#include #include #include #include #include #include #include #include #include static enum state next_state(struct peer *peer, const enum state state) { assert(peer->state != state); return state; } static void queue_tx_broadcast(const struct bitcoin_tx **broadcast, const struct bitcoin_tx *tx) { assert(!*broadcast); assert(tx); *broadcast = tx; } static void send_open_pkt(struct peer *peer, OpenChannel__AnchorOffer anchor) { /* Set up out commit info now: rest gets done in setup_first_commit * once anchor is established. */ peer->local.commit = new_commit_info(peer, 0); peer->local.commit->revocation_hash = peer->local.next_revocation_hash; peer_get_revocation_hash(peer, 1, &peer->local.next_revocation_hash); queue_pkt_open(peer, anchor); } static Pkt *init_from_pkt_open(struct peer *peer, const Pkt *pkt) { struct commit_info *ci = new_commit_info(peer, 0); Pkt *err; err = accept_pkt_open(peer, pkt, &ci->revocation_hash, &peer->remote.next_revocation_hash); if (err) return err; if (!db_set_visible_state(peer)) return pkt_err(peer, "Database error"); /* Set up their commit info now: rest gets done in setup_first_commit * once anchor is established. */ peer->remote.commit = ci; /* Witness script for anchor. */ peer->anchor.witnessscript = bitcoin_redeem_2of2(peer, peer->dstate->secpctx, &peer->local.commitkey, &peer->remote.commitkey); return NULL; } enum state state(struct peer *peer, const enum state_input input, const Pkt *pkt, const struct bitcoin_tx **broadcast) { Pkt *err; *broadcast = NULL; switch (peer->state) { /* * Initial channel opening states. */ case STATE_INIT: if (input_is(input, CMD_OPEN_WITH_ANCHOR)) { send_open_pkt(peer, OPEN_CHANNEL__ANCHOR_OFFER__WILL_CREATE_ANCHOR); return next_state(peer, STATE_OPEN_WAIT_FOR_OPEN_WITHANCHOR); } else if (input_is(input, CMD_OPEN_WITHOUT_ANCHOR)) { send_open_pkt(peer, OPEN_CHANNEL__ANCHOR_OFFER__WONT_CREATE_ANCHOR); return next_state(peer, STATE_OPEN_WAIT_FOR_OPEN_NOANCHOR); } break; case STATE_OPEN_WAIT_FOR_OPEN_NOANCHOR: if (input_is(input, PKT_OPEN)) { err = init_from_pkt_open(peer, pkt); if (err) { peer_open_complete(peer, err->error->problem); goto err_breakdown; } return next_state(peer, STATE_OPEN_WAIT_FOR_ANCHOR); } else if (input_is_pkt(input)) { peer_open_complete(peer, "unexpected packet"); goto unexpected_pkt; } break; case STATE_OPEN_WAIT_FOR_OPEN_WITHANCHOR: if (input_is(input, PKT_OPEN)) { err = init_from_pkt_open(peer, pkt); if (err) { peer_open_complete(peer, err->error->problem); goto err_breakdown; } bitcoin_create_anchor(peer); peer->anchor.ours = true; /* This shouldn't happen! */ if (!setup_first_commit(peer)) { err = pkt_err(peer, "Own anchor has insufficient funds"); peer_open_complete(peer, err->error->problem); goto err_breakdown; } queue_pkt_anchor(peer); return next_state(peer, STATE_OPEN_WAIT_FOR_COMMIT_SIG); } else if (input_is_pkt(input)) { peer_open_complete(peer, "unexpected packet"); goto unexpected_pkt; } break; case STATE_OPEN_WAIT_FOR_ANCHOR: if (input_is(input, PKT_OPEN_ANCHOR)) { const char *db_err; err = accept_pkt_anchor(peer, pkt); if (err) { peer_open_complete(peer, err->error->problem); goto err_breakdown; } peer->anchor.ours = false; if (!setup_first_commit(peer)) { err = pkt_err(peer, "Insufficient funds for fee"); peer_open_complete(peer, err->error->problem); goto err_breakdown; } log_debug_struct(peer->log, "Creating sig for %s", struct bitcoin_tx, peer->remote.commit->tx); log_add_struct(peer->log, " using key %s", struct pubkey, &peer->local.commitkey); peer->remote.commit->sig = tal(peer->remote.commit, struct bitcoin_signature); peer->remote.commit->sig->stype = SIGHASH_ALL; peer_sign_theircommit(peer, peer->remote.commit->tx, &peer->remote.commit->sig->sig); peer->remote.commit->order = peer->order_counter++; db_start_transaction(peer); db_set_anchor(peer); db_new_commit_info(peer, REMOTE, NULL); peer_add_their_commit(peer, &peer->remote.commit->txid, peer->remote.commit->commit_num); db_err = db_commit_transaction(peer); if (db_err) { err = pkt_err(peer, "database error"); peer_open_complete(peer, db_err); goto err_breakdown; } queue_pkt_open_commit_sig(peer); peer_watch_anchor(peer, peer->local.mindepth, BITCOIN_ANCHOR_DEPTHOK, BITCOIN_ANCHOR_TIMEOUT); return next_state(peer, STATE_OPEN_WAITING_THEIRANCHOR); } else if (input_is_pkt(input)) { peer_open_complete(peer, "unexpected packet"); goto unexpected_pkt; } break; case STATE_OPEN_WAIT_FOR_COMMIT_SIG: if (input_is(input, PKT_OPEN_COMMIT_SIG)) { const char *db_err; peer->local.commit->sig = tal(peer->local.commit, struct bitcoin_signature); err = accept_pkt_open_commit_sig(peer, pkt, peer->local.commit->sig); if (!err && !check_tx_sig(peer->dstate->secpctx, peer->local.commit->tx, 0, NULL, 0, peer->anchor.witnessscript, &peer->remote.commitkey, peer->local.commit->sig)) err = pkt_err(peer, "Bad signature"); if (err) { peer->local.commit->sig = tal_free(peer->local.commit->sig); bitcoin_release_anchor(peer, INPUT_NONE); peer_open_complete(peer, err->error->problem); goto err_breakdown; } peer->their_commitsigs++; db_start_transaction(peer); db_set_anchor(peer); db_new_commit_info(peer, LOCAL, NULL); db_err = db_commit_transaction(peer); if (db_err) { bitcoin_release_anchor(peer, INPUT_NONE); err = pkt_err(peer, "database error"); peer_open_complete(peer, db_err); goto err_breakdown; } queue_tx_broadcast(broadcast, bitcoin_anchor(peer)); peer_watch_anchor(peer, peer->local.mindepth, BITCOIN_ANCHOR_DEPTHOK, INPUT_NONE); return next_state(peer, STATE_OPEN_WAITING_OURANCHOR); } else if (input_is_pkt(input)) { bitcoin_release_anchor(peer, INPUT_NONE); peer_open_complete(peer, "unexpected packet"); goto unexpected_pkt; } break; case STATE_OPEN_WAITING_OURANCHOR: if (input_is(input, PKT_OPEN_COMPLETE)) { err = accept_pkt_open_complete(peer, pkt); if (err) { peer_open_complete(peer, err->error->problem); goto err_breakdown; } return next_state(peer, STATE_OPEN_WAITING_OURANCHOR_THEYCOMPLETED); } /* Fall thru */ case STATE_OPEN_WAITING_OURANCHOR_THEYCOMPLETED: if (input_is(input, BITCOIN_ANCHOR_DEPTHOK)) { queue_pkt_open_complete(peer); if (peer->state == STATE_OPEN_WAITING_OURANCHOR_THEYCOMPLETED) { peer_open_complete(peer, NULL); return next_state(peer, STATE_NORMAL); } return next_state(peer, STATE_OPEN_WAIT_FOR_COMPLETE_OURANCHOR); } else if (input_is(input, PKT_CLOSE_SHUTDOWN)) { peer_open_complete(peer, "Received PKT_CLOSE_SHUTDOWN"); goto accept_shutdown; } else if (input_is_pkt(input)) { peer_open_complete(peer, "unexpected packet"); goto unexpected_pkt; } break; case STATE_OPEN_WAITING_THEIRANCHOR: if (input_is(input, PKT_OPEN_COMPLETE)) { err = accept_pkt_open_complete(peer, pkt); if (err) { peer_open_complete(peer, err->error->problem); goto err_breakdown; } return next_state(peer, STATE_OPEN_WAITING_THEIRANCHOR_THEYCOMPLETED); } /* Fall thru */ case STATE_OPEN_WAITING_THEIRANCHOR_THEYCOMPLETED: if (input_is(input, BITCOIN_ANCHOR_TIMEOUT)) { /* Anchor didn't reach blockchain in reasonable time. */ queue_pkt_err(peer, pkt_err(peer, "Anchor timed out")); return next_state(peer, STATE_ERR_ANCHOR_TIMEOUT); } else if (input_is(input, BITCOIN_ANCHOR_DEPTHOK)) { queue_pkt_open_complete(peer); if (peer->state == STATE_OPEN_WAITING_THEIRANCHOR_THEYCOMPLETED) { peer_open_complete(peer, NULL); return next_state(peer, STATE_NORMAL); } return next_state(peer, STATE_OPEN_WAIT_FOR_COMPLETE_THEIRANCHOR); } else if (input_is(input, PKT_CLOSE_SHUTDOWN)) { peer_open_complete(peer, "Received PKT_CLOSE_SHUTDOWN"); goto accept_shutdown; } else if (input_is_pkt(input)) { peer_open_complete(peer, "unexpected packet"); goto unexpected_pkt; } break; case STATE_OPEN_WAIT_FOR_COMPLETE_OURANCHOR: case STATE_OPEN_WAIT_FOR_COMPLETE_THEIRANCHOR: if (input_is(input, PKT_OPEN_COMPLETE)) { /* Ready for business! */ peer_open_complete(peer, NULL); return next_state(peer, STATE_NORMAL); } else if (input_is(input, PKT_CLOSE_SHUTDOWN)) { peer_open_complete(peer, "Received PKT_CLOSE_SHUTDOWN"); goto accept_shutdown; } else if (input_is_pkt(input)) { peer_open_complete(peer, "unexpected packet"); goto unexpected_pkt; } break; /* Should never happen. */ case STATE_NORMAL: case STATE_NORMAL_COMMITTING: case STATE_ERR_INTERNAL: case STATE_ERR_ANCHOR_TIMEOUT: case STATE_ERR_INFORMATION_LEAK: case STATE_ERR_BREAKDOWN: case STATE_CLOSED: case STATE_MAX: case STATE_SHUTDOWN: case STATE_SHUTDOWN_COMMITTING: case STATE_MUTUAL_CLOSING: case STATE_CLOSE_ONCHAIN_CHEATED: case STATE_CLOSE_ONCHAIN_THEIR_UNILATERAL: case STATE_CLOSE_ONCHAIN_OUR_UNILATERAL: case STATE_CLOSE_ONCHAIN_MUTUAL: return next_state(peer, STATE_ERR_INTERNAL); } /* State machine should handle all possible states. */ return next_state(peer, STATE_ERR_INTERNAL); unexpected_pkt: peer_unexpected_pkt(peer, pkt, __func__); /* Don't reply to an error with an error. */ if (!input_is(input, PKT_ERROR)) { goto breakdown; } err = pkt_err_unexpected(peer, pkt); goto err_breakdown; err_breakdown: queue_pkt_err(peer, err); breakdown: return next_state(peer, STATE_ERR_BREAKDOWN); accept_shutdown: err = accept_pkt_close_shutdown(peer, pkt); if (err) goto err_breakdown; /* If we've sent commit, we're still waiting for it when shutdown. */ if (peer->state == STATE_NORMAL_COMMITTING) return next_state(peer, STATE_SHUTDOWN_COMMITTING); return next_state(peer, STATE_SHUTDOWN); }