#include "gossip_control.h" #include "hsm_control.h" #include "lightningd.h" #include "peer_control.h" #include "subd.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include char *bitcoin_datadir; #define FIXME_IMPLEMENT() errx(1, "FIXME: Implement %s", __func__) /* FIXME: Implement */ struct invoices *invoices_init(struct lightningd_state *dstate) { return NULL; } struct peer *find_peer(struct lightningd_state *dstate, const struct pubkey *id); struct peer *find_peer(struct lightningd_state *dstate, const struct pubkey *id) { FIXME_IMPLEMENT(); } void peer_debug(struct peer *peer, const char *fmt, ...); void peer_debug(struct peer *peer, const char *fmt, ...) { FIXME_IMPLEMENT(); } void debug_dump_peers(struct lightningd_state *dstate); void debug_dump_peers(struct lightningd_state *dstate) { FIXME_IMPLEMENT(); } void notify_new_block(struct chain_topology *topo, u32 height); void notify_new_block(struct chain_topology *topo, u32 height) { /* FIXME */ } #include void queue_pkt_nested(struct peer *peer, int type, const u8 *nested_pkt) { FIXME_IMPLEMENT(); } static struct lightningd *new_lightningd(const tal_t *ctx) { struct lightningd *ld = tal(ctx, struct lightningd); list_head_init(&ld->peers); ld->peer_counter = 0; ld->bip32_max_index = 0; ld->dev_debug_subdaemon = NULL; list_head_init(&ld->utxos); ld->dstate.log_book = new_log_book(&ld->dstate, 20*1024*1024,LOG_INFORM); ld->log = ld->dstate.base_log = new_log(&ld->dstate, ld->dstate.log_book, "lightningd(%u):", (int)getpid()); list_head_init(&ld->dstate.peers); list_head_init(&ld->dstate.pay_commands); ld->dstate.portnum = DEFAULT_PORT; ld->dstate.testnet = true; timers_init(&ld->dstate.timers, time_mono()); list_head_init(&ld->dstate.wallet); list_head_init(&ld->dstate.addresses); ld->dstate.dev_never_routefail = false; ld->dstate.reexec = NULL; ld->dstate.external_ip = NULL; ld->dstate.announce = NULL; ld->topology = ld->dstate.topology = new_topology(ld, ld->log); ld->bitcoind = ld->dstate.bitcoind = new_bitcoind(ld, ld->log); ld->dstate.invoices = invoices_init(&ld->dstate); return ld; } static const char *daemons[] = { "lightningd", "lightningd_hsm", "lightningd_handshake", "lightningd_gossip", "lightningd_opening" }; /* Check we can run them, and check their versions */ static void test_daemons(const struct lightningd *ld) { size_t i; const tal_t *ctx = tal_tmpctx(ld); for (i = 0; i < ARRAY_SIZE(daemons); i++) { int outfd; const char *dpath = path_join(ctx, ld->daemon_dir, daemons[i]); const char *verstring; pid_t pid = pipecmd(&outfd, NULL, &outfd, dpath, "--version", NULL); log_debug(ld->dstate.base_log, "testing %s", dpath); if (pid == -1) err(1, "Could not run %s", dpath); verstring = grab_fd(ctx, outfd); if (!verstring) err(1, "Could not get output from %s", dpath); if (!strstarts(verstring, version()) || verstring[strlen(version())] != '\n') errx(1, "%s: bad version '%s'", daemons[i], verstring); } tal_free(ctx); } static const char *find_my_path(const tal_t *ctx, const char *argv0) { char *me = path_canon(ctx, argv0); if (access(me, X_OK) != 0) errx(1, "I cannot find myself at %s based on my name %s", me, argv0); return path_dirname(ctx, take(me)); } void derive_peer_seed(struct lightningd *ld, struct privkey *peer_seed, const struct pubkey *peer_id) { be64 counter = cpu_to_be64(ld->peer_counter); u8 input[PUBKEY_DER_LEN + sizeof(counter)]; pubkey_to_der(input, peer_id); memcpy(input + PUBKEY_DER_LEN, &counter, sizeof(counter)); hkdf_sha256(peer_seed, sizeof(*peer_seed), input, sizeof(input), &ld->peer_seed, sizeof(ld->peer_seed), "per-ppeer seed", strlen("per-peer seed")); /* FIXME: This must be saved in db. */ ld->peer_counter++; } int main(int argc, char *argv[]) { struct lightningd *ld = new_lightningd(NULL); bool newdir; err_set_progname(argv[0]); secp256k1_ctx = secp256k1_context_create(SECP256K1_CONTEXT_VERIFY | SECP256K1_CONTEXT_SIGN); /* Figure out where we are first. */ ld->daemon_dir = find_my_path(ld, argv[0]); register_opts(&ld->dstate); opt_register_arg("--dev-debugger=", opt_subd_debug, NULL, ld, "Wait for gdb attach at start of "); /* Handle options and config; move to .lightningd */ newdir = handle_opts(&ld->dstate, argc, argv); /* Activate crash log now we're in the right place. */ crashlog_activate(ld->log); /* Ignore SIGPIPE: we look at our write return values*/ signal(SIGPIPE, SIG_IGN); /* Make sure we can reach other daemons, and versions match. */ test_daemons(ld); /* Mark ourselves live. */ log_info(ld->log, "Hello world from %s!", version()); /* Set up HSM. */ hsm_init(ld, newdir); /* Set up gossip daemon. */ gossip_init(ld); /* Initialize block topology. */ setup_topology(ld->topology, ld->bitcoind, &ld->dstate.timers, ld->dstate.config.poll_time, /* FIXME: Load from peers. */ 0); /* Create RPC socket (if any) */ setup_jsonrpc(&ld->dstate, ld->dstate.rpc_filename); /* Ready for connections from peers. */ setup_listeners(ld); #if 0 /* Load peers from database. */ db_load_peers(dstate); #endif for (;;) { struct timer *expired; void *v = io_loop(&ld->dstate.timers, &expired); /* We use io_break(dstate) to shut down. */ if (v == ld) break; if (expired) timer_expired(&ld->dstate, expired); } tal_free(ld); opt_free_table(); return 0; }