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347 lines
12 KiB
347 lines
12 KiB
#ifndef LIGHTNING_STATE_H
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#define LIGHTNING_STATE_H
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#include "config.h"
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#include <ccan/tal/tal.h>
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#include <state_types.h>
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#include <stdbool.h>
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/*
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* This is the core state machine.
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*
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* Calling the state machine updates updates peer->state, and may call
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* various peer_ callbacks. It also returns the status of the current
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* command.
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*/
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static inline bool state_is_error(enum state s)
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{
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return s >= STATE_ERR_ANCHOR_TIMEOUT && s <= STATE_ERR_INTERNAL;
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}
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struct peer;
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struct bitcoin_tx;
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static inline bool input_is_pkt(enum state_input input)
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{
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return input <= PKT_ERROR;
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}
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union input {
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Pkt *pkt;
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struct command *cmd;
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struct bitcoin_event *btc;
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struct htlc *htlc;
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struct htlc_progress *htlc_prog;
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};
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enum command_status state(struct peer *peer,
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const enum state_input input,
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const union input *idata,
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const struct bitcoin_tx **broadcast);
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/* Any CMD_SEND_HTLC_* */
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#define CMD_SEND_UPDATE_ANY INPUT_MAX
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/* a == b? (or one of several for CMD_SEND_UPDATE_ANY) */
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static inline bool input_is(enum state_input a, enum state_input b)
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{
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if (b == CMD_SEND_UPDATE_ANY) {
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/* Single | here, we want to record all. */
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return input_is(a, CMD_SEND_HTLC_ADD)
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| input_is(a, CMD_SEND_HTLC_FULFILL)
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| input_is(a, CMD_SEND_HTLC_FAIL);
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}
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/* For test_state_coverate to make the states. */
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#ifdef MAPPING_INPUTS
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MAPPING_INPUTS(b);
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#endif
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return a == b;
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}
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struct signature;
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/* Inform peer have an unexpected packet. */
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void peer_unexpected_pkt(struct peer *peer, const Pkt *pkt);
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/* An on-chain transaction revealed an R value. */
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const struct htlc *peer_tx_revealed_r_value(struct peer *peer,
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const struct bitcoin_event *btc);
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/* Send various kinds of packets */
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void queue_pkt_open(struct peer *peer, OpenChannel__AnchorOffer anchor);
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void queue_pkt_anchor(struct peer *peer);
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void queue_pkt_open_commit_sig(struct peer *peer);
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void queue_pkt_open_complete(struct peer *peer);
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void queue_pkt_htlc_add(struct peer *peer,
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const struct htlc_progress *htlc_prog);
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void queue_pkt_htlc_fulfill(struct peer *peer,
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const struct htlc_progress *htlc_prog);
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void queue_pkt_htlc_fail(struct peer *peer,
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const struct htlc_progress *htlc_prog);
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void queue_pkt_commit(struct peer *peer);
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void queue_pkt_revocation(struct peer *peer);
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void queue_pkt_close_clearing(struct peer *peer);
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void queue_pkt_close_signature(struct peer *peer);
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Pkt *pkt_err(struct peer *peer, const char *msg, ...);
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void queue_pkt_err(struct peer *peer, Pkt *err);
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Pkt *pkt_err_unexpected(struct peer *peer, const Pkt *pkt);
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/* Process various packets: return an error packet on failure. */
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Pkt *accept_pkt_open(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_anchor(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_open_commit_sig(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_open_complete(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_htlc_add(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_htlc_fail(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_htlc_fulfill(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_update_accept(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_commit(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_revocation(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_close_clearing(struct peer *peer, const Pkt *pkt);
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Pkt *accept_pkt_close_sig(struct peer *peer, const Pkt *pkt,
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bool *acked, bool *we_agree);
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/**
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* committed_to_htlcs: do we have any locked-in HTLCs?
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* @peer: the state data for this peer.
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*
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* If we were to generate a commit tx now, would it have HTLCs in it?
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*/
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bool committed_to_htlcs(const struct peer *peer);
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/**
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* peer_has_close_sig: do we have a valid close_sig from them?
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* @peer: the state data for this peer.
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*
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* We use any acceptable close tx, if we have one, in preference to a commit tx.
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*/
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bool peer_has_close_sig(const struct peer *peer);
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/**
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* peer_watch_anchor: create a watch for the anchor transaction.
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* @peer: the state data for this peer.
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* @depthok: the input to give when anchor reaches expected depth.
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* @timeout: the input to give if anchor doesn't reach depth in time.
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* @unspent: the input to give if anchor is unspent after @depthok.
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* @theyspent: the input to give if they spend anchor with their commit tx.
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* @otherspent: the input to give if they spend anchor otherwise.
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*
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* @depthok can be INPUT_NONE if it's our anchor (we don't time
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* ourselves out).
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*/
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void peer_watch_anchor(struct peer *peer,
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enum state_input depthok,
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enum state_input timeout,
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enum state_input unspent,
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enum state_input theyspent,
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enum state_input otherspent);
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/**
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* peer_unwatch_anchor_depth: remove depth watch for the anchor.
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* @peer: the state data for this peer.
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* @depthok: the input to give when anchor reaches expected depth.
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* @timeout: the input to give if anchor doesn't reach depth in time.
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*
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* @depthok and @timeout must match bitcoin_watch_anchor() call.
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*/
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void peer_unwatch_anchor_depth(struct peer *peer,
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enum state_input depthok,
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enum state_input timeout);
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/**
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* peer_watch_delayed: watch this (commit) tx, tell me when I can spend it
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* @peer: the state data for this peer.
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* @tx: the tx we're watching.
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* @canspend: the input to give when commit reaches spendable depth.
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*
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* Note that this tx may be malleated, as it's dual-signed.
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*/
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void peer_watch_delayed(struct peer *peer,
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const struct bitcoin_tx *tx,
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enum state_input canspend);
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/**
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* peer_watch_tx: watch this tx until it's "irreversible"
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* @peer: the state data for this peer.
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* @tx: the tx we're watching.
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* @done: the input to give when tx is completely buried.
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*
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* Once this fires we consider the channel completely closed and stop
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* watching (eg 100 txs down).
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*
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* This is used for watching a transaction we sent (such as a steal,
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* or spend of their close, etc).
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*/
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void peer_watch_tx(struct peer *peer,
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const struct bitcoin_tx *tx,
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enum state_input done);
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/**
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* peer_watch_close: watch for close tx until it's "irreversible" (or timedout)
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* @peer: the state data for this peer.
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* @done: the input to give when tx is completely buried.
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* @timedout: the input to give if we time out (they don't provide sig).
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*
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* Once this fires we consider the channel completely closed and stop
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* watching (eg 100 txs down).
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*
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* This is used for watching a mutual close.
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*/
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void peer_watch_close(struct peer *peer,
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enum state_input done, enum state_input timedout);
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/**
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* peer_unwatch_close_timeout: remove timeout for the close transaction
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* @peer: the state data for this peer.
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* @timeout: the input to give if anchor doesn't reach depth in time.
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*
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* This is called once we have successfully received their signature.
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*/
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void peer_unwatch_close_timeout(struct peer *peer, enum state_input timedout);
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/**
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* peer_watch_anchor: create a watch for the anchor transaction.
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* @peer: the state data for this peer.
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* @depthok: the input to give when anchor reaches expected depth.
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* @timeout: the input to give if anchor doesn't reach depth in time.
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* @unspent: the input to give if anchor is unspent after @depthok.
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* @theyspent: the input to give if they spend anchor with their commit tx.
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* @otherspent: the input to give if they spend anchor otherwise.
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*
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* @depthok can be INPUT_NONE if it's our anchor (we don't time
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* ourselves out).
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*/
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void peer_unwatch_close_timeout(struct peer *peer, enum state_input timedout);
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/**
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* peer_watch_our_htlc_outputs: HTLC outputs from our commit tx to watch.
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* @peer: the state data for this peer.
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* @tx: the commitment tx
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* @tous_timeout: input to give when a HTLC output to us times out.
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* @tothem_spent: input to give when a HTLC output to them is spent.
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* @tothem_timeout: input to give when a HTLC output to them times out.
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*
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* Returns true if there were any htlc outputs to watch.
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*/
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bool peer_watch_our_htlc_outputs(struct peer *peer,
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const struct bitcoin_tx *tx,
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enum state_input tous_timeout,
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enum state_input tothem_spent,
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enum state_input tothem_timeout);
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/**
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* peer_watch_their_htlc_outputs: HTLC outputs from their commit tx to watch.
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* @peer: the state data for this peer.
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* @tx: the commitment tx
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* @tous_timeout: input to give when a HTLC output to us times out.
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* @tothem_spent: input to give when a HTLC output to them is spent.
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* @tothem_timeout: input to give when a HTLC output to them times out.
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*
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* Returns true if there were any htlc outputs to watch.
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*/
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bool peer_watch_their_htlc_outputs(struct peer *peer,
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const struct bitcoin_event *tx,
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enum state_input tous_timeout,
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enum state_input tothem_spent,
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enum state_input tothem_timeout);
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/**
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* peer_unwatch_htlc_output: stop watching an HTLC
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* @peer: the state data for this peer.
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* @htlc: the htlc to stop watching
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* @all_done: input to give if we're not watching any outputs anymore.
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*/
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void peer_unwatch_htlc_output(struct peer *peer,
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const struct htlc *htlc,
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enum state_input all_done);
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/**
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* peer_unwatch_all_htlc_outputs: stop watching all HTLCs
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* @peer: the state data for this peer.
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*/
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void peer_unwatch_all_htlc_outputs(struct peer *peer);
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/**
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* peer_watch_htlc_spend: watch our spend of an HTLC output
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* @peer: the state data for this peer.
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* @tx: the commitment tx
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* @htlc: the htlc the tx is spending an output of
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* @done: input to give when it's completely buried.
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*/
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void peer_watch_htlc_spend(struct peer *peer,
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const struct bitcoin_tx *tx,
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const struct htlc *htlc,
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enum state_input done);
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/**
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* peer_unwatch_htlc_spend: stop watching our HTLC spend
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* @peer: the state data for this peer.
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* @htlc: the htlc to stop watching the spend for.
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* @all_done: input to give if we're not watching anything anymore.
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*/
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void peer_unwatch_htlc_spend(struct peer *peer,
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const struct htlc *htlc,
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enum state_input all_done);
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/**
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* peer_watch_htlcs_cleared: tell us when no HTLCs are in commit txs.
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* @peer: the state data for this peer.
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* @all_done: input to give when all HTLCs are done.
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*/
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void peer_watch_htlcs_cleared(struct peer *peer,
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enum state_input all_done);
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/**
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* peer_calculate_close_fee: figure out what the fee for closing is.
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* @peer: the state data for this peer.
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*/
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void peer_calculate_close_fee(struct peer *peer);
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/* Start creation of the bitcoin anchor tx. */
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void bitcoin_create_anchor(struct peer *peer, enum state_input done);
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/* We didn't end up broadcasting the anchor: release the utxos.
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* If done != INPUT_NONE, remove existing create_anchor too. */
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void bitcoin_release_anchor(struct peer *peer, enum state_input done);
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/* Get the bitcoin anchor tx. */
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const struct bitcoin_tx *bitcoin_anchor(struct peer *peer);
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/* Create a bitcoin close tx. */
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const struct bitcoin_tx *bitcoin_close(struct peer *peer);
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/* Create a bitcoin spend tx (to spend our commit's outputs) */
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const struct bitcoin_tx *bitcoin_spend_ours(struct peer *peer);
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/* Create a bitcoin spend tx (to spend their commit's outputs) */
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const struct bitcoin_tx *bitcoin_spend_theirs(const struct peer *peer,
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const struct bitcoin_event *btc);
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/* Create a bitcoin steal tx (to steal all their commit's outputs) */
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const struct bitcoin_tx *bitcoin_steal(const struct peer *peer,
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struct bitcoin_event *btc);
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/* Create our commit tx */
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const struct bitcoin_tx *bitcoin_commit(struct peer *peer);
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/* Create a HTLC refund collection */
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const struct bitcoin_tx *bitcoin_htlc_timeout(const struct peer *peer,
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const struct htlc *htlc);
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/* Create a HTLC collection */
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const struct bitcoin_tx *bitcoin_htlc_spend(const struct peer *peer,
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const struct htlc *htlc);
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#endif /* LIGHTNING_STATE_H */
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