core-lightning/plugins/pay.c

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#include "config.h"
#include <bitcoin/chainparams.h>
#include <ccan/array_size/array_size.h>
#include <ccan/asort/asort.h>
#include <ccan/cast/cast.h>
#include <ccan/crypto/siphash24/siphash24.h>
#include <ccan/htable/htable_type.h>
#include <ccan/json_out/json_out.h>
#include <ccan/str/hex/hex.h>
#include <ccan/tal/str/str.h>
#include <common/bolt12_merkle.h>
#include <common/gossmap.h>
#include <common/json_param.h>
#include <common/json_stream.h>
#include <common/memleak.h>
#include <common/pseudorand.h>
#include <common/type_to_string.h>
#include <plugins/libplugin-pay.h>
#include <stdio.h>
/* Public key of this node. */
static struct node_id my_id;
static unsigned int maxdelay_default;
static bool exp_offers;
static bool disablempp = false;
static LIST_HEAD(payments);
struct pay_command {
/* Global state */
struct plugin *plugin;
/* Destination, as text */
const char *dest;
/* How much we're paying, and what riskfactor for routing. */
struct amount_msat msat;
/* Blank amount to pay, without fees and shadow route(s). */
struct amount_msat initial_msat;
/* riskfactor 12.345% -> riskfactor_millionths = 12345000 */
u64 riskfactor_millionths;
unsigned int final_cltv;
/* Limits on what routes we'll accept. */
/* 12.345% -> maxfee_pct_millionths = 12345000 */
u64 maxfee_pct_millionths;
unsigned int maxdelay;
struct amount_msat exemptfee;
/* Payment hash, as text. */
const char *payment_hash;
/* Payment secret, if specified by invoice. */
const char *payment_secret;
/* Payment metadata, if specified by invoice. */
const char *payment_metadata;
/* Description, if any. */
const char *label;
/* Chatty description of attempts. */
struct pay_status *ps;
/* Error to use if getroute says it can't find route. */
const char *expensive_route;
/* Time to stop retrying. */
struct timeabs stoptime;
/* Channels which have failed us. */
const char **excludes;
/* Current routehint, if any. */
struct route_info *current_routehint;
/* Any remaining routehints to try. */
struct route_info **routehints;
#if DEVELOPER
/* Disable the use of shadow route ? */
double use_shadow;
#endif
/* Current node during shadow route calculation. */
const char *shadow_dest;
};
/* FIXME: Add this to ccan/time? */
#define UTC_TIMELEN (sizeof("YYYY-mm-ddTHH:MM:SS.nnnZ"))
static void utc_timestring(const struct timeabs *time, char str[UTC_TIMELEN])
{
char iso8601_msec_fmt[sizeof("YYYY-mm-ddTHH:MM:SS.%03dZ")];
struct tm *t = gmtime(&time->ts.tv_sec);
/* Shouldn't happen, but see
* https://github.com/ElementsProject/lightning/issues/4991 :( */
if (!t) {
snprintf(str, UTC_TIMELEN, "1970-01-01T00:00:00.000Z");
return;
}
strftime(iso8601_msec_fmt, sizeof(iso8601_msec_fmt), "%FT%T.%%03dZ", t);
snprintf(str, UTC_TIMELEN, iso8601_msec_fmt,
(int) time->ts.tv_nsec / 1000000);
}
static void json_add_sendpay_result(struct json_stream *s, const struct payment_result *r)
{
if (r->code != 0) {
/* This is a failure */
json_add_string(s, "message", r->message);
json_add_u32(s, "code", r->code);
json_object_start(s, "data");
json_add_u32(s, "id", r->id);
json_add_hex(s, "raw_message", r->raw_message, tal_bytelen(r->raw_message));
json_add_num(s, "failcode", r->failcode);
json_add_string(s, "failcodename", r->failcodename);
if (r->erring_index)
json_add_num(s, "erring_index", *r->erring_index);
if (r->erring_node)
json_add_node_id(s, "erring_node", r->erring_node);
if (r->erring_channel)
json_add_short_channel_id(s, "erring_channel",
r->erring_channel);
if (r->erring_direction)
json_add_num(s, "erring_direction",
*r->erring_direction);
json_object_end(s);
} else {
/* This is a success */
json_add_u32(s, "id", r->id);
json_add_preimage(s, "payment_preimage", r->payment_preimage);
}
}
static void paystatus_add_payment(struct json_stream *s, const struct payment *p)
{
char timestr[UTC_TIMELEN];
utc_timestring(&p->start_time, timestr);
json_object_start(s, NULL);
if (p->why != NULL)
json_add_string(s, "strategy", p->why);
json_add_string(s, "start_time", timestr);
json_add_u64(s, "age_in_seconds",
time_to_sec(time_between(time_now(), p->start_time)));
/* Any final state will have an end time. */
if (p->step >= PAYMENT_STEP_SPLIT) {
utc_timestring(&p->end_time, timestr);
json_add_string(s, "end_time", timestr);
}
/* TODO Add routehint. */
/* TODO Add route details */
if (p->step < PAYMENT_STEP_SPLIT)
json_add_string(s, "state", "pending");
else
json_add_string(s, "state", "completed");
if (p->step == PAYMENT_STEP_SPLIT) {
/* Don't add anything, this is neither a success nor a failure. */
} else if (p->result != NULL) {
if (p->step == PAYMENT_STEP_SUCCESS)
json_object_start(s, "success");
else
json_object_start(s, "failure");
json_add_sendpay_result(s, p->result);
json_object_end(s);
} else if (p->step >= PAYMENT_STEP_SPLIT) {
json_object_start(s, "failure");
json_add_num(s, "code", PAY_ROUTE_NOT_FOUND);
json_add_string(s, "message", "Call to getroute: Could not find a route");
json_object_end(s);
}
json_object_end(s);
for (size_t i = 0; i < tal_count(p->children); i++)
paystatus_add_payment(s, p->children[i]);
}
static struct command_result *json_paystatus(struct command *cmd,
const char *buf,
const jsmntok_t *params)
{
const char *invstring;
struct json_stream *ret;
struct payment *p;
if (!param(cmd, buf, params,
/* FIXME: rename to invstring */
p_opt("bolt11", param_string, &invstring),
NULL))
return command_param_failed();
ret = jsonrpc_stream_success(cmd);
json_array_start(ret, "pay");
list_for_each(&payments, p, list) {
assert(p->parent == NULL);
if (invstring && !streq(invstring, p->invstring))
continue;
json_object_start(ret, NULL);
if (p->label != NULL)
json_add_string(ret, "label", p->label);
if (p->invstring)
json_add_invstring(ret, p->invstring);
json_add_amount_msat_only(ret, "amount_msat", p->amount);
json_add_node_id(ret, "destination", p->destination);
/* TODO(cdecker) Add label in once we track labels. */
/* TODO(cdecker) Add routehint_modifications in once we track
* them. */
/* TODO(cdecker) Add shadow route once we support it. */
/* If it's in listpeers right now, this can be 0 */
json_array_start(ret, "attempts");
paystatus_add_payment(ret, p);
json_array_end(ret);
json_object_end(ret);
}
json_array_end(ret);
return command_finished(cmd, ret);
}
static bool attempt_ongoing(const struct sha256 *payment_hash)
{
struct payment *root;
struct payment_tree_result res;
enum payment_step diff,
final_states = PAYMENT_STEP_FAILED | PAYMENT_STEP_SUCCESS;
list_for_each(&payments, root, list) {
if (!sha256_eq(payment_hash, root->payment_hash))
continue;
res = payment_collect_result(root);
diff = res.leafstates & ~final_states;
return diff != 0;
}
return false;
}
/* A unique key for each payment attempt, even if the same invoice was
* attempted multiple times. */
struct pay_sort_key {
const struct sha256 *payment_hash;
u64 groupid;
};
/* We consolidate multi-part payments into a single entry. */
struct pay_mpp {
/* payment_hash from the invoice and lookup key */
const struct sha256 *payment_hash;
/* This is the bolt11/bolt12 string */
const char *invstring;
/* Accumulated states of all sendpay commands involved. */
enum payment_result_state state;
/* Optional label (of first one!) */
const jsmntok_t *label;
/* Optional description (used for bolt11 with description_hash) */
const jsmntok_t *description;
/* Optional preimage (iff status is successful) */
const jsmntok_t *preimage;
/* Only counts "complete" or "pending" payments. */
size_t num_nonfailed_parts;
/* Total amount sent ("complete" or "pending" only). */
struct amount_msat amount_sent;
/* Total amount received by the recipient ("complete" or "pending"
* only). Null if we have any part for which we didn't know the
* amount. */
struct amount_msat *amount;
/* Timestamp of the first part */
u32 timestamp;
/* The destination of the payment, if specified. */
const jsmntok_t *destination;
/* Which sendpay group is this? Necessary for invoices that have been
* attempted multiple times. */
struct pay_sort_key sortkey;
};
static const struct pay_sort_key *pay_mpp_key(const struct pay_mpp *pm)
{
return &pm->sortkey;
}
static size_t pay_mpp_hash(const struct pay_sort_key *key)
{
struct siphash24_ctx ctx;
siphash24_init(&ctx, siphash_seed());
siphash24_update(&ctx, key->payment_hash, sizeof(struct sha256));
siphash24_update(&ctx, &key->groupid, sizeof(u64));
return siphash24_done(&ctx);
}
static bool pay_mpp_eq(const struct pay_mpp *pm, const struct pay_sort_key *key)
{
return memcmp(pm->sortkey.payment_hash, key->payment_hash,
sizeof(struct sha256)) == 0 &&
pm->sortkey.groupid == key->groupid;
}
HTABLE_DEFINE_TYPE(struct pay_mpp, pay_mpp_key, pay_mpp_hash, pay_mpp_eq,
pay_map);
static void add_amount_sent(struct plugin *p,
const char *invstring,
struct pay_mpp *mpp,
const char *buf,
const jsmntok_t *t)
{
struct amount_msat sent, recv;
const jsmntok_t *msattok;
json_to_msat(buf, json_get_member(buf, t, "amount_sent_msat"), &sent);
if (!amount_msat_add(&mpp->amount_sent, mpp->amount_sent, sent))
plugin_log(p, LOG_BROKEN,
"Cannot add amount_sent_msat for %s: %s + %s",
invstring,
type_to_string(tmpctx, struct amount_msat, &mpp->amount_sent),
type_to_string(tmpctx, struct amount_msat, &sent));
msattok = json_get_member(buf, t, "amount_msat");
/* If this is an unannotated partial payment we drop out estimate for
* all parts. */
if (msattok == NULL) {
mpp->amount = tal_free(mpp->amount);
return;
}
/* If we had a part of this multi-part payment for which we don't know
* the amount, then this is NULL. No point in summing up if we don't
* have the exact value.*/
if (mpp->amount == NULL)
return;
if (!json_to_msat(buf, msattok, &recv))
plugin_err(p, "Cannot convert amount_sat %.*s",
json_tok_full_len(msattok),
json_tok_full(buf, msattok));
if (!amount_msat_add(mpp->amount, *mpp->amount, recv))
plugin_log(p, LOG_BROKEN,
"Cannot add amount_msat for %s: %s + %s",
invstring,
type_to_string(tmpctx, struct amount_msat, mpp->amount),
type_to_string(tmpctx, struct amount_msat, &sent));
}
static void add_new_entry(struct json_stream *ret,
const char *buf,
const struct pay_mpp *pm)
{
json_object_start(ret, NULL);
if (pm->invstring)
json_add_invstring(ret, pm->invstring);
if (pm->description)
json_add_tok(ret, "description", pm->description, buf);
if (pm->destination)
json_add_tok(ret, "destination", pm->destination, buf);
json_add_sha256(ret, "payment_hash", pm->payment_hash);
if (pm->state & PAYMENT_COMPLETE)
json_add_string(ret, "status", "complete");
else if (pm->state & PAYMENT_PENDING || attempt_ongoing(pm->payment_hash))
json_add_string(ret, "status", "pending");
else
json_add_string(ret, "status", "failed");
json_add_u32(ret, "created_at", pm->timestamp);
if (pm->label)
json_add_tok(ret, "label", pm->label, buf);
if (pm->preimage)
json_add_tok(ret, "preimage", pm->preimage, buf);
/* This is only tallied for pending and successful payments, not
* failures. */
if (pm->amount != NULL && pm->num_nonfailed_parts > 0)
json_add_amount_msat_only(ret, "amount_msat", *pm->amount);
json_add_amount_msat_only(ret, "amount_sent_msat",
pm->amount_sent);
if (pm->num_nonfailed_parts > 1)
json_add_u64(ret, "number_of_parts",
pm->num_nonfailed_parts);
json_object_end(ret);
}
static struct command_result *listsendpays_done(struct command *cmd,
const char *buf,
const jsmntok_t *result,
char *invstring)
{
size_t i;
const jsmntok_t *t, *arr;
struct json_stream *ret;
struct pay_map pay_map;
struct pay_mpp *pm;
struct pay_sort_key *order = tal_arr(tmpctx, struct pay_sort_key, 0);
pay_map_init(&pay_map);
arr = json_get_member(buf, result, "payments");
if (!arr || arr->type != JSMN_ARRAY)
return command_fail(cmd, LIGHTNINGD,
"Unexpected non-array result from listsendpays");
json_for_each_arr(i, t, arr) {
const jsmntok_t *status, *invstrtok, *hashtok, *createdtok, *grouptok;
const char *invstr = invstring;
struct sha256 payment_hash;
u32 created_at;
u64 groupid;
struct pay_sort_key key;
invstrtok = json_get_member(buf, t, "bolt11");
if (!invstrtok)
invstrtok = json_get_member(buf, t, "bolt12");
hashtok = json_get_member(buf, t, "payment_hash");
createdtok = json_get_member(buf, t, "created_at");
assert(hashtok != NULL);
assert(createdtok != NULL);
grouptok = json_get_member(buf, t, "groupid");
if (grouptok != NULL)
json_to_u64(buf, grouptok, &groupid);
else
groupid = 0;
json_to_sha256(buf, hashtok, &payment_hash);
json_to_u32(buf, createdtok, &created_at);
if (invstrtok)
invstr = json_strdup(cmd, buf, invstrtok);
key.payment_hash = &payment_hash;
key.groupid = groupid;
pm = pay_map_get(&pay_map, &key);
if (!pm) {
pm = tal(cmd, struct pay_mpp);
pm->state = 0;
pm->payment_hash = tal_dup(pm, struct sha256, &payment_hash);
pm->invstring = tal_steal(pm, invstr);
pm->destination = json_get_member(buf, t, "destination");
pm->label = json_get_member(buf, t, "label");
pm->description = json_get_member(buf, t, "description");
pm->preimage = NULL;
pm->amount_sent = AMOUNT_MSAT(0);
pm->amount = talz(pm, struct amount_msat);
pm->num_nonfailed_parts = 0;
pm->timestamp = created_at;
pm->sortkey.payment_hash = pm->payment_hash;
pm->sortkey.groupid = groupid;
pay_map_add(&pay_map, pm);
// First time we see the groupid we add it to the order
// array, so we can retrieve them in the correct order.
tal_arr_expand(&order, pm->sortkey);
} else {
/* Not all payments have bolt11/bolt12 or
* description, as an optimization */
if (!pm->invstring)
pm->invstring = tal_steal(pm, invstr);
if (!pm->description)
pm->description = json_get_member(buf, t, "description");
}
status = json_get_member(buf, t, "status");
if (json_tok_streq(buf, status, "complete")) {
add_amount_sent(cmd->plugin, pm->invstring, pm, buf, t);
pm->num_nonfailed_parts++;
pm->preimage
= json_get_member(buf, t, "payment_preimage");
pm->state |= PAYMENT_COMPLETE;
} else if (json_tok_streq(buf, status, "pending")) {
add_amount_sent(cmd->plugin, pm->invstring, pm, buf, t);
pm->num_nonfailed_parts++;
pm->state |= PAYMENT_PENDING;
} else {
pm->state |= PAYMENT_FAILED;
}
}
ret = jsonrpc_stream_success(cmd);
json_array_start(ret, "pays");
for (size_t i = 0; i < tal_count(order); i++) {
pm = pay_map_get(&pay_map, &order[i]);
assert(pm != NULL);
add_new_entry(ret, buf, pm);
}
pay_map_clear(&pay_map);
json_array_end(ret);
return command_finished(cmd, ret);
}
static struct command_result *json_listpays(struct command *cmd,
const char *buf,
const jsmntok_t *params)
{
const char *invstring, *status_str;
struct sha256 *payment_hash;
struct out_req *req;
/* FIXME: would be nice to parse as a bolt11 so check worked in future */
if (!param(cmd, buf, params,
/* FIXME: parameter should be invstring now */
p_opt("bolt11", param_string, &invstring),
p_opt("payment_hash", param_sha256, &payment_hash),
p_opt("status", param_string, &status_str),
NULL))
return command_param_failed();
req = jsonrpc_request_start(cmd->plugin, cmd, "listsendpays",
listsendpays_done, forward_error,
cast_const(char *, invstring));
if (invstring)
json_add_string(req->js, "bolt11", invstring);
if (payment_hash)
json_add_sha256(req->js, "payment_hash", payment_hash);
if (status_str)
json_add_string(req->js, "status", status_str);
return send_outreq(cmd->plugin, req);
}
#if DEVELOPER
static void memleak_mark_payments(struct plugin *p, struct htable *memtable)
{
memleak_remove_region(memtable, &payments, sizeof(payments));
}
#endif
static const char *init(struct plugin *p,
const char *buf UNUSED, const jsmntok_t *config UNUSED)
{
rpc_scan(p, "getinfo", take(json_out_obj(NULL, NULL, NULL)),
"{id:%}", JSON_SCAN(json_to_node_id, &my_id));
rpc_scan(p, "listconfigs",
take(json_out_obj(NULL, NULL, NULL)),
"{max-locktime-blocks:%,experimental-offers:%}",
JSON_SCAN(json_to_number, &maxdelay_default),
JSON_SCAN(json_to_bool, &exp_offers));
#if DEVELOPER
plugin_set_memleak_handler(p, memleak_mark_payments);
#endif
return NULL;
}
static void on_payment_success(struct payment *payment)
{
struct payment *p;
struct payment_tree_result result = payment_collect_result(payment);
struct json_stream *ret;
assert(result.treestates & PAYMENT_STEP_SUCCESS);
assert(result.leafstates & PAYMENT_STEP_SUCCESS);
assert(result.preimage != NULL);
/* Iterate through any pending payments we suspended and
* terminate them. */
list_for_each(&payments, p, list) {
/* The result for the active payment is returned in
* `payment_finished`. */
if (payment == p)
continue;
if (!sha256_eq(payment->payment_hash, p->payment_hash))
continue;
if (p->cmd == NULL)
continue;
ret = jsonrpc_stream_success(p->cmd);
json_add_node_id(ret, "destination", p->destination);
json_add_sha256(ret, "payment_hash", p->payment_hash);
json_add_timeabs(ret, "created_at", p->start_time);
json_add_num(ret, "parts", result.attempts);
json_add_amount_msat_compat(ret, p->amount, "msatoshi",
"amount_msat");
json_add_amount_msat_compat(ret, result.sent, "msatoshi_sent",
"amount_sent_msat");
if (result.leafstates != PAYMENT_STEP_SUCCESS)
json_add_string(
ret, "warning_partial_completion",
"Some parts of the payment are not yet "
"completed, but we have the confirmation "
"from the recipient.");
json_add_preimage(ret, "payment_preimage", result.preimage);
json_add_string(ret, "status", "complete");
if (command_finished(p->cmd, ret)) {/* Ignore result. */}
p->cmd = NULL;
}
}
static void payment_add_attempt(struct json_stream *s, const char *fieldname, struct payment *p, bool recurse)
{
bool finished = p->step >= PAYMENT_STEP_RETRY,
success = p->step == PAYMENT_STEP_SUCCESS;
/* A fieldname is only reasonable if we're not recursing. Otherwise the
* fieldname would be reused for all attempts. */
assert(!recurse || fieldname == NULL);
json_object_start(s, fieldname);
if (!finished)
json_add_string(s, "status", "pending");
else if (success)
json_add_string(s, "status", "success");
else
json_add_string(s, "status", "failed");
if (p->failreason != NULL)
json_add_string(s, "failreason", p->failreason);
json_add_u64(s, "partid", p->partid);
if (deprecated_apis)
json_add_amount_msat_only(s, "amount", p->amount);
json_add_amount_msat_only(s, "amount_msat", p->amount);
if (p->parent != NULL)
json_add_u64(s, "parent_partid", p->parent->partid);
json_object_end(s);
for (size_t i=0; i<tal_count(p->children); i++) {
payment_add_attempt(s, fieldname, p->children[i], recurse);
}
}
static void payment_json_add_attempts(struct json_stream *s,
const char *fieldname, struct payment *p)
{
assert(p == payment_root(p));
json_array_start(s, fieldname);
payment_add_attempt(s, NULL, p, true);
json_array_end(s);
}
static void on_payment_failure(struct payment *payment)
{
struct payment *p;
struct payment_tree_result result = payment_collect_result(payment);
list_for_each(&payments, p, list)
{
struct json_stream *ret;
struct command *cmd;
const char *msg;
/* The result for the active payment is returned in
* `payment_finished`. */
if (payment == p)
continue;
if (!sha256_eq(payment->payment_hash, p->payment_hash))
continue;
if (p->cmd == NULL)
continue;
cmd = p->cmd;
if (p->aborterror != NULL) {
/* We set an explicit toplevel error message,
* so let's report that. */
ret = jsonrpc_stream_fail(cmd, PAY_STOPPED_RETRYING,
p->aborterror);
payment_json_add_attempts(ret, "attempts", p);
if (command_finished(cmd, ret)) {/* Ignore result. */}
} else if (result.failure == NULL || result.failure->failcode < NODE) {
/* This is failing because we have no more routes to try */
msg = tal_fmt(cmd,
"Ran out of routes to try after "
"%d attempt%s: see `paystatus`",
result.attempts,
result.attempts == 1 ? "" : "s");
ret = jsonrpc_stream_fail(cmd, PAY_STOPPED_RETRYING,
msg);
payment_json_add_attempts(ret, "attempts", p);
if (command_finished(cmd, ret)) {/* Ignore result. */}
} else {
struct payment_result *failure = result.failure;
assert(failure!= NULL);
ret = jsonrpc_stream_fail(cmd, failure->code,
failure->message);
json_add_u64(ret, "id", failure->id);
json_add_u32(ret, "failcode", failure->failcode);
json_add_string(ret, "failcodename",
failure->failcodename);
if (p->invstring)
json_add_invstring(ret, p->invstring);
json_add_hex_talarr(ret, "raw_message",
result.failure->raw_message);
json_add_num(ret, "created_at", p->start_time.ts.tv_sec);
json_add_node_id(ret, "destination", p->destination);
json_add_sha256(ret, "payment_hash", p->payment_hash);
// OK
if (result.leafstates & PAYMENT_STEP_SUCCESS) {
/* If one sub-payment succeeded then we have
* proof of payment, and the payment is a
* success. */
json_add_string(ret, "status", "complete");
} else if (result.leafstates & ~PAYMENT_STEP_FAILED) {
/* If there are non-failed leafs we are still trying. */
json_add_string(ret, "status", "pending");
} else {
json_add_string(ret, "status", "failed");
}
json_add_amount_msat_compat(ret, p->amount, "msatoshi",
"amount_msat");
json_add_amount_msat_compat(ret, result.sent,
"msatoshi_sent",
"amount_sent_msat");
if (failure != NULL) {
if (failure->erring_index)
json_add_num(ret, "erring_index",
*failure->erring_index);
if (failure->erring_node)
json_add_node_id(ret, "erring_node",
failure->erring_node);
if (failure->erring_channel)
json_add_short_channel_id(
ret, "erring_channel",
failure->erring_channel);
if (failure->erring_direction)
json_add_num(
ret, "erring_direction",
*failure->erring_direction);
}
if (command_finished(cmd, ret)) { /* Ignore result. */}
}
p->cmd = NULL;
}
}
/* We are interested in any prior attempts to pay this payment_hash /
* invoice so we can set the `groupid` correctly and ensure we don't
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* already have a pending payment running. We also collect the summary
* about an eventual previous complete payment so we can return that
* as a no-op. */
static struct command_result *
payment_listsendpays_previous(struct command *cmd, const char *buf,
const jsmntok_t *result, struct payment *p)
{
size_t i;
const jsmntok_t *t, *arr, *err;
/* What was the groupid of an eventual previous attempt? */
u64 last_group = 0;
/* Do we have pending sendpays for the previous attempt? */
bool pending = false;
/* Did a prior attempt succeed? */
bool completed = false;
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/* Metadata for a complete payment, if one exists. */
struct json_stream *ret;
u32 parts = 0;
struct preimage preimage;
struct amount_msat sent, msat;
struct node_id destination;
u32 created_at;
err = json_get_member(buf, result, "error");
if (err)
return command_fail(
cmd, LIGHTNINGD,
"Error retrieving previous pay attempts: %s",
json_strdup(tmpctx, buf, err));
arr = json_get_member(buf, result, "payments");
if (!arr || arr->type != JSMN_ARRAY)
return command_fail(
cmd, LIGHTNINGD,
"Unexpected non-array result from listsendpays");
/* We iterate through all prior sendpays, looking for the
* latest group and remembering what its state is. */
json_for_each_arr(i, t, arr)
{
u64 groupid;
const jsmntok_t *status, *grouptok;
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struct amount_msat diff_sent, diff_msat;
grouptok = json_get_member(buf, t, "groupid");
json_to_u64(buf, grouptok, &groupid);
/* New group, reset what we collected. */
if (last_group != groupid) {
completed = false;
pending = false;
last_group = groupid;
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parts = 1;
json_scan(tmpctx, buf, t,
"{destination:%"
",created_at:%"
",amount_msat:%"
",amount_sent_msat:%"
",payment_preimage:%}",
JSON_SCAN(json_to_node_id, &destination),
JSON_SCAN(json_to_u32, &created_at),
JSON_SCAN(json_to_msat, &msat),
JSON_SCAN(json_to_msat, &sent),
JSON_SCAN(json_to_preimage, &preimage));
} else {
json_scan(tmpctx, buf, t,
"{amount_msat:%"
",amount_sent_msat:%}",
JSON_SCAN(json_to_msat, &diff_msat),
JSON_SCAN(json_to_msat, &diff_sent));
if (!amount_msat_add(&msat, msat, diff_msat) ||
!amount_msat_add(&sent, sent, diff_sent))
plugin_err(p->plugin,
"msat overflow adding up parts");
parts++;
}
status = json_get_member(buf, t, "status");
completed |= json_tok_streq(buf, status, "complete");
pending |= json_tok_streq(buf, status, "pending");
}
if (completed) {
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ret = jsonrpc_stream_success(cmd);
json_add_preimage(ret, "payment_preimage", &preimage);
json_add_string(ret, "status", "complete");
json_add_amount_msat_compat(ret, msat, "msatoshi",
"amount_msat");
json_add_amount_msat_compat(ret, sent, "msatoshi_sent",
"amount_sent_msat");
json_add_node_id(ret, "destination", p->destination);
json_add_sha256(ret, "payment_hash", p->payment_hash);
json_add_u32(ret, "created_at", created_at);
json_add_num(ret, "parts", parts);
return command_finished(cmd, ret);
} else if (pending) {
/* We suspend this call and wait for the
* `on_payment_success` or `on_payment_failure`
* handler of the currently running payment to notify
* us about its completion. */
return command_still_pending(cmd);
}
p->groupid = last_group + 1;
p->on_payment_success = on_payment_success;
p->on_payment_failure = on_payment_failure;
payment_start(p);
return command_still_pending(cmd);
}
struct payment_modifier *paymod_mods[] = {
/* NOTE: The order in which these four paymods are executed is
* significant!
* local_channel_hints *must* execute first before route_exclusions
* which *must* execute before directpay.
* exemptfee *must* also execute before directpay.
*/
&local_channel_hints_pay_mod,
&route_exclusions_pay_mod,
&exemptfee_pay_mod,
&directpay_pay_mod,
&shadowroute_pay_mod,
/* NOTE: The order in which these three paymods are executed is
* significant!
* routehints *must* execute first before payee_incoming_limit
* which *must* execute bfore presplit.
*
* FIXME: Giving an ordered list of paymods to the paymod
* system is the wrong interface, given that the order in
* which paymods execute is significant.
* (This is typical of Entity-Component-System pattern.)
* What should be done is that libplugin-pay should have a
* canonical list of paymods in the order they execute
* correctly, and whether they are default-enabled/default-disabled,
* and then clients like `pay` and `keysend` will disable/enable
* paymods that do not help them, instead of the current interface
* where clients provide an *ordered* list of paymods they want to
* use.
*/
&routehints_pay_mod,
&payee_incoming_limit_pay_mod,
&presplit_pay_mod,
&waitblockheight_pay_mod,
&retry_pay_mod,
&adaptive_splitter_pay_mod,
NULL,
};
static void destroy_payment(struct payment *p)
{
list_del(&p->list);
}
static struct command_result *json_pay(struct command *cmd,
const char *buf,
const jsmntok_t *params)
{
struct payment *p;
const char *b11str;
struct bolt11 *b11;
char *b11_fail, *b12_fail;
u64 *maxfee_pct_millionths;
u32 *maxdelay;
struct amount_msat *exemptfee, *msat, *maxfee;
const char *label, *description;
unsigned int *retryfor;
u64 *riskfactor_millionths;
struct shadow_route_data *shadow_route;
struct amount_msat *invmsat;
u64 invexpiry;
struct sha256 *local_offer_id;
const struct tlv_invoice *b12;
struct out_req *req;
struct route_exclusion **exclusions;
#if DEVELOPER
bool *use_shadow;
#endif
/* If any of the modifiers need to add params to the JSON-RPC call we
* would add them to the `param()` call below, and have them be
* initialized directly that way. */
if (!param(cmd, buf, params,
/* FIXME: parameter should be invstring now */
p_req("bolt11", param_string, &b11str),
p_opt("amount_msat|msatoshi", param_msat, &msat),
p_opt("label", param_string, &label),
p_opt_def("riskfactor", param_millionths,
&riskfactor_millionths, 10000000),
p_opt("maxfeepercent", param_millionths,
&maxfee_pct_millionths),
p_opt_def("retry_for", param_number, &retryfor, 60),
p_opt_def("maxdelay", param_number, &maxdelay,
maxdelay_default),
p_opt("exemptfee", param_msat, &exemptfee),
p_opt("localofferid", param_sha256, &local_offer_id),
p_opt("exclude", param_route_exclusion_array, &exclusions),
p_opt("maxfee", param_msat, &maxfee),
p_opt("description", param_string, &description),
#if DEVELOPER
p_opt_def("use_shadow", param_bool, &use_shadow, true),
#endif
NULL))
return command_param_failed();
p = payment_new(cmd, cmd, NULL /* No parent */, paymod_mods);
p->invstring = tal_steal(p, b11str);
p->description = tal_steal(p, description);
if (!bolt12_has_prefix(b11str)) {
b11 =
bolt11_decode(tmpctx, b11str, plugin_feature_set(cmd->plugin),
description, chainparams, &b11_fail);
if (b11 == NULL)
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"Invalid bolt11: %s", b11_fail);
invmsat = b11->msat;
invexpiry = b11->timestamp + b11->expiry;
p->destination = tal_dup(p, struct node_id, &b11->receiver_id);
p->payment_hash = tal_dup(p, struct sha256, &b11->payment_hash);
p->payment_secret =
tal_dup_or_null(p, struct secret, b11->payment_secret);
if (b11->metadata)
p->payment_metadata = tal_dup_talarr(p, u8, b11->metadata);
else
p->payment_metadata = NULL;
/* FIXME: libplugin-pay plays with this array, and there are many FIXMEs
* about it. But it looks like a leak, so we suppress it here. */
p->routes = notleak_with_children(tal_steal(p, b11->routes));
p->min_final_cltv_expiry = b11->min_final_cltv_expiry;
p->features = tal_steal(p, b11->features);
/* Sanity check */
if (feature_offered(b11->features, OPT_VAR_ONION) &&
!b11->payment_secret)
return command_fail(
cmd, JSONRPC2_INVALID_PARAMS,
"Invalid bolt11:"
" sets feature var_onion with no secret");
/* BOLT #11:
* A reader:
*...
* - MUST check that the SHA2 256-bit hash in the `h` field
* exactly matches the hashed description.
*/
if (!b11->description && !deprecated_apis) {
if (!b11->description_hash) {
return command_fail(cmd,
JSONRPC2_INVALID_PARAMS,
"Invalid bolt11: missing description");
}
if (!description)
return command_fail(cmd,
JSONRPC2_INVALID_PARAMS,
"bolt11 uses description_hash, but you did not provide description parameter");
}
} else {
b12 = invoice_decode(tmpctx, b11str, strlen(b11str),
plugin_feature_set(cmd->plugin),
chainparams, &b12_fail);
if (b12 == NULL)
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"Invalid bolt12: %s", b12_fail);
if (!exp_offers)
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"experimental-offers disabled");
p->features = tal_steal(p, b12->features);
if (!b12->node_id)
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"invoice missing node_id");
if (!b12->payment_hash)
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"invoice missing payment_hash");
if (!b12->created_at)
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"invoice missing created_at");
if (b12->amount) {
invmsat = tal(cmd, struct amount_msat);
*invmsat = amount_msat(*b12->amount);
} else
invmsat = NULL;
/* FIXME: gossmap should store as point32 */
p->destination = tal(p, struct node_id);
gossmap_guess_node_id(get_gossmap(cmd->plugin), b12->node_id,
p->destination);
p->payment_hash = tal_dup(p, struct sha256, b12->payment_hash);
if (b12->recurrence_counter && !label)
return command_fail(
cmd, JSONRPC2_INVALID_PARAMS,
"recurring invoice requires a label");
/* FIXME payment_secret should be signature! */
{
struct sha256 merkle;
p->payment_secret = tal(p, struct secret);
merkle_tlv(b12->fields, &merkle);
memcpy(p->payment_secret, &merkle, sizeof(merkle));
BUILD_ASSERT(sizeof(*p->payment_secret) ==
sizeof(merkle));
}
p->payment_metadata = NULL;
p->routes = NULL;
/* FIXME: paths! */
if (b12->cltv)
p->min_final_cltv_expiry = *b12->cltv;
else
p->min_final_cltv_expiry = 18;
/* BOLT-offers #12:
* - if `relative_expiry` is present:
* - MUST reject the invoice if the current time since
* 1970-01-01 UTC is greater than `created_at` plus
* `seconds_from_creation`.
* - otherwise:
* - MUST reject the invoice if the current time since
* 1970-01-01 UTC is greater than `created_at` plus
* 7200.
*/
if (b12->relative_expiry)
invexpiry = *b12->created_at + *b12->relative_expiry;
else
invexpiry = *b12->created_at + BOLT12_DEFAULT_REL_EXPIRY;
p->local_offer_id = tal_steal(p, local_offer_id);
}
if (time_now().ts.tv_sec > invexpiry)
return command_fail(cmd, PAY_INVOICE_EXPIRED, "Invoice expired");
if (invmsat) {
if (msat) {
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"msatoshi parameter unnecessary");
}
p->amount = *invmsat;
tal_free(invmsat);
} else {
if (!msat) {
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"msatoshi parameter required");
}
p->amount = *msat;
}
if (node_id_eq(&my_id, p->destination))
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"This payment is destined for ourselves. "
"Self-payments are not supported");
p->local_id = &my_id;
p->json_buffer = tal_steal(p, buf);
p->json_toks = params;
p->why = "Initial attempt";
p->constraints.cltv_budget = *maxdelay;
tal_free(maxdelay);
p->deadline = timeabs_add(time_now(), time_from_sec(*retryfor));
tal_free(retryfor);
p->getroute->riskfactorppm = *riskfactor_millionths;
tal_free(riskfactor_millionths);
if (maxfee) {
if (maxfee_pct_millionths || exemptfee) {
return command_fail(
cmd, JSONRPC2_INVALID_PARAMS,
"If you specify maxfee, cannot specify maxfeepercent or exemptfee.");
}
p->constraints.fee_budget = *maxfee;
payment_mod_exemptfee_get_data(p)->amount = AMOUNT_MSAT(0);
} else {
u64 maxppm;
if (maxfee_pct_millionths)
maxppm = *maxfee_pct_millionths / 100;
else
maxppm = 500000 / 100;
if (!amount_msat_fee(&p->constraints.fee_budget, p->amount, 0,
maxppm)) {
return command_fail(
cmd, JSONRPC2_INVALID_PARAMS,
"Overflow when computing fee budget, fee rate too high.");
}
payment_mod_exemptfee_get_data(p)->amount
= exemptfee ? *exemptfee : AMOUNT_MSAT(5000);
/* We free unneeded params now to keep memleak happy. */
tal_free(maxfee_pct_millionths);
tal_free(exemptfee);
}
shadow_route = payment_mod_shadowroute_get_data(p);
payment_mod_presplit_get_data(p)->disable = disablempp;
payment_mod_adaptive_splitter_get_data(p)->disable = disablempp;
payment_mod_route_exclusions_get_data(p)->exclusions = exclusions;
/* This is an MPP enabled pay command, disable amount fuzzing. */
shadow_route->fuzz_amount = false;
#if DEVELOPER
shadow_route->use_shadow = *use_shadow;
tal_free(use_shadow);
#endif
p->label = tal_steal(p, label);
list_add_tail(&payments, &p->list);
tal_add_destructor(p, destroy_payment);
/* We're keeping this around now */
tal_steal(cmd->plugin, p);
req = jsonrpc_request_start(cmd->plugin, cmd, "listsendpays",
payment_listsendpays_previous,
payment_listsendpays_previous, p);
json_add_sha256(req->js, "payment_hash", p->payment_hash);
return send_outreq(cmd->plugin, req);
}
static const struct plugin_command commands[] = {
{
"paystatus",
"payment",
"Detail status of attempts to pay {bolt11}, or all",
"Covers both old payments and current ones.",
json_paystatus
}, {
"listpays",
"payment",
"List result of payment {bolt11} or {payment_hash}, or all",
"Covers old payments (failed and succeeded) and current ones.",
json_listpays
},
{
"pay",
"payment",
"Send payment specified by {bolt11}",
"Attempt to pay the {bolt11} invoice.",
json_pay
},
};
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static const char *notification_topics[] = {
"pay_success",
"pay_failure",
};
int main(int argc, char *argv[])
{
setup_locale();
plugin_main(argv, init, PLUGIN_RESTARTABLE, true, NULL, commands,
ARRAY_SIZE(commands), NULL, 0, NULL, 0,
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notification_topics, ARRAY_SIZE(notification_topics),
plugin_option("disable-mpp", "flag",
"Disable multi-part payments.",
flag_option, &disablempp),
NULL);
}