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mini_miner.h
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mini_miner.h
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// Copyright (c) 2022 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#ifndef BITCOIN_NODE_MINI_MINER_H
#define BITCOIN_NODE_MINI_MINER_H
#include <consensus/amount.h>
#include <primitives/transaction.h>
#include <uint256.h>
#include <map>
#include <memory>
#include <optional>
#include <set>
#include <stdint.h>
#include <vector>
class CFeeRate;
class CTxMemPool;
namespace node {
// Container for tracking updates to ancestor feerate as we include ancestors in the "block"
class MiniMinerMempoolEntry
{
const CTransactionRef tx;
const int64_t vsize_individual;
int64_t vsize_with_ancestors;
const CAmount fee_individual;
CAmount fee_with_ancestors;
// This class must be constructed while holding mempool.cs. After construction, the object's
// methods can be called without holding that lock.
public:
explicit MiniMinerMempoolEntry(const CTransactionRef& tx_in,
int64_t vsize_self,
int64_t vsize_ancestor,
CAmount fee_self,
CAmount fee_ancestor):
tx{tx_in},
vsize_individual{vsize_self},
vsize_with_ancestors{vsize_ancestor},
fee_individual{fee_self},
fee_with_ancestors{fee_ancestor}
{ }
CAmount GetModifiedFee() const { return fee_individual; }
CAmount GetModFeesWithAncestors() const { return fee_with_ancestors; }
int64_t GetTxSize() const { return vsize_individual; }
int64_t GetSizeWithAncestors() const { return vsize_with_ancestors; }
const CTransaction& GetTx() const LIFETIMEBOUND { return *tx; }
void UpdateAncestorState(int64_t vsize_change, CAmount fee_change) {
vsize_with_ancestors += vsize_change;
fee_with_ancestors += fee_change;
}
};
// Comparator needed for std::set<MockEntryMap::iterator>
struct IteratorComparator
{
template<typename I>
bool operator()(const I& a, const I& b) const
{
return a->first < b->first;
}
};
/** A minimal version of BlockAssembler, using the same ancestor set scoring algorithm. Allows us to
* run this algorithm on a limited set of transactions (e.g. subset of mempool or transactions that
* are not yet in mempool) instead of the entire mempool, ignoring consensus rules.
* Callers may use this to:
* - Calculate the "bump fee" needed to spend an unconfirmed UTXO at a given feerate
* - "Linearize" a list of transactions to see the order in which they would be selected for
* inclusion in a block
*/
class MiniMiner
{
// When true, a caller may use CalculateBumpFees(). Becomes false if we failed to retrieve
// mempool entries (i.e. cluster size too large) or bump fees have already been calculated.
bool m_ready_to_calculate{true};
// Set once per lifetime, fill in during initialization.
// txids of to-be-replaced transactions
std::set<uint256> m_to_be_replaced;
// If multiple argument outpoints correspond to the same transaction, cache them together in
// a single entry indexed by txid. Then we can just work with txids since all outpoints from
// the same tx will have the same bumpfee. Excludes non-mempool transactions.
std::map<uint256, std::vector<COutPoint>> m_requested_outpoints_by_txid;
// Txid to a number representing the order in which this transaction was included (smaller
// number = included earlier). Transactions included in an ancestor set together have the same
// sequence number.
std::map<Txid, uint32_t> m_inclusion_order;
// What we're trying to calculate. Outpoint to the fee needed to bring the transaction to the target feerate.
std::map<COutPoint, CAmount> m_bump_fees;
// The constructed block template
std::set<uint256> m_in_block;
// Information on the current status of the block
CAmount m_total_fees{0};
int32_t m_total_vsize{0};
/** Main data structure holding the entries, can be indexed by txid */
std::map<uint256, MiniMinerMempoolEntry> m_entries_by_txid;
using MockEntryMap = decltype(m_entries_by_txid);
/** Vector of entries, can be sorted by ancestor feerate. */
std::vector<MockEntryMap::iterator> m_entries;
/** Map of txid to its descendants. Should be inclusive. */
std::map<uint256, std::vector<MockEntryMap::iterator>> m_descendant_set_by_txid;
/** Consider this ancestor package "mined" so remove all these entries from our data structures. */
void DeleteAncestorPackage(const std::set<MockEntryMap::iterator, IteratorComparator>& ancestors);
/** Perform some checks. */
void SanityCheck() const;
public:
/** Returns true if CalculateBumpFees may be called, false if not. */
bool IsReadyToCalculate() const { return m_ready_to_calculate; }
/** Build a block template until the target feerate is hit. If target_feerate is not given,
* builds a block template until all transactions have been selected. */
void BuildMockTemplate(std::optional<CFeeRate> target_feerate);
/** Returns set of txids in the block template if one has been constructed. */
std::set<uint256> GetMockTemplateTxids() const { return m_in_block; }
/** Constructor that takes a list of outpoints that may or may not belong to transactions in the
* mempool. Copies out information about the relevant transactions in the mempool into
* MiniMinerMempoolEntrys.
*/
MiniMiner(const CTxMemPool& mempool, const std::vector<COutPoint>& outpoints);
/** Constructor in which the MiniMinerMempoolEntry entries have been constructed manually.
* It is assumed that all entries are unique and their values are correct, otherwise results
* computed by MiniMiner may be incorrect. Callers should check IsReadyToCalculate() after
* construction.
* @param[in] descendant_caches A map from each transaction to the set of txids of this
* transaction's descendant set, including itself. Each tx in
* manual_entries must have a corresponding entry in this map, and
* all of the txids in a descendant set must correspond to a tx in
* manual_entries.
*/
MiniMiner(const std::vector<MiniMinerMempoolEntry>& manual_entries,
const std::map<Txid, std::set<Txid>>& descendant_caches);
/** Construct a new block template and, for each outpoint corresponding to a transaction that
* did not make it into the block, calculate the cost of bumping those transactions (and their
* ancestors) to the minimum feerate. Returns a map from outpoint to bump fee, or an empty map
* if they cannot be calculated. */
std::map<COutPoint, CAmount> CalculateBumpFees(const CFeeRate& target_feerate);
/** Construct a new block template and, calculate the cost of bumping all transactions that did
* not make it into the block to the target feerate. Returns the total bump fee, or std::nullopt
* if it cannot be calculated. */
std::optional<CAmount> CalculateTotalBumpFees(const CFeeRate& target_feerate);
/** Construct a new block template with all of the transactions and calculate the order in which
* they are selected. Returns the sequence number (lower = selected earlier) with which each
* transaction was selected, indexed by txid, or an empty map if it cannot be calculated.
*/
std::map<Txid, uint32_t> Linearize();
};
} // namespace node
#endif // BITCOIN_NODE_MINI_MINER_H