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#ifndef LIGHTNING_DAEMON_CHANNEL_H
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#define LIGHTNING_DAEMON_CHANNEL_H
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#include "config.h"
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#include "bitcoin/locktime.h"
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#include <assert.h>
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#include <ccan/crypto/sha256/sha256.h>
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#include <ccan/str/str.h>
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#include <ccan/tal/tal.h>
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#include <stdbool.h>
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struct htlc;
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enum side {
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LOCAL,
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REMOTE
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};
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struct channel_oneside {
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/* Payment and fee is in millisatoshi. */
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uint32_t pay_msat, fee_msat;
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/* Number of HTLCs (required for limiting total number) */
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unsigned int num_htlcs;
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};
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struct channel_state {
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/* Satoshis paid by anchor. */
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uint64_t anchor;
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/* Satoshis per 1000 bytes. */
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uint64_t fee_rate;
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/* Number of non-dust htlcs (to calculate txsize) */
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unsigned int num_nondust;
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struct channel_oneside side[2];
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};
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/**
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* initial_cstate: Given initial fees and funding anchor, what is initial state?
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* @ctx: tal context to allocate return value from.
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* @anchor_satoshis: The anchor amount.
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* @fee_rate: amount to pay in fees per kb (in satoshi).
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* @dir: which side paid for the anchor.
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*
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* Returns state, or NULL if malformed.
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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 side);
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/**
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* copy_cstate: Make a deep copy of channel_state
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* @ctx: tal context to allocate return value from.
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* @cstate: state to copy.
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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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* cstate_add_htlc: append an HTLC to cstate if it can afford it
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* @cstate: The channel state
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* @htlc: the htlc pointer.
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* @must_afford_fee: true if payer must meet fee.
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*
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* If that direction can't afford the HTLC this will return false and
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* leave @cstate unchanged. If @must_afford_fee is true, and the
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* direction can't afford its half of the fees, it will also return
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* false and leave @cstate unchanged. Otherwise, pay_msat and fee_msat
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* are adjusted accordingly; true is returned.
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*/
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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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* cstate_fail_htlc: remove an HTLC, funds to the side which offered it.
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* @cstate: The channel state
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* @htlc: the htlc to remove.
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*
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* This will remove the @index'th entry in cstate->side[dir].htlcs[], and credit
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* the value of the HTLC (back) to cstate->side[dir].
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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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* cstate_fulfill_htlc: remove an HTLC, funds to side which accepted it.
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* @cstate: The channel state
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* @htlc: the htlc to remove
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*
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* This will remove the @index'th entry in cstate->side[dir].htlcs[], and credit
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* the value of the HTLC to cstate->side[!dir].
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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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* approx_max_feerate: what's the most side could raise fee rate to?
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* @cstate: The channel state
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* @side: LOCAL or REMOTE
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*
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* This is not exact! To check if their offer is valid, use can_afford_feerate.
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*/
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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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* can_afford_feerate: could this side pay for the fee if changed to fee_rate?
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* @cstate: The channel state
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* @fee_rate: the new fee rate proposed
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* @side: LOCAL or REMOTE
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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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* adjust_fee: Change fee rate.
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* @cstate: The channel state
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* @fee_rate: fee in satoshi per 1000 bytes.
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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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* force_fee: Change fee to a specific value.
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* @cstate: The channel state
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* @fee: fee in satoshi.
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*
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* This is used for the close transaction, which specifies an exact fee.
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* If the fee cannot be paid in full, this return false (but cstate will
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* still be altered).
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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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* fee_for_feerate: calculate the fee (in satoshi) for a given fee_rate.
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* @txsize: transaction size in bytes.
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* @fee_rate: satoshi per 1000 bytes.
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*/
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uint64_t fee_by_feerate(size_t txsize, uint64_t fee_rate);
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/* Routines to db to force HTLC changes out-of-order which may wrap. */
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void force_add_htlc(struct channel_state *cstate, const struct htlc *htlc);
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void force_fail_htlc(struct channel_state *cstate, const struct htlc *htlc);
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void force_fulfill_htlc(struct channel_state *cstate, const struct htlc *htlc);
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bool balance_after_force(struct channel_state *cstate);
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static inline const char *side_to_str(enum side side)
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{
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switch (side) {
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case LOCAL: return "LOCAL";
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case REMOTE: return "REMOTE";
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}
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abort();
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}
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static inline enum side str_to_side(const char *str)
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{
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if (streq(str, "LOCAL"))
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return LOCAL;
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assert(streq(str, "REMOTE"));
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return REMOTE;
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}
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#endif /* LIGHTNING_DAEMON_CHANNEL_H */
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