight *inflight, struct bitcoin_tx *last_tx STEALS, const struct bitcoin_signature last_sig); /* If the last inflight has no commitment tx, remove it */ bool maybe_cleanup_last_inflight(struct channel *channel); /* Given a txid, find an inflight channel stub. Returns NULL if none found */ struct channel_inflight *channel_inflight_find(struct channel *channel, const struct bitcoin_txid *txid); /* What's the most recent inflight for this channel? */ struct channel_inflight * channel_current_inflight(const struct channel *channel); /* What's the last feerate used for a funding tx on this channel? */ u32 channel_last_funding_feerate(const struct channel *channel); void delete_channel(struct channel *channel STEALS); const char *channel_state_name(const struct channel *channel); const char *channel_state_str(enum channel_state state); /* Can this channel send an HTLC? */ static inline bool channel_state_can_add_htlc(enum channel_state state) { switch (state) { case CHANNELD_AWAITING_LOCKIN: case CHANNELD_SHUTTING_DOWN: case CLOSINGD_SIGEXCHANGE: case CLOSINGD_COMPLETE: case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: case CLOSED: case DUALOPEND_OPEN_INIT: case DUALOPEND_OPEN_COMMIT_READY: case DUALOPEND_OPEN_COMMITTED: case DUALOPEND_AWAITING_LOCKIN: return false; case CHANNELD_NORMAL: case CHANNELD_AWAITING_SPLICE: return true; } abort(); } /* Can this channel remove an HTLC? */ static inline bool channel_state_can_remove_htlc(enum channel_state state) { switch (state) { case CHANNELD_AWAITING_LOCKIN: case CLOSINGD_SIGEXCHANGE: case CLOSINGD_COMPLETE: case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: case CLOSED: case DUALOPEND_OPEN_INIT: case DUALOPEND_OPEN_COMMIT_READY: case DUALOPEND_OPEN_COMMITTED: case DUALOPEND_AWAITING_LOCKIN: return false; case CHANNELD_SHUTTING_DOWN: case CHANNELD_NORMAL: case CHANNELD_AWAITING_SPLICE: return true; } abort(); } static inline bool channel_state_closing(enum channel_state state) { switch (state) { case CHANNELD_AWAITING_LOCKIN: case CHANNELD_NORMAL: case DUALOPEND_OPEN_INIT: case DUALOPEND_OPEN_COMMIT_READY: case DUALOPEND_OPEN_COMMITTED: case DUALOPEND_AWAITING_LOCKIN: case CHANNELD_AWAITING_SPLICE: return false; case CHANNELD_SHUTTING_DOWN: case CLOSINGD_SIGEXCHANGE: case CLOSINGD_COMPLETE: case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: case CLOSED: return true; } abort(); } static inline bool channel_state_fees_can_change(enum channel_state state) { switch (state) { case CHANNELD_AWAITING_LOCKIN: case CHANNELD_SHUTTING_DOWN: case CLOSINGD_COMPLETE: case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: case CLOSED: case DUALOPEND_OPEN_INIT: case DUALOPEND_OPEN_COMMIT_READY: case DUALOPEND_OPEN_COMMITTED: case DUALOPEND_AWAITING_LOCKIN: return false; case CHANNELD_NORMAL: case CHANNELD_AWAITING_SPLICE: case CLOSINGD_SIGEXCHANGE: return true; } abort(); } static inline bool channel_state_failing_onchain(enum channel_state state) { switch (state) { case CHANNELD_AWAITING_LOCKIN: case CHANNELD_NORMAL: case CHANNELD_AWAITING_SPLICE: case CLOSINGD_SIGEXCHANGE: case CHANNELD_SHUTTING_DOWN: case CLOSINGD_COMPLETE: case CLOSED: case DUALOPEND_OPEN_INIT: case DUALOPEND_OPEN_COMMIT_READY: case DUALOPEND_OPEN_COMMITTED: case DUALOPEND_AWAITING_LOCKIN: return false; case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: return true; } abort(); } static inline bool channel_state_pre_open(enum channel_state state) { switch (state) { case CHANNELD_AWAITING_LOCKIN: case DUALOPEND_OPEN_INIT: case DUALOPEND_OPEN_COMMIT_READY: case DUALOPEND_OPEN_COMMITTED: case DUALOPEND_AWAITING_LOCKIN: return true; case CHANNELD_NORMAL: case CHANNELD_AWAITING_SPLICE: case CLOSINGD_SIGEXCHANGE: case CHANNELD_SHUTTING_DOWN: case CLOSINGD_COMPLETE: case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: case CLOSED: return false; } abort(); } static inline bool channel_state_closed(enum channel_state state) { switch (state) { case CHANNELD_AWAITING_LOCKIN: case DUALOPEND_OPEN_INIT: case DUALOPEND_OPEN_COMMIT_READY: case DUALOPEND_OPEN_COMMITTED: case DUALOPEND_AWAITING_LOCKIN: case CHANNELD_NORMAL: case CHANNELD_AWAITING_SPLICE: case CLOSINGD_SIGEXCHANGE: case CHANNELD_SHUTTING_DOWN: return false; case CLOSINGD_COMPLETE: case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: case CLOSED: return true; } abort(); } /* Not even in the database yet? */ static inline bool channel_state_uncommitted(enum channel_state state) { switch (state) { case DUALOPEND_OPEN_INIT: return true; case DUALOPEND_OPEN_COMMIT_READY: case DUALOPEND_OPEN_COMMITTED: case CHANNELD_AWAITING_LOCKIN: case DUALOPEND_AWAITING_LOCKIN: case CHANNELD_NORMAL: case CHANNELD_AWAITING_SPLICE: case CLOSINGD_SIGEXCHANGE: case CHANNELD_SHUTTING_DOWN: case CLOSINGD_COMPLETE: case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: case CLOSED: return false; } abort(); } /* Established enough, that we could reach out to peer to discuss */ static inline bool channel_state_wants_peercomms(enum channel_state state) { switch (state) { case CHANNELD_AWAITING_LOCKIN: case DUALOPEND_AWAITING_LOCKIN: case DUALOPEND_OPEN_COMMIT_READY: case DUALOPEND_OPEN_COMMITTED: case CHANNELD_NORMAL: case CHANNELD_AWAITING_SPLICE: case CLOSINGD_SIGEXCHANGE: case CHANNELD_SHUTTING_DOWN: return true; case DUALOPEND_OPEN_INIT: case CLOSINGD_COMPLETE: case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: case CLOSED: return false; } abort(); } /* Established enough, that we have to fail onto chain */ static inline bool channel_state_wants_onchain_fail(enum channel_state state) { switch (state) { case CHANNELD_AWAITING_LOCKIN: case DUALOPEND_OPEN_COMMITTED: case DUALOPEND_AWAITING_LOCKIN: case CHANNELD_NORMAL: case CHANNELD_AWAITING_SPLICE: case CLOSINGD_SIGEXCHANGE: case CHANNELD_SHUTTING_DOWN: return true; case DUALOPEND_OPEN_INIT: case DUALOPEND_OPEN_COMMIT_READY: case CLOSINGD_COMPLETE: case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: case CLOSED: return false; } abort(); } static inline bool channel_state_open_uncommitted(enum channel_state state) { switch (state) { case DUALOPEND_OPEN_INIT: case DUALOPEND_OPEN_COMMIT_READY: return true; case CLOSINGD_COMPLETE: case AWAITING_UNILATERAL: case FUNDING_SPEND_SEEN: case ONCHAIN: case CLOSED: case CHANNELD_AWAITING_LOCKIN: case DUALOPEND_OPEN_COMMITTED: case DUALOPEND_AWAITING_LOCKIN: case CHANNELD_NORMAL: case CHANNELD_AWAITING_SPLICE: case CLOSINGD_SIGEXCHANGE: case CHANNELD_SHUTTING_DOWN: return false; } abort(); } void channel_set_owner(struct channel *channel, struct subd *owner); /* Channel has failed, but can try again. Usually, set disconnect to true. */ void channel_fail_transient(struct channel *channel, bool disconnect, const char *fmt, ...) PRINTF_FMT(3, 4); /* Channel has failed, give up on it. */ void channel_fail_permanent(struct channel *channel, enum state_change reason, const char *fmt, ...); /* Forget the channel. This is only used for the case when we "receive" error * during CHANNELD_AWAITING_LOCKIN if we are "fundee". */ void channel_fail_forget(struct channel *channel, const char *fmt, ...); /* Permanent error, but due to internal problems, not peer. */ void channel_internal_error(struct channel *channel, const char *fmt, ...); /* Clean up any in-progress commands for a channel */ void channel_cleanup_commands(struct channel *channel, const char *why); void channel_set_state(struct channel *channel, enum channel_state old_state, enum channel_state state, enum state_change reason, char *why); const char *channel_change_state_reason_str(enum state_change reason); /* Find a channel which is passes filter, if any: sets *others if there * is more than one. */ struct channel *peer_any_channel(struct peer *peer, bool (*channel_state_filter)(enum channel_state), bool *others); struct channel *channel_by_dbid(struct lightningd *ld, const u64 dbid); /* Includes both real scids and aliases. If !privacy_leak_ok, then private * channels' real scids are not included. */ struct channel *any_channel_by_scid(struct lightningd *ld, const struct short_channel_id *scid, bool privacy_leak_ok); /* Get channel by channel_id */ struct channel *channel_by_cid(struct lightningd *ld, const struct channel_id *cid); /* Find this channel within peer */ struct channel *find_channel_by_id(const struct peer *peer, const struct channel_id *cid); /* Find this channel within peer */ struct channel *find_channel_by_scid(const struct peer *peer, const struct short_channel_id *scid); /* Find a channel by its alias, either local or remote. */ struct channel *find_channel_by_alias(const struct peer *peer, const struct short_channel_id *alias, enum side side); /* Do we have any channel with option_anchors_zero_fee_htlc_tx? (i.e. we * might need to CPFP the fee if it force closes!) */ bool have_anchor_channel(struct lightningd *ld); void channel_set_last_tx(struct channel *channel, struct bitcoin_tx *tx, const struct bitcoin_signature *sig); static inline bool channel_has(const struct channel *channel, int f) { return channel_type_has(channel->type, f); } /** * Either returns the short_channel_id if it is known or the local alias. * * This is used to refer to a channel by its scid. But sometimes we * don't have a scid yet, e.g., for `zeroconf` channels, so we resort * to referencing it by the local alias, which we have in that case. */ const struct short_channel_id *channel_scid_or_local_alias(const struct channel *chan); void get_channel_basepoints(struct lightningd *ld, const struct node_id *peer_id, const u64 dbid, struct basepoints *local_basepoints, struct pubkey *local_funding_pubkey); void channel_set_billboard(struct channel *channel, bool perm, const char *str TAKES); struct htlc_in *channel_has_htlc_in(struct channel *channel); struct htlc_out *channel_has_htlc_out(struct channel *channel); const u8 *channel_update_for_error(const tal_t *ctx, struct channel *channel); struct amount_msat htlc_max_possible_send(const struct channel *channel); #endif /* LIGHTNING_LIGHTNINGD_CHANNEL_H */