core-lightning/common/amount.c
niftynei 16c92b7da3 amount: amount_sat_scale method
For scaling/multiplying sats
2021-05-03 11:06:10 +09:30

606 lines
15 KiB
C

#include "config.h"
#include <assert.h>
#include <bitcoin/chainparams.h>
#include <ccan/endian/endian.h>
#include <ccan/mem/mem.h>
#include <ccan/tal/str/str.h>
#include <common/amount.h>
#include <common/overflows.h>
#include <common/type_to_string.h>
#include <common/utils.h>
#include <inttypes.h>
#include <wire/wire.h>
bool amount_sat_to_msat(struct amount_msat *msat,
struct amount_sat sat)
{
if (mul_overflows_u64(sat.satoshis, MSAT_PER_SAT))
return false;
msat->millisatoshis = sat.satoshis * MSAT_PER_SAT;
return true;
}
/* You can always truncate millisatoshis->satoshis. */
struct amount_sat amount_msat_to_sat_round_down(struct amount_msat msat)
{
struct amount_sat sat;
sat.satoshis = msat.millisatoshis / MSAT_PER_SAT;
return sat;
}
/* Different formatting by amounts: btc, sat and msat */
const char *fmt_amount_msat_btc(const tal_t *ctx,
struct amount_msat msat,
bool append_unit)
{
if (msat.millisatoshis == 0)
return tal_fmt(ctx, append_unit ? "0btc" : "0");
return tal_fmt(ctx, "%"PRIu64".%011"PRIu64"%s",
msat.millisatoshis / MSAT_PER_BTC,
msat.millisatoshis % MSAT_PER_BTC,
append_unit ? "btc" : "");
}
const char *fmt_amount_msat(const tal_t *ctx, struct amount_msat msat)
{
return tal_fmt(ctx, "%"PRIu64"msat", msat.millisatoshis);
}
static const char *fmt_amount_msat_ptr(const tal_t *ctx,
const struct amount_msat *msat)
{
return fmt_amount_msat(ctx, *msat);
}
REGISTER_TYPE_TO_STRING(amount_msat, fmt_amount_msat_ptr);
const char *fmt_amount_sat_btc(const tal_t *ctx,
struct amount_sat sat,
bool append_unit)
{
if (sat.satoshis == 0)
return tal_fmt(ctx, append_unit ? "0btc" : "0");
return tal_fmt(ctx, "%"PRIu64".%08"PRIu64"%s",
sat.satoshis / SAT_PER_BTC,
sat.satoshis % SAT_PER_BTC,
append_unit ? "btc" : "");
}
const char *fmt_amount_sat(const tal_t *ctx, struct amount_sat sat)
{
return tal_fmt(ctx, "%"PRIu64"sat", sat.satoshis);
}
static const char *fmt_amount_sat_ptr(const tal_t *ctx,
const struct amount_sat *sat)
{
return fmt_amount_sat(ctx, *sat);
}
REGISTER_TYPE_TO_STRING(amount_sat, fmt_amount_sat_ptr);
static bool breakup(const char *str, size_t slen,
/* Length of first numeric part. */
size_t *whole_number_len,
/* Pointer to post-decimal part, or NULL */
const char **post_decimal_ptr,
size_t *post_decimal_len,
/* Pointer to suffix, or NULL */
const char **suffix_ptr,
size_t *suffix_len)
{
size_t i;
*whole_number_len = 0;
*post_decimal_len = 0;
*post_decimal_ptr = NULL;
*suffix_ptr = NULL;
*suffix_len = 0;
for (i = 0;; i++) {
/* The string may be null-terminated. */
if (i >= slen || str[i] == '\0')
return i != 0;
if (cisdigit(str[i]))
(*whole_number_len)++;
else
break;
}
if (str[i] == '.') {
i++;
*post_decimal_ptr = str + i;
for (;; i++) {
/* True if > 0 decimals. */
if (i >= slen || str[i] == '\0')
return str + i != *post_decimal_ptr;
if (cisdigit(str[i]))
(*post_decimal_len)++;
else
break;
}
}
*suffix_ptr = str + i;
*suffix_len = slen - i;
return true;
}
static bool from_number(u64 *res, const char *s, size_t len, int tens_factor)
{
if (len == 0)
return false;
*res = 0;
for (size_t i = 0; i < len; i++) {
if (mul_overflows_u64(*res, 10))
return false;
*res *= 10;
assert(cisdigit(s[i]));
if (add_overflows_u64(*res, s[i] - '0'))
return false;
*res += s[i] - '0';
}
while (tens_factor > 0) {
if (mul_overflows_u64(*res, 10))
return false;
*res *= 10;
tens_factor--;
}
return true;
}
static bool from_numbers(u64 *res,
const char *s1, size_t len1, int tens_factor,
const char *s2, size_t len2)
{
u64 p1, p2;
if (len2 > tens_factor)
return false;
if (!from_number(&p1, s1, len1, tens_factor)
|| !from_number(&p2, s2, len2, tens_factor - len2))
return false;
if (add_overflows_u64(p1, p2))
return false;
*res = p1 + p2;
return true;
}
/* Valid strings:
* [0-9]+ => millisatoshi.
* [0-9]+msat => millisatoshi.
* [0-9]+sat => *1000 -> millisatoshi.
* [0-9]+.[0-9]{1,11}btc => millisatoshi.
*/
bool parse_amount_msat(struct amount_msat *msat, const char *s, size_t slen)
{
size_t whole_number_len, post_decimal_len, suffix_len;
const char *post_decimal_ptr, *suffix_ptr;
if (!breakup(s, slen, &whole_number_len,
&post_decimal_ptr, &post_decimal_len,
&suffix_ptr, &suffix_len))
return false;
if (!post_decimal_ptr && !suffix_ptr)
return from_number(&msat->millisatoshis, s, whole_number_len, 0);
if (!post_decimal_ptr && memstarts_str(suffix_ptr, suffix_len, "msat"))
return from_number(&msat->millisatoshis, s, whole_number_len, 0);
if (!post_decimal_ptr && memstarts_str(suffix_ptr, suffix_len, "sat"))
return from_number(&msat->millisatoshis, s, whole_number_len, 3);
if (memstarts_str(suffix_ptr, suffix_len, "btc")) {
if (post_decimal_len > 0)
return from_numbers(&msat->millisatoshis,
s, whole_number_len, 11,
post_decimal_ptr, post_decimal_len);
return from_number(&msat->millisatoshis, s, whole_number_len, 11);
}
return false;
}
/* Valid strings:
* [0-9]+ => satoshi.
* [0-9]+sat => satoshi.
* [0-9]+000msat => satoshi.
* 0msat => 0 satoshi
* [0-9]+.[0-9]{1,8}btc => satoshi.
*/
bool parse_amount_sat(struct amount_sat *sat, const char *s, size_t slen)
{
size_t whole_number_len, post_decimal_len, suffix_len;
const char *post_decimal_ptr, *suffix_ptr;
if (!breakup(s, slen, &whole_number_len,
&post_decimal_ptr, &post_decimal_len,
&suffix_ptr, &suffix_len))
return false;
if (!post_decimal_ptr && !suffix_ptr)
return from_number(&sat->satoshis, s, whole_number_len, 0);
if (!post_decimal_ptr && memstarts_str(suffix_ptr, suffix_len, "sat"))
return from_number(&sat->satoshis, s, whole_number_len, 0);
if (!post_decimal_ptr && memstarts_str(suffix_ptr, suffix_len, "msat")) {
if (!memends(s, whole_number_len, "000", strlen("000"))) {
if (memstarts_str(s, whole_number_len, "0"))
return from_number(&sat->satoshis, s,
whole_number_len, 0);
return false;
}
return from_number(&sat->satoshis, s, whole_number_len - 3, 0);
}
if (memstarts_str(suffix_ptr, suffix_len, "btc")) {
if (post_decimal_len > 0)
return from_numbers(&sat->satoshis,
s, whole_number_len, 8,
post_decimal_ptr, post_decimal_len);
return from_number(&sat->satoshis, s, whole_number_len, 8);
}
return false;
}
WARN_UNUSED_RESULT bool amount_msat_add(struct amount_msat *val,
struct amount_msat a,
struct amount_msat b)
{
if (add_overflows_u64(a.millisatoshis, b.millisatoshis))
return false;
val->millisatoshis = a.millisatoshis + b.millisatoshis;
return true;
}
WARN_UNUSED_RESULT bool amount_msat_sub(struct amount_msat *val,
struct amount_msat a,
struct amount_msat b)
{
if (a.millisatoshis < b.millisatoshis)
return false;
val->millisatoshis = a.millisatoshis - b.millisatoshis;
return true;
}
WARN_UNUSED_RESULT bool amount_sat_add(struct amount_sat *val,
struct amount_sat a,
struct amount_sat b)
{
if (add_overflows_u64(a.satoshis, b.satoshis))
return false;
val->satoshis = a.satoshis + b.satoshis;
return true;
}
WARN_UNUSED_RESULT bool amount_sat_sub(struct amount_sat *val,
struct amount_sat a,
struct amount_sat b)
{
if (a.satoshis < b.satoshis)
return false;
val->satoshis = a.satoshis - b.satoshis;
return true;
}
WARN_UNUSED_RESULT bool amount_msat_sub_sat(struct amount_msat *val,
struct amount_msat a,
struct amount_sat b)
{
struct amount_msat msatb;
if (!amount_sat_to_msat(&msatb, b))
return false;
return amount_msat_sub(val, a, msatb);
}
WARN_UNUSED_RESULT bool amount_sat_sub_msat(struct amount_msat *val,
struct amount_sat a,
struct amount_msat b)
{
struct amount_msat msata;
if (!amount_sat_to_msat(&msata, a))
return false;
return amount_msat_sub(val, msata, b);
}
WARN_UNUSED_RESULT bool amount_msat_add_sat(struct amount_msat *val,
struct amount_msat a,
struct amount_sat b)
{
struct amount_msat msatb;
if (!amount_sat_to_msat(&msatb, b))
return false;
return amount_msat_add(val, a, msatb);
}
WARN_UNUSED_RESULT bool amount_msat_scale(struct amount_msat *val,
struct amount_msat msat,
double scale)
{
double scaled = msat.millisatoshis * scale;
/* If mantissa is < 64 bits, a naive "if (scaled >
* UINT64_MAX)" doesn't work. Stick to powers of 2. */
if (scaled >= (double)((u64)1 << 63) * 2)
return false;
val->millisatoshis = scaled;
return true;
}
WARN_UNUSED_RESULT bool amount_sat_scale(struct amount_sat *val,
struct amount_sat sat,
double scale)
{
double scaled = sat.satoshis * scale;
/* If mantissa is < 64 bits, a naive "if (scaled >
* UINT64_MAX)" doesn't work. Stick to powers of 2. */
if (scaled >= (double)((u64)1 << 63) * 2)
return false;
val->satoshis = scaled;
return true;
}
bool amount_sat_eq(struct amount_sat a, struct amount_sat b)
{
return a.satoshis == b.satoshis;
}
bool amount_msat_eq(struct amount_msat a, struct amount_msat b)
{
return a.millisatoshis == b.millisatoshis;
}
bool amount_sat_greater(struct amount_sat a, struct amount_sat b)
{
return a.satoshis > b.satoshis;
}
bool amount_msat_greater(struct amount_msat a, struct amount_msat b)
{
return a.millisatoshis > b.millisatoshis;
}
bool amount_sat_greater_eq(struct amount_sat a, struct amount_sat b)
{
return a.satoshis >= b.satoshis;
}
bool amount_msat_greater_eq(struct amount_msat a, struct amount_msat b)
{
return a.millisatoshis >= b.millisatoshis;
}
bool amount_sat_less(struct amount_sat a, struct amount_sat b)
{
return a.satoshis < b.satoshis;
}
bool amount_msat_less(struct amount_msat a, struct amount_msat b)
{
return a.millisatoshis < b.millisatoshis;
}
bool amount_sat_less_eq(struct amount_sat a, struct amount_sat b)
{
return a.satoshis <= b.satoshis;
}
bool amount_msat_less_eq(struct amount_msat a, struct amount_msat b)
{
return a.millisatoshis <= b.millisatoshis;
}
bool amount_msat_greater_sat(struct amount_msat msat, struct amount_sat sat)
{
struct amount_msat msat_from_sat;
if (!amount_sat_to_msat(&msat_from_sat, sat))
return false;
return msat.millisatoshis > msat_from_sat.millisatoshis;
}
bool amount_msat_greater_eq_sat(struct amount_msat msat, struct amount_sat sat)
{
struct amount_msat msat_from_sat;
if (!amount_sat_to_msat(&msat_from_sat, sat))
return false;
return msat.millisatoshis >= msat_from_sat.millisatoshis;
}
bool amount_msat_less_sat(struct amount_msat msat, struct amount_sat sat)
{
struct amount_msat msat_from_sat;
if (!amount_sat_to_msat(&msat_from_sat, sat))
return false;
return msat.millisatoshis < msat_from_sat.millisatoshis;
}
bool amount_msat_less_eq_sat(struct amount_msat msat, struct amount_sat sat)
{
struct amount_msat msat_from_sat;
if (!amount_sat_to_msat(&msat_from_sat, sat))
return false;
return msat.millisatoshis <= msat_from_sat.millisatoshis;
}
bool amount_msat_eq_sat(struct amount_msat msat, struct amount_sat sat)
{
struct amount_msat msat_from_sat;
if (!amount_sat_to_msat(&msat_from_sat, sat))
return false;
return msat.millisatoshis == msat_from_sat.millisatoshis;
}
bool amount_msat_to_u32(struct amount_msat msat, u32 *millisatoshis)
{
if (amount_msat_greater_eq(msat, AMOUNT_MSAT(0x100000000)))
return false;
*millisatoshis = msat.millisatoshis;
return true;
}
struct amount_msat amount_msat(u64 millisatoshis)
{
struct amount_msat msat;
msat.millisatoshis = millisatoshis;
return msat;
}
struct amount_sat amount_sat(u64 satoshis)
{
struct amount_sat sat;
sat.satoshis = satoshis;
return sat;
}
double amount_msat_ratio(struct amount_msat a, struct amount_msat b)
{
return (double)a.millisatoshis / b.millisatoshis;
}
struct amount_msat amount_msat_div(struct amount_msat msat, u64 div)
{
msat.millisatoshis /= div;
return msat;
}
struct amount_sat amount_sat_div(struct amount_sat sat, u64 div)
{
sat.satoshis /= div;
return sat;
}
bool amount_msat_fee(struct amount_msat *fee,
struct amount_msat amt,
u32 fee_base_msat,
u32 fee_proportional_millionths)
{
struct amount_msat fee_base, fee_prop;
/* BOLT #7:
*
* - SHOULD accept HTLCs that pay a fee equal to or greater than:
* - fee_base_msat + ( amount_to_forward * fee_proportional_millionths / 1000000 )
*/
fee_base.millisatoshis = fee_base_msat;
if (mul_overflows_u64(amt.millisatoshis, fee_proportional_millionths))
return false;
fee_prop.millisatoshis = amt.millisatoshis * fee_proportional_millionths
/ 1000000;
return amount_msat_add(fee, fee_base, fee_prop);
}
bool amount_msat_add_fee(struct amount_msat *amt,
u32 fee_base_msat,
u32 fee_proportional_millionths)
{
struct amount_msat fee;
if (!amount_msat_fee(&fee, *amt,
fee_base_msat, fee_proportional_millionths))
return false;
return amount_msat_add(amt, *amt, fee);
}
struct amount_sat amount_tx_fee(u32 fee_per_kw, size_t weight)
{
struct amount_sat fee;
/* If this overflows, weight must be > 2^32, which is not a real tx */
assert(!mul_overflows_u64(fee_per_kw, weight));
fee.satoshis = (u64)fee_per_kw * weight / 1000;
return fee;
}
bool amount_asset_is_main(struct amount_asset *amount)
{
/* If we're not on elements, there is only one asset. */
if (!chainparams->is_elements)
return true;
/* If we are on elements we better check against the chainparams. */
return memeq(amount->asset, sizeof(amount->asset),
chainparams->fee_asset_tag, sizeof(amount->asset));
}
/* Convert from a generic asset to the fee-paying asset if possible. */
struct amount_sat amount_asset_to_sat(struct amount_asset *amount)
{
struct amount_sat sats;
assert(amount_asset_is_main(amount));
sats.satoshis = amount->value;
return sats;
}
struct amount_asset amount_sat_to_asset(struct amount_sat *sat, const u8 *asset) {
struct amount_asset amt_asset;
assert(33 == sizeof(amt_asset.asset));
memcpy(amt_asset.asset, asset, sizeof(amt_asset.asset));
amt_asset.value = sat->satoshis;
return amt_asset;
}
u8 *amount_asset_extract_value(const tal_t *ctx, struct amount_asset *asset)
{
u8 *val = tal_arr(ctx, u8, 9);
/* FIXME: persist blinded values */
if (asset->value == 0)
return NULL;
beint64_t be64 = cpu_to_be64(asset->value);
val[0] = 0x01;
memcpy(val + 1, &be64, sizeof(be64));
return val;
}
struct amount_msat fromwire_amount_msat(const u8 **cursor, size_t *max)
{
struct amount_msat msat;
msat.millisatoshis = fromwire_u64(cursor, max);
return msat;
}
struct amount_sat fromwire_amount_sat(const u8 **cursor, size_t *max)
{
struct amount_sat sat;
sat.satoshis = fromwire_u64(cursor, max);
return sat;
}
void towire_amount_msat(u8 **pptr, const struct amount_msat msat)
{
towire_u64(pptr, msat.millisatoshis);
}
void towire_amount_sat(u8 **pptr, const struct amount_sat sat)
{
towire_u64(pptr, sat.satoshis);
}