You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

1233 lines
34 KiB

/* Code for JSON_RPC API.
*
* Each socket connection is represented by a `struct json_connection`.
*
* This can have zero, one or more `struct command` in progress at a time:
* because the json_connection can be closed at any point, these `struct command`
* have a independent lifetimes.
*
* Each `struct command` writes into a `struct json_stream`, which is created
* the moment they start writing output (see attach_json_stream). Initially
* the struct command owns it since they're writing into it. When they're
* done, the `json_connection` needs to drain it (if it's still around). At
* that point, the `json_connection` becomes the owner (or it's simply freed).
*/
/* eg: { "jsonrpc":"2.0", "method" : "dev-echo", "params" : [ "hello", "Arabella!" ], "id" : "1" } */
#include "ccan/config.h"
#include <arpa/inet.h>
#include <bitcoin/address.h>
#include <bitcoin/base58.h>
#include <bitcoin/script.h>
#include <ccan/array_size/array_size.h>
#include <ccan/asort/asort.h>
#include <ccan/err/err.h>
#include <ccan/io/io.h>
#include <ccan/json_escape/json_escape.h>
#include <ccan/json_out/json_out.h>
#include <ccan/str/hex/hex.h>
#include <ccan/strmap/strmap.h>
#include <ccan/tal/str/str.h>
#include <common/bech32.h>
#include <common/configdir.h>
#include <common/json_command.h>
#include <common/jsonrpc_errors.h>
#include <common/memleak.h>
#include <common/param.h>
#include <common/timeout.h>
#include <common/version.h>
#include <common/wireaddr.h>
#include <errno.h>
#include <fcntl.h>
#include <lightningd/chaintopology.h>
#include <lightningd/json.h>
#include <lightningd/jsonrpc.h>
#include <lightningd/log.h>
#include <lightningd/memdump.h>
#include <lightningd/options.h>
#include <stdio.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/un.h>
/* Dummy structure. */
struct command_result {
char c;
};
static struct command_result param_failed, complete, pending, unknown;
struct command_result *command_param_failed(void)
{
return &param_failed;
}
struct command_result *command_its_complicated(const char *relationship_details
UNNEEDED)
{
return &unknown;
}
/* This represents a JSON RPC connection. It can invoke multiple commands, but
* a command can outlive the connection, which could close any time. */
struct json_connection {
/* The global state */
struct lightningd *ld;
/* This io_conn (and our owner!) */
struct io_conn *conn;
/* Logging for this json connection. */
struct log *log;
/* The buffer (required to interpret tokens). */
char *buffer;
/* Internal state: */
/* How much is already filled. */
size_t used;
/* How much has just been filled. */
size_t len_read;
/* Our commands */
struct list_head commands;
/* Our json_streams (owned by the commands themselves while running).
* Since multiple streams could start returning data at once, we
* always service these in order, freeing once empty. */
struct json_stream **js_arr;
};
/**
* `jsonrpc` encapsulates the entire state of the JSON-RPC interface,
* including a list of methods that the interface supports (can be
* appended dynamically, e.g., for plugins, and logs. It also serves
* as a convenient `tal`-parent for all JSON-RPC related allocations.
*/
struct jsonrpc {
struct io_listener *rpc_listener;
struct json_command **commands;
struct log *log;
/* Map from json command names to usage strings: we don't put this inside
* struct json_command as it's good practice to have those const. */
STRMAP(const char *) usagemap;
};
/* The command itself usually owns the stream, because jcon may get closed.
* The command transfers ownership once it's done though. */
static struct json_stream *jcon_new_json_stream(const tal_t *ctx,
struct json_connection *jcon,
struct command *writer)
{
struct json_stream *js = new_json_stream(ctx, writer, jcon->log);
/* Wake writer to start streaming, in case it's not already. */
io_wake(jcon);
/* FIXME: Keep streams around for recycling. */
tal_arr_expand(&jcon->js_arr, js);
return js;
}
static void jcon_remove_json_stream(struct json_connection *jcon,
struct json_stream *js)
{
for (size_t i = 0; i < tal_count(jcon->js_arr); i++) {
if (js != jcon->js_arr[i])
continue;
tal_arr_remove(&jcon->js_arr, i);
return;
}
abort();
}
/* jcon and cmd have separate lifetimes: we detach them on either destruction */
static void destroy_jcon(struct json_connection *jcon)
{
struct command *c;
list_for_each(&jcon->commands, c, list) {
log_debug(jcon->log, "Abandoning command %s", c->json_cmd->name);
c->jcon = NULL;
}
/* Make sure this happens last! */
tal_free(jcon->log);
}
static struct command_result *json_help(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params);
static const struct json_command help_command = {
"help",
"utility",
json_help,
"List available commands, or give verbose help on one {command}.",
.verbose = "help [command]\n"
"Without [command]:\n"
" Outputs an array of objects with 'command' and 'description'\n"
"With [command]:\n"
" Give a single object containing 'verbose', which completely describes\n"
" the command inputs and outputs."
};
AUTODATA(json_command, &help_command);
static struct command_result *json_stop(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
{
struct json_out *jout;
const char *p;
size_t len;
if (!param(cmd, buffer, params, NULL))
return command_param_failed();
/* This can't have closed yet! */
cmd->ld->stop_conn = cmd->jcon->conn;
log_unusual(cmd->ld->log, "JSON-RPC shutdown");
/* This is the one place where result is a literal string. */
jout = json_out_new(tmpctx);
json_out_start(jout, NULL, '{');
json_out_addstr(jout, "jsonrpc", "2.0");
/* id may be a string or number, so copy direct. */
memcpy(json_out_member_direct(jout, "id", strlen(cmd->id)),
cmd->id, strlen(cmd->id));
json_out_addstr(jout, "result", "Shutdown complete");
json_out_end(jout, '}');
json_out_finished(jout);
/* Add two \n */
memcpy(json_out_direct(jout, 2), "\n\n", strlen("\n\n"));
p = json_out_contents(jout, &len);
cmd->ld->stop_response = tal_strndup(cmd->ld, p, len);
/* Wake write loop in case it's not already. */
io_wake(cmd->jcon);
return command_still_pending(cmd);
}
static const struct json_command stop_command = {
"stop",
"utility",
json_stop,
"Shut down the lightningd process"
};
AUTODATA(json_command, &stop_command);
#if DEVELOPER
static struct command_result *json_rhash(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNUSED,
const jsmntok_t *params)
{
struct json_stream *response;
struct sha256 *secret;
if (!param(cmd, buffer, params,
p_req("secret", param_sha256, &secret),
NULL))
return command_param_failed();
/* Hash in place. */
sha256(secret, secret, sizeof(*secret));
response = json_stream_success(cmd);
json_add_hex(response, "rhash", secret, sizeof(*secret));
return command_success(cmd, response);
}
static const struct json_command dev_rhash_command = {
"dev-rhash",
"developer",
json_rhash,
"Show SHA256 of {secret}"
};
AUTODATA(json_command, &dev_rhash_command);
struct slowcmd {
struct command *cmd;
unsigned *msec;
struct json_stream *js;
};
static void slowcmd_finish(struct slowcmd *sc)
{
json_add_num(sc->js, "msec", *sc->msec);
was_pending(command_success(sc->cmd, sc->js));
}
static void slowcmd_start(struct slowcmd *sc)
{
sc->js = json_stream_success(sc->cmd);
new_reltimer(sc->cmd->ld->timers, sc, time_from_msec(*sc->msec),
slowcmd_finish, sc);
}
static struct command_result *json_dev(struct command *cmd UNUSED,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
{
const char *subcmd;
subcmd = param_subcommand(cmd, buffer, params,
"crash", "rhash", "slowcmd", NULL);
if (!subcmd)
return command_param_failed();
if (streq(subcmd, "crash")) {
if (!param(cmd, buffer, params,
p_req("subcommand", param_ignore, cmd),
NULL))
return command_param_failed();
fatal("Crash at user request");
} else if (streq(subcmd, "slowcmd")) {
struct slowcmd *sc = tal(cmd, struct slowcmd);
sc->cmd = cmd;
if (!param(cmd, buffer, params,
p_req("subcommand", param_ignore, cmd),
p_opt_def("msec", param_number, &sc->msec, 1000),
NULL))
return command_param_failed();
new_reltimer(cmd->ld->timers, sc, time_from_msec(0),
slowcmd_start, sc);
return command_still_pending(cmd);
} else {
assert(streq(subcmd, "rhash"));
struct json_stream *response;
struct sha256 *secret;
if (!param(cmd, buffer, params,
p_req("subcommand", param_ignore, cmd),
p_req("secret", param_sha256, &secret),
NULL))
return command_param_failed();
/* Hash in place. */
sha256(secret, secret, sizeof(*secret));
response = json_stream_success(cmd);
json_add_hex(response, "rhash", secret, sizeof(*secret));
return command_success(cmd, response);
}
}
static const struct json_command dev_command = {
"dev",
"developer",
json_dev,
"Developer command test multiplexer"
};
AUTODATA(json_command, &dev_command);
#endif /* DEVELOPER */
static size_t num_cmdlist;
static struct json_command **get_cmdlist(void)
{
static struct json_command **cmdlist;
if (!cmdlist)
cmdlist = autodata_get(json_command, &num_cmdlist);
return cmdlist;
}
static void json_add_help_command(struct command *cmd,
struct json_stream *response,
struct json_command *json_command)
{
char *usage;
usage = tal_fmt(cmd, "%s %s",
json_command->name,
strmap_get(&cmd->ld->jsonrpc->usagemap,
json_command->name));
json_object_start(response, NULL);
json_add_string(response, "command", usage);
json_add_string(response, "category", json_command->category);
json_add_string(response, "description", json_command->description);
if (!json_command->verbose) {
json_add_string(response, "verbose",
"HELP! Please contribute"
" a description for this"
" json_command!");
} else {
struct json_escape *esc;
esc = json_escape(NULL, json_command->verbose);
json_add_escaped_string(response, "verbose", take(esc));
}
json_object_end(response);
}
static const struct json_command *find_command(struct json_command **commands,
const char *buffer,
const jsmntok_t *cmdtok)
{
for (size_t i = 0; i < tal_count(commands); i++) {
if (json_tok_streq(buffer, cmdtok, commands[i]->name))
return commands[i];
}
return NULL;
}
static int compare_commands_name(struct json_command *const *a,
struct json_command *const *b, void *unused)
{
return strcmp((*a)->name, (*b)->name);
}
static struct command_result *json_help(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
{
struct json_stream *response;
const jsmntok_t *cmdtok;
struct json_command **commands;
const struct json_command *one_cmd;
if (!param(cmd, buffer, params,
p_opt("command", param_tok, &cmdtok),
NULL))
return command_param_failed();
commands = cmd->ld->jsonrpc->commands;
if (cmdtok) {
one_cmd = find_command(commands, buffer, cmdtok);
if (!one_cmd)
return command_fail(cmd, JSONRPC2_METHOD_NOT_FOUND,
"Unknown command '%.*s'",
cmdtok->end - cmdtok->start,
buffer + cmdtok->start);
} else
one_cmd = NULL;
asort(commands, tal_count(commands), compare_commands_name, NULL);
response = json_stream_success(cmd);
json_array_start(response, "help");
for (size_t i = 0; i < tal_count(commands); i++) {
if (!one_cmd || one_cmd == commands[i])
json_add_help_command(cmd, response, commands[i]);
}
json_array_end(response);
/* Tell cli this is simple enough to be formatted flat for humans */
json_add_string(response, "format-hint", "simple");
return command_success(cmd, response);
}
static const struct json_command *find_cmd(const struct jsonrpc *rpc,
const char *buffer,
const jsmntok_t *tok)
{
struct json_command **commands = rpc->commands;
for (size_t i = 0; i < tal_count(commands); i++)
if (json_tok_streq(buffer, tok, commands[i]->name))
return commands[i];
return NULL;
}
/* This can be called directly on shutdown, even with unfinished cmd */
static void destroy_command(struct command *cmd)
{
if (!cmd->jcon) {
log_debug(cmd->ld->log,
"Command returned result after jcon close");
return;
}
list_del_from(&cmd->jcon->commands, &cmd->list);
}
struct command_result *command_raw_complete(struct command *cmd,
struct json_stream *result)
{
json_stream_close(result, cmd);
/* If we have a jcon, it will free result for us. */
if (cmd->jcon)
tal_steal(cmd->jcon, result);
tal_free(cmd);
return &complete;
}
struct command_result *command_success(struct command *cmd,
struct json_stream *result)
{
assert(cmd);
assert(cmd->json_stream == result);
json_object_end(result);
json_object_compat_end(result);
return command_raw_complete(cmd, result);
}
struct command_result *command_failed(struct command *cmd,
struct json_stream *result)
{
assert(cmd->json_stream == result);
/* Have to close error */
json_object_end(result);
json_object_compat_end(result);
return command_raw_complete(cmd, result);
}
struct command_result *command_fail(struct command *cmd, int code,
const char *fmt, ...)
{
const char *errmsg;
struct json_stream *r;
va_list ap;
va_start(ap, fmt);
errmsg = tal_vfmt(cmd, fmt, ap);
va_end(ap);
r = json_stream_fail_nodata(cmd, code, errmsg);
return command_failed(cmd, r);
}
struct command_result *command_still_pending(struct command *cmd)
{
notleak_with_children(cmd);
cmd->pending = true;
/* If we've started writing, wake reader. */
if (cmd->json_stream)
json_stream_flush(cmd->json_stream);
return &pending;
}
static void json_command_malformed(struct json_connection *jcon,
const char *id,
const char *error)
{
/* NULL writer is OK here, since we close it immediately. */
struct json_stream *js = jcon_new_json_stream(jcon, jcon, NULL);
json_object_start(js, NULL);
json_add_string(js, "jsonrpc", "2.0");
json_add_literal(js, "id", id, strlen(id));
json_object_start(js, "error");
json_add_member(js, "code", false, "%d", JSONRPC2_INVALID_REQUEST);
json_add_string(js, "message", error);
json_object_end(js);
json_object_compat_end(js);
json_stream_close(js, NULL);
}
struct json_stream *json_stream_raw_for_cmd(struct command *cmd)
{
struct json_stream *js;
/* If they still care about the result, attach it to them. */
if (cmd->jcon)
js = jcon_new_json_stream(cmd, cmd->jcon, cmd);
else
js = new_json_stream(cmd, cmd, NULL);
assert(!cmd->json_stream);
cmd->json_stream = js;
return js;
}
void json_stream_log_suppress_for_cmd(struct json_stream *js,
const struct command *cmd)
{
const char *nm = cmd->json_cmd->name;
const char *s = tal_fmt(tmpctx, "Suppressing logging of %s command", nm);
log_io(cmd->jcon->log, LOG_IO_OUT, s, NULL, 0);
json_stream_log_suppress(js, strdup(nm));
}
static struct json_stream *json_start(struct command *cmd)
{
struct json_stream *js = json_stream_raw_for_cmd(cmd);
json_object_start(js, NULL);
json_add_string(js, "jsonrpc", "2.0");
json_add_literal(js, "id", cmd->id, strlen(cmd->id));
return js;
}
struct json_stream *json_stream_success(struct command *cmd)
{
struct json_stream *r = json_start(cmd);
json_object_start(r, "result");
return r;
}
struct json_stream *json_stream_fail_nodata(struct command *cmd,
int code,
const char *errmsg)
{
struct json_stream *js = json_start(cmd);
assert(code);
json_object_start(js, "error");
json_add_member(js, "code", false, "%d", code);
json_add_string(js, "message", errmsg);
return js;
}
struct json_stream *json_stream_fail(struct command *cmd,
int code,
const char *errmsg)
{
struct json_stream *r = json_stream_fail_nodata(cmd, code, errmsg);
json_object_start(r, "data");
return r;
}
/* We return struct command_result so command_fail return value has a natural
* sink; we don't actually use the result. */
static struct command_result *
parse_request(struct json_connection *jcon, const jsmntok_t tok[])
{
const jsmntok_t *method, *id, *params;
struct command *c;
struct command_result *res;
if (tok[0].type != JSMN_OBJECT) {
json_command_malformed(jcon, "null",
"Expected {} for json command");
return NULL;
}
method = json_get_member(jcon->buffer, tok, "method");
params = json_get_member(jcon->buffer, tok, "params");
id = json_get_member(jcon->buffer, tok, "id");
if (!id) {
json_command_malformed(jcon, "null", "No id");
return NULL;
}
if (id->type != JSMN_STRING && id->type != JSMN_PRIMITIVE) {
json_command_malformed(jcon, "null",
"Expected string/primitive for id");
return NULL;
}
/* Allocate the command off of the `jsonrpc` object and not
* the connection since the command may outlive `conn`. */
c = tal(jcon->ld->jsonrpc, struct command);
c->jcon = jcon;
c->ld = jcon->ld;
c->pending = false;
c->json_stream = NULL;
c->id = tal_strndup(c,
json_tok_full(jcon->buffer, id),
json_tok_full_len(id));
c->mode = CMD_NORMAL;
list_add_tail(&jcon->commands, &c->list);
tal_add_destructor(c, destroy_command);
if (!method || !params) {
return command_fail(c, JSONRPC2_INVALID_REQUEST,
method ? "No params" : "No method");
}
if (method->type != JSMN_STRING) {
return command_fail(c, JSONRPC2_INVALID_REQUEST,
"Expected string for method");
}
c->json_cmd = find_cmd(jcon->ld->jsonrpc, jcon->buffer, method);
if (!c->json_cmd) {
return command_fail(
c, JSONRPC2_METHOD_NOT_FOUND, "Unknown command '%.*s'",
method->end - method->start, jcon->buffer + method->start);
}
if (c->json_cmd->deprecated && !deprecated_apis) {
return command_fail(c, JSONRPC2_METHOD_NOT_FOUND,
"Command '%.*s' is deprecated",
method->end - method->start,
jcon->buffer + method->start);
}
db_begin_transaction(jcon->ld->wallet->db);
res = c->json_cmd->dispatch(c, jcon->buffer, tok, params);
db_commit_transaction(jcon->ld->wallet->db);
assert(res == &param_failed
|| res == &complete
|| res == &pending
|| res == &unknown);
/* If they didn't complete it, they must call command_still_pending.
* If they completed it, it's freed already. */
if (res == &pending)
assert(c->pending);
list_for_each(&jcon->commands, c, list)
assert(c->pending);
return res;
}
/* Mutual recursion */
static struct io_plan *stream_out_complete(struct io_conn *conn,
struct json_stream *js,
struct json_connection *jcon);
static struct io_plan *start_json_stream(struct io_conn *conn,
struct json_connection *jcon)
{
/* If something has created an output buffer, start streaming. */
if (tal_count(jcon->js_arr))
return json_stream_output(jcon->js_arr[0], conn,
stream_out_complete, jcon);
/* Tell reader it can run next command. */
io_wake(conn);
/* Once the stop_conn conn is drained, we can shut down. */
if (jcon->ld->stop_conn == conn) {
/* Return us to toplevel lightningd.c */
io_break(jcon->ld);
/* We never come back. */
return io_out_wait(conn, conn, io_never, conn);
}
return io_out_wait(conn, jcon, start_json_stream, jcon);
}
/* Command has completed writing, and we've written it all out to conn. */
static struct io_plan *stream_out_complete(struct io_conn *conn,
struct json_stream *js,
struct json_connection *jcon)
{
jcon_remove_json_stream(jcon, js);
tal_free(js);
/* Wait for more output. */
return start_json_stream(conn, jcon);
}
static struct io_plan *read_json(struct io_conn *conn,
struct json_connection *jcon)
{
jsmntok_t *toks;
bool valid;
if (jcon->len_read)
log_io(jcon->log, LOG_IO_IN, "",
jcon->buffer + jcon->used, jcon->len_read);
/* Resize larger if we're full. */
jcon->used += jcon->len_read;
if (jcon->used == tal_count(jcon->buffer))
tal_resize(&jcon->buffer, jcon->used * 2);
/* We wait for pending output to be consumed, to avoid DoS */
if (tal_count(jcon->js_arr) != 0) {
jcon->len_read = 0;
return io_wait(conn, conn, read_json, jcon);
}
toks = json_parse_input(jcon->buffer, jcon->buffer, jcon->used, &valid);
if (!toks) {
if (!valid) {
log_unusual(jcon->log,
"Invalid token in json input: '%.*s'",
(int)jcon->used, jcon->buffer);
json_command_malformed(
jcon, "null",
"Invalid token in json input");
return io_halfclose(conn);
}
/* We need more. */
goto read_more;
}
/* Empty buffer? (eg. just whitespace). */
if (tal_count(toks) == 1) {
jcon->used = 0;
goto read_more;
}
parse_request(jcon, toks);
/* Remove first {}. */
memmove(jcon->buffer, jcon->buffer + toks[0].end,
tal_count(jcon->buffer) - toks[0].end);
jcon->used -= toks[0].end;
/* If we have more to process, try again. FIXME: this still gets
* first priority in io_loop, so can starve others. Hack would be
* a (non-zero) timer, but better would be to have io_loop avoid
* such livelock */
if (jcon->used) {
tal_free(toks);
jcon->len_read = 0;
return io_always(conn, read_json, jcon);
}
read_more:
tal_free(toks);
return io_read_partial(conn, jcon->buffer + jcon->used,
tal_count(jcon->buffer) - jcon->used,
&jcon->len_read, read_json, jcon);
}
static struct io_plan *jcon_connected(struct io_conn *conn,
struct lightningd *ld)
{
struct json_connection *jcon;
/* We live as long as the connection, so we're not a leak. */
jcon = notleak(tal(conn, struct json_connection));
jcon->conn = conn;
jcon->ld = ld;
jcon->used = 0;
jcon->buffer = tal_arr(jcon, char, 64);
jcon->js_arr = tal_arr(jcon, struct json_stream *, 0);
jcon->len_read = 0;
list_head_init(&jcon->commands);
/* We want to log on destruction, so we free this in destructor. */
jcon->log = new_log(ld->log_book, ld->log_book, "%sjcon fd %i:",
log_prefix(ld->log), io_conn_fd(conn));
tal_add_destructor(jcon, destroy_jcon);
/* Note that write_json and read_json alternate manually, by waking
* each other. It would be simpler to not use a duplex io, and have
* read_json parse one command, then io_wait() for command completion
* and go to write_json.
*
* However, if we ever have notifications, this neat cmd-response
* pattern would break down, so we use this trick. */
return io_duplex(conn,
read_json(conn, jcon),
start_json_stream(conn, jcon));
}
static struct io_plan *incoming_jcon_connected(struct io_conn *conn,
struct lightningd *ld)
{
/* Lifetime of JSON conn is limited to fd connect time. */
return jcon_connected(notleak(conn), ld);
}
static void destroy_json_command(struct json_command *command, struct jsonrpc *rpc)
{
strmap_del(&rpc->usagemap, command->name, NULL);
for (size_t i = 0; i < tal_count(rpc->commands); i++) {
if (rpc->commands[i] == command) {
tal_arr_remove(&rpc->commands, i);
return;
}
}
abort();
}
static bool command_add(struct jsonrpc *rpc, struct json_command *command)
{
size_t count = tal_count(rpc->commands);
/* Check that we don't clobber a method */
for (size_t i = 0; i < count; i++)
if (streq(rpc->commands[i]->name, command->name))
return false;
tal_arr_expand(&rpc->commands, command);
return true;
}
/* Built-in commands get called to construct usage string via param() */
static void setup_command_usage(struct lightningd *ld,
struct json_command *command)
{
const struct command_result *res;
struct command *dummy;
/* Call it with minimal cmd, to fill out usagemap */
dummy = tal(tmpctx, struct command);
dummy->mode = CMD_USAGE;
dummy->ld = ld;
dummy->json_cmd = command;
res = command->dispatch(dummy, NULL, NULL, NULL);
assert(res == &param_failed);
assert(strmap_get(&ld->jsonrpc->usagemap, command->name));
}
bool jsonrpc_command_add(struct jsonrpc *rpc, struct json_command *command,
const char *usage TAKES)
{
if (!command_add(rpc, command))
return false;
usage = tal_strdup(command, usage);
strmap_add(&rpc->usagemap, command->name, usage);
tal_add_destructor2(command, destroy_json_command, rpc);
return true;
}
static bool jsonrpc_command_add_perm(struct lightningd *ld,
struct jsonrpc *rpc,
struct json_command *command)
{
if (!command_add(rpc, command))
return false;
setup_command_usage(ld, command);
return true;
}
static void destroy_jsonrpc(struct jsonrpc *jsonrpc)
{
strmap_clear(&jsonrpc->usagemap);
}
void jsonrpc_setup(struct lightningd *ld)
{
struct json_command **commands = get_cmdlist();
ld->rpc_filename = default_rpcfile(ld);
ld->jsonrpc = tal(ld, struct jsonrpc);
strmap_init(&ld->jsonrpc->usagemap);
ld->jsonrpc->commands = tal_arr(ld->jsonrpc, struct json_command *, 0);
ld->jsonrpc->log = new_log(ld->jsonrpc, ld->log_book, "jsonrpc");
for (size_t i=0; i<num_cmdlist; i++) {
if (!jsonrpc_command_add_perm(ld, ld->jsonrpc, commands[i]))
fatal("Cannot add duplicate command %s",
commands[i]->name);
}
ld->jsonrpc->rpc_listener = NULL;
tal_add_destructor(ld->jsonrpc, destroy_jsonrpc);
}
bool command_usage_only(const struct command *cmd)
{
return cmd->mode == CMD_USAGE;
}
void command_set_usage(struct command *cmd, const char *usage TAKES)
{
usage = tal_strdup(cmd->ld, usage);
if (!strmap_add(&cmd->ld->jsonrpc->usagemap, cmd->json_cmd->name, usage))
fatal("Two usages for command %s?", cmd->json_cmd->name);
}
bool command_check_only(const struct command *cmd)
{
return cmd->mode == CMD_CHECK;
}
void jsonrpc_listen(struct jsonrpc *jsonrpc, struct lightningd *ld)
{
struct sockaddr_un addr;
int fd, old_umask;
const char *rpc_filename = ld->rpc_filename;
/* Should not initialize it twice. */
assert(!jsonrpc->rpc_listener);
if (streq(rpc_filename, "/dev/tty")) {
fd = open(rpc_filename, O_RDWR);
if (fd == -1)
err(1, "Opening %s", rpc_filename);
/* Technically this is a leak, but there's only one */
notleak(io_new_conn(ld, fd, jcon_connected, ld));
return;
}
fd = socket(AF_UNIX, SOCK_STREAM, 0);
if (fd < 0) {
errx(1, "domain socket creation failed");
}
if (strlen(rpc_filename) + 1 > sizeof(addr.sun_path))
errx(1, "rpc filename '%s' too long", rpc_filename);
strcpy(addr.sun_path, rpc_filename);
addr.sun_family = AF_UNIX;
/* Of course, this is racy! */
if (connect(fd, (struct sockaddr *)&addr, sizeof(addr)) == 0)
errx(1, "rpc filename '%s' in use", rpc_filename);
unlink(rpc_filename);
/* This file is only rw by us! */
old_umask = umask(0177);
if (bind(fd, (struct sockaddr *)&addr, sizeof(addr)))
err(1, "Binding rpc socket to '%s'", rpc_filename);
umask(old_umask);
if (listen(fd, 1) != 0)
err(1, "Listening on '%s'", rpc_filename);
jsonrpc->rpc_listener = io_new_listener(
ld->rpc_filename, fd, incoming_jcon_connected, ld);
log_debug(jsonrpc->log, "Listening on '%s'", ld->rpc_filename);
}
/**
* segwit_addr_net_decode - Try to decode a Bech32 address and detect
* testnet/mainnet/regtest/signet
*
* This processes the address and returns a string if it is a Bech32
* address specified by BIP173. The string is set whether it is
* testnet ("tb"), mainnet ("bc"), regtest ("bcrt"), or signet ("sb")
* It does not check, witness version and program size restrictions.
*
* Out: witness_version: Pointer to an int that will be updated to contain
* the witness program version (between 0 and 16 inclusive).
* witness_program: Pointer to a buffer of size 40 that will be updated
* to contain the witness program bytes.
* witness_program_len: Pointer to a size_t that will be updated to
* contain the length of bytes in witness_program.
* In: addrz: Pointer to the null-terminated address.
* Returns string containing the human readable segment of bech32 address
*/
static const char *segwit_addr_net_decode(int *witness_version,
uint8_t *witness_program,
size_t *witness_program_len,
const char *addrz,
const struct chainparams *chainparams)
{
if (segwit_addr_decode(witness_version, witness_program,
witness_program_len, chainparams->bip173_name,
addrz))
return chainparams->bip173_name;
else
return NULL;
}
enum address_parse_result
json_tok_address_scriptpubkey(const tal_t *cxt,
const struct chainparams *chainparams,
const char *buffer,
const jsmntok_t *tok, const u8 **scriptpubkey)
{
struct bitcoin_address destination;
int witness_version;
/* segwit_addr_net_decode requires a buffer of size 40, and will
* not write to the buffer if the address is too long, so a buffer
* of fixed size 40 will not overflow. */
uint8_t witness_program[40];
size_t witness_program_len;
char *addrz;
const char *bip173;
bool parsed;
bool right_network;
u8 addr_version;
parsed =
ripemd160_from_base58(&addr_version, &destination.addr,
buffer + tok->start, tok->end - tok->start);
if (parsed) {
if (addr_version == chainparams->p2pkh_version) {
*scriptpubkey = scriptpubkey_p2pkh(cxt, &destination);
return ADDRESS_PARSE_SUCCESS;
} else if (addr_version == chainparams->p2sh_version) {
*scriptpubkey =
scriptpubkey_p2sh_hash(cxt, &destination.addr);
return ADDRESS_PARSE_SUCCESS;
} else {
return ADDRESS_PARSE_WRONG_NETWORK;
}
/* Insert other parsers that accept pointer+len here. */
}
/* Generate null-terminated address. */
addrz = tal_dup_arr(cxt, char, buffer + tok->start, tok->end - tok->start, 1);
addrz[tok->end - tok->start] = '\0';
bip173 = segwit_addr_net_decode(&witness_version, witness_program,
&witness_program_len, addrz, chainparams);
if (bip173) {
bool witness_ok = false;
if (witness_version == 0 && (witness_program_len == 20 ||
witness_program_len == 32)) {
witness_ok = true;
}
/* Insert other witness versions here. */
if (witness_ok) {
*scriptpubkey = scriptpubkey_witness_raw(cxt, witness_version,
witness_program, witness_program_len);
parsed = true;
right_network = streq(bip173, chainparams->bip173_name);
}
}
/* Insert other parsers that accept null-terminated string here. */
tal_free(addrz);
if (parsed) {
if (right_network)
return ADDRESS_PARSE_SUCCESS;
else
return ADDRESS_PARSE_WRONG_NETWORK;
}
return ADDRESS_PARSE_UNRECOGNIZED;
}
static struct command_result *param_command(struct command *cmd,
const char *name,
const char *buffer,
const jsmntok_t *tok,
const jsmntok_t **out)
{
cmd->json_cmd = find_cmd(cmd->jcon->ld->jsonrpc, buffer, tok);
if (cmd->json_cmd) {
*out = tok;
return NULL;
}
return command_fail(cmd, JSONRPC2_METHOD_NOT_FOUND,
"Unknown command '%.*s'",
tok->end - tok->start, buffer + tok->start);
}
struct jsonrpc_notification *jsonrpc_notification_start(const tal_t *ctx, const char *method)
{
struct jsonrpc_notification *n = tal(ctx, struct jsonrpc_notification);
n->method = tal_strdup(n, method);
n->stream = new_json_stream(n, NULL, NULL);
json_object_start(n->stream, NULL);
json_add_string(n->stream, "jsonrpc", "2.0");
json_add_string(n->stream, "method", method);
json_object_start(n->stream, "params");
return n;
}
void jsonrpc_notification_end(struct jsonrpc_notification *n)
{
json_object_end(n->stream); /* closes '.params' */
json_object_end(n->stream); /* closes '.' */
/* We guarantee to have \n\n at end of each response. */
json_stream_append(n->stream, "\n\n", strlen("\n\n"));
}
struct jsonrpc_request *jsonrpc_request_start_(
const tal_t *ctx, const char *method, struct log *log,
void (*response_cb)(const char *buffer, const jsmntok_t *toks,
const jsmntok_t *idtok, void *),
void *response_cb_arg)
{
struct jsonrpc_request *r = tal(ctx, struct jsonrpc_request);
static u64 next_request_id = 0;
r->id = next_request_id++;
r->response_cb = response_cb;
r->response_cb_arg = response_cb_arg;
r->method = NULL;
r->stream = new_json_stream(r, NULL, log);
/* If no method is specified we don't prefill the JSON-RPC
* request with the header. This serves as an escape hatch to
* get a raw request, but get a valid request-id assigned. */
if (method != NULL) {
r->method = tal_strdup(r, method);
json_object_start(r->stream, NULL);
json_add_string(r->stream, "jsonrpc", "2.0");
json_add_u64(r->stream, "id", r->id);
json_add_string(r->stream, "method", method);
json_object_start(r->stream, "params");
}
return r;
}
void jsonrpc_request_end(struct jsonrpc_request *r)
{
json_object_end(r->stream); /* closes '.params' */
json_object_end(r->stream); /* closes '.' */
/* We guarantee to have \n\n at end of each response. */
json_stream_append(r->stream, "\n\n", strlen("\n\n"));
}
/* We add this destructor as a canary to detect cmd failing. */
static void destroy_command_canary(struct command *cmd, bool *failed)
{
*failed = true;
}
static struct command_result *json_check(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
{
jsmntok_t *mod_params;
const jsmntok_t *name_tok;
bool failed;
struct json_stream *response;
struct command_result *res;
if (cmd->mode == CMD_USAGE) {
mod_params = NULL;
} else {
mod_params = json_tok_copy(cmd, params);
}
if (!param(cmd, buffer, mod_params,
p_req("command_to_check", param_command, &name_tok),
p_opt_any(),
NULL))
return command_param_failed();
/* Point name_tok to the name, not the value */
if (params->type == JSMN_OBJECT)
name_tok--;
json_tok_remove(&mod_params, mod_params, name_tok, 1);
cmd->mode = CMD_CHECK;
failed = false;
tal_add_destructor2(cmd, destroy_command_canary, &failed);
res = cmd->json_cmd->dispatch(cmd, buffer, mod_params, mod_params);
/* CMD_CHECK always makes it "fail" parameter parsing. */
assert(res == &param_failed);
if (failed)
return res;
response = json_stream_success(cmd);
json_add_string(response, "command_to_check", cmd->json_cmd->name);
return command_success(cmd, response);
}
static const struct json_command check_command = {
"check",
"utility",
json_check,
"Don't run {command_to_check}, just verify parameters.",
.verbose = "check command_to_check [parameters...]\n"
};
AUTODATA(json_command, &check_command);
#if DEVELOPER
void jsonrpc_remove_memleak(struct htable *memtable,
const struct jsonrpc *jsonrpc)
{
memleak_remove_strmap(memtable, &jsonrpc->usagemap);
}
#endif /* DEVELOPER */