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#include <bitcoin/chainparams.h>
#include <ccan/err/err.h>
#include <ccan/intmap/intmap.h>
#include <ccan/json_out/json_out.h>
#include <ccan/membuf/membuf.h>
#include <ccan/read_write_all/read_write_all.h>
#include <ccan/strmap/strmap.h>
#include <ccan/tal/str/str.h>
#include <ccan/timer/timer.h>
#include <common/daemon.h>
#include <common/utils.h>
#include <errno.h>
#include <poll.h>
#include <plugins/libplugin.h>
#include <stdarg.h>
#include <string.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <sys/un.h>
#include <unistd.h>
#define READ_CHUNKSIZE 4096
/* Tracking requests */
static UINTMAP(struct out_req *) out_reqs;
static u64 next_outreq_id;
/* 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. */
static STRMAP(const char *) usagemap;
/* Timers */
static struct timers timers;
static size_t in_timer;
bool deprecated_apis;
const struct chainparams *chainparams;
struct plugin_timer {
struct timer timer;
struct command_result *(*cb)(void);
};
struct plugin_conn {
int fd;
MEMBUF(char) mb;
};
/* Connection to make RPC requests. */
static struct plugin_conn rpc_conn;
struct command {
u64 id;
const char *methodname;
bool usage_only;
};
struct out_req {
/* The unique id of this request. */
u64 id;
/* The command which is why we're calling this rpc. */
struct command *cmd;
/* The callback when we get a response. */
struct command_result *(*cb)(struct command *command,
const char *buf,
const jsmntok_t *result,
void *arg);
/* The callback when we get an error. */
struct command_result *(*errcb)(struct command *command,
const char *buf,
const jsmntok_t *error,
void *arg);
void *arg;
};
/* command_result is mainly used as a compile-time check to encourage you
* to return as soon as you get one (and not risk use-after-free of command).
* Here we use two values: complete (cmd freed) an pending (still going) */
struct command_result {
char c;
};
static struct command_result complete, pending;
struct command_result *command_param_failed(void)
{
return &complete;
}
struct json_out *json_out_obj(const tal_t *ctx,
const char *fieldname,
const char *str)
{
struct json_out *jout = json_out_new(ctx);
json_out_start(jout, NULL, '{');
if (str)
json_out_addstr(jout, fieldname, str);
json_out_end(jout, '}');
json_out_finished(jout);
return jout;
}
/* Realloc helper for tal membufs */
static void *membuf_tal_realloc(struct membuf *mb, void *rawelems,
size_t newsize)
{
char *p = rawelems;
tal_resize(&p, newsize);
return p;
}
static int read_json(struct plugin_conn *conn)
{
char *end;
/* We rely on the double-\n marker which only terminates JSON top
* levels. Thanks lightningd! */
while ((end = memmem(membuf_elems(&conn->mb),
membuf_num_elems(&conn->mb), "\n\n", 2))
== NULL) {
ssize_t r;
/* Make sure we've room for at least READ_CHUNKSIZE. */
membuf_prepare_space(&conn->mb, READ_CHUNKSIZE);
r = read(conn->fd, membuf_space(&conn->mb),
membuf_num_space(&conn->mb));
/* lightningd goes away, we go away. */
if (r == 0)
exit(0);
if (r < 0)
plugin_err("Reading JSON input: %s", strerror(errno));
membuf_added(&conn->mb, r);
}
return end + 2 - membuf_elems(&conn->mb);
}
static struct command *read_json_request(const tal_t *ctx,
struct plugin_conn *conn,
struct plugin_conn *rpc,
const jsmntok_t **params,
int *reqlen)
{
const jsmntok_t *toks, *id, *method;
bool valid;
struct command *cmd = tal(ctx, struct command);
*reqlen = read_json(conn);
toks = json_parse_input(cmd, membuf_elems(&conn->mb), *reqlen, &valid);
if (!valid)
plugin_err("Malformed JSON input '%.*s'",
*reqlen, membuf_elems(&conn->mb));
if (toks[0].type != JSMN_OBJECT)
plugin_err("Malformed JSON command '%*.s' is not an object",
*reqlen, membuf_elems(&conn->mb));
method = json_get_member(membuf_elems(&conn->mb), toks, "method");
*params = json_get_member(membuf_elems(&conn->mb), toks, "params");
/* FIXME: Notifications don't have id! */
id = json_get_member(membuf_elems(&conn->mb), toks, "id");
if (!json_to_u64(membuf_elems(&conn->mb), id, &cmd->id))
plugin_err("JSON id '%*.s' is not a number",
id->end - id->start,
membuf_elems(&conn->mb) + id->start);
cmd->usage_only = false;
cmd->methodname = json_strdup(cmd, membuf_elems(&conn->mb), method);
return cmd;
}
/* This starts a JSON RPC message with boilerplate */
static struct json_out *start_json_rpc(const tal_t *ctx, u64 id)
{
struct json_out *jout = json_out_new(ctx);
json_out_start(jout, NULL, '{');
json_out_addstr(jout, "jsonrpc", "2.0");
json_out_add(jout, "id", false, "%"PRIu64, id);
return jout;
}
/* This closes a JSON response and writes it out. */
static void finish_and_send_json(int fd, struct json_out *jout)
{
size_t len;
const char *p;
json_out_end(jout, '}');
/* We double-\n terminate. Don't need to, but it's more readable. */
memcpy(json_out_direct(jout, 2), "\n\n", 2);
json_out_finished(jout);
p = json_out_contents(jout, &len);
write_all(fd, p, len);
json_out_consume(jout, len);
}
/* param.c is insistant on functions returning 'struct command_result'; we
* just always return NULL. */
static struct command_result *WARN_UNUSED_RESULT end_cmd(struct command *cmd)
{
tal_free(cmd);
return &complete;
}
/* str is raw JSON from RPC output. */
static struct command_result *WARN_UNUSED_RESULT
command_done_raw(struct command *cmd,
const char *label,
const char *str, int size)
{
struct json_out *jout = start_json_rpc(cmd, cmd->id);
memcpy(json_out_member_direct(jout, label, size), str, size);
finish_and_send_json(STDOUT_FILENO, jout);
return end_cmd(cmd);
}
struct command_result *WARN_UNUSED_RESULT
command_success(struct command *cmd, const struct json_out *result)
{
struct json_out *jout = start_json_rpc(cmd, cmd->id);
json_out_add_splice(jout, "result", result);
finish_and_send_json(STDOUT_FILENO, jout);
return end_cmd(cmd);
}
struct command_result *WARN_UNUSED_RESULT
command_success_str(struct command *cmd, const char *str)
{
struct json_out *jout = start_json_rpc(cmd, cmd->id);
if (str)
json_out_addstr(jout, "result", str);
else {
/* Use an empty object if they don't want anything. */
json_out_start(jout, "result", '{');
json_out_end(jout, '}');
}
finish_and_send_json(STDOUT_FILENO, jout);
return end_cmd(cmd);
}
struct command_result *command_done_err(struct command *cmd,
int code,
const char *errmsg,
const struct json_out *data)
{
struct json_out *jout = start_json_rpc(cmd, cmd->id);
json_out_start(jout, "error", '{');
json_out_add(jout, "code", false, "%d", code);
json_out_addstr(jout, "message", errmsg);
if (data)
json_out_add_splice(jout, "data", data);
json_out_end(jout, '}');
finish_and_send_json(STDOUT_FILENO, jout);
return end_cmd(cmd);
}
struct command_result *command_err_raw(struct command *cmd,
const char *json_str)
{
return command_done_raw(cmd, "error",
json_str, strlen(json_str));
}
struct command_result *timer_complete(void)
{
assert(in_timer > 0);
in_timer--;
return &complete;
}
struct command_result *forward_error(struct command *cmd,
const char *buf,
const jsmntok_t *error,
void *arg UNNEEDED)
{
/* Push through any errors. */
return command_done_raw(cmd, "error",
buf + error->start, error->end - error->start);
}
struct command_result *forward_result(struct command *cmd,
const char *buf,
const jsmntok_t *result,
void *arg UNNEEDED)
{
/* Push through the result. */
return command_done_raw(cmd, "result",
buf + result->start, result->end - result->start);
}
/* Called by param() directly if it's malformed. */
struct command_result *command_fail(struct command *cmd,
int code, const char *fmt, ...)
{
va_list ap;
struct command_result *res;
va_start(ap, fmt);
res = command_done_err(cmd, code, tal_vfmt(cmd, fmt, ap), NULL);
va_end(ap);
return res;
}
/* We invoke param for usage at registration time. */
bool command_usage_only(const struct command *cmd)
{
return cmd->usage_only;
}
/* FIXME: would be good to support this! */
bool command_check_only(const struct command *cmd)
{
return false;
}
void command_set_usage(struct command *cmd, const char *usage TAKES)
{
usage = tal_strdup(NULL, usage);
if (!strmap_add(&usagemap, cmd->methodname, usage))
plugin_err("Two usages for command %s?", cmd->methodname);
}
/* Reads rpc reply and returns tokens, setting contents to 'error' or
* 'result' (depending on *error). */
static const jsmntok_t *read_rpc_reply(const tal_t *ctx,
struct plugin_conn *rpc,
const jsmntok_t **contents,
bool *error,
int *reqlen)
{
const jsmntok_t *toks;
bool valid;
*reqlen = read_json(rpc);
toks = json_parse_input(ctx, membuf_elems(&rpc->mb), *reqlen, &valid);
if (!valid)
plugin_err("Malformed JSON reply '%.*s'",
*reqlen, membuf_elems(&rpc->mb));
*contents = json_get_member(membuf_elems(&rpc->mb), toks, "error");
if (*contents)
*error = true;
else {
*contents = json_get_member(membuf_elems(&rpc->mb), toks,
"result");
if (!*contents)
plugin_err("JSON reply with no 'result' nor 'error'? '%.*s'",
*reqlen, membuf_elems(&rpc->mb));
*error = false;
}
return toks;
}
static struct json_out *start_json_request(const tal_t *ctx,
u64 id,
const char *method,
const struct json_out *params TAKES)
{
struct json_out *jout;
jout = start_json_rpc(tmpctx, id);
json_out_addstr(jout, "method", method);
json_out_add_splice(jout, "params", params);
if (taken(params))
tal_free(params);
return jout;
}
/* Synchronous routine to send command and extract single field from response */
const char *rpc_delve(const tal_t *ctx,
const char *method,
const struct json_out *params TAKES,
struct plugin_conn *rpc, const char *guide)
{
bool error;
const jsmntok_t *contents, *t;
int reqlen;
const char *ret;
struct json_out *jout;
jout = start_json_request(tmpctx, 0, method, params);
finish_and_send_json(rpc->fd, jout);
read_rpc_reply(tmpctx, rpc, &contents, &error, &reqlen);
if (error)
plugin_err("Got error reply to %s: '%.*s'",
method, reqlen, membuf_elems(&rpc->mb));
t = json_delve(membuf_elems(&rpc->mb), contents, guide);
if (!t)
plugin_err("Could not find %s in reply to %s: '%.*s'",
guide, method, reqlen, membuf_elems(&rpc->mb));
ret = json_strdup(ctx, membuf_elems(&rpc->mb), t);
membuf_consume(&rpc->mb, reqlen);
return ret;
}
static void handle_rpc_reply(struct plugin_conn *rpc)
{
int reqlen;
const jsmntok_t *toks, *contents, *t;
struct out_req *out;
struct command_result *res;
u64 id;
bool error;
toks = read_rpc_reply(tmpctx, rpc, &contents, &error, &reqlen);
t = json_get_member(membuf_elems(&rpc->mb), toks, "id");
if (!t)
plugin_err("JSON reply without id '%.*s'",
reqlen, membuf_elems(&rpc->mb));
if (!json_to_u64(membuf_elems(&rpc->mb), t, &id))
plugin_err("JSON reply without numeric id '%.*s'",
reqlen, membuf_elems(&rpc->mb));
out = uintmap_get(&out_reqs, id);
if (!out)
plugin_err("JSON reply with unknown id '%.*s' (%"PRIu64")",
reqlen, membuf_elems(&rpc->mb), id);
/* We want to free this if callback doesn't. */
tal_steal(tmpctx, out);
uintmap_del(&out_reqs, out->id);
if (error)
res = out->errcb(out->cmd, membuf_elems(&rpc->mb), contents,
out->arg);
else
res = out->cb(out->cmd, membuf_elems(&rpc->mb), contents,
out->arg);
assert(res == &pending || res == &complete);
membuf_consume(&rpc->mb, reqlen);
}
struct command_result *
send_outreq_(struct command *cmd,
const char *method,
struct command_result *(*cb)(struct command *command,
const char *buf,
const jsmntok_t *result,
void *arg),
struct command_result *(*errcb)(struct command *command,
const char *buf,
const jsmntok_t *result,
void *arg),
void *arg,
const struct json_out *params TAKES)
{
struct json_out *jout;
struct out_req *out;
out = tal(cmd, struct out_req);
out->id = next_outreq_id++;
out->cmd = cmd;
out->cb = cb;
out->errcb = errcb;
out->arg = arg;
uintmap_add(&out_reqs, out->id, out);
jout = start_json_request(tmpctx, out->id, method, params);
finish_and_send_json(rpc_conn.fd, jout);
return &pending;
}
static struct command_result *
handle_getmanifest(struct command *getmanifest_cmd,
const struct plugin_command *commands,
size_t num_commands,
const struct plugin_option *opts,
const enum plugin_restartability restartability)
{
struct json_out *params = json_out_new(tmpctx);
json_out_start(params, NULL, '{');
json_out_start(params, "options", '[');
for (size_t i = 0; i < tal_count(opts); i++) {
json_out_start(params, NULL, '{');
json_out_addstr(params, "name", opts[i].name);
json_out_addstr(params, "type", opts[i].type);
json_out_addstr(params, "description", opts[i].description);
json_out_end(params, '}');
}
json_out_end(params, ']');
json_out_start(params, "rpcmethods", '[');
for (size_t i = 0; i < num_commands; i++) {
json_out_start(params, NULL, '{');
json_out_addstr(params, "name", commands[i].name);
json_out_addstr(params, "usage",
strmap_get(&usagemap, commands[i].name));
json_out_addstr(params, "description", commands[i].description);
if (commands[i].long_description)
json_out_addstr(params, "long_description",
commands[i].long_description);
json_out_end(params, '}');
}
json_out_end(params, ']');
json_out_addstr(params, "dynamic", restartability == PLUGIN_RESTARTABLE ? "true" : "false");
json_out_end(params, '}');
json_out_finished(params);
return command_success(getmanifest_cmd, params);
}
static struct command_result *handle_init(struct command *init_cmd,
const char *buf,
const jsmntok_t *params,
const struct plugin_option *opts,
void (*init)(struct plugin_conn *,
const char *buf, const jsmntok_t *))
{
const jsmntok_t *configtok, *rpctok, *dirtok, *opttok, *nettok, *t;
struct sockaddr_un addr;
size_t i;
char *dir, *network;
struct json_out *param_obj;
configtok = json_delve(buf, params, ".configuration");
/* Move into lightning directory: other files are relative */
dirtok = json_delve(buf, configtok, ".lightning-dir");
dir = json_strdup(tmpctx, buf, dirtok);
if (chdir(dir) != 0)
plugin_err("chdir to %s: %s", dir, strerror(errno));
nettok = json_delve(buf, configtok, ".network");
network = json_strdup(tmpctx, buf, nettok);
chainparams = chainparams_for_network(network);
rpctok = json_delve(buf, configtok, ".rpc-file");
rpc_conn.fd = socket(AF_UNIX, SOCK_STREAM, 0);
if (rpctok->end - rpctok->start + 1 > sizeof(addr.sun_path))
plugin_err("rpc filename '%.*s' too long",
rpctok->end - rpctok->start,
buf + rpctok->start);
memcpy(addr.sun_path, buf + rpctok->start, rpctok->end - rpctok->start);
addr.sun_path[rpctok->end - rpctok->start] = '\0';
addr.sun_family = AF_UNIX;
if (connect(rpc_conn.fd, (struct sockaddr *)&addr, sizeof(addr)) != 0)
plugin_err("Connecting to '%.*s': %s",
rpctok->end - rpctok->start, buf + rpctok->start,
strerror(errno));
param_obj = json_out_obj(NULL, "config", "allow-deprecated-apis");
deprecated_apis = streq(rpc_delve(tmpctx, "listconfigs",
take(param_obj),
&rpc_conn,
".allow-deprecated-apis"),
"true");
opttok = json_get_member(buf, params, "options");
json_for_each_obj(i, t, opttok) {
char *opt = json_strdup(NULL, buf, t);
for (size_t i = 0; i < tal_count(opts); i++) {
char *problem;
if (!streq(opts[i].name, opt))
continue;
problem = opts[i].handle(json_strdup(opt, buf, t+1),
opts[i].arg);
if (problem)
plugin_err("option '%s': %s",
opts[i].name, problem);
break;
}
tal_free(opt);
}
if (init)
init(&rpc_conn, buf, configtok);
return command_success_str(init_cmd, NULL);
}
char *u64_option(const char *arg, u64 *i)
{
char *endp;
/* This is how the manpage says to do it. Yech. */
errno = 0;
*i = strtol(arg, &endp, 0);
if (*endp || !arg[0])
return tal_fmt(NULL, "'%s' is not a number", arg);
if (errno)
return tal_fmt(NULL, "'%s' is out of range", arg);
return NULL;
}
char *charp_option(const char *arg, char **p)
{
*p = tal_strdup(NULL, arg);
return NULL;
}
static void handle_new_command(const tal_t *ctx,
struct plugin_conn *request_conn,
struct plugin_conn *rpc_conn,
const struct plugin_command *commands,
size_t num_commands)
{
struct command *cmd;
const jsmntok_t *params;
int reqlen;
cmd = read_json_request(ctx, request_conn, rpc_conn, &params, &reqlen);
for (size_t i = 0; i < num_commands; i++) {
if (streq(cmd->methodname, commands[i].name)) {
commands[i].handle(cmd, membuf_elems(&request_conn->mb),
params);
membuf_consume(&request_conn->mb, reqlen);
return;
}
}
plugin_err("Unknown command '%s'", cmd->methodname);
}
static void setup_command_usage(const struct plugin_command *commands,
size_t num_commands)
{
struct command *usage_cmd = tal(tmpctx, struct command);
/* This is how common/param can tell it's just a usage request */
usage_cmd->usage_only = true;
for (size_t i = 0; i < num_commands; i++) {
struct command_result *res;
usage_cmd->methodname = commands[i].name;
res = commands[i].handle(usage_cmd, NULL, NULL);
assert(res == &complete);
assert(strmap_get(&usagemap, commands[i].name));
}
}
static void call_plugin_timer(struct plugin_conn *rpc, struct timer *timer)
{
struct plugin_timer *t = container_of(timer, struct plugin_timer, timer);
in_timer++;
/* Free this if they don't. */
tal_steal(tmpctx, t);
t->cb();
}
static void destroy_plugin_timer(struct plugin_timer *timer)
{
timer_del(&timers, &timer->timer);
}
struct plugin_timer *plugin_timer(struct plugin_conn *rpc, struct timerel t,
struct command_result *(*cb)(void))
{
struct plugin_timer *timer = tal(NULL, struct plugin_timer);
timer->cb = cb;
timer_init(&timer->timer);
timer_addrel(&timers, &timer->timer, t);
tal_add_destructor(timer, destroy_plugin_timer);
return timer;
}
static void plugin_logv(enum log_level l, const char *fmt, va_list ap)
{
struct json_out *jout = json_out_new(tmpctx);
json_out_start(jout, NULL, '{');
json_out_addstr(jout, "jsonrpc", "2.0");
json_out_addstr(jout, "method", "log");
json_out_start(jout, "params", '{');
json_out_addstr(jout, "level",
l == LOG_DBG ? "debug"
: l == LOG_INFORM ? "info"
: l == LOG_UNUSUAL ? "warn"
: "error");
json_out_addv(jout, "message", true, fmt, ap);
json_out_end(jout, '}');
/* Last '}' is done by finish_and_send_json */
finish_and_send_json(STDOUT_FILENO, jout);
}
void NORETURN plugin_err(const char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
plugin_logv(LOG_BROKEN, fmt, ap);
va_end(ap);
va_start(ap, fmt);
errx(1, "%s", tal_vfmt(NULL, fmt, ap));
va_end(ap);
}
void plugin_log(enum log_level l, const char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
plugin_logv(l, fmt, ap);
va_end(ap);
}
void plugin_main(char *argv[],
void (*init)(struct plugin_conn *rpc,
const char *buf, const jsmntok_t *),
const enum plugin_restartability restartability,
const struct plugin_command *commands,
size_t num_commands, ...)
{
struct plugin_conn request_conn;
const tal_t *ctx = tal(NULL, char);
struct command *cmd;
const jsmntok_t *params;
int reqlen;
struct pollfd fds[2];
struct plugin_option *opts = tal_arr(ctx, struct plugin_option, 0);
va_list ap;
const char *optname;
setup_locale();
daemon_maybe_debug(argv);
/* Note this already prints to stderr, which is enough for now */
daemon_setup(argv[0], NULL, NULL);
setup_command_usage(commands, num_commands);
timers_init(&timers, time_mono());
membuf_init(&rpc_conn.mb,
tal_arr(ctx, char, READ_CHUNKSIZE), READ_CHUNKSIZE,
membuf_tal_realloc);
request_conn.fd = STDIN_FILENO;
membuf_init(&request_conn.mb,
tal_arr(ctx, char, READ_CHUNKSIZE), READ_CHUNKSIZE,
membuf_tal_realloc);
uintmap_init(&out_reqs);
va_start(ap, num_commands);
while ((optname = va_arg(ap, const char *)) != NULL) {
struct plugin_option o;
o.name = optname;
o.type = va_arg(ap, const char *);
o.description = va_arg(ap, const char *);
o.handle = va_arg(ap, char *(*)(const char *str, void *arg));
o.arg = va_arg(ap, void *);
tal_arr_expand(&opts, o);
}
va_end(ap);
cmd = read_json_request(tmpctx, &request_conn, NULL,
&params, &reqlen);
if (!streq(cmd->methodname, "getmanifest"))
plugin_err("Expected getmanifest not %s", cmd->methodname);
membuf_consume(&request_conn.mb, reqlen);
handle_getmanifest(cmd, commands, num_commands, opts, restartability);
cmd = read_json_request(tmpctx, &request_conn, &rpc_conn,
&params, &reqlen);
if (!streq(cmd->methodname, "init"))
plugin_err("Expected init not %s", cmd->methodname);
handle_init(cmd, membuf_elems(&request_conn.mb),
params, opts, init);
membuf_consume(&request_conn.mb, reqlen);
/* Set up fds for poll. */
fds[0].fd = STDIN_FILENO;
fds[0].events = POLLIN;
fds[1].fd = rpc_conn.fd;
fds[1].events = POLLIN;
for (;;) {
struct timer *expired;
struct timemono now, first;
int t;
clean_tmpctx();
/* If we already have some input, process now. */
if (membuf_num_elems(&request_conn.mb) != 0) {
handle_new_command(ctx, &request_conn, &rpc_conn,
commands, num_commands);
continue;
}
if (membuf_num_elems(&rpc_conn.mb) != 0) {
handle_rpc_reply(&rpc_conn);
continue;
}
/* Handle any timeouts */
now = time_mono();
expired = timers_expire(&timers, now);
if (expired) {
call_plugin_timer(&rpc_conn, expired);
continue;
}
/* If we have a pending timer, timeout then */
if (timer_earliest(&timers, &first))
t = time_to_msec(timemono_between(first, now));
else
t = -1;
/* Otherwise, we poll. */
poll(fds, 2, t);
if (fds[0].revents & POLLIN)
handle_new_command(ctx, &request_conn, &rpc_conn,
commands, num_commands);
if (fds[1].revents & POLLIN)
handle_rpc_reply(&rpc_conn);
}
}