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359 lines
9.8 KiB
359 lines
9.8 KiB
#include "channel.h"
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#include "htlc.h"
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#include "remove_dust.h"
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#include "type_to_string.h"
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#include <assert.h>
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#include <ccan/array_size/array_size.h>
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#include <ccan/mem/mem.h>
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#include <ccan/structeq/structeq.h>
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#include <ccan/tal/str/str.h>
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#include <inttypes.h>
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#include <string.h>
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uint64_t fee_by_feerate(size_t txsize, uint64_t fee_rate)
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{
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/* FIXME-OLD #2:
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*
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* The fee for a transaction MUST be calculated by multiplying this
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* bytecount by the fee rate, dividing by 1000 and truncating
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* (rounding down) the result to an even number of satoshis.
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*/
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return txsize * fee_rate / 2000 * 2;
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}
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/* FIXME-OLD #2:
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*
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* A node MUST use the formula 338 + 32 bytes for every non-dust HTLC
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* as the bytecount for calculating commitment transaction fees. Note
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* that the fee requirement is unchanged, even if the elimination of
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* dust HTLC outputs has caused a non-zero fee already.
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*/
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static size_t tx_bytes(size_t num_nondust_htlcs)
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{
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return 338 + 32 * num_nondust_htlcs;
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}
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static uint64_t calculate_fee_msat(size_t num_nondust_htlcs,
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uint64_t fee_rate)
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{
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/* milli-satoshis */
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return fee_by_feerate(tx_bytes(num_nondust_htlcs), fee_rate) * 1000;
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}
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/* Pay this much fee, if possible. Return amount unpaid. */
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static uint64_t pay_fee(struct channel_oneside *side, uint64_t fee_msat)
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{
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if (side->pay_msat >= fee_msat) {
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side->pay_msat -= fee_msat;
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side->fee_msat += fee_msat;
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return 0;
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} else {
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uint64_t remainder = fee_msat - side->pay_msat;
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side->fee_msat += side->pay_msat;
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side->pay_msat = 0;
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return remainder;
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}
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}
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/* Charge the fee as per FIXME-OLD #2 */
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static void recalculate_fees(struct channel_oneside *a,
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struct channel_oneside *b,
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uint64_t fee_msat)
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{
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uint64_t remainder;
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/* Fold in fees, to recalcuate again below. */
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a->pay_msat += a->fee_msat;
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b->pay_msat += b->fee_msat;
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a->fee_msat = b->fee_msat = 0;
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/* FIXME-OLD #2:
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*
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* 1. If each nodes can afford half the fee from their
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* to-`final_key` output, reduce the two to-`final_key`
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* outputs accordingly.
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*
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* 2. Otherwise, reduce the to-`final_key` output of one node
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* which cannot afford the fee to zero (resulting in that
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* entire output paying fees). If the remaining
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* to-`final_key` output is greater than the fee remaining,
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* reduce it accordingly, otherwise reduce it to zero to
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* pay as much fee as possible.
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*/
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remainder = pay_fee(a, fee_msat / 2) + pay_fee(b, fee_msat / 2);
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/* If there's anything left, the other side tries to pay for it. */
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remainder = pay_fee(a, remainder);
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pay_fee(b, remainder);
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}
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/* a transfers htlc_msat to a HTLC (gains it, if -ve) */
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static bool change_funding(uint64_t anchor_satoshis,
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uint64_t fee_rate,
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int64_t htlc_msat,
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struct channel_oneside *a,
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struct channel_oneside *b,
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size_t num_nondust_htlcs,
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bool must_afford_fee)
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{
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uint64_t fee_msat;
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uint64_t htlcs_total;
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htlcs_total = anchor_satoshis * 1000
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- (a->pay_msat + a->fee_msat + b->pay_msat + b->fee_msat);
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fee_msat = calculate_fee_msat(num_nondust_htlcs, fee_rate);
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/* If A is paying, can it afford it? */
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if (htlc_msat >= 0) {
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uint64_t cost = htlc_msat;
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if (must_afford_fee)
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cost += fee_msat / 2;
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if (cost > a->pay_msat + a->fee_msat)
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return false;
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}
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/* OK, now adjust funds for A, then recalculate fees. */
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a->pay_msat -= htlc_msat;
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recalculate_fees(a, b, fee_msat);
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htlcs_total += htlc_msat;
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assert(htlcs_total == anchor_satoshis * 1000
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- (a->pay_msat + a->fee_msat + b->pay_msat + b->fee_msat));
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return true;
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}
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bool anchor_too_large(uint64_t anchor_satoshis)
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{
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/* Anchor must fit in 32 bit. */
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return anchor_satoshis >= (1ULL << 32) / 1000;
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}
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struct channel_state *initial_cstate(const tal_t *ctx,
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uint64_t anchor_satoshis,
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uint64_t fee_rate,
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enum side funding)
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{
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uint64_t fee_msat;
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struct channel_state *cstate = talz(ctx, struct channel_state);
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struct channel_oneside *funder, *fundee;
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cstate->fee_rate = fee_rate;
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cstate->anchor = anchor_satoshis;
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cstate->num_nondust = 0;
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/* Anchor must fit in 32 bit. */
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assert(!anchor_too_large(anchor_satoshis));
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fee_msat = calculate_fee_msat(0, fee_rate);
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if (fee_msat > anchor_satoshis * 1000)
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return tal_free(cstate);
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funder = &cstate->side[funding];
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fundee = &cstate->side[!funding];
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/* Neither side has HTLCs. */
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funder->num_htlcs = fundee->num_htlcs = 0;
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/* Initially, all goes back to funder. */
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funder->pay_msat = anchor_satoshis * 1000 - fee_msat;
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funder->fee_msat = fee_msat;
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/* Make sure it checks out. */
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assert(change_funding(anchor_satoshis, fee_rate, 0, funder, fundee, 0, false));
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assert(funder->fee_msat == fee_msat);
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assert(fundee->fee_msat == 0);
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return cstate;
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}
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/* FIXME: Write exact variant! */
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uint64_t approx_max_feerate(const struct channel_state *cstate,
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enum side side)
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{
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uint64_t max_funds;
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max_funds = cstate->side[side].pay_msat + cstate->side[side].fee_msat;
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return max_funds / tx_bytes(cstate->num_nondust);
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}
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bool can_afford_feerate(const struct channel_state *cstate, uint64_t fee_rate,
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enum side side)
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{
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u64 fee_msat = calculate_fee_msat(cstate->num_nondust, fee_rate);
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return cstate->side[side].pay_msat + cstate->side[side].fee_msat
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>= fee_msat;
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}
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void adjust_fee(struct channel_state *cstate, uint64_t fee_rate)
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{
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uint64_t fee_msat;
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fee_msat = calculate_fee_msat(cstate->num_nondust, fee_rate);
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recalculate_fees(&cstate->side[LOCAL], &cstate->side[REMOTE], fee_msat);
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}
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bool force_fee(struct channel_state *cstate, uint64_t fee)
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{
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/* Beware overflow! */
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if (fee > 0xFFFFFFFFFFFFFFFFULL / 1000)
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return false;
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recalculate_fees(&cstate->side[LOCAL], &cstate->side[REMOTE], fee * 1000);
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return cstate->side[LOCAL].fee_msat + cstate->side[REMOTE].fee_msat == fee * 1000;
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}
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/* Add a HTLC to @creator if it can afford it. */
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bool cstate_add_htlc(struct channel_state *cstate, const struct htlc *htlc,
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bool must_afford_fee)
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{
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size_t nondust;
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struct channel_oneside *creator, *recipient;
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creator = &cstate->side[htlc_owner(htlc)];
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recipient = &cstate->side[!htlc_owner(htlc)];
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/* Remember to count the new one in total txsize if not dust! */
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nondust = cstate->num_nondust;
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if (!is_dust(htlc->msatoshi / 1000))
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nondust++;
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if (!change_funding(cstate->anchor, cstate->fee_rate,
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htlc->msatoshi, creator, recipient, nondust,
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must_afford_fee))
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return false;
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cstate->num_nondust = nondust;
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creator->num_htlcs++;
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return true;
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}
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/* Remove htlc from creator, credit it to beneficiary. */
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static void remove_htlc(struct channel_state *cstate,
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enum side creator,
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enum side beneficiary,
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const struct htlc *htlc)
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{
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size_t nondust;
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/* Remember to remove this one in total txsize if not dust! */
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nondust = cstate->num_nondust;
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if (!is_dust(htlc->msatoshi / 1000)) {
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assert(nondust > 0);
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nondust--;
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}
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/* Can't fail since msatoshi is positive. */
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if (!change_funding(cstate->anchor, cstate->fee_rate,
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-(int64_t)htlc->msatoshi,
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&cstate->side[beneficiary],
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&cstate->side[!beneficiary], nondust, false))
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abort();
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/* Actually remove the HTLC. */
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assert(cstate->side[creator].num_htlcs > 0);
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cstate->side[creator].num_htlcs--;
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cstate->num_nondust = nondust;
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}
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void cstate_fail_htlc(struct channel_state *cstate, const struct htlc *htlc)
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{
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remove_htlc(cstate, htlc_owner(htlc), htlc_owner(htlc), htlc);
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}
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void cstate_fulfill_htlc(struct channel_state *cstate, const struct htlc *htlc)
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{
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remove_htlc(cstate, htlc_owner(htlc), !htlc_owner(htlc), htlc);
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}
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struct channel_state *copy_cstate(const tal_t *ctx,
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const struct channel_state *cstate)
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{
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return tal_dup(ctx, struct channel_state, cstate);
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}
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void force_add_htlc(struct channel_state *cstate, const struct htlc *htlc)
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{
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struct channel_oneside *creator;
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creator = &cstate->side[htlc_owner(htlc)];
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creator->num_htlcs++;
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creator->pay_msat -= htlc->msatoshi;
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/* Remember to count the new one in total txsize if not dust! */
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if (!is_dust(htlc->msatoshi / 1000))
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cstate->num_nondust++;
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}
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static void force_remove_htlc(struct channel_state *cstate,
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enum side beneficiary,
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const struct htlc *htlc)
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{
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cstate->side[beneficiary].pay_msat += htlc->msatoshi;
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cstate->side[htlc_owner(htlc)].num_htlcs--;
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if (!is_dust(htlc->msatoshi / 1000))
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cstate->num_nondust--;
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}
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void force_fail_htlc(struct channel_state *cstate, const struct htlc *htlc)
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{
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force_remove_htlc(cstate, htlc_owner(htlc), htlc);
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}
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void force_fulfill_htlc(struct channel_state *cstate, const struct htlc *htlc)
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{
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force_remove_htlc(cstate, !htlc_owner(htlc), htlc);
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}
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bool balance_after_force(struct channel_state *cstate)
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{
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/* We should not spend more than anchor */
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if (cstate->side[LOCAL].pay_msat + cstate->side[REMOTE].pay_msat
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> cstate->anchor * 1000)
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return false;
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/* Check for wrap. */
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if (cstate->side[LOCAL].pay_msat > cstate->anchor * 1000)
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return false;
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if (cstate->side[REMOTE].pay_msat > cstate->anchor * 1000)
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return false;
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if (cstate->num_nondust
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> cstate->side[LOCAL].num_htlcs + cstate->side[REMOTE].num_htlcs)
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return false;
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/* Recalc fees. */
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adjust_fee(cstate, cstate->fee_rate);
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return true;
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}
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static char *fmt_channel_oneside(const tal_t *ctx,
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const struct channel_oneside *co)
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{
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return tal_fmt(ctx, "{ pay_msat=%u"
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" fee_msat=%u"
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" num_htlcs=%u }",
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co->pay_msat,
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co->fee_msat,
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co->num_htlcs);
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}
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static char *fmt_channel_state(const tal_t *ctx,
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const struct channel_state *cs)
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{
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return tal_fmt(ctx, "{ anchor=%"PRIu64
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" fee_rate=%"PRIu64
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" num_nondust=%u"
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" ours=%s"
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" theirs=%s }",
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cs->anchor,
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cs->fee_rate,
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cs->num_nondust,
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fmt_channel_oneside(ctx, &cs->side[LOCAL]),
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fmt_channel_oneside(ctx, &cs->side[REMOTE]));
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}
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REGISTER_TYPE_TO_STRING(channel_oneside, fmt_channel_oneside);
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REGISTER_TYPE_TO_STRING(channel_state, fmt_channel_state);
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