160 lines
4.8 KiB
C
160 lines
4.8 KiB
C
#ifndef LIGHTNING_FUNDING_H
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#define LIGHTNING_FUNDING_H
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#include "config.h"
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#include "bitcoin/locktime.h"
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#include <ccan/crypto/sha256/sha256.h>
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#include <ccan/tal/tal.h>
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#include <stdbool.h>
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struct channel_htlc {
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u64 id;
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u64 msatoshis;
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struct abs_locktime expiry;
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struct sha256 rhash;
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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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/* Use tal_count to get the number */
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struct channel_htlc *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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uint32_t fee_rate;
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/* Generation counter (incremented on every change) */
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uint32_t changes;
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struct channel_oneside a, b;
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};
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/**
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* initial_funding: Given A, B, and anchor, what is initial state?
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* @ctx: tal context to allocate return value from.
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* @am_funder: am I paying for the anchor?
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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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*
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* Returns state, or NULL if malformed.
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*/
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struct channel_state *initial_funding(const tal_t *ctx,
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bool am_funder,
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uint64_t anchor_satoshis,
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uint32_t fee_rate);
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/**
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* copy_funding: 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_funding(const tal_t *ctx,
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const struct channel_state *cstate);
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/**
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* funding_a_add_htlc: append an HTLC to A's side of cstate if it can afford it
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* @cstate: The channel state
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* @msatoshis: Millisatoshi A is putting into a HTLC
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* @expiry: time it expires
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* @rhash: hash of redeem secret
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* @id: 64-bit ID for htlc
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*
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* If A can't afford the HTLC (or still owes its half of the fees),
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* this will return false and leave @cstate unchanged. Otherwise
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* cstate->a.htlcs will have the HTLC appended, and pay_msat and
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* fee_msat are adjusted accordingly.
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*/
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bool funding_a_add_htlc(struct channel_state *cstate,
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u32 msatoshis, const struct abs_locktime *expiry,
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const struct sha256 *rhash, uint64_t id);
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bool funding_b_add_htlc(struct channel_state *cstate,
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u32 msatoshis, const struct abs_locktime *expiry,
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const struct sha256 *rhash, uint64_t id);
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/**
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* funding_a_fail_htlc: remove an HTLC from A's side of cstate, funds to A
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* @cstate: The channel state
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* @index: the index into cstate->a.htlcs[].
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*
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* This will remove the @index'th entry in cstate->a.htlcs[], and credit
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* the value of the HTLC (back) to A.
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*/
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void funding_a_fail_htlc(struct channel_state *cstate, size_t index);
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void funding_b_fail_htlc(struct channel_state *cstate, size_t index);
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/**
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* funding_a_fulfill_htlc: remove an HTLC from A's side of cstate, funds to B
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* @cstate: The channel state
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* @index: the index into cstate->a.htlcs[].
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*
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* This will remove the @index'th entry in cstate->a.htlcs[], and credit
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* the value of the HTLC to B.
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*/
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void funding_a_fulfill_htlc(struct channel_state *cstate, size_t index);
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void funding_b_fulfill_htlc(struct channel_state *cstate, size_t index);
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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, uint32_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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* invert_cstate: Get the other side's state.
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* @cstate: the state to invert.
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*/
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void invert_cstate(struct channel_state *cstate);
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/**
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* funding_find_htlc: find an HTLC on this side of the channel.
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* @creator: channel_state->a or channel_state->b, whichever originated htlc
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* @rhash: hash of redeem secret
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*
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* Returns a number < tal_count(creator->htlcs), or == tal_count(creator->htlcs)
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* on fail.
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*/
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size_t funding_find_htlc(struct channel_oneside *creator,
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const struct sha256 *rhash);
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/**
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* funding_htlc_by_id: find an HTLC on this side of the channel by ID.
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* @creator: channel_state->a or channel_state->b, whichever originated htlc
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* @id: id for HTLC.
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*
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* Returns a number < tal_count(creator->htlcs), or == tal_count(creator->htlcs)
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* on fail.
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*/
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size_t funding_htlc_by_id(struct channel_oneside *creator, uint64_t id);
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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, uint32_t fee_rate);
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/**
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* is_dust_amount: is an output of this value considered dust?
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* @satoshis: number of satoshis.
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*
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* Transactions with dust outputs will not be relayed by the bitcoin
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* network. It's not an exact definition, unfortunately.
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*/
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bool is_dust_amount(uint64_t satoshis);
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#endif /* LIGHTNING_FUNDING_H */
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