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/* This is the full channel routines, with HTLC support. */
#ifndef LIGHTNING_CHANNELD_FULL_CHANNEL_H
#define LIGHTNING_CHANNELD_FULL_CHANNEL_H
#include "config.h"
#include <channeld/channeld_htlc.h>
#include <channeld/full_channel_error.h>
#include <common/initial_channel.h>
#include <common/sphinx.h>
/**
* new_full_channel: Given initial fees and funding, what is initial state?
* @ctx: tal context to allocate return value from.
* @funding_txid: The commitment transaction id.
* @funding_txout: The commitment transaction output number.
* @minimum_depth: The minimum confirmations needed for funding transaction.
* @funding: The commitment transaction amount.
* @local_msat: The amount for the local side (remainder goes to remote)
* @fee_states: The fee update states.
* @local: local channel configuration
* @remote: remote channel configuration
* @local_basepoints: local basepoints.
* @remote_basepoints: remote basepoints.
* @local_fundingkey: local funding key
* @remote_fundingkey: remote funding key
* @option_static_remotekey: use `option_static_remotekey`.
* @funder: which side initiated it.
*
* Returns state, or NULL if malformed.
*/
struct channel *new_full_channel(const tal_t *ctx,
const struct bitcoin_txid *funding_txid,
unsigned int funding_txout,
u32 minimum_depth,
struct amount_sat funding,
struct amount_msat local_msat,
const struct fee_states *fee_states,
const struct channel_config *local,
const struct channel_config *remote,
const struct basepoints *local_basepoints,
const struct basepoints *remote_basepoints,
const struct pubkey *local_funding_pubkey,
const struct pubkey *remote_funding_pubkey,
bool option_static_remotekey,
enum side funder);
/**
* channel_txs: Get the current commitment and htlc txs for the channel.
* @ctx: tal context to allocate return value from.
* @channel: The channel to evaluate
* @htlc_map: Pointer to htlcs for each tx output (allocated off @ctx).
* @wscripts: Pointer to array of wscript for each tx returned (alloced off @ctx)
* @per_commitment_point: Per-commitment point to determine keys
* @commitment_number: The index of this commitment.
* @side: which side to get the commitment transaction for
*
* Returns the unsigned commitment transaction for the committed state
* for @side, followed by the htlc transactions in output order and
* fills in @htlc_map, or NULL on key derivation failure.
*/
struct bitcoin_tx **channel_txs(const tal_t *ctx,
const struct htlc ***htlcmap,
const u8 ***wscripts,
const struct channel *channel,
const struct pubkey *per_commitment_point,
u64 commitment_number,
enum side side);
/**
* actual_feerate: what is the actual feerate for the local side.
* @channel: The channel state
* @theirsig: The other side's signature
*
* The fee calculated on a commitment transaction is a worst-case
* approximation. It's also possible that the desired feerate is not
* met, because the initiator sets it while the other side is adding many
* htlcs.
*
* This is the fee rate we actually care about, if we're going to check
* whether it's actually too low.
*/
u32 actual_feerate(const struct channel *channel,
const struct signature *theirsig);
/**
* channel_add_htlc: append an HTLC to channel if it can afford it
* @channel: The channel
* @offerer: the side offering the HTLC (to the other side).
* @id: unique HTLC id.
* @amount: amount in millisatoshi.
* @cltv_expiry: block number when HTLC can no longer be redeemed.
* @payment_hash: hash whose preimage can redeem HTLC.
* @routing: routing information (copied)
* @htlcp: optional pointer for resulting htlc: filled in if and only if CHANNEL_ERR_NONE.
*
* If this returns CHANNEL_ERR_NONE, the fee htlc was added and
* the output amounts adjusted accordingly. Otherwise nothing
* is changed.
*/
enum channel_add_err channel_add_htlc(struct channel *channel,
enum side sender,
u64 id,
struct amount_msat msatoshi,
u32 cltv_expiry,
const struct sha256 *payment_hash,
const u8 routing[TOTAL_PACKET_SIZE],
struct htlc **htlcp,
struct amount_sat *htlc_fee);
/**
* channel_get_htlc: find an HTLC
* @channel: The channel
* @offerer: the side offering the HTLC.
* @id: unique HTLC id.
*/
struct htlc *channel_get_htlc(struct channel *channel, enum side sender, u64 id);
/**
* channel_fail_htlc: remove an HTLC, funds to the side which offered it.
* @channel: The channel state
* @owner: the side who offered the HTLC (opposite to that failing it)
* @id: unique HTLC id.
* @htlcp: optional pointer for failed htlc: filled in if and only if CHANNEL_ERR_REMOVE_OK.
*
* This will remove the htlc and credit the value of the HTLC (back)
* to its offerer.
*/
enum channel_remove_err channel_fail_htlc(struct channel *channel,
enum side owner, u64 id,
struct htlc **htlcp);
/**
* channel_fulfill_htlc: remove an HTLC, funds to side which accepted it.
* @channel: The channel state
* @owner: the side who offered the HTLC (opposite to that fulfilling it)
* @id: unique HTLC id.
* @htlcp: optional pointer for resulting htlc: filled in if and only if CHANNEL_ERR_FULFILL_OK.
*
* If the htlc exists, is not already fulfilled, the preimage is correct and
* HTLC committed at the recipient, this will add a pending change to
* remove the htlc and give the value of the HTLC to its recipient,
* and return CHANNEL_ERR_FULFILL_OK. Otherwise, it will return another error.
*/
enum channel_remove_err channel_fulfill_htlc(struct channel *channel,
enum side owner,
u64 id,
const struct preimage *preimage,
struct htlc **htlcp);
/**
* approx_max_feerate: what's the max funder could raise fee rate to?
* @channel: The channel state
*
* This is not exact! To check if their offer is valid, try
* channel_update_feerate.
*/
u32 approx_max_feerate(const struct channel *channel);
/**
* can_funder_afford_feerate: could the funder pay the fee?
* @channel: The channel state
* @feerate: The feerate in satoshi per 1000 bytes.
*/
bool can_funder_afford_feerate(const struct channel *channel, u32 feerate);
/**
* channel_update_feerate: Change fee rate on non-funder side.
* @channel: The channel
* @feerate_per_kw: fee in satoshi per 1000 bytes.
*
* Returns true if it's affordable, otherwise does nothing.
*/
bool channel_update_feerate(struct channel *channel, u32 feerate_per_kw);
/**
* channel_feerate: Get fee rate for this side of channel.
* @channel: The channel
* @side: the side
*/
u32 channel_feerate(const struct channel *channel, enum side side);
/**
* channel_sending_commit: commit all remote outstanding changes.
* @channel: the channel
* @htlcs: initially-empty tal_arr() for htlcs which changed state.
*
* This is where we commit to pending changes we've added; returns true if
* anything changed for the remote side (if not, don't send!) */
bool channel_sending_commit(struct channel *channel,
const struct htlc ***htlcs);
/**
* channel_rcvd_revoke_and_ack: accept ack on remote committed changes.
* @channel: the channel
* @htlcs: initially-empty tal_arr() for htlcs which changed state.
*
* This is where we commit to pending changes we've added; returns true if
* anything changed for our local commitment (ie. we have pending changes).
*/
bool channel_rcvd_revoke_and_ack(struct channel *channel,
const struct htlc ***htlcs);
/**
* channel_rcvd_commit: commit all local outstanding changes.
* @channel: the channel
* @htlcs: initially-empty tal_arr() for htlcs which changed state.
*
* This is where we commit to pending changes we've added; returns true if
* anything changed for our local commitment (ie. we had pending changes).
*/
bool channel_rcvd_commit(struct channel *channel,
const struct htlc ***htlcs);
/**
* channel_sending_revoke_and_ack: sending ack on local committed changes.
* @channel: the channel
*
* This is where we commit to pending changes we've added. Returns true if
* anything changed for the remote commitment (ie. send a new commit).*/
bool channel_sending_revoke_and_ack(struct channel *channel);
/**
* num_channel_htlcs: how many (live) HTLCs at all in channel?
* @channel: the channel
*/
size_t num_channel_htlcs(const struct channel *channel);
/**
* channel_force_htlcs: force these htlcs into the (new) channel
* @channel: the channel
* @htlcs: the htlcs to add (tal_arr)
* @hstates: the states for the htlcs (tal_arr of same size)
* @fulfilled: htlcs of those which are fulfilled
* @fulfilled_sides: sides for ids in @fulfilled
* @failed: htlcs of those which are failed
* @failed_sides: sides for ids in @failed
* @failheight: block number which htlcs failed at.
*
* This is used for restoring a channel state.
*/
bool channel_force_htlcs(struct channel *channel,
const struct added_htlc *htlcs,
const enum htlc_state *hstates,
const struct fulfilled_htlc *fulfilled,
const enum side *fulfilled_sides,
const struct failed_htlc **failed,
const enum side *failed_sides,
u32 failheight);
/**
* dump_htlcs: debugging dump of all HTLCs
* @channel: the channel
* @prefix: the prefix to prepend to each line.
*
* Uses status_debug() on every HTLC.
*/
void dump_htlcs(const struct channel *channel, const char *prefix);
const char *channel_add_err_name(enum channel_add_err e);
const char *channel_remove_err_name(enum channel_remove_err e);
#endif /* LIGHTNING_CHANNELD_FULL_CHANNEL_H */