#include #include #include #include #include #include #include #include #include #include #include #include #include void channel_set_owner(struct channel *channel, struct subd *owner) { struct subd *old_owner = channel->owner; channel->owner = owner; if (old_owner) subd_release_channel(old_owner, channel); } struct htlc_out *channel_has_htlc_out(struct channel *channel) { struct htlc_out_map_iter outi; struct htlc_out *hout; struct lightningd *ld = channel->peer->ld; for (hout = htlc_out_map_first(&ld->htlcs_out, &outi); hout; hout = htlc_out_map_next(&ld->htlcs_out, &outi)) { if (hout->key.channel == channel) return hout; } return NULL; } struct htlc_in *channel_has_htlc_in(struct channel *channel) { struct htlc_in_map_iter ini; struct htlc_in *hin; struct lightningd *ld = channel->peer->ld; for (hin = htlc_in_map_first(&ld->htlcs_in, &ini); hin; hin = htlc_in_map_next(&ld->htlcs_in, &ini)) { if (hin->key.channel == channel) return hin; } return NULL; } static void destroy_channel(struct channel *channel) { /* Must not have any HTLCs! */ struct htlc_out *hout = channel_has_htlc_out(channel); struct htlc_in *hin = channel_has_htlc_in(channel); if (hout) fatal("Freeing channel %s has hout %s", channel_state_name(channel), htlc_state_name(hout->hstate)); if (hin) fatal("Freeing channel %s has hin %s", channel_state_name(channel), htlc_state_name(hin->hstate)); /* Free any old owner still hanging around. */ channel_set_owner(channel, NULL); list_del_from(&channel->peer->channels, &channel->list); } void delete_channel(struct channel *channel) { struct peer *peer = channel->peer; wallet_channel_delete(channel->peer->ld->wallet, channel->dbid); tal_free(channel); /* Last one out frees the peer */ if (list_empty(&peer->channels) && !peer->uncommitted_channel) delete_peer(peer); } /* FIXME: We have no business knowing this! */ /** * derive_channel_seed - Generate a unique secret for this peer's channel * * @ld: the lightning daemon to get global secret from * @seed: where to store the generated secret * @peer_id: the id node_id of the remote peer * @dbid: channel DBID * * This method generates a unique secret from the given parameters. It * is important that this secret be unique for each channel, but it * must be reproducible for the same channel in case of * reconnection. We use the DB channel ID to guarantee unique secrets * per channel. */ void derive_channel_seed(struct lightningd *ld, struct privkey *seed, const struct pubkey *peer_id, const u64 dbid) { u8 input[PUBKEY_DER_LEN + sizeof(dbid)]; char *info = "per-peer seed"; pubkey_to_der(input, peer_id); memcpy(input + PUBKEY_DER_LEN, &dbid, sizeof(dbid)); assert(dbid != 0); hkdf_sha256(seed, sizeof(*seed), input, sizeof(input), &ld->peer_seed, sizeof(ld->peer_seed), info, strlen(info)); } struct channel *new_channel(struct peer *peer, u64 dbid, /* NULL or stolen */ struct wallet_shachain *their_shachain, enum channel_state state, enum side funder, /* NULL or stolen */ struct log *log, const char *transient_billboard TAKES, u8 channel_flags, const struct channel_config *our_config, u32 minimum_depth, u64 next_index_local, u64 next_index_remote, u64 next_htlc_id, const struct bitcoin_txid *funding_txid, u16 funding_outnum, u64 funding_satoshi, u64 push_msat, bool remote_funding_locked, /* NULL or stolen */ struct short_channel_id *scid, u64 our_msatoshi, u64 msatoshi_to_us_min, u64 msatoshi_to_us_max, /* Stolen */ struct bitcoin_tx *last_tx, const secp256k1_ecdsa_signature *last_sig, /* NULL or stolen */ secp256k1_ecdsa_signature *last_htlc_sigs, const struct channel_info *channel_info, /* NULL or stolen */ u8 *remote_shutdown_scriptpubkey, u64 final_key_idx, bool last_was_revoke, /* NULL or stolen */ struct changed_htlc *last_sent_commit, u32 first_blocknum, u32 min_possible_feerate, u32 max_possible_feerate) { struct channel *channel = tal(peer->ld, struct channel); assert(dbid != 0); channel->peer = peer; channel->dbid = dbid; channel->error = NULL; if (their_shachain) channel->their_shachain = *their_shachain; else { channel->their_shachain.id = 0; shachain_init(&channel->their_shachain.chain); } channel->state = state; channel->funder = funder; channel->owner = NULL; memset(&channel->billboard, 0, sizeof(channel->billboard)); channel->billboard.transient = tal_strdup(channel, transient_billboard); if (!log) { /* FIXME: update log prefix when we get scid */ /* FIXME: Use minimal unique pubkey prefix for logs! */ char *idname = type_to_string(peer, struct pubkey, &peer->id); channel->log = new_log(channel, peer->log_book, "%s chan #%"PRIu64":", idname, dbid); tal_free(idname); } else channel->log = tal_steal(channel, log); channel->channel_flags = channel_flags; channel->our_config = *our_config; channel->minimum_depth = minimum_depth; channel->next_index[LOCAL] = next_index_local; channel->next_index[REMOTE] = next_index_remote; channel->next_htlc_id = next_htlc_id; channel->funding_txid = *funding_txid; channel->funding_outnum = funding_outnum; channel->funding_satoshi = funding_satoshi; channel->push_msat = push_msat; channel->remote_funding_locked = remote_funding_locked; channel->scid = tal_steal(channel, scid); channel->our_msatoshi = our_msatoshi; channel->msatoshi_to_us_min = msatoshi_to_us_min; channel->msatoshi_to_us_max = msatoshi_to_us_max; channel->last_tx = tal_steal(channel, last_tx); channel->last_sig = *last_sig; channel->last_htlc_sigs = tal_steal(channel, last_htlc_sigs); channel->channel_info = *channel_info; channel->remote_shutdown_scriptpubkey = tal_steal(channel, remote_shutdown_scriptpubkey); channel->final_key_idx = final_key_idx; channel->last_was_revoke = last_was_revoke; channel->last_sent_commit = tal_steal(channel, last_sent_commit); channel->first_blocknum = first_blocknum; channel->min_possible_feerate = min_possible_feerate; channel->max_possible_feerate = max_possible_feerate; derive_channel_seed(peer->ld, &channel->seed, &peer->id, channel->dbid); list_add_tail(&peer->channels, &channel->list); tal_add_destructor(channel, destroy_channel); /* Make sure we see any spends using this key */ txfilter_add_scriptpubkey(peer->ld->owned_txfilter, take(p2wpkh_for_keyidx(NULL, peer->ld, channel->final_key_idx))); return channel; } const char *channel_state_name(const struct channel *channel) { return channel_state_str(channel->state); } const char *channel_state_str(enum channel_state state) { for (size_t i = 0; enum_channel_state_names[i].name; i++) if (enum_channel_state_names[i].v == state) return enum_channel_state_names[i].name; return "unknown"; } struct channel *peer_active_channel(struct peer *peer) { struct channel *channel; list_for_each(&peer->channels, channel, list) { if (channel_active(channel)) return channel; } return NULL; } struct channel *active_channel_by_id(struct lightningd *ld, const struct pubkey *id, struct uncommitted_channel **uc) { struct peer *peer = peer_by_id(ld, id); if (!peer) { if (uc) *uc = NULL; return NULL; } if (uc) *uc = peer->uncommitted_channel; return peer_active_channel(peer); } struct channel *channel_by_dbid(struct lightningd *ld, const u64 dbid) { struct peer *p; struct channel *chan; list_for_each(&ld->peers, p, list) { list_for_each(&p->channels, chan, list) { if (chan->dbid == dbid) return chan; } } return NULL; } void channel_set_last_tx(struct channel *channel, struct bitcoin_tx *tx, const secp256k1_ecdsa_signature *sig) { channel->last_sig = *sig; tal_free(channel->last_tx); channel->last_tx = tal_steal(channel, tx); } void channel_set_state(struct channel *channel, enum channel_state old_state, enum channel_state state) { log_info(channel->log, "State changed from %s to %s", channel_state_name(channel), channel_state_str(state)); if (channel->state != old_state) fatal("channel state %s should be %s", channel_state_name(channel), channel_state_str(old_state)); channel->state = state; /* TODO(cdecker) Selectively save updated fields to DB */ wallet_channel_save(channel->peer->ld->wallet, channel); } void channel_fail_permanent(struct channel *channel, const char *fmt, ...) { struct lightningd *ld = channel->peer->ld; va_list ap; char *why; struct channel_id cid; va_start(ap, fmt); why = tal_vfmt(channel, fmt, ap); va_end(ap); if (channel->scid) { u8 *msg = towire_gossip_disable_channel(NULL, channel->scid, channel->peer->direction, false); subd_send_msg(ld->gossip, take(msg)); } log_unusual(channel->log, "Peer permanent failure in %s: %s", channel_state_name(channel), why); /* We can have multiple errors, eg. onchaind failures. */ if (!channel->error) { derive_channel_id(&cid, &channel->funding_txid, channel->funding_outnum); channel->error = towire_errorfmt(channel, &cid, "%s", why); } channel_set_owner(channel, NULL); /* Drop non-cooperatively (unilateral) to chain. */ drop_to_chain(ld, channel, false); tal_free(why); } void channel_internal_error(struct channel *channel, const char *fmt, ...) { va_list ap; char *why; va_start(ap, fmt); why = tal_vfmt(channel, fmt, ap); va_end(ap); log_broken(channel->log, "Peer internal error %s: %s", channel_state_name(channel), why); /* Don't expose internal error causes to remove unless doing dev */ #if DEVELOPER channel_fail_permanent(channel, "Internal error: %s", why); #else channel_fail_permanent(channel, "Internal error"); #endif tal_free(why); } void channel_set_billboard(struct channel *channel, bool perm, const char *str) { const char **p; if (perm) p = &channel->billboard.permanent[channel->state]; else p = &channel->billboard.transient; *p = tal_free(*p); if (str) { *p = tal_fmt(channel, "%s:%s", channel_state_name(channel), str); if (taken(str)) tal_free(str); } } void channel_fail_transient(struct channel *channel, const char *fmt, ...) { va_list ap; const char *why; va_start(ap, fmt); why = tal_vfmt(channel, fmt, ap); va_end(ap); log_info(channel->log, "Peer transient failure in %s: %s", channel_state_name(channel), why); tal_free(why); #if DEVELOPER if (dev_disconnect_permanent(channel->peer->ld)) { channel_internal_error(channel, "dev_disconnect permfail"); return; } #endif channel_set_owner(channel, NULL); /* Reconnect unless we've dropped/are dropping to chain. */ if (channel_active(channel)) try_reconnect(channel->peer); }