#include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Access via get_gossmap() */ static struct gossmap *global_gossmap; static struct node_id local_id; static struct plugin *plugin; /* We load this on demand, since we can start before gossipd. */ static struct gossmap *get_gossmap(void) { gossmap_refresh(global_gossmap, NULL); return global_gossmap; } /* Convenience global since route_score_fuzz doesn't take args. 0 to 1. */ static double fuzz; /* Prioritize costs over distance, but with fuzz. Cost must be * the same when the same channel queried, so we base it on that. */ static u64 route_score_fuzz(u32 distance, struct amount_msat cost, struct amount_msat risk, int dir UNUSED, const struct gossmap_chan *c) { u64 costs = cost.millisatoshis + risk.millisatoshis; /* Raw: score */ /* Use the literal pointer, since it's stable. */ u64 h = siphash24(siphash_seed(), &c, sizeof(c)); /* Use distance as the tiebreaker */ costs += distance; /* h / (UINT64_MAX / 2.0) is between 0 and 2. */ costs *= (h / (double)(UINT64_MAX / 2) - 1) * fuzz; return costs; } static bool can_carry(const struct gossmap *map, const struct gossmap_chan *c, int dir, struct amount_msat amount, struct route_exclusion **excludes) { struct node_id dstid; /* First do generic check */ if (!route_can_carry(map, c, dir, amount, NULL)) { return false; } /* Now check exclusions. Premature optimization: */ if (!tal_count(excludes)) { return true; } gossmap_node_get_id(map, gossmap_nth_node(map, c, !dir), &dstid); for (size_t i = 0; i < tal_count(excludes); i++) { struct short_channel_id scid; switch (excludes[i]->type) { case EXCLUDE_CHANNEL: scid = gossmap_chan_scid(map, c); if (short_channel_id_eq(&excludes[i]->u.chan_id.scid, &scid) && dir == excludes[i]->u.chan_id.dir) return false; continue; case EXCLUDE_NODE: if (node_id_eq(&dstid, &excludes[i]->u.node_id)) return false; continue; } /* No other cases should be possible! */ plugin_err(plugin, "Invalid type %i in exclusion[%zu]", excludes[i]->type, i); } return true; } /* Output a route hop */ static void json_add_route_hop(struct json_stream *js, const char *fieldname, const struct route_hop *r) { /* Imitate what getroute/sendpay use */ json_object_start(js, fieldname); json_add_node_id(js, "id", &r->node_id); json_add_short_channel_id(js, "channel", &r->scid); json_add_num(js, "direction", r->direction); json_add_amount_msat_compat(js, r->amount, "msatoshi", "amount_msat"); json_add_num(js, "delay", r->delay); json_add_string(js, "style", "tlv"); json_object_end(js); } static struct command_result *json_getroute(struct command *cmd, const char *buffer, const jsmntok_t *params) { struct node_id *destination; struct node_id *source; struct amount_msat *msat; u32 *cltv; /* risk factor 12.345% -> riskfactor_millionths = 12345000 */ u64 *riskfactor_millionths, *fuzz_millionths; struct route_exclusion **excluded; u32 *max_hops; const struct dijkstra *dij; struct route_hop *route; struct gossmap_node *src, *dst; struct json_stream *js; struct gossmap *gossmap; if (!param(cmd, buffer, params, p_req("id", param_node_id, &destination), p_req("amount_msat|msatoshi", param_msat, &msat), p_req("riskfactor", param_millionths, &riskfactor_millionths), p_opt_def("cltv", param_number, &cltv, 9), p_opt_def("fromid", param_node_id, &source, local_id), p_opt_def("fuzzpercent", param_millionths, &fuzz_millionths, 5000000), p_opt("exclude", param_route_exclusion_array, &excluded), p_opt_def("maxhops", param_number, &max_hops, ROUTING_MAX_HOPS), NULL)) return command_param_failed(); /* Convert from percentage */ fuzz = *fuzz_millionths / 100.0 / 1000000.0; if (fuzz > 1.0) return command_fail_badparam(cmd, "fuzzpercent", buffer, params, "should be <= 100"); gossmap = get_gossmap(); src = gossmap_find_node(gossmap, source); if (!src) return command_fail(cmd, JSONRPC2_INVALID_PARAMS, "%s: unknown source node_id (no public channels?)", type_to_string(tmpctx, struct node_id, source)); dst = gossmap_find_node(gossmap, destination); if (!dst) return command_fail(cmd, JSONRPC2_INVALID_PARAMS, "%s: unknown destination node_id (no public channels?)", type_to_string(tmpctx, struct node_id, destination)); fuzz = 0; dij = dijkstra(tmpctx, gossmap, dst, *msat, *riskfactor_millionths / 1000000.0, can_carry, route_score_fuzz, excluded); route = route_from_dijkstra(dij, gossmap, dij, src, *msat, *cltv); if (!route) return command_fail(cmd, PAY_ROUTE_NOT_FOUND, "Could not find a route"); /* If it's too far, fall back to using shortest path. */ if (tal_count(route) > *max_hops) { plugin_notify_message(cmd, LOG_INFORM, "Cheapest route %zu hops: seeking shorter (no fuzz)", tal_count(route)); dij = dijkstra(tmpctx, gossmap, dst, *msat, *riskfactor_millionths / 1000000.0, can_carry, route_score_shorter, excluded); route = route_from_dijkstra(dij, gossmap, dij, src, *msat, *cltv); if (tal_count(route) > *max_hops) return command_fail(cmd, PAY_ROUTE_NOT_FOUND, "Shortest route was %zu", tal_count(route)); } js = jsonrpc_stream_success(cmd); json_array_start(js, "route"); for (size_t i = 0; i < tal_count(route); i++) { json_add_route_hop(js, NULL, &route[i]); } json_array_end(js); return command_finished(cmd, js); } static const struct node_id *node_id_keyof(const struct node_id *id) { return id; } static size_t node_id_hash(const struct node_id *id) { return siphash24(siphash_seed(), id->k, sizeof(id->k)); } HTABLE_DEFINE_TYPE(struct node_id, node_id_keyof, node_id_hash, node_id_eq, node_map); /* To avoid multiple fetches, we represent directions as a bitmap * so we can do two at once. */ static void json_add_halfchan(struct json_stream *response, struct gossmap *gossmap, const struct node_map *connected, const struct gossmap_chan *c, int dirbits) { struct short_channel_id scid; struct node_id node_id[2]; const u8 *chanfeatures; struct amount_sat capacity; bool local_disable; /* These are channel (not per-direction) properties */ chanfeatures = gossmap_chan_get_features(tmpctx, gossmap, c); scid = gossmap_chan_scid(gossmap, c); for (size_t i = 0; i < 2; i++) gossmap_node_get_id(gossmap, gossmap_nth_node(gossmap, c, i), &node_id[i]); /* This can theoretically happen on partial write races. */ if (!gossmap_chan_get_capacity(gossmap, c, &capacity)) capacity = AMOUNT_SAT(0); /* Local channels are not "active" unless peer is connected. */ if (node_id_eq(&node_id[0], &local_id)) local_disable = !node_map_get(connected, &node_id[1]); else if (node_id_eq(&node_id[1], &local_id)) local_disable = !node_map_get(connected, &node_id[0]); else local_disable = false; for (int dir = 0; dir < 2; dir++) { u32 timestamp; u8 message_flags, channel_flags; u32 fee_base_msat, fee_proportional_millionths; struct amount_msat htlc_minimum_msat, htlc_maximum_msat; if (!((1 << dir) & dirbits)) continue; if (!gossmap_chan_set(c, dir)) continue; json_object_start(response, NULL); json_add_node_id(response, "source", &node_id[dir]); json_add_node_id(response, "destination", &node_id[!dir]); json_add_short_channel_id(response, "short_channel_id", &scid); json_add_bool(response, "public", !c->private); gossmap_chan_get_update_details(gossmap, c, dir, ×tamp, &message_flags, &channel_flags, &fee_base_msat, &fee_proportional_millionths, &htlc_minimum_msat, &htlc_maximum_msat); json_add_amount_sat_compat(response, capacity, "satoshis", "amount_msat"); json_add_num(response, "message_flags", message_flags); json_add_num(response, "channel_flags", channel_flags); json_add_bool(response, "active", c->half[dir].enabled && !local_disable); json_add_num(response, "last_update", timestamp); json_add_num(response, "base_fee_millisatoshi", fee_base_msat); json_add_num(response, "fee_per_millionth", fee_proportional_millionths); json_add_num(response, "delay", c->half[dir].delay); json_add_amount_msat_only(response, "htlc_minimum_msat", htlc_minimum_msat); /* We used to always print this, but that's weird */ if (deprecated_apis && !(message_flags & 1)) { if (!amount_sat_to_msat(&htlc_maximum_msat, capacity)) plugin_err(plugin, "Channel with impossible capacity %s", type_to_string(tmpctx, struct amount_sat, &capacity)); message_flags = 1; } if (message_flags & 1) json_add_amount_msat_only(response, "htlc_maximum_msat", htlc_maximum_msat); json_add_hex_talarr(response, "features", chanfeatures); json_object_end(response); } } struct listchannels_opts { struct node_id *source; struct node_id *destination; struct short_channel_id *scid; }; /* We record which local channels are valid; we could record which are * invalid, but our testsuite has some weirdness where it has local * channels in the store it knows nothing about. */ static struct node_map *local_connected(const tal_t *ctx, const char *buf, const jsmntok_t *result) { size_t i; const jsmntok_t *t, *peers = json_get_member(buf, result, "peers"); struct node_map *connected = tal(ctx, struct node_map); node_map_init(connected); json_for_each_arr(i, t, peers) { const jsmntok_t *chans, *c; struct node_id id; bool is_connected, normal_chan; const char *err; size_t j; err = json_scan(tmpctx, buf, t, "{id:%,connected:%}", JSON_SCAN(json_to_node_id, &id), JSON_SCAN(json_to_bool, &is_connected)); if (err) plugin_err(plugin, "Bad listpeers response (%s): %.*s", err, json_tok_full_len(result), json_tok_full(buf, result)); if (!is_connected) continue; /* Must also have a channel in CHANNELD_NORMAL */ normal_chan = false; chans = json_get_member(buf, t, "channels"); json_for_each_arr(j, c, chans) { if (json_tok_streq(buf, json_get_member(buf, c, "state"), "CHANNELD_NORMAL")) normal_chan = true; } if (normal_chan) node_map_add(connected, tal_dup(connected, struct node_id, &id)); } return connected; } /* We want to combine local knowledge to we know which are actually inactive! */ static struct command_result *listpeers_done(struct command *cmd, const char *buf, const jsmntok_t *result, struct listchannels_opts *opts) { struct node_map *connected; struct gossmap_chan *c; struct json_stream *js; struct gossmap *gossmap = get_gossmap(); connected = local_connected(opts, buf, result); js = jsonrpc_stream_success(cmd); json_array_start(js, "channels"); if (opts->scid) { c = gossmap_find_chan(gossmap, opts->scid); if (c) json_add_halfchan(js, gossmap, connected, c, 3); } else if (opts->source) { struct gossmap_node *src; src = gossmap_find_node(gossmap, opts->source); if (src) { for (size_t i = 0; i < src->num_chans; i++) { int dir; c = gossmap_nth_chan(gossmap, src, i, &dir); json_add_halfchan(js, gossmap, connected, c, 1 << dir); } } } else if (opts->destination) { struct gossmap_node *dst; dst = gossmap_find_node(gossmap, opts->destination); if (dst) { for (size_t i = 0; i < dst->num_chans; i++) { int dir; c = gossmap_nth_chan(gossmap, dst, i, &dir); json_add_halfchan(js, gossmap, connected, c, 1 << !dir); } } } else { for (c = gossmap_first_chan(gossmap); c; c = gossmap_next_chan(gossmap, c)) { json_add_halfchan(js, gossmap, connected, c, 3); } } json_array_end(js); return command_finished(cmd, js); } static struct command_result *json_listchannels(struct command *cmd, const char *buffer, const jsmntok_t *params) { struct listchannels_opts *opts = tal(cmd, struct listchannels_opts); struct out_req *req; if (!param(cmd, buffer, params, p_opt("short_channel_id", param_short_channel_id, &opts->scid), p_opt("source", param_node_id, &opts->source), p_opt("destination", param_node_id, &opts->destination), NULL)) return command_param_failed(); if (!!opts->scid + !!opts->source + !!opts->destination > 1) return command_fail(cmd, JSONRPC2_INVALID_PARAMS, "Can only specify one of " "`short_channel_id`, " "`source` or `destination`"); req = jsonrpc_request_start(cmd->plugin, cmd, "listpeers", listpeers_done, forward_error, opts); return send_outreq(cmd->plugin, req); } static void json_add_node(struct json_stream *js, const struct gossmap *gossmap, const struct gossmap_node *n) { struct node_id node_id; u8 *nannounce; json_object_start(js, NULL); gossmap_node_get_id(gossmap, n, &node_id); json_add_node_id(js, "nodeid", &node_id); nannounce = gossmap_node_get_announce(tmpctx, gossmap, n); if (nannounce) { secp256k1_ecdsa_signature signature; u8 *features; u32 timestamp; u8 rgb_color[3], alias[32]; u8 *addresses; struct node_id nid; struct wireaddr *addrs; struct json_escape *esc; struct tlv_node_ann_tlvs *na_tlvs; if (!fromwire_node_announcement(nannounce, nannounce, &signature, &features, ×tamp, &nid, rgb_color, alias, &addresses, &na_tlvs)) { plugin_log(plugin, LOG_BROKEN, "Cannot parse stored node_announcement" " for %s at %u: %s", type_to_string(tmpctx, struct node_id, &node_id), n->nann_off, tal_hex(tmpctx, nannounce)); goto out; } esc = json_escape(NULL, take(tal_strndup(NULL, (const char *)alias, ARRAY_SIZE(alias)))); json_add_escaped_string(js, "alias", take(esc)); json_add_hex(js, "color", rgb_color, ARRAY_SIZE(rgb_color)); json_add_u64(js, "last_timestamp", timestamp); json_add_hex_talarr(js, "features", features); json_array_start(js, "addresses"); addrs = fromwire_wireaddr_array(nannounce, addresses); for (size_t i = 0; i < tal_count(addrs); i++) json_add_address(js, NULL, &addrs[i]); json_array_end(js); if (na_tlvs->option_will_fund) { json_object_start(js, "option_will_fund"); json_add_lease_rates(js, na_tlvs->option_will_fund); /* As a convenience, add a hexstring version * of this info */ json_add_string(js, "compact_lease", lease_rates_tohex(tmpctx, na_tlvs->option_will_fund)); json_object_end(js); } } out: json_object_end(js); } static struct command_result *json_listnodes(struct command *cmd, const char *buffer, const jsmntok_t *params) { struct node_id *id; struct json_stream *js; struct gossmap *gossmap; if (!param(cmd, buffer, params, p_opt("id", param_node_id, &id), NULL)) return command_param_failed(); gossmap = get_gossmap(); js = jsonrpc_stream_success(cmd); json_array_start(js, "nodes"); if (id) { struct gossmap_node *n = gossmap_find_node(gossmap, id); if (n) json_add_node(js, gossmap, n); } else { for (struct gossmap_node *n = gossmap_first_node(gossmap); n; n = gossmap_next_node(gossmap, n)) { json_add_node(js, gossmap, n); } } json_array_end(js); return command_finished(cmd, js); } /* What is capacity of peer attached to chan #n? */ static struct amount_msat peer_capacity(const struct gossmap *gossmap, const struct gossmap_node *me, const struct gossmap_node *peer, const struct gossmap_chan *ourchan) { struct amount_msat capacity = AMOUNT_MSAT(0); for (size_t i = 0; i < peer->num_chans; i++) { int dir; struct gossmap_chan *c; c = gossmap_nth_chan(gossmap, peer, i, &dir); if (c == ourchan) continue; if (!c->half[!dir].enabled) continue; if (!amount_msat_add( &capacity, capacity, amount_msat(fp16_to_u64(c->half[!dir].htlc_max)))) continue; } return capacity; } static struct command_result *json_listincoming(struct command *cmd, const char *buffer, const jsmntok_t *params) { struct json_stream *js; struct gossmap_node *me; struct gossmap *gossmap; if (!param(cmd, buffer, params, NULL)) return command_param_failed(); gossmap = get_gossmap(); js = jsonrpc_stream_success(cmd); json_array_start(js, "incoming"); me = gossmap_find_node(gossmap, &local_id); if (!me) goto done; for (size_t i = 0; i < me->num_chans; i++) { struct node_id peer_id; int dir; struct gossmap_chan *ourchan; struct gossmap_node *peer; struct short_channel_id scid; ourchan = gossmap_nth_chan(gossmap, me, i, &dir); /* If its half is disabled, ignore. */ if (!ourchan->half[!dir].enabled) continue; peer = gossmap_nth_node(gossmap, ourchan, !dir); scid = gossmap_chan_scid(gossmap, ourchan); json_object_start(js, NULL); gossmap_node_get_id(gossmap, peer, &peer_id); json_add_node_id(js, "id", &peer_id); json_add_short_channel_id(js, "short_channel_id", &scid); json_add_amount_msat_only(js, "fee_base_msat", amount_msat(ourchan->half[!dir] .base_fee)); json_add_amount_msat_only(js, "htlc_max_msat", amount_msat(fp16_to_u64(ourchan->half[!dir] .htlc_max))); json_add_u32(js, "fee_proportional_millionths", ourchan->half[!dir].proportional_fee); json_add_u32(js, "cltv_expiry_delta", ourchan->half[!dir].delay); json_add_amount_msat_only(js, "incoming_capacity_msat", peer_capacity(gossmap, me, peer, ourchan)); json_object_end(js); } done: json_array_end(js); return command_finished(cmd, js); } #if DEVELOPER static void memleak_mark(struct plugin *p, struct htable *memtable) { memleak_remove_region(memtable, global_gossmap, tal_bytelen(global_gossmap)); } #endif static const char *init(struct plugin *p, const char *buf UNUSED, const jsmntok_t *config UNUSED) { size_t num_cupdates_rejected; plugin = p; rpc_scan(p, "getinfo", take(json_out_obj(NULL, NULL, NULL)), "{id:%}", JSON_SCAN(json_to_node_id, &local_id)); global_gossmap = gossmap_load(NULL, GOSSIP_STORE_FILENAME, &num_cupdates_rejected); if (!global_gossmap) plugin_err(plugin, "Could not load gossmap %s: %s", GOSSIP_STORE_FILENAME, strerror(errno)); if (num_cupdates_rejected) plugin_log(plugin, LOG_DBG, "gossmap ignored %zu channel updates", num_cupdates_rejected); #if DEVELOPER plugin_set_memleak_handler(p, memleak_mark); #endif return NULL; } static const struct plugin_command commands[] = { { "getroute", "channels", "Primitive route command", "Show route to {id} for {msatoshi}, using {riskfactor} and optional {cltv} (default 9). " "If specified search from {fromid} otherwise use this node as source. " "Randomize the route with up to {fuzzpercent} (default 5.0). " "{exclude} an array of short-channel-id/direction (e.g. [ '564334x877x1/0', '564195x1292x0/1' ]) " "or node-id from consideration. " "Set the {maxhops} the route can take (default 20).", json_getroute, }, { "listchannels", "channels", "List all known channels in the network", "Show channels for {short_channel_id}, {source} or {destination} " "(or all known channels, if not specified)", json_listchannels, }, { "listnodes", "network", "List all known nodes in the network", "Show node {id} (or all known nods, if not specified)", json_listnodes, }, { "listincoming", "network", "List the channels incoming from our direct peers", "Used by invoice code to select peers for routehints", json_listincoming, }, }; int main(int argc, char *argv[]) { setup_locale(); plugin_main(argv, init, PLUGIN_STATIC, true, NULL, commands, ARRAY_SIZE(commands), NULL, 0, NULL, 0, NULL, 0, NULL); }