#ifndef LIGHTNING_LIGHTNINGD_COMMIT_TX_H #define LIGHTNING_LIGHTNINGD_COMMIT_TX_H #include "config.h" #include #include struct keyset; struct sha256_double; /* BOLT #3: * * This obscures the number of commitments made on the channel in the * case of unilateral close, yet still provides a useful index for * both nodes (who know the `payment_basepoint`s) to quickly find a * revoked commitment transaction. */ u64 commit_number_obscurer(const struct pubkey *opener_payment_basepoint, const struct pubkey *accepter_payment_basepoint); /* commit_tx needs to know these so it knows what outputs to trim */ u64 htlc_success_fee(u64 feerate_per_kw); u64 htlc_timeout_fee(u64 feerate_per_kw); /** * commit_tx_num_untrimmed: how many of these htlc outputs will commit tx have? * @htlcs: tal_arr of HTLCs * @feerate_per_kw: feerate to use * @dust_limit_satoshis: dust limit below which to trim outputs. * @side: from which side's point of view * * We need @side because HTLC fees are different for offered and * received HTLCs. */ size_t commit_tx_num_untrimmed(const struct htlc **htlcs, u64 feerate_per_kw, u64 dust_limit_satoshis, enum side side); /* Helper to calculate the base fee if we add this extra htlc */ u64 commit_tx_base_fee(u64 feerate_per_kw, size_t num_untrimmed_htlcs); /** * commit_tx: create (unsigned) commitment tx to spend the funding tx output * @ctx: context to allocate transaction and @htlc_map from. * @funding_txid, @funding_out, @funding_satoshis: funding outpoint. * @funder: is the LOCAL or REMOTE paying the fee? * @keyset: keys derived for this commit tx. * @feerate_per_kw: feerate to use * @dust_limit_satoshis: dust limit below which to trim outputs. * @self_pay_msat: amount to pay directly to self * @other_pay_msat: amount to pay directly to the other side * @htlcs: tal_arr of htlcs committed by transaction (some may be trimmed) * @htlc_map: outputed map of outnum->HTLC (NULL for direct outputs), or NULL. * @obscured_commitment_number: number to encode in commitment transaction * @side: side to generate commitment transaction for. * * We need to be able to generate the remote side's tx to create signatures, * but the BOLT is expressed in terms of generating our local commitment * transaction, so we carefully use the terms "self" and "other" here. */ struct bitcoin_tx *commit_tx(const tal_t *ctx, const struct sha256_double *funding_txid, unsigned int funding_txout, u64 funding_satoshis, enum side funder, u16 to_self_delay, const struct keyset *keyset, u64 feerate_per_kw, u64 dust_limit_satoshis, u64 self_pay_msat, u64 other_pay_msat, const struct htlc **htlcs, const struct htlc ***htlcmap, u64 obscured_commitment_number, enum side side); /* Generate the witness script for an HTLC the other side offered: * scriptpubkey_p2wsh(ctx, wscript) gives the scriptpubkey */ u8 *htlc_received_wscript(const tal_t *ctx, const struct ripemd160 *ripemd, const struct abs_locktime *expiry, const struct keyset *keyset); /* Generate the witness script for an HTLC this side offered: * scriptpubkey_p2wsh(ctx, wscript) gives the scriptpubkey */ u8 *htlc_offered_wscript(const tal_t *ctx, const struct ripemd160 *ripemd, const struct keyset *keyset); /* Generate the witness script for the to-self output: * scriptpubkey_p2wsh(ctx, wscript) gives the scriptpubkey */ u8 *to_self_wscript(const tal_t *ctx, u16 to_self_delay, const struct keyset *keyset); /* To-other is simply: scriptpubkey_p2wpkh(tx, keyset->other_payment_key) */ #endif /* LIGHTNING_LIGHTNINGD_COMMIT_TX_H */