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#ifndef LIGHTNING_LIGHTNINGD_CHAINTOPOLOGY_H
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#define LIGHTNING_LIGHTNINGD_CHAINTOPOLOGY_H
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#include "config.h"
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#include <bitcoin/block.h>
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#include <bitcoin/tx.h>
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#include <ccan/list/list.h>
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#include <ccan/short_types/short_types.h>
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#include <ccan/structeq/structeq.h>
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#include <ccan/time/time.h>
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#include <jsmn.h>
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#include <lightningd/json.h>
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#include <lightningd/watch.h>
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#include <math.h>
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#include <stddef.h>
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struct bitcoin_tx;
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struct bitcoind;
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struct command;
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struct lightningd;
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struct peer;
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struct txwatch;
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/* FIXME: move all feerate stuff out to new lightningd/feerate.[ch] files */
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enum feerate {
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chaintopology: better feerate targets differentiation
We kept track of an URGENT, a NORMAL, and a SLOW feerate. They were used
for opening (NORMAL), mutual (NORMAL), UNILATERAL (URGENT) transactions
as well as minimum and maximum estimations, and onchain resolution.
We now keep track of more fine-grained feerates:
- `opening` used for funding and also misc transactions
- `mutual_close` used for the mutual close transaction
- `unilateral_close` used for unilateral close (commitment transactions)
- `delayed_to_us` used for resolving our output from our unilateral close
- `htlc_resolution` used for resolving onchain HTLCs
- `penalty` used for resolving revoked transactions
We don't modify our requests to our Bitcoin backend, as the next commit
will batch them !
Changelog-deprecated: The "urgent", "slow", and "normal" field of the `feerates` command are now deprecated.
Changelog-added: The fields "opening", "mutual_close", "unilateral_close", "delayed_to_us", "htlc_resolution" and "penalty" have been added to the `feerates` command.
5 years ago
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FEERATE_OPENING,
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FEERATE_MUTUAL_CLOSE,
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FEERATE_UNILATERAL_CLOSE,
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FEERATE_DELAYED_TO_US,
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FEERATE_HTLC_RESOLUTION,
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FEERATE_PENALTY,
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FEERATE_MIN,
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FEERATE_MAX,
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};
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chaintopology: better feerate targets differentiation
We kept track of an URGENT, a NORMAL, and a SLOW feerate. They were used
for opening (NORMAL), mutual (NORMAL), UNILATERAL (URGENT) transactions
as well as minimum and maximum estimations, and onchain resolution.
We now keep track of more fine-grained feerates:
- `opening` used for funding and also misc transactions
- `mutual_close` used for the mutual close transaction
- `unilateral_close` used for unilateral close (commitment transactions)
- `delayed_to_us` used for resolving our output from our unilateral close
- `htlc_resolution` used for resolving onchain HTLCs
- `penalty` used for resolving revoked transactions
We don't modify our requests to our Bitcoin backend, as the next commit
will batch them !
Changelog-deprecated: The "urgent", "slow", and "normal" field of the `feerates` command are now deprecated.
Changelog-added: The fields "opening", "mutual_close", "unilateral_close", "delayed_to_us", "htlc_resolution" and "penalty" have been added to the `feerates` command.
5 years ago
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#define NUM_FEERATES (FEERATE_MAX+1)
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/* We keep the last three in case there are outliers (for min/max) */
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#define FEE_HISTORY_NUM 3
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/* Off topology->outgoing_txs */
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struct outgoing_tx {
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struct list_node list;
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struct channel *channel;
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const char *hextx;
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struct bitcoin_txid txid;
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void (*failed_or_success)(struct channel *channel, bool success, const char *err);
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};
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struct block {
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u32 height;
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/* Actual header. */
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struct bitcoin_block_hdr hdr;
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/* Previous block (if any). */
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struct block *prev;
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/* Next block (if any). */
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struct block *next;
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/* Key for hash table */
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struct bitcoin_blkid blkid;
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/* Full copy of txs (freed in filter_block_txs) */
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struct bitcoin_tx **full_txs;
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struct bitcoin_txid *txids;
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};
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/* Hash blocks by sha */
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static inline const struct bitcoin_blkid *keyof_block_map(const struct block *b)
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{
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return &b->blkid;
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}
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static inline size_t hash_sha(const struct bitcoin_blkid *key)
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{
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size_t ret;
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memcpy(&ret, key, sizeof(ret));
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return ret;
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}
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static inline bool block_eq(const struct block *b, const struct bitcoin_blkid *key)
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{
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return bitcoin_blkid_eq(&b->blkid, key);
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}
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HTABLE_DEFINE_TYPE(struct block, keyof_block_map, hash_sha, block_eq, block_map);
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struct chain_topology {
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struct lightningd *ld;
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struct block *root;
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struct block *tip;
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struct bitcoin_blkid prev_tip;
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struct block_map block_map;
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u32 feerate[NUM_FEERATES];
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bool feerate_uninitialized;
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u32 feehistory[NUM_FEERATES][FEE_HISTORY_NUM];
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/* Where to log things. */
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struct log *log;
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/* What range of blocks do we have in our database? */
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u32 min_blockheight, max_blockheight;
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/* How often to poll. */
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u32 poll_seconds;
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/* struct sync_waiters waiting for us to catch up with bitcoind (and
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* once that has caught up with the network). NULL if we're already
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* caught up. */
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struct list_head *sync_waiters;
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/* The bitcoind. */
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struct bitcoind *bitcoind;
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/* Our timer list. */
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struct timers *timers;
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/* Bitcoin transactions we're broadcasting */
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struct list_head outgoing_txs;
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/* Transactions/txos we are watching. */
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struct txwatch_hash txwatches;
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struct txowatch_hash txowatches;
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/* The number of headers known to the bitcoin backend at startup. Not
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* updated after the initial check. */
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u32 headercount;
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};
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/* Information relevant to locating a TX in a blockchain. */
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struct txlocator {
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/* The height of the block that includes this transaction */
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u32 blkheight;
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/* Position of the transaction in the transactions list */
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u32 index;
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};
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/* This is the number of blocks which would have to be mined to invalidate
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* the tx */
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size_t get_tx_depth(const struct chain_topology *topo,
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const struct bitcoin_txid *txid);
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/* Get highest block number. */
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u32 get_block_height(const struct chain_topology *topo);
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/* Get the highest block number in the network that we are aware of. Unlike
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* `get_block_height` this takes into consideration the block header counter
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* in the bitcoin backend as well. If an absolute time is required, rather
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* than our current scan position this is preferable since it is far less
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* likely to lag behind the rest of the network.*/
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u32 get_network_blockheight(const struct chain_topology *topo);
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/* Get fee rate in satoshi per kiloweight, or 0 if unavailable! */
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u32 try_get_feerate(const struct chain_topology *topo, enum feerate feerate);
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/* Get range of feerates to insist other side abide by for normal channels.
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* If we have to guess, sets *unknown to true, otherwise false. */
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u32 feerate_min(struct lightningd *ld, bool *unknown);
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u32 feerate_max(struct lightningd *ld, bool *unknown);
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u32 opening_feerate(struct chain_topology *topo);
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u32 mutual_close_feerate(struct chain_topology *topo);
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u32 unilateral_feerate(struct chain_topology *topo);
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/* For onchain resolution. */
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u32 delayed_to_us_feerate(struct chain_topology *topo);
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u32 htlc_resolution_feerate(struct chain_topology *topo);
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u32 penalty_feerate(struct chain_topology *topo);
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const char *feerate_name(enum feerate feerate);
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/* Set feerate_per_kw to this estimate & return NULL, or fail cmd */
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struct command_result *param_feerate_estimate(struct command *cmd,
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u32 **feerate_per_kw,
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enum feerate feerate);
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/* Broadcast a single tx, and rebroadcast as reqd (copies tx).
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* If failed is non-NULL, call that and don't rebroadcast. */
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void broadcast_tx(struct chain_topology *topo,
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struct channel *channel, const struct bitcoin_tx *tx,
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void (*failed)(struct channel *channel,
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bool success,
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const char *err));
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/* Like the above, but with an additional `allowhighfees` parameter.
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* If true, suppress any high-fee checks in the backend. */
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void broadcast_tx_ahf(struct chain_topology *topo,
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struct channel *channel, const struct bitcoin_tx *tx,
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bool allowhighfees,
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void (*failed)(struct channel *channel,
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bool success,
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const char *err));
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struct chain_topology *new_topology(struct lightningd *ld, struct log *log);
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void setup_topology(struct chain_topology *topology, struct timers *timers,
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u32 min_blockheight, u32 max_blockheight);
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void begin_topology(struct chain_topology *topo);
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struct txlocator *locate_tx(const void *ctx, const struct chain_topology *topo, const struct bitcoin_txid *txid);
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static inline bool topology_synced(const struct chain_topology *topo)
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{
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return topo->sync_waiters == NULL;
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}
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/**
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* topology_add_sync_waiter: wait for lightningd to sync with bitcoin network
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* @ctx: context to allocate the waiter from.
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* @topo: chain topology
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* @cb: callback to call when we're synced.
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* @arg: arg for @cb
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*
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* topology_synced() must be false when this is called. It will be true
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* when @cb is called. @cb will not be called if @ctx is freed first.
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*/
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void topology_add_sync_waiter_(const tal_t *ctx,
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struct chain_topology *topo,
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void (*cb)(struct chain_topology *topo,
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void *arg),
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void *arg);
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#define topology_add_sync_waiter(ctx, topo, cb, arg) \
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topology_add_sync_waiter_((ctx), (topo), \
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typesafe_cb_preargs(void, void *, \
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(cb), (arg), \
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struct chain_topology *), \
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(arg))
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/* In channel_control.c */
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void notify_feerate_change(struct lightningd *ld);
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#endif /* LIGHTNING_LIGHTNINGD_CHAINTOPOLOGY_H */
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