#include "invoices.h" #include "wallet.h" #include #include #include #include #include #include #include #include #include #include #define SQLITE_MAX_UINT 0x7FFFFFFFFFFFFFFF #define DIRECTION_INCOMING 0 #define DIRECTION_OUTGOING 1 struct wallet *wallet_new(struct lightningd *ld, struct log *log, struct timers *timers) { struct wallet *wallet = tal(ld, struct wallet); wallet->ld = ld; wallet->db = db_setup(wallet, log); wallet->log = log; wallet->bip32_base = NULL; wallet->invoices = invoices_new(wallet, wallet->db, log, timers); list_head_init(&wallet->unstored_payments); return wallet; } /* We actually use the db constraints to uniquify, so OK if this fails. */ bool wallet_add_utxo(struct wallet *w, struct utxo *utxo, enum wallet_output_type type) { sqlite3_stmt *stmt; stmt = db_prepare(w->db, "INSERT INTO outputs (prev_out_tx, prev_out_index, value, type, status, keyindex, channel_id, peer_id, commitment_point) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?);"); sqlite3_bind_blob(stmt, 1, &utxo->txid, sizeof(utxo->txid), SQLITE_TRANSIENT); sqlite3_bind_int(stmt, 2, utxo->outnum); sqlite3_bind_int64(stmt, 3, utxo->amount); sqlite3_bind_int(stmt, 4, type); sqlite3_bind_int(stmt, 5, output_state_available); sqlite3_bind_int(stmt, 6, utxo->keyindex); if (utxo->close_info) { sqlite3_bind_int64(stmt, 7, utxo->close_info->channel_id); sqlite3_bind_pubkey(stmt, 8, &utxo->close_info->peer_id); sqlite3_bind_pubkey(stmt, 9, &utxo->close_info->commitment_point); } else { sqlite3_bind_null(stmt, 7); sqlite3_bind_null(stmt, 8); sqlite3_bind_null(stmt, 9); } return db_exec_prepared_mayfail(w->db, stmt); } /** * wallet_stmt2output - Extract data from stmt and fill an UTXO * * Returns true on success. */ static bool wallet_stmt2output(sqlite3_stmt *stmt, struct utxo *utxo) { sqlite3_column_sha256_double(stmt, 0, &utxo->txid.shad); utxo->outnum = sqlite3_column_int(stmt, 1); utxo->amount = sqlite3_column_int64(stmt, 2); utxo->is_p2sh = sqlite3_column_int(stmt, 3) == p2sh_wpkh; utxo->status = sqlite3_column_int(stmt, 4); utxo->keyindex = sqlite3_column_int(stmt, 5); if (sqlite3_column_type(stmt, 6) != SQLITE_NULL) { utxo->close_info = tal(utxo, struct unilateral_close_info); utxo->close_info->channel_id = sqlite3_column_int64(stmt, 6); sqlite3_column_pubkey(stmt, 7, &utxo->close_info->peer_id); sqlite3_column_pubkey(stmt, 8, &utxo->close_info->commitment_point); } else { utxo->close_info = NULL; } return true; } bool wallet_update_output_status(struct wallet *w, const struct bitcoin_txid *txid, const u32 outnum, enum output_status oldstatus, enum output_status newstatus) { sqlite3_stmt *stmt; if (oldstatus != output_state_any) { stmt = db_prepare( w->db, "UPDATE outputs SET status=? WHERE status=? AND prev_out_tx=? AND prev_out_index=?"); sqlite3_bind_int(stmt, 1, newstatus); sqlite3_bind_int(stmt, 2, oldstatus); sqlite3_bind_blob(stmt, 3, txid, sizeof(*txid), SQLITE_TRANSIENT); sqlite3_bind_int(stmt, 4, outnum); } else { stmt = db_prepare( w->db, "UPDATE outputs SET status=? WHERE prev_out_tx=? AND prev_out_index=?"); sqlite3_bind_int(stmt, 1, newstatus); sqlite3_bind_blob(stmt, 2, txid, sizeof(*txid), SQLITE_TRANSIENT); sqlite3_bind_int(stmt, 3, outnum); } db_exec_prepared(w->db, stmt); return sqlite3_changes(w->db->sql) > 0; } struct utxo **wallet_get_utxos(const tal_t *ctx, struct wallet *w, const enum output_status state) { struct utxo **results; int i; sqlite3_stmt *stmt = db_prepare( w->db, "SELECT prev_out_tx, prev_out_index, value, type, status, keyindex, " "channel_id, peer_id, commitment_point " "FROM outputs WHERE status=?1 OR ?1=255"); sqlite3_bind_int(stmt, 1, state); results = tal_arr(ctx, struct utxo*, 0); for (i=0; sqlite3_step(stmt) == SQLITE_ROW; i++) { tal_resize(&results, i+1); results[i] = tal(results, struct utxo); wallet_stmt2output(stmt, results[i]); } sqlite3_finalize(stmt); return results; } /** * unreserve_utxo - Mark a reserved UTXO as available again */ static void unreserve_utxo(struct wallet *w, const struct utxo *unres) { if (!wallet_update_output_status(w, &unres->txid, unres->outnum, output_state_reserved, output_state_available)) { fatal("Unable to unreserve output"); } } /** * destroy_utxos - Destructor for an array of pointers to utxo */ static void destroy_utxos(const struct utxo **utxos, struct wallet *w) { for (size_t i = 0; i < tal_count(utxos); i++) unreserve_utxo(w, utxos[i]); } void wallet_confirm_utxos(struct wallet *w, const struct utxo **utxos) { tal_del_destructor2(utxos, destroy_utxos, w); for (size_t i = 0; i < tal_count(utxos); i++) { if (!wallet_update_output_status( w, &utxos[i]->txid, utxos[i]->outnum, output_state_reserved, output_state_spent)) { fatal("Unable to mark output as spent"); } } } static const struct utxo **wallet_select(const tal_t *ctx, struct wallet *w, const u64 value, const u32 feerate_per_kw, size_t outscriptlen, bool may_have_change, u64 *satoshi_in, u64 *fee_estimate) { size_t i = 0; struct utxo **available; u64 weight; const struct utxo **utxos = tal_arr(ctx, const struct utxo *, 0); tal_add_destructor2(utxos, destroy_utxos, w); /* version, input count, output count, locktime */ weight = (4 + 1 + 1 + 4) * 4; /* The main output: amount, len, scriptpubkey */ weight += (8 + 1 + outscriptlen) * 4; /* Change output will be P2WPKH */ if (may_have_change) weight += (8 + 1 + BITCOIN_SCRIPTPUBKEY_P2WPKH_LEN) * 4; *fee_estimate = 0; *satoshi_in = 0; available = wallet_get_utxos(ctx, w, output_state_available); for (i = 0; i < tal_count(available); i++) { size_t input_weight; tal_resize(&utxos, i + 1); utxos[i] = tal_steal(utxos, available[i]); if (!wallet_update_output_status( w, &available[i]->txid, available[i]->outnum, output_state_available, output_state_reserved)) fatal("Unable to reserve output"); /* Input weight: txid + index + sequence */ input_weight = (32 + 4 + 4) * 4; /* We always encode the length of the script, even if empty */ input_weight += 1 * 4; /* P2SH variants include push of <0 <20-byte-key-hash>> */ if (utxos[i]->is_p2sh) input_weight += 23 * 4; /* Account for witness (1 byte count + sig + key) */ input_weight += 1 + (1 + 73 + 1 + 33); weight += input_weight; *fee_estimate = weight * feerate_per_kw / 1000; *satoshi_in += utxos[i]->amount; if (*satoshi_in >= *fee_estimate + value) break; } tal_free(available); return utxos; } const struct utxo **wallet_select_coins(const tal_t *ctx, struct wallet *w, const u64 value, const u32 feerate_per_kw, size_t outscriptlen, u64 *fee_estimate, u64 *changesatoshi) { u64 satoshi_in; const struct utxo **utxo; utxo = wallet_select(ctx, w, value, feerate_per_kw, outscriptlen, true, &satoshi_in, fee_estimate); /* Couldn't afford it? */ if (satoshi_in < *fee_estimate + value) return tal_free(utxo); *changesatoshi = satoshi_in - value - *fee_estimate; return utxo; } const struct utxo **wallet_select_all(const tal_t *ctx, struct wallet *w, const u32 feerate_per_kw, size_t outscriptlen, u64 *value, u64 *fee_estimate) { u64 satoshi_in; const struct utxo **utxo; /* Huge value, but won't overflow on addition */ utxo = wallet_select(ctx, w, (1ULL << 56), feerate_per_kw, outscriptlen, false, &satoshi_in, fee_estimate); /* Can't afford fees? */ if (*fee_estimate > satoshi_in) return tal_free(utxo); *value = satoshi_in - *fee_estimate; return utxo; } bool wallet_can_spend(struct wallet *w, const u8 *script, u32 *index, bool *output_is_p2sh) { struct ext_key ext; u64 bip32_max_index = db_get_intvar(w->db, "bip32_max_index", 0); u32 i; /* If not one of these, can't be for us. */ if (is_p2sh(script, NULL)) *output_is_p2sh = true; else if (is_p2wpkh(script, NULL)) *output_is_p2sh = false; else return false; for (i = 0; i <= bip32_max_index; i++) { u8 *s; if (bip32_key_from_parent(w->bip32_base, i, BIP32_FLAG_KEY_PUBLIC, &ext) != WALLY_OK) { abort(); } s = scriptpubkey_p2wpkh_derkey(w, ext.pub_key); if (*output_is_p2sh) { u8 *p2sh = scriptpubkey_p2sh(w, s); tal_free(s); s = p2sh; } if (scripteq(s, script)) { tal_free(s); *index = i; return true; } tal_free(s); } return false; } s64 wallet_get_newindex(struct lightningd *ld) { u64 newidx = db_get_intvar(ld->wallet->db, "bip32_max_index", 0) + 1; if (newidx == BIP32_INITIAL_HARDENED_CHILD) return -1; db_set_intvar(ld->wallet->db, "bip32_max_index", newidx); return newidx; } static void wallet_shachain_init(struct wallet *wallet, struct wallet_shachain *chain) { sqlite3_stmt *stmt; assert(chain->id == 0); /* Create shachain */ shachain_init(&chain->chain); stmt = db_prepare(wallet->db, "INSERT INTO shachains (min_index, num_valid) VALUES (?, 0);"); sqlite3_bind_int64(stmt, 1, chain->chain.min_index); db_exec_prepared(wallet->db, stmt); chain->id = sqlite3_last_insert_rowid(wallet->db->sql); } /* TODO(cdecker) Stolen from shachain, move to some appropriate location */ static unsigned int count_trailing_zeroes(uint64_t index) { #if HAVE_BUILTIN_CTZLL return index ? (unsigned int)__builtin_ctzll(index) : SHACHAIN_BITS; #else unsigned int i; for (i = 0; i < SHACHAIN_BITS; i++) { if (index & (1ULL << i)) break; } return i; #endif } bool wallet_shachain_add_hash(struct wallet *wallet, struct wallet_shachain *chain, uint64_t index, const struct sha256 *hash) { sqlite3_stmt *stmt; u32 pos = count_trailing_zeroes(index); assert(index < SQLITE_MAX_UINT); if (!shachain_add_hash(&chain->chain, index, hash)) { return false; } stmt = db_prepare(wallet->db, "UPDATE shachains SET num_valid=?, min_index=? WHERE id=?"); sqlite3_bind_int(stmt, 1, chain->chain.num_valid); sqlite3_bind_int64(stmt, 2, index); sqlite3_bind_int64(stmt, 3, chain->id); db_exec_prepared(wallet->db, stmt); stmt = db_prepare( wallet->db, "REPLACE INTO shachain_known (shachain_id, pos, idx, hash) VALUES (?, ?, ?, ?);"); sqlite3_bind_int64(stmt, 1, chain->id); sqlite3_bind_int(stmt, 2, pos); sqlite3_bind_int64(stmt, 3, index); sqlite3_bind_blob(stmt, 4, hash, sizeof(*hash), SQLITE_TRANSIENT); db_exec_prepared(wallet->db, stmt); return true; } bool wallet_shachain_load(struct wallet *wallet, u64 id, struct wallet_shachain *chain) { int err; sqlite3_stmt *stmt; chain->id = id; shachain_init(&chain->chain); /* Load shachain metadata */ stmt = db_prepare(wallet->db, "SELECT min_index, num_valid FROM shachains WHERE id=?"); sqlite3_bind_int64(stmt, 1, id); err = sqlite3_step(stmt); if (err != SQLITE_ROW) { sqlite3_finalize(stmt); return false; } chain->chain.min_index = sqlite3_column_int64(stmt, 0); chain->chain.num_valid = sqlite3_column_int64(stmt, 1); sqlite3_finalize(stmt); /* Load shachain known entries */ stmt = db_prepare(wallet->db, "SELECT idx, hash, pos FROM shachain_known WHERE shachain_id=?"); sqlite3_bind_int64(stmt, 1, id); while (sqlite3_step(stmt) == SQLITE_ROW) { int pos = sqlite3_column_int(stmt, 2); chain->chain.known[pos].index = sqlite3_column_int64(stmt, 0); memcpy(&chain->chain.known[pos].hash, sqlite3_column_blob(stmt, 1), sqlite3_column_bytes(stmt, 1)); } sqlite3_finalize(stmt); return true; } static struct peer *wallet_peer_load(struct wallet *w, const u64 dbid) { const unsigned char *addrstr; struct peer *peer; struct pubkey id; struct wireaddr *addrp, addr; sqlite3_stmt *stmt = db_query(__func__, w->db, "SELECT id, node_id, address FROM peers WHERE id=%"PRIu64";", dbid); if (!stmt || sqlite3_step(stmt) != SQLITE_ROW) { sqlite3_finalize(stmt); return NULL; } if (!sqlite3_column_pubkey(stmt, 1, &id)) { sqlite3_finalize(stmt); return NULL; } addrstr = sqlite3_column_text(stmt, 2); if (addrstr) { addrp = &addr; if (!parse_wireaddr((const char*)addrstr, addrp, DEFAULT_PORT)) { sqlite3_finalize(stmt); return NULL; } } else addrp = NULL; peer = new_peer(w->ld, sqlite3_column_int64(stmt, 0), &id, addrp); sqlite3_finalize(stmt); return peer; } bool wallet_peer_by_nodeid(struct wallet *w, const struct pubkey *nodeid, struct peer *peer) { bool ok; const unsigned char *addrstr; tal_t *tmpctx = tal_tmpctx(w); sqlite3_stmt *stmt = db_prepare(w->db, "SELECT id, node_id, address FROM peers WHERE node_id=?;"); sqlite3_bind_pubkey(stmt, 1, nodeid); ok = stmt != NULL && sqlite3_step(stmt) == SQLITE_ROW; if (ok) { peer->dbid = sqlite3_column_int64(stmt, 0); ok &= sqlite3_column_pubkey(stmt, 1, &peer->id); addrstr = sqlite3_column_text(stmt, 2); if (addrstr) parse_wireaddr((const char*)addrstr, &peer->addr, DEFAULT_PORT); } else { /* Make sure we mark this as a new peer */ peer->dbid = 0; } sqlite3_finalize(stmt); tal_free(tmpctx); return ok; } static secp256k1_ecdsa_signature * wallet_htlc_sigs_load(const tal_t *ctx, struct wallet *w, u64 channelid) { sqlite3_stmt *stmt = db_prepare(w->db, "SELECT signature FROM htlc_sigs WHERE channelid = ?"); secp256k1_ecdsa_signature *htlc_sigs = tal_arr(ctx, secp256k1_ecdsa_signature, 0); sqlite3_bind_int64(stmt, 1, channelid); size_t n = 0; while (stmt && sqlite3_step(stmt) == SQLITE_ROW) { tal_resize(&htlc_sigs, n+1); sqlite3_column_signature(stmt, 0, &htlc_sigs[n]); n++; } sqlite3_finalize(stmt); log_debug(w->log, "Loaded %zu HTLC signatures from DB", n); return htlc_sigs; } /** * wallet_stmt2channel - Helper to populate a wallet_channel from a sqlite3_stmt */ static struct channel *wallet_stmt2channel(const tal_t *ctx, struct wallet *w, sqlite3_stmt *stmt) { bool ok = true; struct channel_info channel_info; struct short_channel_id *scid; struct channel *chan; u64 peer_dbid; struct peer *peer; struct wallet_shachain wshachain; struct channel_config our_config; struct bitcoin_txid funding_txid; secp256k1_ecdsa_signature last_sig; u8 *remote_shutdown_scriptpubkey; struct changed_htlc *last_sent_commit; const tal_t *tmpctx = tal_tmpctx(ctx); peer_dbid = sqlite3_column_int64(stmt, 1); peer = find_peer_by_dbid(w->ld, peer_dbid); if (!peer) { peer = wallet_peer_load(w, peer_dbid); if (!peer) { tal_free(tmpctx); return NULL; } } if (sqlite3_column_type(stmt, 2) != SQLITE_NULL) { scid = tal(tmpctx, struct short_channel_id); sqlite3_column_short_channel_id(stmt, 2, scid); } else { scid = NULL; } ok &= wallet_shachain_load(w, sqlite3_column_int64(stmt, 27), &wshachain); remote_shutdown_scriptpubkey = sqlite3_column_arr(tmpctx, stmt, 28, u8); /* Do we have a last_sent_commit, if yes, populate */ if (sqlite3_column_type(stmt, 30) != SQLITE_NULL) { last_sent_commit = tal(tmpctx, struct changed_htlc); last_sent_commit->newstate = sqlite3_column_int64(stmt, 30); last_sent_commit->id = sqlite3_column_int64(stmt, 31); } else { last_sent_commit = NULL; } ok &= wallet_channel_config_load(w, sqlite3_column_int64(stmt, 3), &our_config); ok &= sqlite3_column_sha256_double(stmt, 12, &funding_txid.shad); ok &= sqlite3_column_signature(stmt, 33, &last_sig); /* Populate channel_info */ ok &= sqlite3_column_pubkey(stmt, 18, &channel_info.remote_fundingkey); ok &= sqlite3_column_pubkey(stmt, 19, &channel_info.theirbase.revocation); ok &= sqlite3_column_pubkey(stmt, 20, &channel_info.theirbase.payment); ok &= sqlite3_column_pubkey(stmt, 21, &channel_info.theirbase.htlc); ok &= sqlite3_column_pubkey(stmt, 22, &channel_info.theirbase.delayed_payment); ok &= sqlite3_column_pubkey(stmt, 23, &channel_info.remote_per_commit); ok &= sqlite3_column_pubkey(stmt, 24, &channel_info.old_remote_per_commit); channel_info.feerate_per_kw[LOCAL] = sqlite3_column_int(stmt, 25); channel_info.feerate_per_kw[REMOTE] = sqlite3_column_int(stmt, 26); wallet_channel_config_load(w, sqlite3_column_int64(stmt, 4), &channel_info.their_config); if (!ok) { tal_free(tmpctx); return NULL; } chan = new_channel(peer, sqlite3_column_int64(stmt, 0), &wshachain, sqlite3_column_int(stmt, 5), sqlite3_column_int(stmt, 6), NULL, /* Set up fresh log */ sqlite3_column_int(stmt, 7), &our_config, sqlite3_column_int(stmt, 8), sqlite3_column_int64(stmt, 9), sqlite3_column_int64(stmt, 10), sqlite3_column_int64(stmt, 11), &funding_txid, sqlite3_column_int(stmt, 13), sqlite3_column_int64(stmt, 14), sqlite3_column_int64(stmt, 16), sqlite3_column_int(stmt, 15) != 0, scid, sqlite3_column_int64(stmt, 17), sqlite3_column_tx(tmpctx, stmt, 32), &last_sig, wallet_htlc_sigs_load(tmpctx, w, sqlite3_column_int64(stmt, 0)), &channel_info, remote_shutdown_scriptpubkey, remote_shutdown_scriptpubkey ? sqlite3_column_int64(stmt, 29) : -1, sqlite3_column_int(stmt, 34) != 0, last_sent_commit, sqlite3_column_int64(stmt, 35)); tal_free(tmpctx); return chan; } /* List of fields to retrieve from the channels DB table, in the order * that wallet_stmt2channel understands and will parse correctly */ static const char *channel_fields = "id, peer_id, short_channel_id, channel_config_local, " "channel_config_remote, state, funder, channel_flags, " "minimum_depth, " "next_index_local, next_index_remote, " "next_htlc_id, funding_tx_id, funding_tx_outnum, funding_satoshi, " "funding_locked_remote, push_msatoshi, msatoshi_local, " "fundingkey_remote, revocation_basepoint_remote, " "payment_basepoint_remote, htlc_basepoint_remote, " "delayed_payment_basepoint_remote, per_commit_remote, " "old_per_commit_remote, local_feerate_per_kw, remote_feerate_per_kw, shachain_remote_id, " "shutdown_scriptpubkey_remote, shutdown_keyidx_local, " "last_sent_commit_state, last_sent_commit_id, " "last_tx, last_sig, last_was_revoke, first_blocknum"; bool wallet_channels_load_active(const tal_t *ctx, struct wallet *w) { bool ok = true; sqlite3_stmt *stmt; /* We load all channels */ stmt = db_query( __func__, w->db, "SELECT %s FROM channels;", channel_fields); w->max_channel_dbid = 0; int count = 0; while (ok && stmt && sqlite3_step(stmt) == SQLITE_ROW) { struct channel *c = wallet_stmt2channel(ctx, w, stmt); if (!c) { ok = false; break; } if (c->dbid > w->max_channel_dbid) w->max_channel_dbid = c->dbid; count++; } log_debug(w->log, "Loaded %d channels from DB", count); sqlite3_finalize(stmt); return ok; } /* Upgrade of db (or initial create): do we have anything to scan for? */ static bool wallet_ever_used(struct wallet *w) { sqlite3_stmt *stmt; bool channel_utxos; /* If we ever handed out an address. */ if (db_get_intvar(w->db, "bip32_max_index", 0) != 0) return true; /* Or if they do a unilateral close, the output to us provides a UTXO. */ stmt = db_query(__func__, w->db, "SELECT COUNT(*) FROM outputs WHERE commitment_point IS NOT NULL;"); int ret = sqlite3_step(stmt); assert(ret == SQLITE_ROW); channel_utxos = (sqlite3_column_int(stmt, 0) != 0); sqlite3_finalize(stmt); return channel_utxos; } /* We want the earlier of either: * 1. The first channel we're still watching (it might have closed), * 2. The last block we scanned for UTXO (might have new incoming payments) * * chaintopology actually subtracts another 100 blocks to make sure we * catch chain forks. */ u32 wallet_first_blocknum(struct wallet *w, u32 first_possible) { int err; u32 first_channel, first_utxo; sqlite3_stmt *stmt = db_query(__func__, w->db, "SELECT MIN(first_blocknum) FROM channels;"); /* If we ever opened a channel, this will give us the first block. */ err = sqlite3_step(stmt); if (err == SQLITE_ROW && sqlite3_column_type(stmt, 0) != SQLITE_NULL) first_channel = sqlite3_column_int(stmt, 0); else first_channel = UINT32_MAX; sqlite3_finalize(stmt); first_utxo = db_get_intvar(w->db, "last_processed_block", 0); if (first_utxo == 0) { /* Don't know? New db, or upgraded. */ if (wallet_ever_used(w)) /* Be conservative */ first_utxo = first_possible; else first_utxo = UINT32_MAX; } if (first_utxo < first_channel) return first_utxo; else return first_channel; } static void wallet_channel_config_insert(struct wallet *w, struct channel_config *cc) { sqlite3_stmt *stmt; assert(cc->id == 0); stmt = db_prepare(w->db, "INSERT INTO channel_configs DEFAULT VALUES;"); db_exec_prepared(w->db, stmt); cc->id = sqlite3_last_insert_rowid(w->db->sql); } static void wallet_channel_config_save(struct wallet *w, const struct channel_config *cc) { sqlite3_stmt *stmt; assert(cc->id != 0); stmt = db_prepare(w->db, "UPDATE channel_configs SET" " dust_limit_satoshis=?," " max_htlc_value_in_flight_msat=?," " channel_reserve_satoshis=?," " htlc_minimum_msat=?," " to_self_delay=?," " max_accepted_htlcs=?" " WHERE id=?;"); sqlite3_bind_int64(stmt, 1, cc->dust_limit_satoshis); sqlite3_bind_int64(stmt, 2, cc->max_htlc_value_in_flight_msat); sqlite3_bind_int64(stmt, 3, cc->channel_reserve_satoshis); sqlite3_bind_int64(stmt, 4, cc->htlc_minimum_msat); sqlite3_bind_int(stmt, 5, cc->to_self_delay); sqlite3_bind_int(stmt, 6, cc->max_accepted_htlcs); sqlite3_bind_int64(stmt, 7, cc->id); db_exec_prepared(w->db, stmt); } bool wallet_channel_config_load(struct wallet *w, const u64 id, struct channel_config *cc) { bool ok = true; int col = 1; const char *query = "SELECT id, dust_limit_satoshis, max_htlc_value_in_flight_msat, " "channel_reserve_satoshis, htlc_minimum_msat, to_self_delay, " "max_accepted_htlcs FROM channel_configs WHERE id=%" PRIu64 ";"; sqlite3_stmt *stmt = db_query(__func__, w->db, query, id); if (!stmt || sqlite3_step(stmt) != SQLITE_ROW) { sqlite3_finalize(stmt); return false; } cc->id = id; cc->dust_limit_satoshis = sqlite3_column_int64(stmt, col++); cc->max_htlc_value_in_flight_msat = sqlite3_column_int64(stmt, col++); cc->channel_reserve_satoshis = sqlite3_column_int64(stmt, col++); cc->htlc_minimum_msat = sqlite3_column_int64(stmt, col++); cc->to_self_delay = sqlite3_column_int(stmt, col++); cc->max_accepted_htlcs = sqlite3_column_int(stmt, col++); assert(col == 7); sqlite3_finalize(stmt); return ok; } u64 wallet_get_channel_dbid(struct wallet *wallet) { return ++wallet->max_channel_dbid; } void wallet_channel_save(struct wallet *w, struct channel *chan) { tal_t *tmpctx = tal_tmpctx(w); sqlite3_stmt *stmt; assert(chan->first_blocknum); wallet_channel_config_save(w, &chan->our_config); stmt = db_prepare(w->db, "UPDATE channels SET" " shachain_remote_id=?," " short_channel_id=?," " state=?," " funder=?," " channel_flags=?," " minimum_depth=?," " next_index_local=?," " next_index_remote=?," " next_htlc_id=?," " funding_tx_id=?," " funding_tx_outnum=?," " funding_satoshi=?," " funding_locked_remote=?," " push_msatoshi=?," " msatoshi_local=?," " shutdown_scriptpubkey_remote=?," " shutdown_keyidx_local=?," " channel_config_local=?," " last_tx=?, last_sig=?," " last_was_revoke=?" " WHERE id=?"); sqlite3_bind_int64(stmt, 1, chan->their_shachain.id); if (chan->scid) sqlite3_bind_short_channel_id(stmt, 2, chan->scid); sqlite3_bind_int(stmt, 3, chan->state); sqlite3_bind_int(stmt, 4, chan->funder); sqlite3_bind_int(stmt, 5, chan->channel_flags); sqlite3_bind_int(stmt, 6, chan->minimum_depth); sqlite3_bind_int64(stmt, 7, chan->next_index[LOCAL]); sqlite3_bind_int64(stmt, 8, chan->next_index[REMOTE]); sqlite3_bind_int64(stmt, 9, chan->next_htlc_id); sqlite3_bind_sha256_double(stmt, 10, &chan->funding_txid.shad); sqlite3_bind_int(stmt, 11, chan->funding_outnum); sqlite3_bind_int64(stmt, 12, chan->funding_satoshi); sqlite3_bind_int(stmt, 13, chan->remote_funding_locked); sqlite3_bind_int64(stmt, 14, chan->push_msat); sqlite3_bind_int64(stmt, 15, chan->our_msatoshi); if (chan->remote_shutdown_scriptpubkey) sqlite3_bind_blob(stmt, 16, chan->remote_shutdown_scriptpubkey, tal_len(chan->remote_shutdown_scriptpubkey), SQLITE_TRANSIENT); sqlite3_bind_int64(stmt, 17, chan->local_shutdown_idx); sqlite3_bind_int64(stmt, 18, chan->our_config.id); sqlite3_bind_tx(stmt, 19, chan->last_tx); sqlite3_bind_signature(stmt, 20, &chan->last_sig); sqlite3_bind_int(stmt, 21, chan->last_was_revoke); sqlite3_bind_int64(stmt, 22, chan->dbid); db_exec_prepared(w->db, stmt); wallet_channel_config_save(w, &chan->channel_info.their_config); stmt = db_prepare(w->db, "UPDATE channels SET" " fundingkey_remote=?," " revocation_basepoint_remote=?," " payment_basepoint_remote=?," " htlc_basepoint_remote=?," " delayed_payment_basepoint_remote=?," " per_commit_remote=?," " old_per_commit_remote=?," " local_feerate_per_kw=?," " remote_feerate_per_kw=?," " channel_config_remote=?" " WHERE id=?"); sqlite3_bind_pubkey(stmt, 1, &chan->channel_info.remote_fundingkey); sqlite3_bind_pubkey(stmt, 2, &chan->channel_info.theirbase.revocation); sqlite3_bind_pubkey(stmt, 3, &chan->channel_info.theirbase.payment); sqlite3_bind_pubkey(stmt, 4, &chan->channel_info.theirbase.htlc); sqlite3_bind_pubkey(stmt, 5, &chan->channel_info.theirbase.delayed_payment); sqlite3_bind_pubkey(stmt, 6, &chan->channel_info.remote_per_commit); sqlite3_bind_pubkey(stmt, 7, &chan->channel_info.old_remote_per_commit); sqlite3_bind_int(stmt, 8, chan->channel_info.feerate_per_kw[LOCAL]); sqlite3_bind_int(stmt, 9, chan->channel_info.feerate_per_kw[REMOTE]); sqlite3_bind_int64(stmt, 10, chan->channel_info.their_config.id); sqlite3_bind_int64(stmt, 11, chan->dbid); db_exec_prepared(w->db, stmt); /* If we have a last_sent_commit, store it */ if (chan->last_sent_commit) { stmt = db_prepare(w->db, "UPDATE channels SET" " last_sent_commit_state=?," " last_sent_commit_id=?" " WHERE id=?"); sqlite3_bind_int(stmt, 1, chan->last_sent_commit->newstate); sqlite3_bind_int64(stmt, 2, chan->last_sent_commit->id); sqlite3_bind_int64(stmt, 3, chan->dbid); db_exec_prepared(w->db, stmt); } tal_free(tmpctx); } void wallet_channel_insert(struct wallet *w, struct channel *chan) { tal_t *tmpctx = tal_tmpctx(w); sqlite3_stmt *stmt; if (chan->peer->dbid == 0) { /* Need to create the peer first */ stmt = db_prepare(w->db, "INSERT INTO peers (node_id, address) VALUES (?, ?);"); sqlite3_bind_pubkey(stmt, 1, &chan->peer->id); if (chan->peer->addr.type == ADDR_TYPE_PADDING) sqlite3_bind_null(stmt, 2); else sqlite3_bind_text(stmt, 2, type_to_string(tmpctx, struct wireaddr, &chan->peer->addr), -1, SQLITE_TRANSIENT); db_exec_prepared(w->db, stmt); chan->peer->dbid = sqlite3_last_insert_rowid(w->db->sql); } /* Insert a stub, that we update, unifies INSERT and UPDATE paths */ stmt = db_prepare(w->db, "INSERT INTO channels (" "peer_id, first_blocknum, id) VALUES (?, ?, ?);"); sqlite3_bind_int64(stmt, 1, chan->peer->dbid); sqlite3_bind_int(stmt, 2, chan->first_blocknum); sqlite3_bind_int(stmt, 3, chan->dbid); db_exec_prepared(w->db, stmt); wallet_channel_config_insert(w, &chan->our_config); wallet_channel_config_insert(w, &chan->channel_info.their_config); wallet_shachain_init(w, &chan->their_shachain); /* Now save path as normal */ wallet_channel_save(w, chan); tal_free(tmpctx); } void wallet_channel_delete(struct wallet *w, u64 wallet_id) { sqlite3_stmt *stmt; stmt = db_prepare(w->db, "DELETE FROM channels WHERE id=?"); sqlite3_bind_int64(stmt, 1, wallet_id); db_exec_prepared(w->db, stmt); } void wallet_peer_delete(struct wallet *w, u64 peer_dbid) { sqlite3_stmt *stmt; /* Must not have any channels still using this peer */ stmt = db_query(__func__, w->db, "SELECT * FROM channels WHERE peer_id = %"PRIu64, peer_dbid); assert(sqlite3_step(stmt) == SQLITE_DONE); sqlite3_finalize(stmt); stmt = db_prepare(w->db, "DELETE FROM peers WHERE id=?"); sqlite3_bind_int64(stmt, 1, peer_dbid); db_exec_prepared(w->db, stmt); } int wallet_extract_owned_outputs(struct wallet *w, const struct bitcoin_tx *tx, u64 *total_satoshi) { int num_utxos = 0; for (size_t output = 0; output < tal_count(tx->output); output++) { struct utxo *utxo; u32 index; bool is_p2sh; if (!wallet_can_spend(w, tx->output[output].script, &index, &is_p2sh)) continue; utxo = tal(w, struct utxo); utxo->keyindex = index; utxo->is_p2sh = is_p2sh; utxo->amount = tx->output[output].amount; utxo->status = output_state_available; bitcoin_txid(tx, &utxo->txid); utxo->outnum = output; utxo->close_info = NULL; log_debug(w->log, "Owning output %zu %"PRIu64" (%s) txid %s", output, tx->output[output].amount, is_p2sh ? "P2SH" : "SEGWIT", type_to_string(ltmp, struct bitcoin_txid, &utxo->txid)); if (!wallet_add_utxo(w, utxo, is_p2sh ? p2sh_wpkh : our_change)) { tal_free(utxo); return -1; } *total_satoshi += utxo->amount; tal_free(utxo); num_utxos++; } return num_utxos; } void wallet_htlc_save_in(struct wallet *wallet, const struct channel *chan, struct htlc_in *in) { tal_t *tmpctx = tal_tmpctx(wallet); sqlite3_stmt *stmt; stmt = db_prepare( wallet->db, "INSERT INTO channel_htlcs (" " channel_id," " channel_htlc_id, " " direction," " msatoshi," " cltv_expiry," " payment_hash, " " payment_key," " hstate," " shared_secret," " routing_onion) VALUES " "(?, ?, ?, ?, ?, ?, ?, ?, ?, ?);"); sqlite3_bind_int64(stmt, 1, chan->dbid); sqlite3_bind_int64(stmt, 2, in->key.id); sqlite3_bind_int(stmt, 3, DIRECTION_INCOMING); sqlite3_bind_int64(stmt, 4, in->msatoshi); sqlite3_bind_int(stmt, 5, in->cltv_expiry); sqlite3_bind_sha256(stmt, 6, &in->payment_hash); if (in->preimage) sqlite3_bind_preimage(stmt, 7, in->preimage); sqlite3_bind_int(stmt, 8, in->hstate); sqlite3_bind_blob(stmt, 9, &in->shared_secret, sizeof(in->shared_secret), SQLITE_TRANSIENT); sqlite3_bind_blob(stmt, 10, &in->onion_routing_packet, sizeof(in->onion_routing_packet), SQLITE_TRANSIENT); db_exec_prepared(wallet->db, stmt); in->dbid = sqlite3_last_insert_rowid(wallet->db->sql); tal_free(tmpctx); } void wallet_htlc_save_out(struct wallet *wallet, const struct channel *chan, struct htlc_out *out) { tal_t *tmpctx = tal_tmpctx(wallet); sqlite3_stmt *stmt; /* We absolutely need the incoming HTLC to be persisted before * we can persist it's dependent */ assert(out->in == NULL || out->in->dbid != 0); out->origin_htlc_id = out->in?out->in->dbid:0; stmt = db_prepare( wallet->db, "INSERT INTO channel_htlcs (" " channel_id," " channel_htlc_id," " direction," " origin_htlc," " msatoshi," " cltv_expiry," " payment_hash," " payment_key," " hstate," " routing_onion) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?);"); sqlite3_bind_int64(stmt, 1, chan->dbid); sqlite3_bind_int64(stmt, 2, out->key.id); sqlite3_bind_int(stmt, 3, DIRECTION_OUTGOING); if (out->in) sqlite3_bind_int64(stmt, 4, out->in->dbid); sqlite3_bind_int64(stmt, 5, out->msatoshi); sqlite3_bind_int(stmt, 6, out->cltv_expiry); sqlite3_bind_sha256(stmt, 7, &out->payment_hash); if (out->preimage) sqlite3_bind_preimage(stmt, 8,out->preimage); sqlite3_bind_int(stmt, 9, out->hstate); sqlite3_bind_blob(stmt, 10, &out->onion_routing_packet, sizeof(out->onion_routing_packet), SQLITE_TRANSIENT); db_exec_prepared(wallet->db, stmt); out->dbid = sqlite3_last_insert_rowid(wallet->db->sql); tal_free(tmpctx); } void wallet_htlc_update(struct wallet *wallet, const u64 htlc_dbid, const enum htlc_state new_state, const struct preimage *payment_key) { sqlite3_stmt *stmt; /* The database ID must be set by a previous call to * `wallet_htlc_save_*` */ assert(htlc_dbid); stmt = db_prepare( wallet->db, "UPDATE channel_htlcs SET hstate=?, payment_key=? WHERE id=?"); sqlite3_bind_int(stmt, 1, new_state); sqlite3_bind_int64(stmt, 3, htlc_dbid); if (payment_key) sqlite3_bind_preimage(stmt, 2, payment_key); db_exec_prepared(wallet->db, stmt); } static bool wallet_stmt2htlc_in(struct channel *channel, sqlite3_stmt *stmt, struct htlc_in *in) { bool ok = true; in->dbid = sqlite3_column_int64(stmt, 0); in->key.id = sqlite3_column_int64(stmt, 1); in->key.channel = channel; in->msatoshi = sqlite3_column_int64(stmt, 2); in->cltv_expiry = sqlite3_column_int(stmt, 3); in->hstate = sqlite3_column_int(stmt, 4); sqlite3_column_sha256(stmt, 5, &in->payment_hash); assert(sqlite3_column_bytes(stmt, 6) == sizeof(struct secret)); memcpy(&in->shared_secret, sqlite3_column_blob(stmt, 6), sizeof(struct secret)); if (sqlite3_column_type(stmt, 7) != SQLITE_NULL) { in->preimage = tal(in, struct preimage); sqlite3_column_preimage(stmt, 7, in->preimage); } else { in->preimage = NULL; } assert(sqlite3_column_bytes(stmt, 8) == sizeof(in->onion_routing_packet)); memcpy(&in->onion_routing_packet, sqlite3_column_blob(stmt, 8), sizeof(in->onion_routing_packet)); /* FIXME: These need to be saved in db! */ in->failuremsg = NULL; in->failcode = 0; return ok; } static bool wallet_stmt2htlc_out(struct channel *channel, sqlite3_stmt *stmt, struct htlc_out *out) { bool ok = true; out->dbid = sqlite3_column_int64(stmt, 0); out->key.id = sqlite3_column_int64(stmt, 1); out->key.channel = channel; out->msatoshi = sqlite3_column_int64(stmt, 2); out->cltv_expiry = sqlite3_column_int(stmt, 3); out->hstate = sqlite3_column_int(stmt, 4); sqlite3_column_sha256(stmt, 5, &out->payment_hash); if (sqlite3_column_type(stmt, 6) != SQLITE_NULL) { out->origin_htlc_id = sqlite3_column_int64(stmt, 6); } else { out->origin_htlc_id = 0; } if (sqlite3_column_type(stmt, 7) != SQLITE_NULL) { out->preimage = tal(out, struct preimage); sqlite3_column_preimage(stmt, 7, out->preimage); } else { out->preimage = NULL; } assert(sqlite3_column_bytes(stmt, 8) == sizeof(out->onion_routing_packet)); memcpy(&out->onion_routing_packet, sqlite3_column_blob(stmt, 8), sizeof(out->onion_routing_packet)); out->failuremsg = NULL; out->failcode = 0; /* Need to defer wiring until we can look up all incoming * htlcs, will wire using origin_htlc_id */ out->in = NULL; return ok; } bool wallet_htlcs_load_for_channel(struct wallet *wallet, struct channel *chan, struct htlc_in_map *htlcs_in, struct htlc_out_map *htlcs_out) { bool ok = true; int incount = 0, outcount = 0; log_debug(wallet->log, "Loading HTLCs for channel %"PRIu64, chan->dbid); sqlite3_stmt *stmt = db_query( __func__, wallet->db, "SELECT id, channel_htlc_id, msatoshi, cltv_expiry, hstate, " "payment_hash, shared_secret, payment_key, routing_onion FROM channel_htlcs WHERE " "direction=%d AND channel_id=%" PRIu64 " AND hstate != %d", DIRECTION_INCOMING, chan->dbid, SENT_REMOVE_ACK_REVOCATION); if (!stmt) { log_broken(wallet->log, "Could not select htlc_ins"); return false; } while (ok && stmt && sqlite3_step(stmt) == SQLITE_ROW) { struct htlc_in *in = tal(chan, struct htlc_in); ok &= wallet_stmt2htlc_in(chan, stmt, in); connect_htlc_in(htlcs_in, in); ok &= htlc_in_check(in, "wallet_htlcs_load") != NULL; incount++; } sqlite3_finalize(stmt); stmt = db_query( __func__, wallet->db, "SELECT id, channel_htlc_id, msatoshi, cltv_expiry, hstate, " "payment_hash, origin_htlc, payment_key, routing_onion FROM channel_htlcs WHERE " "direction=%d AND channel_id=%" PRIu64 " AND hstate != %d", DIRECTION_OUTGOING, chan->dbid, RCVD_REMOVE_ACK_REVOCATION); if (!stmt) { log_broken(wallet->log, "Could not select htlc_outs"); return false; } while (ok && stmt && sqlite3_step(stmt) == SQLITE_ROW) { struct htlc_out *out = tal(chan, struct htlc_out); ok &= wallet_stmt2htlc_out(chan, stmt, out); connect_htlc_out(htlcs_out, out); /* Cannot htlc_out_check because we haven't wired the * dependencies in yet */ outcount++; } sqlite3_finalize(stmt); log_debug(wallet->log, "Restored %d incoming and %d outgoing HTLCS", incount, outcount); return ok; } bool wallet_htlcs_reconnect(struct wallet *wallet, struct htlc_in_map *htlcs_in, struct htlc_out_map *htlcs_out) { struct htlc_in_map_iter ini; struct htlc_out_map_iter outi; struct htlc_in *hin; struct htlc_out *hout; for (hout = htlc_out_map_first(htlcs_out, &outi); hout; hout = htlc_out_map_next(htlcs_out, &outi)) { if (hout->origin_htlc_id == 0) { continue; } for (hin = htlc_in_map_first(htlcs_in, &ini); hin; hin = htlc_in_map_next(htlcs_in, &ini)) { if (hout->origin_htlc_id == hin->dbid) { log_debug(wallet->log, "Found corresponding htlc_in %" PRIu64 " for htlc_out %" PRIu64, hin->dbid, hout->dbid); hout->in = hin; break; } } if (!hout->in) { log_broken( wallet->log, "Unable to find corresponding htlc_in %"PRIu64" for htlc_out %"PRIu64, hout->origin_htlc_id, hout->dbid); } } return true; } /* Almost all wallet_invoice_* functions delegate to the * appropriate invoices_* function. */ bool wallet_invoice_load(struct wallet *wallet) { return invoices_load(wallet->invoices); } const struct invoice *wallet_invoice_create(struct wallet *wallet, u64 *msatoshi TAKES, const char *label TAKES, u64 expiry) { return invoices_create(wallet->invoices, msatoshi, label, expiry); } const struct invoice *wallet_invoice_find_by_label(struct wallet *wallet, const char *label) { return invoices_find_by_label(wallet->invoices, label); } const struct invoice *wallet_invoice_find_unpaid(struct wallet *wallet, const struct sha256 *rhash) { return invoices_find_unpaid(wallet->invoices, rhash); } bool wallet_invoice_delete(struct wallet *wallet, const struct invoice *invoice) { return invoices_delete(wallet->invoices, invoice); } const struct invoice *wallet_invoice_iterate(struct wallet *wallet, const struct invoice *invoice) { return invoices_iterate(wallet->invoices, invoice); } void wallet_invoice_resolve(struct wallet *wallet, const struct invoice *invoice, u64 msatoshi_received) { invoices_resolve(wallet->invoices, invoice, msatoshi_received); } void wallet_invoice_waitany(const tal_t *ctx, struct wallet *wallet, u64 lastpay_index, void (*cb)(const struct invoice *, void*), void *cbarg) { invoices_waitany(ctx, wallet->invoices, lastpay_index, cb, cbarg); } void wallet_invoice_waitone(const tal_t *ctx, struct wallet *wallet, struct invoice const *invoice, void (*cb)(const struct invoice *, void*), void *cbarg) { invoices_waitone(ctx, wallet->invoices, invoice, cb, cbarg); } struct htlc_stub *wallet_htlc_stubs(const tal_t *ctx, struct wallet *wallet, struct channel *chan) { struct htlc_stub *stubs; struct sha256 payment_hash; sqlite3_stmt *stmt = db_prepare(wallet->db, "SELECT channel_id, direction, cltv_expiry, payment_hash " "FROM channel_htlcs WHERE channel_id = ?;"); sqlite3_bind_int64(stmt, 1, chan->dbid); stubs = tal_arr(ctx, struct htlc_stub, 0); while (sqlite3_step(stmt) == SQLITE_ROW) { int n = tal_count(stubs); tal_resize(&stubs, n+1); assert(sqlite3_column_int64(stmt, 0) == chan->dbid); /* FIXME: merge these two enums */ stubs[n].owner = sqlite3_column_int(stmt, 1)==DIRECTION_INCOMING?REMOTE:LOCAL; stubs[n].cltv_expiry = sqlite3_column_int(stmt, 2); sqlite3_column_sha256(stmt, 3, &payment_hash); ripemd160(&stubs[n].ripemd, payment_hash.u.u8, sizeof(payment_hash.u)); } sqlite3_finalize(stmt); return stubs; } static struct wallet_payment * find_unstored_payment(struct wallet *wallet, const struct sha256 *payment_hash) { struct wallet_payment *i; list_for_each(&wallet->unstored_payments, i, list) { if (structeq(payment_hash, &i->payment_hash)) return i; } return NULL; } static void destroy_unstored_payment(struct wallet_payment *payment) { list_del(&payment->list); } void wallet_payment_setup(struct wallet *wallet, struct wallet_payment *payment) { assert(!find_unstored_payment(wallet, &payment->payment_hash)); list_add_tail(&wallet->unstored_payments, &payment->list); tal_add_destructor(payment, destroy_unstored_payment); } void wallet_payment_store(struct wallet *wallet, const struct sha256 *payment_hash) { sqlite3_stmt *stmt; struct wallet_payment *payment; payment = find_unstored_payment(wallet, payment_hash); assert(payment); /* Don't attempt to add the same payment twice */ assert(!payment->id); stmt = db_prepare( wallet->db, "INSERT INTO payments (" " status," " payment_hash," " destination," " msatoshi," " timestamp," " path_secrets," " route_nodes," " route_channels" ") VALUES (?, ?, ?, ?, ?, ?, ?, ?);"); sqlite3_bind_int(stmt, 1, payment->status); sqlite3_bind_sha256(stmt, 2, &payment->payment_hash); sqlite3_bind_pubkey(stmt, 3, &payment->destination); sqlite3_bind_int64(stmt, 4, payment->msatoshi); sqlite3_bind_int(stmt, 5, payment->timestamp); sqlite3_bind_blob(stmt, 6, payment->path_secrets, tal_len(payment->path_secrets), SQLITE_TRANSIENT); sqlite3_bind_pubkey_array(stmt, 7, payment->route_nodes); sqlite3_bind_short_channel_id_array(stmt, 8, payment->route_channels); db_exec_prepared(wallet->db, stmt); tal_free(payment); } void wallet_payment_delete(struct wallet *wallet, const struct sha256 *payment_hash) { sqlite3_stmt *stmt; struct wallet_payment *payment; payment = find_unstored_payment(wallet, payment_hash); if (payment) { tal_free(payment); return; } stmt = db_prepare( wallet->db, "DELETE FROM payments WHERE payment_hash = ?"); sqlite3_bind_sha256(stmt, 1, payment_hash); db_exec_prepared(wallet->db, stmt); } static struct wallet_payment *wallet_stmt2payment(const tal_t *ctx, sqlite3_stmt *stmt) { struct wallet_payment *payment = tal(ctx, struct wallet_payment); payment->id = sqlite3_column_int64(stmt, 0); payment->status = sqlite3_column_int(stmt, 1); sqlite3_column_pubkey(stmt, 2, &payment->destination); payment->msatoshi = sqlite3_column_int64(stmt, 3); sqlite3_column_sha256(stmt, 4, &payment->payment_hash); payment->timestamp = sqlite3_column_int(stmt, 5); if (sqlite3_column_type(stmt, 6) != SQLITE_NULL) { payment->payment_preimage = tal(payment, struct preimage); sqlite3_column_preimage(stmt, 6, payment->payment_preimage); } else payment->payment_preimage = NULL; /* Can be NULL for old db! */ payment->path_secrets = sqlite3_column_secrets(payment, stmt, 7); payment->route_nodes = sqlite3_column_pubkey_array(payment, stmt, 8); payment->route_channels = sqlite3_column_short_channel_id_array(payment, stmt, 9); return payment; } struct wallet_payment * wallet_payment_by_hash(const tal_t *ctx, struct wallet *wallet, const struct sha256 *payment_hash) { sqlite3_stmt *stmt; struct wallet_payment *payment; /* Present the illusion that it's in the db... */ payment = find_unstored_payment(wallet, payment_hash); if (payment) return payment; stmt = db_prepare(wallet->db, "SELECT id, status, destination," "msatoshi, payment_hash, timestamp, payment_preimage, " "path_secrets, route_nodes, route_channels " "FROM payments " "WHERE payment_hash = ?"); sqlite3_bind_sha256(stmt, 1, payment_hash); if (sqlite3_step(stmt) == SQLITE_ROW) { payment = wallet_stmt2payment(ctx, stmt); } sqlite3_finalize(stmt); return payment; } struct secret *wallet_payment_get_secrets(const tal_t *ctx, struct wallet *wallet, const struct sha256 *payment_hash) { sqlite3_stmt *stmt; struct secret *path_secrets = NULL; stmt = db_prepare(wallet->db, "SELECT path_secrets " "FROM payments " "WHERE payment_hash = ?"); sqlite3_bind_sha256(stmt, 1, payment_hash); if (sqlite3_step(stmt) == SQLITE_ROW) { path_secrets = sqlite3_column_secrets(ctx, stmt, 0); } sqlite3_finalize(stmt); return path_secrets; } void wallet_payment_set_status(struct wallet *wallet, const struct sha256 *payment_hash, const enum wallet_payment_status newstatus, const struct preimage *preimage) { sqlite3_stmt *stmt; struct wallet_payment *payment; /* We can only fail an unstored payment! */ payment = find_unstored_payment(wallet, payment_hash); if (payment) { assert(newstatus == PAYMENT_FAILED); tal_free(payment); return; } stmt = db_prepare(wallet->db, "UPDATE payments SET status=? " "WHERE payment_hash=?"); sqlite3_bind_int(stmt, 1, newstatus); sqlite3_bind_sha256(stmt, 2, payment_hash); db_exec_prepared(wallet->db, stmt); if (preimage) { stmt = db_prepare(wallet->db, "UPDATE payments SET payment_preimage=? " "WHERE payment_hash=?"); sqlite3_bind_preimage(stmt, 1, preimage); sqlite3_bind_sha256(stmt, 2, payment_hash); db_exec_prepared(wallet->db, stmt); } } const struct wallet_payment ** wallet_payment_list(const tal_t *ctx, struct wallet *wallet, const struct sha256 *payment_hash) { const struct wallet_payment **payments; sqlite3_stmt *stmt; struct wallet_payment *p; size_t i; payments = tal_arr(ctx, const struct wallet_payment *, 0); if (payment_hash) { stmt = db_prepare( wallet->db, "SELECT id, status, destination, " "msatoshi, payment_hash, timestamp, payment_preimage, " "path_secrets, route_nodes, route_channels " "FROM payments " "WHERE payment_hash = ?;"); sqlite3_bind_sha256(stmt, 1, payment_hash); } else { stmt = db_prepare( wallet->db, "SELECT id, status, destination, " "msatoshi, payment_hash, timestamp, payment_preimage, " "path_secrets, route_nodes, route_channels " "FROM payments;"); } for (i = 0; sqlite3_step(stmt) == SQLITE_ROW; i++) { tal_resize(&payments, i+1); payments[i] = wallet_stmt2payment(payments, stmt); } sqlite3_finalize(stmt); /* Now attach payments not yet in db. */ list_for_each(&wallet->unstored_payments, p, list) { if (payment_hash && !structeq(&p->payment_hash, payment_hash)) continue; tal_resize(&payments, i+1); payments[i++] = p; } return payments; } void wallet_htlc_sigs_save(struct wallet *w, u64 channel_id, secp256k1_ecdsa_signature *htlc_sigs) { /* Clear any existing HTLC sigs for this channel */ sqlite3_stmt *stmt = db_prepare(w->db, "DELETE FROM htlc_sigs WHERE channelid = ?"); sqlite3_bind_int64(stmt, 1, channel_id); db_exec_prepared(w->db, stmt); /* Now insert the new ones */ for (size_t i=0; idb, "INSERT INTO htlc_sigs (channelid, signature) VALUES (?, ?)"); sqlite3_bind_int64(stmt, 1, channel_id); sqlite3_bind_signature(stmt, 2, &htlc_sigs[i]); db_exec_prepared(w->db, stmt); } } bool wallet_network_check(struct wallet *w, const struct chainparams *chainparams) { sqlite3_stmt *stmt = db_query(__func__, w->db, "SELECT val FROM vars WHERE name='genesis_hash'"); struct bitcoin_blkid chainhash; if (stmt && sqlite3_step(stmt) == SQLITE_ROW) { sqlite3_column_sha256_double(stmt, 0, &chainhash.shad); sqlite3_finalize(stmt); if (!structeq(&chainhash, &chainparams->genesis_blockhash)) { log_broken(w->log, "Wallet blockchain hash does not " "match network blockchain hash: %s " "!= %s", type_to_string(w, struct bitcoin_blkid, &chainhash), type_to_string(w, struct bitcoin_blkid, &chainparams->genesis_blockhash)); return false; } } else { /* Still a pristine wallet, claim it for the chain * that we are running */ sqlite3_finalize(stmt); stmt = db_prepare(w->db, "INSERT INTO vars (name, val) VALUES ('genesis_hash', ?);"); sqlite3_bind_sha256_double(stmt, 1, &chainparams->genesis_blockhash.shad); db_exec_prepared(w->db, stmt); } return true; }