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#include <bitcoin/chainparams.h>
#include <ccan/cast/cast.h>
#include <ccan/err/err.h>
#include <ccan/tal/str/str.h>
#include <common/bech32_util.h>
#include <common/bolt12.h>
#include <common/bolt12_merkle.h>
#include <common/features.h>
#include <common/iso4217.h>
#include <common/setup.h>
#include <common/type_to_string.h>
#include <common/version.h>
#include <inttypes.h>
#include <secp256k1_schnorrsig.h>
#include <stdio.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <sys/un.h>
#include <time.h>
#include <unistd.h>
#define NO_ERROR 0
#define ERROR_BAD_DECODE 1
#define ERROR_USAGE 3
static bool well_formed = true;
/* Tal wrappers for opt. */
static void *opt_allocfn(size_t size)
{
return tal_arr_label(NULL, char, size, TAL_LABEL("opt_allocfn", ""));
}
static void *tal_reallocfn(void *ptr, size_t size)
{
if (!ptr)
return opt_allocfn(size);
tal_resize_(&ptr, 1, size, false);
return ptr;
}
static void tal_freefn(void *ptr)
{
tal_free(ptr);
}
static char *fmt_time(const tal_t *ctx, u64 time)
{
/* ctime is not sane. Take pointer, returns \n in string. */
time_t t = time;
const char *p = ctime(&t);
return tal_fmt(ctx, "%.*s", (int)strcspn(p, "\n"), p);
}
static bool must_str(bool expected, const char *complaint, const char *fieldname)
{
if (!expected) {
fprintf(stderr, "%s %s\n", complaint, fieldname);
well_formed = false;
return false;
}
return true;
}
#define must_have(obj, field) \
must_str((obj)->field != NULL, "Missing", stringify(field))
#define must_not_have(obj, field) \
must_str((obj)->field == NULL, "Unnecessary", stringify(field))
static void print_chains(const struct bitcoin_blkid *chains)
{
printf("chains:");
for (size_t i = 0; i < tal_count(chains); i++) {
printf(" %s", type_to_string(tmpctx, struct bitcoin_blkid, &chains[i]));
}
printf("\n");
}
static bool print_amount(const struct bitcoin_blkid *chains,
const char *iso4217, u64 amount)
{
const char *currency;
unsigned int minor_unit;
bool ok = true;
/* BOLT-offers #12:
* - if the currency for `amount` is that of the first entry in `chains`:
* - MUST specify `amount` in multiples of the minimum
* lightning-payable unit (e.g. milli-satoshis for bitcoin).
* - otherwise:
* - MUST specify `iso4217` as an ISO 4712 three-letter code.
* - MUST specify `amount` in the currency unit adjusted by the
* ISO 4712 exponent (e.g. USD cents).
*/
if (!iso4217) {
if (tal_count(chains) == 0)
currency = "bc";
else {
const struct chainparams *ch;
ch = chainparams_by_chainhash(&chains[0]);
if (!ch) {
currency = tal_fmt(tmpctx, "UNKNOWN CHAINHASH %s",
type_to_string(tmpctx,
struct bitcoin_blkid,
&chains[0]));
ok = false;
} else
currency = ch->bip173_name;
}
minor_unit = 11;
} else {
const struct iso4217_name_and_divisor *iso;
iso = find_iso4217(iso4217, tal_bytelen(iso4217));
if (iso) {
minor_unit = iso->minor_unit;
currency = iso->name;
} else {
minor_unit = 0;
currency = tal_fmt(tmpctx, "%.*s (UNKNOWN CURRENCY)",
(int)tal_bytelen(iso4217), iso4217);
ok = false;
}
}
if (!minor_unit)
printf("amount: %"PRIu64"%s\n", amount, currency);
else {
u64 minor_div = 1;
for (size_t i = 0; i < minor_unit; i++)
minor_div *= 10;
printf("amount: %"PRIu64".%.*"PRIu64"%s\n",
amount / minor_div, minor_unit, amount % minor_div,
currency);
}
return ok;
}
static void print_description(const char *description)
{
printf("description: %.*s\n",
(int)tal_bytelen(description), description);
}
static void print_vendor(const char *vendor)
{
printf("vendor: %.*s\n", (int)tal_bytelen(vendor), vendor);
}
static void print_node_id(const struct pubkey32 *node_id)
{
printf("node_id: %s\n", type_to_string(tmpctx, struct pubkey32, node_id));
}
static void print_quantity_min(u64 min)
{
printf("quantity_min: %"PRIu64"\n", min);
}
static void print_quantity_max(u64 max)
{
printf("quantity_max: %"PRIu64"\n", max);
}
static bool print_recurrance(const struct tlv_offer_recurrence *recurrence,
const struct tlv_offer_recurrence_paywindow *paywindow,
const u32 *limit,
const struct tlv_offer_recurrence_base *base)
{
const char *unit;
bool ok = true;
/* BOLT-offers #12:
* Thus, each payment has:
* 1. A `time_unit` defining 0 (seconds), 1 (days), 2 (months),
* 3 (years).
* 2. A `period`, defining how often (in `time_unit`) it has to be paid.
* 3. An optional `recurrence_limit` of total payments to be paid.
* 4. An optional `recurrence_base`:
* * `basetime`, defining when the first period starts
* in seconds since 1970-01-01 UTC.
* * `start_any_period` if non-zero, meaning you don't have to start
* paying at the period indicated by `basetime`, but can use
* `recurrence_start` to indicate what period you are starting at.
* 5. An optional `recurrence_paywindow`:
* * `seconds_before`, defining how many seconds prior to the start of
* the period a payment will be accepted.
* * `proportional_amount`, if set indicating that a payment made
* during the period itself will be charged proportionally to the
* remaining time in the period (e.g. 150 seconds into a 1500
* second period gives a 10% discount).
* * `seconds_after`, defining how many seconds after the start of the
* period a payment will be accepted.
* If this field is missing, payment will be accepted during the prior
* period and the paid-for period.
*/
switch (recurrence->time_unit) {
case 0:
unit = "seconds";
break;
case 1:
unit = "days";
break;
case 2:
unit = "months";
break;
case 3:
unit = "years";
break;
default:
fprintf(stderr, "recurrence: unknown time_unit %u", recurrence->time_unit);
unit = "";
ok = false;
}
printf("recurrence: every %u %s", recurrence->period, unit);
if (limit)
printf(" limit %u", *limit);
if (base) {
printf(" start %"PRIu64" (%s)",
base->basetime,
fmt_time(tmpctx, base->basetime));
if (base->start_any_period)
printf(" (can start any period)");
}
if (paywindow) {
printf(" paywindow -%u to +%u",
paywindow->seconds_before, paywindow->seconds_after);
if (paywindow->proportional_amount)
printf(" (pay proportional)");
}
printf("\n");
return ok;
}
static void print_absolute_expiry(u64 expiry)
{
printf("absolute_expiry: %"PRIu64" (%s)\n",
expiry, fmt_time(tmpctx, expiry));
}
static void print_features(const u8 *features)
{
printf("features:");
for (size_t i = 0; i < tal_bytelen(features) * CHAR_BIT; i++) {
if (feature_is_set(features, i))
printf(" %zu", i);
}
printf("\n");
}
static bool print_blindedpaths(struct blinded_path **paths,
struct blinded_payinfo **blindedpay)
{
size_t bp_idx = 0;
for (size_t i = 0; i < tal_count(paths); i++) {
struct onionmsg_path **p = paths[i]->path;
printf("blindedpath %zu/%zu: blinding %s",
i, tal_count(paths),
type_to_string(tmpctx, struct pubkey,
&paths[i]->blinding));
printf("blindedpath %zu/%zu: path ",
i, tal_count(paths));
for (size_t j = 0; j < tal_count(p); j++) {
printf(" %s:%s",
type_to_string(tmpctx, struct pubkey,
&p[j]->node_id),
tal_hex(tmpctx, p[j]->enctlv));
if (blindedpay) {
if (bp_idx < tal_count(blindedpay))
printf("fee=%u/%u,cltv=%u,features=%s",
blindedpay[bp_idx]->fee_base_msat,
blindedpay[bp_idx]->fee_proportional_millionths,
blindedpay[bp_idx]->cltv_expiry_delta,
tal_hex(tmpctx,
blindedpay[bp_idx]->features));
bp_idx++;
}
}
printf("\n");
}
if (blindedpay && tal_count(blindedpay) != bp_idx) {
fprintf(stderr, "Expected %zu blindedpay fields, got %zu\n",
bp_idx, tal_count(blindedpay));
return false;
}
return true;
}
static void print_send_invoice(void)
{
printf("send_invoice\n");
}
static void print_refund_for(const struct sha256 *payment_hash)
{
printf("refund_for: %s\n",
type_to_string(tmpctx, struct sha256, payment_hash));
}
static bool print_signature(const char *messagename,
const char *fieldname,
const struct tlv_field *fields,
const struct pubkey32 *node_id,
const struct bip340sig *sig)
{
struct sha256 m, shash;
/* No key, it's already invalid */
if (!node_id)
return false;
merkle_tlv(fields, &m);
sighash_from_merkle(messagename, fieldname, &m, &shash);
if (secp256k1_schnorrsig_verify(secp256k1_ctx,
sig->u8,
shash.u.u8,
&node_id->pubkey) != 1) {
fprintf(stderr, "%s: INVALID\n", fieldname);
return false;
}
printf("%s: %s\n",
fieldname,
type_to_string(tmpctx, struct bip340sig, sig));
return true;
}
static void print_offer_id(const struct sha256 *offer_id)
{
printf("offer_id: %s\n",
type_to_string(tmpctx, struct sha256, offer_id));
}
static void print_quantity(u64 q)
{
printf("quantity: %"PRIu64"\n", q);
}
static void print_recurrence_counter(const u32 *recurrence_counter,
const u32 *recurrence_start)
{
printf("recurrence_counter: %u", *recurrence_counter);
if (recurrence_start)
printf(" (start +%u)", *recurrence_start);
printf("\n");
}
static bool print_recurrence_counter_with_base(const u32 *recurrence_counter,
const u32 *recurrence_start,
const u64 *recurrence_base)
{
if (!recurrence_base) {
fprintf(stderr, "Missing recurrence_base\n");
return false;
}
printf("recurrence_counter: %u", *recurrence_counter);
if (recurrence_start)
printf(" (start +%u)", *recurrence_start);
printf(" (base %"PRIu64")\n", *recurrence_base);
return true;
}
static void print_payer_key(const struct pubkey32 *payer_key,
const u8 *payer_info)
{
printf("payer_key: %s",
type_to_string(tmpctx, struct pubkey32, payer_key));
if (payer_info)
printf(" (payer_info %s)", tal_hex(tmpctx, payer_info));
printf("\n");
}
static void print_timestamp(u64 timestamp)
{
printf("timestamp: %"PRIu64" (%s)\n",
timestamp, fmt_time(tmpctx, timestamp));
}
static void print_payment_hash(const struct sha256 *payment_hash)
{
printf("payment_hash: %s\n",
type_to_string(tmpctx, struct sha256, payment_hash));
}
static void print_cltv(u32 cltv)
{
printf("min_final_cltv_expiry: %u\n", cltv);
}
static void print_relative_expiry(u64 *timestamp, u32 *relative)
{
/* Ignore if already malformed */
if (!timestamp)
return;
/* BOLT-offers #12:
* - if `relative_expiry` is present:
* - MUST reject the invoice if the current time since 1970-01-01 UTC
* is greater than `timestamp` plus `seconds_from_timestamp`.
* - otherwise:
* - MUST reject the invoice if the current time since 1970-01-01 UTC
* is greater than `timestamp` plus 7200.
*/
if (!relative)
printf("relative_expiry: %u (%s) (default)\n",
BOLT12_DEFAULT_REL_EXPIRY,
fmt_time(tmpctx, *timestamp + BOLT12_DEFAULT_REL_EXPIRY));
else
printf("relative_expiry: %u (%s)\n", *relative,
fmt_time(tmpctx, *timestamp + *relative));
}
static void print_fallbacks(const struct tlv_invoice_fallbacks *fallbacks)
{
for (size_t i = 0; i < tal_count(fallbacks->fallbacks); i++) {
/* FIXME: format properly! */
printf("fallback: %u %s\n",
fallbacks->fallbacks[i]->version,
tal_hex(tmpctx, fallbacks->fallbacks[i]->address));
}
}
static bool print_extra_fields(const struct tlv_field *fields)
{
bool ok = true;
for (size_t i = 0; i < tal_count(fields); i++) {
if (fields[i].meta)
continue;
if (fields[i].numtype % 2) {
printf("UNKNOWN EVEN field %"PRIu64": %s\n",
fields[i].numtype,
tal_hexstr(tmpctx, fields[i].value, fields[i].length));
ok = false;
} else {
printf("Unknown field %"PRIu64": %s\n",
fields[i].numtype,
tal_hexstr(tmpctx, fields[i].value, fields[i].length));
}
}
return ok;
}
int main(int argc, char *argv[])
{
const tal_t *ctx = tal(NULL, char);
const char *method;
char *hrp;
u8 *data;
char *fail;
common_setup(argv[0]);
opt_set_alloc(opt_allocfn, tal_reallocfn, tal_freefn);
opt_register_noarg("--help|-h", opt_usage_and_exit,
"<decode> <bolt12>", "Show this message");
opt_register_version();
opt_early_parse(argc, argv, opt_log_stderr_exit);
opt_parse(&argc, argv, opt_log_stderr_exit);
method = argv[1];
if (!method)
errx(ERROR_USAGE, "Need at least one argument\n%s",
opt_usage(argv[0], NULL));
if (!streq(method, "decode"))
errx(ERROR_USAGE, "Need decode argument\n%s",
opt_usage(argv[0], NULL));
if (!argv[2])
errx(ERROR_USAGE, "Need argument\n%s",
opt_usage(argv[0], NULL));
if (!from_bech32_charset(ctx, argv[2], strlen(argv[2]), &hrp, &data))
errx(ERROR_USAGE, "Bad bech32 string\n%s",
opt_usage(argv[0], NULL));
if (streq(hrp, "lno")) {
const struct tlv_offer *offer
= offer_decode_nosig(ctx, argv[2], strlen(argv[2]),
NULL, NULL, &fail);
if (!offer)
errx(ERROR_BAD_DECODE, "Bad offer: %s", fail);
if (offer->send_invoice)
print_send_invoice();
if (offer->chains)
print_chains(offer->chains);
if (offer->refund_for)
print_refund_for(offer->refund_for);
if (offer->amount)
well_formed &= print_amount(offer->chains,
offer->currency,
*offer->amount);
if (must_have(offer, description))
print_description(offer->description);
if (offer->vendor)
print_vendor(offer->vendor);
if (must_have(offer, node_id))
print_node_id(offer->node_id);
if (offer->quantity_min)
print_quantity_min(*offer->quantity_min);
if (offer->quantity_max)
print_quantity_max(*offer->quantity_max);
if (offer->recurrence)
well_formed &= print_recurrance(offer->recurrence,
offer->recurrence_paywindow,
offer->recurrence_limit,
offer->recurrence_base);
if (offer->absolute_expiry)
print_absolute_expiry(*offer->absolute_expiry);
if (offer->features)
print_features(offer->features);
if (offer->paths)
print_blindedpaths(offer->paths, NULL);
if (must_have(offer, signature) && offer->node_id)
well_formed &= print_signature("offer", "signature",
offer->fields,
offer->node_id,
offer->signature);
if (!print_extra_fields(offer->fields))
well_formed = false;
} else if (streq(hrp, "lnr")) {
const struct tlv_invoice_request *invreq
= invrequest_decode(ctx, argv[2], strlen(argv[2]),
NULL, NULL, &fail);
if (!invreq)
errx(ERROR_BAD_DECODE, "Bad invoice_request: %s", fail);
if (invreq->chains)
print_chains(invreq->chains);
if (must_have(invreq, payer_key))
print_payer_key(invreq->payer_key, invreq->payer_info);
if (must_have(invreq, offer_id))
print_offer_id(invreq->offer_id);
if (must_have(invreq, amount))
well_formed &= print_amount(invreq->chains,
NULL,
*invreq->amount);
if (invreq->features)
print_features(invreq->features);
if (invreq->quantity)
print_quantity(*invreq->quantity);
if (invreq->recurrence_counter) {
print_recurrence_counter(invreq->recurrence_counter,
invreq->recurrence_start);
if (must_have(invreq, recurrence_signature)) {
well_formed &= print_signature("invoice_request",
"recurrence_signature",
invreq->fields,
invreq->payer_key,
invreq->recurrence_signature);
}
} else {
must_not_have(invreq, recurrence_start);
must_not_have(invreq, recurrence_signature);
}
if (!print_extra_fields(invreq->fields))
well_formed = false;
} else if (streq(hrp, "lni")) {
const struct tlv_invoice *invoice
= invoice_decode(ctx, argv[2], strlen(argv[2]),
NULL, NULL, &fail);
if (!invoice)
errx(ERROR_BAD_DECODE, "Bad invoice: %s", fail);
if (invoice->chains)
print_chains(invoice->chains);
if (invoice->offer_id) {
print_offer_id(invoice->offer_id);
}
if (must_have(invoice, amount))
well_formed &= print_amount(invoice->chains,
NULL,
*invoice->amount);
if (must_have(invoice, description))
print_description(invoice->description);
if (invoice->features)
print_features(invoice->features);
if (invoice->paths) {
must_have(invoice, blindedpay);
well_formed &= print_blindedpaths(invoice->paths,
invoice->blindedpay);
} else
must_not_have(invoice, blindedpay);
if (invoice->vendor)
print_vendor(invoice->vendor);
if (must_have(invoice, node_id))
print_node_id(invoice->node_id);
if (invoice->quantity)
print_quantity(*invoice->quantity);
if (invoice->refund_for) {
print_refund_for(invoice->refund_for);
if (must_have(invoice, refund_signature))
well_formed &= print_signature("invoice",
"refund_signature",
invoice->fields,
invoice->payer_key,
invoice->refund_signature);
} else {
must_not_have(invoice, refund_signature);
}
if (invoice->recurrence_counter) {
well_formed &=
print_recurrence_counter_with_base(invoice->recurrence_counter,
invoice->recurrence_start,
invoice->recurrence_basetime);
} else {
must_not_have(invoice, recurrence_start);
must_not_have(invoice, recurrence_basetime);
}
if (must_have(invoice, payer_key))
print_payer_key(invoice->payer_key, invoice->payer_info);
if (must_have(invoice, timestamp))
print_timestamp(*invoice->timestamp);
print_relative_expiry(invoice->timestamp,
invoice->relative_expiry);
if (must_have(invoice, payment_hash))
print_payment_hash(invoice->payment_hash);
if (must_have(invoice, cltv))
print_cltv(*invoice->cltv);
if (invoice->fallbacks)
print_fallbacks(invoice->fallbacks);
if (must_have(invoice, signature))
well_formed &= print_signature("invoice", "signature",
invoice->fields,
invoice->node_id,
invoice->signature);
if (!print_extra_fields(invoice->fields))
well_formed = false;
} else
errx(ERROR_BAD_DECODE, "Unknown prefix %s", hrp);
tal_free(ctx);
common_shutdown();
if (well_formed)
return NO_ERROR;
else
return ERROR_BAD_DECODE;
}