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#include "bitcoin/locktime.h"
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#include "bitcoin/pubkey.h"
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#include "bitcoin/script.h"
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#include "bitcoin/shadouble.h"
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#include "bitcoin/tx.h"
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#include "channel.h"
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#include "commit_tx.h"
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#include "htlc.h"
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#include "lightningd.h"
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#include "log.h"
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#include "overflows.h"
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#include "peer.h"
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#include "permute_tx.h"
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#include "remove_dust.h"
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#include "utils.h"
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#include <assert.h>
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#include <inttypes.h>
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u8 *wscript_for_htlc(const tal_t *ctx,
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const struct peer *peer,
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const struct htlc *h,
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const struct sha256 *rhash,
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enum htlc_side side)
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{
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const struct peer_visible_state *this_side, *other_side;
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u8 *(*fn)(const tal_t *, secp256k1_context *,
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const struct pubkey *, const struct pubkey *,
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const struct abs_locktime *, const struct rel_locktime *,
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const struct sha256 *, const struct sha256 *);
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/* scripts are different for htlcs offered vs accepted */
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if (side == htlc_owner(h))
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fn = bitcoin_redeem_htlc_send;
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else
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fn = bitcoin_redeem_htlc_recv;
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if (side == LOCAL) {
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this_side = &peer->local;
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other_side = &peer->remote;
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} else {
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this_side = &peer->remote;
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other_side = &peer->local;
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}
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return fn(ctx, peer->dstate->secpctx,
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&this_side->finalkey, &other_side->finalkey,
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&h->expiry, &this_side->locktime, rhash, &h->rhash);
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}
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static size_t count_htlcs(const struct htlc_map *htlcs, int flag)
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{
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struct htlc_map_iter it;
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struct htlc *h;
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size_t n = 0;
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for (h = htlc_map_first(htlcs, &it); h; h = htlc_map_next(htlcs, &it)) {
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if (htlc_has(h, flag))
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n++;
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}
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return n;
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}
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u8 *commit_output_to_us(const tal_t *ctx,
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const struct peer *peer,
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const struct sha256 *rhash,
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enum htlc_side side,
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u8 **wscript)
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{
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u8 *tmp;
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if (!wscript)
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wscript = &tmp;
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/* Our output to ourself is encumbered by delay. */
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if (side == LOCAL) {
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*wscript = bitcoin_redeem_secret_or_delay(ctx,
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peer->dstate->secpctx,
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&peer->local.finalkey,
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&peer->remote.locktime,
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&peer->remote.finalkey,
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rhash);
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return scriptpubkey_p2wsh(ctx, *wscript);
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} else {
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/* Their output to us is a simple p2wpkh */
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*wscript = NULL;
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return scriptpubkey_p2wpkh(ctx, peer->dstate->secpctx,
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&peer->local.finalkey);
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}
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}
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u8 *commit_output_to_them(const tal_t *ctx,
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const struct peer *peer,
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const struct sha256 *rhash,
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enum htlc_side side,
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u8 **wscript)
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{
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u8 *tmp;
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if (!wscript)
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wscript = &tmp;
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/* Their output to themselves is encumbered by delay. */
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if (side == REMOTE) {
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*wscript = bitcoin_redeem_secret_or_delay(ctx,
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peer->dstate->secpctx,
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&peer->remote.finalkey,
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&peer->local.locktime,
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&peer->local.finalkey,
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rhash);
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return scriptpubkey_p2wsh(ctx, *wscript);
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} else {
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/* Our output to them is a simple p2wpkh */
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*wscript = NULL;
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return scriptpubkey_p2wpkh(ctx, peer->dstate->secpctx,
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&peer->remote.finalkey);
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}
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}
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static bool add_output(struct bitcoin_tx *tx, u8 *script, u64 amount,
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u64 *total)
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{
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assert(tx->output_count < tal_count(tx->output));
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if (is_dust(amount))
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return false;
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tx->output[tx->output_count].script = script;
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tx->output[tx->output_count].script_length = tal_count(script);
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tx->output[tx->output_count].amount = amount;
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tx->output_count++;
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(*total) += amount;
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return true;
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}
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struct bitcoin_tx *create_commit_tx(const tal_t *ctx,
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struct peer *peer,
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const struct sha256 *rhash,
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const struct channel_state *cstate,
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enum htlc_side side,
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bool *otherside_only)
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{
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struct bitcoin_tx *tx;
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uint64_t total = 0;
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struct htlc_map_iter it;
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struct htlc *h;
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bool pays_to[2];
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int committed_flag = HTLC_FLAG(side,HTLC_F_COMMITTED);
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/* Now create commitment tx: one input, two outputs (plus htlcs) */
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tx = bitcoin_tx(ctx, 1, 2 + count_htlcs(&peer->htlcs, committed_flag));
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log_debug(peer->log, "Creating commitment tx:");
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log_add_struct(peer->log, " rhash = %s", struct sha256, rhash);
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log_add_struct(peer->log, " My finalkey = %s", struct pubkey,
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&peer->local.finalkey);
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log_add_struct(peer->log, " Their finalkey = %s", struct pubkey,
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&peer->remote.finalkey);
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log_add_struct(peer->log, " My locktime = %s", struct rel_locktime,
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&peer->local.locktime);
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log_add_struct(peer->log, " Their locktime = %s", struct rel_locktime,
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&peer->remote.locktime);
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/* Our input spends the anchor tx output. */
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tx->input[0].txid = peer->anchor.txid;
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tx->input[0].index = peer->anchor.index;
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tx->input[0].amount = tal_dup(tx->input, u64, &peer->anchor.satoshis);
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tx->output_count = 0;
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pays_to[LOCAL] = add_output(tx, commit_output_to_us(tx, peer, rhash,
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side, NULL),
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cstate->side[OURS].pay_msat / 1000,
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&total);
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if (pays_to[LOCAL])
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log_debug(peer->log, "Pays %u to local: %s",
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cstate->side[OURS].pay_msat / 1000,
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tal_hexstr(tx, tx->output[tx->output_count-1].script,
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tx->output[tx->output_count-1].script_length));
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else
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log_debug(peer->log, "DOES NOT pay %u to local",
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cstate->side[OURS].pay_msat / 1000);
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pays_to[REMOTE] = add_output(tx, commit_output_to_them(tx, peer, rhash,
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side, NULL),
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cstate->side[THEIRS].pay_msat / 1000,
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&total);
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if (pays_to[REMOTE])
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log_debug(peer->log, "Pays %u to remote: %s",
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cstate->side[THEIRS].pay_msat / 1000,
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tal_hexstr(tx, tx->output[tx->output_count-1].script,
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tx->output[tx->output_count-1].script_length));
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else
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log_debug(peer->log, "DOES NOT pay %u to remote",
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cstate->side[THEIRS].pay_msat / 1000);
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/* If their tx doesn't pay to them, or our tx doesn't pay to us... */
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*otherside_only = !pays_to[side];
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/* First two outputs done, now for the HTLCs. */
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for (h = htlc_map_first(&peer->htlcs, &it);
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h;
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h = htlc_map_next(&peer->htlcs, &it)) {
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const u8 *wscript;
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if (!htlc_has(h, committed_flag))
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continue;
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wscript = wscript_for_htlc(tx, peer, h, rhash, side);
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/* If we pay any HTLC, it's txout is not just to other side. */
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if (add_output(tx, scriptpubkey_p2wsh(tx, wscript),
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h->msatoshis / 1000, &total)) {
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*otherside_only = false;
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log_debug(peer->log, "Pays %"PRIu64" to htlc %"PRIu64,
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h->msatoshis / 1000, h->id);
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log_add_struct(peer->log, " expiry %s",
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struct abs_locktime, &h->expiry);
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log_add_struct(peer->log, " rhash %s", struct sha256,
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&h->rhash);
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log_debug(peer->log, "Script: %s",
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tal_hexstr(tx, wscript, tal_count(wscript)));
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} else
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log_debug(peer->log, "DOES NOT pay %"PRIu64" to htlc %"PRIu64,
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h->msatoshis / 1000, h->id);
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}
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assert(total <= peer->anchor.satoshis);
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permute_outputs(tx->output, tx->output_count);
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return tx;
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}
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