#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Bitcoind's web server has a default of 4 threads, with queue depth 16. * It will *fail* rather than queue beyond that, so we must not stress it! * * This is how many request for each priority level we have. */ #define BITCOIND_MAX_PARALLEL 4 enum bitcoind_prio { BITCOIND_LOW_PRIO, BITCOIND_HIGH_PRIO }; #define BITCOIND_NUM_PRIO (BITCOIND_HIGH_PRIO+1) struct bitcoind { /* eg. "bitcoin-cli" */ char *cli; /* -datadir arg for bitcoin-cli. */ char *datadir; /* Is bitcoind synced? If not, we retry. */ bool synced; /* How many high/low prio requests are we running (it's ratelimited) */ size_t num_requests[BITCOIND_NUM_PRIO]; /* Pending requests (high and low prio). */ struct list_head pending[BITCOIND_NUM_PRIO]; /* If non-zero, time we first hit a bitcoind error. */ unsigned int error_count; struct timemono first_error_time; /* How long to keep trying to contact bitcoind * before fatally exiting. */ u64 retry_timeout; /* Passthrough parameters for bitcoin-cli */ char *rpcuser, *rpcpass, *rpcconnect, *rpcport; /* The factor to time the urgent feerate by to get the maximum * acceptable feerate. */ u32 max_fee_multiplier; /* Percent of CONSERVATIVE/2 feerate we'll use for commitment txs. */ u64 commit_fee_percent; }; static struct bitcoind *bitcoind; struct bitcoin_cli { struct list_node list; int fd; int *exitstatus; pid_t pid; const char **args; struct timeabs start; enum bitcoind_prio prio; char *output; size_t output_bytes; size_t new_output; struct command_result *(*process)(struct bitcoin_cli *); struct command *cmd; /* Used to stash content between multiple calls */ void *stash; }; /* Add the n'th arg to *args, incrementing n and keeping args of size n+1 */ static void add_arg(const char ***args, const char *arg) { tal_arr_expand(args, arg); } static const char **gather_args(const tal_t *ctx, const char *cmd, const char **cmd_args) { const char **args = tal_arr(ctx, const char *, 1); args[0] = bitcoind->cli ? bitcoind->cli : chainparams->cli; if (chainparams->cli_args) add_arg(&args, chainparams->cli_args); if (bitcoind->datadir) add_arg(&args, tal_fmt(args, "-datadir=%s", bitcoind->datadir)); if (bitcoind->rpcconnect) add_arg(&args, tal_fmt(args, "-rpcconnect=%s", bitcoind->rpcconnect)); if (bitcoind->rpcport) add_arg(&args, tal_fmt(args, "-rpcport=%s", bitcoind->rpcport)); if (bitcoind->rpcuser) add_arg(&args, tal_fmt(args, "-rpcuser=%s", bitcoind->rpcuser)); if (bitcoind->rpcpass) add_arg(&args, tal_fmt(args, "-rpcpassword=%s", bitcoind->rpcpass)); add_arg(&args, cmd); for (size_t i = 0; i < tal_count(cmd_args); i++) add_arg(&args, cmd_args[i]); add_arg(&args, NULL); return args; } static struct io_plan *read_more(struct io_conn *conn, struct bitcoin_cli *bcli) { bcli->output_bytes += bcli->new_output; if (bcli->output_bytes == tal_count(bcli->output)) tal_resize(&bcli->output, bcli->output_bytes * 2); return io_read_partial(conn, bcli->output + bcli->output_bytes, tal_count(bcli->output) - bcli->output_bytes, &bcli->new_output, read_more, bcli); } static struct io_plan *output_init(struct io_conn *conn, struct bitcoin_cli *bcli) { bcli->output_bytes = bcli->new_output = 0; bcli->output = tal_arr(bcli, char, 100); return read_more(conn, bcli); } static void next_bcli(enum bitcoind_prio prio); /* For printing: simple string of args (no secrets!) */ static char *args_string(const tal_t *ctx, const char **args) { size_t i; char *ret = tal_strdup(ctx, args[0]); for (i = 1; args[i]; i++) { ret = tal_strcat(ctx, take(ret), " "); if (strstarts(args[i], "-rpcpassword")) { ret = tal_strcat(ctx, take(ret), "-rpcpassword=..."); } else if (strstarts(args[i], "-rpcuser")) { ret = tal_strcat(ctx, take(ret), "-rpcuser=..."); } else { ret = tal_strcat(ctx, take(ret), args[i]); } } return ret; } static char *bcli_args(struct bitcoin_cli *bcli) { return args_string(bcli, bcli->args); } static void retry_bcli(void *cb_arg) { struct bitcoin_cli *bcli = cb_arg; list_add_tail(&bitcoind->pending[bcli->prio], &bcli->list); next_bcli(bcli->prio); } /* We allow 60 seconds of spurious errors, eg. reorg. */ static void bcli_failure(struct bitcoin_cli *bcli, int exitstatus) { struct timerel t; if (!bitcoind->error_count) bitcoind->first_error_time = time_mono(); t = timemono_between(time_mono(), bitcoind->first_error_time); if (time_greater(t, time_from_sec(bitcoind->retry_timeout))) plugin_err(bcli->cmd->plugin, "%s exited %u (after %u other errors) '%.*s'; " "we have been retrying command for " "--bitcoin-retry-timeout=%"PRIu64" seconds; " "bitcoind setup or our --bitcoin-* configs broken?", bcli_args(bcli), exitstatus, bitcoind->error_count, (int)bcli->output_bytes, bcli->output, bitcoind->retry_timeout); plugin_log(bcli->cmd->plugin, LOG_UNUSUAL, "%s exited with status %u", bcli_args(bcli), exitstatus); bitcoind->error_count++; /* Retry in 1 second (not a leak!) */ plugin_timer(bcli->cmd->plugin, time_from_sec(1), retry_bcli, bcli); } static void bcli_finished(struct io_conn *conn UNUSED, struct bitcoin_cli *bcli) { int ret, status; struct command_result *res; enum bitcoind_prio prio = bcli->prio; u64 msec = time_to_msec(time_between(time_now(), bcli->start)); /* If it took over 10 seconds, that's rather strange. */ if (msec > 10000) plugin_log(bcli->cmd->plugin, LOG_UNUSUAL, "bitcoin-cli: finished %s (%"PRIu64" ms)", bcli_args(bcli), msec); assert(bitcoind->num_requests[prio] > 0); /* FIXME: If we waited for SIGCHILD, this could never hang! */ while ((ret = waitpid(bcli->pid, &status, 0)) < 0 && errno == EINTR); if (ret != bcli->pid) plugin_err(bcli->cmd->plugin, "%s %s", bcli_args(bcli), ret == 0 ? "not exited?" : strerror(errno)); if (!WIFEXITED(status)) plugin_err(bcli->cmd->plugin, "%s died with signal %i", bcli_args(bcli), WTERMSIG(status)); /* Implicit nonzero_exit_ok == false */ if (!bcli->exitstatus) { if (WEXITSTATUS(status) != 0) { bcli_failure(bcli, WEXITSTATUS(status)); bitcoind->num_requests[prio]--; goto done; } } else *bcli->exitstatus = WEXITSTATUS(status); if (WEXITSTATUS(status) == 0) bitcoind->error_count = 0; bitcoind->num_requests[bcli->prio]--; res = bcli->process(bcli); if (!res) bcli_failure(bcli, WEXITSTATUS(status)); else tal_free(bcli); done: next_bcli(prio); } static void next_bcli(enum bitcoind_prio prio) { struct bitcoin_cli *bcli; struct io_conn *conn; if (bitcoind->num_requests[prio] >= BITCOIND_MAX_PARALLEL) return; bcli = list_pop(&bitcoind->pending[prio], struct bitcoin_cli, list); if (!bcli) return; bcli->pid = pipecmdarr(NULL, &bcli->fd, &bcli->fd, cast_const2(char **, bcli->args)); if (bcli->pid < 0) plugin_err(bcli->cmd->plugin, "%s exec failed: %s", bcli->args[0], strerror(errno)); bcli->start = time_now(); bitcoind->num_requests[prio]++; conn = io_new_conn(bcli, bcli->fd, output_init, bcli); io_set_finish(conn, bcli_finished, bcli); } /* If ctx is non-NULL, and is freed before we return, we don't call process(). * process returns false() if it's a spurious error, and we should retry. */ static void start_bitcoin_cli(const tal_t *ctx, struct command *cmd, struct command_result *(*process)(struct bitcoin_cli *), bool nonzero_exit_ok, enum bitcoind_prio prio, char *method, const char **method_args, void *stash) { struct bitcoin_cli *bcli = tal(bitcoind, struct bitcoin_cli); bcli->process = process; bcli->cmd = cmd; bcli->prio = prio; if (nonzero_exit_ok) bcli->exitstatus = tal(bcli, int); else bcli->exitstatus = NULL; bcli->args = gather_args(bcli, method, method_args); bcli->stash = stash; list_add_tail(&bitcoind->pending[bcli->prio], &bcli->list); next_bcli(bcli->prio); } static struct command_result *process_getutxout(struct bitcoin_cli *bcli) { const jsmntok_t *tokens, *valuetok, *scriptpubkeytok, *hextok; struct json_stream *response; bool valid; struct bitcoin_tx_output output; char *err; /* As of at least v0.15.1.0, bitcoind returns "success" but an empty string on a spent txout. */ if (*bcli->exitstatus != 0 || bcli->output_bytes == 0) { response = jsonrpc_stream_success(bcli->cmd); json_add_null(response, "amount"); json_add_null(response, "script"); return command_finished(bcli->cmd, response); } tokens = json_parse_input(bcli->output, bcli->output, bcli->output_bytes, &valid); if (!tokens) { err = tal_fmt(bcli, "%s: %s response", bcli_args(bcli), valid ? "partial" : "invalid"); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } if (tokens[0].type != JSMN_OBJECT) { err = tal_fmt(bcli, "%s: gave non-object (%.*s)?", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } valuetok = json_get_member(bcli->output, tokens, "value"); if (!valuetok) { err = tal_fmt(bcli,"%s: had no value member (%.*s)?", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } if (!json_to_bitcoin_amount(bcli->output, valuetok, &output.amount.satoshis)) {/* Raw: talking to bitcoind */ err = tal_fmt(bcli, "%s: had bad value (%.*s)?", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } scriptpubkeytok = json_get_member(bcli->output, tokens, "scriptPubKey"); if (!scriptpubkeytok) { err = tal_fmt(bcli, "%s: had no scriptPubKey member (%.*s)?", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } hextok = json_get_member(bcli->output, scriptpubkeytok, "hex"); if (!hextok) { err = tal_fmt(bcli, "%s: had no scriptPubKey->hex member (%.*s)?", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } output.script = tal_hexdata(bcli, bcli->output + hextok->start, hextok->end - hextok->start); if (!output.script) { err = tal_fmt(bcli, "%s: scriptPubKey->hex invalid hex (%.*s)?", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } response = jsonrpc_stream_success(bcli->cmd); json_add_amount_sat_only(response, "amount", output.amount); json_add_string(response, "script", tal_hex(response, output.script)); return command_finished(bcli->cmd, response); } static struct command_result *process_getblockchaininfo(struct bitcoin_cli *bcli) { const jsmntok_t *tokens, *chaintok, *headerstok, *blockstok, *ibdtok; struct json_stream *response; bool valid, ibd; u32 headers, blocks; char *err; tokens = json_parse_input(bcli, bcli->output, bcli->output_bytes, &valid); if (!tokens) { err = tal_fmt(bcli->cmd, "%s: %s response (%.*s)", bcli_args(bcli), valid ? "partial" : "invalid", (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } if (tokens[0].type != JSMN_OBJECT) { err = tal_fmt(bcli->cmd, "%s: gave non-object (%.*s)", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } chaintok = json_get_member(bcli->output, tokens, "chain"); if (!chaintok) { err = tal_fmt(bcli->cmd, "%s: bad 'chain' field (%.*s)", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } headerstok = json_get_member(bcli->output, tokens, "headers"); if (!headerstok || !json_to_number(bcli->output, headerstok, &headers)) { err = tal_fmt(bcli->cmd, "%s: bad 'headers' field (%.*s)", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } blockstok = json_get_member(bcli->output, tokens, "blocks"); if (!blockstok || !json_to_number(bcli->output, blockstok, &blocks)) { err = tal_fmt(bcli->cmd, "%s: bad 'blocks' field (%.*s)", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } ibdtok = json_get_member(bcli->output, tokens, "initialblockdownload"); if (!ibdtok || !json_to_bool(bcli->output, ibdtok, &ibd)) { err = tal_fmt(bcli->cmd, "%s: bad 'initialblockdownload' field (%.*s)", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } response = jsonrpc_stream_success(bcli->cmd); json_add_string(response, "chain", json_strdup(response, bcli->output, chaintok)); json_add_u32(response, "headercount", headers); json_add_u32(response, "blockcount", blocks); json_add_bool(response, "ibd", ibd); return command_finished(bcli->cmd, response); } struct estimatefees_stash { /* FIXME: We use u64 but lightningd will store them as u32. */ u64 very_urgent, urgent, normal, slow; }; static struct command_result * estimatefees_null_response(struct bitcoin_cli *bcli) { struct json_stream *response = jsonrpc_stream_success(bcli->cmd); json_add_null(response, "opening"); json_add_null(response, "mutual_close"); json_add_null(response, "unilateral_close"); json_add_null(response, "delayed_to_us"); json_add_null(response, "htlc_resolution"); json_add_null(response, "penalty"); json_add_null(response, "min_acceptable"); json_add_null(response, "max_acceptable"); return command_finished(bcli->cmd, response); } static struct command_result * estimatefees_parse_feerate(struct bitcoin_cli *bcli, u64 *feerate) { const jsmntok_t *tokens, *feeratetok = NULL; bool valid; char *err; tokens = json_parse_input(bcli->output, bcli->output, (int)bcli->output_bytes, &valid); if (!tokens) { err = tal_fmt(bcli->cmd, "%s: %s response (%.*s)", bcli_args(bcli), valid ? "partial" : "invalid", (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } if (tokens[0].type != JSMN_OBJECT) { err = tal_fmt(bcli->cmd, "%s: gave non-object (%.*s)", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } feeratetok = json_get_member(bcli->output, tokens, "feerate"); if (feeratetok && !json_to_bitcoin_amount(bcli->output, feeratetok, feerate)) { err = tal_fmt(bcli->cmd, "%s: bad 'feerate' field (%.*s)", bcli_args(bcli), (int)bcli->output_bytes, bcli->output); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } else if (!feeratetok) /* We return null if estimation failed, and bitcoin-cli will * exit with 0 but no feerate field on failure. */ return estimatefees_null_response(bcli); return NULL; } /* We got all the feerates, give them to lightningd. */ static struct command_result *estimatefees_final_step(struct bitcoin_cli *bcli) { struct command_result *err; struct json_stream *response; struct estimatefees_stash *stash = bcli->stash; /* bitcoind could theoretically fail to estimate for a higher target. */ if (*bcli->exitstatus != 0) return estimatefees_null_response(bcli); err = estimatefees_parse_feerate(bcli, &stash->slow); if (err) return err; response = jsonrpc_stream_success(bcli->cmd); json_add_u64(response, "opening", stash->normal); json_add_u64(response, "mutual_close", stash->normal); json_add_u64(response, "unilateral_close", stash->very_urgent * bitcoind->commit_fee_percent / 100); json_add_u64(response, "delayed_to_us", stash->normal); json_add_u64(response, "htlc_resolution", stash->urgent); json_add_u64(response, "penalty", stash->urgent); /* We divide the slow feerate for the minimum acceptable, lightningd * will use floor if it's hit, though. */ json_add_u64(response, "min_acceptable", stash->slow / 2); /* BOLT #2: * * Given the variance in fees, and the fact that the transaction may be * spent in the future, it's a good idea for the fee payer to keep a good * margin (say 5x the expected fee requirement) */ json_add_u64(response, "max_acceptable", stash->very_urgent * bitcoind->max_fee_multiplier); return command_finished(bcli->cmd, response); } /* We got the response for the normal feerate, now treat the slow one. */ static struct command_result *estimatefees_fourth_step(struct bitcoin_cli *bcli) { struct command_result *err; struct estimatefees_stash *stash = bcli->stash; const char **params = tal_arr(bcli->cmd, const char *, 2); /* bitcoind could theoretically fail to estimate for a higher target. */ if (*bcli->exitstatus != 0) return estimatefees_null_response(bcli); err = estimatefees_parse_feerate(bcli, &stash->normal); if (err) return err; params[0] = "100"; params[1] = "ECONOMICAL"; start_bitcoin_cli(NULL, bcli->cmd, estimatefees_final_step, true, BITCOIND_LOW_PRIO, "estimatesmartfee", params, stash); return command_still_pending(bcli->cmd); } /* We got the response for the urgent feerate, now treat the normal one. */ static struct command_result *estimatefees_third_step(struct bitcoin_cli *bcli) { struct command_result *err; struct estimatefees_stash *stash = bcli->stash; const char **params = tal_arr(bcli->cmd, const char *, 2); /* If we cannot estimate fees, no need to continue bothering bitcoind. */ if (*bcli->exitstatus != 0) return estimatefees_null_response(bcli); err = estimatefees_parse_feerate(bcli, &stash->urgent); if (err) return err; params[0] = "4"; params[1] = "ECONOMICAL"; start_bitcoin_cli(NULL, bcli->cmd, estimatefees_fourth_step, true, BITCOIND_LOW_PRIO, "estimatesmartfee", params, stash); return command_still_pending(bcli->cmd); } /* We got the response for the very urgent feerate, now treat the urgent one. */ static struct command_result *estimatefees_second_step(struct bitcoin_cli *bcli) { struct command_result *err; struct estimatefees_stash *stash = bcli->stash; const char **params = tal_arr(bcli->cmd, const char *, 2); /* If we cannot estimate fees, no need to continue bothering bitcoind. */ if (*bcli->exitstatus != 0) return estimatefees_null_response(bcli); err = estimatefees_parse_feerate(bcli, &stash->very_urgent); if (err) return err; params[0] = "3"; params[1] = "CONSERVATIVE"; start_bitcoin_cli(NULL, bcli->cmd, estimatefees_third_step, true, BITCOIND_LOW_PRIO, "estimatesmartfee", params, stash); return command_still_pending(bcli->cmd); } static struct command_result *process_sendrawtransaction(struct bitcoin_cli *bcli) { struct json_stream *response; /* This is useful for functional tests. */ if (*bcli->exitstatus == 0) plugin_log(bcli->cmd->plugin, LOG_DBG, "sendrawtx exit %i (%s)", *bcli->exitstatus, bcli_args(bcli)); response = jsonrpc_stream_success(bcli->cmd); json_add_bool(response, "success", *bcli->exitstatus == 0); json_add_string(response, "errmsg", bcli->exitstatus ? tal_strndup(bcli, bcli->output, bcli->output_bytes-1) : ""); return command_finished(bcli->cmd, response); } struct getrawblock_stash { const char *block_hash; u32 block_height; const char *block_hex; }; static struct command_result *process_getrawblock(struct bitcoin_cli *bcli) { struct json_stream *response; struct getrawblock_stash *stash = bcli->stash; /* -1 to strip \n. */ stash->block_hex = tal_fmt(stash, "%.*s", (int)bcli->output_bytes-1, bcli->output); response = jsonrpc_stream_success(bcli->cmd); json_add_string(response, "blockhash", stash->block_hash); json_add_string(response, "block", stash->block_hex); return command_finished(bcli->cmd, response); } static struct command_result * getrawblockbyheight_notfound(struct bitcoin_cli *bcli) { struct json_stream *response; response = jsonrpc_stream_success(bcli->cmd); json_add_null(response, "blockhash"); json_add_null(response, "block"); return command_finished(bcli->cmd, response); } static struct command_result *process_getblockhash(struct bitcoin_cli *bcli) { const char *err, **params; struct getrawblock_stash *stash = bcli->stash; /* If it failed with error 8, give an empty response. */ if (bcli->exitstatus && *bcli->exitstatus != 0) { /* Other error means we have to retry. */ if (*bcli->exitstatus != 8) return NULL; return getrawblockbyheight_notfound(bcli); } /* `-1` to strip the newline character. */ stash->block_hash = tal_strndup(stash, bcli->output, bcli->output_bytes-1); if (!stash->block_hash || strlen(stash->block_hash) != 64) { err = tal_fmt(bcli->cmd, "%s: bad blockhash '%s'", bcli_args(bcli), stash->block_hash); return command_done_err(bcli->cmd, BCLI_ERROR, err, NULL); } params = tal_arr(bcli->cmd, const char *, 2); params[0] = stash->block_hash; /* Non-verbose: raw block. */ params[1] = "0"; start_bitcoin_cli(NULL, bcli->cmd, process_getrawblock, false, BITCOIND_HIGH_PRIO, "getblock", params, stash); return command_still_pending(bcli->cmd); } /* Get a raw block given its height. * Calls `getblockhash` then `getblock` to retrieve it from bitcoin_cli. * Will return early with null fields if block isn't known (yet). */ static struct command_result *getrawblockbyheight(struct command *cmd, const char *buf, const jsmntok_t *toks) { struct getrawblock_stash *stash; u32 *height; const char **params; /* bitcoin-cli wants a string. */ if (!param(cmd, buf, toks, p_req("height", param_number, &height), NULL)) return command_param_failed(); stash = tal(cmd, struct getrawblock_stash); stash->block_height = *height; params = tal_arr(cmd, const char *, 1); params[0] = tal_fmt(params, "%u", *height); start_bitcoin_cli(NULL, cmd, process_getblockhash, true, BITCOIND_LOW_PRIO, "getblockhash", params, stash); return command_still_pending(cmd); } /* Get infos about the block chain. * Calls `getblockchaininfo` and returns headers count, blocks count, * the chain id, and whether this is initialblockdownload. */ static struct command_result *getchaininfo(struct command *cmd, const char *buf UNUSED, const jsmntok_t *toks UNUSED) { if (!param(cmd, buf, toks, NULL)) return command_param_failed(); start_bitcoin_cli(NULL, cmd, process_getblockchaininfo, false, BITCOIND_HIGH_PRIO, "getblockchaininfo", NULL, NULL); return command_still_pending(cmd); } /* Get the current feerates. We use an urgent feerate for unilateral_close and max, * a slightly less urgent feerate for htlc_resolution and penalty transactions, * a slow feerate for min, and a normal one for all others. * * Calls `estimatesmartfee` with targets 2/CONSERVATIVE (very urgent), * 3/CONSERVATIVE (urgent), 4/ECONOMICAL (normal), and 100/ECONOMICAL (slow) * then returns the feerates as sat/kVB. */ static struct command_result *estimatefees(struct command *cmd, const char *buf UNUSED, const jsmntok_t *toks UNUSED) { struct estimatefees_stash *stash = tal(cmd, struct estimatefees_stash); const char **params = tal_arr(cmd, const char *, 2); if (!param(cmd, buf, toks, NULL)) return command_param_failed(); /* First call to estimatesmartfee, for very urgent estimation (unilateral * and max_acceptable feerates). */ params[0] = "2"; params[1] = "CONSERVATIVE"; start_bitcoin_cli(NULL, cmd, estimatefees_second_step, true, BITCOIND_LOW_PRIO, "estimatesmartfee", params, stash); return command_still_pending(cmd); } /* Send a transaction to the Bitcoin network. * Calls `sendrawtransaction` using the first parameter as the raw tx. */ static struct command_result *sendrawtransaction(struct command *cmd, const char *buf, const jsmntok_t *toks) { const char **params = tal_arr(cmd, const char *, 1); /* bitcoin-cli wants strings. */ if (!param(cmd, buf, toks, p_req("tx", param_string, ¶ms[0]), NULL)) return command_param_failed(); start_bitcoin_cli(NULL, cmd, process_sendrawtransaction, true, BITCOIND_HIGH_PRIO, "sendrawtransaction", params, NULL); return command_still_pending(cmd); } static struct command_result *getutxout(struct command *cmd, const char *buf, const jsmntok_t *toks) { const char **params = tal_arr(cmd, const char *, 2); /* bitcoin-cli wants strings. */ if (!param(cmd, buf, toks, p_req("txid", param_string, ¶ms[0]), p_req("vout", param_string, ¶ms[1]), NULL)) return command_param_failed(); start_bitcoin_cli(NULL, cmd, process_getutxout, true, BITCOIND_HIGH_PRIO, "gettxout", params, NULL); return command_still_pending(cmd); } static void bitcoind_failure(struct plugin *p, const char *error_message) { const char **cmd = gather_args(bitcoind, "echo", NULL); plugin_err(p, "\n%s\n\n" "Make sure you have bitcoind running and that bitcoin-cli" " is able to connect to bitcoind.\n\n" "You can verify that your Bitcoin Core installation is" " ready for use by running:\n\n" " $ %s 'hello world'\n", error_message, args_string(cmd, cmd)); } static void wait_for_bitcoind(struct plugin *p) { int from, status, ret; pid_t child; const char **cmd = gather_args(bitcoind, "echo", NULL); bool printed = false; for (;;) { child = pipecmdarr(NULL, &from, &from, cast_const2(char **,cmd)); if (child < 0) { if (errno == ENOENT) bitcoind_failure(p, "bitcoin-cli not found. Is bitcoin-cli " "(part of Bitcoin Core) available in your PATH?"); plugin_err(p, "%s exec failed: %s", cmd[0], strerror(errno)); } char *output = grab_fd(cmd, from); while ((ret = waitpid(child, &status, 0)) < 0 && errno == EINTR); if (ret != child) bitcoind_failure(p, tal_fmt(bitcoind, "Waiting for %s: %s", cmd[0], strerror(errno))); if (!WIFEXITED(status)) bitcoind_failure(p, tal_fmt(bitcoind, "Death of %s: signal %i", cmd[0], WTERMSIG(status))); if (WEXITSTATUS(status) == 0) break; /* bitcoin/src/rpc/protocol.h: * RPC_IN_WARMUP = -28, //!< Client still warming up */ if (WEXITSTATUS(status) != 28) { if (WEXITSTATUS(status) == 1) bitcoind_failure(p, "Could not connect to bitcoind using" " bitcoin-cli. Is bitcoind running?"); bitcoind_failure(p, tal_fmt(bitcoind, "%s exited with code %i: %s", cmd[0], WEXITSTATUS(status), output)); } if (!printed) { plugin_log(p, LOG_UNUSUAL, "Waiting for bitcoind to warm up..."); printed = true; } sleep(1); } tal_free(cmd); } static void init(struct plugin *p, const char *buffer UNUSED, const jsmntok_t *config UNUSED) { wait_for_bitcoind(p); plugin_log(p, LOG_INFORM, "bitcoin-cli initialized and connected to bitcoind."); } static const struct plugin_command commands[] = { { "getrawblockbyheight", "bitcoin", "Get the bitcoin block at a given height", "", getrawblockbyheight }, { "getchaininfo", "bitcoin", "Get the chain id, the header count, the block count," " and whether this is IBD.", "", getchaininfo }, { "estimatefees", "bitcoin", "Get the urgent, normal and slow Bitcoin feerates as" " sat/kVB.", "", estimatefees }, { "sendrawtransaction", "bitcoin", "Send a raw transaction to the Bitcoin network.", "", sendrawtransaction }, { "getutxout", "bitcoin", "Get informations about an output, identified by a {txid} an a {vout}", "", getutxout }, }; static struct bitcoind *new_bitcoind(const tal_t *ctx) { bitcoind = tal(ctx, struct bitcoind); bitcoind->cli = NULL; bitcoind->datadir = NULL; for (size_t i = 0; i < BITCOIND_NUM_PRIO; i++) { bitcoind->num_requests[i] = 0; list_head_init(&bitcoind->pending[i]); } bitcoind->error_count = 0; bitcoind->retry_timeout = 60; bitcoind->rpcuser = NULL; bitcoind->rpcpass = NULL; bitcoind->rpcconnect = NULL; bitcoind->rpcport = NULL; bitcoind->max_fee_multiplier = 10; bitcoind->commit_fee_percent = 100; return bitcoind; } int main(int argc, char *argv[]) { setup_locale(); /* Initialize our global context object here to handle startup options. */ bitcoind = new_bitcoind(NULL); plugin_main(argv, init, PLUGIN_STATIC, false /* Do not init RPC on startup*/, NULL, commands, ARRAY_SIZE(commands), NULL, 0, NULL, 0, plugin_option("bitcoin-datadir", "string", "-datadir arg for bitcoin-cli", charp_option, &bitcoind->datadir), plugin_option("bitcoin-cli", "string", "bitcoin-cli pathname", charp_option, &bitcoind->cli), plugin_option("bitcoin-rpcuser", "string", "bitcoind RPC username", charp_option, &bitcoind->rpcuser), plugin_option("bitcoin-rpcpassword", "string", "bitcoind RPC password", charp_option, &bitcoind->rpcpass), plugin_option("bitcoin-rpcconnect", "string", "bitcoind RPC host to connect to", charp_option, &bitcoind->rpcconnect), plugin_option("bitcoin-rpcport", "string", "bitcoind RPC host's port", charp_option, &bitcoind->rpcport), plugin_option("bitcoin-retry-timeout", "string", "how long to keep retrying to contact bitcoind" " before fatally exiting", u64_option, &bitcoind->retry_timeout), plugin_option("commit-fee", "string", "Percentage of fee to request for their commitment", u64_option, &bitcoind->commit_fee_percent), #if DEVELOPER plugin_option("dev-max-fee-multiplier", "string", "Allow the fee proposed by the remote end to" " be up to multiplier times higher than our " "own. Small values will cause channels to be" " closed more often due to fee fluctuations," " large values may result in large fees.", u32_option, &bitcoind->max_fee_multiplier), #endif /* DEVELOPER */ NULL); }