core-lightning/common/bolt12.c
Rusty Russell 37590eeeb2 common: fix arm32 compile breakage.
It's obviously the incorrect type, while our CI didn't catch it, Nicholas did:

```
plugins/fetchinvoice.c:1362:30: error: conversion from 'long long unsigned int' to 'size_t' {aka 'unsigned int'} changes value from '18446744073709551615' to '4294967295' [-Werror=overflow]
 1362 |      || tlv_span(wire, 1001, UINT64_MAX, NULL) != 0) {
```

Reported-by: @NicholasDorier
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
Changelog-Fixed: Build: arm32 compiler error in fetchinvoice, due to bad types on 32-bit platforms.
Fixes: #5776
2022-12-06 10:44:39 +01:00

571 lines
14 KiB
C

#include "config.h"
#include <assert.h>
#include <bitcoin/chainparams.h>
#include <ccan/tal/str/str.h>
#include <common/bech32_util.h>
#include <common/bolt12.h>
#include <common/bolt12_merkle.h>
#include <common/configdir.h>
#include <common/features.h>
#include <secp256k1_schnorrsig.h>
#include <time.h>
/* If chains is NULL, max_num_chains is ignored */
bool bolt12_chains_match(const struct bitcoin_blkid *chains,
size_t max_num_chains,
const struct chainparams *must_be_chain)
{
/* BOLT-offers #12:
* - if the chain for the invoice is not solely bitcoin:
* - MUST specify `offer_chains` the offer is valid for.
* - otherwise:
* - MAY omit `offer_chains`, implying that bitcoin is only chain.
*/
/* BOLT-offers #12:
* A reader of an offer:
*...
* - if `offer_chains` is not set:
* - if the node does not accept bitcoin invoices:
* - MUST NOT respond to the offer
* - otherwise: (`offer_chains` is set):
* - if the node does not accept invoices for any of the `chains`:
* - MUST NOT respond to the offer
*/
if (!chains) {
max_num_chains = 1;
chains = &chainparams_for_network("bitcoin")->genesis_blockhash;
}
for (size_t i = 0; i < max_num_chains; i++) {
if (bitcoin_blkid_eq(&chains[i],
&must_be_chain->genesis_blockhash))
return true;
}
return false;
}
bool bolt12_chain_matches(const struct bitcoin_blkid *chain,
const struct chainparams *must_be_chain)
{
return bolt12_chains_match(chain, 1, must_be_chain);
}
static char *check_features_and_chain(const tal_t *ctx,
const struct feature_set *our_features,
const struct chainparams *must_be_chain,
const u8 *features,
enum feature_place fplace,
const struct bitcoin_blkid *chains,
size_t num_chains)
{
if (must_be_chain) {
if (!bolt12_chains_match(chains, num_chains, must_be_chain))
return tal_fmt(ctx, "wrong chain");
}
if (our_features) {
int badf = features_unsupported(our_features, features, fplace);
if (badf != -1)
return tal_fmt(ctx, "unknown feature bit %i", badf);
}
return NULL;
}
bool bolt12_check_signature(const struct tlv_field *fields,
const char *messagename,
const char *fieldname,
const struct pubkey *key,
const struct bip340sig *sig)
{
struct sha256 m, shash;
merkle_tlv(fields, &m);
sighash_from_merkle(messagename, fieldname, &m, &shash);
return check_schnorr_sig(&shash, &key->pubkey, sig);
}
static char *check_signature(const tal_t *ctx,
const struct tlv_field *fields,
const char *messagename,
const char *fieldname,
const struct pubkey *node_id,
const struct bip340sig *sig)
{
if (!node_id)
return tal_fmt(ctx, "Missing node_id");
if (!sig)
return tal_fmt(ctx, "Missing signature");
if (!bolt12_check_signature(fields,
messagename, fieldname, node_id, sig))
return tal_fmt(ctx, "Invalid signature");
return NULL;
}
static const u8 *string_to_data(const tal_t *ctx,
const char *str,
size_t str_len,
const char *hrp_expected,
size_t *dlen,
char **fail)
{
char *hrp;
u8 *data;
char *bech32;
size_t bech32_len;
bool have_plus = false;
/* First we collapse +\s*, except at start/end. */
bech32 = tal_arr(tmpctx, char, str_len);
bech32_len = 0;
for (size_t i = 0; i < str_len; i++) {
if (i != 0 && i+1 != str_len && !have_plus && str[i] == '+') {
have_plus = true;
continue;
}
if (have_plus && cisspace(str[i]))
continue;
have_plus = false;
bech32[bech32_len++] = str[i];
}
if (have_plus) {
*fail = tal_fmt(ctx, "unfinished string");
return NULL;
}
if (!from_bech32_charset(ctx, bech32, bech32_len, &hrp, &data)) {
*fail = tal_fmt(ctx, "invalid bech32 string");
return NULL;
}
if (!streq(hrp, hrp_expected)) {
*fail = tal_fmt(ctx, "unexpected prefix %s", hrp);
data = tal_free(data);
} else
*dlen = tal_bytelen(data);
tal_free(hrp);
return data;
}
char *offer_encode(const tal_t *ctx, const struct tlv_offer *offer_tlv)
{
u8 *wire;
wire = tal_arr(tmpctx, u8, 0);
towire_tlv_offer(&wire, offer_tlv);
return to_bech32_charset(ctx, "lno", wire);
}
struct tlv_offer *offer_decode(const tal_t *ctx,
const char *b12, size_t b12len,
const struct feature_set *our_features,
const struct chainparams *must_be_chain,
char **fail)
{
struct tlv_offer *offer;
const u8 *data;
size_t dlen;
data = string_to_data(tmpctx, b12, b12len, "lno", &dlen, fail);
if (!data)
return NULL;;
offer = fromwire_tlv_offer(ctx, &data, &dlen);
if (!offer) {
*fail = tal_fmt(ctx, "invalid offer data");
return NULL;
}
*fail = check_features_and_chain(ctx,
our_features, must_be_chain,
offer->offer_features,
BOLT12_OFFER_FEATURE,
offer->offer_chains,
tal_count(offer->offer_chains));
if (*fail)
return tal_free(offer);
return offer;
}
char *invrequest_encode(const tal_t *ctx, const struct tlv_invoice_request *invrequest_tlv)
{
u8 *wire;
wire = tal_arr(tmpctx, u8, 0);
towire_tlv_invoice_request(&wire, invrequest_tlv);
return to_bech32_charset(ctx, "lnr", wire);
}
struct tlv_invoice_request *invrequest_decode(const tal_t *ctx,
const char *b12, size_t b12len,
const struct feature_set *our_features,
const struct chainparams *must_be_chain,
char **fail)
{
struct tlv_invoice_request *invrequest;
const u8 *data;
size_t dlen;
data = string_to_data(tmpctx, b12, b12len, "lnr", &dlen, fail);
if (!data)
return NULL;
invrequest = fromwire_tlv_invoice_request(ctx, &data, &dlen);
if (!invrequest) {
*fail = tal_fmt(ctx, "invalid invreq data");
return NULL;
}
*fail = check_features_and_chain(ctx,
our_features, must_be_chain,
invrequest->invreq_features,
BOLT12_INVREQ_FEATURE,
invrequest->invreq_chain, 1);
if (*fail)
return tal_free(invrequest);
return invrequest;
}
char *invoice_encode(const tal_t *ctx, const struct tlv_invoice *invoice_tlv)
{
u8 *wire;
wire = tal_arr(tmpctx, u8, 0);
towire_tlv_invoice(&wire, invoice_tlv);
return to_bech32_charset(ctx, "lni", wire);
}
struct tlv_invoice *invoice_decode_nosig(const tal_t *ctx,
const char *b12, size_t b12len,
const struct feature_set *our_features,
const struct chainparams *must_be_chain,
char **fail)
{
struct tlv_invoice *invoice;
const u8 *data;
size_t dlen;
data = string_to_data(tmpctx, b12, b12len, "lni", &dlen, fail);
if (!data)
return NULL;
invoice = fromwire_tlv_invoice(ctx, &data, &dlen);
if (!invoice) {
*fail = tal_fmt(ctx, "invalid invoice data");
return NULL;
}
*fail = check_features_and_chain(ctx,
our_features, must_be_chain,
invoice->invoice_features,
BOLT12_INVOICE_FEATURE,
invoice->invreq_chain, 1);
if (*fail)
return tal_free(invoice);
return invoice;
}
static void add_days(struct tm *tm, u32 number)
{
tm->tm_mday += number;
}
static void add_months(struct tm *tm, u32 number)
{
tm->tm_mon += number;
}
static void add_years(struct tm *tm, u32 number)
{
tm->tm_year += number;
}
static u64 time_change(u64 prevstart, u32 number,
void (*add_time)(struct tm *tm, u32 number),
bool day_const)
{
struct tm tm;
time_t prev = prevstart, ret;
tm = *gmtime(&prev);
for (;;) {
struct tm new_tm = tm;
add_time(&new_tm, number);
ret = mktime(&new_tm);
if (ret == (time_t)-1)
return 0;
/* If we overflowed that month, try one less. */
if (!day_const || new_tm.tm_mday == tm.tm_mday)
break;
tm.tm_mday--;
}
return ret;
}
u64 offer_period_start(u64 basetime, size_t n,
const struct recurrence *recur)
{
/* BOLT-offers-recurrence #12:
* 1. A `time_unit` defining 0 (seconds), 1 (days), 2 (months),
* 3 (years).
*/
switch (recur->time_unit) {
case 0:
return basetime + recur->period * n;
case 1:
return time_change(basetime, recur->period * n, add_days, false);
case 2:
return time_change(basetime, recur->period * n, add_months, true);
case 3:
return time_change(basetime, recur->period * n, add_years, true);
default:
/* This is our offer, how did we get here? */
return 0;
}
}
void offer_period_paywindow(const struct recurrence *recurrence,
const struct recurrence_paywindow *recurrence_paywindow,
const struct recurrence_base *recurrence_base,
u64 basetime, u64 period_idx,
u64 *start, u64 *end)
{
/* BOLT-offers-recurrence #12:
* - if the offer contains `recurrence_paywindow`:
*/
if (recurrence_paywindow) {
u64 pstart = offer_period_start(basetime, period_idx,
recurrence);
/* BOLT-offers-recurrence #12:
* - if the offer has a `recurrence_basetime` or the
* `recurrence_counter` is non-zero:
* - SHOULD NOT send an `invreq` for a period prior to
* `seconds_before` seconds before that period start.
* - SHOULD NOT send an `invreq` for a period later
* than `seconds_after` seconds past that period start.
*/
*start = pstart - recurrence_paywindow->seconds_before;
*end = pstart + recurrence_paywindow->seconds_after;
/* First payment without recurrence_base, we give
* ourselves 60 seconds, since period will start
* now */
if (!recurrence_base && period_idx == 0
&& recurrence_paywindow->seconds_after < 60)
*end = pstart + 60;
} else {
/* BOLT-offers-recurrence #12:
* - otherwise:
* - SHOULD NOT send an `invreq` with
* `recurrence_counter` is non-zero for a period whose
* immediate predecessor has not yet begun.
*/
if (period_idx == 0)
*start = 0;
else
*start = offer_period_start(basetime, period_idx-1,
recurrence);
/* BOLT-offers-recurrence #12:
* - SHOULD NOT send an `invreq` for a period which
* has already passed.
*/
*end = offer_period_start(basetime, period_idx+1,
recurrence) - 1;
}
}
struct tlv_invoice *invoice_decode(const tal_t *ctx,
const char *b12, size_t b12len,
const struct feature_set *our_features,
const struct chainparams *must_be_chain,
char **fail)
{
struct tlv_invoice *invoice;
invoice = invoice_decode_nosig(ctx, b12, b12len, our_features,
must_be_chain, fail);
if (invoice) {
*fail = check_signature(ctx, invoice->fields,
"invoice", "signature",
invoice->invoice_node_id,
invoice->signature);
if (*fail)
invoice = tal_free(invoice);
}
return invoice;
}
static bool bolt12_has_invoice_prefix(const char *str)
{
return strstarts(str, "lni1") || strstarts(str, "LNI1");
}
static bool bolt12_has_request_prefix(const char *str)
{
return strstarts(str, "lnr1") || strstarts(str, "LNR1");
}
static bool bolt12_has_offer_prefix(const char *str)
{
return strstarts(str, "lno1") || strstarts(str, "LNO1");
}
bool bolt12_has_prefix(const char *str)
{
return bolt12_has_invoice_prefix(str) || bolt12_has_offer_prefix(str) ||
bolt12_has_request_prefix(str);
}
/* Inclusive span of tlv range >= minfield and <= maxfield */
size_t tlv_span(const u8 *tlvstream, u64 minfield, u64 maxfield,
size_t *startp)
{
const u8 *cursor = tlvstream;
size_t tlvlen = tal_bytelen(tlvstream);
const u8 *start, *end;
start = end = NULL;
while (tlvlen) {
const u8 *before = cursor;
bigsize_t type = fromwire_bigsize(&cursor, &tlvlen);
bigsize_t len = fromwire_bigsize(&cursor, &tlvlen);
if (type >= minfield && start == NULL)
start = before;
if (type > maxfield)
break;
fromwire_pad(&cursor, &tlvlen, len);
end = cursor;
}
if (!start)
start = end;
if (startp)
*startp = start - tlvstream;
return end - start;
}
static void calc_offer(const u8 *tlvstream, struct sha256 *id)
{
size_t start, len;
/* BOLT-offers #12:
* A writer of an offer:
* - MUST NOT set any tlv fields greater or equal to 80, or tlv field 0.
*/
len = tlv_span(tlvstream, 1, 79, &start);
sha256(id, tlvstream + start, len);
}
void offer_offer_id(const struct tlv_offer *offer, struct sha256 *id)
{
u8 *wire = tal_arr(tmpctx, u8, 0);
towire_tlv_offer(&wire, offer);
calc_offer(wire, id);
}
void invreq_offer_id(const struct tlv_invoice_request *invreq, struct sha256 *id)
{
u8 *wire = tal_arr(tmpctx, u8, 0);
towire_tlv_invoice_request(&wire, invreq);
calc_offer(wire, id);
}
void invoice_offer_id(const struct tlv_invoice *invoice, struct sha256 *id)
{
u8 *wire = tal_arr(tmpctx, u8, 0);
towire_tlv_invoice(&wire, invoice);
calc_offer(wire, id);
}
static void calc_invreq(const u8 *tlvstream, struct sha256 *id)
{
size_t start, len;
/* BOLT-offers #12:
* - if the invoice is a response to an `invoice_request`:
* - MUST reject the invoice if all fields less than type 160
* do not exactly match the `invoice_request`.
*/
len = tlv_span(tlvstream, 0, 159, &start);
sha256(id, tlvstream + start, len);
}
void invreq_invreq_id(const struct tlv_invoice_request *invreq, struct sha256 *id)
{
u8 *wire = tal_arr(tmpctx, u8, 0);
towire_tlv_invoice_request(&wire, invreq);
calc_invreq(wire, id);
}
void invoice_invreq_id(const struct tlv_invoice *invoice, struct sha256 *id)
{
u8 *wire = tal_arr(tmpctx, u8, 0);
towire_tlv_invoice(&wire, invoice);
calc_invreq(wire, id);
}
/* BOLT-offers #12:
* ## Requirements for Invoice Requests
*
* The writer:
* - if it is responding to an offer:
* - MUST copy all fields from the offer (including unknown fields).
*/
struct tlv_invoice_request *invoice_request_for_offer(const tal_t *ctx,
const struct tlv_offer *offer)
{
const u8 *cursor;
size_t max;
u8 *wire = tal_arr(tmpctx, u8, 0);
towire_tlv_offer(&wire, offer);
cursor = wire;
max = tal_bytelen(wire);
return fromwire_tlv_invoice_request(ctx, &cursor, &max);
}
/**
* Prepare a new invoice based on an invoice_request.
*/
struct tlv_invoice *invoice_for_invreq(const tal_t *ctx,
const struct tlv_invoice_request *invreq)
{
const u8 *cursor;
size_t start, len;
u8 *wire = tal_arr(tmpctx, u8, 0);
towire_tlv_invoice_request(&wire, invreq);
/* BOLT-offers #12:
* A writer of an invoice:
*...
* - if the invoice is in response to an `invoice_request`:
* - MUST copy all non-signature fields from the `invoice_request` (including
* unknown fields).
*/
len = tlv_span(wire, 0, 159, &start);
cursor = wire + start;
return fromwire_tlv_invoice(ctx, &cursor, &len);
}