rgb-cln/lightningd/onchain_control.c

#include <bitcoin/feerate.h>
#include <bitcoin/script.h>
#include <common/key_derive.h>
#include <errno.h>
#include <hsmd/gen_hsm_wire.h>
#include <inttypes.h>
#include <lightningd/chaintopology.h>
#include <lightningd/hsm_control.h>
#include <lightningd/log.h>
#include <lightningd/onchain_control.h>
#include <lightningd/peer_control.h>
#include <lightningd/subd.h>
#include <lightningd/watch.h>
#include <onchaind/onchain_wire.h>
#include <wire/wire_sync.h>

/* We dump all the known preimages when onchaind starts up. */
static void onchaind_tell_fulfill(struct channel *channel)
{
	struct htlc_in_map_iter ini;
	struct htlc_in *hin;
	u8 *msg;
	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)
			continue;

		/* BOLT #5:
		 *
		 * A local node:

		 *  - if it receives (or already possesses) a payment preimage
		 *  for an unresolved HTLC output that it has been offered AND
		 *  for which it has committed to an outgoing HTLC:
		 *    - MUST *resolve* the output by spending it, using the
		 *      HTLC-success transaction.
		 *    - MUST resolve the output of that HTLC-success transaction.
		 *  - otherwise:
		 *      - if the *remote node* is NOT irrevocably committed to
		 *        the HTLC:
		 *        - MUST NOT *resolve* the output by spending it.
		 */

		/* We only set preimage once it's irrevocably committed, and
		 * we spend even if we don't have an outgoing HTLC (eg. local
		 * payment complete) */
		if (!hin->preimage)
			continue;

		msg = towire_onchain_known_preimage(channel, hin->preimage);
		subd_send_msg(channel->owner, take(msg));
	}
}

static void handle_onchain_init_reply(struct channel *channel, const u8 *msg UNUSED)
{
	/* FIXME: We may already be ONCHAIN state when we implement restart! */
	channel_set_state(channel, FUNDING_SPEND_SEEN, ONCHAIN);
}

/**
 * Notify onchaind about the depth change of the watched tx.
 */
static void onchain_tx_depth(struct channel *channel,
			     const struct bitcoin_txid *txid,
			     unsigned int depth)
{
	u8 *msg;
	msg = towire_onchain_depth(channel, txid, depth);
	subd_send_msg(channel->owner, take(msg));
}

/**
 * Entrypoint for the txwatch callback, calls onchain_tx_depth.
 */
static enum watch_result onchain_tx_watched(struct lightningd *ld,
					    struct channel *channel,
					    const struct bitcoin_txid *txid,
					    unsigned int depth)
{
	u32 blockheight = get_block_height(ld->topology);
	if (depth == 0) {
		log_unusual(channel->log, "Chain reorganization!");
		channel_set_owner(channel, NULL, false);

		/* FIXME!
		topology_rescan(peer->ld->topology, peer->funding_txid);
		*/

		/* We will most likely be freed, so this is a noop */
		return KEEP_WATCHING;
	}

	/* Store the channeltx so we can replay later */
	wallet_channeltxs_add(ld->wallet, channel,
			      WIRE_ONCHAIN_DEPTH, txid, 0, blockheight);

	onchain_tx_depth(channel, txid, depth);
	return KEEP_WATCHING;
}

static void watch_tx_and_outputs(struct channel *channel,
				 const struct bitcoin_tx *tx);

/**
 * Notify onchaind that an output was spent and register new watches.
 */
static void onchain_txo_spent(struct channel *channel, const struct bitcoin_tx *tx, size_t input_num, u32 blockheight)
{
	u8 *msg;

	watch_tx_and_outputs(channel, tx);

	msg = towire_onchain_spent(channel, tx, input_num, blockheight);
	subd_send_msg(channel->owner, take(msg));

}

/**
 * Entrypoint for the txowatch callback, stores tx and calls onchain_txo_spent.
 */
static enum watch_result onchain_txo_watched(struct channel *channel,
					     const struct bitcoin_tx *tx,
					     size_t input_num,
					     const struct block *block)
{
	struct bitcoin_txid txid;
	bitcoin_txid(tx, &txid);

	/* Store the channeltx so we can replay later */
	wallet_channeltxs_add(channel->peer->ld->wallet, channel,
			      WIRE_ONCHAIN_SPENT, &txid, input_num,
			      block->height);

	onchain_txo_spent(channel, tx, input_num, block->height);

	/* We don't need to keep watching: If this output is double-spent
	 * (reorg), we'll get a zero depth cb to onchain_tx_watched, and
	 * restart onchaind. */
	return DELETE_WATCH;
}

/* To avoid races, we watch the tx and all outputs. */
static void watch_tx_and_outputs(struct channel *channel,
				 const struct bitcoin_tx *tx)
{
	struct bitcoin_txid txid;
	struct txwatch *txw;
	struct lightningd *ld = channel->peer->ld;

	bitcoin_txid(tx, &txid);

	/* Make txwatch a parent of txo watches, so we can unwatch together. */
	txw = watch_tx(channel->owner, ld->topology, channel, tx,
		       onchain_tx_watched);

	for (size_t i = 0; i < tal_count(tx->output); i++)
		watch_txo(txw, ld->topology, channel, &txid, i,
			  onchain_txo_watched);
}

static void handle_onchain_broadcast_tx(struct channel *channel, const u8 *msg)
{
	struct bitcoin_tx *tx;

	if (!fromwire_onchain_broadcast_tx(msg, msg, &tx)) {
		channel_internal_error(channel, "Invalid onchain_broadcast_tx");
		return;
	}

	/* We don't really care if it fails, we'll respond via watch. */
	broadcast_tx(channel->peer->ld->topology, channel, tx, NULL);
}

static void handle_onchain_unwatch_tx(struct channel *channel, const u8 *msg)
{
	struct bitcoin_txid txid;
	struct txwatch *txw;

	if (!fromwire_onchain_unwatch_tx(msg, &txid)) {
		channel_internal_error(channel, "Invalid onchain_unwatch_tx");
		return;
	}

	/* Frees the txo watches, too: see watch_tx_and_outputs() */
	txw = find_txwatch(channel->peer->ld->topology, &txid, channel);
	if (!txw)
		log_unusual(channel->log, "Can't unwatch txid %s",
			    type_to_string(tmpctx, struct bitcoin_txid, &txid));
	tal_free(txw);
}

static void handle_extracted_preimage(struct channel *channel, const u8 *msg)
{
	struct preimage preimage;

	if (!fromwire_onchain_extracted_preimage(msg, &preimage)) {
		channel_internal_error(channel, "Invalid extracted_preimage");
		return;
	}

	onchain_fulfilled_htlc(channel, &preimage);
}

static void handle_missing_htlc_output(struct channel *channel, const u8 *msg)
{
	struct htlc_stub htlc;

	if (!fromwire_onchain_missing_htlc_output(msg, &htlc)) {
		channel_internal_error(channel, "Invalid missing_htlc_output");
		return;
	}

	/* BOLT #5:
	 *
	 *   - for any committed HTLC that does NOT have an output in this
	 *     commitment transaction:
	 *     - once the commitment transaction has reached reasonable depth:
	 *       - MUST fail the corresponding incoming HTLC (if any).
	 *     - if no *valid* commitment transaction contains an output
	 *       corresponding to the HTLC.
	 *       - MAY fail the corresponding incoming HTLC sooner.
	 */
	onchain_failed_our_htlc(channel, &htlc, "missing in commitment tx");
}

static void handle_onchain_htlc_timeout(struct channel *channel, const u8 *msg)
{
	struct htlc_stub htlc;

	if (!fromwire_onchain_htlc_timeout(msg, &htlc)) {
		channel_internal_error(channel, "Invalid onchain_htlc_timeout");
		return;
	}

	/* BOLT #5:
	 *
	 *   - if the commitment transaction HTLC output has *timed out* and
	 *     hasn't been *resolved*:
	 *     - MUST *resolve* the output by spending it using the HTLC-timeout
	 *     transaction.
	 */
	onchain_failed_our_htlc(channel, &htlc, "timed out");
}

static void handle_irrevocably_resolved(struct channel *channel, const u8 *msg UNUSED)
{
	/* FIXME: Implement check_htlcs to ensure no dangling hout->in ptrs! */
	free_htlcs(channel->peer->ld, channel);

	log_info(channel->log, "onchaind complete, forgetting peer");

	/* This will also free onchaind. */
	delete_channel(channel);
}

/**
 * onchain_add_utxo -- onchaind is telling us about an UTXO we own
 */
static void onchain_add_utxo(struct channel *channel, const u8 *msg)
{
	struct utxo *u = tal(msg, struct utxo);
	u32 blockheight;
	u->close_info = tal(u, struct unilateral_close_info);

	u->is_p2sh = true;
	u->keyindex = 0;
	u->status = output_state_available;
	u->close_info->channel_id = channel->dbid;
	u->close_info->peer_id = channel->peer->id;
	u->spendheight = NULL;

	if (!fromwire_onchain_add_utxo(msg, &u->txid, &u->outnum,
				       &u->close_info->commitment_point,
				       &u->amount, &blockheight)) {
		fatal("onchaind gave invalid add_utxo message: %s", tal_hex(msg, msg));
	}
	u->blockheight = blockheight>0?&blockheight:NULL;

	outpointfilter_add(channel->peer->ld->wallet->owned_outpoints, &u->txid, u->outnum);
	wallet_add_utxo(channel->peer->ld->wallet, u, p2wpkh);
}

static unsigned int onchain_msg(struct subd *sd, const u8 *msg, const int *fds UNUSED)
{
	enum onchain_wire_type t = fromwire_peektype(msg);

	switch (t) {
	case WIRE_ONCHAIN_INIT_REPLY:
		handle_onchain_init_reply(sd->channel, msg);
		break;

	case WIRE_ONCHAIN_BROADCAST_TX:
		handle_onchain_broadcast_tx(sd->channel, msg);
		break;

	case WIRE_ONCHAIN_UNWATCH_TX:
		handle_onchain_unwatch_tx(sd->channel, msg);
		break;

 	case WIRE_ONCHAIN_EXTRACTED_PREIMAGE:
		handle_extracted_preimage(sd->channel, msg);
		break;

	case WIRE_ONCHAIN_MISSING_HTLC_OUTPUT:
		handle_missing_htlc_output(sd->channel, msg);
		break;

	case WIRE_ONCHAIN_HTLC_TIMEOUT:
		handle_onchain_htlc_timeout(sd->channel, msg);
		break;

	case WIRE_ONCHAIN_ALL_IRREVOCABLY_RESOLVED:
		handle_irrevocably_resolved(sd->channel, msg);
		break;

	case WIRE_ONCHAIN_ADD_UTXO:
		onchain_add_utxo(sd->channel, msg);
		break;

	/* We send these, not receive them */
	case WIRE_ONCHAIN_INIT:
	case WIRE_ONCHAIN_SPENT:
	case WIRE_ONCHAIN_DEPTH:
	case WIRE_ONCHAIN_HTLC:
	case WIRE_ONCHAIN_KNOWN_PREIMAGE:
		break;
	}

	return 0;
}

/* If we want to know if this HTLC is missing, return depth. */
static bool tell_if_missing(const struct channel *channel,
			    struct htlc_stub *stub,
			    bool *tell_immediate)
{
	struct htlc_out *hout;

	/* Keep valgrind happy. */
	*tell_immediate = false;

	/* Is it a current HTLC? */
	hout = find_htlc_out_by_ripemd(channel, &stub->ripemd);
	if (!hout)
		return false;

	/* BOLT #5:
	 *
	 *   - for any committed HTLC that does NOT have an output in this
	 *     commitment transaction:
	 *     - once the commitment transaction has reached reasonable depth:
	 *       - MUST fail the corresponding incoming HTLC (if any).
	 *     - if no *valid* commitment transaction contains an output
	 *       corresponding to the HTLC.
	 *       - MAY fail the corresponding incoming HTLC sooner.
	 */
	if (hout->hstate >= RCVD_ADD_REVOCATION
	    && hout->hstate < SENT_REMOVE_REVOCATION)
		*tell_immediate = true;

	log_debug(channel->log,
		  "We want to know if htlc %"PRIu64" is missing (%s)",
		  hout->key.id, *tell_immediate ? "immediate" : "later");
	return true;
}

/* Only error onchaind can get is if it dies. */
static void onchain_error(struct channel *channel,
			  int peer_fd UNUSED, int gossip_fd UNUSED,
			  const struct crypto_state *cs UNUSED,
			  const struct channel_id *channel_id UNUSED,
			  const char *desc,
			  const u8 *err_for_them UNUSED)
{
	/* FIXME: re-launch? */
	log_broken(channel->log, "%s", desc);
	channel_set_billboard(channel, true, desc);
	channel_set_owner(channel, NULL, false);
}

/* With a reorg, this can get called multiple times; each time we'll kill
 * onchaind (like any other owner), and restart */
enum watch_result onchaind_funding_spent(struct channel *channel,
					 const struct bitcoin_tx *tx,
					 u32 blockheight)
{
	u8 *msg;
	struct bitcoin_txid our_last_txid;
	struct htlc_stub *stubs;
	struct lightningd *ld = channel->peer->ld;
	struct pubkey final_key;
	int hsmfd;
	u32 feerate;

	channel_fail_permanent(channel, "Funding transaction spent");

	/* We could come from almost any state. */
	channel_set_state(channel, channel->state, FUNDING_SPEND_SEEN);

	hsmfd = hsm_get_client_fd(ld, &channel->peer->id,
				  channel->dbid,
				  HSM_CAP_SIGN_ONCHAIN_TX
				  | HSM_CAP_COMMITMENT_POINT);

	channel_set_owner(channel, new_channel_subd(ld,
						    "lightning_onchaind",
						    channel,
						    channel->log, false,
						    onchain_wire_type_name,
						    onchain_msg,
						    onchain_error,
						    channel_set_billboard,
						    take(&hsmfd),
						    NULL),
			  false);

	if (!channel->owner) {
		log_broken(channel->log, "Could not subdaemon onchain: %s",
			   strerror(errno));
		return KEEP_WATCHING;
	}

	stubs = wallet_htlc_stubs(tmpctx, ld->wallet, channel);
	if (!stubs) {
		log_broken(channel->log, "Could not load htlc_stubs");
		return KEEP_WATCHING;
	}

	if (!bip32_pubkey(ld->wallet->bip32_base, &final_key,
			  channel->final_key_idx)) {
		log_broken(channel->log, "Could not derive onchain key %"PRIu64,
			   channel->final_key_idx);
		return KEEP_WATCHING;
	}
	/* This could be a mutual close, but it doesn't matter. */
	bitcoin_txid(channel->last_tx, &our_last_txid);

	/* We try to use normal feerate for onchaind spends. */
	feerate = try_get_feerate(ld->topology, FEERATE_NORMAL);
	if (!feerate) {
		/* We have at least one data point: the last tx's feerate. */
		u64 fee = channel->funding_satoshi;
		for (size_t i = 0; i < tal_count(channel->last_tx->output); i++)
			fee -= channel->last_tx->output[i].amount;

		feerate = fee / measure_tx_weight(tx);
		if (feerate < feerate_floor())
			feerate = feerate_floor();
	}

	msg = towire_onchain_init(channel,
				  &channel->their_shachain.chain,
				  channel->funding_satoshi,
				  &channel->channel_info.old_remote_per_commit,
				  &channel->channel_info.remote_per_commit,
				   /* BOLT #2:
				    * `to_self_delay` is the number of blocks
				    * that the other node's to-self outputs
				    * must be delayed */
				   /* So, these are reversed: they specify ours,
				    * we specify theirs. */
				  channel->channel_info.their_config.to_self_delay,
				  channel->our_config.to_self_delay,
				  feerate,
				  channel->our_config.dust_limit_satoshis,
				  &our_last_txid,
				  p2wpkh_for_keyidx(tmpctx, ld,
						    channel->final_key_idx),
				  channel->remote_shutdown_scriptpubkey,
				  &final_key,
				  channel->funder,
				  &channel->local_basepoints,
				  &channel->channel_info.theirbase,
				  tx,
				  blockheight,
				  /* FIXME: config for 'reasonable depth' */
				  3,
				  channel->last_htlc_sigs,
				  tal_count(stubs),
				  channel->min_possible_feerate,
				  channel->max_possible_feerate,
				  channel->future_per_commitment_point);
	subd_send_msg(channel->owner, take(msg));

	/* FIXME: Don't queue all at once, use an empty cb... */
	for (size_t i = 0; i < tal_count(stubs); i++) {
		bool tell_immediate;
		bool tell = tell_if_missing(channel, &stubs[i], &tell_immediate);
		msg = towire_onchain_htlc(channel, &stubs[i],
					  tell, tell_immediate);
		subd_send_msg(channel->owner, take(msg));
	}

	/* Tell it about any preimages we know. */
	onchaind_tell_fulfill(channel);

	watch_tx_and_outputs(channel, tx);

	/* We keep watching until peer finally deleted, for reorgs. */
	return KEEP_WATCHING;
}

void onchaind_replay_channels(struct lightningd *ld)
{
	u32 *onchaind_ids;
	struct channeltx *txs;
	struct channel *chan;

	db_begin_transaction(ld->wallet->db);
	onchaind_ids = wallet_onchaind_channels(ld->wallet, ld);

	for (size_t i = 0; i < tal_count(onchaind_ids); i++) {
		log_info(ld->log, "Restarting onchaind for channel %d",
			 onchaind_ids[i]);

		txs = wallet_channeltxs_get(ld->wallet, onchaind_ids,
					    onchaind_ids[i]);
		chan = channel_by_dbid(ld, onchaind_ids[i]);

		for (size_t j = 0; j < tal_count(txs); j++) {
			if (txs[j].type == WIRE_ONCHAIN_INIT) {
				onchaind_funding_spent(chan, txs[j].tx,
						       txs[j].blockheight);

			} else if (txs[j].type == WIRE_ONCHAIN_SPENT) {
				onchain_txo_spent(chan, txs[j].tx,
						  txs[j].input_num,
						  txs[j].blockheight);

			} else if (txs[j].type == WIRE_ONCHAIN_DEPTH) {
				onchain_tx_depth(chan, &txs[j].txid,
						 txs[j].depth);

			} else {
				fatal("unknown message of type %d during "
				      "onchaind replay",
				      txs[j].type);
			}
		}
		tal_free(txs);
	}
	tal_free(onchaind_ids);

	db_commit_transaction(ld->wallet->db);
}