/* We can't seem to route the following: * * Expect route 03c173897878996287a8100469f954dd820fcd8941daed91c327f168f3329be0bf -> 0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae -> 02ea622d5c8d6143f15ed3ce1d501dd0d3d09d3b1c83a44d0034949f8a9ab60f06 * * getchannels: * {'channels': [{'active': True, 'short_id': '6990x2x1/1', 'fee_per_kw': 10, 'delay': 5, 'message_flags': 0, 'channel_flags': 1, 'destination': '0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae', 'source': '02ea622d5c8d6143f15ed3ce1d501dd0d3d09d3b1c83a44d0034949f8a9ab60f06', 'last_update': 1504064344}, {'active': True, 'short_id': '6989x2x1/0', 'fee_per_kw': 10, 'delay': 5, 'message_flags': 0, 'channel_flags': 0, 'destination': '03c173897878996287a8100469f954dd820fcd8941daed91c327f168f3329be0bf', 'source': '0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae', 'last_update': 1504064344}, {'active': True, 'short_id': '6990x2x1/0', 'fee_per_kw': 10, 'delay': 5, 'message_flags': 0, 'channel_flags': 0, 'destination': '02ea622d5c8d6143f15ed3ce1d501dd0d3d09d3b1c83a44d0034949f8a9ab60f06', 'source': '0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae', 'last_update': 1504064344}, {'active': True, 'short_id': '6989x2x1/1', 'fee_per_kw': 10, 'delay': 5, 'message_flags': 0, 'channel_flags': 1, 'destination': '0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae', 'source': '03c173897878996287a8100469f954dd820fcd8941daed91c327f168f3329be0bf', 'last_update': 1504064344}]} */ #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include /* AUTOGENERATED MOCKS START */ /* Generated stub for fromwire_bigsize */ bigsize_t fromwire_bigsize(const u8 **cursor UNNEEDED, size_t *max UNNEEDED) { fprintf(stderr, "fromwire_bigsize called!\n"); abort(); } /* Generated stub for fromwire_channel_id */ bool fromwire_channel_id(const u8 **cursor UNNEEDED, size_t *max UNNEEDED, struct channel_id *channel_id UNNEEDED) { fprintf(stderr, "fromwire_channel_id called!\n"); abort(); } /* Generated stub for fromwire_tlv */ bool fromwire_tlv(const u8 **cursor UNNEEDED, size_t *max UNNEEDED, const struct tlv_record_type *types UNNEEDED, size_t num_types UNNEEDED, void *record UNNEEDED, struct tlv_field **fields UNNEEDED, const u64 *extra_types UNNEEDED, size_t *err_off UNNEEDED, u64 *err_type UNNEEDED) { fprintf(stderr, "fromwire_tlv called!\n"); abort(); } /* Generated stub for fromwire_wireaddr */ bool fromwire_wireaddr(const u8 **cursor UNNEEDED, size_t *max UNNEEDED, struct wireaddr *addr UNNEEDED) { fprintf(stderr, "fromwire_wireaddr called!\n"); abort(); } /* Generated stub for towire_bigsize */ void towire_bigsize(u8 **pptr UNNEEDED, const bigsize_t val UNNEEDED) { fprintf(stderr, "towire_bigsize called!\n"); abort(); } /* Generated stub for towire_channel_id */ void towire_channel_id(u8 **pptr UNNEEDED, const struct channel_id *channel_id UNNEEDED) { fprintf(stderr, "towire_channel_id called!\n"); abort(); } /* Generated stub for towire_tlv */ void towire_tlv(u8 **pptr UNNEEDED, const struct tlv_record_type *types UNNEEDED, size_t num_types UNNEEDED, const void *record UNNEEDED) { fprintf(stderr, "towire_tlv called!\n"); abort(); } /* Generated stub for towire_wireaddr */ void towire_wireaddr(u8 **pptr UNNEEDED, const struct wireaddr *addr UNNEEDED) { fprintf(stderr, "towire_wireaddr called!\n"); abort(); } /* Generated stub for type_to_string_ */ const char *type_to_string_(const tal_t *ctx UNNEEDED, const char *typename UNNEEDED, union printable_types u UNNEEDED) { fprintf(stderr, "type_to_string_ called!\n"); abort(); } /* AUTOGENERATED MOCKS END */ static void write_to_store(int store_fd, const u8 *msg) { struct gossip_hdr hdr; hdr.len = cpu_to_be32(tal_count(msg)); /* We don't actually check these! */ hdr.crc = 0; hdr.timestamp = 0; assert(write(store_fd, &hdr, sizeof(hdr)) == sizeof(hdr)); assert(write(store_fd, msg, tal_count(msg)) == tal_count(msg)); } static void update_connection(int store_fd, const struct node_id *from, const struct node_id *to, const char *shortid, struct amount_msat min, struct amount_msat max, u32 base_fee, s32 proportional_fee, u32 delay, bool disable) { struct short_channel_id scid; secp256k1_ecdsa_signature dummy_sig; u8 *msg; /* So valgrind doesn't complain */ memset(&dummy_sig, 0, sizeof(dummy_sig)); if (!short_channel_id_from_str(shortid, strlen(shortid), &scid)) abort(); msg = towire_channel_update_option_channel_htlc_max(tmpctx, &dummy_sig, &chainparams->genesis_blockhash, &scid, 0, ROUTING_OPT_HTLC_MAX_MSAT, node_id_idx(from, to) + (disable ? ROUTING_FLAGS_DISABLED : 0), delay, min, base_fee, proportional_fee, max); write_to_store(store_fd, msg); } static void add_connection(int store_fd, const struct node_id *from, const struct node_id *to, const char *shortid, struct amount_msat min, struct amount_msat max, u32 base_fee, s32 proportional_fee, u32 delay) { struct short_channel_id scid; secp256k1_ecdsa_signature dummy_sig; struct secret not_a_secret; struct pubkey dummy_key; u8 *msg; const struct node_id *ids[2]; /* So valgrind doesn't complain */ memset(&dummy_sig, 0, sizeof(dummy_sig)); memset(¬_a_secret, 1, sizeof(not_a_secret)); pubkey_from_secret(¬_a_secret, &dummy_key); if (!short_channel_id_from_str(shortid, strlen(shortid), &scid)) abort(); if (node_id_cmp(from, to) > 0) { ids[0] = to; ids[1] = from; } else { ids[0] = from; ids[1] = to; } msg = towire_channel_announcement(tmpctx, &dummy_sig, &dummy_sig, &dummy_sig, &dummy_sig, /* features */ NULL, &chainparams->genesis_blockhash, &scid, ids[0], ids[1], &dummy_key, &dummy_key); write_to_store(store_fd, msg); update_connection(store_fd, from, to, shortid, min, max, base_fee, proportional_fee, delay, false); } static bool channel_is_between(const struct gossmap *gossmap, const struct route_hop *route, const struct gossmap_node *a, const struct gossmap_node *b) { const struct gossmap_chan *c = gossmap_find_chan(gossmap, &route->scid); if (c->half[route->direction].nodeidx != gossmap_node_idx(gossmap, a)) return false; if (c->half[!route->direction].nodeidx != gossmap_node_idx(gossmap, b)) return false; return true; } /* route_can_carry disregards unless *both* dirs are enabled, so we use * a simpler variant here */ static bool route_can_carry_unless_disabled(const struct gossmap *map, const struct gossmap_chan *c, int dir, struct amount_msat amount, void *arg) { if (!c->half[dir].enabled) return false; return route_can_carry_even_disabled(map, c, dir, amount, arg); } int main(int argc, char *argv[]) { struct node_id a, b, c, d; struct gossmap_node *a_node, *b_node, *c_node, *d_node; const struct dijkstra *dij; struct route_hop *route; int store_fd; struct gossmap *gossmap; const double riskfactor = 1.0; char gossip_version = GOSSIP_STORE_VERSION; char *gossipfilename; common_setup(argv[0]); node_id_from_hexstr("03c173897878996287a8100469f954dd820fcd8941daed91c327f168f3329be0bf", strlen("03c173897878996287a8100469f954dd820fcd8941daed91c327f168f3329be0bf"), &a); node_id_from_hexstr("0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae", strlen("0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae"), &b); node_id_from_hexstr("02ea622d5c8d6143f15ed3ce1d501dd0d3d09d3b1c83a44d0034949f8a9ab60f06", strlen("02ea622d5c8d6143f15ed3ce1d501dd0d3d09d3b1c83a44d0034949f8a9ab60f06"), &c); node_id_from_hexstr("02cca6c5c966fcf61d121e3a70e03a1cd9eeeea024b26ea666ce974d43b242e636", strlen("02cca6c5c966fcf61d121e3a70e03a1cd9eeeea024b26ea666ce974d43b242e636"), &d); chainparams = chainparams_for_network("regtest"); store_fd = tmpdir_mkstemp(tmpctx, "run-route-specific-gossipstore.XXXXXX", &gossipfilename); assert(write(store_fd, &gossip_version, sizeof(gossip_version)) == sizeof(gossip_version)); gossmap = gossmap_load(tmpctx, gossipfilename, NULL); /* [{'active': True, 'short_id': '6990:2:1/1', 'fee_per_kw': 10, 'delay': 5, 'message_flags': 0, 'channel_flags': 1, 'destination': '0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae', 'source': '02ea622d5c8d6143f15ed3ce1d501dd0d3d09d3b1c83a44d0034949f8a9ab60f06', 'last_update': 1504064344}, */ add_connection(store_fd, &c, &b, "6990x2x1", AMOUNT_MSAT(0), AMOUNT_MSAT(1000), 0, 10, 5); /* {'active': True, 'short_id': '6989:2:1/0', 'fee_per_kw': 10, 'delay': 5, 'message_flags': 0, 'channel_flags': 0, 'destination': '03c173897878996287a8100469f954dd820fcd8941daed91c327f168f3329be0bf', 'source': '0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae', 'last_update': 1504064344}, */ add_connection(store_fd, &b, &a, "6989x2x1", AMOUNT_MSAT(0), AMOUNT_MSAT(1000), 0, 10, 5); /* {'active': True, 'short_id': '6990:2:1/0', 'fee_per_kw': 10, 'delay': 5, 'message_flags': 0, 'channel_flags': 0, 'destination': '02ea622d5c8d6143f15ed3ce1d501dd0d3d09d3b1c83a44d0034949f8a9ab60f06', 'source': '0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae', 'last_update': 1504064344}, */ add_connection(store_fd, &b, &c, "6990x2x1", AMOUNT_MSAT(100), AMOUNT_MSAT(1000), 0, 10, 5); /* {'active': True, 'short_id': '6989:2:1/1', 'fee_per_kw': 10, 'delay': 5, 'message_flags': 0, 'channel_flags': 1, 'destination': '0230ad0e74ea03976b28fda587bb75bdd357a1938af4424156a18265167f5e40ae', 'source': '03c173897878996287a8100469f954dd820fcd8941daed91c327f168f3329be0bf', 'last_update': 1504064344}]} */ update_connection(store_fd, &a, &b, "6989x2x1", AMOUNT_MSAT(0), AMOUNT_MSAT(1000), 0, 10, 5, false); assert(gossmap_refresh(gossmap, NULL)); a_node = gossmap_find_node(gossmap, &a); b_node = gossmap_find_node(gossmap, &b); c_node = gossmap_find_node(gossmap, &c); dij = dijkstra(tmpctx, gossmap, c_node, AMOUNT_MSAT(1000), riskfactor, route_can_carry_unless_disabled, route_score_cheaper, NULL); route = route_from_dijkstra(tmpctx, gossmap, dij, a_node, AMOUNT_MSAT(1000), 0); assert(route); assert(tal_count(route) == 2); assert(channel_is_between(gossmap, &route[0], a_node, b_node)); assert(channel_is_between(gossmap, &route[1], b_node, c_node)); /* We should not be able to find a route that exceeds our own capacity */ dij = dijkstra(tmpctx, gossmap, c_node, AMOUNT_MSAT(1000001), riskfactor, route_can_carry_unless_disabled, route_score_cheaper, NULL); route = route_from_dijkstra(tmpctx, gossmap, dij, a_node, AMOUNT_MSAT(1000), 0); assert(!route); /* Now test with a query that exceeds the channel capacity after adding * some fees */ dij = dijkstra(tmpctx, gossmap, c_node, AMOUNT_MSAT(999999), riskfactor, route_can_carry_unless_disabled, route_score_cheaper, NULL); route = route_from_dijkstra(tmpctx, gossmap, dij, a_node, AMOUNT_MSAT(999999), 0); assert(!route); /* This should fail to return a route because it is smaller than these * htlc_minimum_msat on the last channel. */ dij = dijkstra(tmpctx, gossmap, c_node, AMOUNT_MSAT(1), riskfactor, route_can_carry_unless_disabled, route_score_cheaper, NULL); route = route_from_dijkstra(tmpctx, gossmap, dij, a_node, AMOUNT_MSAT(1), 0); assert(!route); /* {'active': True, 'short_id': '6990:2:1/0', 'fee_per_kw': 10, 'delay': 5, 'message_flags': 1, 'htlc_maximum_msat': 500000, 'htlc_minimum_msat': 100, 'channel_flags': 0, 'destination': '02cca6c5c966fcf61d121e3a70e03a1cd9eeeea024b26ea666ce974d43b242e636', 'source': '03c173897878996287a8100469f954dd820fcd8941daed91c327f168f3329be0bf', 'last_update': 1504064344}, */ add_connection(store_fd, &a, &d, "6991x2x1", AMOUNT_MSAT(100), AMOUNT_MSAT(499968), /* exact repr in fp16! */ 0, 0, 5); assert(gossmap_refresh(gossmap, NULL)); a_node = gossmap_find_node(gossmap, &a); b_node = gossmap_find_node(gossmap, &b); c_node = gossmap_find_node(gossmap, &c); d_node = gossmap_find_node(gossmap, &d); /* This should route correctly at the max_msat level */ dij = dijkstra(tmpctx, gossmap, d_node, AMOUNT_MSAT(499968), riskfactor, route_can_carry_unless_disabled, route_score_cheaper, NULL); route = route_from_dijkstra(tmpctx, gossmap, dij, a_node, AMOUNT_MSAT(499968), 0); assert(route); /* This should fail to return a route because it's larger than the * htlc_maximum_msat on the last channel. */ dij = dijkstra(tmpctx, gossmap, d_node, AMOUNT_MSAT(499968+1), riskfactor, route_can_carry_unless_disabled, route_score_cheaper, NULL); route = route_from_dijkstra(tmpctx, gossmap, dij, a_node, AMOUNT_MSAT(499968+1), 0); assert(!route); common_shutdown(); return 0; }