#ifndef LIGHTNING_STATE_H #define LIGHTNING_STATE_H #include #include #include /* * This is the core state machine. * * Calling the state machine with an input simply returns the new state, * and populates the "effect" struct with what it wants done. */ extern char cmd_requeue; struct state_effect { /* Transaction to broadcast. */ struct bitcoin_tx *broadcast; /* Packet to send. */ Pkt *send; /* Event to watch for. */ struct watch *watch; /* Events to no longer watch for. */ struct watch *unwatch; /* Defer an input. */ enum state_input defer; /* Complete a command. */ enum state_input complete; /* NULL on success, &cmd_requeue on requeue, otherwise * command-specific fail information. */ void *complete_data; /* Stop taking packets? commands? */ bool stop_packets, stop_commands; /* Set a timeout for close tx. */ enum state_input close_timeout; /* Error received from other side. */ Pkt *in_error; /* HTLC we're working on. */ struct htlc_progress *htlc_in_progress; /* Their signature for the new commit tx. */ struct signature *update_theirsig; /* Stop working on HTLC. */ bool htlc_abandon; /* Finished working on HTLC. */ bool htlc_fulfill; /* R value. */ const struct htlc_rval *r_value; /* HTLC outputs to watch. */ const struct htlc_watch *watch_htlcs; /* HTLC output to unwatch. */ const struct htlc_unwatch *unwatch_htlc; /* HTLC spends to watch/unwatch. */ const struct htlc_spend_watch *watch_htlc_spend; const struct htlc_spend_watch *unwatch_htlc_spend; /* FIXME: More to come (for accept_*) */ }; /* Initialize the above struct. */ void state_effect_init(struct state_effect *effect); static inline bool state_is_error(enum state s) { return s >= STATE_ERR_ANCHOR_TIMEOUT && s <= STATE_ERR_INTERNAL; } struct state_data; static bool input_is_pkt(enum state_input input) { return input <= PKT_ERROR; } union input { Pkt *pkt; struct command *cmd; struct bitcoin_event *btc; struct htlc *htlc; struct htlc_progress *htlc_prog; }; enum state state(const enum state state, const struct state_data *sdata, const enum state_input input, const union input *idata, struct state_effect *effect); /* Any CMD_SEND_HTLC_* */ #define CMD_SEND_UPDATE_ANY INPUT_MAX /* a == b? (or one of several for CMD_SEND_UPDATE_ANY) */ static inline bool input_is(enum state_input a, enum state_input b) { if (b == CMD_SEND_UPDATE_ANY) { /* Single | here, we want to record all. */ return input_is(a, CMD_SEND_HTLC_UPDATE) | input_is(a, CMD_SEND_HTLC_FULFILL) | input_is(a, CMD_SEND_HTLC_TIMEDOUT) | input_is(a, CMD_SEND_HTLC_ROUTEFAIL); } /* For test_state_coverate to make the states. */ #ifdef MAPPING_INPUTS MAPPING_INPUTS(b); #endif return a == b; } struct signature; /* Create various kinds of packets, allocated off @ctx */ Pkt *pkt_open(const tal_t *ctx, const struct state_data *sdata); Pkt *pkt_anchor(const tal_t *ctx, const struct state_data *sdata); Pkt *pkt_open_commit_sig(const tal_t *ctx, const struct state_data *sdata); Pkt *pkt_open_complete(const tal_t *ctx, const struct state_data *sdata); Pkt *pkt_htlc_update(const tal_t *ctx, const struct state_data *sdata, const struct htlc_progress *htlc_prog); Pkt *pkt_htlc_fulfill(const tal_t *ctx, const struct state_data *sdata, const struct htlc_progress *htlc_prog); Pkt *pkt_htlc_timedout(const tal_t *ctx, const struct state_data *sdata, const struct htlc_progress *htlc_prog); Pkt *pkt_htlc_routefail(const tal_t *ctx, const struct state_data *sdata, const struct htlc_progress *htlc_prog); Pkt *pkt_update_accept(const tal_t *ctx, const struct state_data *sdata); Pkt *pkt_update_signature(const tal_t *ctx, const struct state_data *sdata); Pkt *pkt_update_complete(const tal_t *ctx, const struct state_data *sdata); Pkt *pkt_err(const tal_t *ctx, const char *msg); Pkt *pkt_close(const tal_t *ctx, const struct state_data *sdata); Pkt *pkt_close_complete(const tal_t *ctx, const struct state_data *sdata); Pkt *pkt_close_ack(const tal_t *ctx, const struct state_data *sdata); Pkt *unexpected_pkt(const tal_t *ctx, enum state_input input); /* Process various packets: return an error packet on failure. */ Pkt *accept_pkt_open(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt); Pkt *accept_pkt_anchor(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt); Pkt *accept_pkt_open_commit_sig(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt); Pkt *accept_pkt_htlc_update(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt, Pkt **decline, struct htlc_progress **htlcprog); Pkt *accept_pkt_htlc_routefail(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt, struct htlc_progress **htlcprog); Pkt *accept_pkt_htlc_timedout(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt, struct htlc_progress **htlcprog); Pkt *accept_pkt_htlc_fulfill(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt, struct htlc_progress **htlcprog); Pkt *accept_pkt_update_accept(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt, struct signature **sig); Pkt *accept_pkt_update_complete(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt); Pkt *accept_pkt_update_signature(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt, struct signature **sig); Pkt *accept_pkt_close(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt); Pkt *accept_pkt_close_complete(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt); Pkt *accept_pkt_simultaneous_close(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt); Pkt *accept_pkt_close_ack(struct state_effect *effect, const struct state_data *sdata, const Pkt *pkt); /** * committed_to_htlcs: do we have any locked-in HTLCs? * @sdata: the state data for this peer. * * If we were to generate a commit tx now, would it have HTLCs in it? */ bool committed_to_htlcs(const struct state_data *sdata); /** * bitcoin_watch_anchor: create a watch for the anchor. * @ctx: context to tal the watch struct off. * @sdata: the state data for this peer. * @depthok: the input to give when anchor reaches expected depth. * @timeout: the input to give if anchor doesn't reach depth in time. * @unspent: the input to give if anchor is unspent after @depthok. * @theyspent: the input to give if they spend anchor with their commit tx. * @otherspent: the input to give if they spend anchor otherwise. * * @depthok can be INPUT_NONE if it's our anchor (we don't time * ourselves out). */ struct watch *bitcoin_watch_anchor(const tal_t *ctx, const struct state_data *sdata, enum state_input depthok, enum state_input timeout, enum state_input unspent, enum state_input theyspent, enum state_input otherspent); /** * bitcoin_unwatch_anchor_depth: remove depth watch for the anchor. * @ctx: context to tal the watch struct off. * @sdata: the state data for this peer. * @depthok: the input to give when anchor reaches expected depth. * @timeout: the input to give if anchor doesn't reach depth in time. * * @depthok and @timeout must match bitcoin_watch_anchor() call. */ struct watch *bitcoin_unwatch_anchor_depth(const tal_t *ctx, const struct state_data *sdata, enum state_input depthok, enum state_input timeout); /** * bitcoin_watch_delayed: watch this (commit) tx, tell me when I can spend it * @effect: the context to tal the watch off * @tx: the tx we're watching. * @canspend: the input to give when commit reaches spendable depth. * * Note that this tx may be malleated, as it's dual-signed. */ struct watch *bitcoin_watch_delayed(const struct state_effect *effect, const struct bitcoin_tx *tx, enum state_input canspend); /** * bitcoin_watch: watch this tx until it's "irreversible" * @effect: the context to tal the watch off * @tx: the tx we're watching. * @done: the input to give when tx is completely buried. * * The tx should be immalleable by BIP62; once this fires we consider * the channel completely closed and stop watching (eg 100 txs down). */ struct watch *bitcoin_watch(const struct state_effect *effect, const struct bitcoin_tx *tx, enum state_input done); /** * bitcoin_watch_close: watch close tx until it's "irreversible" * @ctx: context to tal the watch struct off. * @sdata: the state data for this peer. * @done: the input to give when tx is completely buried. * * This tx *is* malleable, since the other side can transmit theirs. */ struct watch *bitcoin_watch_close(const tal_t *ctx, const struct state_data *sdata, enum state_input done); /** * htlc_outputs_our_commit: HTLC outputs from our commit tx to watch. * @ctx: context to tal the watch struct off. * @sdata: the state data for this peer. * @tx: the commitment tx * @tous_timeout: input to give when a HTLC output to us times out. * @tothem_spent: input to give when a HTLC output to them is spent. * @tothem_timeout: input to give when a HTLC output to them times out. */ struct htlc_watch *htlc_outputs_our_commit(const tal_t *ctx, const struct state_data *sdata, const struct bitcoin_tx *tx, enum state_input tous_timeout, enum state_input tothem_spent, enum state_input tothem_timeout); /** * htlc_outputs_their_commit: HTLC outputs from their commit tx to watch. * @ctx: context to tal the watch struct off. * @sdata: the state data for this peer. * @tx: the commitment tx * @tous_timeout: input to give when a HTLC output to us times out. * @tothem_spent: input to give when a HTLC output to them is spent. * @tothem_timeout: input to give when a HTLC output to them times out. */ struct htlc_watch *htlc_outputs_their_commit(const tal_t *ctx, const struct state_data *sdata, const struct bitcoin_event *tx, enum state_input tous_timeout, enum state_input tothem_spent, enum state_input tothem_timeout); /** * htlc_unwatch: stop watching an HTLC * @ctx: context to tal the watch struct off. * @htlc: the htlc to stop watching * @all_done: input to give if we're not watching any anymore. */ struct htlc_unwatch *htlc_unwatch(const tal_t *ctx, const struct htlc *htlc, enum state_input all_done); /** * htlc_unwatch_all: stop watching all HTLCs * @ctx: context to tal the watch struct off. * @sdata: the state data for this peer. */ struct htlc_unwatch *htlc_unwatch_all(const tal_t *ctx, const struct state_data *sdata); /** * htlc_spend_watch: watch our spend of an HTLC * @ctx: context to tal the watch struct off. * @tx: the commitment tx * @cmd: the command data. * @done: input to give when it's completely buried. */ struct htlc_spend_watch *htlc_spend_watch(const tal_t *ctx, const struct bitcoin_tx *tx, const struct command *cmd, enum state_input done); /** * htlc_spend_unwatch: stop watching an HTLC spend * @ctx: context to tal the watch struct off. * @htlc: the htlc to stop watching * @all_done: input to give if we're not watching anything anymore. */ struct htlc_spend_watch *htlc_spend_unwatch(const tal_t *ctx, const struct htlc *htlc, enum state_input all_done); /* Create a bitcoin anchor tx. */ struct bitcoin_tx *bitcoin_anchor(const tal_t *ctx, const struct state_data *sdata); /* Create a bitcoin close tx. */ struct bitcoin_tx *bitcoin_close(const tal_t *ctx, const struct state_data *sdata); /* Create a bitcoin spend tx (to spend our commit's outputs) */ struct bitcoin_tx *bitcoin_spend_ours(const tal_t *ctx, const struct state_data *sdata); /* Create a bitcoin spend tx (to spend their commit's outputs) */ struct bitcoin_tx *bitcoin_spend_theirs(const tal_t *ctx, const struct state_data *sdata, const struct bitcoin_event *btc); /* Create a bitcoin steal tx (to steal all their commit's outputs) */ struct bitcoin_tx *bitcoin_steal(const tal_t *ctx, const struct state_data *sdata, struct bitcoin_event *btc); /* Create our commit tx */ struct bitcoin_tx *bitcoin_commit(const tal_t *ctx, const struct state_data *sdata); /* Create a HTLC refund collection */ struct bitcoin_tx *bitcoin_htlc_timeout(const tal_t *ctx, const struct state_data *sdata, const struct htlc *htlc); /* Create a HTLC collection */ struct bitcoin_tx *bitcoin_htlc_spend(const tal_t *ctx, const struct state_data *sdata, const struct htlc *htlc); #endif /* LIGHTNING_STATE_H */