#include "bitcoind.h" #include "chaintopology.h" #include "configdir.h" #include "controlled_time.h" #include "jsonrpc.h" #include "lightningd.h" #include "log.h" #include "opt_time.h" #include "peer.h" #include "routing.h" #include "secrets.h" #include "timeout.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static char *opt_set_u64(const char *arg, u64 *u) { char *endp; unsigned long long l; /* This is how the manpage says to do it. Yech. */ errno = 0; l = strtoull(arg, &endp, 0); if (*endp || !arg[0]) return tal_fmt(NULL, "'%s' is not a number", arg); *u = l; if (errno || *u != l) return tal_fmt(NULL, "'%s' is out of range", arg); return NULL; } static char *opt_set_u32(const char *arg, u32 *u) { char *endp; unsigned long l; /* This is how the manpage says to do it. Yech. */ errno = 0; l = strtoul(arg, &endp, 0); if (*endp || !arg[0]) return tal_fmt(NULL, "'%s' is not a number", arg); *u = l; if (errno || *u != l) return tal_fmt(NULL, "'%s' is out of range", arg); return NULL; } static char *opt_set_s32(const char *arg, s32 *u) { char *endp; long l; /* This is how the manpage says to do it. Yech. */ errno = 0; l = strtol(arg, &endp, 0); if (*endp || !arg[0]) return tal_fmt(NULL, "'%s' is not a number", arg); *u = l; if (errno || *u != l) return tal_fmt(NULL, "'%s' is out of range", arg); return NULL; } static void opt_show_u64(char buf[OPT_SHOW_LEN], const u64 *u) { snprintf(buf, OPT_SHOW_LEN, "%"PRIu64, *u); } static void opt_show_u32(char buf[OPT_SHOW_LEN], const u32 *u) { snprintf(buf, OPT_SHOW_LEN, "%"PRIu32, *u); } static void opt_show_s32(char buf[OPT_SHOW_LEN], const s32 *u) { snprintf(buf, OPT_SHOW_LEN, "%"PRIi32, *u); } static void config_register_opts(struct lightningd_state *dstate) { opt_register_arg("--locktime-blocks", opt_set_u32, opt_show_u32, &dstate->config.locktime_blocks, "Blocks before peer can unilaterally spend funds"); opt_register_arg("--max-locktime-blocks", opt_set_u32, opt_show_u32, &dstate->config.locktime_max, "Maximum seconds peer can lock up our funds"); opt_register_arg("--anchor-confirms", opt_set_u32, opt_show_u32, &dstate->config.anchor_confirms, "Confirmations required for anchor transaction"); opt_register_arg("--max-anchor-confirms", opt_set_u32, opt_show_u32, &dstate->config.anchor_confirms_max, "Maximum confirmations other side can wait for anchor transaction"); opt_register_arg("--forever-confirms", opt_set_u32, opt_show_u32, &dstate->config.forever_confirms, "Confirmations after which we consider a reorg impossible"); opt_register_arg("--commit-fee-rate", opt_set_u64, opt_show_u64, &dstate->config.commitment_fee_rate, "Satoshis to offer for commitment transaction fee (per kb)"); opt_register_arg("--min-commit-fee-rate", opt_set_u64, opt_show_u64, &dstate->config.commitment_fee_rate_min, "Minimum satoshis to accept for commitment transaction fee (per kb)"); opt_register_arg("--closing-fee-rate", opt_set_u64, opt_show_u64, &dstate->config.closing_fee_rate, "Satoshis to use for mutual close transaction fee (per kb)"); opt_register_arg("--min-htlc-expiry", opt_set_u32, opt_show_u32, &dstate->config.min_htlc_expiry, "Minimum number of blocks to accept an HTLC before expiry"); opt_register_arg("--max-htlc-expiry", opt_set_u32, opt_show_u32, &dstate->config.max_htlc_expiry, "Maximum number of blocks to accept an HTLC before expiry"); opt_register_arg("--deadline-blocks", opt_set_u32, opt_show_u32, &dstate->config.deadline_blocks, "Number of blocks before HTLC timeout before we drop connection"); opt_register_arg("--bitcoind-poll", opt_set_time, opt_show_time, &dstate->config.poll_time, "Time between polling for new transactions"); opt_register_arg("--commit-time", opt_set_time, opt_show_time, &dstate->config.commit_time, "Time after changes before sending out COMMIT"); opt_register_arg("--fee-base", opt_set_u32, opt_show_u32, &dstate->config.fee_base, "Millisatoshi minimum to charge for HTLC"); opt_register_arg("--fee-per-satoshi", opt_set_s32, opt_show_s32, &dstate->config.fee_per_satoshi, "Microsatoshi fee for every satoshi in HTLC"); } static void default_config(struct config *config) { /* aka. "Dude, where's my coins?" */ config->testnet = true; /* ~one day to catch cheating attempts. */ config->locktime_blocks = 6 * 24; /* They can have up to 3 days. */ config->locktime_max = 3 * 6 * 24; /* We're fairly trusting, under normal circumstances. */ config->anchor_confirms = 3; /* More than 10 confirms seems overkill. */ config->anchor_confirms_max = 10; /* At some point, you've got to let it go... */ /* BOLT #onchain: * * Outputs... are considered *irrevocably resolved* once they * are included in a block at least 100 deep on the most-work * blockchain. 100 blocks is far greater than the longest * known bitcoin fork, and the same value used to wait for * confirmations of miner's rewards[1]. */ config->forever_confirms = 100; /* FIXME: These should float with bitcoind's recommendations! */ /* Pay hefty fee (double historic high of ~100k). */ config->commitment_fee_rate = 200000; /* Don't accept less than double the average 2-block fee. */ config->commitment_fee_rate_min = 50000; /* Use this for mutual close. */ config->closing_fee_rate = 20000; /* Don't bother me unless I have 6 hours to collect. */ config->min_htlc_expiry = 6 * 6; /* Don't lock up channel for more than 5 days. */ config->max_htlc_expiry = 5 * 6 * 24; /* If we're closing on HTLC expiry, and you're unresponsive, we abort. */ config->deadline_blocks = 10; /* How often to bother bitcoind. */ config->poll_time = time_from_sec(30); /* Send commit 10msec after receiving; almost immediately. */ config->commit_time = time_from_msec(10); /* Discourage dust payments */ config->fee_base = 546000; /* Take 0.001% */ config->fee_per_satoshi = 10; } static void check_config(struct lightningd_state *dstate) { /* BOLT #2: * The sender MUST set `close_fee` lower than or equal to the * fee of the final commitment transaction */ /* We do this by ensuring it's less than the minimum we would accept. */ if (dstate->config.closing_fee_rate > dstate->config.commitment_fee_rate_min) fatal("Closing fee rate %"PRIu64 " can't exceed minimum commitment fee rate %"PRIu64, dstate->config.closing_fee_rate, dstate->config.commitment_fee_rate_min); if (dstate->config.commitment_fee_rate_min > dstate->config.commitment_fee_rate) fatal("Minumum fee rate %"PRIu64 " can't exceed commitment fee rate %"PRIu64, dstate->config.commitment_fee_rate_min, dstate->config.commitment_fee_rate); if (dstate->config.forever_confirms < 100) log_unusual(dstate->base_log, "Warning: forever-confirms of %u is less than 100!", dstate->config.forever_confirms); /* BOLT #2: * * a node MUST estimate the deadline for successful redemption * for each HTLC it offers. A node MUST NOT offer a HTLC * after this deadline */ if (dstate->config.deadline_blocks >= dstate->config.min_htlc_expiry) fatal("Deadline %u can't be more than minimum expiry %u", dstate->config.deadline_blocks, dstate->config.min_htlc_expiry); } static struct lightningd_state *lightningd_state(void) { struct lightningd_state *dstate = tal(NULL, struct lightningd_state); dstate->log_record = new_log_record(dstate, 20*1024*1024, LOG_INFORM); dstate->base_log = new_log(dstate, dstate->log_record, "lightningd(%u):", (int)getpid()); list_head_init(&dstate->peers); timers_init(&dstate->timers, controlled_time()); txwatch_hash_init(&dstate->txwatches); txowatch_hash_init(&dstate->txowatches); dstate->secpctx = secp256k1_context_create(SECP256K1_CONTEXT_VERIFY | SECP256K1_CONTEXT_SIGN); default_config(&dstate->config); list_head_init(&dstate->bitcoin_req); list_head_init(&dstate->wallet); list_head_init(&dstate->payments); dstate->dev_never_routefail = false; dstate->bitcoin_req_running = false; dstate->nodes = empty_node_map(dstate); return dstate; } /* Tal wrappers for opt. */ static void *opt_allocfn(size_t size) { return tal_alloc_(NULL, size, false, TAL_LABEL("opt_allocfn", "")); } static void *tal_reallocfn(void *ptr, size_t size) { if (!ptr) return opt_allocfn(size); tal_resize_(&ptr, 1, size, false); return ptr; } static void tal_freefn(void *ptr) { tal_free(ptr); } int main(int argc, char *argv[]) { struct lightningd_state *dstate = lightningd_state(); unsigned int portnum = 0; err_set_progname(argv[0]); opt_set_alloc(opt_allocfn, tal_reallocfn, tal_freefn); if (!streq(protobuf_c_version(), PROTOBUF_C_VERSION)) errx(1, "Compiled against protobuf %s, but have %s", PROTOBUF_C_VERSION, protobuf_c_version()); opt_register_noarg("--help|-h", opt_usage_and_exit, "\n" "A bitcoin lightning daemon.", "Print this message."); opt_register_arg("--port", opt_set_uintval, NULL, &portnum, "Port to bind to (otherwise, dynamic port is used)"); opt_register_arg("--bitcoin-datadir", opt_set_charp, NULL, &bitcoin_datadir, "-datadir arg for bitcoin-cli"); opt_register_logging(dstate->base_log); opt_register_version(); configdir_register_opts(dstate, &dstate->config_dir, &dstate->rpc_filename); config_register_opts(dstate); /* Get any configdir options first. */ opt_early_parse(argc, argv, opt_log_stderr_exit); /* Move to config dir, to save ourselves the hassle of path manip. */ if (chdir(dstate->config_dir) != 0) { log_unusual(dstate->base_log, "Creating lightningd dir %s" " (because chdir gave %s)", dstate->config_dir, strerror(errno)); if (mkdir(dstate->config_dir, 0700) != 0) fatal("Could not make directory %s: %s", dstate->config_dir, strerror(errno)); if (chdir(dstate->config_dir) != 0) fatal("Could not change directory %s: %s", dstate->config_dir, strerror(errno)); } /* Activate crash log now we're in the right place. */ crashlog_activate(dstate->base_log); /* Now look for config file */ opt_parse_from_config(dstate); opt_parse(&argc, argv, opt_log_stderr_exit); if (argc != 1) errx(1, "no arguments accepted"); check_config(dstate); check_bitcoind_config(dstate); /* Set up node ID and private key. */ secrets_init(dstate); new_node(dstate, &dstate->id); /* Initialize block topology. */ setup_topology(dstate); /* Create RPC socket (if any) */ setup_jsonrpc(dstate, dstate->rpc_filename); /* Set up connections from peers. */ setup_listeners(dstate, portnum); /* Make sure we use the artificially-controlled time for timers */ io_time_override(controlled_time); log_info(dstate->base_log, "Hello world!"); for (;;) { struct timer *expired; void *v = io_loop(&dstate->timers, &expired); /* We use io_break(dstate) to shut down. */ if (v == dstate) break; if (expired) timer_expired(dstate, expired); else cleanup_peers(dstate); } tal_free(dstate); opt_free_table(); return 0; }